diff options
Diffstat (limited to 'lib/asn1')
199 files changed, 14978 insertions, 8673 deletions
diff --git a/lib/asn1/doc/src/Makefile b/lib/asn1/doc/src/Makefile index 3b3e1bd8f9..f26508295c 100644 --- a/lib/asn1/doc/src/Makefile +++ b/lib/asn1/doc/src/Makefile @@ -48,7 +48,9 @@ XML_HTML_FILE = \ notes_history.xml XML_CHAPTER_FILES = \ - asn1_ug.xml \ + asn1_introduction.xml \ + asn1_getting_started.xml \ + asn1_overview.xml \ asn1_spec.xml \ notes.xml diff --git a/lib/asn1/doc/src/asn1_getting_started.xml b/lib/asn1/doc/src/asn1_getting_started.xml new file mode 100644 index 0000000000..1a9c279191 --- /dev/null +++ b/lib/asn1/doc/src/asn1_getting_started.xml @@ -0,0 +1,1290 @@ +<?xml version="1.0" encoding="utf-8" ?> +<!DOCTYPE chapter SYSTEM "chapter.dtd"> + +<chapter> + <header> + <copyright> + <year>1997</year><year>2013</year> + <holder>Ericsson AB. All Rights Reserved.</holder> + </copyright> + <legalnotice> + The contents of this file are subject to the Erlang Public License, + Version 1.1, (the "License"); you may not use this file except in + compliance with the License. You should have received a copy of the + Erlang Public License along with this software. If not, it can be + retrieved online at http://www.erlang.org/. + + Software distributed under the License is distributed on an "AS IS" + basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See + the License for the specific language governing rights and limitations + under the License. + + </legalnotice> + + <title>Getting Started</title> + <prepared>Kenneth Lundin</prepared> + <docno></docno> + <date>1999-03-25</date> + <rev>D</rev> + <file>asn1_getting_started.xml</file> + </header> + + <section> + <title>Example</title> + <p>The following example demonstrates the basic functionality used to + run the Erlang ASN.1 compiler.</p> + <p>Create a file named <c>People.asn</c> containing the following:</p> + <pre> +People DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + Person ::= SEQUENCE { + name PrintableString, + location INTEGER {home(0),field(1),roving(2)}, + age INTEGER OPTIONAL + } +END </pre> + <p>This file must be compiled before it can be used. + The ASN.1 compiler checks that the syntax is correct and that the + text represents proper ASN.1 code before generating an abstract + syntax tree. The code-generator then uses the abstract syntax + tree to generate code.</p> + <p>The generated Erlang files are placed in the current directory or + in the directory specified with option <c>{outdir,Dir}</c>.</p> + <p>The following shows how the compiler + can be called from the Erlang shell:</p> + + <pre> +1><input> asn1ct:compile("People", [ber]).</input> +ok +2> </pre> + + <p>Option <c>verbose</c> can be added to get information + about the generated files:</p> + <pre> +2><input> asn1ct:compile("People", [ber,verbose]).</input> +Erlang ASN.1 compiling "People.asn" +--{generated,"People.asn1db"}-- +--{generated,"People.hrl"}-- +--{generated,"People.erl"}-- +ok +3> </pre> + + <p>ASN.1 module <c>People</c> is now accepted and the + abstract syntax tree is saved in file <c>People.asn1db</c>. + The generated Erlang code is compiled using the Erlang compiler + and loaded into the Erlang runtime system. There is now an API + for <c>encode/2</c> and <c>decode/2</c> in module + <c>People</c>, which is called like:<br></br> + <c><![CDATA['People':encode(<Type name>, <Value>)]]></c> + <br></br> + or<br></br> +<c><![CDATA['People':decode(<Type name>, <Value>)]]></c></p> + + <p>Assume that there is a network + application that receives instances of the ASN.1 defined + type <c>Person</c>, modifies, and sends them back again:</p> + + <code type="none"> +receive + {Port,{data,Bytes}} -> + case 'People':decode('Person',Bytes) of + {ok,P} -> + {ok,Answer} = 'People':encode('Person',mk_answer(P)), + Port ! {self(),{command,Answer}}; + {error,Reason} -> + exit({error,Reason}) + end + end, </code> + <p>In this example, a series of bytes is received from an + external source and the bytes are then decoded into a valid + Erlang term. This was achieved with the call + <c>'People':decode('Person',Bytes)</c>, which returned + an Erlang value of the ASN.1 type <c>Person</c>. Then an answer was + constructed and encoded using + <c>'People':encode('Person',Answer)</c>, which takes an + instance of a defined ASN.1 type and transforms it to a + binary according to the BER or PER encoding rules.</p> + <p>The encoder and decoder can also be run from the shell:</p> + <pre> +2> <input>Rockstar = {'Person',"Some Name",roving,50}.</input> +{'Person',"Some Name",roving,50} +3> <input>{ok,Bin} = 'People':encode('Person',Rockstar).</input> +{ok,<<243,17,19,9,83,111,109,101,32,78,97,109,101,2,1,2, + 2,1,50>>} +4> <input>{ok,Person} = 'People':decode('Person',Bin).</input> +{ok,{'Person',"Some Name",roving,50}} +5> </pre> + + <section> + <title>Module Dependencies</title> + <p>It is common that ASN.1 modules import defined types, values, and + other entities from another ASN.1 module.</p> + <p>Earlier versions of the ASN.1 compiler required that modules + that were imported from had to be compiled before the module + that imported. This caused problems when ASN.1 modules had circular + dependencies.</p> + <p>Referenced modules are now parsed when the compiler finds an + entity that is imported. No code is generated for + the referenced module. However, the compiled modules rely on + that the referenced modules are also compiled.</p> + </section> + </section> + + <section> + <title>ASN.1 Application User Interface</title> + <p>The <c>ASN.1</c> application provides the following two + separate user interfaces:</p> + <list type="bulleted"> + <item> + <p>The module <c>asn1ct</c>, which provides the compile-time functions + (including the compiler)</p> + </item> + <item> + <p>The module <c>asn1rt_nif</c>, which provides the runtime functions + for the ASN.1 decoder for the BER back end</p> + </item> + </list> + <p>The reason for this division of the interfaces into compile-time + and runtime + is that only runtime modules (<c>asn1rt*</c>) need to be loaded in + an embedded system. + </p> + + <section> + <title>Compile-Time Functions</title> + <p>The ASN.1 compiler can be started directly from the command line + by the <c>erlc</c> program. This is convenient when compiling + many ASN.1 files from the command line or when using Makefiles. + Some examples of how the <c>erlc</c> command can be used to start + the ASN.1 compiler:</p> + <pre> +erlc Person.asn +erlc -bper Person.asn +erlc -bber ../Example.asn +erlc -o ../asnfiles -I ../asnfiles -I /usr/local/standards/asn1 Person.asn</pre> + <p>Useful options for the ASN.1 compiler:</p> + <taglist> + <tag><c>-b[ber | per | uper]</c></tag> + <item> + <p>Choice of encoding rules. If omitted, <c>ber</c> is the + default.</p> + </item> + <tag><c>-o OutDirectory</c></tag> + <item> + <p>Where to put the generated files. Default is the current + directory.</p> + </item> + <tag><c>-I IncludeDir</c></tag> + <item> + <p>Where to search for <c>.asn1db</c> files and ASN.1 + source specs to resolve references to other + modules. This option can be repeated many times if there + are several places to search in. The compiler + searches the current directory first.</p> + </item> + <tag><c>+der</c></tag> + <item> + <p>DER encoding rule. Only when using option <c>-ber</c>.</p> + </item> + <tag><c>+asn1config</c></tag> + <item> + <p>This functionality works together with option + <c>ber</c>. It enables the specialized decodes, see Section + <seealso marker="asn1_spec">Specialized Decode</seealso>.</p> + </item> + <tag><c>+undec_rest</c></tag> + <item> + <p>A buffer that holds a message being decoded can also have + trailing bytes. If those trailing bytes are important, they + can be returned along with the decoded value by compiling + the ASN.1 specification with option <c>+undec_rest</c>. + The return value from the decoder is + <c>{ok,Value,Rest}</c> where <c>Rest</c> is a binary + containing the trailing bytes.</p> + </item> + <tag><c>+'Any Erlc Option'</c></tag> + <item> + <p>Any option can be added to the Erlang compiler when + compiling the generated Erlang files. Any option + unrecognized by the ASN.1 compiler is passed to the + Erlang compiler.</p> + </item> + </taglist> + <p>For a complete description of <c>erlc</c>, see + ERTS Reference Manual.</p> + <p>The compiler and other compile-time functions can also be started + from the Erlang shell. Here follows a brief + description of the primary functions. For a + complete description of each function, see module <c>asn1ct</c> in + the <seealso marker="asn1ct">ASN.1 Reference Manual</seealso>.</p> + <p>The compiler is started by <c>asn1ct:compile/1</c> with + default options, or <c>asn1ct:compile/2</c> if explicit options + are given.</p> + <p>Example:</p> + <pre> +asn1ct:compile("H323-MESSAGES.asn1"). </pre> + <p>This equals:</p> + <pre> +asn1ct:compile("H323-MESSAGES.asn1",[ber]). </pre> + <p>If PER encoding is wanted:</p> + <pre> +asn1ct:compile("H323-MESSAGES.asn1",[per]). </pre> + <p>The generic encode and decode functions can be called + as follows:</p> + <pre> +'H323-MESSAGES':encode('SomeChoiceType',{call,<<"octetstring">>}). +'H323-MESSAGES':decode('SomeChoiceType',Bytes). </pre> + </section> + + <section> + <title>Runtime Functions</title> + <p>When an ASN.1 specification is compiled with option <c>ber</c>, + the <c>asn1rt_nif</c> module and the NIF library in + <c>asn1/priv_dir</c> are needed at runtime.</p> + <p>By calling function <c>info/0</c> in a generated module, you + get information about which compiler options were used.</p> + </section> + + <section> + <title>Errors</title> + <p>Errors detected at + compile-time are displayed on the screen together with line + numbers indicating where in the source file the respective error + was detected. If no errors are found, an Erlang ASN.1 module is + created.</p> + <p>The runtime encoders and decoders execute within a catch and + return <c>{ok, Data}</c> or + <c>{error, {asn1, Description}}</c> where + <c>Description</c> is + an Erlang term describing the error.</p> + </section> + </section> + + <section> + <marker id="inlineExamples"></marker> + <title>Multi-File Compilation</title> + <p>There are various reasons for using multi-file compilation:</p> + <list type="bulleted"> + <item>To choose the name for the generated module, for + example, because you need to compile the same specs for + different encoding rules.</item> + <item>You want only one resulting module.</item> + </list> + <p>Specify which ASN.1 specs to compile in a module with extension + <c>.set.asn</c>. Choose a module name and provide the + names of the ASN.1 specs. For example, if you have the specs + <c>File1.asn</c>, <c>File2.asn</c>, and <c>File3.asn</c>, your + module <c>MyModule.set.asn</c> looks as follows:</p> + <pre> +File1.asn +File2.asn +File3.asn </pre> + <p>If you compile with the following, the result is one merged + module <c>MyModule.erl</c> with the generated code from the three + ASN.1 specs:</p> + <code type="none"> +~> erlc MyModule.set.asn </code> + </section> + + <section> + <title>Remark about Tags</title> + + <p>Tags used to be important for all users of ASN.1, because it + was necessary to add tags manually to certain constructs in order + for the ASN.1 specification to be valid. Example of + an old-style specification:</p> + + <pre> +Tags DEFINITIONS ::= +BEGIN + Afters ::= CHOICE { cheese [0] IA5String, + dessert [1] IA5String } +END </pre> + + <p>Without the tags (the numbers in square brackets) the ASN.1 + compiler refused to compile the file.</p> + + <p>In 1994 the global tagging mode <c>AUTOMATIC TAGS</c> was introduced. + By putting <c>AUTOMATIC TAGS</c> in the module header, the ASN.1 + compiler automatically adds tags when needed. The following is the + same specification in <c>AUTOMATIC TAGS</c> mode:</p> + + <pre> +Tags DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + Afters ::= CHOICE { cheese IA5String, + dessert IA5String } +END </pre> + + <p>Tags are not mentioned any more in this User's Guide.</p> + </section> + + <section> + <marker id="ASN1Types"></marker> + <title>ASN.1 Types</title> + <p>This section describes the ASN.1 types including their + functionality, purpose, and how values are assigned in Erlang. + </p> + <p>ASN.1 has both primitive and constructed types:</p> + <p></p> + <table> + <row> + <cell align="left" valign="middle"><em>Primitive Types</em></cell> + <cell align="left" valign="middle"><em>Constructed Types</em></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#BOOLEAN">BOOLEAN</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#SEQUENCE">SEQUENCE</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#INTEGER">INTEGER</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#SET">SET</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#REAL">REAL</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#CHOICE">CHOICE</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#NULL">NULL</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#SOF">SET OF and SEQUENCE OF</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#ENUMERATED">ENUMERATED</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#ANY">ANY</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#BIT STRING">BIT STRING</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#ANY">ANY DEFINED BY</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#OCTET STRING">OCTET STRING</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">EXTERNAL</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#Character Strings">Character Strings</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">EMBEDDED PDV</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#OBJECT IDENTIFIER">OBJECT IDENTIFIER</seealso></cell> + <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">CHARACTER STRING</seealso></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#Object Descriptor">Object Descriptor</seealso></cell> + <cell align="left" valign="middle"></cell> + </row> + <row> + <cell align="left" valign="middle"><seealso marker="#The TIME types">TIME Types</seealso></cell> + <cell align="left" valign="middle"></cell> + </row> + <tcaption>Supported ASN.1 Types</tcaption> + </table> + <marker id="TypeNameValue"></marker> + <note> + <p>The values of each ASN.1 type have their own representation in Erlang, as + described in the following sections. Users must provide + these values for encoding according to the representation, as shown in the + following example:</p> + </note> + <pre> +Operational ::= BOOLEAN --ASN.1 definition </pre> + <p>In Erlang code it can look as follows:</p> + <pre> +Val = true, +{ok,Bytes} = MyModule:encode('Operational', Val), </pre> + + <section> + <marker id="BOOLEAN"></marker> + <title>BOOLEAN</title> + <p>Booleans in ASN.1 express values that can be either + <c>TRUE</c> or <c>FALSE</c>. + The meanings assigned to <c>TRUE</c> and <c>FALSE</c> are outside the scope + of this text.</p> + <p>In ASN.1 it is possible to have:</p> + <pre> +Operational ::= BOOLEAN</pre> + <p>Assigning a value to type <c>Operational</c> in Erlang is possible by + using the following Erlang code:</p> + <code type="erl"> +Myvar1 = true,</code> + <p>Thus, in Erlang the atoms <c>true</c> and <c>false</c> are used + to encode a boolean value.</p> + </section> + + <section> + <marker id="INTEGER"></marker> + <title>INTEGER</title> + <p>ASN.1 itself specifies indefinitely large integers. Erlang + systems with version 4.3 and higher support very large + integers, in practice indefinitely large integers.</p> + <p>The concept of subtyping can be applied to integers and + to other ASN.1 types. The details of subtyping are not + explained here; for more information, see X.680. Various + syntaxes are allowed when defining a type as an integer:</p> + <pre> +T1 ::= INTEGER +T2 ::= INTEGER (-2..7) +T3 ::= INTEGER (0..MAX) +T4 ::= INTEGER (0<..MAX) +T5 ::= INTEGER (MIN<..-99) +T6 ::= INTEGER {red(0),blue(1),white(2)}</pre> + <p>The Erlang representation of an ASN.1 <c>INTEGER</c> is an integer or + an atom if a <c>Named Number List</c> (see <c>T6</c> in the previous + list) is specified.</p> + <p>The following is an example of Erlang code that assigns values for the + types in the previous list:</p> + <pre> +T1value = 0, +T2value = 6, +T6value1 = blue, +T6value2 = 0, +T6value3 = white</pre> + <p>These Erlang variables are now bound to valid instances of + ASN.1 defined types. This style of value can be passed directly + to the encoder for transformation into a series of bytes.</p> + <p>The decoder returns an atom if the value corresponds to a + symbol in the <c>Named Number List</c>.</p> + </section> + + <section> + <marker id="REAL"></marker> + <title>REAL</title> + <p>The following ASN.1 type is used for real numbers:</p> + <pre> +R1 ::= REAL</pre> + <p>It is assigned a value in Erlang as follows:</p> + <pre> +R1value1 = "2.14", +R1value2 = {256,10,-2},</pre> + <p>In the last line, notice that the tuple {256,10,-2} is the real number + 2.56 in a special notation, which encodes faster than simply + stating the number as <c>"2.56"</c>. The arity three tuple is + <c>{Mantissa,Base,Exponent}</c>, that is, Mantissa * Base^Exponent.</p> + </section> + + <section> + <marker id="NULL"></marker> + <title>NULL</title> + <p>The type <c>NULL</c> is suitable where supply and recognition of a value + is important but the actual value is not.</p> + <pre> +Notype ::= NULL</pre> + <p>This type is assigned in Erlang as follows:</p> + <pre> +N1 = 'NULL',</pre> + <p>The actual value is the quoted atom <c>'NULL'</c>.</p> + </section> + + <section> + <marker id="ENUMERATED"></marker> + <title>ENUMERATED</title> + <p>The type <c>ENUMERATED</c> can be used when the value you want to + describe can only take one of a set of predefined values. Example:</p> + <pre> +DaysOfTheWeek ::= ENUMERATED { + sunday(1),monday(2),tuesday(3), + wednesday(4),thursday(5),friday(6),saturday(7) }</pre> + <p>For example, to assign a weekday value in Erlang, use the same atom + as in the <c>Enumerations</c> of the type definition:</p> + <pre> +Day1 = saturday,</pre> + <p>The enumerated type is similar to an integer type, when + defined with a set of predefined values. The difference is that + an enumerated type can only have specified + values, whereas an integer can have any value.</p> + </section> + + <section> + <marker id="BIT STRING"></marker> + <title>BIT STRING</title> + <p>The type <c>BIT STRING</c> can be used to model information that + is made up of arbitrary length series of bits. It is intended + to be used for selection of flags, not for binary files.</p> + <p>In ASN.1, <c>BIT STRING</c> definitions can look as follows:</p> + <pre> +Bits1 ::= BIT STRING +Bits2 ::= BIT STRING {foo(0),bar(1),gnu(2),gnome(3),punk(14)}</pre> + <p>The following two notations are available for representation of <c>BIT + STRING</c> values in Erlang and as input to the encode functions:</p> + <list type="ordered"> + <item>A bitstring. By default, a <c>BIT STRING</c> with no + symbolic names is decoded to an Erlang bitstring.</item> + <item>A list of atoms corresponding to atoms in the <c>NamedBitList</c> + in the <c>BIT STRING</c> definition. A <c>BIT STRING</c> with symbolic + names is always decoded to the format shown in the following + example:</item> + </list> + <pre> +Bits1Val1 = <<0:1,1:1,0:1,1:1,1:1>>, +Bits2Val1 = [gnu,punk], +Bits2Val2 = <<2#1110:4>>, +Bits2Val3 = [bar,gnu,gnome],</pre> + <p><c>Bits2Val2</c> and <c>Bits2Val3</c> denote the same value.</p> + <p><c>Bits2Val1</c> is assigned symbolic values. The assignment means + that the bits corresponding to <c>gnu</c> and <c>punk</c>, that is, bits + 2 and 14 are set to 1, and the rest are set to 0. The symbolic values + are shown as a list of values. If a named value, which is not + specified in the type definition, is shown, a runtime error occurs.</p> + <p><c>BIT STRING</c>s can also be subtyped with, for example, a <c>SIZE</c> + specification:</p> + <pre> +Bits3 ::= BIT STRING (SIZE(0..31)) </pre> + <p>This means that no bit higher than 31 can be set.</p> + + <section> + <title>Deprecated Representations for BIT STRING</title> + <p>In addition to the representations described earlier, the + following deprecated representations are available if the + specification has been compiled with option + <c>legacy_erlang_types</c>:</p> + <list type="ordered"> + <item>Aa a list of binary digits (0 or 1). This format is + accepted as input to the encode functions, and a <c>BIT STRING</c> + is decoded to this format if option + <em>legacy_bit_string</em> is given. + </item> + <item>As <c>{Unused,Binary}</c> where <c>Unused</c> denotes + how many trailing zero-bits 0-7 that are unused in the + least significant byte in <c>Binary</c>. This format is + accepted as input to the encode functions, and a <c>BIT + STRING</c> is decoded to this format if + <c>compact_bit_string</c> has been given. + </item> + <item>As a hexadecimal number (or an integer). Avoid this + as it is easy to misinterpret a <c>BIT + STRING</c> value in this format. + </item> + </list> + </section> + </section> + + <section> + <marker id="OCTET STRING"></marker> + <title>OCTET STRING</title> + <p><c>OCTET STRING</c> is the simplest of all ASN.1 types. <c>OCTET + STRING</c> only moves or transfers, for example, binary files or other + unstructured information complying with two rules: the + bytes consist of octets and encoding is not required.</p> + <p>It is possible to have the following ASN.1 type definitions:</p> + <pre> +O1 ::= OCTET STRING +O2 ::= OCTET STRING (SIZE(28)) </pre> + <p>With the following example assignments in Erlang:</p> + <pre> +O1Val = <<17,13,19,20,0,0,255,254>>, +O2Val = <<"must be exactly 28 chars....">>,</pre> + <p>By default, an <c>OCTET STRING</c> is always represented as + an Erlang binary. If the specification has been compiled with + option <c>legacy_erlang_types</c>, the encode functions + accept both lists and binaries, and the decode functions + decode an <c>OCTET STRING</c> to a list.</p> + </section> + + <section> + <marker id="Character Strings"></marker> + <title>Character Strings</title> + <p>ASN.1 supports a wide variety of character sets. The main difference + between an <c>OCTET STRING</c> and a character string is that the + <c>OCTET STRING</c> has no imposed semantics on the bytes delivered.</p> + <p>However, when using, for example, IA5String (which closely + resembles ASCII), byte 65 (in decimal + notation) <em>means</em> character 'A'. + </p> + <p>For example, if a defined type is to be a VideotexString and + an octet is received with the unsigned integer value <c>X</c>, + the octet is to be interpreted as specified in standard + ITU-T T.100, T.101. + </p> + <p>The ASN.1 to Erlang compiler + does not determine the correct interpretation of each BER + string octet value with different character strings. The + application is responsible for interpretation + of octets. Therefore, from the BER + string point of view, octets are very similar to + character strings and are compiled in the same way. + </p> + <p>When PER is + used, there is a significant difference in the encoding scheme + between <c>OCTET STRING</c>s and other strings. The constraints + specified for a type are especially important for PER, where + they affect the encoding. + </p> + <p>Examples:</p> + <pre> +Digs ::= NumericString (SIZE(1..3)) +TextFile ::= IA5String (SIZE(0..64000)) </pre> + <p>The corresponding Erlang assignments:</p> + <pre> +DigsVal1 = "456", +DigsVal2 = "123", +TextFileVal1 = "abc...xyz...", +TextFileVal2 = [88,76,55,44,99,121 .......... a lot of characters here ....]</pre> + <p>The Erlang representation for "BMPString" and + "UniversalString" is either a list of ASCII values or a list + of quadruples. The quadruple representation associates to the + Unicode standard representation of characters. The ASCII + characters are all represented by quadruples beginning with + three zeros like {0,0,0,65} for character 'A'. When + decoding a value for these strings, the result is a list of + quadruples, or integers when the value is an ASCII character.</p> + + <p>The following example shows how it works. Assume the following + specification is in file <c>PrimStrings.asn1</c>:</p> + <pre> +PrimStrings DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + BMP ::= BMPString +END </pre> + + <p>Encoding and decoding some strings:</p> + + <pre> +1> <input>asn1ct:compile('PrimStrings', [ber]).</input> +ok +2> <input>{ok,Bytes1} = 'PrimStrings':encode('BMP', [{0,0,53,53},{0,0,45,56}]).</input> +{ok,<<30,4,53,54,45,56>>} +3> <input>'PrimStrings':decode('BMP', Bytes1).</input> +{ok,[{0,0,53,53},{0,0,45,56}]} +4> <input>{ok,Bytes2} = 'PrimStrings':encode('BMP', [{0,0,53,53},{0,0,0,65}]).</input> +{ok,<<30,4,53,53,0,65>>} +5> <input>'PrimStrings':decode('BMP', Bytes2).</input> +{ok,[{0,0,53,53},65]} +6> <input>{ok,Bytes3} = 'PrimStrings':encode('BMP', "BMP string").</input> +{ok,<<30,20,0,66,0,77,0,80,0,32,0,115,0,116,0,114,0,105,0,110,0,103>>} +7> <input>'PrimStrings':decode('BMP', Bytes3).</input> +{ok,"BMP string"} </pre> + + <p>Type UTF8String is represented as a UTF-8 encoded binary in + Erlang. Such binaries can be created directly using the binary syntax + or by converting from a list of Unicode code points using function + <c>unicode:characters_to_binary/1</c>.</p> + + <p>The following shows examples of how UTF-8 encoded binaries can + be created and manipulated:</p> + <pre> +1> <input>Gs = "Мой маленький Гном".</input> +[1052,1086,1081,32,1084,1072,1083,1077,1085,1100,1082,1080, + 1081,32,1043,1085,1086,1084] +2> <input>Gbin = unicode:characters_to_binary(Gs).</input> +<<208,156,208,190,208,185,32,208,188,208,176,208,187,208, + 181,208,189,209,140,208,186,208,184,208,185,32,208,147, + 208,...>> +3> <input>Gbin = <<"Мой маленький Гном"/utf8>>.</input> +<<208,156,208,190,208,185,32,208,188,208,176,208,187,208, + 181,208,189,209,140,208,186,208,184,208,185,32,208,147, + 208,...>> +4> <input>Gs = unicode:characters_to_list(Gbin).</input> +[1052,1086,1081,32,1084,1072,1083,1077,1085,1100,1082,1080, + 1081,32,1043,1085,1086,1084]</pre> + + <p>For details, see the <seealso marker="stdlib:unicode">unicode</seealso> + module in <c>stdlib</c>.</p> + + <p>In the following example, this ASN.1 specification is used:</p> + <pre> +UTF DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + UTF ::= UTF8String +END </pre> + + <p>Encoding and decoding a string with Unicode characters:</p> + + <pre> +5> <input>asn1ct:compile('UTF', [ber]).</input> +ok +6> <input>{ok,Bytes1} = 'UTF':encode('UTF', <<"Гном"/utf8>>).</input> +{ok,<<12,8,208,147,208,189,208,190,208,188>>} +7> <input>{ok,Bin1} = 'UTF':decode('UTF', Bytes1).</input> +{ok,<<208,147,208,189,208,190,208,188>>} +8> <input>io:format("~ts\n", [Bin1]).</input> +Гном +ok +9> <input>unicode:characters_to_list(Bin1).</input> +[1043,1085,1086,1084] </pre> + </section> + + <section> + <marker id="OBJECT IDENTIFIER"></marker> + <title>OBJECT IDENTIFIER</title> + <p>The type <c>OBJECT IDENTIFIER</c> is used whenever a unique identity is + required. An ASN.1 module, a transfer syntax, and so on, is identified + with an <c>OBJECT IDENTIFIER</c>. Assume the following example:</p> + <pre> +Oid ::= OBJECT IDENTIFIER</pre> + <p>Therefore, the following example is a valid Erlang instance of + type 'Oid':</p> + <pre> +OidVal1 = {1,2,55},</pre> + <p>The <c>OBJECT IDENTIFIER</c> value is simply a tuple with the + consecutive values, which must be integers. + </p> + <p>The first value is limited to the values 0, 1, or 2. The + second value must be in the range 0..39 when the first value + is 0 or 1. + </p> + <p>The <c>OBJECT IDENTIFIER</c> is an important type and it is + widely used within different standards to identify various + objects uniquely. Dubuisson: ASN.1 - Communication Between + Heterogeneous Systems includes an + easy-to-understand description of the use of + <c>OBJECT IDENTIFIER</c>.</p> + </section> + + <section> + <marker id="Object Descriptor"></marker> + <title>Object Descriptor</title> + <p>Values of this type can be assigned a value as an ordinary string + as follows:</p> + + <pre> + "This is the value of an Object descriptor"</pre> + </section> + + <section> + <marker id="The TIME types"></marker> + <title>TIME Types</title> + <p>Two time types are defined within ASN.1: Generalized + Time and Universal Time Coordinated (UTC). Both are assigned a + value as an ordinary string within double quotes, for example, + "19820102070533.8".</p> + <p>For DER encoding, the compiler does not check the validity + of the time values. The DER requirements upon those strings are + regarded as a matter for the application to fulfill.</p> + </section> + + <section> + <marker id="SEQUENCE"></marker> + <title>SEQUENCE</title> + <p>The structured types of ASN.1 are constructed from other types + in a manner similar to the concepts of array and struct in C.</p> + <p>A <c>SEQUENCE</c> in ASN.1 is + comparable with a struct in C and a record in Erlang. + A <c>SEQUENCE</c> can be defined as follows:</p> + <pre> +Pdu ::= SEQUENCE { + a INTEGER, + b REAL, + c OBJECT IDENTIFIER, + d NULL } </pre> + <p>This is a 4-component structure called <c>Pdu</c>. The record format + is the major format for representation of <c>SEQUENCE</c> in Erlang. + For each <c>SEQUENCE</c> and <c>SET</c> in an ASN.1 module an Erlang + record declaration is generated. For <c>Pdu</c>, a record + like the following is defined:</p> + <pre> +-record('Pdu',{a, b, c, d}). </pre> + <p>The record declarations for a module <c>M</c> are placed in a + separate <c>M.hrl</c> file.</p> + <p>Values can be assigned in Erlang as follows:</p> + <pre> +MyPdu = #'Pdu'{a=22,b=77.99,c={0,1,2,3,4},d='NULL'}. </pre> + <p>The decode functions return a record as result when decoding + a <c>SEQUENCE</c> or a <c>SET</c>.</p> + + <p>A <c>SEQUENCE</c> and a <c>SET</c> can contain a component + with a <c>DEFAULT</c> keyword followed by the actual value, which + is the default value. The <c>DEFAULT</c> keyword means that the + application doing the encoding can omit encoding of the value, which + results in fewer bytes to send to the receiving application.</p> + + <p>An application can use the atom <c>asn1_DEFAULT</c> to indicate + that the encoding is to be omitted for that position in + the <c>SEQUENCE</c>.</p> + + <p>Depending on the encoding rules, the encoder can also compare + the given value to the default value and automatically omit the + encoding if the values are equal. How much effort the encoder makes + to compare the values depends on the encoding rules. The DER + encoding rules forbid encoding a value equal to the default value, + so it has a more thorough and time-consuming comparison than the + encoders for the other encoding rules.</p> + + <p>In the following example, this ASN.1 specification is used:</p> + <pre> +File DEFINITIONS AUTOMATIC TAGS ::= +BEGIN +Seq1 ::= SEQUENCE { + a INTEGER DEFAULT 1, + b Seq2 DEFAULT {aa TRUE, bb 15} +} + +Seq2 ::= SEQUENCE { + aa BOOLEAN, + bb INTEGER +} + +Seq3 ::= SEQUENCE { + bs BIT STRING {a(0), b(1), c(2)} DEFAULT {a, c} +} +END </pre> + <p>Example where the BER encoder is able to omit encoding + of the default values:</p> + <pre> +1> <input>asn1ct:compile('File', [ber]).</input> +ok +2> <input>'File':encode('Seq1', {'Seq1',asn1_DEFAULT,asn1_DEFAULT}).</input> +{ok,<<48,0>>} +3> <input>'File':encode('Seq1', {'Seq1',1,{'Seq2',true,15}}).</input> +{ok,<<48,0>>} </pre> + + <p>Example with a named <c>BIT STRING</c> where the BER + encoder does not omit the encoding:</p> + <pre> +4> <input>'File':encode('Seq3', {'Seq3',asn1_DEFAULT).</input> +{ok,<<48,0>>} +5> <input>'File':encode('Seq3', {'Seq3',<<16#101:3>>).</input> +{ok,<<48,4,128,2,5,160>>} </pre> + + <p>The DER encoder omits the encoding for the same <c>BIT STRING</c>:</p> + <pre> +6> <input>asn1ct:compile('File', [ber,der]).</input> +ok +7> <input>'File':encode('Seq3', {'Seq3',asn1_DEFAULT).</input> +{ok,<<48,0>>} +8> <input>'File':encode('Seq3', {'Seq3',<<16#101:3>>).</input> +{ok,<<48,0>>} </pre> + </section> + + <section> + <marker id="SET"></marker> + <title>SET</title> + <p>In Erlang, the <c>SET</c> type is used exactly as <c>SEQUENCE</c>. + Notice that if BER or DER encoding rules are used, decoding a + <c>SET</c> is slower than decoding a <c>SEQUENCE</c> because the + components must be sorted.</p> + </section> + + <section> + <title>Extensibility for SEQUENCE and SET</title> + <p>When a <c>SEQUENCE</c> or <c>SET</c> contains an extension marker + and extension components as the following, the type can get more + components in newer versions of the ASN.1 spec:</p> + <pre> +SExt ::= SEQUENCE { + a INTEGER, + ..., + b BOOLEAN }</pre> + <p>In this case it has got a new + component <c>b</c>. Thus, incoming messages that are decoded + can have more or fever components than this one. + </p> + <p>The component <c>b</c> is treated as + an original component when encoding a message. In this case, as + it is not an optional element, it must be encoded. + </p> + <p>During decoding, the <c>b</c> field of the record gets the decoded + value of the <c>b</c> + component, if present, otherwise the value <c>asn1_NOVALUE</c>.</p> + </section> + + <section> + <marker id="CHOICE"></marker> + <title>CHOICE</title> + <p>The type <c>CHOICE</c> is a space saver and is similar to the + concept of a 'union' in C.</p> + <p>Assume the following:</p> + <pre> +SomeModuleName DEFINITIONS AUTOMATIC TAGS ::= +BEGIN +T ::= CHOICE { + x REAL, + y INTEGER, + z OBJECT IDENTIFIER } +END </pre> + <p>It is then possible to assign values as follows:</p> + <pre> +TVal1 = {y,17}, +TVal2 = {z,{0,1,2}},</pre> + <p>A <c>CHOICE</c> value is always represented as the tuple + <c>{ChoiceAlternative, Val}</c> where <c>ChoiceAlternative</c> + is an atom denoting the selected choice alternative. + </p> + + <section> + <title>Extensible CHOICE</title> + <p>When a <c>CHOICE</c> contains an extension marker and the + decoder detects an unknown alternative of the <c>CHOICE</c>, + the value is represented as follows:</p> + <pre> +{asn1_ExtAlt, BytesForOpenType}</pre> + <p>Here <c>BytesForOpenType</c> is a list of bytes constituting the + encoding of the "unknown" <c>CHOICE</c> alternative.</p> + </section> + </section> + + <section> + <marker id="SOF"></marker> + <title>SET OF and SEQUENCE OF</title> + <p>The types <c>SET OF</c> and <c>SEQUENCE OF</c> correspond + to the concept of an array + in several programming languages. The Erlang syntax for + both types is straightforward, for example:</p> + <pre> +Arr1 ::= SET SIZE (5) OF INTEGER (4..9) +Arr2 ::= SEQUENCE OF OCTET STRING </pre> + <p>In Erlang the following can apply:</p> + <pre> +Arr1Val = [4,5,6,7,8], +Arr2Val = ["abc",[14,34,54],"Octets"], </pre> + <p>Notice that the definition of type <c>SET OF</c> implies that + the order of the components is undefined, but in practice there is + no difference between <c>SET OF</c> and <c>SEQUENCE OF</c>. + The ASN.1 compiler for Erlang does not randomize the order of the + <c>SET OF</c> components before encoding.</p> + <p>However, for a value of type <c>SET OF</c>, the DER + encoding format requires the elements to be sent in ascending + order of their encoding, which implies an expensive sorting + procedure in runtime. Therefore it is recommended to + use <c>SEQUENCE OF</c> instead of <c>SET OF</c> if possible.</p> + </section> + + <section> + <marker id="ANY"></marker> + <title>ANY and ANY DEFINED BY</title> + <p>The types <c>ANY</c> and <c>ANY DEFINED BY</c> have been removed + from the standard since 1994. It is recommended not to use + these types any more. They can, however, exist in some old ASN.1 + modules. The idea with this type was to leave a "hole" in a + definition where it was possible to + put unspecified data of any kind, even non-ASN.1 data.</p> + <p>A value of this type is encoded as an <c>open type</c>.</p> + <p>Instead of <c>ANY</c> and <c>ANY DEFINED BY</c>, it is + recommended to use + <c>information object class</c>, <c>table constraints</c>, and + <c>parameterization</c>. In particular the construct + <c>TYPE-IDENTIFIER.@Type</c> accomplish the same as the + deprecated <c>ANY</c>.</p> + <p>See also + <seealso marker="#Information Object">Information object</seealso>.</p> + </section> + + <section> + <marker id="NegotiationTypes"></marker> + <title>EXTERNAL, EMBEDDED PDV, and CHARACTER STRING</title> + <p>The types <c>EXTERNAL</c>, <c>EMBEDDED PDV</c>, and + <c>CHARACTER STRING</c> are used in presentation layer negotiation. + They are encoded according to their associated type, see X.680.</p> + <p>The type <c>EXTERNAL</c> had a slightly different associated type + before 1994. X.691 states that encoding must follow + the older associated type. So, generated encode/decode + functions convert values of the newer format to the older format + before encoding. This implies that it is allowed to use + <c>EXTERNAL</c> type values of either format for encoding. Decoded + values are always returned in the newer format.</p> + </section> + + <section> + <title>Embedded Named Types</title> + <p>The structured types previously described can have other named + types as their components. The general syntax to assign a value + to component <c>C</c> of a named ASN.1 type <c>T</c> in Erlang + is the record syntax <c>#'T'{'C'=Value}</c>. + Here <c>Value</c> can be a value of yet another type <c>T2</c>, + for example:</p> + <pre> +EmbeddedExample DEFINITIONS AUTOMATIC TAGS ::= +BEGIN +B ::= SEQUENCE { + a Arr1, + b T } + +Arr1 ::= SET SIZE (5) OF INTEGER (4..9) + +T ::= CHOICE { + x REAL, + y INTEGER, + z OBJECT IDENTIFIER } + END </pre> + <p><c>SEQUENCE</c> <c>b</c> can be encoded as follows in Erlang:</p> + <pre> +1> 'EmbeddedExample':encode('B', {'B',[4,5,6,7,8],{x,"7.77"}}). +{ok,<<5,56,0,8,3,55,55,55,46,69,45,50>>} </pre> + </section> + </section> + + <section> + <title>Naming of Records in .hrl Files</title> + <p>When an ASN.1 specification is compiled, all defined types of type + <c>SET</c> or <c>SEQUENCE</c> result in a corresponding record in the + generated <c>.hrl</c> file. This is because the values for + <c>SET</c> and <c>SEQUENCE</c> are represented as records as + mentioned earlier.</p> + <p>Some special cases of this functionality are presented in the + next section.</p> + + <section> + <title>Embedded Structured Types</title> + <p>In ASN.1 it is also possible to have components that are themselves + structured types. + For example, it is possible to have the following:</p> + <pre> +Emb ::= SEQUENCE { + a SEQUENCE OF OCTET STRING, + b SET { + a INTEGER, + b INTEGER DEFAULT 66}, + c CHOICE { + a INTEGER, + b FooType } } + +FooType ::= [3] VisibleString </pre> + <p>The following records are generated because of type <c>Emb</c>:</p> + <pre> +-record('Emb,{a, b, c}). +-record('Emb_b',{a, b = asn1_DEFAULT}). % the embedded SET type </pre> + <p>Values of type <c>Emb</c> can be assigned as follows:</p> + <code type="none"> +V = #'Emb'{a=["qqqq",[1,2,255]], + b = #'Emb_b'{a=99}, + c ={b,"Can you see this"}}.</code> + <p>For an embedded type of type <c>SEQUENCE</c>/<c>SET</c> in a + <c>SEQUENCE</c>/<c>SET</c>, the record name is extended with an + underscore and the component name. If the embedded structure is + deeper with the <c>SEQUENCE</c>, <c>SET</c>, or <c>CHOICE</c> + types in the line, each component name/alternative name is + added to the record name.</p> + <p>Example:</p> + <pre> +Seq ::= SEQUENCE{ + a CHOICE{ + b SEQUENCE { + c INTEGER + } + } +} </pre> + <p>This results in the following record:</p> + <pre> +-record('Seq_a_b',{c}). </pre> + <p>If the structured type has a component with an embedded + <c>SEQUENCE OF</c>/<c>SET OF</c> which embedded type in turn + is a <c>SEQUENCE</c>/<c>SET</c>, it gives a record with the + <c>SEQUENCE OF</c>/<c>SET OF</c> + addition as in the following example:</p> + <pre> +Seq ::= SEQUENCE { + a SEQUENCE OF SEQUENCE { + b + } + c SET OF SEQUENCE { + d + } +} </pre> + <p>This results in the following records:</p> + <pre> +-record('Seq_a_SEQOF'{b}). +-record('Seq_c_SETOF'{d}). </pre> + <p>A parameterized type is to be considered as an embedded + type. Each time such a type is referenced, an instance of it is + defined. Thus, in the following example a record with name + <c>'Seq_b'</c> is generated in the <c>.hrl</c> file and is used + to hold values:</p> + <pre> +Seq ::= SEQUENCE { + b PType{INTEGER} +} + +PType{T} ::= SEQUENCE{ + id T +} </pre> + </section> + + <section> + <title>Recursive Types</title> + <p>Types that refer to themselves are called recursive types. + Example:</p> + <pre> +Rec ::= CHOICE { + nothing NULL, + something SEQUENCE { + a INTEGER, + b OCTET STRING, + c Rec }} </pre> + <p>This is allowed in ASN.1 and the ASN.1-to-Erlang compiler + supports this recursive type. + A value for this type is assigned in Erlang as follows:</p> + <pre> +V = {something,#'Rec_something'{a = 77, + b = "some octets here", + c = {nothing,'NULL'}}}. </pre> + </section> + </section> + + <section> + <title>ASN.1 Values</title> + <p>Values can be assigned to an ASN.1 type within the ASN.1 code + itself, as opposed to the actions in the previous section where + a value was assigned to an ASN.1 type in Erlang. The full value + syntax of ASN.1 is supported and X.680 describes in detail how + to assign values in ASN.1. A short example:</p> + <pre> +TT ::= SEQUENCE { + a INTEGER, + b SET OF OCTET STRING } + +tt TT ::= {a 77,b {"kalle","kula"}} </pre> + <p>The value defined here can be used in several ways. It can, for + example, be used as the value in some <c>DEFAULT</c> component:</p> + <pre> +SS ::= SET { + s OBJECT IDENTIFIER, + val TT DEFAULT tt } </pre> + <p>It can also be used from inside an Erlang program. If this ASN.1 + code is defined in ASN.1 module <c>Values</c>, the ASN.1 value + <c>tt</c> can be reached from Erlang as a function call to + <c>'Values':tt()</c> as in the following example:</p> + <pre> +1> <input>Val = 'Values':tt().</input> +{'TT',77,["kalle","kula"]} +2> <input>{ok,Bytes} = 'Values':encode('TT',Val).</input> +{ok,<<48,18,128,1,77,161,13,4,5,107,97,108,108,101,4,4, + 107,117,108,97>>} +4> <input>'Values':decode('TT',Bytes).</input> +{ok,{'TT',77,["kalle","kula"]}} +5> </pre> + <p>This example shows that a function is generated by the compiler + that returns a valid Erlang representation of the value, although + the value is of a complex type.</p> + <p>Furthermore, a macro is generated for each value in the <c>.hrl</c> + file. So, the defined value <c>tt</c> can also be extracted by + <c>?tt</c> in application code.</p> + </section> + + <section> + <title>Macros</title> + <p>The type <c>MACRO</c> is not supported. It is no longer part of + the ASN.1 standard.</p> + </section> + + <section> + <marker id="Information Object"></marker> + <title>ASN.1 Information Objects (X.681)</title> + <p>Information Object Classes, Information Objects, and Information + Object Sets (in the following called classes, objects, and + object sets, respectively) are defined in the standard + definition X.681. Only a brief explanation is given here.</p> + <p>These constructs makes it possible to define open types, that + is, values of that type can be of any ASN.1 type. Also, + relationships can be defined between different types and + values, as classes can hold types, values, objects, object + sets, and other classes in their fields. A class can be + defined in ASN.1 as follows:</p> + <pre> +GENERAL-PROCEDURE ::= CLASS { + &Message, + &Reply OPTIONAL, + &Error OPTIONAL, + &id PrintableString UNIQUE +} +WITH SYNTAX { + NEW MESSAGE &Message + [REPLY &Reply] + [ERROR &Error] + ADDRESS &id +} </pre> + <p>An object is an instance of a class. An object set is a set + containing objects of a specified class. A definition can look + as follows:</p> + <pre> +object1 GENERAL-PROCEDURE ::= { + NEW MESSAGE PrintableString + ADDRESS "home" +} + +object2 GENERAL-PROCEDURE ::= { + NEW MESSAGE INTEGER + ERROR INTEGER + ADDRESS "remote" +}</pre> + <p>The object <c>object1</c> is an instance of the class + <c>GENERAL-PROCEDURE</c> and has one type field and one + fixed type value field. The object <c>object2</c> has also an + optional field <c>ERROR</c>, which is a type field. The field + <c>ADDRESS</c> is a <c>UNIQUE</c> field. Objects in an object set + must have unique values in their <c>UNIQUE</c> field, as in + <c>GENERAL-PROCEDURES</c>:</p> + <pre> +GENERAL-PROCEDURES GENERAL-PROCEDURE ::= { + object1 | object2} </pre> + <p>You cannot encode a class, object, or object set, only refer to + it when defining other ASN.1 entities. Typically you refer to a + class as well as to object sets by table constraints and component + relation constraints (X.682) in ASN.1 types, as in the following:</p> + <pre> +StartMessage ::= SEQUENCE { + msgId GENERAL-PROCEDURE.&id ({GENERAL-PROCEDURES}), + content GENERAL-PROCEDURE.&Message ({GENERAL-PROCEDURES}{@msgId}), + } </pre> + <p>In type <c>StartMessage</c>, the constraint following field + <c>content</c> tells that in a value of type + <c>StartMessage</c> the value in field <c>content</c> must + come from the same object that is chosen by field <c>msgId</c>.</p> + <p>So, the value + <c>#'StartMessage'{msgId="home",content="Any Printable String"}</c> + is legal to encode as a <c>StartMessage</c> value. However, the value + <c>#'StartMessage'{msgId="remote", content="Some String"}</c> + is illegal as the constraint in <c>StartMessage</c> tells that + when you have chosen a value from a specific object in object + set <c>GENERAL-PROCEDURES</c> in field + <c>msgId</c>, you must choose a value from that same object in + the content field too. In this second case, it is to be + any <c>INTEGER</c> value.</p> + <p><c>StartMessage</c> can in field <c>content</c> be + encoded with a value of any type that an object in object set + <c>GENERAL-PROCEDURES</c> has in its <c>NEW MESSAGE</c> field. + This field refers to a type field + <c>&Message</c> in the class. Field <c>msgId</c> is always + encoded as a <c>PrintableString</c>, as the field refers to a + fixed type in the class.</p> + <p>In practice, object sets are usually declared to be extensible so + that more objects can be added to the set later. Extensibility is + indicated as follows:</p> + <pre> +GENERAL-PROCEDURES GENERAL-PROCEDURE ::= { + object1 | object2, ...} </pre> + <p>When decoding a type that uses an extensible set constraint, + it is always possible that the value in field <c>UNIQUE</c> + is unknown (that is, the type has been encoded with a later + version of the ASN.1 specification). The unencoded data is then + returned wrapped in a tuple as follows:</p> + + <pre> +{asn1_OPENTYPE,Binary}</pre> + + <p>Here <c>Binary</c> is an Erlang binary that contains the encoded + data. (If option <c>legacy_erlang_types</c> has been given, + only the binary is returned.)</p> + </section> + + <section> + <title>Parameterization (X.683)</title> + <p>Parameterization, which is defined in X.683, can be used when + defining types, values, value sets, classes, objects, or object sets. + A part of a definition can be supplied as a parameter. For + example, if a <c>Type</c> is used in a definition with a certain + purpose, you want the type name to express the intention. This + can be done with parameterization.</p> + <p>When many types (or another ASN.1 entity) only differ in some + minor cases, but the structure of the types is similar, only + one general type can be defined and the differences can be supplied + through parameters.</p> + <p>Example of use of parameterization:</p> + <pre> +General{Type} ::= SEQUENCE +{ + number INTEGER, + string Type +} + +T1 ::= General{PrintableString} + +T2 ::= General{BIT STRING}</pre> + <p>An example of a value that can be encoded as type <c>T1</c> is + <c>{12,"hello"}</c>.</p> + <p>Notice that the compiler does not generate encode/decode functions + for parameterized types, only for the instances of the parameterized + types. Therefore, if a file contains the types <c>General{}</c>, + <c>T1</c>, and <c>T2</c> as in the previous example, encode/decode + functions are only generated for <c>T1</c> and <c>T2</c>. + </p> + </section> +</chapter> + diff --git a/lib/asn1/doc/src/asn1_introduction.xml b/lib/asn1/doc/src/asn1_introduction.xml new file mode 100644 index 0000000000..ae0379684a --- /dev/null +++ b/lib/asn1/doc/src/asn1_introduction.xml @@ -0,0 +1,99 @@ +<?xml version="1.0" encoding="utf-8" ?> +<!DOCTYPE chapter SYSTEM "chapter.dtd"> + +<chapter> + <header> + <copyright> + <year>1997</year><year>2013</year> + <holder>Ericsson AB. All Rights Reserved.</holder> + </copyright> + <legalnotice> + The contents of this file are subject to the Erlang Public License, + Version 1.1, (the "License"); you may not use this file except in + compliance with the License. You should have received a copy of the + Erlang Public License along with this software. If not, it can be + retrieved online at http://www.erlang.org/. + + Software distributed under the License is distributed on an "AS IS" + basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See + the License for the specific language governing rights and limitations + under the License. + + </legalnotice> + + <title>Introduction</title> + <prepared></prepared> + <docno></docno> + <date>2015-03-31</date> + <rev>A</rev> + <file>asn1_introduction.xml</file> + </header> + + <p>The <c>ASN.1</c> application provides the following:</p> + + <list type="bulleted"> + <item>An ASN.1 compiler for Erlang, which generates encode and + decode functions to be used by Erlang programs sending and + receiving ASN.1 specified data.</item> + <item>Runtime functions used by the generated code.</item> + <item>Support for the following encoding rules: + <list><item>Basic Encoding Rules (BER)</item> + <item>Distinguished Encoding Rules (DER), a specialized form of + BER that is used in security-conscious applications</item> + <item>Packed Encoding Rules (PER), both the aligned and + unaligned variant</item> + </list> + </item> + </list> + + <section> + <title>Scope</title> + <p>This application covers all features of ASN.1 up to the 1997 + edition of the specification. In the 2002 edition, + new features were introduced. The following features + of the 2002 edition are fully or partly supported:</p> + <list type="bulleted"> + <item> + <p>Decimal notation (for example, <c>"1.5e3</c>) for REAL values. + The NR1, NR2, and NR3 formats as explained in ISO 6093 are + supported.</p> + </item> + <item> + <p>The <c>RELATIVE-OID</c> type for relative object identifiers is + fully supported.</p> + </item> + <item> + <p>The subtype constraint (<c>CONTAINING</c>/<c>ENCODED BY</c>) to + constrain the content of an octet string or a bit string is + parsed when compiling, but no further action is taken. This + constraint is not a PER-visible constraint.</p> + </item> + <item> + <p>The subtype constraint by regular expressions (<c>PATTERN</c>) + for character string types is parsed when compiling, but no + further action is taken. This constraint is not a + PER-visible constraint.</p> + </item> + <item> + <p>Multiple-line comments as in C, <c>/* ... */</c>, are + supported.</p> + </item> + </list> + </section> + + <section> + <title>Prerequisites</title> + <p>It is assumed that the reader is familiar with the Erlang + programming language, concepts of OTP, and is familiar with the + ASN.1 notation. The ASN.1 notation is documented in the standard + definition X.680, which is the primary text. It can also be + helpful, but not necessary, to read the standard definitions + X.681, X.682, X.683, X.690, and X.691.</p> + <p>A good book explaining those reference texts is + Dubuisson: ASN.1 - Communication Between Heterogeneous Systems, + is free to download at + <url href="http://www.oss.com/asn1/dubuisson.html">http://www.oss.com/asn1/dubuisson.html</url>.</p> + </section> + +</chapter> + diff --git a/lib/asn1/doc/src/asn1_overview.xml b/lib/asn1/doc/src/asn1_overview.xml new file mode 100644 index 0000000000..4a10819c36 --- /dev/null +++ b/lib/asn1/doc/src/asn1_overview.xml @@ -0,0 +1,49 @@ +<?xml version="1.0" encoding="utf-8" ?> +<!DOCTYPE chapter SYSTEM "chapter.dtd"> + +<chapter> + <header> + <copyright> + <year>1997</year><year>2013</year> + <holder>Ericsson AB. All Rights Reserved.</holder> + </copyright> + <legalnotice> + The contents of this file are subject to the Erlang Public License, + Version 1.1, (the "License"); you may not use this file except in + compliance with the License. You should have received a copy of the + Erlang Public License along with this software. If not, it can be + retrieved online at http://www.erlang.org/. + + Software distributed under the License is distributed on an "AS IS" + basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See + the License for the specific language governing rights and limitations + under the License. + + </legalnotice> + + <title>ASN.1</title> + <prepared>Kenneth Lundin</prepared> + <docno></docno> + <date>1999-03-25</date> + <rev>D</rev> + <file>asn1_overview.xml</file> + </header> + +<section> + <title>Introduction</title> + + <p>ASN.1 is a formal language for + describing data structures to be exchanged between distributed + computer systems. The purpose of ASN.1 is to have a platform + and programming language independent notation to express types + using a standardized set of rules for the transformation of + values of a defined type into a stream of bytes. This stream of + bytes can then be sent on any type of communication + channel. This way, two applications written in different + programming languages running on different computers, and with + different internal representation of data, can exchange instances + of structured data types.</p> + +</section> +</chapter> + diff --git a/lib/asn1/doc/src/asn1_spec.xmlsrc b/lib/asn1/doc/src/asn1_spec.xmlsrc index 9001aca65c..e050dff553 100644 --- a/lib/asn1/doc/src/asn1_spec.xmlsrc +++ b/lib/asn1/doc/src/asn1_spec.xmlsrc @@ -29,94 +29,100 @@ <file>asn1_spec.xml</file> </header> <marker id="SpecializedDecodes"></marker> - <p>When performance is of highest priority and one is interested in - a limited part of the ASN.1 encoded message, before one decide what - to do with the rest of it, one may want to decode only this small - part. The situation may be a server that has to decide to which - addressee it will send a message. The addressee may be interested in - the entire message, but the server may be a bottleneck that one want - to spare any unnecessary load. Instead of making two <em>complete decodes</em> (the normal case of decode), one in the server and one - in the addressee, it is only necessary to make one <em>specialized decode</em>(in the server) and another complete decode(in the - addressee). The following specialized decodes <em>exclusive decode</em> and <em>selected decode</em> support to solve this and - similar problems. - </p> - <p>So far this functionality is only provided when using the - optimized BER_BIN version, that is when compiling with the - options <c>ber_bin</c> and <c>optimize</c>. It does also work - using the <c>nif</c> option. We have no intent to make this - available on the default BER version, but maybe in the PER_BIN - version (<c>per_bin</c>). - </p> + <p>When performance is of highest priority and you are interested in + a limited part of the ASN.1 encoded message before deciding what + to do with the rest of it, an option is to decode only this small + part. The situation can be a server that has to decide the + addressee of a message. The addressee can be interested in + the entire message, but the server can be a bottleneck that you want + to spare any unnecessary load.</p> + <p> Instead of making two <em>complete decodes</em> (the normal case of + decode), one in the server and one in the addressee, it is only + necessary to make one <em>specialized decode</em>(in the server) + and another complete decode(in the addressee). This section + describes the following two specialized decodes, which support + to solve this and similar problems:</p> + <list type="bulleted"> + <item><em>Exclusive decode</em></item> + <item><em>Selected decode</em></item> + </list> + <p>This functionality is only provided when using <c>BER</c> + (option <c>ber</c>).</p> <section> <title>Exclusive Decode</title> <p>The basic idea with exclusive - decode is that you specify which parts of the message you want to + decode is to specify which parts of the message you want to exclude from being decoded. These parts remain encoded and are - returned in the value structure as binaries. They may be decoded + returned in the value structure as binaries. They can be decoded in turn by passing them to a certain <c>decode_part/2</c> - function. The performance gain is high when the message is large - and you can do an exclusive decode and later on one or several - decodes of the parts or a second complete decode instead of two or + function. The performance gain is high for large messages. + You can do an exclusive decode and later one or more + decodes of the parts, or a second complete decode instead of two or more complete decodes. </p> <section> - <title>How To Make It Work</title> - <p>In order to make exclusive decode work you have to do the - following: + <title>Procedure</title> + <p>To perform an exclusive decode: </p> <list type="bulleted"> - <item>First,decide the name of the function for the exclusive - decode.</item> - <item>Second, write instructions that must consist of the name - of the exclusive decode function, the name of the ASN.1 - specification and a notation that tells which parts of the - message structure will be excluded from decode. These - instructions shall be included in a configuration - file. </item> - <item>Third, compile with the additional option - <c>asn1config</c>. The compiler searches for a configuration - file with the same name as the ASN.1 spec but with the - extension .asn1config. This configuration file is not the same - as used for compilation of a set of files. See section - <seealso marker="#UndecodedPart">Writing an Exclusive Decode Instruction.</seealso></item> + <item><em>Step 1:</em> Decide the name of the function for the + exclusive decode.</item> + <item><p><em>Step 2:</em> Include the following instructions in + a configuration file:</p> + <list type="bulleted"> + <item>The name of the exclusive decode function</item> + <item>The name of the ASN.1 specification</item> + <item>A notation that tells which parts of the message + structure to be excluded from decode</item> + </list></item> + <item><em>Step 3</em> Compile with the additional option + <c>asn1config</c>. The compiler searches for a configuration + file with the same name as the ASN.1 specification but with + extension <c>.asn1config</c>. This configuration file is not + the same as used for compilation of a set of files. See Section + <seealso marker="#UndecodedPart">Writing an Exclusive Decode + Instruction.</seealso></item> </list> </section> <section> <title>User Interface</title> - <p>The run-time user interface for exclusive decode consists of - two different functions. First, the function for an exclusive - decode, whose name the user decides in the configuration - file. Second, the compiler generates a <c>decode_part/2</c> - function when exclusive decode is chosen. This function decodes - the parts that were left undecoded during the exclusive - decode. Both functions are described below. - </p> - <p>If the exclusive decode function has for example got the name + <p>The runtime user interface for exclusive decode consists of + the following two functions:</p> + <list type="bulleted"> + <item>A function for an exclusive decode, whose name the user + decides in the configuration file</item> + <item>The compiler generates a <c>decode_part/2</c> + function when exclusive decode is chosen. This function decodes + the parts that were left undecoded during the exclusive + decode.</item> + </list> + <p>Both functions are described in the following.</p> + <p>If the exclusive decode function has, for example, the name <c>decode_exclusive</c> and an ASN.1 encoded message - <c>Bin</c> shall be exclusive decoded, the call is:</p> + <c>Bin</c> is to be exclusive decoded, the call is as follows:</p> <pre> {ok,Excl_Message} = 'MyModule':decode_exclusive(Bin) </pre> <marker id="UndecodedPart"></marker> - <p>The result <c>Excl_Message</c> has the same structure as an - complete decode would have, except for the parts of the top-type - that were not decoded. The undecoded parts will be on their place - in the structure on the format <c>{Type_Key,Undecoded_Value}</c>. + <p>The result <c>Excl_Message</c> has the same structure as a + complete decode would have, except for the parts of the top type + that were not decoded. The undecoded parts are on their places + in the structure on format <c>{Type_Key,Undecoded_Value}</c>. </p> - <p>Each undecoded part that shall be decoded must be fed into the <c>decode_part/2</c> function,like:</p> + <p>Each undecoded part that is to be decoded must be fed into + function <c>decode_part/2</c> as follows:</p> <pre> -{ok,Part_Message} = 'MyModule':decode_part(Type_Key,Undecoded_Value) </pre> +{ok,Part_Message} = 'MyModule':decode_part(Type_Key,Undecoded_Value)</pre> </section> <section> <marker id="Exclusive Instruction"></marker> <title>Writing an Exclusive Decode Instruction</title> - <p>This instruction is written in the configuration file on the - format:</p> + <p>This instruction is written in the configuration file + in the following format:</p> <pre> - Exclusive_Decode_Instruction = {exclusive_decode,{Module_Name,Decode_Instructions}}. Module_Name = atom() @@ -137,70 +143,76 @@ Element = {Name,parts} | Top_Type = atom() -Name = atom() - </pre> - <p>Observe that the instruction must be a valid Erlang term ended - by a dot. +Name = atom()</pre> + <p>The instruction must be a valid Erlang term ended by a dot. </p> - <p>In the <c>Type_List</c> the "path" from the top type to each - undecoded sub-components is described. The top type of the path is + <p>In <c>Type_List</c> the "path" from the top type to each + undecoded subcomponents is described. The top type of the path is an atom, the name of it. The action on each component/type that - follows will be described by one of <c>{Name,parts}, {Name,undecoded}, {Name,Element_List}</c></p> - <p>The use and effect of the actions are: + follows is described by one of + <c>{Name,parts}, {Name,undecoded}, {Name,Element_List}</c>.</p> + <p>The use and effect of the actions are as follows: </p> <list type="bulleted"> - <item><c>{Name,undecoded}</c> Tells that the element will be - left undecoded during the exclusive decode. The type of Name may - be any ASN.1 type. The value of element Name will be returned as a - tuple,as mentioned <seealso marker="#UndecodedPart">above</seealso>, in the value structure of the top type.</item> - <item><c>{Name,parts}</c> The type of Name may be one of - SEQUENCE OF or SET OF. The action implies that the different - components of Name will be left undecoded. The value of Name - will be returned as a tuple, as <seealso marker="#UndecodedPart">above </seealso>, where the second element is a list of - binaries. That is because the representation of a SEQUENCE OF/ - SET OF in Erlang is a list of its internal type. Any of the - elements of this list or the entire list can be decoded by the - <c>decode_part</c> function.</item> - <item><c>{Name,Element_List}</c>This action is used when one or - more of the sub-types of Name will be exclusive decoded.</item> + <item><c>{Name,undecoded}</c> - Tells that the element is left + undecoded during the exclusive decode. The type of <c>Name</c> + can be any ASN.1 type. The value of element <c>Name</c> is + returned as a tuple (as mentioned in the previous section) in + the value structure of the top type.</item> + <item><c>{Name,parts}</c> - The type of <c>Name</c> can be one of + <c>SEQUENCE OF</c> or <c>SET OF</c>. The action implies that + the different components of <c>Name</c> are left undecoded. The + value of <c>Name</c> is returned as a tuple (as mentioned in + the previous section) where the second element is a list of + binaries. This is because the representation of a <c>SEQUENCE OF</c> + or a <c>SET OF</c> in Erlang is a list of its internal type. Any + of the elements in this list or the entire list can be decoded by + function <c>decode_part</c>.</item> + <item><c>{Name,Element_List}</c> - This action is used when one or + more of the subtypes of <c>Name</c> is exclusive decoded.</item> </list> - <p>Name in the actions above may be a component name of a - SEQUENCE or a SET or a name of an alternative in a CHOICE. + <p><c>Name</c> in these actions can be a component name of a + <c>SEQUENCE OF</c> or a <c>SET OF</c>, or a name of an alternative + in a <c>CHOICE</c>. </p> </section> <section> <title>Example</title> - <p>In the examples below we use the definitions from the following ASN.1 spec:</p> + <p>In this examples, the definitions from the following ASN.1 + specification are used:</p> <marker id="Asn1spec"></marker> <codeinclude file="Seq.asn" tag="" type="none"></codeinclude> - <p>If <c>Button</c> is a top type and we want to exclude - component <c>number</c> from decode the Type_List in the - instruction in the configuration file will be - <c>['Button',[{number,undecoded}]]</c>. If we call the decode - function <c>decode_Button_exclusive</c> the Decode_Instruction - will be + <p>If <c>Button</c> is a top type and it is needed to exclude + component <c>number</c> from decode, <c>Type_List</c> in the + instruction in the configuration file is + <c>['Button',[{number,undecoded}]]</c>. If you call the decode + function <c>decode_Button_exclusive</c>, <c>Decode_Instruction</c> is <c>{decode_Button_exclusive,['Button',[{number,undecoded}]]}</c>. </p> - <p>We also have another top type <c>Window</c> whose sub - component actions in type <c>Status</c> and the parts of component - <c>buttonList</c> shall be left undecoded. For this type we name - the function <c>decode__Window_exclusive</c>. The whole - Exclusive_Decode_Instruction configuration is as follows: </p> + <p>Another top type is <c>Window</c> whose subcomponent + actions in type <c>Status</c> and the parts of component + <c>buttonList</c> are to be left undecoded. For this type, the + function is named <c>decode__Window_exclusive</c>. The complete + <c>Exclusive_Decode_Instruction</c> configuration is as follows:</p> <codeinclude file="Seq.asn1config" tag="" type="none"></codeinclude> + <p>The following figure shows the bytes of a <c>Window:status</c> + message. The components <c>buttonList</c> and <c>actions</c> are + excluded from decode. Only <c>state</c> and <c>enabled</c> are decoded + when <c>decode__Window_exclusive</c> is called.</p> <p></p> <image file="exclusive_Win_But.gif"> - <icaption>Figure symbolizes the bytes of a Window:status message. The components buttonList and actions are excluded from decode. Only state and enabled are decoded when decode__Window_exclusive is called. </icaption> + <icaption>Bytes of a Window:status Message</icaption> </image> <p></p> - <p>Compiling GUI.asn including the configuration file is done like:</p> + <p>Compiling <c>GUI.asn</c> including the configuration file is done + as follows:</p> <pre> -unix> erlc -bber_bin +optimize +asn1config GUI.asn +unix> erlc -bber +asn1config GUI.asn -erlang> asn1ct:compile('GUI',[ber_bin,optimize,asn1config]). </pre> - <p>The module can be used like:</p> +erlang> asn1ct:compile('GUI', [ber,asn1config]).</pre> + <p>The module can be used as follows:</p> <pre> - 1> Button_Msg = {'Button',123,true}. {'Button',123,true} 2> {ok,Button_Bytes} = 'GUI':encode('Button',Button_Msg). @@ -289,35 +301,39 @@ BoolOpt,{Type_Key_Choice,Val_Choice}}}}= 11> 'GUI':decode_part(Type_Key_SeqOf,hd(Val_SEQOF)). {ok,{'Button',3,true}} 12> 'GUI':decode_part(Type_Key_Choice,Val_Choice). -{ok,{possibleActions,[{'Action',16,{'Button',17,true}}]}} - </pre> +{ok,{possibleActions,[{'Action',16,{'Button',17,true}}]}}</pre> </section> </section> <section> <title>Selective Decode</title> - <p>This specialized decode decodes one single subtype of a - constructed value. It is the fastest method to extract one sub - value. The typical use of this decode is when one want to - inspect, for instance a version number,to be able to decide what + <p>This specialized decode decodes a subtype of a + constructed value and is the fastest method to extract a + subvalue. This decode is typically used when you want to + inspect, for example, a version number, to be able to decide what to do with the entire value. The result is returned as <c>{ok,Value}</c> or <c>{error,Reason}</c>. </p> <section> - <title>How To Make It Work</title> - <p>The following steps are necessary: + <title>Procedure</title> + <p>To perform a selective decode: </p> <list type="bulleted"> - <item>Write instructions in the configuration - file. Including the name of a user function, the name of the ASN.1 - specification and a notation that tells which part of the type - will be decoded. </item> - <item>Compile with the additional option - <c>asn1config</c>. The compiler searches for a configuration file - with the same name as the ASN.1 spec but with the extension - .asn1config. In the same file you can provide configuration specs - for exclusive decode as well. The generated Erlang module has the + <item><p><em>Step 1:</em> Include the following instructions in + the configuration file:</p> + <list type="bulleted"> + <item>The name of the user function</item> + <item>The name of the ASN.1 specification</item> + <item>A notation that tells which part of the type to be + decoded</item> + </list></item> + <item><em>Step 2:</em> Compile with the additional option + <c>asn1config</c>. The compiler searches for a configuration file + with the same name as the ASN.1 specification, but with extension + <c>.asn1config</c>. In the same file you can also provide + configuration specifications for exclusive decode. + The generated Erlang module has the usual functionality for encode/decode preserved and the specialized decode functionality added. </item> </list> @@ -326,21 +342,20 @@ BoolOpt,{Type_Key_Choice,Val_Choice}}}}= <section> <title>User Interface</title> <p>The only new user interface function is the one provided by the - user in the configuration file. You can invoke that function by + user in the configuration file. The function is started by the <c>ModuleName:FunctionName</c> notation. </p> - <p>So, if you have the following spec + <p>For example, if the configuration file includes the specification <c>{selective_decode,{'ModuleName',[{selected_decode_Window,TypeList}]}}</c> - in the con-fig file, you do the selective decode by + do the selective decode by <c>{ok,Result}='ModuleName':selected_decode_Window(EncodedBinary).</c></p> </section> <section> <marker id="Selective Instruction"></marker> <title>Writing a Selective Decode Instruction</title> - <p>It is possible to describe one or many selective decode - functions in a configuration file, you have to use the following - notation:</p> + <p>One or more selective decode functions can be described in a + configuration file. Use the following notation:</p> <pre> Selective_Decode_Instruction = {selective_decode,{Module_Name,Decode_Instructions}}. @@ -358,37 +373,43 @@ Element_List = Name|List_Selector Name = atom() -List_Selector = [integer()] </pre> - <p>Observe that the instruction must be a valid Erlang term ended - by a dot. - </p> - <p>The <c>Module_Name</c> is the same as the name of the ASN.1 - spec, but without the extension. A <c>Decode_Instruction</c> is - a tuple with your chosen function name and the components from - the top type that leads to the single type you want to - decode. Notice that you have to choose a name of your function - that will not be the same as any of the generated functions. The - first element of the <c>Type_List</c> is the top type of the - encoded message. In the <c>Element_List</c> it is followed by - each of the component names that leads to selected type. Each of - the names in the <c>Element_List</c> must be constructed types - except the last name, which can be any type. +List_Selector = [integer()]</pre> + <p>The instruction must be a valid Erlang term ended by a dot. </p> - <p>The List_Selector makes it possible to choose one of the - encoded components in a SEQUENCE OF/ SET OF. It is also possible - to go further in that component and pick a sub type of that to - decode. So in the <c>Type_List</c>: <c>['Window',status,buttonList,[1],number]</c> the - component <c>buttonList</c> has to be a SEQUENCE OF or SET OF type. In - this example component <c>number</c> of the first of the encoded - elements in the SEQUENCE OF <c>buttonList</c> is selected. This apply on - the ASN.1 spec <seealso marker="#Asn1spec">above</seealso>. + <list type="bulleted"> + <item><c>Module_Name</c> is the same as the name of the ASN.1 + specification, but without the extension.</item> + <item><c>Decode_Instruction</c> is a tuple with your chosen + function name and the components from the top type that leads + to the single type you want to decode. Ensure to choose a name + of your function that is not the same as any of the generated + functions.</item> + <item> The first element of <c>Type_List</c> is the top type of the + encoded message. In <c>Element_List</c>, it is followed by + each of the component names that leads to selected type.</item> + <item>Each name in <c>Element_List</c> must be a constructed type + except the last name, which can be any type.</item> + <item><c>List_Selector</c> makes it possible to choose one of the + encoded components in a a <c>SEQUENCE OF</c> or a <c>SET OF</c>. + It is also possible to go further in that component and pick a + subtype of that to decode. So, in the <c>Type_List</c>: + <c>['Window',status,buttonList,[1],number]</c>, component + <c>buttonList</c> must be of type <c>SEQUENCE OF</c> or + <c>SET OF</c>.</item> + </list> + <p>In the example, component <c>number</c> of the first of the encoded + elements in the <c>SEQUENCE OF</c> <c>buttonList</c> is selected. + This applies on the ASN.1 specification in Section + <seealso marker="#Asn1spec">Writing an Exclusive Decode + Instruction</seealso>. </p> </section> <section> <title>Another Example</title> - <p>In this example we use the same ASN.1 spec as <seealso marker="#Asn1spec">above</seealso>. A valid selective decode - instruction is:</p> + <p>In this example, the same ASN.1 specification as in Section + <seealso marker="#Asn1spec">Writing an Exclusive Decode Instruction</seealso> + is used. The following is a valid selective decode instruction:</p> <pre> {selective_decode, {'GUI', @@ -404,16 +425,17 @@ List_Selector = [integer()] </pre> actions, possibleActions, [1], - handle,number]}]}}. - </pre> - <p>The first <c>Decode_Instruction</c>, + handle,number]}]}}.</pre> + <p>The first instruction, <c>{selected_decode_Window1,['Window',status,buttonList,[1],number]}</c> - is commented in the previous section. The instruction - <c>{selected_decode_Action,['Action',handle,number]}</c> picks - the component <c>number</c> in the <c>handle</c> component of the type - <c>Action</c>. If we have the value <c>ValAction = {'Action',17,{'Button',4711,false}}</c> the internal value 4711 - should be picked by <c>selected_decode_Action</c>. In an Erlang - terminal it looks like:</p> + is described in the previous section.</p> + <p> The second instruction, + <c>{selected_decode_Action,['Action',handle,number]}</c>, takes + component <c>number</c> in the <c>handle</c> component of type + <c>Action</c>. If the value is + <c>ValAction = {'Action',17,{'Button',4711,false}}</c>, the internal + value 4711 is to be picked by <c>selected_decode_Action</c>. In an + Erlang terminal it looks as follows:</p> <pre> ValAction = {'Action',17,{'Button',4711,false}}. {'Action',17,{'Button',4711,false}} @@ -423,44 +445,41 @@ ValAction = {'Action',17,{'Button',4711,false}}. <<48,18,2,1,17,160,13,172,11,171,9,48,7,128,2,18,103,129,1,0>> 9> 'GUI':selected_decode_Action(BinBytes). {ok,4711} -10> </pre> +10></pre> <p>The third instruction, <c>['Window',status,actions,possibleActions,[1],handle,number]</c>, - which is a little more complicated,</p> + works as follows:</p> <list type="bulleted"> - <item>starts with type <em>Window</em>. </item> - <item>Picks component <em>status</em> of <c>Window</c> that is - of type <c>Status</c>.</item> - <item>Then takes component <em>actions</em> of type + <item><em>Step 1:</em> Starts with type <c>Window</c>.</item> + <item><em>Step 2:</em> Takes component <c>status</c> of <c>Window</c> + that is of type <c>Status</c>.</item> + <item><em>Step 3:</em> Takes <em>actions</em> of type <c>Status</c>.</item> - <item>Then <em>possibleActions</em> of the internal defined - CHOICE type.</item> - <item>Thereafter it goes into the first component of the - SEQUENCE OF by <em>[1]</em>. That component is of type - <c>Action</c>.</item> - <item>The instruction next picks component - <em>handle</em>.</item> - <item>And finally component <em>number</em> of the type + <item><em>Step 4:</em> Takes <c>possibleActions</c> of the internally + defined <c>CHOICE</c> type.</item> + <item><em>Step 5:</em> Goes into the first component of + <c>SEQUENCE OF</c> by <c>[1]</c>. That component is of type + <c>Action</c>.</item> + <item><em>Step 6:</em> Takes component <c>handle</c>.</item> + <item><em>Step 7:</em> Takes component <c>number</c> of type <c>Button</c>.</item> </list> - <p>The following figures shows which components are in the - TypeList - <c>['Window',status,actions,possibleActions,[1],handle,number]</c>. And - which part of a message that will be decoded by - selected_decode_Window2. - </p> + <p>The following figure shows which components are in <c>TypeList</c> + <c>['Window',status,actions,possibleActions,[1],handle,number]</c>:</p> <p></p> <image file="selective_TypeList.gif"> - <icaption>The elements specified in the config file for selective decode of a sub-value in a Window message</icaption> + <icaption>Elements Specified in Configuration File for Selective Decode of a Subvalue in a Window Message</icaption> </image> + <p>In the following figure, only the marked element is decoded by + <c>selected_decode_Window2</c>:</p> <p></p> <image file="selective_Window2.gif"> - <icaption>Figure symbolizes the bytes of a Window:status message. Only the marked element is decoded when selected_decode_Window2 is called. </icaption> + <icaption>Bytes of a Window:status Message</icaption> </image> - <p>With the following example you can examine that both + <p>With the following example, you can examine that both <c>selected_decode_Window2</c> and - <c>selected_decode_Window1</c> decodes the intended sub-value - of the value <c>Val</c></p> + <c>selected_decode_Window1</c> decodes the intended subvalue + of value <c>Val</c>:</p> <pre> 1> Val = {'Window',{status,{'Status',12, [{'Button',13,true}, @@ -478,8 +497,8 @@ ValAction = {'Action',17,{'Button',4711,false}}. 4> 'GUI':selected_decode_Window1(Bin). {ok,13} 5> 'GUI':selected_decode_Window2(Bin). -{ok,18} </pre> - <p>Observe that the value feed into the selective decode +{ok,18}</pre> + <p>Notice that the value fed into the selective decode functions must be a binary. </p> </section> @@ -489,19 +508,19 @@ ValAction = {'Action',17,{'Button',4711,false}}. <title>Performance</title> <p>To give an indication on the possible performance gain using the specialized decodes, some measures have been performed. The - relative figures in the outcome between selective, exclusive and - complete decode (the normal case) depends on the structure of - the type, the size of the message and on what level the + relative figures in the outcome between selective, exclusive, and + complete decode (the normal case) depend on the structure of + the type, the size of the message, and on what level the selective and exclusive decodes are specified. </p> <section> - <title>ASN.1 Specifications, Messages and Configuration</title> - <p>The specs <seealso marker="#Asn1spec">GUI</seealso> and + <title>ASN.1 Specifications, Messages, and Configuration</title> + <p>The specifications <seealso marker="#Asn1spec">GUI</seealso> and <url href="http://www.itu.int/ITU-T/asn1/database/itu-t/h/h248/2002/MEDIA-GATEWAY-CONTROL.html">MEDIA-GATEWAY-CONTROL</url> - was used in the test. + were used in the test. </p> - <p>For the GUI spec the configuration looked like:</p> + <p>For the <c>GUI</c> specification the configuration was as follows:</p> <pre> {selective_decode, {'GUI', @@ -523,9 +542,8 @@ ValAction = {'Action',17,{'Button',4711,false}}. ['Window', [{status, [{buttonList,parts}, - {actions,undecoded}]}]]}]}}. - </pre> - <p>The MEDIA-GATEWAY-CONTROL configuration was:</p> + {actions,undecoded}]}]]}]}}.</pre> + <p>The <c>MEDIA-GATEWAY-CONTROL</c> configuration was as follows:</p> <pre> {exclusive_decode, {'MEDIA-GATEWAY-CONTROL', @@ -538,9 +556,8 @@ ValAction = {'Action',17,{'Button',4711,false}}. {selective_decode, {'MEDIA-GATEWAY-CONTROL', [{decode_MegacoMessage_selective, - ['MegacoMessage',mess,version]}]}}. - </pre> - <p>The corresponding values were:</p> + ['MegacoMessage',mess,version]}]}}.</pre> + <p>The corresponding values were as follows:</p> <pre> {'Window',{status,{'Status',12, [{'Button',13,true}, @@ -649,177 +666,178 @@ ValAction = {'Action',17,{'Button',4711,false}}. {'StatisticsParameter',[0,11,0,3],[[52,53,49,48,48]]}, {'StatisticsParameter',[0,12,0,6],[[48,46,50]]}, {'StatisticsParameter',[0,12,0,7],[[50,48]]}, - {'StatisticsParameter',[0,12,0,8],[[52,48]]}]}]}}}]}]}}}]}}} - </pre> - <p>The size of the encoded values was 458 bytes for GUI and 464 - bytes for MEDIA-GATEWAY-CONTROL. + {'StatisticsParameter',[0,12,0,8],[[52,48]]}]}]}}}]}]}}}]}}}</pre> + <p>The size of the encoded values was 458 bytes for <c>GUI</c> and 464 + bytes for <c>MEDIA-GATEWAY-CONTROL</c>. </p> </section> <section> <title>Results</title> - <p>The ASN.1 specs in the test are compiled with the options - <c>ber_bin, optimize, driver</c> and <c>asn1config</c>. If the - <c>driver</c> option had been omitted there should have been + <p>The ASN.1 specifications in the test were compiled with options + <c>ber_bin, optimize, driver</c> and <c>asn1config</c>. Omitting + option <c>driver</c> gives higher values for <c>decode</c> and <c>decode_part</c>. These tests have - not been re-run using nifs, but are expected to perform about 5% better + not been rerun using NIFs, but are expected to perform about 5% better than the linked-in driver. </p> <p>The test program runs 10000 decodes on the value, resulting - in a printout with the elapsed time in microseconds for the + in an output with the elapsed time in microseconds for the total number of decodes. </p> <table> <row> <cell align="left" valign="top"><em>Function</em></cell> - <cell align="left" valign="top"><em>Time</em>(microseconds)</cell> - <cell align="left" valign="top"><em>Kind of Decode</em></cell> - <cell align="left" valign="top"><em>ASN.1 spec</em></cell> - <cell align="left" valign="top"><em>% of time vs. complete decode</em></cell> + <cell align="left" valign="top"><em>Time</em> (microseconds)</cell> + <cell align="left" valign="top"><em>Decode Type</em></cell> + <cell align="left" valign="top"><em>ASN.1 Specification</em></cell> + <cell align="left" valign="top"><em>% of Time versus Complete Decode</em></cell> </row> <row> <cell align="left" valign="middle"><c>decode_MegacoMessage_selective/1</c></cell> <cell align="left" valign="middle"><c>374045</c></cell> - <cell align="left" valign="middle"><c>selective</c></cell> + <cell align="left" valign="middle"><c>Selective</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>8.3</em></cell> </row> <row> <cell align="left" valign="middle"><c>decode_MegacoMessage_exclusive/1</c></cell> <cell align="left" valign="middle"><c>621107</c></cell> - <cell align="left" valign="middle"><c>exclusive</c></cell> + <cell align="left" valign="middle"><c>Exclusive</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>13.8</em></cell> </row> <row> <cell align="left" valign="middle"><c>decode/2</c></cell> <cell align="left" valign="middle"><c>4507457</c></cell> - <cell align="left" valign="middle"><c>complete</c></cell> + <cell align="left" valign="middle"><c>Complete</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>100</em></cell> </row> <row> <cell align="left" valign="middle"><c>selected_decode_Window1/1</c></cell> <cell align="left" valign="middle"><c>449585</c></cell> - <cell align="left" valign="middle"><c>selective</c></cell> + <cell align="left" valign="middle"><c>Selective</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>7.6</em></cell> </row> <row> <cell align="left" valign="middle"><c>selected_decode_Window2/1</c></cell> <cell align="left" valign="middle"><c>890666</c></cell> - <cell align="left" valign="middle"><c>selective</c></cell> + <cell align="left" valign="middle"><c>Selective</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>15.1</em></cell> </row> <row> <cell align="left" valign="middle"><c>decode_Window_status_exclusive/1</c></cell> <cell align="left" valign="middle"><c>1251878</c></cell> - <cell align="left" valign="middle"><c>exclusive</c></cell> + <cell align="left" valign="middle"><c>Exclusive</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>21.3</em></cell> </row> <row> <cell align="left" valign="middle"><c>decode/2</c></cell> <cell align="left" valign="middle"><c>5889197</c></cell> - <cell align="left" valign="middle"><c>complete</c></cell> + <cell align="left" valign="middle"><c>Complete</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>100</em></cell> </row> - <tcaption>Results of complete, exclusive and selective decode</tcaption> + <tcaption>Results of Complete, Exclusive, and Selective Decode</tcaption> </table> - <p>Another interesting question is what the relation is between + <p>It is also of interest to know the relation is between a complete decode, an exclusive decode followed by - <c>decode_part</c> of the excluded parts and a selective decode - followed by a complete decode. Some situations may be compared to - this simulation, e.g. inspect a sub-value and later on look at + <c>decode_part</c> of the excluded parts, and a selective decode + followed by a complete decode. Some situations can be compared to + this simulation, for example, inspect a subvalue and later inspect the entire value. The following table shows figures from this - test. The number of loops and time unit is the same as in the + test. The number of loops and the time unit are the same as in the previous test. </p> <table> <row> <cell align="left" valign="top"><em>Actions</em></cell> <cell align="left" valign="top"><em>Function</em> </cell> - <cell align="left" valign="top"><em>Time</em>(microseconds)</cell> - <cell align="left" valign="top"><em>ASN.1 spec</em></cell> - <cell align="left" valign="top"><em>% of time vs. complete decode</em></cell> + <cell align="left" valign="top"><em>Time</em> (microseconds)</cell> + <cell align="left" valign="top"><em>ASN.1 Specification</em></cell> + <cell align="left" valign="top"><em>% of Time vs. Complete Decode</em></cell> </row> <row> - <cell align="left" valign="middle"><c>complete</c></cell> + <cell align="left" valign="middle"><c>Complete</c></cell> <cell align="left" valign="middle"><c>decode/2</c></cell> <cell align="left" valign="middle"><c>4507457</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>100</em></cell> </row> <row> - <cell align="left" valign="middle"><c>selective and complete</c></cell> + <cell align="left" valign="middle"><c>Selective and Complete</c></cell> <cell align="left" valign="middle"><c>decode_­MegacoMessage_­selective/1</c></cell> <cell align="left" valign="middle"><c>4881502</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>108.3</em></cell> </row> <row> - <cell align="left" valign="middle"><c>exclusive and decode_part</c></cell> + <cell align="left" valign="middle"><c>Exclusive and decode_part</c></cell> <cell align="left" valign="middle"><c>decode_­MegacoMessage_­exclusive/1</c></cell> <cell align="left" valign="middle"><c>5481034</c></cell> <cell align="left" valign="middle"><c>MEDIA-GATEWAY-CONTROL</c></cell> <cell align="left" valign="middle"><em>112.3</em></cell> </row> <row> - <cell align="left" valign="middle"><c>complete</c></cell> + <cell align="left" valign="middle"><c>Complete</c></cell> <cell align="left" valign="middle"><c>decode/2</c></cell> <cell align="left" valign="middle"><c>5889197</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>100</em></cell> </row> <row> - <cell align="left" valign="middle"><c>selective and complete</c></cell> + <cell align="left" valign="middle"><c>Selective and Complete</c></cell> <cell align="left" valign="middle"><c>selected_­decode_­Window1/1</c></cell> <cell align="left" valign="middle"><c>6337636</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>107.6</em></cell> </row> <row> - <cell align="left" valign="middle"><c>selective and complete</c></cell> + <cell align="left" valign="middle"><c>Selective and Complete</c></cell> <cell align="left" valign="middle"><c>selected_­decode_­Window2/1</c></cell> <cell align="left" valign="middle"><c>6795319</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>115.4</em></cell> </row> <row> - <cell align="left" valign="middle"><c>exclusive and decode_part</c></cell> + <cell align="left" valign="middle"><c>Exclusive and decode_part</c></cell> <cell align="left" valign="middle"><c>decode_­Window_­status_­exclusive/1</c></cell> <cell align="left" valign="middle"><c>6249200</c></cell> <cell align="left" valign="middle"><c>GUI</c></cell> <cell align="left" valign="middle"><em>106.1</em></cell> </row> - <tcaption>Results of complete, exclusive + decode_part and selective + complete decodes</tcaption> + <tcaption>Results of Complete, Exclusive + decode_part, and Selective + complete decodes</tcaption> </table> <p>Other ASN.1 types and values can differ much from these - figures. Therefore it is important that you, in every case where + figures. It is therefore important that you, in every case where you intend to use either of these decodes, perform some tests - that shows if you will benefit your purpose. + that show if you will benefit your purpose. </p> </section> <section> - <title>Comments</title> - <p>Generally speaking the gain of selective and exclusive decode - in advance of complete decode is greater the bigger value and the - less deep in the structure you have to decode. One should also - prefer selective decode instead of exclusive decode if you are - interested in just one single sub-value.</p> - <p>Another observation is that the exclusive decode followed by - decode_part decodes is very attractive if the parts will be sent - to different servers for decoding or if one in some cases not is - interested in all parts.</p> - <p>The fastest selective decode are when the decoded type is a + <title>Final Remarks</title> + <list type="bulleted"> + <item>The gain of using selective and exclusive decode instead of a + complete decode is greater the bigger the value and the + less deep in the structure you have to decode.</item> + <item>Use selective decode instead of exclusive decode if you are + interested in only a single subvalue.</item> + <item>Exclusive decode followed by + <c>decode_part</c> decodes is attractive if the parts are sent + to different servers for decoding, or if you in some cases are not + interested in all parts.</item> + <item>The fastest selective decode is when the decoded type is a primitive type and not so deep in the structure of the top - type. The <c>selected_decode_Window2</c> decodes a big constructed - value, which explains why this operation is relatively slow.</p> - <p>It may vary from case to case which combination of - selective/complete decode or exclusive/part decode is the fastest.</p> + type. <c>selected_decode_Window2</c> decodes a high constructed + value, which explains why this operation is relatively slow.</item> + <item>It can vary from case to case which combination of + selective/complete decode or exclusive/part decode is the fastest.</item> + </list> </section> </section> </chapter> diff --git a/lib/asn1/doc/src/asn1_ug.xml b/lib/asn1/doc/src/asn1_ug.xml deleted file mode 100644 index 8b33497dd3..0000000000 --- a/lib/asn1/doc/src/asn1_ug.xml +++ /dev/null @@ -1,1417 +0,0 @@ -<?xml version="1.0" encoding="utf-8" ?> -<!DOCTYPE chapter SYSTEM "chapter.dtd"> - -<chapter> - <header> - <copyright> - <year>1997</year><year>2013</year> - <holder>Ericsson AB. All Rights Reserved.</holder> - </copyright> - <legalnotice> - The contents of this file are subject to the Erlang Public License, - Version 1.1, (the "License"); you may not use this file except in - compliance with the License. You should have received a copy of the - Erlang Public License along with this software. If not, it can be - retrieved online at http://www.erlang.org/. - - Software distributed under the License is distributed on an "AS IS" - basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See - the License for the specific language governing rights and limitations - under the License. - - </legalnotice> - - <title>Asn1</title> - <prepared>Kenneth Lundin</prepared> - <docno></docno> - <date>1999-03-25</date> - <rev>D</rev> - <file>asn1_ug.xml</file> - </header> - - <section> - <title>Introduction</title> - - <section> - <title>Features</title> - <p>The Asn1 application provides:</p> - <list type="bulleted"> - <item>An ASN.1 compiler for Erlang, which generates encode and - decode functions to be used by Erlang programs sending and - receiving ASN.1 specified data.</item> - <item>Run-time functions used by the generated code.</item> - <item>Support for the following encoding rules: - <list> - <item> - Basic Encoding Rules (<em>BER</em>) - </item> - <item> - Distinguished Encoding Rules (<em>DER</em>), a specialized - form of BER that is used in security-conscious - applications. - </item> - <item> - Packed Encoding Rules (<em>PER</em>); both the aligned and - unaligned variant. - </item> - </list> - </item> - </list> - </section> - - <section> - <title>Overview</title> - <p>ASN.1 (Abstract Syntax Notation One) is a formal language for - describing data structures to be exchanged between distributed - computer systems. The purpose of ASN.1 is to have a platform - and programming language independent notation to express types - using a standardized set of rules for the transformation of - values of a defined type into a stream of bytes. This stream of - bytes can then be sent on any type of communication - channel. This way, two applications written in different - programming languages running on different computers with - different internal representation of data can exchange instances - of structured data types.</p> - </section> - - <section> - <title>Prerequisites</title> - <p>It is assumed that the reader is familiar with the ASN.1 - notation as documented in the standard definition [<cite - id="X.680"></cite>] which is the primary text. It may also be - helpful, but not necessary, to read the standard definitions - [<cite id="X.681"></cite>] [<cite id="X.682"></cite>] [<cite - id="X.683"></cite>] [<cite id="X.690"></cite>] [<cite - id="X.691"></cite>]. </p> - <p>A good book explaining those reference texts is - [<cite id="DUBUISSON"></cite>], which is free to download at - <url href="http://www.oss.com/asn1/dubuisson.html">http://www.oss.com/asn1/dubuisson.html</url>. - </p> - </section> - - <section> - <title>Capabilities</title> - <p>This application covers all features of ASN.1 up to the 1997 - edition of the specification. In the 2002 edition of ASN.1 a - number of new features were introduced. The following features - of the 2002 edition are fully or partly supported as shown - below:</p> - <list type="bulleted"> - <item> - <p>Decimal notation (e.g., "1.5e3") for REAL values. The - NR1, NR2 and NR3 formats as explained in ISO6093 are - supported.</p> - </item> - <item> - <p>The RELATIVE-OID type for relative object identifiers is - fully supported.</p> - </item> - <item> - <p>The subtype constraint (CONTAINING/ENCODED BY) to - constrain the content of an octet string or a bit string is - parsed when compiling, but no further action is taken. This - constraint is not a PER-visible constraint.</p> - </item> - <item> - <p>The subtype constraint by regular expressions (PATTERN) - for character string types is parsed when compiling, but no - further action is taken. This constraint is not a - PER-visible constraint.</p> - </item> - <item> - <p>Multiple-line comments as in C, <c>/* ... */</c>, are - supported.</p> - </item> - </list> - </section> - - </section> - - <section> - <title>Getting Started with Asn1</title> - - <section> - <title>A First Example</title> - <p>The following example demonstrates the basic functionality used to run - the Erlang ASN.1 compiler.</p> - <p>Create a file called <c>People.asn</c> containing the following:</p> - <pre> -People DEFINITIONS AUTOMATIC TAGS ::= -BEGIN - Person ::= SEQUENCE { - name PrintableString, - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER OPTIONAL - } -END </pre> - <p>This file (<c>People.asn</c>) must be compiled before it can be - used. - The ASN.1 compiler checks that the syntax is correct and that the - text represents proper ASN.1 code before generating an abstract - syntax tree. The code-generator then uses the abstract syntax - tree in order to generate code. - </p> - <p>The generated Erlang files will be placed in the current directory or - in the directory specified with the <c>{outdir,Dir}</c> option. - The following shows how the compiler - can be called from the Erlang shell:</p> - <pre> -1><input> asn1ct:compile("People", [ber]).</input> -ok -2> </pre> - - <p>The <c>verbose</c> option can be given to have information - about the generated files printed:</p> - <pre> -2><input> asn1ct:compile("People", [ber,verbose]).</input> -Erlang ASN.1 compiling "People.asn" ---{generated,"People.asn1db"}-- ---{generated,"People.hrl"}-- ---{generated,"People.erl"}-- -ok -3> </pre> - - <p>The ASN.1 module <c>People</c> is now accepted and the - abstract syntax tree is saved in the <c>People.asn1db</c> file; - the generated Erlang code is compiled using the Erlang compiler - and loaded into the Erlang run-time system. Now there is an API - for <c>encode/2</c> and <c>decode/2</c> in the module - <c>People</c>, which is invoked by: <br></br> - <c><![CDATA['People':encode(<Type name>, <Value>)]]></c> - <br></br> - or <br></br> -<c><![CDATA['People':decode(<Type name>, <Value>)]]></c></p> - - <p>Assume there is a network - application which receives instances of the ASN.1 defined - type Person, modifies and sends them back again:</p> - <code type="none"> -receive - {Port,{data,Bytes}} -> - case 'People':decode('Person',Bytes) of - {ok,P} -> - {ok,Answer} = 'People':encode('Person',mk_answer(P)), - Port ! {self(),{command,Answer}}; - {error,Reason} -> - exit({error,Reason}) - end - end, </code> - <p>In the example above, a series of bytes is received from an - external source and the bytes are then decoded into a valid - Erlang term. This was achieved with the call - <c>'People':decode('Person',Bytes)</c> which returned - an Erlang value of the ASN.1 type <c>Person</c>. Then an answer was - constructed and encoded using - <c>'People':encode('Person',Answer)</c> which takes an - instance of a defined ASN.1 type and transforms it to a - binary according to the BER or PER encoding rules. - <br></br> -The encoder and the decoder can also be run from - the shell.</p> - <pre> -2> <input>Rockstar = {'Person',"Some Name",roving,50}.</input> -{'Person',"Some Name",roving,50} -3> <input>{ok,Bin} = 'People':encode('Person',Rockstar).</input> -{ok,<<243,17,19,9,83,111,109,101,32,78,97,109,101,2,1,2, - 2,1,50>>} -4> <input>{ok,Person} = 'People':decode('Person',Bin).</input> -{ok,{'Person',"Some Name",roving,50}} -5> </pre> - </section> - - <section> - <title>Module dependencies</title> - <p>It is common that ASN.1 modules import defined types, values and - other entities from another ASN.1 module.</p> - <p>Earlier versions of the ASN.1 compiler required that modules that - were imported from had to be compiled before the module that - imported. This caused problems when ASN.1 modules had circular - dependencies.</p> - <p>Referenced modules are now parsed when the compiler finds an - entity that is imported. There will not be any code generated for - the referenced module. However, the compiled module rely on - that the referenced modules also will be compiled.</p> - </section> - </section> - - <section> - <title>The Asn1 Application User Interface</title> - <p>The Asn1 application provides two separate user interfaces:</p> - <list type="bulleted"> - <item> - <p>The module <c>asn1ct</c> which provides the compile-time functions - (including the compiler).</p> - </item> - <item> - <p>The module <c>asn1rt_nif</c> which provides the run-time functions - for the ASN.1 decoder for the BER back-end.</p> - </item> - </list> - <p>The reason for the division of the interface into compile-time - and run-time - is that only run-time modules (<c>asn1rt*</c>) need to be loaded in - an embedded system. - </p> - - <section> - <title>Compile-time Functions</title> - <p>The ASN.1 compiler can be invoked directly from the command-line - by means of the <c>erlc</c> program. This is convenient when compiling - many ASN.1 files from the command-line or when using Makefiles. - Here are some examples of how the <c>erlc</c> command can be used to invoke the - ASN.1 compiler:</p> - <pre> -erlc Person.asn -erlc -bper Person.asn -erlc -bber ../Example.asn -erlc -o ../asnfiles -I ../asnfiles -I /usr/local/standards/asn1 Person.asn </pre> - <p>The useful options for the ASN.1 compiler are:</p> - <taglist> - <tag><c>-b[ber | per | uper]</c></tag> - <item> - <p>Choice of encoding rules, if omitted <c>ber</c> is the - default.</p> - </item> - <tag><c>-o OutDirectory</c></tag> - <item> - <p>Where to put the generated files, default is the current - directory.</p> - </item> - <tag><c>-I IncludeDir</c></tag> - <item> - <p>Where to search for <c>.asn1db</c> files and ASN.1 - source specs in order to resolve references to other - modules. This option can be repeated many times if there - are several places to search in. The compiler will always - search the current directory first.</p> - </item> - <tag><c>+der</c></tag> - <item> - <p>DER encoding rule. Only when using <c>-ber</c> option.</p> - </item> - <tag><c>+asn1config</c></tag> - <item> - <p>This functionality works together with the - <c>ber</c> option. It enables the - specialized decodes, see the <seealso marker="asn1_spec">Specialized Decode</seealso> chapter. - </p> - </item> - <tag><c>+undec_rest</c></tag> - <item> - <p>A buffer that holds a message being decoded may also have - trailing bytes. If those trailing bytes are important they - can be returned along with the decoded value by compiling - the ASN.1 specification with the <c>+undec_rest</c> option. - The return value from the decoder will be - <c>{ok,Value,Rest}</c> where <c>Rest</c> is a binary - containing the trailing bytes.</p> - </item> - <tag><c>+'Any Erlc Option'</c></tag> - <item> - <p>You may add any option to the Erlang compiler when - compiling the generated Erlang files. Any option - unrecognized by the ASN.1 compiler will be passed to the - Erlang compiler.</p> - </item> - </taglist> - <p>For a complete description of <c>erlc</c> see Erts Reference Manual.</p> - <p>The compiler and other compile-time functions can also be invoked from - the Erlang shell. Below follows a brief - description of the primary functions, for a - complete description of each function see - <seealso marker="asn1ct">the Asn1 Reference Manual</seealso>, the - <c>asn1ct</c> module.</p> - <p>The compiler is invoked by using <c>asn1ct:compile/1</c> with - default options, or <c>asn1ct:compile/2</c> if explicit options - are given. - Example:</p> - <pre> -asn1ct:compile("H323-MESSAGES.asn1"). </pre> - <p>which equals:</p> - <pre> -asn1ct:compile("H323-MESSAGES.asn1",[ber]). </pre> - <p>If one wants PER encoding:</p> - <pre> -asn1ct:compile("H323-MESSAGES.asn1",[per]). </pre> - <p>The generic encode and decode functions can be invoked like this:</p> - <pre> -'H323-MESSAGES':encode('SomeChoiceType',{call,"octetstring"}). -'H323-MESSAGES':decode('SomeChoiceType',Bytes). </pre> - </section> - - <section> - <title>Run-time Functions</title> - <p>When an ASN.1 specification is compiled with the <c>ber</c> - option, the module <c>asn1rt_nif</c> module and the NIF library in - <c>asn1/priv_dir</c> will be needed at run-time.</p> - <p>By invoking the function <c>info/0</c> in a generated module, one - gets information about which compiler options were used.</p> - </section> - - <section> - <title>Errors</title> - <p>Errors detected at - compile time appear on the screen together with - a line number indicating where in the source file the error - was detected. If no errors are found, an Erlang ASN.1 module will - be created.</p> - <p>The run-time encoders and decoders execute within a catch and - returns <c>{ok, Data}</c> or - <c>{error, {asn1, Description}}</c> where - <c>Description</c> is - an Erlang term describing the error. </p> - </section> - </section> - - <section> - <marker id="inlineExamples"></marker> - <title>Multi-file Compilation</title> - <p>There are various reasons for using multi-file compilation:</p> - <list type="bulleted"> - <item>You want to choose the name for the generated module, - perhaps because you need to compile the same specs for - different encoding rules.</item> - <item>You want only one resulting module.</item> - </list> - <p>You need to specify which ASN.1 specs you will - compile in a module that must have the extension - <c>.set.asn</c>. You chose name of the module and provide the - names of the ASN.1 specs. For instance, if you have the specs - <c>File1.asn</c>, <c>File2.asn</c> and <c>File3.asn</c> your - module <c>MyModule.set.asn</c> will look like:</p> - <pre> -File1.asn -File2.asn -File3.asn </pre> - <p>If you compile with:</p> - <code type="none"> -~> erlc MyModule.set.asn </code> - <p>the result will be one merged module <c>MyModule.erl</c> with - the generated code from the three ASN.1 specs. - </p> - </section> - - <section> - <title>A quick note about tags</title> - - <p>Tags used to be important for all users of ASN.1, because it - was necessary to manually add tags to certain constructs in order - for the ASN.1 specification to be valid. Here is an example of - an old-style specification:</p> - - <pre> -Tags DEFINITIONS ::= -BEGIN - Afters ::= CHOICE { cheese [0] IA5String, - dessert [1] IA5String } -END </pre> - - <p>Without the tags (the numbers in square brackets) the ASN.1 - compiler would refuse to compile the file.</p> - - <p>In 1994 the global tagging mode AUTOMATIC TAGS was introduced. - By putting AUTOMATIC TAGS in the module header, the ASN.1 compiler - will automatically add tags when needed. Here is the same - specification in AUTOMATIC TAGS mode:</p> - - <pre> -Tags DEFINITIONS AUTOMATIC TAGS ::= -BEGIN - Afters ::= CHOICE { cheese IA5String, - dessert IA5String } -END -</pre> - - <p>Tags will not be mentioned any more in this manual.</p> - </section> - - <section> - <marker id="ASN1Types"></marker> - <title>The ASN.1 Types</title> - <p>This section describes the ASN.1 types including their - functionality, purpose and how values are assigned in Erlang. - </p> - <p>ASN.1 has both primitive and constructed types:</p> - <p></p> - <table> - <row> - <cell align="left" valign="middle"><em>Primitive types</em></cell> - <cell align="left" valign="middle"><em>Constructed types</em></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#BOOLEAN">BOOLEAN</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#SEQUENCE">SEQUENCE</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#INTEGER">INTEGER</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#SET">SET</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#REAL">REAL</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#CHOICE">CHOICE</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#NULL">NULL</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#SOF">SET OF and SEQUENCE OF</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#ENUMERATED">ENUMERATED</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#ANY">ANY</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#BIT STRING">BIT STRING</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#ANY">ANY DEFINED BY</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#OCTET STRING">OCTET STRING</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">EXTERNAL</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#Character Strings">Character Strings</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">EMBEDDED PDV</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#OBJECT IDENTIFIER">OBJECT IDENTIFIER</seealso></cell> - <cell align="left" valign="middle"><seealso marker="#NegotiationTypes">CHARACTER STRING</seealso></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#Object Descriptor">Object Descriptor</seealso></cell> - <cell align="left" valign="middle"></cell> - </row> - <row> - <cell align="left" valign="middle"><seealso marker="#The TIME types">The TIME types</seealso></cell> - <cell align="left" valign="middle"></cell> - </row> - <tcaption>The supported ASN.1 types</tcaption> - </table> - <marker id="TypeNameValue"></marker> - <note> - <p>Values of each ASN.1 type has its own representation in Erlang - described in the following subsections. Users shall provide - these values for encoding according to the representation, as - in the example below.</p> - </note> - <pre> -Operational ::= BOOLEAN --ASN.1 definition </pre> - <p>In Erlang code it may look like:</p> - <pre> -Val = true, -{ok,Bytes} = MyModule:encode('Operational', Val), </pre> - <p>Below follows a description of how - values of each type can be represented in Erlang. - </p> - - <section> - <marker id="BOOLEAN"></marker> - <title>BOOLEAN</title> - <p>Booleans in ASN.1 express values that can be either - TRUE or FALSE. - The meanings assigned to TRUE or FALSE is beyond the scope - of this text. <br></br> - - In ASN.1 it is possible to have:</p> - <pre> -Operational ::= BOOLEAN - </pre> - <p>Assigning a value to the type Operational in Erlang is possible by - using the following Erlang code:</p> - <code type="erl"> -Myvar1 = true, - </code> - <p>Thus, in Erlang the atoms <c>true</c> and <c>false</c> are used - to encode a boolean value.</p> - </section> - - <section> - <marker id="INTEGER"></marker> - <title>INTEGER</title> - <p>ASN.1 itself specifies indefinitely large integers, and the Erlang - systems with versions 4.3 and higher, support very large - integers, in practice indefinitely large integers.</p> - <p>The concept of sub-typing can be applied to integers as well - as to other ASN.1 types. The details of sub-typing are not - explained here, for further info see [<cite id="X.680"></cite>]. A variety - of syntaxes are allowed when defining a type as an integer:</p> - <pre> -T1 ::= INTEGER -T2 ::= INTEGER (-2..7) -T3 ::= INTEGER (0..MAX) -T4 ::= INTEGER (0<..MAX) -T5 ::= INTEGER (MIN<..-99) -T6 ::= INTEGER {red(0),blue(1),white(2)} - </pre> - <p>The Erlang representation of an ASN.1 INTEGER is an integer or - an atom if a so called <c>Named Number List</c> (see T6 above) - is specified.</p> - <p>Below is an example of Erlang code which assigns values for the - above types: </p> - <pre> -T1value = 0, -T2value = 6, -T6value1 = blue, -T6value2 = 0, -T6value3 = white - </pre> - <p>The Erlang variables above are now bound to valid instances of - ASN.1 defined types. This style of value can be passed directly - to the encoder for transformation into a series of bytes.</p> - <p>The decoder will return an atom if the value corresponds to a - symbol in the Named Number List.</p> - </section> - - <section> - <marker id="REAL"></marker> - <title>REAL</title> - <p>The following ASN.1 type is used for real numbers:</p> - <pre> -R1 ::= REAL - </pre> - <p>It can be assigned a value in Erlang as:</p> - <pre> -R1value1 = "2.14", -R1value2 = {256,10,-2}, - </pre> - <p>In the last line note that the tuple {256,10,-2} is the real number - 2.56 in a special notation, which will encode faster than simply - stating the number as <c>"2.56"</c>. The arity three tuple is - <c>{Mantissa,Base,Exponent}</c> i.e. Mantissa * Base^Exponent.</p> - </section> - - <section> - <marker id="NULL"></marker> - <title>NULL</title> - <p>Null is suitable in cases where supply and recognition of a value - is important but the actual value is not.</p> - <pre> -Notype ::= NULL - </pre> - <p>The NULL type can be assigned in Erlang:</p> - <pre> -N1 = 'NULL', - </pre> - <p>The actual value is the quoted atom 'NULL'.</p> - </section> - - <section> - <marker id="ENUMERATED"></marker> - <title>ENUMERATED</title> - <p>The enumerated type can be used, when the value we wish to - describe, may only take one of a set of predefined values.</p> - <pre> -DaysOfTheWeek ::= ENUMERATED { - sunday(1),monday(2),tuesday(3), - wednesday(4),thursday(5),friday(6),saturday(7) } - </pre> - <p>For example to assign a weekday value in Erlang use the same atom - as in the <c>Enumerations</c> of the type definition:</p> - <pre> -Day1 = saturday, - </pre> - <p>The enumerated type is very similar to an integer type, when - defined with a set of predefined values. An enumerated type - differs from an integer in that it may only have specified - values, whereas an integer can also have any other value.</p> - </section> - - <section> - <marker id="BIT STRING"></marker> - <title>BIT STRING</title> - <p>The BIT STRING type can be used to model information which - is made up of arbitrary length series of bits. It is intended - to be used for a selection of flags, not for binary files. <br></br> - - In ASN.1 BIT STRING definitions may look like: - </p> - <pre> -Bits1 ::= BIT STRING -Bits2 ::= BIT STRING {foo(0),bar(1),gnu(2),gnome(3),punk(14)} - </pre> - <p>There are two notations available for representation of - BIT STRING values in Erlang and as input to the encode functions.</p> - <list type="ordered"> - <item>A bitstring. By default, a BIT STRING with no - symbolic names will be decoded to an Erlang bitstring.</item> - <item>A list of atoms corresponding to atoms in the <c>NamedBitList</c> - in the BIT STRING definition. A BIT STRING with symbolic - names will always be decoded to this format.</item> - </list> - <p>Example:</p> - <pre> -Bits1Val1 = <<0:1,1:1,0:1,1:1,1:1>>, -Bits2Val1 = [gnu,punk], -Bits2Val2 = <<2#1110:4>>, -Bits2Val3 = [bar,gnu,gnome], - </pre> - <p><c>Bits2Val2</c> and <c>Bits2Val3</c> above denote the same value.</p> - <p><c>Bits2Val1</c> is assigned symbolic values. The assignment means - that the bits corresponding to <c>gnu</c> and <c>punk</c> i.e. bits - 2 and 14 are set to 1 and the rest set to 0. The symbolic values - appear as a list of values. If a named value appears, which is not - specified in the type definition, a run-time error will occur.</p> - <p>BIT STRINGS may also be sub-typed with, for example, a SIZE - specification:</p> - <pre> -Bits3 ::= BIT STRING (SIZE(0..31)) </pre> - <p>This means that no bit higher than 31 can ever be set.</p> - - <section> - <title>Deprecated representations for BIT STRING</title> - <p>In addition to the representations described above, the - following deprecated representations are available if the - specification has been compiled with the - <c>legacy_erlang_types</c> option:</p> - <list type="ordered"> - <item>A list of binary digits (0 or 1). This format is - accepted as input to the encode functions, and a BIT STRING - will be decoded to this format if the - <em>legacy_bit_string</em> option has been given. - </item> - <item>As <c>{Unused,Binary}</c> where <c>Unused</c> denotes - how many trailing zero-bits 0 to 7 that are unused in the - least significant byte in <c>Binary</c>. This format is - accepted as input to the encode functions, and a <c>BIT - STRING</c> will be decoded to this format if - <em>compact_bit_string</em> has been given. - </item> - <item>A hexadecimal number (or an integer). This format - should be avoided, since it is easy to misinterpret a BIT - STRING value in this format. - </item> - </list> - </section> - </section> - - <section> - <marker id="OCTET STRING"></marker> - <title>OCTET STRING</title> - <p>The OCTET STRING is the simplest of all ASN.1 types. The - OCTET STRING only moves or transfers e.g. binary files or other - unstructured information complying to two rules. Firstly, the - bytes consist of octets and secondly, encoding is not - required.</p> - <p>It is possible to have the following ASN.1 type definitions:</p> - <pre> -O1 ::= OCTET STRING -O2 ::= OCTET STRING (SIZE(28)) </pre> - <p>With the following example assignments in Erlang:</p> - <pre> -O1Val = <<17,13,19,20,0,0,255,254>>, -O2Val = <<"must be exactly 28 chars....">>,</pre> - <p>By default, an OCTET STRING is always represented as - an Erlang binary. If the specification has been compiled with - the <c>legacy_erlang_types</c> option, the encode functions - will accept both lists and binaries, and the decode functions - will decode an OCTET STRING to a list.</p> - </section> - - <section> - <marker id="Character Strings"></marker> - <title>Character Strings</title> - <p>ASN.1 supports a wide variety of character sets. The main difference - between OCTET STRINGS and the Character strings is that OCTET - STRINGS have no imposed semantics on the bytes delivered.</p> - <p>However, when using for instance the IA5String (which closely - resembles ASCII) the byte 65 (in decimal - notation) <em>means</em> the character 'A'. - </p> - <p>For example, if a defined type is to be a VideotexString and - an octet is received with the unsigned integer value X, then - the octet should be interpreted as specified in the standard - ITU-T T.100,T.101. - </p> - <p>The ASN.1 to Erlang compiler - will not determine the correct interpretation of each BER - (Basic Encoding Rules) string octet value with different - Character strings. Interpretation of octets is the - responsibility of the application. Therefore, from the BER - string point of view, octets appear to be very similar to - character strings and are compiled in the same way. - </p> - <p>It should be noted that when PER (Packed Encoding Rules) is - used, there is a significant difference in the encoding scheme - between OCTET STRINGS and other strings. The constraints - specified for a type are especially important for PER, where - they affect the encoding. - </p> - <p>Here are some examples:</p> - <pre> -Digs ::= NumericString (SIZE(1..3)) -TextFile ::= IA5String (SIZE(0..64000)) </pre> - <p>with corresponding Erlang assignments:</p> - <pre> -DigsVal1 = "456", -DigsVal2 = "123", -TextFileVal1 = "abc...xyz...", -TextFileVal2 = [88,76,55,44,99,121 .......... a lot of characters here ....] </pre> - <p>The Erlang representation for "BMPString" and - "UniversalString" is either a list of ASCII values or a list - of quadruples. The quadruple representation associates to the - Unicode standard representation of characters. The ASCII - characters are all represented by quadruples beginning with - three zeros like {0,0,0,65} for the 'A' character. When - decoding a value for these strings the result is a list of - quadruples, or integers when the value is an ASCII character.</p> - - <p>The following example shows how it works. We have the following - specification in the file <c>PrimStrings.asn1</c>.</p> - <pre> -PrimStrings DEFINITIONS AUTOMATIC TAGS ::= -BEGIN - BMP ::= BMPString -END - </pre> - - <p>Encoding and decoding some strings:</p> - - <pre> -1> <input>asn1ct:compile('PrimStrings', [ber]).</input> -ok -2> <input>{ok,Bytes1} = 'PrimStrings':encode('BMP', [{0,0,53,53},{0,0,45,56}]).</input> -{ok,<<30,4,53,54,45,56>>} -3> <input>'PrimStrings':decode('BMP', Bytes1).</input> -{ok,[{0,0,53,53},{0,0,45,56}]} -4> <input>{ok,Bytes2} = 'PrimStrings':encode('BMP', [{0,0,53,53},{0,0,0,65}]).</input> -{ok,<<30,4,53,53,0,65>>} -5> <input>'PrimStrings':decode('BMP', Bytes2).</input> -{ok,[{0,0,53,53},65]} -6> <input>{ok,Bytes3} = 'PrimStrings':encode('BMP', "BMP string").</input> -{ok,<<30,20,0,66,0,77,0,80,0,32,0,115,0,116,0,114,0,105,0,110,0,103>>} -7> <input>'PrimStrings':decode('BMP', Bytes3).</input> -{ok,"BMP string"} </pre> - - <p>The UTF8String type is represented as a UTF-8 encoded binary in - Erlang. Such binaries can be created directly using the binary syntax - or by converting from a list of Unicode code points using the - <c>unicode:characters_to_binary/1</c> function.</p> - - <p>Here are some examples showing how UTF-8 encoded binaries can - be created and manipulated:</p> - - <pre> -1> <input>Gs = "Мой маленький Гном".</input> -[1052,1086,1081,32,1084,1072,1083,1077,1085,1100,1082,1080, - 1081,32,1043,1085,1086,1084] -2> <input>Gbin = unicode:characters_to_binary(Gs).</input> -<<208,156,208,190,208,185,32,208,188,208,176,208,187,208, - 181,208,189,209,140,208,186,208,184,208,185,32,208,147, - 208,...>> -3> <input>Gbin = <<"Мой маленький Гном"/utf8>>.</input> -<<208,156,208,190,208,185,32,208,188,208,176,208,187,208, - 181,208,189,209,140,208,186,208,184,208,185,32,208,147, - 208,...>> -4> <input>Gs = unicode:characters_to_list(Gbin).</input> -[1052,1086,1081,32,1084,1072,1083,1077,1085,1100,1082,1080, - 1081,32,1043,1085,1086,1084] - </pre> - - <p>See the <seealso marker="stdlib:unicode">unicode</seealso> module - for more details.</p> - - <p>In the following example we will use this ASN.1 specification:</p> - <pre> -UTF DEFINITIONS AUTOMATIC TAGS ::= -BEGIN - UTF ::= UTF8String -END - </pre> - - <p>Encoding and decoding a string with Unicode characters:</p> - - <pre> -5> <input>asn1ct:compile('UTF', [ber]).</input> -ok -6> <input>{ok,Bytes1} = 'UTF':encode('UTF', <<"Гном"/utf8>>).</input> -{ok,<<12,8,208,147,208,189,208,190,208,188>>} -7> <input>{ok,Bin1} = 'UTF':decode('UTF', Bytes1).</input> -{ok,<<208,147,208,189,208,190,208,188>>} -8> <input>io:format("~ts\n", [Bin1]).</input> -Гном -ok -9> <input>unicode:characters_to_list(Bin1).</input> -[1043,1085,1086,1084] - </pre> - </section> - - <section> - <marker id="OBJECT IDENTIFIER"></marker> - <title>OBJECT IDENTIFIER</title> - <p>The OBJECT IDENTIFIER is used whenever a unique identity is required. - An ASN.1 module, a transfer syntax, etc. is identified with an - OBJECT IDENTIFIER. Assume the example below:</p> - <pre> -Oid ::= OBJECT IDENTIFIER - </pre> - <p>Therefore, the example below is a valid Erlang instance of the - type 'Oid'.</p> - <pre> -OidVal1 = {1,2,55}, - </pre> - <p>The OBJECT IDENTIFIER value is simply a tuple with the - consecutive values which must be integers. - </p> - <p>The first value is limited to the values 0, 1 or 2 and the - second value must be in the range 0..39 when the first value - is 0 or 1. - </p> - <p>The OBJECT IDENTIFIER is a very important type and it is - widely used within different standards to uniquely identify - various objects. In [<cite id="DUBUISSON"></cite>], there is an - easy-to-understand description of the usage of - OBJECT IDENTIFIER.</p> - <p></p> - </section> - - <section> - <marker id="Object Descriptor"></marker> - <title>Object Descriptor</title> - <p>Values of this type can be assigned a value as an ordinary string - like this:</p> - - <pre> - "This is the value of an Object descriptor"</pre> - </section> - - <section> - <marker id="The TIME types"></marker> - <title>The TIME Types</title> - <p>Two different time types are defined within ASN.1, Generalized - Time and UTC (Universal Time Coordinated), both are assigned a - value as an ordinary string within double quotes i.e. - "19820102070533.8".</p> - <p>In case of DER encoding the compiler does not check the validity - of the time values. The DER requirements upon those strings is - regarded as a matter for the application to fulfill.</p> - </section> - - <section> - <marker id="SEQUENCE"></marker> - <title>SEQUENCE</title> - <p>The structured types of ASN.1 are constructed from other types - in a manner similar to the concepts of array and struct in C. - <br></br> - A SEQUENCE in ASN.1 is - comparable with a struct in C and a record in Erlang. - A SEQUENCE may be defined as:</p> - <pre> -Pdu ::= SEQUENCE { - a INTEGER, - b REAL, - c OBJECT IDENTIFIER, - d NULL } </pre> - <p>This is a 4-component structure called 'Pdu'. The major format - for representation of SEQUENCE in Erlang is the record format. - For each SEQUENCE and <c>SET</c> in an ASN.1 module an Erlang - record declaration is generated. For <c>Pdu</c> above, a record - like this is defined:</p> - <pre> --record('Pdu',{a, b, c, d}). </pre> - <p>The record declarations for a module <c>M</c> are placed in a - separate <c>M.hrl</c> file.</p> - <p>Values can be assigned in Erlang as shown below:</p> - <pre> -MyPdu = #'Pdu'{a=22,b=77.99,c={0,1,2,3,4},d='NULL'}. </pre> - <p>The decode functions will return a record as result when decoding - a <c>SEQUENCE</c> or a <c>SET</c>.</p> - - <p>A <c>SEQUENCE</c> and a <c>SET</c> may contain a component - with a <c>DEFAULT</c> key word followed by the actual value that - is the default value. The <c>DEFAULT</c> keyword means that the - application doing the encoding can omit encoding of the value, - thus resulting in fewer bytes to send to the receiving - application.</p> - - <p>An application can use the atom <c>asn1_DEFAULT</c> to indicate - that the encoding should be omitted for that position in - the SEQUENCE.</p> - - <p>Depending on the encoding rules, the encoder may also compare - the given value to the default value and automatically omit the - encoding if they are equal. How much effort the encoder makes to - to compare the values depends on the encoding rules. The DER - encoding rules forbids encoding a value equal to the default value, - so it has a more thorough and time-consuming comparison than the - encoders for the other encoding rules.</p> - - <p>In the following example we will use this ASN.1 specification:</p> - <pre> -File DEFINITIONS AUTOMATIC TAGS ::= -BEGIN -Seq1 ::= SEQUENCE { - a INTEGER DEFAULT 1, - b Seq2 DEFAULT {aa TRUE, bb 15} -} - -Seq2 ::= SEQUENCE { - aa BOOLEAN, - bb INTEGER -} - -Seq3 ::= SEQUENCE { - bs BIT STRING {a(0), b(1), c(2)} DEFAULT {a, c} -} -END </pre> - <p>Here is an example where the BER encoder is able to omit encoding - of the default values:</p> - <pre> -1> <input>asn1ct:compile('File', [ber]).</input> -ok -2> <input>'File':encode('Seq1', {'Seq1',asn1_DEFAULT,asn1_DEFAULT}).</input> -{ok,<<48,0>>} -3> <input>'File':encode('Seq1', {'Seq1',1,{'Seq2',true,15}}).</input> -{ok,<<48,0>>} </pre> - - <p>And here is an example with a named BIT STRING where the BER - encoder will not omit the encoding:</p> - <pre> -4> <input>'File':encode('Seq3', {'Seq3',asn1_DEFAULT).</input> -{ok,<<48,0>>} -5> <input>'File':encode('Seq3', {'Seq3',<<16#101:3>>).</input> -{ok,<<48,4,128,2,5,160>>} </pre> - - <p>The DER encoder will omit the encoding for the same BIT STRING:</p> - <pre> -6> <input>asn1ct:compile('File', [ber,der]).</input> -ok -7> <input>'File':encode('Seq3', {'Seq3',asn1_DEFAULT).</input> -{ok,<<48,0>>} -8> <input>'File':encode('Seq3', {'Seq3',<<16#101:3>>).</input> -{ok,<<48,0>>} </pre> - </section> - - <section> - <marker id="SET"></marker> - <title>SET</title> - <p>In Erlang, the SET type is used exactly as SEQUENCE. Note - that if the BER or DER encoding rules are used, decoding a - SET is slower than decoding a SEQUENCE because the components - must be sorted.</p> - </section> - - <section> - <title>Notes about extensibility for SEQUENCE and SET</title> - <p>When a SEQUENCE or SET contains an extension marker and - extension components like this:</p> - <pre> -SExt ::= SEQUENCE { - a INTEGER, - ..., - b BOOLEAN } - </pre> - <p>It means that the type may get more components in newer - versions of the ASN.1 spec. In this case it has got a new - component <c>b</c>. Thus, incoming messages that will be decoded - may have more or fever components than this one. - </p> - <p>The component <c>b</c> will be treated as - an original component when encoding a message. In this case, as - it is not an optional element, it must be encoded. - </p> - <p>During decoding the <c>b</c> field of the record will get the decoded - value of the <c>b</c> - component if present and otherwise the value <c>asn1_NOVALUE</c>.</p> - </section> - - <section> - <marker id="CHOICE"></marker> - <title>CHOICE</title> - <p>The CHOICE type is a space saver and is similar to the concept of a - 'union' in the C language.</p> - <p>Assume:</p> - <pre> -SomeModuleName DEFINITIONS AUTOMATIC TAGS ::= -BEGIN -T ::= CHOICE { - x REAL, - y INTEGER, - z OBJECT IDENTIFIER } -END </pre> - <p>It is then possible to assign values:</p> - <pre> -TVal1 = {y,17}, -TVal2 = {z,{0,1,2}}, - </pre> - <p>A CHOICE value is always represented as the tuple - <c>{ChoiceAlternative, Val}</c> where <c>ChoiceAlternative</c> - is an atom denoting the selected choice alternative. - </p> - - <section> - <title>Extensible CHOICE</title> - <p>When a CHOICE contains an extension marker and the decoder detects - an unknown alternative of the CHOICE the value is represented as:</p> - <pre> -{asn1_ExtAlt, BytesForOpenType} - </pre> - <p>Where <c>BytesForOpenType</c> is a list of bytes constituting the - encoding of the "unknown" CHOICE alternative. </p> - </section> - </section> - - <section> - <marker id="SOF"></marker> - <title>SET OF and SEQUENCE OF</title> - <p>The SET OF and SEQUENCE OF types correspond to the concept of an array - found in several programming languages. The Erlang syntax for - both of these types is straight forward. For example:</p> - <pre> -Arr1 ::= SET SIZE (5) OF INTEGER (4..9) -Arr2 ::= SEQUENCE OF OCTET STRING </pre> - <p>We may have the following in Erlang:</p> - <pre> -Arr1Val = [4,5,6,7,8], -Arr2Val = ["abc",[14,34,54],"Octets"], </pre> - <p>Please note that the definition of the SET OF type implies that - the order of the components is undefined, but in practice there is - no difference between SET OF and SEQUENCE OF. The ASN.1 compiler - for Erlang does not randomize the order of the SET OF components - before encoding.</p> - <p>However, in case of a value of the type <c>SET OF</c>, the DER - encoding format requires the elements to be sent in ascending - order of their encoding, which implies an expensive sorting - procedure in run-time. Therefore it is strongly recommended to - use <c>SEQUENCE OF</c> instead of <c>SET OF</c> if it is possible.</p> - </section> - - <section> - <marker id="ANY"></marker> - <title>ANY and ANY DEFINED BY</title> - <p>The types <c>ANY</c> and <c>ANY DEFINED BY</c> have been removed - from the standard since 1994. It is recommended not to use - these types any more. They may, however, exist in some old ASN.1 - modules. - The idea with this type was to leave a "hole" in a definition where - one could put unspecified data of any kind, even non ASN.1 data.</p> - <p>A value of this type is encoded as an <c>open type</c>.</p> - <p>Instead of <c>ANY</c>/<c>ANY DEFINED BY</c> one should use - <c>information object class</c>, <c>table constraints</c> and - <c>parameterization</c>. In particular the construct - <c>TYPE-IDENTIFIER.@Type</c> accomplish the same as the - deprecated <c>ANY</c>.</p> - <p>See also <seealso marker="#Information Object">Information object</seealso></p> - </section> - - <section> - <marker id="NegotiationTypes"></marker> - <title>EXTERNAL, EMBEDDED PDV and CHARACTER STRING</title> - <p>These types are used in presentation layer negotiation. They are - encoded according to their associated type, see [<cite id="X.680"></cite>].</p> - <p>The <c>EXTERNAL</c> type had a slightly different associated type - before 1994. [<cite id="X.691"></cite>] states that encoding shall follow - the older associate type. Therefore does generated encode/decode - functions convert values of the newer format to the older format - before encoding. This implies that it is allowed to use - <c>EXTERNAL</c> type values of either format for encoding. Decoded - values are always returned on the newer format.</p> - </section> - - <section> - <title>Embedded Named Types</title> - <p>The structured types previously described may very well have other named types - as their components. The general syntax to assign a value to the component C - of a named ASN.1 type T in Erlang is the record syntax - <c>#'T'{'C'=Value}</c>. - Where <c>Value</c> may be a value of yet another type T2.</p> - <p>For example:</p> - <pre> -EmbeddedExample DEFINITIONS AUTOMATIC TAGS ::= -BEGIN -B ::= SEQUENCE { - a Arr1, - b T } - -Arr1 ::= SET SIZE (5) OF INTEGER (4..9) - -T ::= CHOICE { - x REAL, - y INTEGER, - z OBJECT IDENTIFIER } - END </pre> - <p>The SEQUENCE b can be encoded like this in Erlang:</p> - <pre> -1> 'EmbeddedExample':encode('B', {'B',[4,5,6,7,8],{x,"7.77"}}). -{ok,<<5,56,0,8,3,55,55,55,46,69,45,50>>} </pre> - </section> - </section> - - <section> - <title>Naming of Records in .hrl Files</title> - <p>When an ASN.1 specification is compiled all defined types of - type SET or SEQUENCE will result in a corresponding record in the - generated hrl file. This is because the values for SET/SEQUENCE - as mentioned in sections above are represented as records.</p> - <p>Though there are some special cases of this functionality that - are presented below.</p> - - <section> - <title>Embedded Structured Types</title> - <p>It is also possible in ASN.1 to have components that are themselves - structured types. - For example, it is possible to have:</p> - <pre> -Emb ::= SEQUENCE { - a SEQUENCE OF OCTET STRING, - b SET { - a INTEGER, - b INTEGER DEFAULT 66}, - c CHOICE { - a INTEGER, - b FooType } } - -FooType ::= [3] VisibleString </pre> - <p>The following records are generated because of the type <c>Emb</c>:</p> - <pre> --record('Emb,{a, b, c}). --record('Emb_b',{a, b = asn1_DEFAULT}). % the embedded SET type - </pre> - <p>Values of the <c>Emb</c> type can be assigned like this:</p> - <code type="none"> -V = #'Emb'{a=["qqqq",[1,2,255]], - b = #'Emb_b'{a=99}, - c ={b,"Can you see this"}}. - </code> - <p>For an embedded type of type SEQUENCE/SET in a SEQUENCE/SET - the record name is extended with an underscore and the component - name. If the embedded structure is deeper with SEQUENCE, SET or - CHOICE types in the line, each component-/alternative-name will - be added to the record-name.</p> - <p>For example:</p> - <pre> -Seq ::= SEQUENCE{ - a CHOICE{ - b SEQUENCE { - c INTEGER - } - } -} </pre> - <p>will result in the following record:</p> - <pre> --record('Seq_a_b',{c}). </pre> - <p>If the structured type has a component with an embedded - SEQUENCE OF/SET OF which embedded type in turn is a - SEQUENCE/SET it will give a record with the SEQOF/SETOF - addition as in the following example:</p> - <pre> -Seq ::= SEQUENCE { - a SEQUENCE OF SEQUENCE { - b - } - c SET OF SEQUENCE { - d - } -} </pre> - <p>This results in the records:</p> - <pre> --record('Seq_a_SEQOF'{b}). --record('Seq_c_SETOF'{d}). </pre> - <p>A parameterized type should be considered as an embedded - type. Each time a such type is referenced an instance of it is - defined. Thus in the following example a record with name - <c>'Seq_b'</c> is generated in the .hrl file and used to hold - values.</p> - <pre> -Seq ::= SEQUENCE { - b PType{INTEGER} -} - -PType{T} ::= SEQUENCE{ - id T -} </pre> - </section> - - <section> - <title>Recursive Types</title> - <p>Types may refer to themselves. Suppose:</p> - <pre> -Rec ::= CHOICE { - nothing NULL, - something SEQUENCE { - a INTEGER, - b OCTET STRING, - c Rec }} </pre> - <p>This type is recursive; that is, it refers to itself. This is allowed - in ASN.1 and the ASN.1-to-Erlang compiler supports this recursive - type. A value for this type is assigned in Erlang as shown below:</p> - <pre> -V = {something,#'Rec_something'{a = 77, - b = "some octets here", - c = {nothing,'NULL'}}}. </pre> - </section> - </section> - - <section> - <title>ASN.1 Values</title> - <p>Values can be assigned to ASN.1 type within the ASN.1 code - itself, as opposed to the actions taken in the previous chapter where - a value was assigned to an ASN.1 type in Erlang. The full value - syntax of ASN.1 is supported and [X.680] describes in detail how - to assign values in ASN.1. Below is a short example:</p> - <pre> -TT ::= SEQUENCE { - a INTEGER, - b SET OF OCTET STRING } - -tt TT ::= {a 77,b {"kalle","kula"}} </pre> - <p>The value defined here could be used in several ways. - Firstly, it could be used as the value in some DEFAULT component:</p> - <pre> -SS ::= SET { - s OBJECT IDENTIFIER, - val TT DEFAULT tt } </pre> - <p>It could also be used from inside an Erlang program. If the above ASN.1 - code was defined in ASN.1 module <c>Values</c>, then the ASN.1 value - <c>tt</c> can be reached from Erlang as - a function call to <c>'Values':tt()</c> as in the example below.</p> - <pre> -1> <input>Val = 'Values':tt().</input> -{'TT',77,["kalle","kula"]} -2> <input>{ok,Bytes} = 'Values':encode('TT',Val).</input> -{ok,<<48,18,128,1,77,161,13,4,5,107,97,108,108,101,4,4, - 107,117,108,97>>} -4> <input>'Values':decode('TT',Bytes).</input> -{ok,{'TT',77,["kalle","kula"]}} -5> - </pre> - <p>The above example shows that a function is generated by the compiler - that returns a valid Erlang representation of the value, even though - the value is of a complex type.</p> - <p>Furthermore, there is a macro generated for each value in the .hrl - file. So, the defined value <c>tt</c> can also be extracted by - <c>?tt</c> in application code.</p> - </section> - - <section> - <title>Macros</title> - <p>MACRO is not supported as the the type is no longer part of the - ASN.1 standard.</p> - </section> - - <section> - <marker id="Information Object"></marker> - <title>ASN.1 Information Objects (X.681)</title> - <p>Information Object Classes, Information Objects and Information - Object Sets (in the following called classes, objects and - object sets respectively) are defined in the standard - definition [<cite id="X.681"></cite>]. In the following only a brief - explanation is given. </p> - <p>These constructs makes it possible to define open types, - i.e. values of that type can be of any ASN.1 type. It is also - possible to define relationships between different types and - values, since classes can hold types, values, objects, object - sets and other classes in its fields. - An Information Object Class may be defined in ASN.1 as:</p> - <pre> -GENERAL-PROCEDURE ::= CLASS { - &Message, - &Reply OPTIONAL, - &Error OPTIONAL, - &id PrintableString UNIQUE -} -WITH SYNTAX { - NEW MESSAGE &Message - [REPLY &Reply] - [ERROR &Error] - ADDRESS &id -} </pre> - <p>An object is an instance of a class and an object set is a set - containing objects of one specified class. A definition may look like - below.</p> - <p>The object <c>object1</c> is an instance of the CLASS - GENERAL-PROCEDURE and has one type field and one fixed type value - field. The object <c>object2</c> also has an OPTIONAL field ERROR, - which is a type field.</p> - <pre> -object1 GENERAL-PROCEDURE ::= { - NEW MESSAGE PrintableString - ADDRESS "home" -} - -object2 GENERAL-PROCEDURE ::= { - NEW MESSAGE INTEGER - ERROR INTEGER - ADDRESS "remote" -} </pre> - <p>The field ADDRESS is a UNIQUE field. Objects in an object set must - have unique values in their UNIQUE field, as in GENERAL-PROCEDURES: </p> - <pre> -GENERAL-PROCEDURES GENERAL-PROCEDURE ::= { - object1 | object2} </pre> - <p>One can not encode a class, object or object set, only referring to - it when defining other ASN.1 entities. Typically one refers to a - class and to object sets by table constraints and component - relation constraints [<cite id="X.682"></cite>] in ASN.1 types, as in: </p> - <pre> -StartMessage ::= SEQUENCE { - msgId GENERAL-PROCEDURE.&id ({GENERAL-PROCEDURES}), - content GENERAL-PROCEDURE.&Message ({GENERAL-PROCEDURES}{@msgId}), - } </pre> - <p>In the type <c>StartMessage</c> the constraint following the - <c>content</c> field tells that in a value of type - <c>StartMessage</c> the value in the <c>content</c> field must - come from the same object that is chosen by the <c>msgId</c> - field.</p> - <p>So, the value <c>#'StartMessage'{msgId="home",content="Any Printable String"}</c> is legal to encode as a StartMessage - value, while the value <c>#'StartMessage'{msgId="remote", content="Some String"}</c> is illegal since the constraint - in StartMessage tells that when you have chosen a value from a - specific object in the object set GENERAL-PROCEDURES in the - msgId field you have to choose a value from that same object in - the content field too. In this second case it should have been - any INTEGER value.</p> - <p><c>StartMessage</c> can in the <c>content</c> field be - encoded with a value of any type that an object in the - <c>GENERAL-PROCEDURES</c> object set has in its <c>NEW MESSAGE</c> field. This field refers to a type field - <c>&Message</c> in the class. The <c>msgId</c> field is always - encoded as a PrintableString, since the field refers to a fixed type - in the class.</p> - <p>In practice, object sets are usually declared to be extensible so - so that more objects can be added to the set later. Extensibility is - indicated like this:</p> - <pre> -GENERAL-PROCEDURES GENERAL-PROCEDURE ::= { - object1 | object2, ...} </pre> - <p>When decoding a type that uses an extensible set constraint, - there is always the possibility that the value in the UNIQUE - field is unknown (i.e. the type has been encoded with a later - version of the ASN.1 specification). When that happens, the - unencoded data will be returned wrapped in a tuple like this:</p> - - <pre> -{asn1_OPENTYPE,Binary}</pre> - <p>where <c>Binary</c> is an Erlang binary that contains the encoded - data. (If the option <c>legacy_erlang_types</c> has been given, - just the binary will be returned.)</p> - </section> - - <section> - <title>Parameterization (X.683)</title> - <p>Parameterization, which is defined in the standard [<cite id="X.683"></cite>], can be used when defining types, values, value - sets, information object classes, information objects or - information object sets. - A part of a definition can be supplied as a parameter. For - instance, if a Type is used in a definition with certain - purpose, one want the type-name to express the intention. This - can be done with parameterization.</p> - <p>When many types (or another ASN.1 entity) only differs in some - minor cases, but the structure of the types are similar, only - one general type can be defined and the differences may be supplied - through parameters. </p> - <p>One example of use of parameterization is:</p> - <pre> -General{Type} ::= SEQUENCE -{ - number INTEGER, - string Type -} - -T1 ::= General{PrintableString} - -T2 ::= General{BIT STRING} - </pre> - <p>An example of a value that can be encoded as type T1 is {12,"hello"}.</p> - <p>Note that the compiler does not generate encode/decode functions for - parameterized types, but only for the instances of the parameterized - types. Therefore, if a file contains the types General{}, T1 and T2 above, - encode/decode functions will only be generated for T1 and T2. - </p> - </section> -</chapter> - diff --git a/lib/asn1/doc/src/asn1ct.xml b/lib/asn1/doc/src/asn1ct.xml index 32ff2d52cf..30808a5ead 100644 --- a/lib/asn1/doc/src/asn1ct.xml +++ b/lib/asn1/doc/src/asn1ct.xml @@ -35,43 +35,45 @@ <modulesummary>ASN.1 compiler and compile-time support functions</modulesummary> <description> <p>The ASN.1 compiler takes an ASN.1 module as input and generates a - corresponding Erlang module which can encode and decode the data-types - specified. Alternatively the compiler takes a specification module - (se below) specifying all input modules and generates one module with - encode/decode functions. There are also some generic functions which - can be used in during development of applications which handles ASN.1 - data (encoded as BER or PER).</p> + corresponding Erlang module, which can encode and decode the specified + data types. Alternatively, the compiler takes a specification module + specifying all input modules, and generates a module with + encode/decode functions. In addition, some generic functions + can be used during development of applications that handles ASN.1 + data (encoded as <c>BER</c> or <c>PER</c>).</p> + <note> - <p>By default in OTP 17, the representation of the BIT STRING - and OCTET STRING types as Erlang terms have changed. BIT - STRING values are now Erlang bitstrings and OCTET STRING values - are binaries. Also, an undecoded open type will now be wrapped in - a <c>asn1_OPENTYPE</c> tuple. For details see <seealso - marker="asn1_ug#BIT STRING">BIT STRING</seealso>, <seealso - marker="asn1_ug#OCTET STRING">OCTET STRING</seealso>, and - <seealso marker="asn1_ug#Information%20Object">ASN.1 Information Objects</seealso> in User's Guide.</p> - <p>To revert to the old representation of the types, use the - <c>legacy_erlang_types</c> option.</p> + <p>By default in OTP 17, the representation of the <c>BIT STRING</c> + and <c>OCTET STRING</c> types as Erlang terms were changed. <c>BIT + STRING</c> values are now Erlang bit strings and <c>OCTET STRING</c> + values are binaries. Also, an undecoded open type is now wrapped in + an <c>asn1_OPENTYPE</c> tuple. For details, see <seealso + marker="asn1_getting_started#BIT STRING">BIT STRING</seealso>, <seealso + marker="asn1_getting_started#OCTET STRING">OCTET STRING</seealso>, and + <seealso marker="asn1_getting_started#Information Object">ASN.1 Information Objects</seealso> in the User's Guide.</p> + <p>To revert to the old representation of the types, use option + <c>legacy_erlang_types</c>.</p> </note> + <note> - <p>In R16, the options have been simplified. The back-end is chosen + <p>In OTP R16, the options were simplified. The back end is chosen using one of the options <c>ber</c>, <c>per</c>, or <c>uper</c>. - The options <c>optimize</c>, <c>nif</c>, and <c>driver</c> options - are no longer necessary (and the ASN.1 compiler will print a - warning if they are used). The options <c>ber_bin</c>, <c>per_bin</c>, - and <c>uper_bin</c> options will still work, but will print a warning. + Options <c>optimize</c>, <c>nif</c>, and <c>driver</c> options + are no longer necessary (and the ASN.1 compiler generates a + warning if they are used). Options <c>ber_bin</c>, <c>per_bin</c>, + and <c>uper_bin</c> options still work, but generates a warning. </p> - <p>Another change in R16 is that the generated <c>encode/2</c> - function always returns a binary. - The <c>encode/2</c> function for the BER back-end used to return - an iolist.</p> + <p>Another change in OTP R16 is that the generated function + <c>encode/2</c> always returns a binary. Function <c>encode/2</c> + for the <c>BER</c> back end used to return an iolist.</p> </note> </description> + <funcs> <func> <name>compile(Asn1module) -> ok | {error, Reason}</name> <name>compile(Asn1module, Options) -> ok | {error, Reason}</name> - <fsummary>Compile an ASN.1 module and generate encode/decode functions according to the encoding rules BER or PER.</fsummary> + <fsummary>Compiles an ASN.1 module and generates encode/decode functions according to encoding rules BER or PER.</fsummary> <type> <v>Asn1module = atom() | string()</v> <v>Options = [Option| OldOption]</v> @@ -85,79 +87,82 @@ <v>Prefix = string()</v> </type> <desc> - <p>Compiles the ASN.1 module <c>Asn1module</c> and generates an - Erlang module <c>Asn1module.erl</c> with encode and decode + <p>Compiles the <c>ASN.1</c> module <c>Asn1module</c> and generates + an Erlang module <c>Asn1module.erl</c> with encode and decode functions for the types defined in <c>Asn1module</c>. For each - ASN.1 value defined in the module an Erlang function which + ASN.1 value defined in the module, an Erlang function that returns the value in Erlang representation is generated.</p> - <p>If <c>Asn1module</c> is a filename without extension first - <c>".asn1"</c> is assumed, then <c>".asn"</c> and finally + <p>If <c>Asn1module</c> is a filename without extension, first + <c>".asn1"</c> is assumed, then <c>".asn"</c>, and finally <c>".py"</c> (to be compatible with the old ASN.1 compiler). - Of course <c>Asn1module</c> can be a full pathname (relative or + <c>Asn1module</c> can be a full pathname (relative or absolute) including filename with (or without) extension. <marker id="asn1set"></marker> </p> - <p>If one wishes to compile a set of Asn1 modules into one - Erlang file with encode/decode functions one has to list all + <p>If it is needed to compile a set of <c>ASN.1</c> modules into an + Erlang file with encode/decode functions, ensure to list all involved files in a configuration file. This configuration - file must have a double extension ".set.asn", (".asn" can - alternatively be ".asn1" or ".py"). The input files' names - must be listed, within quotation marks (""), one at each row + file must have a double extension <c>".set.asn"</c> + (<c>".asn"</c> can alternatively be <c>".asn1"</c> or <c>".py"</c>). + List the input file names + within quotation marks (""), one at each row in the file. If the input files are <c>File1.asn</c>, - <c>File2.asn</c> and <c>File3.asn</c> the configuration file - shall look like:</p> + <c>File2.asn</c>, and <c>File3.asn</c>, the configuration file + must look as follows:</p> <pre> File1.asn File2.asn -File3.asn </pre> - <p>The output files will in this case get their names from the - configuration file. If the configuration file has the name - <c>SetOfFiles.set.asn</c> the name of the output files will be - <c>SetOfFiles.hrl, SetOfFiles.erl and SetOfFiles.asn1db</c>.</p> - <p>Sometimes in a system of ASN.1 modules there are different - default tag modes, e.g. AUTOMATIC, IMPLICIT or EXPLICIT. The - multi file compilation resolves the default tagging as if +File3.asn</pre> + <p>The output files in this case get their names from the + configuration file. If the configuration file is named + <c>SetOfFiles.set.asn</c>, the names of the output files are + <c>SetOfFiles.hrl, SetOfFiles.erl, and SetOfFiles.asn1db</c>.</p> + <p>Sometimes in a system of <c>ASN.1</c> modules, different + default tag modes, for example, <c>AUTOMATIC</c>, <c>IMPLICIT</c>, + or <c>EXPLICIT</c>. The + multi-file compilation resolves the default tagging as if the modules were compiled separately.</p> - <p>Another unwanted effect that may occur in multi file compilation - is name collisions. The compiler solves this problem in two - ways: If the definitions are identical then the output module - keeps only one definition with the original name. But if - definitions only have same name and differs in the definition, - then they will be renamed. The new names will be the definition - name and the original module name concatenated.</p> - <p>If any name collision have occurred the compiler reports a - "NOTICE: ..." message that tells if a definition was renamed, + <p>Name collisions is another unwanted effect that can occur in + multi file-compilation. The compiler solves this problem in one + of two ways:</p> + <list type="bulleted"> + <item>If the definitions are identical, the output module + keeps only one definition with the original name.</item> + <item>If the definitions have the same name and differs in the + definition, they are renamed. The new names are the definition + name and the original module name concatenated.</item> + </list> + <p>If a name collision occurs, the compiler reports a + <c>"NOTICE: ..."</c> message that tells if a definition was renamed, and the new name that must be used to encode/decode data.</p> - - <p> - <c>Options</c> is a list with options specific for the asn1 + <p><c>Options</c> is a list with options specific for the <c>ASN.1</c> compiler and options that are applied to the Erlang compiler. - The latter are those that not is recognized as asn1 specific. - Available options are: + The latter are not recognized as <c>ASN.1</c> specific. The + available options are as follows: </p> <taglist> <tag><c>ber | per | uper</c></tag> <item> <p> The encoding rule to be used. The supported encoding rules - are BER (Basic Encoding Rules), - PER aligned (Packed Encoding Rules) and PER unaligned. - If the encoding rule option is omitted <c>ber</c> + are Basic Encoding Rules (BER), + Packed Encoding Rules (PER) aligned, and PER unaligned. + If the encoding rule option is omitted, <c>ber</c> is the default. </p> <p> The generated Erlang module always gets the same name - as the ASN.1 module and as a consequence of this only one - encoding rule per ASN.1 module can be used at runtime. + as the <c>ASN.1</c> module. Therefore, only one + encoding rule per <c>ASN.1</c> module can be used at runtime. </p> </item> <tag><c>der</c></tag> <item> <p> - By this option the Distinguished Encoding Rules (DER) is chosen. + With this option the Distinguished Encoding Rules (DER) is chosen. DER is regarded as a specialized variant of the BER encoding - rule, therefore the <c>der</c> option only makes sense together - with the <c>ber</c> option. + rule. Therefore, this option only makes sense together + with option <c>ber</c>. This option sometimes adds sorting and value checks when encoding, which implies a slower encoding. The decoding routines are the same @@ -167,118 +172,123 @@ File3.asn </pre> <tag><c>compact_bit_string</c></tag> <item> <p> - The BIT STRING type will be decoded to the "compact notation". + The <c>BIT STRING</c> type is decoded to "compact notation". <em>This option is not recommended for new code.</em> </p> - <p>For details see - <seealso marker="asn1_ug#BIT STRING"> - BIT STRING type section in the Users Guide - </seealso>. + <p>For details, see Section + <seealso marker="asn1_getting_started#BIT STRING"> + BIT STRING</seealso> in the User's Guide. </p> - <p>This option implies the <c>legacy_erlang_types</c> option.</p> + <p>This option implies option <c>legacy_erlang_types</c>.</p> </item> <tag><c>legacy_bit_string</c></tag> <item> <p> - The BIT STRING type will be decoded to the legacy - format, i.e. a list of zeroes and ones. + The <c>BIT STRING</c> type is decoded to the legacy + format, that is, a list of zeroes and ones. <em>This option is not recommended for new code.</em> </p> - <p>For details see - <seealso marker="asn1_ug#BIT STRING"> - BIT STRING type section in the Users Guide - </seealso>. - <p>This option implies the <c>legacy_erlang_types</c> option.</p> - </p> + <p>For details, see Section + <seealso marker="asn1_getting_started#BIT STRING">BIT STRING</seealso> + in the User's Guide</p> + <p>This option implies option <c>legacy_erlang_types</c>.</p> </item> <tag><c>legacy_erlang_types</c></tag> <item> - <p>Use the same Erlang types to represent BIT STRING and - OCTET STRING as in R16. For details see <seealso - marker="asn1_ug#BIT STRING">BIT STRING</seealso> and - <seealso marker="asn1_ug#OCTET STRING">OCTET - STRING</seealso> in User's Guide.</p> - <p><em>This option is not recommended for - new code.</em></p> + <p>Use the same Erlang types to represent <c>BIT STRING</c> and + <c>OCTET STRING</c> as in OTP R16.</p> + <p>For details, see Section <seealso + marker="asn1_getting_started#BIT STRING">BIT STRING</seealso> and Section + <seealso marker="asn1_getting_started#OCTET STRING">OCTET + STRING</seealso> in the User's Guide.</p> + <p><em>This option is not recommended for new code.</em></p> </item> <tag><c>{n2n, EnumTypeName}</c></tag> <item> <p> - Tells the compiler to generate functions for conversion between - names (as atoms) and numbers and vice versa for the EnumTypeName specified. There can be multiple occurrences of this option in order to specify several type names. The type names must be declared as ENUMERATIONS in the ASN.1 spec. - If the EnumTypeName does not exist in the ASN.1 spec the - compilation will stop with an error code. - The generated conversion functions are named + Tells the compiler to generate functions for conversion + between names (as atoms) and numbers and conversely for + the specified <c>EnumTypeName</c>. There can be multiple + occurrences of this option to specify several type names. + The type names must be declared as <c>ENUMERATIONS</c> in + the ASN.1 specification.</p> + <p> + If <c>EnumTypeName</c> does not exist in the ASN.1 specification, + the compilation stops with an error code.</p> + <p> + The generated conversion functions are named <c>name2num_EnumTypeName/1</c> and <c>num2name_EnumTypeName/1</c>. </p> </item> <tag><c>noobj</c></tag> <item> - <p>Do not compile (i.e do not produce object code) the generated - <c>.erl</c> file. If this option is omitted the generated Erlang module - will be compiled.</p> + <p>Do not compile (that is, do not produce object code) the + generated <c>.erl</c> file. If this option is omitted, the + generated Erlang module is compiled.</p> </item> <tag><c>{i, IncludeDir}</c></tag> <item> <p>Adds <c>IncludeDir</c> to the search-path for - <c>.asn1db</c> and asn1 source files. The compiler tries - to open a <c>.asn1db</c> file when a module imports - definitions from another ASN.1 module. If no - <c>.asn1db</c> file is found the asn1 source file is - parsed. Several <c>{i, IncludeDir}</c> can be given. + <c>.asn1db</c> and <c>ASN.1</c> source files. The compiler + tries to open an <c>.asn1db</c> file when a module imports + definitions from another <c>ASN.1</c> module. If no + <c>.asn1db</c> file is found, the <c>ASN.1</c> source file is + parsed. Several <c>{i, IncludeDir}</c> can be given. </p> </item> <tag><c>{outdir, Dir}</c></tag> <item> - <p>Specifies the directory <c>Dir</c> where all generated files - shall be placed. If omitted the files are placed in the - current directory.</p> + <p>Specifies directory <c>Dir</c> where all generated files + are to be placed. If this option is omitted, the files are + placed in the current directory.</p> </item> <tag><c>asn1config</c></tag> <item> - <p>When one of the specialized decodes, exclusive or - selective decode, is wanted one has to give instructions in - a configuration file. The option <c>asn1config</c> enables - specialized decodes and takes the configuration file, which - has the same name as the ASN.1 spec but with extension - <c>.asn1config</c>, in concern. + <p>When using one of the specialized decodes, exclusive or + selective decode, instructions must be given in + a configuration file. Option <c>asn1config</c> enables + specialized decodes and takes the configuration file in + concern. The configuration file has + the same name as the ASN.1 specification, but with extension + <c>.asn1config</c>. </p> - <p>The instructions for exclusive decode must follow the - <seealso marker="asn1_spec#Exclusive Instruction">instruction and grammar in the User's Guide</seealso>. + <p>For instructions for exclusive decode, see Section + <seealso marker="asn1_spec#Exclusive Instruction">Exclusive + Decode</seealso> in the User's Guide. </p> - <p>You can also find the instructions for selective decode - in the - <seealso marker="asn1_spec#Selective Instruction">User's Guide</seealso>. + <p>For instructions for selective decode, see Section + <seealso marker="asn1_spec#Selective Instruction">Selective + Decode</seealso> in the User's Guide. </p> </item> <tag><c>undec_rest</c></tag> <item> - <p>A buffer that holds a message, being decoded may - also have some following bytes. Now it is possible to get - those following bytes returned together with the decoded - value. If an asn1 spec is compiled with this option a tuple - <c>{ok, Value, Rest}</c> is returned. <c>Rest</c> may be a + <p>A buffer that holds a message, being decoded it can also + have some following bytes. Those following bytes can now + be returned together with the decoded value. If an + ASN.1 specification is compiled with this option, a tuple + <c>{ok, Value, Rest}</c> is returned. <c>Rest</c> can be a list or a binary. Earlier versions of the compiler ignored those following bytes.</p> </item> <tag><c>no_ok_wrapper</c></tag> <item> - <p>If this option is given, the generated <c>encode/2</c> - and <c>decode/2</c> functions will not wrap a successful + <p>With this option, the generated <c>encode/2</c> + and <c>decode/2</c> functions do not wrap a successful return value in an <c>{ok,...}</c> tuple. If any error - occurs, there will be an exception.</p> + occurs, an exception will be raised.</p> </item> <tag><c>{macro_name_prefix, Prefix}</c></tag> <item> <p>All macro names generated by the compiler are prefixed with - <c>Prefix</c>. This is useful when multiple protocols that contains + <c>Prefix</c>. This is useful when multiple protocols that contain macros with identical names are included in a single module.</p> </item> <tag><c>{record_name_prefix, Prefix}</c></tag> <item> <p>All record names generated by the compiler are prefixed with - <c>Prefix</c>. This is useful when multiple protocols that contains + <c>Prefix</c>. This is useful when multiple protocols that contain records with identical names are included in a single module.</p> </item> <tag><c>verbose</c></tag> @@ -291,27 +301,27 @@ File3.asn </pre> <p>Causes warnings to be treated as errors.</p> </item> </taglist> - <p>Any additional option that is applied will be passed to - the final step when the generated .erl file is compiled. + <p>Any more option that is applied is passed to + the final step when the generated <c>.erl</c> file is compiled. </p> <p>The compiler generates the following files:</p> <list type="bulleted"> - <item> - <p><c>Asn1module.hrl</c> (if any SET or SEQUENCE is defined)</p> + <item><c>Asn1module.hrl</c> (if any <c>SET</c> or <c>SEQUENCE</c> + is defined) </item> - <item> - <p><c>Asn1module.erl</c> the Erlang module with encode, decode and value functions.</p> + <item><c>Asn1module.erl</c> - Erlang module with encode, decode, + and value functions </item> - <item> - <p><c>Asn1module.asn1db</c> intermediate format used by the compiler when modules IMPORTS - definitions from each other.</p> + <item><c>Asn1module.asn1db</c> - Intermediate format used by the + compiler when modules <c>IMPORT</c> definitions from each other. </item> </list> </desc> </func> + <func> <name>encode(Module, Type, Value)-> {ok, Bytes} | {error, Reason}</name> - <fsummary>Encode an ASN.1 value.</fsummary> + <fsummary>Encodes an ASN.1 value.</fsummary> <type> <v>Module = Type = atom()</v> <v>Value = term()</v> @@ -319,11 +329,11 @@ File3.asn </pre> <v>Reason = term()</v> </type> <desc> - <p>Encodes <c>Value</c> of <c>Type</c> defined in the ASN.1 module - <c>Module</c>. To get as fast execution as possible the - encode function only performs rudimentary tests that the input - <c>Value</c> - is a correct instance of <c>Type</c>. The length of strings is for example + <p>Encodes <c>Value</c> of <c>Type</c> defined in the <c>ASN.1</c> module + <c>Module</c>. To get as fast execution as possible, the + encode function performs only the rudimentary tests that input + <c>Value</c> is a correct instance of <c>Type</c>. So, for example, + the length of strings is not always checked. Returns <c>{ok, Bytes}</c> if successful or <c>{error, Reason}</c> if an error occurred. </p> @@ -331,6 +341,7 @@ File3.asn </pre> Use <c>Module:encode(Type, Value)</c> instead.</p> </desc> </func> + <func> <name>decode(Module, Type, Bytes) -> {ok, Value} | {error, Reason}</name> <fsummary>Decode from Bytes into an ASN.1 value.</fsummary> @@ -346,26 +357,37 @@ File3.asn </pre> Use <c>Module:decode(Type, Bytes)</c> instead.</p> </desc> </func> + <func> <name>value(Module, Type) -> {ok, Value} | {error, Reason}</name> - <fsummary>Create an ASN.1 value for test purposes.</fsummary> + <fsummary>Creates an ASN.1 value for test purposes.</fsummary> <type> <v>Module = Type = atom()</v> <v>Value = term()</v> <v>Reason = term()</v> </type> <desc> - <p>Returns an Erlang term which is an example of a valid Erlang - representation of a value of the ASN.1 type <c>Type</c>. The value + <p>Returns an Erlang term that is an example of a valid Erlang + representation of a value of the <c>ASN.1</c> type <c>Type</c>. The value is a random value and subsequent calls to this function will for most types return different values.</p> + <note> + <p>Currently, the <c>value</c> function has many limitations. + Essentially, it will mostly work for old specifications based + on the 1997 standard for ASN.1, but not for most modern-style + applications. Another limitation is that the <c>value</c> function + may not work if options that change code generations strategies + such as the options <c>macro_name_prefix</c> and + <c>record_name_prefix</c> have been used.</p> + </note> </desc> </func> + <func> <name>test(Module) -> ok | {error, Reason}</name> <name>test(Module, Type | Options) -> ok | {error, Reason}</name> <name>test(Module, Type, Value | Options) -> ok | {error, Reason}</name> - <fsummary>Perform a test of encode and decode for types in an ASN.1 module.</fsummary> + <fsummary>Performs a test of encode and decode for types in an ASN.1 module.</fsummary> <type> <v>Module = Type = atom()</v> <v>Value = term()</v> @@ -376,9 +398,17 @@ File3.asn </pre> <p>Performs a test of encode and decode of types in <c>Module</c>. The generated functions are called by this function. This function is useful during test to secure that the generated - encode and decode functions and the general runtime support work - as expected.</p> - + encode and decode functions as well as the general runtime support + work as expected.</p> + <note> + <p>Currently, the <c>test</c> functions have many limitations. + Essentially, they will mostly work for old specifications based + on the 1997 standard for ASN.1, but not for most modern-style + applications. Another limitation is that the <c>test</c> functions + may not work if options that change code generations strategies + such as the options <c>macro_name_prefix</c> and + <c>record_name_prefix</c> have been used.</p> + </note> <list type="bulleted"> <item> <p><c>test/1</c> iterates over all types in <c>Module</c>.</p> @@ -390,14 +420,12 @@ File3.asn </pre> <p><c>test/3</c> tests type <c>Type</c> with <c>Value</c>.</p> </item> </list> - - <p>Schematically the following happens for each type in the module:</p> + <p>Schematically, the following occurs for each type in the module:</p> <code type="none"> {ok, Value} = asn1ct:value(Module, Type), {ok, Bytes} = asn1ct:encode(Module, Type, Value), {ok, Value} = asn1ct:decode(Module, Type, Bytes).</code> - - <p>The <c>test</c> functions utilizes the <c>*.asn1db</c> files + <p>The <c>test</c> functions use the <c>*.asn1db</c> files for all included modules. If they are located in a different directory than the current working directory, use the include option to add paths. This is only needed when automatically diff --git a/lib/asn1/doc/src/asn1rt.xml b/lib/asn1/doc/src/asn1rt.xml index 3cf56b01ca..f5c334c2ac 100644 --- a/lib/asn1/doc/src/asn1rt.xml +++ b/lib/asn1/doc/src/asn1rt.xml @@ -46,7 +46,7 @@ <func> <name>decode(Module,Type,Bytes) -> {ok,Value}|{error,Reason}</name> - <fsummary>Decode from bytes into an ASN.1 value.</fsummary> + <fsummary>Decodes from Bytes into an ASN.1 value.</fsummary> <type> <v>Module = Type = atom()</v> <v>Value = Reason = term()</v> @@ -61,7 +61,7 @@ <func> <name>encode(Module,Type,Value)-> {ok,Bytes} | {error,Reason}</name> - <fsummary>Encode an ASN.1 value.</fsummary> + <fsummary>Encodes an ASN.1 value.</fsummary> <type> <v>Module = Type = atom()</v> <v>Value = term()</v> @@ -69,12 +69,12 @@ <v>Reason = term()</v> </type> <desc> - <p>Encodes <c>Value</c> of <c>Type</c> defined in the ASN.1 + <p>Encodes <c>Value</c> of <c>Type</c> defined in the <c>ASN.1</c> module <c>Module</c>. Returns a binary if successful. To get - as fast execution as possible the encode function only - performs rudimentary tests that the input <c>Value</c> is a - correct instance of <c>Type</c>. The length of strings is, for - example, not always checked. </p> + as fast execution as possible, the encode function performs + only the rudimentary test that input <c>Value</c> is a correct + instance of <c>Type</c>. For example, the length of strings is + not always checked.</p> <p>Use <c>Module:encode(Type, Value)</c> instead of this function.</p> </desc> </func> @@ -88,23 +88,23 @@ <v>Reason = term()</v> </type> <desc> - <p><c>info/1</c> returns the version of the asn1 compiler that was + <p>Returns the version of the <c>ASN.1</c> compiler that was used to compile the module. It also returns the compiler options - that was used.</p> + that were used.</p> <p>Use <c>Module:info()</c> instead of this function.</p> </desc> </func> <func> <name>utf8_binary_to_list(UTF8Binary) -> {ok,UnicodeList} | {error,Reason}</name> - <fsummary>Transforms an utf8 encoded binary to a unicode list.</fsummary> + <fsummary>Transforms an UTF8 encoded binary to a unicode list.</fsummary> <type> <v>UTF8Binary = binary()</v> <v>UnicodeList = [integer()]</v> <v>Reason = term()</v> </type> <desc> - <p><c>utf8_binary_to_list/1</c> Transforms a UTF8 encoded binary + <p>Transforms a UTF8 encoded binary to a list of integers, where each integer represents one character as its unicode value. The function fails if the binary is not a properly encoded UTF8 string.</p> @@ -114,14 +114,14 @@ <func> <name>utf8_list_to_binary(UnicodeList) -> {ok,UTF8Binary} | {error,Reason}</name> - <fsummary>Transforms an unicode list ot an utf8 binary.</fsummary> + <fsummary>Transforms an unicode list to a UTF8 binary.</fsummary> <type> <v>UnicodeList = [integer()]</v> <v>UTF8Binary = binary()</v> <v>Reason = term()</v> </type> <desc> - <p><c>utf8_list_to_binary/1</c> Transforms a list of integers, + <p>Transforms a list of integers, where each integer represents one character as its unicode value, to a UTF8 encoded binary.</p> <p>Use <seealso marker="stdlib:unicode#characters_to_binary-1">unicode:characters_to_binary/1</seealso> instead of this function.</p> diff --git a/lib/asn1/doc/src/part.xml b/lib/asn1/doc/src/part.xml index 735ec2e616..104aeb1f34 100644 --- a/lib/asn1/doc/src/part.xml +++ b/lib/asn1/doc/src/part.xml @@ -29,11 +29,14 @@ <file>part.sgml</file> </header> <description> - <p>The <em>Asn1</em> application - contains modules with compile-time and run-time support for ASN.1. + <p>The <c>ASN.1</c> application + contains modules with compile-time and runtime support for + Abstract Syntax Notation One (ASN.1). </p> </description> - <xi:include href="asn1_ug.xml"/> + <xi:include href="asn1_introduction.xml"/> + <xi:include href="asn1_overview.xml"/> + <xi:include href="asn1_getting_started.xml"/> <xi:include href="asn1_spec.xml"/> </part> diff --git a/lib/asn1/doc/src/ref_man.xml b/lib/asn1/doc/src/ref_man.xml index 0a0ed5416a..e157f542f3 100644 --- a/lib/asn1/doc/src/ref_man.xml +++ b/lib/asn1/doc/src/ref_man.xml @@ -21,7 +21,7 @@ </legalnotice> - <title>Asn1 Reference Manual</title> + <title>ASN.1 Reference Manual</title> <prepared>OTP Team</prepared> <docno></docno> <date>1997-10-04</date> @@ -29,8 +29,8 @@ <file>application.sgml</file> </header> <description> - <p>The <em>Asn1</em> application - contains modules with compile-time and run-time support for ASN.1.</p> + <p>The <c>ASN.1</c> application + contains modules with compile-time and runtime support for ASN.1.</p> </description> <xi:include href="asn1ct.xml"/> <xi:include href="asn1rt.xml"/> diff --git a/lib/asn1/src/Makefile b/lib/asn1/src/Makefile index 6798da0072..40f440423d 100644 --- a/lib/asn1/src/Makefile +++ b/lib/asn1/src/Makefile @@ -206,6 +206,7 @@ $(EBIN)/asn1ct_constructed_per.beam: asn1ct_constructed_per.erl asn1_records.hrl $(EBIN)/asn1ct_func.beam: asn1ct_func.erl $(EBIN)/asn1ct_gen.beam: asn1ct_gen.erl asn1_records.hrl $(EBIN)/asn1ct_gen_ber_bin_v2.beam: asn1ct_gen_ber_bin_v2.erl asn1_records.hrl +$(EBIN)/asn1ct_gen_check.beam: asn1_records.hrl $(EBIN)/asn1ct_gen_per.beam: asn1ct_gen_per.erl asn1_records.hrl $(EBIN)/asn1ct_gen_per_rt2ct.beam: asn1ct_gen_per_rt2ct.erl asn1_records.hrl $(EBIN)/asn1ct_imm.beam: asn1ct_imm.erl diff --git a/lib/asn1/src/asn1.app.src b/lib/asn1/src/asn1.app.src index 02cbba0f10..1f8805ff5e 100644 --- a/lib/asn1/src/asn1.app.src +++ b/lib/asn1/src/asn1.app.src @@ -11,5 +11,5 @@ ]}, {env, []}, {applications, [kernel, stdlib]}, - {runtime_dependencies, ["stdlib-2.0","kernel-3.0","erts-6.0"]} + {runtime_dependencies, ["stdlib-2.0","kernel-3.0","erts-7.0"]} ]}. diff --git a/lib/asn1/src/asn1_db.erl b/lib/asn1/src/asn1_db.erl index 48d9dd16d7..5577969727 100644 --- a/lib/asn1/src/asn1_db.erl +++ b/lib/asn1/src/asn1_db.erl @@ -19,7 +19,8 @@ %% -module(asn1_db). --export([dbstart/1,dbnew/2,dbload/1,dbload/3,dbsave/2,dbput/3,dbget/2]). +-export([dbstart/1,dbnew/2,dbload/1,dbload/3,dbsave/2,dbput/2, + dbput/3,dbget/2]). -export([dbstop/0]). -record(state, {parent, monitor, includes, table}). @@ -44,6 +45,7 @@ dbload(Module) -> dbnew(Module, Erule) -> req({new, Module, Erule}). dbsave(OutFile, Module) -> cast({save, OutFile, Module}). dbput(Module, K, V) -> cast({set, Module, K, V}). +dbput(Module, Kvs) -> cast({set, Module, Kvs}). dbget(Module, K) -> req({get, Module, K}). dbstop() -> Resp = req(stop), erase(?MODULE), Resp. @@ -82,6 +84,10 @@ loop(#state{parent = Parent, monitor = MRef, table = Table, [{_, Modtab}] = ets:lookup(Table, Mod), ets:insert(Modtab, {K2, V}), loop(State); + {set, Mod, Kvs} -> + [{_, Modtab}] = ets:lookup(Table, Mod), + ets:insert(Modtab, Kvs), + loop(State); {From, {get, Mod, K2}} -> %% XXX If there is no information for Mod, get_table/3 %% will attempt to load information from an .asn1db diff --git a/lib/asn1/src/asn1_records.hrl b/lib/asn1/src/asn1_records.hrl index 6c1cf1b12a..84435b2d21 100644 --- a/lib/asn1/src/asn1_records.hrl +++ b/lib/asn1/src/asn1_records.hrl @@ -81,9 +81,19 @@ module :: atom(), val :: atom()}). --record(state,{module,mname,type,tname,value,vname,erule,parameters=[], - inputmodules,abscomppath=[],recordtopname=[],options, - sourcedir}). +-record(state, + {module, + mname, + tname, + erule, + parameters=[], + inputmodules=[], + abscomppath=[], + recordtopname=[], + options, + sourcedir, + error_context %Top-level thingie (contains line numbers) + }). %% state record used by back-end at partial decode %% active is set to 'yes' when a partial decode function is generated. diff --git a/lib/asn1/src/asn1ct.erl b/lib/asn1/src/asn1ct.erl index df341e5aab..a26d63c97d 100644 --- a/lib/asn1/src/asn1ct.erl +++ b/lib/asn1/src/asn1ct.erl @@ -34,7 +34,8 @@ %% Application internal exports -export([compile_asn/3,compile_asn1/3,compile_py/3,compile/3, vsn/0, - get_name_of_def/1,get_pos_of_def/1]). + get_name_of_def/1,get_pos_of_def/1, + unset_pos_mod/1]). -export([read_config_data/1,get_gen_state_field/1, partial_inc_dec_toptype/1,update_gen_state/2, get_tobe_refed_func/1,reset_gen_state/0,is_function_generated/1, @@ -166,46 +167,26 @@ set_scan_parse_pass(#st{files=Files}=St) -> {error,St#st{error=Error}} end. -set_scan_parse_pass_1([F|Fs], St) -> +set_scan_parse_pass_1([F|Fs], #st{file=File}=St) -> case asn1ct_tok:file(F) of {error,Error} -> throw(Error); Tokens when is_list(Tokens) -> - case catch asn1ct_parser2:parse(Tokens) of + case asn1ct_parser2:parse(File, Tokens) of {ok,M} -> [M|set_scan_parse_pass_1(Fs, St)]; - {error,ErrorTerm} -> - throw(handle_parse_error(ErrorTerm, St)) + {error,Errors} -> + throw(Errors) end end; set_scan_parse_pass_1([], _) -> []. -parse_pass(#st{code=Tokens}=St) -> - case catch asn1ct_parser2:parse(Tokens) of +parse_pass(#st{file=File,code=Tokens}=St) -> + case asn1ct_parser2:parse(File, Tokens) of {ok,M} -> {ok,St#st{code=M}}; - {error,ErrorTerm} -> - {error,St#st{error=handle_parse_error(ErrorTerm, St)}} - end. - -handle_parse_error(ErrorTerm, #st{file=File,opts=Opts}) -> - case ErrorTerm of - {{Line,_Mod,Message},_TokTup} -> - if - is_integer(Line) -> - BaseName = filename:basename(File), - error("syntax error at line ~p in module ~s:~n", - [Line,BaseName], Opts); - true -> - error("syntax error in module ~p:~n", - [File], Opts) - end, - print_error_message(Message), - Message; - {Line,_Mod,[Message,Token]} -> - error("syntax error: ~p ~p at line ~p~n", - [Message,Token,Line], Opts), - {Line,[Message,Token]} + {error,Errors} -> + {error,St#st{error=Errors}} end. merge_pass(#st{file=Base,code=Code}=St) -> @@ -559,7 +540,10 @@ unset_pos_mod(Def) when is_record(Def,pvaluesetdef) -> unset_pos_mod(Def) when is_record(Def,pobjectdef) -> Def#pobjectdef{pos=undefined}; unset_pos_mod(Def) when is_record(Def,pobjectsetdef) -> - Def#pobjectsetdef{pos=undefined}. + Def#pobjectsetdef{pos=undefined}; +unset_pos_mod(#'ComponentType'{} = Def) -> + Def#'ComponentType'{pos=undefined}; +unset_pos_mod(Def) -> Def. get_pos_of_def(#typedef{pos=Pos}) -> Pos; @@ -1406,33 +1390,6 @@ prepare_bytes(Bytes) -> list_to_binary(Bytes). vsn() -> ?vsn. - - -print_error_message([got,H|T]) when is_list(H) -> - io:format(" got:"), - print_listing(H,"and"), - print_error_message(T); -print_error_message([expected,H|T]) when is_list(H) -> - io:format(" expected one of:"), - print_listing(H,"or"), - print_error_message(T); -print_error_message([H|T]) -> - io:format(" ~p",[H]), - print_error_message(T); -print_error_message([]) -> - io:format("~n"). - -print_listing([H1,H2|[]],AndOr) -> - io:format(" ~p ~s ~p",[H1,AndOr,H2]); -print_listing([H1,H2|T],AndOr) -> - io:format(" ~p,",[H1]), - print_listing([H2|T],AndOr); -print_listing([H],_AndOr) -> - io:format(" ~p",[H]); -print_listing([],_) -> - ok. - - specialized_decode_prepare(Erule,M,TsAndVs,Options) -> case lists:member(asn1config,Options) of true -> diff --git a/lib/asn1/src/asn1ct_check.erl b/lib/asn1/src/asn1ct_check.erl index 240f1cbb16..99392d6eaa 100644 --- a/lib/asn1/src/asn1ct_check.erl +++ b/lib/asn1/src/asn1ct_check.erl @@ -23,8 +23,6 @@ %% Main Module for ASN.1 compile time functions %-compile(export_all). -%% Avoid warning for local function error/1 clashing with autoimported BIF. --compile({no_auto_import,[error/1]}). -export([check/2,storeindb/2,format_error/1]). %-define(debug,1). -include("asn1_records.hrl"). @@ -60,17 +58,9 @@ -define(N_BMPString, 30). -define(TAG_PRIMITIVE(Num), - case S#state.erule of - ber -> - #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=0}; - _ -> [] - end). + #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=0}). -define(TAG_CONSTRUCTED(Num), - case S#state.erule of - ber -> - #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=32}; - _ -> [] - end). + #tag{class='UNIVERSAL',number=Num,type='IMPLICIT',form=32}). -record(newt,{type=unchanged,tag=unchanged,constraint=unchanged,inlined=no}). % used in check_type to update type and tag @@ -249,26 +239,18 @@ check_exports(S,Module = #module{}) -> {exports,all} -> []; {exports,ExportList} when is_list(ExportList) -> - IsNotDefined = + IsNotDefined = fun(X) -> - case catch get_referenced_type(S,X) of - {error,{asn1,_}} -> - true; - _ -> false + try + _ = get_referenced_type(S,X), + false + catch {error,_} -> + true end end, - case lists:filter(IsNotDefined,ExportList) of - [] -> - []; - NoDefExp -> - GetName = - fun(T = #'Externaltypereference'{type=N})-> - %%{exported,undefined,entity,N} - NewS=S#state{type=T,tname=N}, - error({export,"exported undefined entity",NewS}) - end, - lists:map(GetName,NoDefExp) - end + [return_asn1_error(S, Ext, {undefined_export, Undef}) || + Ext = #'Externaltypereference'{type=Undef} <- ExportList, + IsNotDefined(Ext)] end. check_imports(S, #module{imports={imports,Imports}}) -> @@ -276,53 +258,18 @@ check_imports(S, #module{imports={imports,Imports}}) -> check_imports_1(_S, [], Acc) -> Acc; -check_imports_1(S, [#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs], Acc0) -> +check_imports_1(S, [#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs], Acc) -> Module = name_of_def(ModuleRef), - Refs0 = [{catch get_referenced_type(S, Ref),Ref} || Ref <- Imports], - Refs = [{M,R} || {{M,_},R} <- Refs0], - {Illegal,Other} = lists:splitwith(fun({error,_}) -> true; - (_) -> false - end, Refs), - ChainedRefs = [R || {M,R} <- Other, M =/= Module], - IllegalRefs = [R || {error,R} <- Illegal] ++ - [R || {M,R} <- ChainedRefs, - ok =/= chained_import(S, Module, M, name_of_def(R))], - Acc = [return_asn1_error(S, Ref, {undefined_import,name_of_def(Ref),Module}) || - Ref <- IllegalRefs] ++ Acc0, - check_imports_1(S, SFMs, Acc). - -chained_import(S,ImpMod,DefMod,Name) -> - %% Name is a referenced structure that is not defined in ImpMod, - %% but must be present in the Imports list of ImpMod. The chain of - %% imports of Name must end in DefMod. - GetImports = - fun(_M_) -> - case asn1_db:dbget(_M_,'MODULE') of - #module{imports={imports,ImportList}} -> - ImportList; - _ -> [] - end - end, - FindNameInImports = - fun([],N,_) -> {no_mod,N}; - ([#'SymbolsFromModule'{symbols=Imports,module=ModuleRef}|SFMs],N,F) -> - case [name_of_def(X) || X <- Imports, name_of_def(X) =:= N] of - [] -> F(SFMs,N,F); - [N] -> {name_of_def(ModuleRef),N} - end - end, - case GetImports(ImpMod) of - [] -> - error; - Imps -> - case FindNameInImports(Imps,Name,FindNameInImports) of - {no_mod,_} -> - error; - {DefMod,_} -> ok; - {OtherMod,_} -> - chained_import(S,OtherMod,DefMod,Name) - end - end. + Refs = [{try get_referenced_type(S, Ref) + catch throw:Error -> Error end, + Ref} + || Ref <- Imports], + CreateError = fun(Ref) -> + Error = {undefined_import,name_of_def(Ref),Module}, + return_asn1_error(S, Ref, Error) + end, + Errors = [CreateError(Ref) || {{error, _}, Ref} <- Refs], + check_imports_1(S, SFMs, Errors ++ Acc). checkt(S0, Names) -> Check = fun do_checkt/3, @@ -335,7 +282,7 @@ checkt(S0, Names) -> check_fold(S0, lists:reverse(CtxtSwitch), Check) ++ Types. do_checkt(S, Name, #typedef{typespec=TypeSpec}=Type0) -> - NewS = S#state{type=Type0,tname=Name}, + NewS = S#state{tname=Name}, try check_type(NewS, Type0, TypeSpec) of #type{}=Ts -> case Type0#typedef.checked of @@ -350,7 +297,7 @@ do_checkt(S, Name, #typedef{typespec=TypeSpec}=Type0) -> end catch {error,Reason} -> - error({type,Reason,NewS}); + Reason; {asn1_class,_ClassDef} -> {asn1_class,Name}; pobjectsetdef -> @@ -384,33 +331,32 @@ do_checkv(S, Name, Value) is_record(Value, typedef); %Value set may be parsed as object set. is_record(Value, pvaluedef); is_record(Value, pvaluesetdef) -> - NewS = S#state{value=Value}, - try check_value(NewS, Value) of + try check_value(S, Value) of {valueset,VSet} -> Pos = asn1ct:get_pos_of_def(Value), CheckedVSDef = #typedef{checked=true,pos=Pos, name=Name,typespec=VSet}, - asn1_db:dbput(NewS#state.mname, Name, CheckedVSDef), + asn1_db:dbput(S#state.mname, Name, CheckedVSDef), {valueset,Name}; V -> %% update the valuedef - asn1_db:dbput(NewS#state.mname, Name, V), + asn1_db:dbput(S#state.mname, Name, V), ok catch {error,Reason} -> - error({value,Reason,NewS}); + Reason; {pobjectsetdef} -> {pobjectsetdef,Name}; {objectsetdef} -> {objectsetdef,Name}; - {objectdef} -> + {asn1_class, _} -> %% this is an object, save as typedef #valuedef{checked=C,pos=Pos,name=N,type=Type, value=Def} = Value, ClassName = Type#type.def, NewSpec = #'Object'{classname=ClassName,def=Def}, NewDef = #typedef{checked=C,pos=Pos,name=N,typespec=NewSpec}, - asn1_db:dbput(NewS#state.mname, Name, NewDef), + asn1_db:dbput(S#state.mname, Name, NewDef), {objectdef,Name} end. @@ -419,7 +365,7 @@ checkp(S, Names) -> check_fold(S, Names, fun do_checkp/3). do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> - S = S0#state{type=Type0,tname=Name}, + S = S0#state{tname=Name}, try check_ptype(S, Type0, TypeSpec) of #type{}=Ts -> Type = Type0#ptypedef{checked=true,typespec=Ts}, @@ -427,7 +373,7 @@ do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> ok catch {error,Reason} -> - error({type,Reason,S}); + Reason; {asn1_class,_ClassDef} -> {asn1_class,Name}; {asn1_param_class,_} -> @@ -438,100 +384,81 @@ do_checkp(S0, Name, #ptypedef{typespec=TypeSpec}=Type0) -> checkc(S, Names) -> check_fold(S, Names, fun do_checkc/3). -do_checkc(S0, Name, Class0) -> - {Class1,ClassSpec} = - case Class0 of - #classdef{} -> - {Class0,Class0}; - #typedef{} -> - {#classdef{name=Name},Class0#typedef.typespec} - end, - S = S0#state{type=Class0,tname=Name}, - try check_class(S, ClassSpec) of - C -> - Class = Class1#classdef{checked=true,typespec=C}, - asn1_db:dbput(S#state.mname, Name, Class), - ok - catch - {error,Reason} -> - error({class,Reason,S}) - end. +do_checkc(S, Name, Class) -> + try + case is_classname(Name) of + false -> + asn1_error(S, {illegal_class_name,Name}); + true -> + do_checkc_1(S, Name, Class) + end + catch {error,Reason} -> Reason + end. + +do_checkc_1(S, Name, #classdef{}=Class) -> + C = check_class(S, Class), + store_class(S, true, Class#classdef{typespec=C}, Name), + ok; +do_checkc_1(S, Name, #typedef{typespec=#type{def=Def}=TS}) -> + C = check_class(S, TS), + {Mod,Pos} = case Def of + #'Externaltypereference'{module=M, pos=P} -> + {M,P}; + {pt, #'Externaltypereference'{module=M, pos=P}, _} -> + {M,P} + end, + Class = #classdef{name=Name, typespec=C, pos=Pos, module=Mod}, + store_class(S, true, Class, Name), + ok. + +%% is_classname(Atom) -> true|false. +is_classname(Name) when is_atom(Name) -> + lists:all(fun($-) -> true; + (D) when $0 =< D, D =< $9 -> true; + (UC) when $A =< UC, UC =< $Z -> true; + (_) -> false + end, atom_to_list(Name)). -checko(S,[Name|Os],Acc,ExclO,ExclOS) -> - ?dbg("Checking object ~p~n",[Name]), - Result = - case asn1_db:dbget(S#state.mname,Name) of - undefined -> - error({type,{internal_error,'???'},S}); - Object when is_record(Object,typedef) -> - NewS = S#state{type=Object,tname=Name}, - case catch(check_object(NewS,Object,Object#typedef.typespec)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - O -> - NewObj = Object#typedef{checked=true,typespec=O}, - asn1_db:dbput(NewS#state.mname,Name,NewObj), - if - is_record(O,'Object') -> - case O#'Object'.gen of - true -> - {ok,ExclO,ExclOS}; - false -> - {ok,[Name|ExclO],ExclOS} - end; - is_record(O,'ObjectSet') -> - case O#'ObjectSet'.gen of - true -> - {ok,ExclO,ExclOS}; - false -> - {ok,ExclO,[Name|ExclOS]} - end - end - end; - PObject when is_record(PObject,pobjectdef) -> - NewS = S#state{type=PObject,tname=Name}, - case (catch check_pobject(NewS,PObject)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - PO -> - NewPObj = PObject#pobjectdef{def=PO}, - asn1_db:dbput(NewS#state.mname,Name,NewPObj), - {ok,[Name|ExclO],ExclOS} - end; - PObjSet when is_record(PObjSet,pvaluesetdef) -> - %% this is a parameterized object set. Might be a parameterized - %% value set, couldn't it? - NewS = S#state{type=PObjSet,tname=Name}, - case (catch check_pobjectset(NewS,PObjSet)) of - {error,Reason} -> - error({type,Reason,NewS}); - {'EXIT',Reason} -> - error({type,{internal_error,Reason},NewS}); - {asn1,Reason} -> - error({type,Reason,NewS}); - POS -> - %%NewPObjSet = PObjSet#pvaluesetdef{valueset=POS}, - asn1_db:dbput(NewS#state.mname,Name,POS), - {ok,ExclO,[Name|ExclOS]} - end - end, - case Result of - {ok,NewExclO,NewExclOS} -> - checko(S,Os,Acc,NewExclO,NewExclOS); - _ -> - checko(S,Os,[Result|Acc],ExclO,ExclOS) +checko(S0,[Name|Os],Acc,ExclO,ExclOS) -> + Item = asn1_db:dbget(S0#state.mname, Name), + S = S0#state{error_context=Item}, + try checko_1(S, Item, Name, ExclO, ExclOS) of + {NewExclO,NewExclOS} -> + checko(S, Os, Acc, NewExclO, NewExclOS) + catch + throw:{error, Error} -> + checko(S, Os, [Error|Acc], ExclO, ExclOS) end; checko(_S,[],Acc,ExclO,ExclOS) -> {lists:reverse(Acc),lists:reverse(ExclO),lists:reverse(ExclOS)}. +checko_1(S, #typedef{typespec=TS}=Object, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + O = check_object(NewS, Object, TS), + NewObj = Object#typedef{checked=true,typespec=O}, + asn1_db:dbput(NewS#state.mname, Name, NewObj), + case O of + #'Object'{gen=true} -> + {ExclO,ExclOS}; + #'Object'{gen=false} -> + {[Name|ExclO],ExclOS}; + #'ObjectSet'{gen=true} -> + {ExclO,ExclOS}; + #'ObjectSet'{gen=false} -> + {ExclO,[Name|ExclOS]} + end; +checko_1(S, #pobjectdef{}=PObject, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + PO = check_pobject(NewS, PObject), + NewPObj = PObject#pobjectdef{def=PO}, + asn1_db:dbput(NewS#state.mname, Name, NewPObj), + {[Name|ExclO],ExclOS}; +checko_1(S, #pvaluesetdef{}=PObjSet, Name, ExclO, ExclOS) -> + NewS = S#state{tname=Name}, + POS = check_pobjectset(NewS, PObjSet), + asn1_db:dbput(NewS#state.mname, Name, POS), + {ExclO,[Name|ExclOS]}. + check_class(S,CDef=#classdef{checked=Ch,name=Name,typespec=TS}) -> case Ch of true -> TS; @@ -551,22 +478,16 @@ check_class(S = #state{mname=M,tname=T},ClassSpec) Tref = #'Externaltypereference'{type=TName} -> {MName,RefType} = get_referenced_type(S,Tref), #classdef{} = CD = get_class_def(S, RefType), - NewState = update_state(S#state{type=RefType, - tname=TName}, MName), + NewState = update_state(S#state{tname=TName}, MName), check_class(NewState, CD); {pt,ClassRef,Params} -> %% parameterized class {_,PClassDef} = get_referenced_type(S,ClassRef), - NewParaList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- Params], + NewParaList = match_parameters(S, Params), instantiate_pclass(S,PClassDef,NewParaList) end; -check_class(S,C) when is_record(C,objectclass) -> - NewFieldSpec = check_class_fields(S,C#objectclass.fields), - C#objectclass{fields=NewFieldSpec}; -check_class(_S,{poc,_ObjSet,_Params}) -> - 'fix this later'; +check_class(S, #objectclass{}=C) -> + check_objectclass(S, C); check_class(S,ClassName) -> {RefMod,Def} = get_referenced_type(S,ClassName), case Def of @@ -579,8 +500,7 @@ check_class(S,ClassName) -> false -> Name=ClassName#'Externaltypereference'.type, store_class(S,idle,ClassDef,Name), -% NewS = S#state{mname=RefMod,type=Def,tname=Name}, - NewS = update_state(S#state{type=Def,tname=Name},RefMod), + NewS = update_state(S#state{tname=Name}, RefMod), CheckedTS = check_class(NewS,ClassDef#classdef.typespec), store_class(S,true,ClassDef#classdef{typespec=CheckedTS},Name), CheckedTS @@ -594,11 +514,20 @@ check_class(S,ClassName) -> end end. +check_objectclass(S, #objectclass{fields=Fs0,syntax=Syntax0}=C) -> + Fs = check_class_fields(S, Fs0), + case Syntax0 of + {'WITH SYNTAX',Syntax1} -> + Syntax = preprocess_syntax(S, Syntax1, Fs), + C#objectclass{fields=Fs,syntax={preprocessed_syntax,Syntax}}; + _ -> + C#objectclass{fields=Fs} + end. + instantiate_pclass(S=#state{parameters=_OldArgs},PClassDef,Params) -> #ptypedef{args=Args,typespec=Type} = PClassDef, MatchedArgs = match_args(S,Args, Params, []), -% NewS = S#state{type=Type,parameters=MatchedArgs++OldArgs,abscomppath=[]}, - NewS = S#state{type=Type,parameters=MatchedArgs,abscomppath=[]}, + NewS = S#state{parameters=MatchedArgs,abscomppath=[]}, check_class(NewS,#classdef{name=S#state.tname,typespec=Type}). store_class(S,Mode,ClassDef,ClassName) -> @@ -613,6 +542,12 @@ check_class_fields(S,[F|Fields],Acc) -> case element(1,F) of fixedtypevaluefield -> {_,Name,Type,Unique,OSpec} = F, + case {Unique,OSpec} of + {'UNIQUE',{'DEFAULT',_}} -> + asn1_error(S, {unique_and_default,Name}); + {_,_} -> + ok + end, RefType = check_type(S,#typedef{typespec=Type},Type), {fixedtypevaluefield,Name,RefType,Unique,OSpec}; object_or_fixedtypevalue_field -> @@ -621,7 +556,7 @@ check_class_fields(S,[F|Fields],Acc) -> Cat = case asn1ct_gen:type(asn1ct_gen:get_inner(Type2#type.def)) of Def when is_record(Def,'Externaltypereference') -> - {_,D} = get_referenced_type(S,Def), + {_,D} = get_referenced_type(S, Def, true), D; {undefined,user} -> %% neither of {primitive,bif} or {constructed,bif} @@ -644,18 +579,14 @@ check_class_fields(S,[F|Fields],Acc) -> objectset_or_fixedtypevalueset_field -> {_,Name,Type,OSpec} = F, RefType = - case (catch check_type(S,#typedef{typespec=Type},Type)) of - {asn1_class,_ClassDef} -> + try check_type(S,#typedef{typespec=Type},Type) of + #type{} = CheckedType -> + CheckedType + catch {asn1_class,_ClassDef} -> case if_current_checked_type(S,Type) of - true -> - Type#type.def; - _ -> - check_class(S,Type) - end; - CheckedType when is_record(CheckedType,type) -> - CheckedType; - _ -> - error({class,"internal error, check_class_fields",S}) + true -> Type#type.def; + _ -> check_class(S,Type) + end end, if is_record(RefType,'Externaltypereference') -> @@ -733,38 +664,34 @@ check_pobjectset(S,PObjSet) -> PObjSet end. +-record(osi, %Object set information. + {st, + classref, + uniq, + ext + }). + check_object(_S,ObjDef,ObjSpec) when (ObjDef#typedef.checked == true) -> ObjSpec; check_object(S,_ObjDef,#'Object'{classname=ClassRef,def=ObjectDef}) -> ?dbg("check_object ~p~n",[ObjectDef]), -%% io:format("check_object,object: ~p~n",[ObjectDef]), -% {MName,_ClassDef} = get_referenced_type(S,ClassRef), - NewClassRef = check_externaltypereference(S,ClassRef), - ClassDef = - case get_referenced_type(S,ClassRef) of - {MName,ClDef=#classdef{checked=false}} -> - NewState = update_state(S#state{type=ClDef, - tname=ClassRef#'Externaltypereference'.type},MName), - ObjClass= - check_class(NewState,ClDef), - #classdef{checked=true, - typespec=ObjClass}; - {_,_ClDef} when is_record(_ClDef,classdef) -> - _ClDef; - {MName,_TDef=#typedef{checked=false,pos=Pos, - name=_TName,typespec=TS}} -> - ClDef = #classdef{pos=Pos,name=_TName,typespec=TS}, - NewState = update_state(S#state{type=_TDef, - tname=ClassRef#'Externaltypereference'.type},MName), - ObjClass = - check_class(NewState,ClDef), - ClDef#classdef{checked=true,typespec=ObjClass}; - {_,_ClDef} -> - _ClDef + _ = check_externaltypereference(S,ClassRef), + {ClassDef, NewClassRef} = + case get_referenced_type(S, ClassRef, true) of + {MName,#classdef{checked=false, name=CLName}=ClDef} -> + Type = ClassRef#'Externaltypereference'.type, + NewState = update_state(S#state{tname=Type}, MName), + ObjClass = check_class(NewState, ClDef), + {ClDef#classdef{checked=true, typespec=ObjClass}, + #'Externaltypereference'{module=MName, type=CLName}}; + {MName,#classdef{name=CLName}=ClDef} -> + {ClDef, #'Externaltypereference'{module=MName, type=CLName}}; + _ -> + asn1_error(S, illegal_object) end, NewObj = case ObjectDef of - Def when is_tuple(Def), (element(1,Def)==object) -> + {object,_,_}=Def -> NewSettingList = check_objectdefn(S,Def,ClassDef), #'Object'{def=NewSettingList}; {po,{object,DefObj},ArgsList} -> @@ -778,425 +705,287 @@ check_object(S,_ObjDef,#'Object'{classname=ClassRef,def=ObjectDef}) -> instantiate_po(S,ClassDef,Object,ArgList); #'Externalvaluereference'{} -> {_,Object} = get_referenced_type(S,ObjectDef), - check_object(S,Object,Object#typedef.typespec); + check_object(S, Object, object_to_check(S, Object)); [] -> - %% An object with no fields. All class fields must be - %% optional or default. Check that all fields in - %% class are 'OPTIONAL' or 'DEFAULT' - class_fields_optional_check(S,ClassDef), - #'Object'{def={object,defaultsyntax,[]}}; - _ -> - exit({error,{no_object,ObjectDef},S}) + %% An object with no fields (parsed as a value). + Def = {object,defaultsyntax,[]}, + NewSettingList = check_objectdefn(S, Def, ClassDef), + #'Object'{def=NewSettingList}; + _ -> + asn1_error(S, illegal_object) end, - Gen = gen_incl(S,NewObj#'Object'.def, - (ClassDef#classdef.typespec)#objectclass.fields), + Fields = (ClassDef#classdef.typespec)#objectclass.fields, + Gen = gen_incl(S,NewObj#'Object'.def, Fields), NewObj#'Object'{classname=NewClassRef,gen=Gen}; - - -check_object(S, - _ObjSetDef, - ObjSet=#'ObjectSet'{class=ClassRef}) -> -%% io:format("check_object,SET: ~p~n",[ObjSet#'ObjectSet'.set]), - ?dbg("check_object set: ~p~n",[ObjSet#'ObjectSet'.set]), - {_,ClassDef} = get_referenced_type(S,ClassRef), - NewClassRef = check_externaltypereference(S,ClassRef), - {UniqueFieldName,UniqueInfo} = - case (catch get_unique_fieldname(S,ClassDef)) of - {error,'__undefined_',_} -> - {{unique,undefined},{unique,undefined}}; - {asn1,Msg,_} -> error({class,Msg,S}); - {'EXIT',Msg} -> error({class,{internal_error,Msg},S}); +check_object(S, _, #'ObjectSet'{class=ClassRef0,set=Set0}=ObjSet0) -> + {_,ClassDef} = get_referenced_type(S, ClassRef0), + ClassRef = check_externaltypereference(S, ClassRef0), + {UniqueFieldName,UniqueInfo} = + case get_unique_fieldname(S, ClassDef) of + no_unique -> {{unique,undefined},{unique,undefined}}; Other -> {element(1,Other),Other} end, - NewObjSet= - case prepare_objset(ObjSet#'ObjectSet'.set) of - {set,SET,EXT} -> - CheckedSet = check_object_list(S,NewClassRef,SET), - NewSet = get_unique_valuelist(S,CheckedSet,UniqueInfo), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=extensionmark(NewSet,EXT)}; - - {'SingleValue',ERef = #'Externalvaluereference'{}} -> - {RefedMod,ObjDef} = get_referenced_type(S,ERef), - #'Object'{def=CheckedObj} = - check_object(S,ObjDef,ObjDef#typedef.typespec), - - NewSet = get_unique_valuelist(S,[{{RefedMod,get_datastr_name(ObjDef)}, - CheckedObj}], - UniqueInfo), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - ['EXTENSIONMARK'] -> - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=['EXTENSIONMARK']}; - - OSref when is_record(OSref,'Externaltypereference') -> - {_,OS=#typedef{typespec=OSdef}} = get_referenced_type(S,OSref), - check_object(S,OS,OSdef); - - {Type,{'EXCEPT',Exclusion}} when is_record(Type,type) -> - {_,TDef} = get_referenced_type(S,Type#type.def), - OS = TDef#typedef.typespec, - NewSet = reduce_objectset(OS#'ObjectSet'.set,Exclusion), - NewOS = OS#'ObjectSet'{set=NewSet}, - check_object(S,TDef#typedef{typespec=NewOS}, - NewOS); - #type{def={pt,DefinedObjSet,ParamList}} -> - {_,PObjSetDef} = get_referenced_type(S,DefinedObjSet), - NewParamList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- ParamList], - instantiate_pos(S,ClassRef,PObjSetDef,NewParamList); - - %% actually this is an ObjectSetFromObjects construct, it - %% is when the object set is retrieved from an object - %% field. - #type{def=#'ObjectClassFieldType'{classname=ObjName, - fieldname=FieldName}} -> - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - OS=TDef#typedef.typespec, - %% should get the right object set here. Get the field - %% FieldName out of the object set OS of class - %% OS#'ObjectSet'.class - OS2=check_object(S,TDef,OS), - NewSet=object_set_from_objects(S,RefedObjMod,FieldName,OS2), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - {'ObjectSetFromObjects',{_,_,ObjName},FieldName} -> - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - OS=TDef#typedef.typespec, - %% should get the right object set here. Get the field - %% FieldName out of the object set OS of class - %% OS#'ObjectSet'.class - OS2=check_object(S,TDef,OS), - NewSet=object_set_from_objects(S,RefedObjMod,FieldName,OS2), - ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}; - {'ObjectSetFromObjects',{_,ObjName},FieldName} -> - %% This is a ObjectSetFromObjects, i.e. - %% ObjectSetFromObjects ::= ReferencedObjects "." FieldName - %% with a defined object as ReferencedObjects. And - %% the FieldName of the Class (object) contains an object set. - {RefedObjMod,TDef} = get_referenced_type(S,ObjName), - O1 = TDef#typedef.typespec, - O2 = check_object(S,TDef,O1), - NewSet = object_set_from_objects(S,RefedObjMod,FieldName,O2), - OS2=ObjSet#'ObjectSet'{uniquefname=UniqueFieldName, - set=NewSet}, - %%io:format("ObjectSet: ~p~n",[OS2]), - OS2; - {pos,{objectset,_,DefinedObjSet},Params} -> - {_,PObjSetDef} = get_referenced_type(S,DefinedObjSet), - NewParamList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- Params], - instantiate_pos(S,ClassRef,PObjSetDef,NewParamList); - Unknown -> - exit({error,{unknown_object_set,Unknown},S}) - end, - NewSet2 = remove_duplicate_objects(NewObjSet#'ObjectSet'.set), - NewObjSet2 = NewObjSet#'ObjectSet'{set=NewSet2}, - Gen = gen_incl_set(S,NewObjSet2#'ObjectSet'.set, - ClassDef), - ?dbg("check_object done~n",[]), - NewObjSet2#'ObjectSet'{class=NewClassRef,gen=Gen}. + OSI0 = #osi{st=S,classref=ClassRef,uniq=UniqueInfo,ext=false}, + {Set1,OSI1} = if + is_list(Set0) -> + check_object_set_list(Set0, OSI0); + true -> + check_object_set(Set0, OSI0) + end, + Ext = case Set1 of + [] -> + %% FIXME: X420 does not compile unless we force + %% empty sets to be extensible. There should be + %% a better way. + true; + [_|_] -> + OSI1#osi.ext + end, + Set2 = remove_duplicate_objects(S, Set1), + Set = case Ext of + false -> Set2; + true -> Set2 ++ ['EXTENSIONMARK'] + end, + ObjSet = ObjSet0#'ObjectSet'{uniquefname=UniqueFieldName,set=Set}, + Gen = gen_incl_set(S, Set, ClassDef), + ObjSet#'ObjectSet'{class=ClassRef,gen=Gen}. + +check_object_set({element_set,Root0,Ext0}, OSI0) -> + OSI = case Ext0 of + none -> OSI0; + _ -> OSI0#osi{ext=true} + end, + case {Root0,Ext0} of + {empty,empty} -> {[],OSI}; + {empty,Ext} -> check_object_set(Ext, OSI); + {Root,none} -> check_object_set(Root, OSI); + {Root,empty} -> check_object_set(Root, OSI); + {Root,Ext} -> check_object_set_list([Root,Ext], OSI) + end; +check_object_set(#'Externaltypereference'{}=Ref, #osi{st=S}=OSI) -> + {_,#typedef{typespec=OSdef}=OS} = get_referenced_type(S, Ref), + ObjectSet = check_object(S, OS, OSdef), + check_object_set_objset(ObjectSet, OSI); +check_object_set(#'Externalvaluereference'{}=Ref, #osi{st=S}=OSI) -> + {RefedMod,ObjName,#'Object'{def=Def}} = check_referenced_object(S, Ref), + ObjList = check_object_set_mk(RefedMod, ObjName, Def, OSI), + {ObjList,OSI}; +check_object_set({'EXCEPT',Incl0,Excl0}, OSI) -> + {Incl1,_} = check_object_set(Incl0, OSI), + {Excl1,_} = check_object_set(Excl0, OSI), + Exclude = sofs:set([N || {N,_} <- Excl1], [name]), + Incl2 = [{Name,Obj} || {Name,_,_}=Obj <- Incl1], + Incl3 = sofs:relation(Incl2, [{name,object}]), + Incl4 = sofs:drestriction(Incl3, Exclude), + Incl5 = sofs:to_external(Incl4), + Incl = [Obj || {_,Obj} <- Incl5], + {Incl,OSI}; +check_object_set({object,_,_}=Obj0, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + #'Object'{def=Def} = + check_object(S, #typedef{typespec=Obj0}, + #'Object'{classname=ClassRef,def=Obj0}), + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; +check_object_set(#'ObjectClassFieldType'{classname=ObjName, + fieldname=FieldNames}, + #osi{st=S}=OSI) -> + Set = check_ObjectSetFromObjects(S, ObjName, FieldNames), + check_object_set_objset_list(Set, OSI); +check_object_set({'ObjectSetFromObjects',Obj,FieldNames}, #osi{st=S}=OSI) -> + ObjName = element(tuple_size(Obj), Obj), + Set = check_ObjectSetFromObjects(S, ObjName, FieldNames), + check_object_set_objset_list(Set, OSI); +check_object_set({pt,DefinedObjSet,ParamList0}, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + {_,PObjSetDef} = get_referenced_type(S, DefinedObjSet), + ParamList = match_parameters(S, ParamList0), + ObjectSet = instantiate_pos(S, ClassRef, PObjSetDef, ParamList), + check_object_set_objset(ObjectSet, OSI); +check_object_set({pos,{objectset,_,DefinedObjSet},Params0}, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + {_,PObjSetDef} = get_referenced_type(S, DefinedObjSet), + Params = match_parameters(S, Params0), + ObjectSet = instantiate_pos(S, ClassRef, PObjSetDef, Params), + check_object_set_objset(ObjectSet, OSI); +check_object_set({pv,{simpledefinedvalue,DefinedObject},Params}=PV, OSI) -> + #osi{st=S,classref=ClassRef} = OSI, + Args = match_parameters(S, Params), + #'Object'{def=Def} = + check_object(S, PV, + #'Object'{classname=ClassRef , + def={po,{object,DefinedObject},Args}}), + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; +check_object_set({'SingleValue',Val}, OSI) -> + check_object_set(Val, OSI); +check_object_set({'ValueFromObject',{object,Object},FieldNames}, OSI) -> + #osi{st=S} = OSI, + case extract_field(S, Object, FieldNames) of + #'Object'{def=Def} -> + ObjList = check_object_set_mk(Def, OSI), + {ObjList,OSI}; + _ -> + asn1_error(S, illegal_object) + end; +check_object_set(#type{def=Def}, OSI) -> + check_object_set(Def, OSI); +check_object_set({union,A0,B0}, OSI0) -> + {A,OSI1} = check_object_set(A0, OSI0), + {B,OSI} = check_object_set(B0, OSI1), + {A++B,OSI}. + +check_object_set_list([H|T], OSI0) -> + {Set0,OSI1} = check_object_set(H, OSI0), + {Set1,OSI2} = check_object_set_list(T, OSI1), + {Set0++Set1,OSI2}; +check_object_set_list([], OSI) -> + {[],OSI}. + +check_object_set_objset(#'ObjectSet'{set=Set}, OSI) -> + check_object_set_objset_list(Set, OSI). + +check_object_set_objset_list(Set, OSI) -> + check_object_set_objset_list_1(Set, OSI, []). + +check_object_set_objset_list_1(['EXTENSIONMARK'|T], OSI, Acc) -> + check_object_set_objset_list_1(T, OSI#osi{ext=true}, Acc); +check_object_set_objset_list_1([H|T], OSI, Acc) -> + check_object_set_objset_list_1(T, OSI, [H|Acc]); +check_object_set_objset_list_1([], OSI, Acc) -> + {Acc,OSI}. + +check_object_set_mk(Fields, OSI) -> + check_object_set_mk(no_mod, no_name, Fields, OSI). + +check_object_set_mk(M, N, Def, #osi{uniq={unique,undefined}}) -> + {_,_,Fields} = Def, + [{{M,N},no_unique_value,Fields}]; +check_object_set_mk(M, N, Def, #osi{uniq={UniqField,_}}) -> + {_,_,Fields} = Def, + case lists:keyfind(UniqField, 1, Fields) of + {UniqField,#valuedef{value=Val}} -> + [{{M,N},Val,Fields}]; + false -> + case Fields of + [{_,#typedef{typespec=#'ObjectSet'{set=['EXTENSIONMARK']}}}] -> + %% FIXME: If object is missing the unique field and + %% only contains a reference to an empty object set, + %% we will remove the entire object as a workaround + %% to get X420 to compile. There should be a better + %% way. + []; + _ -> + [{{M,N},no_unique_value,Fields}] + end + end. %% remove_duplicate_objects/1 remove duplicates of objects. %% For instance may Set contain objects of same class from %% different object sets that in fact might be duplicates. -remove_duplicate_objects(Set) when is_list(Set) -> - Pred = fun({A,B,_},{A,C,_}) when B =< C -> true; - ({A,_,_},{B,_,_}) when A < B -> true; - ('EXTENSIONMARK','EXTENSIONMARK') -> true; - (T,A) when is_tuple(T),is_atom(A) -> true;% EXTENSIONMARK last in list - (_,_) -> false - end, - lists:usort(Pred,Set). +remove_duplicate_objects(S, Set0) when is_list(Set0) -> + Set1 = [{Id,Orig} || {_,Id,_}=Orig <- Set0], + Set2 = sofs:relation(Set1), + Set3 = sofs:relation_to_family(Set2), + Set = sofs:to_external(Set3), + remove_duplicate_objects_1(S, Set). + +remove_duplicate_objects_1(S, [{no_unique_value,Objs}|T]) -> + Objs ++ remove_duplicate_objects_1(S, T); +remove_duplicate_objects_1(S, [{_,[_]=Objs}|T]) -> + Objs ++ remove_duplicate_objects_1(S, T); +remove_duplicate_objects_1(S, [{Id,[_|_]=Objs}|T]) -> + MakeSortable = fun(What) -> sortable_type(S, What) end, + Tagged = order_tag_set(Objs, MakeSortable), + case lists:ukeysort(1, Tagged) of + [{_,Obj}] -> + [Obj|remove_duplicate_objects_1(S, T)]; + [_|_] -> + asn1_error(S, {non_unique_object,Id}) + end; +remove_duplicate_objects_1(_, []) -> + []. -%% -extensionmark(L,true) -> - case lists:member('EXTENSIONMARK',L) of - true -> L; - _ -> L ++ ['EXTENSIONMARK'] +order_tag_set([{_, _, Fields}=Orig|Fs], Fun) -> + Pair = {[{FId, traverse(F, Fun)} || {FId, F} <- Fields], Orig}, + [Pair|order_tag_set(Fs, Fun)]; +order_tag_set([], _) -> []. + +sortable_type(S, #'Externaltypereference'{}=ERef) -> + try get_referenced_type(S, ERef) of + {_,#typedef{}=OI} -> + OI#typedef{pos=undefined,name=undefined} + catch + _:_ -> + ERef end; -extensionmark(L,_) -> - L. +sortable_type(_, #typedef{}=TD) -> + asn1ct:unset_pos_mod(TD#typedef{name=undefined}); +sortable_type(_, Type) -> + asn1ct:unset_pos_mod(Type). + +traverse(Structure0, Fun) -> + Structure = Fun(Structure0), + traverse_1(Structure, Fun). + +traverse_1(#typedef{typespec=TS0} = TD, Fun) -> + TS = traverse(TS0, Fun), + TD#typedef{typespec=TS}; +traverse_1(#valuedef{type=TS0} = VD, Fun) -> + TS = traverse(TS0, Fun), + VD#valuedef{type=TS}; +traverse_1(#type{def=TS0} = TD, Fun) -> + TS = traverse(TS0, Fun), + TD#type{def=TS}; +traverse_1(#'SEQUENCE'{components=Cs0} = Seq, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + Seq#'SEQUENCE'{components=Cs}; +traverse_1({'SEQUENCE OF',Type0}, Fun) -> + Type = traverse(Type0, Fun), + {'SEQUENCE OF',Type}; +traverse_1({'SET OF',Type0}, Fun) -> + Type = traverse(Type0, Fun), + {'SET OF',Type}; +traverse_1(#'SET'{components=Cs0} = Set, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + Set#'SET'{components=Cs}; +traverse_1({'CHOICE', Cs0}, Fun) -> + Cs = traverse_seq_set(Cs0, Fun), + {'CHOICE', Cs}; +traverse_1(Leaf, _) -> + Leaf. + +traverse_seq_set(List, Fun) when is_list(List) -> + traverse_seq_set_1(List, Fun); +traverse_seq_set({Set, Ext}, Fun) -> + {traverse_seq_set_1(Set, Fun), traverse_seq_set_1(Ext, Fun)}; +traverse_seq_set({Set1, Set2, Set3}, Fun) -> + {traverse_seq_set_1(Set1, Fun), + traverse_seq_set_1(Set2, Fun), + traverse_seq_set_1(Set3, Fun)}. + +traverse_seq_set_1([#'ComponentType'{} = CT0|Cs], Fun) -> + CT = #'ComponentType'{typespec=TS0} = Fun(CT0), + TS = traverse(TS0, Fun), + [CT#'ComponentType'{typespec=TS}|traverse_seq_set_1(Cs, Fun)]; +traverse_seq_set_1([{'COMPONENTS OF', _} = CO0|Cs], Fun) -> + {'COMPONENTS OF', TS0} = Fun(CO0), + TS = traverse(TS0, Fun), + [{'COMPONENTS OF', TS}|traverse_seq_set_1(Cs, Fun)]; +traverse_seq_set_1([], _) -> + []. -object_to_check(#typedef{typespec=ObjDef}) -> +object_to_check(_, #typedef{typespec=ObjDef}) -> ObjDef; -object_to_check(#valuedef{type=ClassName,value=ObjectRef}) -> +object_to_check(S, #valuedef{type=Class,value=ObjectRef}) -> %% If the object definition is parsed as an object the ClassName - %% is parsed as a type - #'Object'{classname=ClassName#type.def,def=ObjectRef}. - -prepare_objset({'SingleValue',Set}) when is_list(Set) -> - {set,Set,false}; -prepare_objset(L=['EXTENSIONMARK']) -> - L; -prepare_objset(Set) when is_list(Set) -> - {set,Set,false}; -prepare_objset({{'SingleValue',Set},Ext}) -> - {set,merge_sets(Set,Ext),true}; -%%prepare_objset({Set,Ext}) when is_list(Set),is_list(Ext) -> -%% {set,lists:append([Set,Ext]),true}; -prepare_objset({Set,Ext}) when is_list(Set) -> - {set,merge_sets(Set,Ext),true}; -prepare_objset({{object,definedsyntax,_ObjFields}=Set,Ext}) -> - {set,merge_sets(Set, Ext),true}; -prepare_objset(ObjDef={object,definedsyntax,_ObjFields}) -> - {set,[ObjDef],false}; -prepare_objset({ObjDef=#type{},Ext}) when is_list(Ext) -> - {set,[ObjDef|Ext],true}; -prepare_objset({#type{}=Type,#type{}=Ext}) -> - {set,[Type,Ext],true}; -prepare_objset(Ret) -> - Ret. - -class_fields_optional_check(S,#classdef{typespec=ClassSpec}) -> - Fields = ClassSpec#objectclass.fields, - class_fields_optional_check1(S,Fields). - -class_fields_optional_check1(_S,[]) -> - ok; -class_fields_optional_check1(S,[{typefield,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{fixedtypevaluefield,_,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{fixedtypevaluesetfield,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{objectfield,_,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest); -class_fields_optional_check1(S,[{objectsetfield,_,_,'OPTIONAL'}|Rest]) -> - class_fields_optional_check1(S,Rest). - -%% ObjectSetFromObjects functionality - -%% The fieldname is a list of field names.They may be objects or -%% object sets. If ObjectSet is an object set the resulting object set -%% is the union of object sets if the last field name is an object -%% set. If the last field is an object the resulting object set is -%% the set of objects in ObjectSet. -object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet) -> - object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet,[]). -object_set_from_objects(S,RefedObjMod,FieldName,ObjectSet,InterSect) - when is_record(ObjectSet,'ObjectSet') -> - #'ObjectSet'{class=Cl,set=Set} = ObjectSet, - {_,ClassDef} = get_referenced_type(S,Cl), - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Set,InterSect,[]); -object_set_from_objects(S,RefedObjMod,FieldName,Object,InterSect) - when is_record(Object,'Object') -> - #'Object'{classname=Cl,def=Def}=Object, - object_set_from_objects(S,RefedObjMod,Cl,FieldName,[Def],InterSect,[]). -object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,['EXTENSIONMARK'|Os], - InterSect,Acc) -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,%%Acc); - ['EXTENSIONMARK'|Acc]); -object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,[O|Os],InterSect,Acc) -> - case object_set_from_objects2(S,mod_of_obj(RefedObjMod,element(1,O)), - ClassDef,FieldName,element(3,O),InterSect) of - ObjS when is_list(ObjS) -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,ObjS++Acc); - Obj -> - object_set_from_objects(S,RefedObjMod,ClassDef,FieldName,Os,InterSect,[Obj|Acc]) - end; -object_set_from_objects(_S,_RefedObjMod,_ClassDef,_FieldName,[],InterSect,Acc) -> - %% For instance may Acc contain objects of same class from - %% different object sets that in fact might be duplicates. - remove_duplicate_objects(osfo_intersection(InterSect,Acc)). -%% Acc. -object_set_from_objects2(S,RefedObjMod,ClassDef,[{valuefieldreference,OName}], - Fields,_InterSect) -> - %% this is an object - case lists:keysearch(OName,1,Fields) of - {value,{_,TDef}} -> - mk_object_set_from_object(S,RefedObjMod,TDef,ClassDef); - _ -> - [] % it may be an absent optional field - end; -object_set_from_objects2(S,RefedObjMod,ClassDef,[{typefieldreference,OSName}], - Fields,_InterSect) -> - %% this is an object set - case lists:keysearch(OSName,1,Fields) of - {value,{_,TDef}} -> - case TDef#typedef.typespec of - #'ObjectSet'{class=_NextClName,set=NextSet} ->%% = TDef#typedef.typespec, - NextSet; - #'Object'{def=_ObjDef} -> - mk_object_set_from_object(S,RefedObjMod,TDef,ClassDef) -%% ObjDef - %% error({error,{internal,unexpected_object,TDef}}) - end; - _ -> - [] % it may be an absent optional field - end; -object_set_from_objects2(S,RefedObjMod,_ClassDef,[{valuefieldreference,OName}|Rest], - Fields,InterSect) -> - %% this is an object - case lists:keysearch(OName,1,Fields) of - {value,{_,TDef}} -> - #'Object'{classname=NextClName,def=ODef}=TDef#typedef.typespec, - {_,_,NextFields}=ODef, - {_,NextClass} = get_referenced_type(S,NextClName), - object_set_from_objects2(S,RefedObjMod,NextClass,Rest,NextFields,InterSect); - _ -> - [] - end; -object_set_from_objects2(S,RefedObjMod,_ClassDef,[{typefieldreference,OSName}|Rest], - Fields,InterSect) -> - %% this is an object set - Next = {NextClName,NextSet} = - case lists:keysearch(OSName,1,Fields) of - {value,{_,TDef}} when is_record(TDef,'ObjectSet') -> - #'ObjectSet'{class=NextClN,set=NextS} = TDef, - {NextClN,NextS}; - {value,{_,#typedef{typespec=OS}}} -> - %% objectsets in defined syntax will come here as typedef{} - %% #'ObjectSet'{class=NextClN,set=NextS} = OS, - case OS of - #'ObjectSet'{class=NextClN,set=NextS} -> - {NextClN,NextS}; - #'Object'{classname=NextClN,def=NextDef} -> - {NextClN,[NextDef]} - end; + %% is parsed as a type. + case Class of + #type{def=#'Externaltypereference'{}=Def} -> + #'Object'{classname=Def,def=ObjectRef}; _ -> - {[],[]} - end, - case Next of - {[],[]} -> - []; - _ -> - {_,NextClass} = get_referenced_type(S,NextClName), - object_set_from_objects(S,RefedObjMod,NextClass,Rest,NextSet,InterSect,[]) - end. - -mk_object_set_from_object(S,RefedObjMod,TDef,Class) -> - #'Object'{classname=_NextClName,def=ODef} = TDef#typedef.typespec, - {_,_,NextFields}=ODef, - - UniqueFieldName = - case (catch get_unique_fieldname(S,Class)) of - {error,'__undefined_',_} -> {unique,undefined}; - {asn1,Msg,_} -> error({class,Msg,S}); - {'EXIT',Msg} -> error({class,{internal_error,Msg},S}); - {Other,_} -> Other - end, - VDef = get_unique_value(S,NextFields,UniqueFieldName), - %% XXXXXXXXXXX - case VDef of - [] -> - ['EXTENSIONMARK']; - _ -> - {{RefedObjMod,get_datastr_name(TDef)},VDef,NextFields} + asn1_error(S, illegal_object) end. - - -mod_of_obj(_RefedObjMod,{NewMod,ObjName}) - when is_atom(NewMod),is_atom(ObjName) -> - NewMod; -mod_of_obj(RefedObjMod,_) -> - RefedObjMod. - - -merge_sets(Root,{'SingleValue',Ext}) -> - merge_sets(Root,Ext); -merge_sets(Root,Ext) when is_list(Root),is_list(Ext) -> - Root ++ Ext; -merge_sets(Root,Ext) when is_list(Ext) -> - [Root|Ext]; -merge_sets(Root,Ext) when is_list(Root) -> - Root++[Ext]; -merge_sets(Root,Ext) -> - [Root]++[Ext]. - -reduce_objectset(ObjectSet,Exclusion) -> - case Exclusion of - {'SingleValue',#'Externalvaluereference'{value=Name}} -> - case lists:keysearch(Name,1,ObjectSet) of - {value,El} -> - lists:subtract(ObjectSet,[El]); - _ -> - ObjectSet - end - end. - -%% Checks a list of objects or object sets and returns a list of selected -%% information for the code generation. -check_object_list(S,ClassRef,ObjectList) -> - check_object_list(S,ClassRef,ObjectList,[]). - -check_object_list(S,ClassRef,[ObjOrSet|Objs],Acc) -> - ?dbg("check_object_list: ~p~n",[ObjOrSet]), - case ObjOrSet of - ObjDef when is_tuple(ObjDef),(element(1,ObjDef)==object) -> - Def = - check_object(S,#typedef{typespec=ObjDef}, -% #'Object'{classname={objectclassname,ClassRef}, - #'Object'{classname=ClassRef, - def=ObjDef}), - check_object_list(S,ClassRef,Objs,[{{no_mod,no_name},Def#'Object'.def}|Acc]); - {'SingleValue',Ref = #'Externalvaluereference'{}} -> - ?dbg("{SingleValue,Externalvaluereference}~n",[]), - {RefedMod,ObjName, - #'Object'{def=Def}} = check_referenced_object(S,Ref), - check_object_list(S,ClassRef,Objs,[{{RefedMod,ObjName},Def}|Acc]); - ObjRef when is_record(ObjRef,'Externalvaluereference') -> - ?dbg("Externalvaluereference~n",[]), - {RefedMod,ObjName, - #'Object'{def=Def}} = check_referenced_object(S,ObjRef), - check_object_list(S,ClassRef,Objs,[{{RefedMod,ObjName},Def}|Acc]); - {'ValueFromObject',{_,Object},FieldName} -> - {_,Def} = get_referenced_type(S,Object), - TypeDef = get_fieldname_element(S,Def,FieldName), - (TypeDef#typedef.typespec)#'ObjectSet'.set; - ObjSet when is_record(ObjSet,type) -> - ObjSetDef = - case ObjSet#type.def of - Ref when is_record(Ref,'Externaltypereference') -> - {_,D} = get_referenced_type(S,ObjSet#type.def), - D; - Other -> - throw({asn1_error,{'unknown objecset',Other,S}}) - end, - #'ObjectSet'{set=ObjectsInSet} = - check_object(S,ObjSetDef,ObjSetDef#typedef.typespec), - AccList = transform_set_to_object_list(ObjectsInSet,[]), - check_object_list(S,ClassRef,Objs,AccList++Acc); - union -> - check_object_list(S,ClassRef,Objs,Acc); - {pos,{objectset,_,DefinedObjectSet},Params} -> - OSDef = #type{def={pt,DefinedObjectSet,Params}}, - #'ObjectSet'{set=Set} = - check_object(S,ObjOrSet,#'ObjectSet'{class=ClassRef, - set=OSDef}), - check_object_list(S,ClassRef,Objs,Set ++ Acc); - {pv,{simpledefinedvalue,DefinedObject},Params} -> - Args = [match_parameters(S,Param,S#state.parameters)|| - Param<-Params], - #'Object'{def=Def} = - check_object(S,ObjOrSet, - #'Object'{classname=ClassRef , - def={po,{object,DefinedObject}, - Args}}), - check_object_list(S,ClassRef,Objs,[{{no_mod,no_name},Def}|Acc]); - {'ObjectSetFromObjects',Os,FieldName} when is_tuple(Os) -> - NewSet = - check_ObjectSetFromObjects(S, element(tuple_size(Os), Os), - FieldName,[]), - check_object_list(S,ClassRef,Objs,NewSet++Acc); - {{'ObjectSetFromObjects',Os,FieldName},InterSection} - when is_tuple(Os) -> - NewSet = - check_ObjectSetFromObjects(S, element(tuple_size(Os), Os), - FieldName,InterSection), - check_object_list(S,ClassRef,Objs,NewSet++Acc); - Other -> - exit({error,{'unknown object',Other},S}) - end; -%% Finally reverse the accumulated list and if there are any extension -%% marks in the object set put one indicator of that in the end of the -%% list. -check_object_list(_,_,[],Acc) -> - lists:reverse(Acc). check_referenced_object(S,ObjRef) when is_record(ObjRef,'Externalvaluereference')-> @@ -1213,195 +1002,134 @@ check_referenced_object(S,ObjRef) check_object(update_state(S,RefedMod),ObjectDef,ObjectDef#typedef.typespec)} end. -check_ObjectSetFromObjects(S,ObjName,FieldName,InterSection) -> - {RefedMod,TDef} = get_referenced_type(S,ObjName), - ObjOrSet = check_object(update_state(S,RefedMod),TDef,TDef#typedef.typespec), - InterSec = prepare_intersection(S,InterSection), - _NewSet = object_set_from_objects(S,RefedMod,FieldName,ObjOrSet,InterSec). +check_ObjectSetFromObjects(S, ObjName, Fields) -> + {_,Obj0} = get_referenced_type(S, ObjName), + case check_object(S, Obj0, Obj0#typedef.typespec) of + #'ObjectSet'{}=Obj1 -> + get_fieldname_set(S, Obj1, Fields); + #'Object'{classname=Class, + def={object,_,ObjFs}} -> + ObjSet = #'ObjectSet'{class=Class, + set=[{'_','_',ObjFs}]}, + get_fieldname_set(S, ObjSet, Fields) + end. -prepare_intersection(_S,[]) -> - []; -prepare_intersection(S,{'EXCEPT',ObjRef}) -> - except_names(S,ObjRef); -prepare_intersection(_S,T) -> - exit({error,{internal_error,not_implemented,object_set_from_objects,T}}). -except_names(_S,{'SingleValue',#'Externalvaluereference'{value=ObjName}}) -> - [{except,ObjName}]; -except_names(_,T) -> - exit({error,{internal_error,not_implemented,object_set_from_objects,T}}). - -osfo_intersection(InterSect,ObjList) -> - Res = [X|| X = {{_,N},_,_} <- ObjList, - lists:member({except,N},InterSect) == false], - case lists:member('EXTENSIONMARK',ObjList) of - true -> - Res ++ ['EXTENSIONMARK']; +%% get_type_from_object(State, ObjectOrObjectSet, [{RefType,FieldName}]) -> +%% Type +get_type_from_object(S, Object, FieldNames) + when is_record(Object, 'Externaltypereference'); + is_record(Object, 'Externalvaluereference') -> + extract_field(S, Object, FieldNames). + +%% get_value_from_object(State, ObjectOrObjectSet, [{RefType,FieldName}]) -> +%% UntaggedValue +get_value_from_object(S, Def, FieldNames) -> + case extract_field(S, Def, FieldNames) of + #valuedef{value=Val} -> + Val; + {valueset,_}=Val -> + Val; _ -> - Res + asn1_error(S, illegal_value) end. -%% get_fieldname_element/3 -%% gets the type/value/object/... of the referenced element in FieldName -%% FieldName is a list and may have more than one element. -%% Each element in FieldName can be either {typefieldreference,AnyFieldName} -%% or {valuefieldreference,AnyFieldName} -%% Def is the def of the first object referenced by FieldName -get_fieldname_element(S,Def,[{_RefType,FieldName}]) when is_record(Def,typedef) -> - {_,_,ObjComps} = (Def#typedef.typespec)#'Object'.def, - check_fieldname_element(S,lists:keysearch(FieldName,1,ObjComps)); -get_fieldname_element(S,Def,[{_RefType,FieldName}|Rest]) - when is_record(Def,typedef) -> - %% As FieldName is followd by other FieldNames it has to be an - %% object or objectset. - {_,_,ObjComps} = (Def#typedef.typespec)#'Object'.def, - NewDef = check_fieldname_element(S,lists:keysearch(FieldName,1,ObjComps)), - ObjDef = fun(#'Object'{def=D}) -> D; - (#'ObjectSet'{set=Set}) -> Set - end - (NewDef), - case ObjDef of +%% extract_field(State, ObjectOrObjectSet, [{RefType,FieldName}]) +%% RefType = typefieldreference | valuefieldreference +%% +%% Get the type, value, object, object set, or value set from the +%% referenced object or object set. The list of field name tuples +%% may have more than one element. All field names but the last +%% refers to either an object or object set. + +extract_field(S, Def0, FieldNames) -> + {_,Def1} = get_referenced_type(S, Def0), + Def2 = check_object(S, Def1, Def1#typedef.typespec), + Def = Def1#typedef{typespec=Def2}, + get_fieldname_element(S, Def, FieldNames). + +%% get_fieldname_element(State, Element, [{RefType,FieldName}] +%% RefType = typefieldreference | valuefieldreference +%% +%% Get the type, value, object, object set, or value set from the referenced +%% element. The list of field name tuples may have more than one element. +%% All field names but the last refers to either an object or object set. + +get_fieldname_element(S, Object0, [{_RefType,FieldName}|Fields]) -> + Object = case Object0 of + #typedef{typespec=#'Object'{def=Obj}} -> Obj; + {_,_,_}=Obj -> Obj + end, + case check_fieldname_element(S, FieldName, Object) of + #'Object'{def=D} when Fields =/= [] -> + get_fieldname_element(S, D, Fields); + #'ObjectSet'{}=Set -> + get_fieldname_set(S, Set, Fields); + Result when Fields =:= [] -> + Result + end; +get_fieldname_element(_S, Def, []) -> + Def. + +get_fieldname_set(S, #'ObjectSet'{set=Set0}, T) -> + get_fieldname_set_1(S, Set0, T, []). + +get_fieldname_set_1(S, ['EXTENSIONMARK'=Ext|T], Fields, Acc) -> + get_fieldname_set_1(S, T, Fields, [Ext|Acc]); +get_fieldname_set_1(S, [H|T], Fields, Acc) -> + try get_fieldname_element(S, H, Fields) of L when is_list(L) -> - [get_fieldname_element(S,X,Rest) || X <- L]; - _ -> - get_fieldname_element(S,ObjDef,Rest) + get_fieldname_set_1(S, T, Fields, L++Acc); + {valueset,L} -> + get_fieldname_set_1(S, T, Fields, L++Acc); + Other -> + get_fieldname_set_1(S, T, Fields, [Other|Acc]) + catch + throw:{error,_} -> + get_fieldname_set_1(S, T, Fields, Acc) end; -get_fieldname_element(S,{object,_,Fields},[{_RefType,FieldName}|Rest]) -> - NewDef = check_fieldname_element(S,lists:keysearch(FieldName,1,Fields)), - get_fieldname_element(S,NewDef,Rest); -get_fieldname_element(_S,Def,[]) -> - Def; -get_fieldname_element(_S,Def,[{_RefType,_FieldName}|_RestFName]) - when is_record(Def,typedef) -> - ok. +get_fieldname_set_1(_, [], _Fields, Acc) -> + case Acc of + [#valuedef{}|_] -> + {valueset,Acc}; + _ -> + Acc + end. -check_fieldname_element(S,{value,{_,Def}}) -> - check_fieldname_element(S,Def); -check_fieldname_element(S, #typedef{typespec=Ts}=TDef) -> +check_fieldname_element(S, Name, {_,_,Fields}) -> + case lists:keyfind(Name, 1, Fields) of + {Name,Def} -> + check_fieldname_element_1(S, Def); + false -> + asn1_error(S, {undefined_field,Name}) + end. + +check_fieldname_element_1(S, #typedef{typespec=Ts}=TDef) -> case Ts of #'Object'{} -> check_object(S, TDef, Ts); _ -> check_type(S, TDef, Ts) end; -check_fieldname_element(S, #valuedef{}=VDef) -> +check_fieldname_element_1(S, #valuedef{}=VDef) -> try check_value(S, VDef) catch - throw:{objectdef} -> + throw:{asn1_class, _} -> #valuedef{checked=C,pos=Pos,name=N,type=Type, value=Def} = VDef, ClassName = Type#type.def, NewSpec = #'Object'{classname=ClassName,def=Def}, NewDef = #typedef{checked=C,pos=Pos,name=N,typespec=NewSpec}, - check_fieldname_element(S, NewDef) + check_fieldname_element_1(S, NewDef) end; -check_fieldname_element(S,Eref) - when is_record(Eref,'Externaltypereference'); - is_record(Eref,'Externalvaluereference') -> - {_,TDef}=get_referenced_type(S,Eref), - check_fieldname_element(S,TDef); -check_fieldname_element(S,Other) -> - throw({error,{assigned_object_error,"not_assigned_object",Other,S}}). +check_fieldname_element_1(_S, {value_tag,Val}) -> + #valuedef{value=Val}; +check_fieldname_element_1(S, Eref) + when is_record(Eref, 'Externaltypereference'); + is_record(Eref, 'Externalvaluereference') -> + {_,TDef} = get_referenced_type(S, Eref), + check_fieldname_element_1(S, TDef). -transform_set_to_object_list([{Name,_UVal,Fields}|Objs],Acc) -> - transform_set_to_object_list(Objs,[{Name,{object,generatesyntax,Fields}}|Acc]); -transform_set_to_object_list(['EXTENSIONMARK'|Objs],Acc) -> -%% transform_set_to_object_list(Objs,['EXTENSIONMARK'|Acc]); - transform_set_to_object_list(Objs,Acc); -transform_set_to_object_list([],Acc) -> - Acc. - -get_unique_valuelist(_S,ObjSet,{unique,undefined}) -> % no unique field in object - lists:map(fun({N,{_,_,F}})->{N,no_unique_value,F}; - (V={_,_,_}) ->V; - ({A,B}) -> {A,no_unique_value,B} - end, ObjSet); -get_unique_valuelist(S,ObjSet,{UFN,Opt}) -> - get_unique_vlist(S,ObjSet,UFN,Opt,[]). - - -get_unique_vlist(_S,[],_,_,[]) -> - ['EXTENSIONMARK']; -get_unique_vlist(S,[],_,Opt,Acc) -> - case catch check_uniqueness(remove_duplicate_objects(Acc)) of - {asn1_error,_} when Opt =/= 'OPTIONAL' -> - error({'ObjectSet',"not unique objects in object set",S}); - {asn1_error,_} -> - lists:reverse(Acc); - _ -> - lists:reverse(Acc) - end; -get_unique_vlist(S,['EXTENSIONMARK'|Rest],UniqueFieldName,Opt,Acc) -> - get_unique_vlist(S,Rest,UniqueFieldName,Opt,Acc); -get_unique_vlist(S,[{ObjName,Obj}|Rest],UniqueFieldName,Opt,Acc) -> - {_,_,Fields} = Obj, - NewObjInf = - case get_unique_value(S,Fields,UniqueFieldName) of - #valuedef{value=V} -> [{ObjName,V,Fields}]; - [] -> []; % maybe the object only was a reference to an - % empty object set. - no_unique_value -> [{ObjName,no_unique_value,Fields}] - end, - get_unique_vlist(S,Rest,UniqueFieldName,Opt,NewObjInf++Acc); - -get_unique_vlist(S,[V={_,_,_}|Rest],UniqueFieldName,Opt,Acc) -> - get_unique_vlist(S,Rest,UniqueFieldName,Opt,[V|Acc]). - -get_unique_value(S,Fields,UniqueFieldName) -> - Module = S#state.mname, - case lists:keysearch(UniqueFieldName,1,Fields) of - {value,Field} -> - case element(2,Field) of - VDef when is_record(VDef,valuedef) -> - VDef; - {'ValueFromObject',Object,Name} -> - case Object of - {object,Ext} when is_record(Ext,'Externaltypereference') -> - OtherModule = Ext#'Externaltypereference'.module, - ExtObjName = Ext#'Externaltypereference'.type, - ObjDef = asn1_db:dbget(OtherModule,ExtObjName), - ObjSpec = ObjDef#typedef.typespec, - get_unique_value(OtherModule,element(3,ObjSpec),Name); - {object,{_,_,ObjName}} -> - ObjDef = asn1_db:dbget(Module,ObjName), - ObjSpec = ObjDef#typedef.typespec, - get_unique_value(Module,element(3,ObjSpec),Name); - {po,Object,_Params} -> - exit({error,{'parameterized object not implemented yet', - Object},S}) - end; - Value when is_atom(Value);is_number(Value) -> - #valuedef{value=Value,module=Module}; - {'CHOICE',{C,Value}} when is_atom(C) -> - %% #valuedef{value=normalize_value(S,element(3,Field),VDef,[])} - case Value of - Scalar when is_atom(Scalar);is_number(Scalar) -> - #valuedef{value=Value,module=Module}; - Eref = #'Externalvaluereference'{} -> - element(2,get_referenced_type(S,Eref)) - end - end; - false -> - case Fields of - [{_,#typedef{typespec=#'ObjectSet'{set=['EXTENSIONMARK']}}}] -> - []; - _ -> - no_unique_value - end - end. - -check_uniqueness(NameValueList) -> - check_uniqueness1(lists:keysort(2,NameValueList)). - -check_uniqueness1([]) -> - true; -check_uniqueness1([_]) -> - true; -check_uniqueness1([{_,N,_},{_,N,_}|_Rest]) -> - throw({asn1_error,{'objects in set must have unique values in UNIQUE fields',N}}); -check_uniqueness1([_|Rest]) -> - check_uniqueness1(Rest). - %% instantiate_po/4 %% ClassDef is the class of Object, %% Object is the Parameterized object, which is referenced, @@ -1410,8 +1138,7 @@ check_uniqueness1([_|Rest]) -> instantiate_po(S=#state{parameters=_OldArgs},_ClassDef,Object,ArgsList) when is_record(Object,pobjectdef) -> FormalParams = get_pt_args(Object), MatchedArgs = match_args(S,FormalParams,ArgsList,[]), -% NewS = S#state{type=Object,parameters=MatchedArgs++OldArgs}, - NewS = S#state{type=Object,parameters=MatchedArgs}, + NewS = S#state{parameters=MatchedArgs}, check_object(NewS,Object,#'Object'{classname=Object#pobjectdef.class, def=Object#pobjectdef.def}). @@ -1421,20 +1148,14 @@ instantiate_po(S=#state{parameters=_OldArgs},_ClassDef,Object,ArgsList) when is_ %% on the right side of the assignment, %% ArgsList is the list of actual parameters, i.e. real objects instantiate_pos(S=#state{parameters=_OldArgs},ClassRef,ObjectSetDef,ArgsList) -> -% ClassName = ClassDef#classdef.name, FormalParams = get_pt_args(ObjectSetDef), OSet = case get_pt_spec(ObjectSetDef) of - {valueset,Set} -> -% #'ObjectSet'{class=name2Extref(S#state.mname, -% ClassName),set=Set}; - #'ObjectSet'{class=ClassRef,set=Set}; - Set when is_record(Set,'ObjectSet') -> Set; - _ -> - error({type,"parameterized object set failure",S}) + {valueset,Set} -> #'ObjectSet'{class=ClassRef,set=Set}; + Set when is_record(Set,'ObjectSet') -> Set; + _ -> asn1_error(S, invalid_objectset) end, MatchedArgs = match_args(S,FormalParams,ArgsList,[]), -% NewS = S#state{type=ObjectSetDef,parameters=MatchedArgs++OldArgs}, - NewS = S#state{type=ObjectSetDef,parameters=MatchedArgs}, + NewS = S#state{parameters=MatchedArgs}, check_object(NewS,ObjectSetDef,OSet). @@ -1468,7 +1189,7 @@ gen_incl1(S,Fields,[C|CFields]) -> check_object(S,TDef,TDef#typedef.typespec); ERef -> {_,T} = get_referenced_type(S,ERef), - check_object(S,T,object_to_check(T)) + check_object(S, T, object_to_check(S, T)) end, case gen_incl(S,ObjDef#'Object'.def, ClassFields) of @@ -1485,7 +1206,7 @@ gen_incl1(S,Fields,[C|CFields]) -> end. get_objclass_fields(S,Eref=#'Externaltypereference'{}) -> - {_,ClassDef} = get_referenced_type(S,Eref), + {_,ClassDef} = get_referenced_type(S,Eref, true), get_objclass_fields(S,ClassDef); get_objclass_fields(S,CD=#classdef{typespec=#'Externaltypereference'{}}) -> get_objclass_fields(S,CD#classdef.typespec); @@ -1501,10 +1222,10 @@ gen_incl_set(S,Fields,#typedef{typespec=#type{def=Eref}}) {_,CDef} = get_referenced_type(S,Eref), gen_incl_set(S,Fields,CDef); gen_incl_set(S,Fields,ClassDef) -> - case catch get_unique_fieldname(S,ClassDef) of - Tuple when tuple_size(Tuple) =:= 3 -> + case get_unique_fieldname(S, ClassDef) of + no_unique -> false; - _ -> + {_, _} -> gen_incl_set1(S,Fields, (ClassDef#classdef.typespec)#objectclass.fields) end. @@ -1529,475 +1250,390 @@ gen_incl_set1(S,[Object|Rest],CFields)-> gen_incl_set1(S,Rest,CFields) end. -check_objectdefn(S,Def,CDef) when is_record(CDef,classdef) -> - WithSyntax = (CDef#classdef.typespec)#objectclass.syntax, - ClassFields = (CDef#classdef.typespec)#objectclass.fields, + +%%% +%%% Check an object definition. +%%% + +check_objectdefn(S, Def, #classdef{typespec=ObjClass}) -> + #objectclass{syntax=Syntax0,fields=ClassFields} = ObjClass, case Def of {object,defaultsyntax,Fields} -> - check_defaultfields(S,Fields,ClassFields); + check_defaultfields(S, Fields, ClassFields); {object,definedsyntax,Fields} -> - {_,WSSpec} = WithSyntax, - NewFields = - case catch( convert_definedsyntax(S,Fields,WSSpec, - ClassFields,[])) of - {asn1,{_ErrorType,ObjToken,ClassToken}} -> - throw({asn1,{'match error in object',ObjToken, - 'found in object',ClassToken,'found in class'}}); - Err={asn1,_} -> throw(Err); - Err={'EXIT',_} -> throw(Err); - DefaultFields when is_list(DefaultFields) -> - DefaultFields - end, - {object,defaultsyntax,NewFields}; - {object,_ObjectId} -> % This is a DefinedObject - fixa; - Other -> - exit({error,{objectdefn,Other}}) + Syntax = get_syntax(S, Syntax0, ClassFields), + case match_syntax(S, Syntax, Fields, []) of + {match,NewFields,[]} -> + {object,defaultsyntax,NewFields}; + {match,_,[What|_]} -> + syntax_match_error(S, What); + {nomatch,[What|_]} -> + syntax_match_error(S, What); + {nomatch,[]} -> + syntax_match_error(S) + end + end. + + +%%% +%%% Pre-process the simplified syntax so that it can be more +%%% easily matched. +%%% + +get_syntax(_, {preprocessed_syntax,Syntax}, _) -> + Syntax; +get_syntax(S, {'WITH SYNTAX',Syntax}, ClassFields) -> + preprocess_syntax(S, Syntax, ClassFields). + +preprocess_syntax(S, Syntax0, Cs) -> + Syntax = preprocess_syntax_1(S, Syntax0, Cs, true), + Present0 = preprocess_get_fields(Syntax, []), + Present1 = lists:sort(Present0), + Present = ordsets:from_list(Present1), + case Present =:= Present1 of + false -> + Dupl = Present1 -- Present, + asn1_error(S, {syntax_duplicated_fields,Dupl}); + true -> + ok + end, + Mandatory0 = get_mandatory_class_fields(Cs), + Mandatory = ordsets:from_list(Mandatory0), + case ordsets:subtract(Mandatory, Present) of + [] -> + Syntax; + [_|_]=Missing -> + asn1_error(S, {syntax_missing_mandatory_fields,Missing}) end. +preprocess_syntax_1(S, [H|T], Cs, Mandatory) when is_list(H) -> + [{optional,preprocess_syntax_1(S, H, Cs, false)}| + preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [{valuefieldreference,Name}|T], Cs, Mandatory) -> + F = preprocess_check_field(S, Name, Cs, Mandatory), + [F|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [{typefieldreference,Name}|T], Cs, Mandatory) -> + F = preprocess_check_field(S, Name, Cs, Mandatory), + [F|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S,[{Token,_}|T], Cs, Mandatory) when is_atom(Token) -> + [{token,Token}|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(S, [Token|T], Cs, Mandatory) when is_atom(Token) -> + [{token,Token}|preprocess_syntax_1(S, T, Cs, Mandatory)]; +preprocess_syntax_1(_, [], _, _) -> []. + +preprocess_check_field(S, Name, Cs, Mandatory) -> + case lists:keyfind(Name, 2, Cs) of + Tuple when is_tuple(Tuple) -> + case not Mandatory andalso is_mandatory_class_field(Tuple) of + true -> + asn1_error(S, {syntax_mandatory_in_optional_group,Name}); + false -> + {field,Tuple} + end; + false -> + asn1_error(S, {syntax_undefined_field,Name}) + end. + +preprocess_get_fields([{field,F}|T], Acc) -> + Name = element(2, F), + preprocess_get_fields(T, [Name|Acc]); +preprocess_get_fields([{optional,L}|T], Acc) -> + preprocess_get_fields(T, preprocess_get_fields(L, Acc)); +preprocess_get_fields([_|T], Acc) -> + preprocess_get_fields(T, Acc); +preprocess_get_fields([], Acc) -> + Acc. + +%%% +%%% Match the actual fields in the object definition to +%%% the pre-processed simplified syntax. +%%% + +match_syntax(S, [{token,Token}|T], [A|As]=Args, Acc) -> + case A of + {word_or_setting,_,#'Externaltypereference'{type=Token}} -> + match_syntax(S, T, As, Acc); + {Token,Line} when is_integer(Line) -> + match_syntax(S, T, As, Acc); + _ -> + {nomatch,Args} + end; +match_syntax(S, [{field,Field}|T]=Fs, [A|As0]=Args0, Acc) -> + try match_syntax_type(S, Field, A) of + {match,Match} -> + match_syntax(S, T, As0, lists:reverse(Match)++Acc); + {params,_Name,#ptypedef{args=Params}=P,Ref} -> + {Args,As} = lists:split(length(Params), As0), + Val = match_syntax_params(S, P, Ref, Args), + match_syntax(S, Fs, [Val|As], Acc) + catch + _:_ -> + {nomatch,Args0} + end; +match_syntax(S, [{optional,L}|T], As0, Acc) -> + case match_syntax(S, L, As0, []) of + {match,Match,As} -> + match_syntax(S, T, As, lists:reverse(Match)++Acc); + {nomatch,As0} -> + match_syntax(S, T, As0, Acc); + {nomatch,_}=NoMatch -> + NoMatch + end; +match_syntax(_, [_|_], [], _Acc) -> + {nomatch,[]}; +match_syntax(_, [], As, Acc) -> + {match,Acc,As}. + +match_syntax_type(S, Type, {value_tag,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(S, Type, {setting,_,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(S, Type, {word_or_setting,_,Val}) -> + match_syntax_type(S, Type, Val); +match_syntax_type(_S, _Type, {Atom,Line}) + when is_atom(Atom), is_integer(Line) -> + throw(nomatch); +match_syntax_type(S, {fixedtypevaluefield,Name,#type{}=T,_,_}=Type, + #'Externalvaluereference'{}=ValRef0) -> + try get_referenced_type(S, ValRef0) of + {M,#valuedef{}=ValDef} -> + match_syntax_type(update_state(S, M), Type, ValDef) + catch + throw:{error,_} -> + ValRef = #valuedef{name=Name, + type=T, + value=ValRef0, + module=S#state.mname}, + match_syntax_type(S, Type, ValRef) + end; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{},_,_}, #valuedef{}=Val0) -> + Val = check_value(S, Val0), + {match,[{Name,Val}]}; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{},_,_}, + {'ValueFromObject',{object,Object},FieldNames}) -> + Val = extract_field(S, Object, FieldNames), + {match,[{Name,Val}]}; +match_syntax_type(S, {fixedtypevaluefield,Name,#type{}=T,_,_}=Type, Any) -> + ValDef = #valuedef{name=Name,type=T,value=Any,module=S#state.mname}, + match_syntax_type(S, Type, ValDef); +match_syntax_type(_S, {fixedtypevaluesetfield,Name,#type{},_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(S, {objectfield,Name,_,_,_}, #'Externalvaluereference'{}=Ref) -> + {M,Obj} = get_referenced_type(S, Ref), + check_object(S, Obj, object_to_check(S, Obj)), + {match,[{Name,Ref#'Externalvaluereference'{module=M}}]}; +match_syntax_type(S, {objectfield,Name,Class,_,_}, {object,_,_}=ObjDef) -> + InlinedObjName = list_to_atom(lists:concat([S#state.tname, + '_',Name])), + ObjSpec = #'Object'{classname=Class,def=ObjDef}, + CheckedObj = check_object(S, #typedef{typespec=ObjSpec}, ObjSpec), + InlObj = #typedef{checked=true,name=InlinedObjName,typespec=CheckedObj}, + ObjKey = {InlinedObjName, InlinedObjName}, + insert_once(S, inlined_objects, ObjKey), + %% Which module to use here? Could it be other than top_module? + asn1_db:dbput(get(top_module), InlinedObjName, InlObj), + {match,[{Name,InlObj}]}; +match_syntax_type(_S, {objectfield,Name,_,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(S, {objectsetfield,Name,CDef0,_}, Any) -> + CDef = case CDef0 of + #type{def=CDef1} -> CDef1; + CDef1 -> CDef1 + end, + case match_syntax_objset(S, Any, CDef) of + #typedef{typespec=#'ObjectSet'{}=Ts0}=Def -> + Ts = check_object(S, Def, Ts0), + {match,[{Name,Def#typedef{checked=true,typespec=Ts}}]}; + _ -> + syntax_match_error(S, Any) + end; +match_syntax_type(S, {typefield,Name0,_}, #type{def={pt,_,_}=Def}=Actual) -> + %% This is an inlined type. If constructed type, save in data base. + T = check_type(S, #typedef{typespec=Actual}, Actual), + #'Externaltypereference'{type=PtName} = element(2, Def), + NameList = [PtName,S#state.tname], + Name = list_to_atom(asn1ct_gen:list2name(NameList)), + NewTDef = #typedef{checked=true,name=Name,typespec=T}, + asn1_db:dbput(S#state.mname, Name, NewTDef), + insert_once(S, parameterized_objects, {Name,type,NewTDef}), + {match,[{Name0,NewTDef}]}; +match_syntax_type(S, {typefield,Name,_}, #type{def=#'ObjectClassFieldType'{}}=Actual) -> + T = check_type(S, #typedef{typespec=Actual}, Actual), + {match,[{Name,ocft_def(T)}]}; +match_syntax_type(S, {typefield,Name,_}, #type{def=#'Externaltypereference'{}=Ref}) -> + match_syntax_external(S, Name, Ref); +match_syntax_type(S, {typefield,Name,_}, #type{def=Def}=Actual) -> + T = check_type(S, #typedef{typespec=Actual}, Actual), + TypeName = asn1ct_gen:type(asn1ct_gen:get_inner(Def)), + {match,[{Name,#typedef{checked=true,name=TypeName,typespec=T}}]}; +match_syntax_type(S, {typefield,Name,_}, #'Externaltypereference'{}=Ref) -> + match_syntax_external(S, Name, Ref); +match_syntax_type(_S, {variabletypevaluefield,Name,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(_S, {variabletypevaluesetfield,Name,_,_}, Any) -> + {match,[{Name,Any}]}; +match_syntax_type(_S, _Type, _Actual) -> + throw(nomatch). + +match_syntax_params(S0, #ptypedef{name=Name}=PtDef, + #'Externaltypereference'{module=M,type=N}=ERef0, Args) -> + S = S0#state{mname=M,module=load_asn1_module(S0, M),tname=Name}, + Type = check_type(S, PtDef, #type{def={pt,ERef0,Args}}), + ERefName = new_reference_name(N), + ERef = #'Externaltypereference'{type=ERefName,module=S0#state.mname}, + TDef = #typedef{checked=true,name=ERefName,typespec=Type}, + insert_once(S0, parameterized_objects, {ERefName,type,TDef}), + asn1_db:dbput(S0#state.mname, ERef#'Externaltypereference'.type, TDef), + ERef. + +match_syntax_external(#state{mname=Mname}=S0, Name, Ref0) -> + {M,T0} = get_referenced_type(S0, Ref0), + Ref1 = Ref0#'Externaltypereference'{module=M}, + case T0 of + #ptypedef{} -> + {params,Name,T0,Ref1}; + #typedef{checked=false}=TDef0 when Mname =/= M -> + %% This typedef is an imported type (or maybe a set.asn + %% compilation). + S = S0#state{mname=M,module=load_asn1_module(S0, M), + tname=get_datastr_name(TDef0)}, + Type = check_type(S, TDef0, TDef0#typedef.typespec), + TDef = TDef0#typedef{checked=true,typespec=Type}, + asn1_db:dbput(M, get_datastr_name(TDef), TDef), + {match,[{Name,merged_name(S, Ref1)}]}; + TDef -> + %% This might be a renamed type in a set of specs, + %% so rename the ref. + Type = asn1ct:get_name_of_def(TDef), + Ref = Ref1#'Externaltypereference'{type=Type}, + {match,[{Name,Ref}]} + end. + +match_syntax_objset(_S, {element_set,_,_}=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset(S, #'Externaltypereference'{}=Ref, _) -> + {_,T} = get_referenced_type(S, Ref), + T; +match_syntax_objset(S, #'Externalvaluereference'{}=Ref, _) -> + {_,T} = get_referenced_type(S, Ref), + T; +match_syntax_objset(_, [_|_]=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset(S, {object,definedsyntax,Words}, ClassDef) -> + case Words of + [Word] -> + match_syntax_objset_1(S, Word, ClassDef); + [_|_] -> + %% More than one word does not make sense. + none + end; +match_syntax_objset(S, #type{def=#'Externaltypereference'{}=Set}, ClassDef) -> + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset(_, #type{}, _) -> + none. + +match_syntax_objset_1(S, {setting,_,Set}, ClassDef) -> + %% Word that starts with an uppercase letter. + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset_1(S, {word_or_setting,_,Set}, ClassDef) -> + %% Word in uppercase/hyphens only. + match_syntax_objset(S, Set, ClassDef); +match_syntax_objset_1(S, #type{def={'TypeFromObject', {object,Object}, FNs}}, + ClassDef) -> + Set = extract_field(S, Object, FNs), + [_|_] = Set, + #typedef{checked=true,typespec=#'ObjectSet'{class=ClassDef,set=Set}}; +match_syntax_objset_1(_, #type{def=#'ObjectClassFieldType'{}}=Set, ClassDef) -> + make_objset(ClassDef, Set); +match_syntax_objset_1(_, {object,_,_}=Object, ClassDef) -> + make_objset(ClassDef, [Object]). + +make_objset(ClassDef, Set) -> + #typedef{typespec=#'ObjectSet'{class=ClassDef,set=Set}}. + +syntax_match_error(S) -> + asn1_error(S, syntax_nomatch). + +syntax_match_error(S, What0) -> + What = printable_string(What0), + asn1_error(S, {syntax_nomatch,What}). + +printable_string(Def) -> + printable_string_1(Def). + +printable_string_1({word_or_setting,_,Def}) -> + printable_string_1(Def); +printable_string_1({value_tag,V}) -> + printable_string_1(V); +printable_string_1({#seqtag{val=Val1},Val2}) -> + atom_to_list(Val1) ++ " " ++ printable_string_1(Val2); +printable_string_1(#type{def=Def}) -> + atom_to_list(asn1ct_gen:get_inner(Def)); +printable_string_1(#'Externaltypereference'{type=Type}) -> + atom_to_list(Type); +printable_string_1(#'Externalvaluereference'{value=Type}) -> + atom_to_list(Type); +printable_string_1({Atom,Line}) when is_atom(Atom), is_integer(Line) -> + q(Atom); +printable_string_1({object,definedsyntax,L}) -> + q(string:join([printable_string_1(Item) || Item <- L], " ")); +printable_string_1([_|_]=Def) -> + case lists:all(fun is_integer/1, Def) of + true -> + lists:flatten(io_lib:format("~p", [Def])); + false -> + q(string:join([printable_string_1(Item) || Item <- Def], " ")) + end; +printable_string_1(Def) -> + lists:flatten(io_lib:format("~p", [Def])). + +q(S) -> + lists:concat(["\"",S,"\""]). + check_defaultfields(S, Fields, ClassFields) -> Present = ordsets:from_list([F || {F,_} <- Fields]), Mandatory0 = get_mandatory_class_fields(ClassFields), Mandatory = ordsets:from_list(Mandatory0), All = ordsets:from_list([element(2, F) || F <- ClassFields]), - #state{type=T,tname=Obj} = S, + #state{tname=Obj} = S, case ordsets:subtract(Present, All) of [] -> ok; [_|_]=Invalid -> - asn1_error(S, T, {invalid_fields,Invalid,Obj}) + asn1_error(S, {invalid_fields,Invalid,Obj}) end, case ordsets:subtract(Mandatory, Present) of [] -> check_defaultfields_1(S, Fields, ClassFields, []); [_|_]=Missing -> - asn1_error(S, T, {missing_mandatory_fields,Missing,Obj}) + asn1_error(S, {missing_mandatory_fields,Missing,Obj}) end. check_defaultfields_1(_S, [], _ClassFields, Acc) -> {object,defaultsyntax,lists:reverse(Acc)}; check_defaultfields_1(S, [{FName,Spec}|Fields], ClassFields, Acc) -> CField = lists:keyfind(FName, 2, ClassFields), - {NewField,RestFields} = - convert_to_defaultfield(S, FName, [Spec|Fields], CField), - check_defaultfields_1(S, RestFields, ClassFields, [NewField|Acc]). + {match,Match} = match_syntax_type(S, CField, Spec), + check_defaultfields_1(S, Fields, ClassFields, Match++Acc). -convert_definedsyntax(_S,[],[],_ClassFields,Acc) -> - lists:reverse(Acc); -convert_definedsyntax(S,Fields,WithSyntax,ClassFields,Acc) -> - {MatchedField,RestFields,RestWS} = - match_field(S,Fields,WithSyntax,ClassFields), - if - is_list(MatchedField) -> - convert_definedsyntax(S,RestFields,RestWS,ClassFields, - lists:append(MatchedField,Acc)); - true -> - convert_definedsyntax(S,RestFields,RestWS,ClassFields, - [MatchedField|Acc]) - end. +get_mandatory_class_fields(ClassFields) -> + [element(2, F) || F <- ClassFields, + is_mandatory_class_field(F)]. -get_mandatory_class_fields([{fixedtypevaluefield,Name,_,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{objectfield,Name,_,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{objectsetfield,Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{typefield,Name,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{variabletypevaluefield,Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([{variabletypevaluesetfield, - Name,_,'MANDATORY'}|T]) -> - [Name|get_mandatory_class_fields(T)]; -get_mandatory_class_fields([_|T]) -> - get_mandatory_class_fields(T); -get_mandatory_class_fields([]) -> []. - -match_field(S,Fields,WithSyntax,ClassFields) -> - match_field(S,Fields,WithSyntax,ClassFields,[]). - -match_field(S,Fields,[W|Ws],ClassFields,Acc) when is_list(W) -> - case catch(match_optional_field(S,Fields,W,ClassFields,[])) of - {'EXIT',_} -> - match_field(Fields,Ws,ClassFields,Acc); %% add S -%% {[Result],RestFields} -> -%% {Result,RestFields,Ws}; - {Result,RestFields} when is_list(Result) -> - {Result,RestFields,Ws}; - _ -> - match_field(S,Fields,Ws,ClassFields,Acc) - end; -match_field(S,Fields,WithSyntax,ClassFields,_Acc) -> - match_mandatory_field(S,Fields,WithSyntax,ClassFields,[]). - -match_optional_field(_S,RestFields,[],_,Ret) -> - {Ret,RestFields}; -%% An additional optional field within an optional field -match_optional_field(S,Fields,[W|Ws],ClassFields,Ret) when is_list(W) -> - case catch match_optional_field(S,Fields,W,ClassFields,[]) of - {'EXIT',_} when length(Ws) > 0 -> - match_optional_field(S,Fields,Ws,ClassFields,Ret); - {'EXIT',_} -> - {Ret,Fields}; - {asn1,{optional_matcherror,_,_}} when length(Ws) > 0 -> - match_optional_field(S,Fields,Ws,ClassFields,Ret); - {asn1,{optional_matcherror,_,_}} -> - {Ret,Fields}; - {OptionalField,RestFields} -> - match_optional_field(S,RestFields,Ws,ClassFields, - lists:append(OptionalField,Ret)) - end; -%% identify and skip word -match_optional_field(S,[{_,_,#'Externaltypereference'{type=WorS}}|Rest], - [WorS|Ws],ClassFields,Ret) -> - match_optional_field(S,Rest,Ws,ClassFields,Ret); -match_optional_field(S,[],_,ClassFields,Ret) -> - match_optional_field(S,[],[],ClassFields,Ret); -%% identify and skip comma -match_optional_field(S,[{WorS,_}|Rest],[{WorS,_}|Ws],ClassFields,Ret) -> - match_optional_field(S,Rest,Ws,ClassFields,Ret); -%% am optional setting inside another optional setting may be "double-listed" -match_optional_field(S,[Setting],DefinedSyntax,ClassFields,Ret) - when is_list(Setting) -> - match_optional_field(S,Setting,DefinedSyntax,ClassFields,Ret); -%% identify and save field data -match_optional_field(S,[Setting|Rest],[{_,W}|Ws],ClassFields,Ret) -> - ?dbg("matching optional field setting: ~p with user friendly syntax: ~p~n",[Setting,W]), - WorS = - case Setting of - Type when is_record(Type,type) -> Type; - {'ValueFromObject',_,_} -> Setting; - {object,_,_} -> Setting; - {_,_,WordOrSetting} -> WordOrSetting; - Other -> Other - end, - case lists:keysearch(W,2,ClassFields) of - false -> - throw({asn1,{optional_matcherror,WorS,W}}); - {value,CField} -> - {NewField,RestFields} = - convert_to_defaultfield(S,W,[WorS|Rest],CField), - match_optional_field(S,RestFields,Ws,ClassFields,[NewField|Ret]) - end; -match_optional_field(_S,[WorS|_Rest],[W|_Ws],_ClassFields,_Ret) -> - throw({asn1,{optional_matcherror,WorS,W}}). - -match_mandatory_field(_S,[],[],_,[Acc]) -> - {Acc,[],[]}; -match_mandatory_field(_S,[],[],_,Acc) -> - {Acc,[],[]}; -match_mandatory_field(S,[],[H|T],CF,Acc) when is_list(H) -> - match_mandatory_field(S,[],T,CF,Acc); -match_mandatory_field(_S,[],WithSyntax,_,_Acc) -> - throw({asn1,{mandatory_matcherror,[],WithSyntax}}); -%match_mandatory_field(_S,Fields,WithSyntax=[W|_Ws],_ClassFields,[Acc]) when is_list(W) -> -match_mandatory_field(_S,Fields,WithSyntax=[W|_Ws],_ClassFields,Acc) when is_list(W), length(Acc) >= 1 -> - {Acc,Fields,WithSyntax}; -%% identify and skip word -%%match_mandatory_field(S,[{_,_,WorS}|Rest], -match_mandatory_field(S,[{_,_,#'Externaltypereference'{type=WorS}}|Rest], - [WorS|Ws],ClassFields,Acc) -> - match_mandatory_field(S,Rest,Ws,ClassFields,Acc); -%% identify and skip comma -match_mandatory_field(S,[{WorS,_}|Rest],[{WorS,_}|Ws],ClassFields,Ret) -> - match_mandatory_field(S,Rest,Ws,ClassFields,Ret); -%% identify and save field data -match_mandatory_field(S,[Setting|Rest],[{_,W}|Ws],ClassFields,Acc) -> - ?dbg("matching field setting: ~p with user friendly syntax: ~p~n",[Setting,W]), - WorS = - case Setting of - {object,_,_} -> Setting; - {_,_,WordOrSetting} -> WordOrSetting; - Type when is_record(Type,type) -> Type; - Other -> Other - end, - case lists:keysearch(W,2,ClassFields) of - false -> - throw({asn1,{mandatory_matcherror,WorS,W}}); - {value,CField} -> - {NewField,RestFields} = - convert_to_defaultfield(S,W,[WorS|Rest],CField), - match_mandatory_field(S,RestFields,Ws,ClassFields,[NewField|Acc]) - end; - -match_mandatory_field(_S,[WorS|_Rest],[W|_Ws],_ClassFields,_Acc) -> - throw({asn1,{mandatory_matcherror,WorS,W}}). - -%% Converts a field of an object from defined syntax to default syntax -%% A field may be a type, a fixed type value, an object, an objectset, -%% -convert_to_defaultfield(S,ObjFieldName,[OFS|RestOFS],CField)-> - ?dbg("convert field: ~p of type: ~p~n",[ObjFieldName,element(1,CField)]), - CurrMod = S#state.mname, - Strip_value_tag = - fun({value_tag,ValueSetting}) -> ValueSetting; - (VS) -> VS - end, - ObjFieldSetting = Strip_value_tag(OFS), - RestSettings = [Strip_value_tag(X)||X <- RestOFS], - case element(1,CField) of - typefield -> - TypeDef= - case ObjFieldSetting of - TypeRec when is_record(TypeRec,type) -> TypeRec#type.def; - TDef when is_record(TDef,typedef) -> - TDef#typedef{checked=true, - typespec=check_type(S,TDef, - TDef#typedef.typespec)}; - _ -> ObjFieldSetting - end, - {Type,SettingsLeft} = - if - is_record(TypeDef,typedef) -> {TypeDef,RestSettings}; - is_record(TypeDef,'ObjectClassFieldType') -> - T=check_type(S,#typedef{typespec=ObjFieldSetting},ObjFieldSetting), - {oCFT_def(S,T),RestSettings}; -% #typedef{checked=true,name=Name,typespec=IT}; - is_tuple(TypeDef), element(1,TypeDef) == pt -> - %% this is an inlined type. If constructed - %% type save in data base - T=check_type(S,#typedef{typespec=ObjFieldSetting},ObjFieldSetting), - #'Externaltypereference'{type=PtName} = - element(2,TypeDef), - NameList = [PtName,S#state.tname], - NewName = list_to_atom(asn1ct_gen:list2name(NameList)), - NewTDef=#typedef{checked=true,name=NewName, - typespec=T}, - asn1_db:dbput(S#state.mname,NewName,NewTDef), - %%asn1ct_gen:insert_once(parameterized_objects,{NewName,type,NewTDef}), - insert_once(S,parameterized_objects, - {NewName,type,NewTDef}), - {NewTDef,RestSettings}; - is_tuple(TypeDef), element(1,TypeDef)=='SelectionType' -> - T=check_type(S,#typedef{typespec=ObjFieldSetting}, - ObjFieldSetting), - Name = type_name(S,T), - {#typedef{checked=true,name=Name,typespec=T},RestSettings}; - true -> - case asn1ct_gen:type(asn1ct_gen:get_inner(TypeDef)) of - ERef = #'Externaltypereference'{module=CurrMod} -> - {RefMod,T} = get_referenced_type(S,ERef), - check_and_save(S,ERef#'Externaltypereference'{module=RefMod},T,RestSettings); - - ERef = #'Externaltypereference'{} -> - {RefMod,T} = get_referenced_type(S,ERef), - check_and_save(S,ERef#'Externaltypereference'{module=RefMod},T,RestSettings); - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - T = check_type(S,#typedef{typespec=ObjFieldSetting}, - ObjFieldSetting), - {#typedef{checked=true,name=Bif,typespec=T},RestSettings}; - _ -> - %this case should not happen any more - {Mod,T} = - get_referenced_type(S,#'Externaltypereference'{module=S#state.mname,type=ObjFieldSetting}), - case Mod of - CurrMod -> - {T,RestSettings}; - ExtMod -> - #typedef{name=Name} = T, - {T#typedef{name={ExtMod,Name}},RestSettings} - end - end - end, - {{ObjFieldName,Type},SettingsLeft}; - fixedtypevaluefield -> - case ObjFieldName of - Val when is_atom(Val) -> - %% ObjFieldSetting can be a value,an objectidentifiervalue, - %% an element in an enumeration or namednumberlist etc. - ValRef = - case ObjFieldSetting of - ValSetting=#'Externalvaluereference'{} -> - ValSetting; - {'ValueFromObject',{_,ObjRef},FieldName} -> - {_,Object} = get_referenced_type(S,ObjRef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - get_fieldname_element(S,Object#typedef{typespec=ChObject}, - FieldName); - ValSetting = #valuedef{} -> - ValSetting; - ValSetting -> - #valuedef{type=element(3,CField), - value=ValSetting, - module=S#state.mname} - end, - ?dbg("fixedtypevaluefield ValRef: ~p~n",[ValRef]), - case ValRef of - #valuedef{} -> - {{ObjFieldName,check_value(S,ValRef)},RestSettings}; - _ -> - ValDef = - case catch get_referenced_type(S,ValRef) of - {error,_} -> - NewValDef = - #valuedef{name=Val, - type=element(3,CField), - value=ObjFieldSetting, - module=S#state.mname}, - check_value(S,NewValDef); - {M,VDef} when is_record(VDef,valuedef) -> - check_value(update_state(S,M), - %%S#state{mname=M}, - VDef);%% XXX - {M,VDef} -> - check_value(update_state(S,M), - %%S#state{mname=M}, - #valuedef{name=Val, - type=element(3,CField), - value=VDef, - module=M}) - end, - {{ObjFieldName,ValDef},RestSettings} - end; - Val -> - {{ObjFieldName,Val},RestSettings} - end; - fixedtypevaluesetfield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; - objectfield -> - CheckObject = - fun(O) -> - O#typedef{checked=true,typespec= - check_object(S,O,O#typedef.typespec)} - end, - ObjectSpec = - case ObjFieldSetting of - Ref when is_record(Ref,'Externalvaluereference') -> - %% The object O might be a #valuedef{} if - %% e.g. the definition looks like - %% myobj SOMECLASS ::= referencedObject - {M,O} = get_referenced_type(S,Ref), - check_object(S,O,object_to_check(O)), - Ref#'Externalvaluereference'{module=M}; - - {'ValueFromObject',{_,ObjRef},FieldName} -> - %% This is an ObjectFromObject - {_,Object} = get_referenced_type(S,ObjRef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - ObjFromObj= - get_fieldname_element(S,Object#typedef{ - typespec=ChObject}, - FieldName), - CheckObject(ObjFromObj); - ObjDef={object,_,_} -> - %% An object defined inlined in another object - %% class is an objectfield, that implies that - %% {objectsetfield,TypeFieldName,DefinedObjecClass, - %% OptionalitySpec} - %% DefinedObjecClass = #'Externaltypereference'{}| - %% 'TYPE-IDENTIFIER' | 'ABSTRACT-SYNTAX' - ClassName = element(3,CField), - InlinedObjName= - list_to_atom(lists:concat([S#state.tname]++ - ['_',ObjFieldName])), - - ObjSpec = #'Object'{classname=ClassName, - def=ObjDef}, - CheckedObj= - check_object(S,#typedef{typespec=ObjSpec},ObjSpec), - InlObj = #typedef{checked=true,name=InlinedObjName, - typespec=CheckedObj}, - ObjKey = {InlinedObjName,InlinedObjName}, - %% asn1ct_gen:insert_once(inlined_objects,ObjKey), - insert_once(S,inlined_objects,ObjKey), - %% Which module to use here? Could it be other than top_module ? - %% asn1_db:dbput(S#state.mname,InlinedObjName,InlObj), - asn1_db:dbput(get(top_module),InlinedObjName,InlObj), - InlObj; - #type{def=Eref} when is_record(Eref,'Externaltypereference') -> - {_,O} = get_referenced_type(S,Eref), - CheckObject(O); - Other -> - {_,O} = get_referenced_type(S,#'Externaltypereference'{module=S#state.mname,type=Other}), - CheckObject(O) - end, - {{ObjFieldName,ObjectSpec},RestSettings}; - variabletypevaluefield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; - variabletypevaluesetfield -> - {{ObjFieldName,ObjFieldSetting},RestSettings}; -%% objectset_or_fixedtypevalueset_field -> -%% ok; - objectsetfield -> - ObjSetSpec = get_objectset_def(S,ObjFieldSetting,CField), - ?dbg("objectsetfield, ObjSetSpec:~p~n",[ObjSetSpec]), - {{ObjFieldName, - ObjSetSpec#typedef{checked=true, - typespec=check_object(S,ObjSetSpec, - ObjSetSpec#typedef.typespec)}},RestSettings} - end. - -get_objectset_def(S,Ref,CField) - when is_record(Ref,'Externaltypereference'); - is_record(Ref,'Externalvaluereference') -> - {_M,T}=get_referenced_type(S,Ref), - get_objectset_def2(S,T,CField); -get_objectset_def(S,ObjectList,CField) when is_list(ObjectList) -> - %% an objctset defined in the object,though maybe - %% parsed as a SequenceOfValue - %% The ObjectList may be a list of references to - %% objects, a ValueFromObject - ?dbg("objectsetfield: ~p~n",[CField]), - get_objectset_def2(S,ObjectList,CField); -get_objectset_def(S,'EXTENSIONMARK',CField) -> - ?dbg("objectsetfield: ~p~n",[CField]), - get_objectset_def2(S,['EXTENSIONMARK'],CField); -get_objectset_def(_S,ObjFieldSetting={'SingleValue',_},CField) -> - %% a Union of defined objects - ?dbg("objectsetfield, SingleValue~n",[]), - union_of_defed_objs(CField,ObjFieldSetting); -get_objectset_def(_S,ObjFieldSetting={{'SingleValue',_},_},CField) -> - %% a Union of defined objects - ?dbg("objectsetfield, SingleValue~n",[]), - union_of_defed_objs(CField,ObjFieldSetting); -get_objectset_def(S,{object,_,[#type{def={'TypeFromObject', - {object,RefedObj}, - FieldName}}]},_CField) -> - %% This case occurs when an ObjectSetFromObjects - %% production is used - {_M,Def} = get_referenced_type(S,RefedObj), - get_fieldname_element(S,Def,FieldName); -get_objectset_def(S,{object,_,[{setting,_,ERef}]},CField) - when is_record(ERef,'Externaltypereference') -> - {_,T} = get_referenced_type(S,ERef), - get_objectset_def2(S,T,CField); -get_objectset_def(S,#type{def=ERef},_CField) - when is_record(ERef,'Externaltypereference') -> - {_,T} = get_referenced_type(S,ERef), - T; -get_objectset_def(S,ObjFieldSetting,CField) - when is_atom(ObjFieldSetting) -> - ERef = #'Externaltypereference'{module=S#state.mname, - type=ObjFieldSetting}, - {_,T} = get_referenced_type(S,ERef), - get_objectset_def2(S,T,CField). - -get_objectset_def2(_S,T = #typedef{typespec=#'Object'{}},_CField) -> - #typedef{typespec=#'Object'{classname=Class,def=Def}} = T, - T#typedef{typespec=#'ObjectSet'{class=Class,set=[Def]}}; -get_objectset_def2(_S,Set,CField) when is_list(Set) -> - {_,_,Type,_} = CField, - ClassDef = Type#type.def, - #typedef{typespec=#'ObjectSet'{class=ClassDef, - set=Set}}; -get_objectset_def2(_S,T = #typedef{typespec=#'ObjectSet'{}},_CField) -> - T; -get_objectset_def2(S,T,_CField) -> - asn1ct:warning("get_objectset_def2: uncontrolled object set structure:~n~p~n", - [T],S,"get_objectset_def2: uncontrolled object set structure"). - -type_name(S,#type{def=Def}) -> - CurrMod = S#state.mname, - case asn1ct_gen:type(asn1ct_gen:get_inner(Def)) of - #'Externaltypereference'{module=CurrMod,type=Name} -> - Name; - #'Externaltypereference'{module=Mod,type=Name} -> - {Mod,Name}; - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - Bif - end. +is_mandatory_class_field({fixedtypevaluefield,_,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({objectfield,_,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({objectsetfield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({typefield,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({variabletypevaluefield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field({variabletypevaluesetfield,_,_,'MANDATORY'}) -> + true; +is_mandatory_class_field(_) -> + false. merged_name(#state{inputmodules=[]},ERef) -> ERef; @@ -2013,38 +1649,18 @@ merged_name(S,ERef=#'Externaltypereference'{module=M}) -> ERef end. -oCFT_def(S,T) -> - case get_OCFT_inner(S,T) of - ERef=#'Externaltypereference'{} -> ERef; - {Name,Type} -> #typedef{checked=true,name=Name,typespec=Type}; - 'ASN1_OPEN_TYPE' -> - #typedef{checked=true,typespec=T#type{def='ASN1_OPEN_TYPE'}} - end. - -get_OCFT_inner(_S,T) -> -% Module=S#state.mname, - Def = T#type.def, - case Def#'ObjectClassFieldType'.type of +ocft_def(#type{def=#'ObjectClassFieldType'{type=OCFT}}=T) -> + case OCFT of {fixedtypevaluefield,_,InnerType} -> case asn1ct_gen:type(asn1ct_gen:get_inner(InnerType#type.def)) of - Bif when Bif=={primitive,bif};Bif=={constructed,bif} -> - {Bif,InnerType}; - ERef = #'Externaltypereference'{} -> - ERef + Bif when Bif =:= {primitive,bif}; Bif =:= {constructed,bif} -> + #typedef{checked=true,name=Bif,typespec=InnerType}; + #'Externaltypereference'{}=Ref -> + Ref end; - 'ASN1_OPEN_TYPE' -> 'ASN1_OPEN_TYPE' + 'ASN1_OPEN_TYPE' -> + #typedef{checked=true,typespec=T#type{def='ASN1_OPEN_TYPE'}} end. - - - -union_of_defed_objs({_,_,_ObjClass=#type{def=ClassDef},_},ObjFieldSetting) -> - #typedef{typespec=#'ObjectSet'{class = ClassDef, - set = ObjFieldSetting}}; -union_of_defed_objs({_,_,DefObjClassRef,_},ObjFieldSetting) - when is_record(DefObjClassRef,'Externaltypereference') -> - #typedef{typespec=#'ObjectSet'{class = DefObjClassRef, - set = ObjFieldSetting}}. - check_value(OldS,V) when is_record(V,pvaluesetdef) -> #pvaluesetdef{checked=Checked,type=Type} = V, @@ -2068,8 +1684,7 @@ check_value(OldS,V) when is_record(V,typedef) -> #typedef{typespec=TS} = V, case TS of #'ObjectSet'{class=ClassRef} -> - {RefM,TSDef} = get_referenced_type(OldS,ClassRef), - %%IsObjectSet(TSDef); + {_RefM,TSDef} = get_referenced_type(OldS, ClassRef), case TSDef of #classdef{} -> throw({objectsetdef}); #typedef{typespec=#type{def=Eref}} when @@ -2077,14 +1692,12 @@ check_value(OldS,V) when is_record(V,typedef) -> %% This case if the class reference is a defined %% reference to class check_value(OldS,V#typedef{typespec=TS#'ObjectSet'{class=Eref}}); - #typedef{} -> + #typedef{typespec=HostType} -> % an ordinary value set with a type in #typedef.typespec - ValueSet = TS#'ObjectSet'.set, - Type=check_type(OldS,TSDef,TSDef#typedef.typespec), - Value = check_value(OldS,#valuedef{type=Type, - value=ValueSet, - module=RefM}), - {valueset,Type#type{constraint=Value#valuedef.value}} + ValueSet0 = TS#'ObjectSet'.set, + Constr = check_constraints(OldS, HostType, [ValueSet0]), + Type = check_type(OldS,TSDef,TSDef#typedef.typespec), + {valueset,Type#type{constraint=Constr}} end; _ -> throw({objectsetdef}) @@ -2104,11 +1717,11 @@ check_value(S, #valuedef{}=V) -> end. check_valuedef(#state{recordtopname=TopName}=S0, V0) -> - #valuedef{name=Name,type=Vtype,value=Value,module=ModName} = V0, + #valuedef{name=Name,type=Vtype0,value=Value,module=ModName} = V0, V = V0#valuedef{checked=true}, + Vtype = check_type(S0, #typedef{name=Name,typespec=Vtype0},Vtype0), Def = Vtype#type.def, - Constr = Vtype#type.constraint, - S1 = S0#state{type=Vtype,tname=Def,value=V0,vname=Name}, + S1 = S0#state{tname=Def}, SVal = update_state(S1, ModName), case Def of #'Externaltypereference'{type=RecName}=Ext -> @@ -2116,9 +1729,8 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> %% If V isn't a value but an object Type is a #classdef{} S2 = update_state(S1, RefM), case Type of - #classdef{} -> - throw({objectdef}); - #typedef{typespec=TypeSpec} -> + #typedef{typespec=TypeSpec0}=TypeDef -> + TypeSpec = check_type(S2, TypeDef, TypeSpec0), S3 = case is_contextswitchtype(Type) of true -> S2; @@ -2135,7 +1747,7 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> V#valuedef{type=Type}), V#valuedef{value=CheckedVal} end; - 'ANY' -> + 'ASN1_OPEN_TYPE' -> {opentypefieldvalue,ANYType,ANYValue} = Value, CheckedV = check_value(SVal,#valuedef{name=Name, type=ANYType, @@ -2143,19 +1755,12 @@ check_valuedef(#state{recordtopname=TopName}=S0, V0) -> module=ModName}), V#valuedef{value=CheckedV#valuedef.value}; 'INTEGER' -> - ok = validate_integer(SVal, Value, [], Constr), V#valuedef{value=normalize_value(SVal, Vtype, Value, [])}; - {'INTEGER',NamedNumberList} -> - ok = validate_integer(SVal, Value, NamedNumberList, Constr), + {'INTEGER',_NamedNumberList} -> V#valuedef{value=normalize_value(SVal, Vtype, Value, [])}; #'SEQUENCE'{} -> - {ok,SeqVal} = convert_external(SVal, Value), + {ok,SeqVal} = convert_external(SVal, Vtype, Value), V#valuedef{value=normalize_value(SVal, Vtype, SeqVal, TopName)}; - {'SelectionType',SelName,SelT} -> - CheckedT = check_selectiontype(SVal, SelName, SelT), - NewV = V#valuedef{type=CheckedT}, - SelVDef = check_value(S1#state{value=NewV}, NewV), - V#valuedef{value=SelVDef#valuedef.value}; _ -> V#valuedef{value=normalize_value(SVal, Vtype, Value, TopName)} end. @@ -2169,179 +1774,97 @@ is_contextswitchtype(#typedef{name='CHARACTER STRING'}) -> is_contextswitchtype(_) -> false. -% validate_integer(S,{identifier,Pos,Id},NamedNumberList,Constr) -> -% case lists:keysearch(Id,1,NamedNumberList) of -% {value,_} -> ok; -% false -> error({value,"unknown NamedNumber",S}) -% end; -%% This case occurs when there is a valuereference -%% validate_integer(S=#state{mname=M}, -%% #'Externalvaluereference'{module=M,value=Id}=Ref, -validate_integer(S,#'Externalvaluereference'{value=Id}=Ref, - NamedNumberList,Constr) -> - case lists:keysearch(Id,1,NamedNumberList) of - {value,_} -> ok; - false -> validate_integer_ref(S,Ref,NamedNumberList,Constr) - %%error({value,"unknown NamedNumber",S}) - end; -validate_integer(S,Id,NamedNumberList,Constr) when is_atom(Id) -> - case lists:keysearch(Id,1,NamedNumberList) of - {value,_} -> ok; - false -> validate_integer_ref(S,Id,NamedNumberList,Constr) - %error({value,"unknown NamedNumber",S}) +%%% +%%% Start of OBJECT IDENTFIER/RELATIVE-OID validation. +%%% + +validate_objectidentifier(S, OidType, #'Externalvaluereference'{}=Id) -> + %% Must be an OBJECT IDENTIFIER or RELATIVE-OID depending on OidType. + get_oid_value(S, OidType, false, Id); +validate_objectidentifier(S, OidType, {'ValueFromObject',{object,Obj},Fields}) -> + %% Must be an OBJECT IDENTIFIER/RELATIVE-OID depending on OidType. + case extract_field(S, Obj, Fields) of + #valuedef{checked=true,value=Value,type=Type} when is_tuple(Value) -> + _ = get_oid_type(S, OidType, Type), + Value; + _ -> + asn1_error(S, {illegal_oid,OidType}) end; -validate_integer(_S,Value,_NamedNumberList,Constr) when is_integer(Value) -> - check_integer_range(Value,Constr). - -validate_integer_ref(S,Id,_,_) when is_atom(Id) -> - error({value,"unknown integer referens",S}); -validate_integer_ref(S,Ref,NamedNumberList,Constr) -> - case get_referenced_type(S,Ref) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - case check_value(NewS,V) of - #valuedef{type=#type{def='INTEGER'},value=Value} -> - validate_integer(NewS,Value,NamedNumberList,Constr); - _Err -> error({value,"unknown integer referens",S}) +validate_objectidentifier(S, OidType, + [{#seqtag{module=Mod,pos=Pos,val=Atom},Val}]) -> + %% This case is when an OBJECT IDENTIFIER value has been parsed as a + %% SEQUENCE value. + Rec = #'Externalvaluereference'{pos=Pos, + module=Mod, + value=Atom}, + validate_oid(S, OidType, [Rec,Val], []); +validate_objectidentifier(S, OidType, [_|_]=L0) -> + validate_oid(S, OidType, L0, []); +validate_objectidentifier(S, OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). + +get_oid_value(S, OidType, AllowInteger, #'Externalvaluereference'{}=Id) -> + case get_referenced_type(S, Id) of + {_,#valuedef{checked=Checked,type=Type,value=V}} -> + case get_oid_type(S, OidType, Type) of + 'INTEGER' when not AllowInteger -> + asn1_error(S, {illegal_oid,OidType}); + _ when Checked -> + V; + 'INTEGER' -> + V; + _ -> + validate_objectidentifier(S, OidType, V) end; _ -> - error({value,"unknown integer referens",S}) + asn1_error(S, {illegal_oid,OidType}) end. - - - -check_integer_range(_Int, Constr) when is_list(Constr) -> - ok. -%%------------ -%% This can be removed when the old parser is removed -%% The function removes 'space' atoms from the list - -is_space_list([H],Acc) -> - lists:reverse([H|Acc]); -is_space_list([H,space|T],Acc) -> - is_space_list(T,[H|Acc]); -is_space_list([],Acc) -> - lists:reverse(Acc); -is_space_list([H|T],Acc) -> - is_space_list(T,[H|Acc]). - -validate_objectidentifier(S,OID,ERef,C) - when is_record(ERef,'Externalvaluereference') -> - validate_objectidentifier(S,OID,[ERef],C); -validate_objectidentifier(S,OID,Tup,C) when is_tuple(Tup) -> - validate_objectidentifier(S,OID,tuple_to_list(Tup),C); -validate_objectidentifier(S,OID,L,_) -> - NewL = is_space_list(L,[]), - case validate_objectidentifier1(S,OID,NewL) of - NewL2 when is_list(NewL2) ->{ok,list_to_tuple(NewL2)}; - Other -> {ok,Other} - end. - -validate_objectidentifier1(S, OID, [Id|T]) - when is_record(Id,'Externalvaluereference') -> - case catch get_referenced_type(S,Id) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - case check_value(NewS,V) of - #valuedef{type=#type{def=ERef},checked=true, - value=Value} when is_tuple(Value) -> - case is_object_id(OID,NewS,ERef) of - true -> - %% T must be a RELATIVE-OID - validate_oid(true,NewS, rel_oid, T, lists:reverse(tuple_to_list(Value))); - _ -> - error({value, {"illegal "++to_string(OID),[Id|T]}, S}) - end; - _ -> - error({value, {"illegal "++to_string(OID),[Id|T]}, S}) - end; - _ -> - validate_oid(true,S, OID, [Id|T], []) - end; -validate_objectidentifier1(S,OID,V) -> - validate_oid(true,S,OID,V,[]). - -validate_oid(false, S, OID, V, Acc) -> - error({value, {"illegal "++to_string(OID), V,Acc}, S}); -validate_oid(_,_, _, [], Acc) -> - lists:reverse(Acc); -validate_oid(_, S, OID, [Value|Vrest], Acc) when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc),S, OID, Vrest, [Value|Acc]); -validate_oid(_, S, OID, [{'NamedNumber',_Name,Value}|Vrest], Acc) +validate_oid(S, OidType, [], Acc) -> + Oid = lists:reverse(Acc), + validate_oid_path(S, OidType, Oid), + list_to_tuple(Oid); +validate_oid(S, OidType, [Value|Vrest], Acc) when is_integer(Value) -> + validate_oid(S, OidType, Vrest, [Value|Acc]); +validate_oid(S, OidType, [{'NamedNumber',_Name,Value}|Vrest], Acc) when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc), S, OID, Vrest, [Value|Acc]); -validate_oid(_, S, OID, [Id|Vrest], Acc) - when is_record(Id,'Externalvaluereference') -> - case catch get_referenced_type(S, Id) of - {M,V} when is_record(V,valuedef) -> - NewS = update_state(S,M), - NewVal = case check_value(NewS, V) of - #valuedef{checked=true,value=Value} -> - fun(Int) when is_integer(Int) -> [Int]; - (L) when is_list(L) -> L; - (T) when is_tuple(T) -> tuple_to_list(T) - end (Value); - _ -> - error({value, {"illegal "++to_string(OID), - [Id|Vrest],Acc}, S}) - end, - case NewVal of - List when is_list(List) -> - validate_oid(valid_objectid(OID,NewVal,Acc), NewS, - OID, Vrest,lists:reverse(NewVal)++Acc); - _ -> - NewVal - end; - _ -> + validate_oid(S, OidType, Vrest, [Value|Acc]); +validate_oid(S, OidType, [#'Externalvaluereference'{}=Id|Vrest], Acc) -> + NeededOidType = case Acc of + [] -> o_id; + [_|_] -> rel_oid + end, + try get_oid_value(S, NeededOidType, true, Id) of + Val when is_integer(Val) -> + validate_oid(S, OidType, Vrest, [Val|Acc]); + Val when is_tuple(Val) -> + L = tuple_to_list(Val), + validate_oid(S, OidType, Vrest, lists:reverse(L, Acc)) + catch + _:_ -> case reserved_objectid(Id#'Externalvaluereference'.value, Acc) of Value when is_integer(Value) -> - validate_oid(valid_objectid(OID,Value,Acc), - S, OID,Vrest, [Value|Acc]); + validate_oid(S, OidType,Vrest, [Value|Acc]); false -> - error({value, {"illegal "++to_string(OID),[Id,Vrest],Acc}, S}) + asn1_error(S, {illegal_oid,OidType}) end end; -validate_oid(_, S, OID, [{#seqtag{module=Mod,val=Atom},Value}], []) - when is_atom(Atom),is_integer(Value) -> - %% this case when an OBJECT IDENTIFIER value has been parsed as a - %% SEQUENCE value - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_objectidentifier1(S, OID, [Rec,Value]); -validate_oid(_, S, OID, [{#seqtag{module=Mod,val=Atom},EVRef}], []) - when is_atom(Atom),is_record(EVRef,'Externalvaluereference') -> - %% this case when an OBJECT IDENTIFIER value has been parsed as a - %% SEQUENCE value OTP-4354 - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_objectidentifier1(S, OID, [Rec,EVRef]); -validate_oid(_, S, OID, [#seqtag{module=Mod,val=Atom}|Rest], Acc) - when is_atom(Atom) -> - Rec = #'Externalvaluereference'{module=Mod, - value=Atom}, - validate_oid(true,S, OID, [Rec|Rest],Acc); -validate_oid(_, S, OID, V, Acc) -> - error({value, {"illegal "++to_string(OID),V,Acc},S}). - -is_object_id(OID,S,ERef=#'Externaltypereference'{}) -> - {_,OI} = get_referenced_type(S,ERef), - is_object_id(OID,S,OI#typedef.typespec); -is_object_id(o_id,_S,'OBJECT IDENTIFIER') -> - true; -is_object_id(rel_oid,_S,'RELATIVE-OID') -> - true; -is_object_id(_,_S,'INTEGER') -> - true; -is_object_id(OID,S,#type{def=Def}) -> - is_object_id(OID,S,Def); -is_object_id(_,_S,_) -> - false. - -to_string(o_id) -> - "OBJECT IDENTIFIER"; -to_string(rel_oid) -> - "RELATIVE-OID". +validate_oid(S, OidType, _V, _Acc) -> + asn1_error(S, {illegal_oid,OidType}). + +get_oid_type(S, OidType, #type{def=Def}) -> + get_oid_type(S, OidType, Def); +get_oid_type(S, OidType, #'Externaltypereference'{}=Id) -> + {_,OI} = get_referenced_type(S, Id), + get_oid_type(S, OidType, OI#typedef.typespec); +get_oid_type(_S, o_id, 'OBJECT IDENTIFIER'=T) -> + T; +get_oid_type(_S, rel_oid, 'RELATIVE-OID'=T) -> + T; +get_oid_type(_S, _, 'INTEGER'=T) -> + T; +get_oid_type(S, OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). %% ITU-T Rec. X.680 Annex B - D reserved_objectid('itu-t',[]) -> 0; @@ -2380,7 +1903,6 @@ reserved_objectid('x',[0,0]) -> 24; reserved_objectid('y',[0,0]) -> 25; reserved_objectid('z',[0,0]) -> 26; - reserved_objectid(iso,[]) -> 1; %% arcs below "iso", note that number 1 is not used reserved_objectid('standard',[1]) -> 0; @@ -2392,25 +1914,22 @@ reserved_objectid('joint-iso-ccitt',[]) -> 2; reserved_objectid(_,_) -> false. -valid_objectid(_OID,[],_Acc) -> - true; -valid_objectid(OID,[H|T],Acc) -> - case valid_objectid(OID, H, Acc) of - true -> - valid_objectid(OID,T,[H|Acc]); - _ -> - false - end; -valid_objectid(o_id,I,[]) when I =:= 0; I =:= 1; I =:= 2 -> true; -valid_objectid(o_id,_I,[]) -> false; -valid_objectid(o_id,I,[0]) when I >= 0; I =< 4 -> true; -valid_objectid(o_id,_I,[0]) -> false; -valid_objectid(o_id,I,[1]) when I =:= 0; I =:= 2; I =:= 3 -> true; -valid_objectid(o_id,_I,[1]) -> false; -valid_objectid(o_id,_I,[2]) -> true; -valid_objectid(_,_,_) -> true. - -convert_external(S=#state{type=Vtype}, Value) -> +validate_oid_path(_, rel_oid, _) -> + ok; +validate_oid_path(_, o_id, [0,I|_]) when 0 =< I, I =< 9 -> + ok; +validate_oid_path(_, o_id, [1,I|_]) when 0 =< I, I =< 3 -> + ok; +validate_oid_path(_, o_id, [2|_]) -> + ok; +validate_oid_path(S, o_id=OidType, _) -> + asn1_error(S, {illegal_oid,OidType}). + +%%% +%%% End of OBJECT IDENTFIER/RELATIVE-OID validation. +%%% + +convert_external(S, Vtype, Value) -> case Vtype of #type{tag=[{tag,'UNIVERSAL',8,'IMPLICIT',32}]} -> %% this is an 'EXTERNAL' (or INSTANCE OF) @@ -2435,7 +1954,7 @@ to_EXTERNAL1990(S, [{#seqtag{val=identification}=T, to_EXTERNAL1990(S, Rest, [{T#seqtag{val='indirect-reference'},PCid}, {T#seqtag{val='direct-reference'},TrStx}]); to_EXTERNAL1990(S, _) -> - error({value,"illegal value in EXTERNAL type",S}). + asn1_error(S, illegal_external_value). to_EXTERNAL1990(S, [V={#seqtag{val='data-value-descriptor'},_}|Rest], Acc) -> to_EXTERNAL1990(S, Rest, [V|Acc]); @@ -2443,7 +1962,7 @@ to_EXTERNAL1990(_S, [{#seqtag{val='data-value'}=T,Val}], Acc) -> Encoding = {T#seqtag{val=encoding},{'CHOICE',{'octet-aligned',Val}}}, lists:reverse([Encoding|Acc]); to_EXTERNAL1990(S, _, _) -> - error({value,"illegal value in EXTERNAL type",S}). + asn1_error(S, illegal_external_value). %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Functions to normalize the default values of SEQUENCE @@ -2453,17 +1972,16 @@ normalize_value(_,_,mandatory,_) -> mandatory; normalize_value(_,_,'OPTIONAL',_) -> 'OPTIONAL'; -normalize_value(S0, Type, {'DEFAULT',Value}, NameList) -> - S = S0#state{value=Value}, +normalize_value(S, Type, {'DEFAULT',Value}, NameList) -> case catch get_canonic_type(S,Type,NameList) of {'BOOLEAN',CType,_} -> normalize_boolean(S,Value,CType); {'INTEGER',CType,_} -> - normalize_integer(S,Value,CType); + normalize_integer(S, Value, CType); {'BIT STRING',CType,_} -> normalize_bitstring(S,Value,CType); - {'OCTET STRING',CType,_} -> - normalize_octetstring(S0, Value, CType); + {'OCTET STRING',_,_} -> + normalize_octetstring(S, Value); {'NULL',_CType,_} -> %%normalize_null(Value); 'NULL'; @@ -2499,39 +2017,41 @@ normalize_value(S0, Type, {'DEFAULT',Value}, NameList) -> normalize_value(S,Type,Val,NameList) -> normalize_value(S,Type,{'DEFAULT',Val},NameList). -normalize_boolean(S,{Name,Bool},CType) when is_atom(Name) -> - normalize_boolean(S,Bool,CType); normalize_boolean(_,true,_) -> true; normalize_boolean(_,false,_) -> false; normalize_boolean(S,Bool=#'Externalvaluereference'{},CType) -> get_normalized_value(S,Bool,CType,fun normalize_boolean/3,[]); -normalize_boolean(_,Other,_) -> - throw({error,{asn1,{'invalid default value',Other}}}). +normalize_boolean(S, _, _) -> + asn1_error(S, {illegal_value, "BOOLEAN"}). -normalize_integer(_S,Int,_) when is_integer(Int) -> +normalize_integer(_S, Int, _) when is_integer(Int) -> Int; -normalize_integer(_S,{Name,Int},_) when is_atom(Name),is_integer(Int) -> - Int; -normalize_integer(S,{Name,Int=#'Externalvaluereference'{}}, - Type) when is_atom(Name) -> - normalize_integer(S,Int,Type); -normalize_integer(S,Int=#'Externalvaluereference'{value=Name},Type) -> - case Type of - NNL when is_list(NNL) -> - case lists:keysearch(Name,1,NNL) of - {value,{Name,Val}} -> +normalize_integer(S, #'Externalvaluereference'{value=Name}=Ref, NNL) -> + case lists:keyfind(Name, 1, NNL) of + {Name,Val} -> + Val; + false -> + try get_referenced_value(S, Ref) of + Val when is_integer(Val) -> Val; - false -> - get_normalized_value(S,Int,Type, - fun normalize_integer/3,[]) - end; + _ -> + asn1_error(S, illegal_integer_value) + catch + throw:_ -> + asn1_error(S, illegal_integer_value) + end + end; +normalize_integer(S, {'ValueFromObject',{object,Obj},FieldNames}, _) -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} when is_integer(Val) -> + Val; _ -> - get_normalized_value(S,Int,Type,fun normalize_integer/3,[]) + asn1_error(S, illegal_integer_value) end; -normalize_integer(_,Int,_) -> - exit({'Unknown INTEGER value',Int}). +normalize_integer(S, _, _) -> + asn1_error(S, illegal_integer_value). %% normalize_bitstring(S, Value, Type) -> bitstring() %% Convert a literal value for a BIT STRING to an Erlang bit string. @@ -2543,36 +2063,34 @@ normalize_bitstring(S, Value, Type)-> {bstring,String} when is_list(String) -> bstring_to_bitstring(String); #'Externalvaluereference'{} -> - get_normalized_value(S, Value, Type, - fun normalize_bitstring/3, []); - RecList when is_list(RecList) -> - F = fun(#'Externalvaluereference'{value=Name}) -> - case lists:keymember(Name, 1, Type) of - true -> Name; - false -> throw({error,false}) - end; - (Name) when is_atom(Name) -> - %% Already normalized. - Name; - (Other) -> - throw({error,Other}) - end, - try - lists:map(F, RecList) - catch - throw:{error,Reason} -> - asn1ct:warning("default value not " - "compatible with type definition ~p~n", - [Reason],S, - "default value not " - "compatible with type definition"), - Value + Val = get_referenced_value(S, Value), + normalize_bitstring(S, Val, Type); + {'ValueFromObject',{object,Obj},FieldNames} -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} -> + normalize_bitstring(S, Val, Type); + _ -> + asn1_error(S, {illegal_value, "BIT STRING"}) end; + RecList when is_list(RecList) -> + [normalize_bs_item(S, Item, Type) || Item <- RecList]; Bs when is_bitstring(Bs) -> %% Already normalized. - Bs + Bs; + _ -> + asn1_error(S, {illegal_value, "BIT STRING"}) end. +normalize_bs_item(S, #'Externalvaluereference'{value=Name}, Type) -> + case lists:keymember(Name, 1, Type) of + true -> Name; + false -> asn1_error(S, {illegal_value, "BIT STRING"}) + end; +normalize_bs_item(_, Atom, _) when is_atom(Atom) -> + Atom; +normalize_bs_item(S, _, _) -> + asn1_error(S, {illegal_value, "BIT STRING"}). + hstring_to_binary(L) -> byte_align(hstring_to_bitstring(L)). @@ -2600,29 +2118,35 @@ hex_to_int(D) when $A =< D, D =< $F -> D - ($A - 10). %% {bstring,String} each element in String corresponds to one bit in an octet %% {hstring,String} each element in String corresponds to one byte in an octet %% #'Externalvaluereference' -normalize_octetstring(S,Value,CType) -> +normalize_octetstring(S, Value) -> case Value of {bstring,String} -> bstring_to_binary(String); {hstring,String} -> hstring_to_binary(String); - Rec when is_record(Rec,'Externalvaluereference') -> - get_normalized_value(S,Value,CType, - fun normalize_octetstring/3,[]); - {Name,String} when is_atom(Name) -> - normalize_octetstring(S,String,CType); + #'Externalvaluereference'{} -> + case get_referenced_value(S, Value) of + String when is_binary(String) -> + String; + Other -> + normalize_octetstring(S, Other) + end; + {'ValueFromObject',{object,Obj},FieldNames} -> + case extract_field(S, Obj, FieldNames) of + #valuedef{value=Val} when is_binary(Val) -> + Val; + _ -> + asn1_error(S, illegal_octet_string_value) + end; _ -> - Item = S#state.value, - asn1_error(S, Item, illegal_octet_string_value) + asn1_error(S, illegal_octet_string_value) end. normalize_objectidentifier(S, Value) -> - {ok,Val} = validate_objectidentifier(S, o_id, Value, []), - Val. + validate_objectidentifier(S, o_id, Value). -normalize_relative_oid(S,Value) -> - {ok,Val} = validate_objectidentifier(S, rel_oid, Value, []), - Val. +normalize_relative_oid(S, Value) -> + validate_objectidentifier(S, rel_oid, Value). normalize_objectdescriptor(Value) -> Value. @@ -2644,40 +2168,22 @@ lookup_enum_value(S, Id, NNL) when is_atom(Id) -> {_,_}=Ret -> Ret; false -> - asn1_error(S, S#state.value, {undefined,Id}) + asn1_error(S, {undefined,Id}) end. -normalize_choice(S,{'CHOICE',{C,V}},CType,NameList) when is_atom(C) -> - case catch lists:keysearch(C,#'ComponentType'.name,CType) of - {value,#'ComponentType'{typespec=CT,name=Name}} -> - {C,normalize_value(S,CT,{'DEFAULT',V}, - [Name|NameList])}; - Other -> - asn1ct:warning("Wrong format of type/value ~p/~p~n",[Other,V],S, - "Wrong format of type/value"), - {C,V} +normalize_choice(S, {'CHOICE',{C,V}}, CType, NameList) + when is_atom(C) -> + case lists:keyfind(C, #'ComponentType'.name, CType) of + #'ComponentType'{typespec=CT,name=Name} -> + {C,normalize_value(S, CT, {'DEFAULT',V}, [Name|NameList])}; + false -> + asn1_error(S, {illegal_id,C}) end; -normalize_choice(S,{'DEFAULT',ValueList},CType,NameList) when is_list(ValueList) -> - lists:map(fun(X)-> normalize_choice(S,X,CType,NameList) end, ValueList); -normalize_choice(S,Val=#'Externalvaluereference'{},CType,NameList) -> - {M,#valuedef{value=V}}=get_referenced_type(S,Val), - normalize_choice(update_state(S,M),{'CHOICE',V},CType,NameList); -% get_normalized_value(S,Val,CType,fun normalize_choice/4,[NameList]); -normalize_choice(S,CV={Name,_ChoiceVal},CType,NameList) +normalize_choice(S,CV={Name,_ChoiceVal},CType,NameList) when is_atom(Name) -> -% normalize_choice(S,ChoiceVal,CType,NameList). normalize_choice(S,{'CHOICE',CV},CType,NameList); -normalize_choice(_S,V,_CType,_NameList) -> - exit({error,{bad_choice_value,V}}). - -%% normalize_choice(NameList,S,CVal = {'CHOICE',{_,_}},CType,_) -> -%% normalize_choice(S,CVal,CType,NameList); -%% normalize_choice(NameList,S,CVal={'DEFAULT',VL},CType,_) when is_list(VL)-> -%% normalize_choice(S,CVal,CType,NameList); -%% normalize_choice(NameList,S,CV={Name,_CV},CType,_) when is_atom(Name)-> -%% normalize_choice(S,{'CHOICE',CV},CType,NameList); -%% normalize_choice(_,_S,V,_,_) -> -%% V. +normalize_choice(S, V, _CType, _NameList) -> + asn1_error(S, {illegal_id, error_value(V)}). normalize_sequence(S,Value,Components,NameList) when is_tuple(Components) -> @@ -2732,12 +2238,9 @@ normalized_record(SorS,S,Value,Components,NameList) -> Value; _ -> NoComps = length(Components), - case normalize_seq_or_set(SorS,S,Value,Components,NameList,[]) of - ListOfVals when length(ListOfVals) == NoComps -> - list_to_tuple([NewName|ListOfVals]); - _ -> - error({type,{illegal,default,value,Value},S}) - end + ListOfVals = normalize_seq_or_set(SorS,S,Value,Components,NameList,[]), + NoComps = length(ListOfVals), %% Assert + list_to_tuple([NewName|ListOfVals]) end. is_record_normalized(S,Name,V = #'Externalvaluereference'{},NumComps) -> case get_referenced_type(S,V) of @@ -2750,10 +2253,11 @@ is_record_normalized(_S,Name,Value,NumComps) when is_tuple(Value) -> is_record_normalized(_,_,_,_) -> false. -normalize_seq_or_set(SorS, S, [{#seqtag{val=Cname},V}|Vs], +normalize_seq_or_set(SorS, S, + [{#seqtag{val=Cname},V}|Vs], [#'ComponentType'{name=Cname,typespec=TS}|Cs], NameList, Acc) -> - NewNameList = + NewNameList = case TS#type.def of #'Externaltypereference'{type=TName} -> [TName]; @@ -2761,24 +2265,26 @@ normalize_seq_or_set(SorS, S, [{#seqtag{val=Cname},V}|Vs], end, NVal = normalize_value(S,TS,{'DEFAULT',V},NewNameList), normalize_seq_or_set(SorS,S,Vs,Cs,NameList,[NVal|Acc]); -normalize_seq_or_set(SorS,S,Values=[{_Cname1,_V}|_Vs], +normalize_seq_or_set(SorS, S, + Values=[{#seqtag{val=Cname0},_V}|_Vs], [#'ComponentType'{prop='OPTIONAL'}|Cs], - NameList,Acc) -> + NameList, Acc) -> + verify_valid_component(S, Cname0, Cs), normalize_seq_or_set(SorS,S,Values,Cs,NameList,[asn1_NOVALUE|Acc]); -normalize_seq_or_set(SorS,S,Values=[{_Cname1,_V}|_Vs], - [#'ComponentType'{name=Cname2,typespec=TS, - prop={'DEFAULT',Value}}|Cs], - NameList,Acc) -> - NewNameList = +normalize_seq_or_set(SorS, S, + Values=[{#seqtag{val=Cname0},_V}|_Vs], + [#'ComponentType'{name=Cname,typespec=TS, + prop={'DEFAULT',Value}}|Cs], + NameList, Acc) -> + verify_valid_component(S, Cname0, Cs), + NewNameList = case TS#type.def of #'Externaltypereference'{type=TName} -> [TName]; - _ -> [Cname2|NameList] + _ -> [Cname|NameList] end, NVal = normalize_value(S,TS,{'DEFAULT',Value},NewNameList), normalize_seq_or_set(SorS,S,Values,Cs,NameList,[NVal|Acc]); -normalize_seq_or_set(_SorS,_S,[],[],_,Acc) -> - lists:reverse(Acc); %% If default value is {} ComponentTypes in SEQUENCE are marked DEFAULT %% or OPTIONAL (or the type is defined SEQUENCE{}, which is handled by %% the previous case). @@ -2801,9 +2307,23 @@ normalize_seq_or_set(SorS,S,Value=#'Externalvaluereference'{}, Cs,NameList,Acc) -> get_normalized_value(S,Value,Cs,fun normalize_seq_or_set/6, [SorS,NameList,Acc]); -normalize_seq_or_set(_SorS,S,V,_,_,_) -> - error({type,{illegal,default,value,V},S}). - +normalize_seq_or_set(_SorS, _S, [], [], _, Acc) -> + lists:reverse(Acc); +normalize_seq_or_set(_SorS, S, V, Cs, _, _) -> + case V of + [{#seqtag{val=Name},_}|_] -> + asn1_error(S, {illegal_id,error_value(Name)}); + [] -> + [#'ComponentType'{name=Name}|_] = Cs, + asn1_error(S, {missing_id,error_value(Name)}) + end. + +verify_valid_component(S, Name, Cs) -> + case lists:keyfind(Name, #'ComponentType'.name, Cs) of + false -> asn1_error(S, {illegal_id,error_value(Name)}); + #'ComponentType'{} -> ok + end. + normalize_seqof(S,Value,Type,NameList) -> normalize_s_of('SEQUENCE OF',S,Value,Type,NameList). @@ -2859,10 +2379,7 @@ normalize_restrictedstring(_S,CString,_) when is_list(CString) -> %% definedvalue case or argument in a parameterized type normalize_restrictedstring(S,ERef,CType) when is_record(ERef,'Externalvaluereference') -> get_normalized_value(S,ERef,CType, - fun normalize_restrictedstring/3,[]); -%% -normalize_restrictedstring(S,{Name,Val},CType) when is_atom(Name) -> - normalize_restrictedstring(S,Val,CType). + fun normalize_restrictedstring/3,[]). normalize_objectclassfieldvalue(S,{opentypefieldvalue,Type,Value},NameList) -> %% An open type has per definition no type. Thus should the type @@ -2910,6 +2427,8 @@ call_Func(S,Val,Type,Func,ArgList) -> get_canonic_type(S,Type,NameList) -> {InnerType,NewType,NewNameList} = case Type#type.def of + 'INTEGER'=Name -> + {Name,[],NameList}; Name when is_atom(Name) -> {Name,Type,NameList}; Ref when is_record(Ref,'Externaltypereference') -> @@ -2964,8 +2483,8 @@ check_formal_parameter(_, {_,_}) -> ok; check_formal_parameter(_, #'Externaltypereference'{}) -> ok; -check_formal_parameter(S, #'Externalvaluereference'{value=Name}=Ref) -> - asn1_error(S, Ref, {illegal_typereference,Name}). +check_formal_parameter(S, #'Externalvaluereference'{value=Name}) -> + asn1_error(S, {illegal_typereference,Name}). % check_type(S,Type,ObjSpec={{objectclassname,_},_}) -> % check_class(S,ObjSpec); @@ -2977,7 +2496,7 @@ check_type(_S,Type,Ts) when is_record(Type,typedef), Ts; check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> {Def,Tag,Constr,IsInlined} = - case match_parameters(S,Ts#type.def,S#state.parameters) of + case match_parameter(S, Ts#type.def) of #type{tag=PTag,constraint=_Ctmp,def=Dtmp,inlined=Inl} -> {Dtmp,merge_tags(Ts#type.tag,PTag),Ts#type.constraint,Inl}; #typedef{typespec=#type{tag=PTag,def=Dtmp,inlined=Inl}} -> @@ -2989,16 +2508,16 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> inlined=IsInlined}, TestFun = fun(Tref) -> - MaybeChoice = get_non_typedef(S, Tref), + {_, MaybeChoice} = get_referenced_type(S, Tref, true), case catch((MaybeChoice#typedef.typespec)#type.def) of {'CHOICE',_} -> - maybe_illicit_implicit_tag(choice,Tag); + maybe_illicit_implicit_tag(S, choice, Tag); 'ANY' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); 'ANY DEFINED BY' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); 'ASN1_OPEN_TYPE' -> - maybe_illicit_implicit_tag(open_type,Tag); + maybe_illicit_implicit_tag(S, open_type, Tag); _ -> Tag end @@ -3007,7 +2526,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> case Def of Ext when is_record(Ext,'Externaltypereference') -> {RefMod,RefTypeDef,IsParamDef} = - case get_referenced_type(S,Ext) of + case get_referenced_type(S, Ext) of {undefined,TmpTDef} -> %% A parameter {get(top_module),TmpTDef,true}; {TmpRefMod,TmpRefDef} -> @@ -3031,7 +2550,6 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> NewS = S#state{mname=RefMod, module=load_asn1_module(S,RefMod), tname=get_datastr_name(NewRefTypeDef1), - type=NewRefTypeDef1, abscomppath=[],recordtopname=[]}, RefType1 = check_type(NewS,RefTypeDef,RefTypeDef#typedef.typespec), @@ -3051,18 +2569,17 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> Key); _ -> ok end, + Pos = Ext#'Externaltypereference'.pos, {RefType1,#'Externaltypereference'{module=RefMod, + pos=Pos, type=TmpName}} end, case asn1ct_gen:prim_bif(asn1ct_gen:get_inner(RefType#type.def)) of true -> %% Here we expand to a built in type and inline it - NewS2 = S#state{type=#typedef{typespec=RefType}}, - NewC = - constraint_merge(NewS2, - check_constraints(NewS2,Constr)++ - RefType#type.constraint), + NewC = check_constraints(S, RefType, Constr ++ + RefType#type.constraint), TempNewDef#newt{ type = RefType#type.def, tag = merge_tags(Ct,RefType#type.tag), @@ -3073,19 +2590,13 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> NewExt = ExtRef#'Externaltypereference'{module=merged_mod(S,RefMod,Ext)}, TempNewDef#newt{ type = check_externaltypereference(S,NewExt), - tag = case S#state.erule of - ber -> - merge_tags(Ct,RefType#type.tag); - _ -> - Ct - end - } + tag = merge_tags(Ct,RefType#type.tag)} end; 'ANY' -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), + Ct = maybe_illicit_implicit_tag(S, open_type, Tag), TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; {'ANY_DEFINED_BY',_} -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), + Ct = maybe_illicit_implicit_tag(S, open_type, Tag), TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; 'INTEGER' -> TempNewDef#newt{tag= @@ -3132,7 +2643,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> {'ENUMERATED',NamedNumberList} -> TempNewDef#newt{type= {'ENUMERATED', - check_enumerated(S,NamedNumberList,Constr)}, + check_enumerated(S, NamedNumberList)}, tag= merge_tags(Tag,?TAG_PRIMITIVE(?N_ENUMERATED)), constraint=[]}; @@ -3235,7 +2746,7 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> tag= merge_tags(Tag,?TAG_CONSTRUCTED(?N_SEQUENCE))}; {'CHOICE',Components} -> - Ct = maybe_illicit_implicit_tag(choice,Tag), + Ct = maybe_illicit_implicit_tag(S, choice, Tag), TempNewDef#newt{type={'CHOICE',check_choice(S,Type,Components)},tag=Ct}; Set when is_record(Set,'SET') -> RecordName= @@ -3258,12 +2769,6 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> TempNewDef#newt{type={'SET OF',check_setof(S,Type,Components)}, tag= merge_tags(Tag,?TAG_CONSTRUCTED(?N_SET))}; - %% This is a temporary hack until the full Information Obj Spec - %% in X.681 is supported - {#'Externaltypereference'{type='TYPE-IDENTIFIER'}, - [{typefieldreference,_,'Type'}]} -> - Ct=maybe_illicit_implicit_tag(open_type,Tag), - TempNewDef#newt{type='ASN1_OPEN_TYPE',tag=Ct}; {pt,Ptype,ParaList} -> %% Ptype might be a parameterized - type, object set or @@ -3271,18 +2776,18 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> %% calling function. {_RefMod,Ptypedef} = get_referenced_type(S,Ptype), notify_if_not_ptype(S,Ptypedef), - NewParaList = - [match_parameters(S,TmpParam,S#state.parameters)|| - TmpParam <- ParaList], + NewParaList = match_parameters(S, ParaList), Instance = instantiate_ptype(S,Ptypedef,NewParaList), TempNewDef#newt{type=Instance#type.def, tag=merge_tags(Tag,Instance#type.tag), constraint=Instance#type.constraint, inlined=yes}; - OCFT=#'ObjectClassFieldType'{classname=ClRef} -> + #'ObjectClassFieldType'{classname=ClRef0}=OCFT0 -> %% this case occures in a SEQUENCE when %% the type of the component is a ObjectClassFieldType + ClRef = match_parameter(S, ClRef0), + OCFT = OCFT0#'ObjectClassFieldType'{classname=ClRef}, ClassSpec = check_class(S,ClRef), NewTypeDef = maybe_open_type(S,ClassSpec, @@ -3292,16 +2797,18 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> Ct = case is_open_type(NewTypeDef) of true -> - maybe_illicit_implicit_tag(open_type,MergedTag); + maybe_illicit_implicit_tag(S, open_type, MergedTag); _ -> MergedTag end, case TopName of [] when Type#typedef.name =/= undefined -> %% This is a top-level type. - #type{def=Simplified} = - simplify_type(#type{def=NewTypeDef}), - TempNewDef#newt{type=Simplified,tag=Ct}; + #type{constraint=C,def=Simplified} = + simplify_type(#type{def=NewTypeDef, + constraint=Constr}), + TempNewDef#newt{type=Simplified,tag=Ct, + constraint=C}; _ -> TempNewDef#newt{type=NewTypeDef,tag=Ct} end; @@ -3311,33 +2818,21 @@ check_type(S=#state{recordtopname=TopName},Type,Ts) when is_record(Ts,type) -> TempNewDef#newt{tag=merge_tags(Tag,CheckedT#type.tag), type=CheckedT#type.def}; - {valueset,Vtype} -> - TempNewDef#newt{type={valueset,check_type(S,Type,Vtype)}}; {'SelectionType',Name,T} -> CheckedT = check_selectiontype(S,Name,T), TempNewDef#newt{tag=merge_tags(Tag,CheckedT#type.tag), type=CheckedT#type.def}; - Other -> - exit({'cant check' ,Other}) + 'ASN1_OPEN_TYPE' -> + TempNewDef end, #newt{type=TDef,tag=NewTags,constraint=NewConstr,inlined=Inlined} = NewDef, Ts#type{def=TDef, inlined=Inlined, - constraint=check_constraints(S, NewConstr), + constraint=check_constraints(S, #type{def=TDef}, NewConstr), tag=lists:map(fun(#tag{type={default,TTx}}=TempTag) -> TempTag#tag{type=TTx}; (Other) -> Other - end, NewTags)}; -check_type(_S,Type,Ts) -> - exit({error,{asn1,internal_error,Type,Ts}}). - -get_non_typedef(S, Tref0) -> - case get_referenced_type(S, Tref0) of - {_,#typedef{typespec=#type{def=#'Externaltypereference'{}=Tref}}} -> - get_non_typedef(S, Tref); - {_,Type} -> - Type - end. + end, NewTags)}. %% @@ -3353,10 +2848,11 @@ simplify_comp(#'ComponentType'{typespec=Type0}=C) -> C#'ComponentType'{typespec=Type}; simplify_comp(Other) -> Other. -simplify_type(#type{tag=Tag,def=Inner}=T) -> +simplify_type(#type{tag=Tag,def=Inner,constraint=Constr0}=T) -> case Inner of - #'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}} -> - Type#type{tag=Tag}; + #'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}}=OCFT -> + Constr = [{ocft,OCFT}|Type#type.constraint++Constr0], + Type#type{tag=Tag,constraint=Constr}; _ -> T end. @@ -3389,29 +2885,22 @@ get_innertag(_S,#'ObjectClassFieldType'{type=Type}) -> _ -> [] end. -get_type_from_object(S,Object,TypeField) - when is_record(Object,'Externaltypereference'); - is_record(Object,'Externalvaluereference') -> - {_,ObjectDef} = get_referenced_type(S,Object), - ObjSpec = check_object(S,ObjectDef,ObjectDef#typedef.typespec), - get_fieldname_element(S,ObjectDef#typedef{typespec=ObjSpec},TypeField). - %% get_class_def(S, Type) -> #classdef{} | 'none'. get_class_def(S, #typedef{typespec=#type{def=#'Externaltypereference'{}=Eref}}) -> - {_,NextDef} = get_referenced_type(S, Eref), + {_,NextDef} = get_referenced_type(S, Eref, true), get_class_def(S, NextDef); get_class_def(S, #'Externaltypereference'{}=Eref) -> - {_,NextDef} = get_referenced_type(S, Eref), + {_,NextDef} = get_referenced_type(S, Eref, true), get_class_def(S, NextDef); get_class_def(_S, #classdef{}=CD) -> CD; get_class_def(_S, _) -> none. -maybe_illicit_implicit_tag(Kind,Tag) -> +maybe_illicit_implicit_tag(S, Kind, Tag) -> case Tag of [#tag{type='IMPLICIT'}|_T] -> - throw({error,{asn1,{implicit_tag_before,Kind}}}); + asn1_error(S, {implicit_tag_before,Kind}); [ChTag = #tag{type={default,_}}|T] -> case Kind of open_type -> @@ -3438,19 +2927,24 @@ merged_mod(S,RefMod,Ext) -> %% any UNIQUE field, so that a component relation constraint cannot specify %% the type of a typefield, return 'ASN1_OPEN_TYPE'. %% -maybe_open_type(S,ClassSpec=#objectclass{fields=Fs}, - OCFT=#'ObjectClassFieldType'{fieldname=FieldRefList}, +maybe_open_type(_, _, #'ObjectClassFieldType'{fieldname={_,_}}=OCFT, _) -> + %% Already converted. + OCFT; +maybe_open_type(S, #objectclass{fields=Fs}=ClassSpec, + #'ObjectClassFieldType'{fieldname=FieldRefList}=OCFT, Constr) -> - Type = get_ObjectClassFieldType(S,Fs,FieldRefList), - FieldNames=get_referenced_fieldname(FieldRefList), - case last_fieldname(FieldRefList) of + Type = get_OCFType(S, Fs, FieldRefList), + FieldNames = get_referenced_fieldname(FieldRefList), + case lists:last(FieldRefList) of {valuefieldreference,_} -> OCFT#'ObjectClassFieldType'{fieldname=FieldNames, type=Type}; {typefieldreference,_} -> - case {catch get_unique_fieldname(S,#classdef{typespec=ClassSpec}), - asn1ct_gen:get_constraint(Constr,componentrelation)}of - {Tuple,_} when tuple_size(Tuple) =:= 3 -> + %% Note: The constraints have not been checked yet, + %% so we must use a special lookup routine. + case {get_unique_fieldname(S, #classdef{typespec=ClassSpec}), + get_componentrelation(Constr)} of + {no_unique,_} -> OCFT#'ObjectClassFieldType'{fieldname=FieldNames, type='ASN1_OPEN_TYPE'}; {_,no} -> @@ -3462,16 +2956,12 @@ maybe_open_type(S,ClassSpec=#objectclass{fields=Fs}, end end. -last_fieldname(FieldRefList) when is_list(FieldRefList) -> - lists:last(FieldRefList); -last_fieldname({FieldName,_}) when is_atom(FieldName) -> - [A|_] = atom_to_list(FieldName), - case is_lowercase(A) of - true -> - {valuefieldreference,FieldName}; - _ -> - {typefieldreference,FieldName} - end. +get_componentrelation([{element_set,{componentrelation,_,_}=Cr,none}|_]) -> + Cr; +get_componentrelation([_|T]) -> + get_componentrelation(T); +get_componentrelation([]) -> + no. is_open_type(#'ObjectClassFieldType'{type='ASN1_OPEN_TYPE'}) -> true; @@ -3510,35 +3000,19 @@ notify_if_not_ptype(S,#pobjectsetdef{class=Cl}) -> _ -> throw(pobjectsetdef) end; -notify_if_not_ptype(_S,PT) -> - throw({error,{"supposed to be a parameterized type",PT}}). -% fix me +notify_if_not_ptype(S, PT) -> + asn1_error(S, {param_bad_type, error_value(PT)}). + instantiate_ptype(S,Ptypedef,ParaList) -> #ptypedef{args=Args,typespec=Type} = Ptypedef, NewType = check_ptype(S,Ptypedef,Type#type{inlined=yes}), MatchedArgs = match_args(S,Args, ParaList, []), OldArgs = S#state.parameters, - NewS = S#state{type=NewType,parameters=MatchedArgs++OldArgs,abscomppath=[]}, -%% NewS = S#state{type=NewType,parameters=MatchedArgs,abscomppath=[]}, + NewS = S#state{parameters=MatchedArgs++OldArgs,abscomppath=[]}, check_type(NewS, Ptypedef#ptypedef{typespec=NewType}, NewType). -get_datastr_name(#typedef{name=N}) -> - N; -get_datastr_name(#classdef{name=N}) -> - N; -get_datastr_name(#valuedef{name=N}) -> - N; -get_datastr_name(#ptypedef{name=N}) -> - N; -get_datastr_name(#pvaluedef{name=N}) -> - N; -get_datastr_name(#pvaluesetdef{name=N}) -> - N; -get_datastr_name(#pobjectdef{name=N}) -> - N; -get_datastr_name(#pobjectsetdef{name=N}) -> - N. - +get_datastr_name(Type) -> + asn1ct:get_name_of_def(Type). get_pt_args(#ptypedef{args=Args}) -> Args; @@ -3606,8 +3080,8 @@ match_args(S,FA = [FormArg|Ft], AA = [ActArg|At], Acc) -> end; match_args(_S,[], [], Acc) -> lists:reverse(Acc); -match_args(_,_, _, _) -> - throw({error,{asn1,{wrong_number_of_arguments}}}). +match_args(S, _, _, _) -> + asn1_error(S, param_wrong_number_of_arguments). %%%%%%%%%%%%%%%%% %% categorize_arg(S,FormalArg,ActualArg) -> {FormalArg,CatgorizedActualArg} @@ -3652,11 +3126,6 @@ parameter_name_style(#'Externaltypereference'{}) -> parameter_name_style(#'Externalvaluereference'{}) -> beginning_lowercase. -is_lowercase(X) when X >= $A,X =< $W -> - false; -is_lowercase(_) -> - true. - %% categorize(Parameter) -> CategorizedParameter %% If Parameter has an abstract syntax of another category than %% Category, transform it to a known syntax. @@ -3705,725 +3174,503 @@ parse_objectset(Set) -> Set. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -%% check_constraints/2 -%% -check_constraints(S,C) when is_list(C) -> - check_constraints(S, C, []). - -resolv_tuple_or_list(S,List) when is_list(List) -> - lists:map(fun(X)->resolv_value(S,X) end, List); -resolv_tuple_or_list(S,{Lb,Ub}) -> - {resolv_value(S,Lb),resolv_value(S,Ub)}. - -%%%----------------------------------------- -%% If the constraint value is a defined value the valuename -%% is replaced by the actual value %% -resolv_value(S,Val) -> - Id = match_parameters(S,Val, S#state.parameters), - resolv_value1(S,Id). +%% Check and simplify constraints. +%% +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -resolv_value1(S, ERef = #'Externalvaluereference'{value=Name}) -> - case catch resolve_namednumber(S, S#state.type, Name) of - V when is_integer(V) -> - V; - _ -> - case get_referenced_type(S,ERef) of - {Err,_Reason} when Err == error; Err == 'EXIT' -> - throw({error,{asn1,{undefined_type_or_value, - Name}}}); - {_M,VDef} -> - resolv_value1(S,VDef) - end - end; -resolv_value1(S, {gt,V}) -> - case resolv_value1(S, V) of - Int when is_integer(Int) -> - Int + 1; - Other -> - throw({error,{asn1,{not_integer_value,Other}}}) - end; -resolv_value1(S, {lt,V}) -> - case resolv_value1(S, V) of - Int when is_integer(Int) -> - Int - 1; - Other -> - throw({error,{asn1,{not_integer_value,Other}}}) - end; -resolv_value1(S,{'ValueFromObject',{object,Object},[{valuefieldreference, - FieldName}]}) -> - %% FieldName can hold either a fixed-type value or a variable-type value - %% Object is a DefinedObject, i.e. a #'Externaltypereference' - resolve_value_from_object(S,Object,FieldName); -resolv_value1(_,#valuedef{checked=true,value=V}) -> - V; -resolv_value1(S,#valuedef{type=_T, - value={'ValueFromObject',{object,Object}, - [{valuefieldreference, - FieldName}]}}) -> - resolve_value_from_object(S,Object,FieldName); -resolv_value1(S,VDef = #valuedef{}) -> - #valuedef{value=Val} = check_value(S,VDef), - Val; -resolv_value1(_,V) -> - V. -resolve_value_from_object(S,Object,FieldName) -> - {_,ObjTDef} = get_referenced_type(S,Object), - TS = check_object(S,ObjTDef,ObjTDef#typedef.typespec), - {_,_,Components} = TS#'Object'.def, - case lists:keysearch(FieldName,1,Components) of - {value,{_,#valuedef{value=Val}}} -> - Val; - _ -> - error({value,"illegal value in constraint",S}) +check_constraints(_S, _HostType, []) -> + []; +check_constraints(S, HostType0, [_|_]=Cs0) -> + HostType = get_real_host_type(HostType0, Cs0), + Cs1 = top_level_intersections(Cs0), + Cs2 = [coalesce_constraints(C) || C <- Cs1], + {_,Cs3} = filter_extensions(Cs2), + Cs = simplify_element_sets(S, HostType, Cs3), + finish_constraints(Cs). + +get_real_host_type(HostType, Cs) -> + case lists:keyfind(ocft, 1, Cs) of + false -> HostType; + {_,OCFT} -> HostType#type{def=OCFT} end. +top_level_intersections([{element_set,{intersection,_,_}=C,none}]) -> + top_level_intersections_1(C); +top_level_intersections(Cs) -> + Cs. + +top_level_intersections_1({intersection,A,B}) -> + [{element_set,A,none}|top_level_intersections_1(B)]; +top_level_intersections_1(Other) -> + [{element_set,Other,none}]. + +coalesce_constraints({element_set, + {Tag,{element_set,A,_}}, + {Tag,{element_set,B,_}}}) -> + %% (SIZE (C1), ..., (SIZE (C2)) => (SIZE (C1, ..., C2)) + {element_set,{Tag,{element_set,A,B}},none}; +coalesce_constraints(Other) -> + Other. + +%% Remove all outermost extensions except the last. + +filter_extensions([H0|T0]) -> + case filter_extensions(T0) of + {true,T} -> + H = remove_extension(H0), + {true,[H|T]}; + {false,T} -> + {any_extension(H0),[H0|T]} + end; +filter_extensions([]) -> + {false,[]}. -resolve_namednumber(S,#typedef{typespec=Type},Name) -> - case Type#type.def of - {'ENUMERATED',NameList} -> - resolve_namednumber_1(S, Name, NameList, Type); - {'INTEGER',NameList} -> - resolve_namednumber_1(S, Name, NameList, Type); +remove_extension({element_set,Root,_}) -> + {element_set,remove_extension(Root),none}; +remove_extension(Tuple) when is_tuple(Tuple) -> + L = [remove_extension(El) || El <- tuple_to_list(Tuple)], + list_to_tuple(L); +remove_extension(Other) -> Other. + +any_extension({element_set,_,Ext}) when Ext =/= none -> + true; +any_extension(Tuple) when is_tuple(Tuple) -> + any_extension_tuple(1, Tuple); +any_extension(_) -> false. + +any_extension_tuple(I, T) when I =< tuple_size(T) -> + any_extension(element(I, T)) orelse any_extension_tuple(I+1, T); +any_extension_tuple(_, _) -> false. + +simplify_element_sets(S, HostType, [{element_set,R0,E0}|T0]) -> + R1 = simplify_element_set(S, HostType, R0), + E1 = simplify_element_set(S, HostType, E0), + case simplify_element_sets(S, HostType, T0) of + [{element_set,R2,E2}] -> + [{element_set,cs_intersection(S, R1, R2), + cs_intersection(S, E1, E2)}]; + L when is_list(L) -> + [{element_set,R1,E1}|L] + end; +simplify_element_sets(S, HostType, [H|T]) -> + [H|simplify_element_sets(S, HostType, T)]; +simplify_element_sets(_, _, []) -> + []. + +simplify_element_set(_S, _HostType, empty) -> + {set,[]}; +simplify_element_set(S, HostType, {'SingleValue',Vs0}) when is_list(Vs0) -> + Vs1 = [resolve_value(S, HostType, V) || V <- Vs0], + Vs = make_constr_set_vs(Vs1), + simplify_element_set(S, HostType, Vs); +simplify_element_set(S, HostType, {'SingleValue',V0}) -> + V1 = resolve_value(S, HostType, V0), + V = {set,[{range,V1,V1}]}, + simplify_element_set(S, HostType, V); +simplify_element_set(S, HostType, {'ValueRange',{Lb0,Ub0}}) -> + Lb = resolve_value(S, HostType, Lb0), + Ub = resolve_value(S, HostType, Ub0), + V = make_constr_set(S, Lb, Ub), + simplify_element_set(S, HostType, V); +simplify_element_set(S, HostType, {'ALL-EXCEPT',Set0}) -> + Set = simplify_element_set(S, HostType, Set0), + {'ALL-EXCEPT',Set}; +simplify_element_set(S, HostType, {intersection,A0,B0}) -> + A = simplify_element_set(S, HostType, A0), + B = simplify_element_set(S, HostType, B0), + cs_intersection(S, A, B); +simplify_element_set(S, HostType, {union,A0,B0}) -> + A = simplify_element_set(S, HostType, A0), + B = simplify_element_set(S, HostType, B0), + cs_union(S, A, B); +simplify_element_set(S, HostType, {simpletable,{element_set,Type,_}}) -> + check_simpletable(S, HostType, Type); +simplify_element_set(S, _, {componentrelation,R,Id}) -> + check_componentrelation(S, R, Id); +simplify_element_set(S, HostType, {Tag,{element_set,_,_}=El0}) -> + [El1] = simplify_element_sets(S, HostType, [El0]), + {Tag,El1}; +simplify_element_set(S, HostType, #type{}=Type) -> + simplify_element_set_type(S, HostType, Type); +simplify_element_set(_, _, C) -> + C. + +simplify_element_set_type(S, HostType, #type{def=Def0}=Type0) -> + #'Externaltypereference'{} = Def0, %Assertion. + case get_referenced_type(S, Def0) of + {_,#valuedef{checked=false,value={valueset,Vs0}}} -> + [Vs1] = simplify_element_sets(S, HostType, [Vs0]), + case Vs1 of + {element_set,Set,none} -> + Set; + {element_set,Set,{set,[]}} -> + Set + end; + {_,{valueset,#type{def=#'Externaltypereference'{}}=Type}} -> + simplify_element_set_type(S, HostType, Type); _ -> - not_enumerated + case HostType of + #type{def=#'ObjectClassFieldType'{}} -> + %% Open type. + #type{def=Def} = check_type(S, HostType, Type0), + Def; + _ -> + #type{constraint=Cs} = check_type(S, HostType, Type0), + C = convert_back(Cs), + simplify_element_set(S, HostType, C) + end end. -resolve_namednumber_1(S, Name, NameList, Type) -> - NamedNumberList = check_enumerated(S, NameList, Type#type.constraint), - {_,N} = lookup_enum_value(S, Name, NamedNumberList), - N. - -check_constraints(S,[{'ContainedSubtype',Type} | Rest], Acc) -> - {RefMod,CTDef} = get_referenced_type(S,Type#type.def), - NewS = S#state{module=load_asn1_module(S,RefMod),mname=RefMod, - type=CTDef,tname=get_datastr_name(CTDef)}, - CType = check_type(NewS,S#state.tname,CTDef#typedef.typespec), - check_constraints(S,Rest,CType#type.constraint ++ Acc); -check_constraints(S,[C | Rest], Acc) -> - check_constraints(S,Rest,[check_constraint(S,C) | Acc]); -check_constraints(S,[],Acc) -> - constraint_merge(S,Acc). - - -range_check(F={FixV,FixV}) -> -% FixV; - F; -range_check(VR={Lb,Ub}) when Lb < Ub -> - VR; -range_check(Err={_,_}) -> - throw({error,{asn1,{illegal_size_constraint,Err}}}); -range_check(Value) -> - Value. - -check_constraint(S,Ext) when is_record(Ext,'Externaltypereference') -> - check_externaltypereference(S,Ext); - - -check_constraint(S,{'SizeConstraint',{Lb,Ub}}) - when is_list(Lb); tuple_size(Lb) =:= 2 -> - NewLb = range_check(resolv_tuple_or_list(S,Lb)), - NewUb = range_check(resolv_tuple_or_list(S,Ub)), - {'SizeConstraint',{NewLb,NewUb}}; -check_constraint(S,{'SizeConstraint',{Lb,Ub}}) -> - case {resolv_value(S,Lb),resolv_value(S,Ub)} of - {FixV,FixV} -> - {'SizeConstraint',FixV}; - {Low,High} when Low < High -> - {'SizeConstraint',{Low,High}}; - Err -> - throw({error,{asn1,{illegal_size_constraint,Err}}}) - end; -check_constraint(S,{'SizeConstraint',Lb}) -> - {'SizeConstraint',resolv_value(S,Lb)}; +convert_back([H1,H2|T]) -> + {intersection,H1,convert_back([H2|T])}; +convert_back([H]) -> + H; +convert_back([]) -> + none. -check_constraint(S,{'SingleValue', L}) when is_list(L) -> - F = fun(A) -> resolv_value(S,A) end, - {'SingleValue',lists:sort(lists:map(F,L))}; - -check_constraint(S,{'SingleValue', V}) when is_integer(V) -> - Val = resolv_value(S,V), -%% [{'SingleValue',Val},{'ValueRange',{Val,Val}}]; % Why adding value range? - {'SingleValue',Val}; -check_constraint(S,{'SingleValue', V}) -> - {'SingleValue',resolv_value(S,V)}; - -check_constraint(S,{'ValueRange', {Lb, Ub}}) -> - {'ValueRange',{resolv_value(S,Lb),resolv_value(S,Ub)}}; -%% In case of a constraint with extension marks like (1..Ub,...) -check_constraint(S,{VR={'ValueRange', {_Lb, _Ub}},Rest}) -> - {check_constraint(S,VR),Rest}; -check_constraint(_S,{'PermittedAlphabet',PA}) -> - {'PermittedAlphabet',permitted_alphabet_cnstr(PA)}; - -check_constraint(S,{valueset,Type}) -> - {valueset,check_type(S,S#state.tname,Type)}; - -check_constraint(_S,ST={simpletable,Type}) when is_atom(Type) -> - %% An already checked constraint - ST; -check_constraint(S,{simpletable,Type}) -> +check_simpletable(S, HostType, Type) -> + case HostType of + #type{def=#'ObjectClassFieldType'{}} -> + ok; + _ -> + %% Table constraints may only be applied to + %% CLASS.&field constructs. + asn1_error(S, illegal_table_constraint) + end, Def = case Type of #type{def=D} -> D; - {'SingleValue',ObjRef = #'Externalvaluereference'{}} -> - ObjRef + {'SingleValue',#'Externalvaluereference'{}=ObjRef} -> + ObjRef; + _ -> + asn1_error(S, invalid_table_constraint) end, - C = match_parameters(S,Def,S#state.parameters), + C = match_parameter(S, Def), case C of #'Externaltypereference'{} -> - ERef = check_externaltypereference(S,C), - {simpletable,ERef#'Externaltypereference'.type}; - #type{def=#'Externaltypereference'{}=ExtTypeRef} -> - ERef = check_externaltypereference(S, ExtTypeRef), + ERef = check_externaltypereference(S, C), {simpletable,ERef#'Externaltypereference'.type}; - {valueset,#type{def=ERef=#'Externaltypereference'{}}} -> % this is an object set - {_,TDef} = get_referenced_type(S,ERef), - case TDef#typedef.typespec of - #'ObjectSet'{} -> - check_object(S,TDef,TDef#typedef.typespec), - {simpletable,ERef#'Externaltypereference'.type}; - Err -> - exit({error,{internal_error,Err}}) - end; #'Externalvaluereference'{} -> %% This is an object set with a referenced object - {_,TorVDef} = get_referenced_type(S,C), - GetObjectSet = - fun(#typedef{typespec=O}) when is_record(O,'Object') -> - #'ObjectSet'{class=O#'Object'.classname, - set={'SingleValue',C}}; - (#valuedef{type=Cl,value=O}) - when is_record(O,'Externalvaluereference'), - is_record(Cl,type) -> - %% an object might reference another object - #'ObjectSet'{class=Cl#type.def, - set={'SingleValue',O}}; - (Err) -> - exit({error,{internal_error,simpletable_constraint,Err}}) - end, - ObjSet = GetObjectSet(TorVDef), - {simpletable,check_object(S,Type,ObjSet)}; - #'ObjectSet'{} -> - io:format("ALERT: simpletable forbidden case!~n",[]), - {simpletable,check_object(S,Type,C)}; - {'ValueFromObject',{_,ORef},FieldName} -> - %% This is an ObjectFromObject - {_,Object} = get_referenced_type(S,ORef), - ChObject = check_object(S,Object, - Object#typedef.typespec), - ObjFromObj= - get_fieldname_element(S,Object#typedef{ - typespec=ChObject}, - FieldName), - {simpletable,ObjFromObj}; -%% ObjFromObj#typedef{checked=true,typespec= -%% check_object(S,ObjFromObj, -%% ObjFromObj#typedef.typespec)}}; - _ -> - check_type(S,S#state.tname,Type),%% this seems stupid. - OSName = Def#'Externaltypereference'.type, - {simpletable,OSName} - end; + {_,TorVDef} = get_referenced_type(S, C), + Set = case TorVDef of + #typedef{typespec=#'Object'{classname=ClassName}} -> + #'ObjectSet'{class=ClassName, + set={'SingleValue',C}}; + #valuedef{type=#type{def=ClassDef}, + value=#'Externalvaluereference'{}=Obj} -> + %% an object might reference another object + #'ObjectSet'{class=ClassDef, + set={'SingleValue',Obj}} + end, + {simpletable,check_object(S, Type, Set)}; + {'ValueFromObject',{_,Object},FieldNames} -> + %% This is an ObjectFromObject. + {simpletable,extract_field(S, Object, FieldNames)} + end. -check_constraint(S,{componentrelation,{objectset,Opos,Objset},Id}) -> +check_componentrelation(S, {objectset,Opos,Objset0}, Id) -> %% Objset is an 'Externaltypereference' record, since Objset is %% a DefinedObjectSet. - RealObjset = match_parameters(S,Objset,S#state.parameters), - ObjSetRef = - case RealObjset of - #'Externaltypereference'{} -> RealObjset; - #type{def=#'Externaltypereference'{}} -> RealObjset#type.def; - {valueset,OS = #type{def=#'Externaltypereference'{}}} -> OS#type.def - end, - Ext = check_externaltypereference(S,ObjSetRef), - {componentrelation,{objectset,Opos,Ext},Id}; + ObjSet = match_parameter(S, Objset0), + Ext = check_externaltypereference(S, ObjSet), + {componentrelation,{objectset,Opos,Ext},Id}. + +%%% +%%% Internal set representation. +%%% +%%% We represent sets as a union of strictly disjoint ranges: +%%% +%%% {set,[Range]} +%%% +%%% A range is represented as: +%%% +%%% Range = {a_range,UpperBound} | {range,LowerBound,UpperBound} +%%% +%%% We don't use the atom 'MIN' to represent MIN, because atoms +%%% compare higher than integer. Instead we use {a_range,UpperBound} +%%% to represent MIN..UpperBound. We represent MAX as 'MAX' because +%%% 'MAX' compares higher than any integer. +%%% +%%% The ranges are sorted in term order. The ranges must not overlap +%%% or be adjacent to each other. This invariant is established when +%%% creating sets, and maintained by the intersection and union +%%% operators. +%%% +%%% Example of invalid set representaions: +%%% +%%% [{range,0,10},{range,5,10}] %Overlapping ranges +%%% [{range,0,5},{range,6,10}] %Adjancent ranges +%%% [{range,10,20},{a_range,100}] %Not sorted +%%% + +make_constr_set(_, 'MIN', Ub) -> + {set,[{a_range,make_constr_set_val(Ub)}]}; +make_constr_set(_, Lb, Ub) when Lb =< Ub -> + {set,[{range,make_constr_set_val(Lb), + make_constr_set_val(Ub)}]}; +make_constr_set(S, _, _) -> + asn1_error(S, reversed_range). + +make_constr_set_val([C]) when is_integer(C) -> C; +make_constr_set_val(Val) -> Val. + +make_constr_set_vs(Vs) -> + {set,make_constr_set_vs_1(Vs)}. + +make_constr_set_vs_1([]) -> + []; +make_constr_set_vs_1([V]) -> + [{range,V,V}]; +make_constr_set_vs_1([V0|Vs]) -> + V1 = make_constr_set_vs_1(Vs), + range_union([{range,V0,V0}], V1). + +%%% +%%% Set operators. +%%% + +cs_intersection(_S, Other, none) -> + Other; +cs_intersection(_S, none, Other) -> + Other; +cs_intersection(_S, {set,SetA}, {set,SetB}) -> + {set,range_intersection(SetA, SetB)}; +cs_intersection(_S, A, B) -> + {intersection,A,B}. + +range_intersection([], []) -> + []; +range_intersection([_|_], []) -> + []; +range_intersection([], [_|_]) -> + []; +range_intersection([H1|_]=A, [H2|_]=B) when H1 > H2 -> + range_intersection(B, A); +range_intersection([H1|T1], [H2|T2]=B) -> + %% Now H1 =< H2. + case {H1,H2} of + {{a_range,Ub0},{a_range,Ub1}} when Ub0 < Ub1 -> + %% Ub0 =/= 'MAX' + [H1|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{a_range,_},{a_range,_}} -> + %% Must be equal. + [H1|range_intersection(T1, T2)]; + {{a_range,Ub0},{range,Lb1,_Ub1}} when Ub0 < Lb1 -> + %% No intersection. + range_intersection(T1, B); + {{a_range,Ub0},{range,Lb1,Ub1}} when Ub0 < Ub1 -> + %% Ub0 =/= 'MAX' + [{range,Lb1,Ub0}|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{a_range,Ub},{range,_Lb1,Ub}} -> + %% The first range covers the second range, but does not + %% go beyond. We handle this case specially because Ub may + %% be 'MAX', and evaluating 'MAX'+1 will fail. + [H2|range_intersection(T1, T2)]; + {{a_range,Ub0},{range,_Lb1,Ub1}} -> + %% Ub0 > Ub1, Ub1 =/= 'MAX'. The first range completely + %% covers and extends beyond the second range. + [H2|range_intersection([{range,Ub1+1,Ub0}|T1], T2)]; + {{range,_Lb0,Ub0},{range,Lb1,_Ub1}} when Ub0 < Lb1 -> + %% Lb0 < Lb1. No intersection. + range_intersection(T1, B); + {{range,_Lb0,Ub0},{range,Lb1,Ub1}} when Ub0 < Ub1 -> + %% Ub0 >= Lb1, Ub0 =/= 'MAX'. Partial overlap. + [{range,Lb1,Ub0}|range_intersection(T1, [{range,Ub0+1,Ub1}|T2])]; + {{range,_Lb0,Ub},{range,_Lb1,Ub}} -> + %% The first range covers the second range, but does not + %% go beyond. We handle this case specially because Ub may + %% be 'MAX', and evaluating 'MAX'+1 will fail. + [H2|range_intersection(T1, T2)]; + {{range,_Lb0,Ub0},{range,_Lb1,Ub1}} -> + %% Ub1 =/= MAX. The first range completely covers and + %% extends beyond the second. + [H2|range_intersection([{range,Ub1+1,Ub0}|T1], T2)] + end. -check_constraint(S,Type) when is_record(Type,type) -> - #type{def=Def} = check_type(S,S#state.tname,Type), - Def; +cs_union(_S, {set,SetA}, {set,SetB}) -> + {set,range_union(SetA, SetB)}; +cs_union(_S, A, B) -> + {union,A,B}. + +range_union(A, B) -> + range_union_1(lists:merge(A, B)). + +range_union_1([{a_range,Ub0},{a_range,Ub1}|T]) -> + range_union_1([{a_range,max(Ub0, Ub1)}|T]); +range_union_1([{a_range,Ub0},{range,Lb1,Ub1}|T]) when Lb1-1 =< Ub0 -> + range_union_1([{a_range,max(Ub0, Ub1)}|T]); +range_union_1([{a_range,_}=H|T]) -> + %% Ranges are disjoint. + [H|range_union_1(T)]; +range_union_1([{range,Lb0,Ub0},{range,Lb1,Ub1}|T]) when Lb1-1 =< Ub0 -> + range_union_1([{range,Lb0,max(Ub0, Ub1)}|T]); +range_union_1([{range,_,_}=H|T]) -> + %% Ranges are disjoint. + [H|range_union_1(T)]; +range_union_1([]) -> + []. -check_constraint(S,C) when is_list(C) -> - lists:map(fun(X)->check_constraint(S,X) end,C); -% else keep the constraint unchanged -check_constraint(_S,Any) -> -% io:format("Constraint = ~p~n",[Any]), - Any. - -permitted_alphabet_cnstr(T) when is_tuple(T) -> - permitted_alphabet_cnstr([T]); -permitted_alphabet_cnstr(L) when is_list(L) -> - VRexpand = fun({'ValueRange',{A,B}}) -> - {'SingleValue',expand_valuerange(A,B)}; - (Other) -> - Other - end, - L2 = lists:map(VRexpand,L), - %% first perform intersection - L3 = permitted_alphabet_intersection(L2), - [Res] = permitted_alphabet_union(L3), - Res. +%%% +%%% Finish up constrains, making them suitable for the back-ends. +%%% +%%% A 'PermittedAlphabet' (FROM) constraint will be reduced to: +%%% +%%% {'SingleValue',[integer()]} +%%% +%%% A 'SizeConstraint' (SIZE) constraint will be reduced to: +%%% +%%% {Lb,Ub} +%%% +%%% All other constraints will be reduced to: +%%% +%%% {'SingleValue',[integer()]} | {'ValueRange',Lb,Ub} +%%% + +finish_constraints(Cs) -> + finish_constraints_1(Cs, fun smart_collapse/1). + +finish_constraints_1([{element_set,{Tag,{element_set,_,_}=Set0},none}|T], + Collapse0) -> + Collapse = collapse_fun(Tag), + case finish_constraints_1([Set0], Collapse) of + [] -> + finish_constraints_1(T, Collapse0); + [Set] -> + [{Tag,Set}|finish_constraints_1(T, Collapse0)] + end; +finish_constraints_1([{element_set,{set,[{a_range,'MAX'}]},_}|T], Collapse) -> + finish_constraints_1(T, Collapse); +finish_constraints_1([{element_set,{intersection,A0,B0},none}|T], Collapse) -> + A = {element_set,A0,none}, + B = {element_set,B0,none}, + finish_constraints_1([A,B|T], Collapse); +finish_constraints_1([{element_set,Root,Ext}|T], Collapse) -> + case finish_constraint(Root, Ext, Collapse) of + none -> + finish_constraints_1(T, Collapse); + Constr -> + [Constr|finish_constraints_1(T, Collapse)] + end; +finish_constraints_1([H|T], Collapse) -> + [H|finish_constraints_1(T, Collapse)]; +finish_constraints_1([], _) -> + []. -expand_valuerange([A],[A]) -> - [A]; -expand_valuerange([A],[B]) when A < B -> - [A|expand_valuerange([A+1],[B])]. +finish_constraint({set,Root0}, Ext, Collapse) -> + case Collapse(Root0) of + none -> none; + Root -> finish_constraint(Root, Ext, Collapse) + end; +finish_constraint(Root, Ext, _Collapse) -> + case Ext of + none -> Root; + _ -> {Root,[]} + end. -permitted_alphabet_intersection(C) -> - permitted_alphabet_merge(C,intersection, []). +collapse_fun('SizeConstraint') -> + fun size_constraint_collapse/1; +collapse_fun('PermittedAlphabet') -> + fun single_value_collapse/1. -permitted_alphabet_union(C) -> - permitted_alphabet_merge(C,union, []). +single_value_collapse(V) -> + {'SingleValue',ordsets:from_list(single_value_collapse_1(V))}. -permitted_alphabet_merge([],_,Acc) -> - lists:reverse(Acc); -permitted_alphabet_merge([{'SingleValue',L1}, - UorI, - {'SingleValue',L2}|Rest],UorI,Acc) - when is_list(L1),is_list(L2) -> - UI = ordsets:UorI([ordsets:from_list(L1),ordsets:from_list(L2)]), - permitted_alphabet_merge([{'SingleValue',UI}|Rest],UorI,Acc); -permitted_alphabet_merge([C1|Rest],UorI,Acc) -> - permitted_alphabet_merge(Rest,UorI,[C1|Acc]). - - -%% constraint_merge/2 -%% Compute the intersection of the outermost level of the constraint list. -%% See Dubuisson second paragraph and fotnote on page 285. -%% If constraints with extension are included in combined constraints. The -%% resulting combination will have the extension of the last constraint. Thus, -%% there will be no extension if the last constraint is without extension. -%% The rootset of all constraints are considered in the "outermoust -%% intersection". See section 13.1.2 in Dubuisson. -constraint_merge(St, Cs0) -> - Cs = constraint_merge_1(St, Cs0), - normalize_cs(Cs). - -normalize_cs([{'SingleValue',[V]}|Cs]) -> - [{'SingleValue',V}|normalize_cs(Cs)]; -normalize_cs([{'SingleValue',[_|_]=L0}|Cs]) -> - [H|T] = L = lists:usort(L0), - [case is_range(H, T) of - false -> {'SingleValue',L}; - true -> {'ValueRange',{H,lists:last(T)}} - end|normalize_cs(Cs)]; -normalize_cs([{'ValueRange',{Sv,Sv}}|Cs]) -> - [{'SingleValue',Sv}|normalize_cs(Cs)]; -normalize_cs([{'ValueRange',{'MIN','MAX'}}|Cs]) -> - normalize_cs(Cs); -normalize_cs([{'SizeConstraint',C0}|Cs]) -> - case normalize_size_constraint(C0) of - none -> - normalize_cs(Cs); - C -> - [{'SizeConstraint',C}|normalize_cs(Cs)] - end; -normalize_cs([H|T]) -> - [H|normalize_cs(T)]; -normalize_cs([]) -> []. +single_value_collapse_1([{range,Lb,Ub}|T]) when is_integer(Lb), + is_integer(Ub) -> + lists:seq(Lb, Ub) ++ single_value_collapse_1(T); +single_value_collapse_1([]) -> + []. -%% Normalize a size constraint to make it non-ambiguous and -%% easy to interpret for the backends. -%% -%% Returns one of the following terms: -%% {LowerBound,UpperBound} -%% {{LowerBound,UpperBound},[]} % Extensible -%% none % Remove size constraint from list -%% -%% where: -%% LowerBound = integer() -%% UpperBound = integer() | 'MAX' - -normalize_size_constraint(Sv) when is_integer(Sv) -> - {Sv,Sv}; -normalize_size_constraint({Root,Ext}) when is_list(Ext) -> - {normalize_size_constraint(Root),[]}; -normalize_size_constraint({{_,_},Ext}) when is_integer(Ext) -> - normalize_size_constraint(Ext); -normalize_size_constraint([H|T]) -> - {H,lists:last(T)}; -normalize_size_constraint({0,'MAX'}) -> +smart_collapse([{a_range,Ub}]) -> + {'ValueRange',{'MIN',Ub}}; +smart_collapse([{a_range,_}|T]) -> + {range,_,Ub} = lists:last(T), + {'ValueRange',{'MIN',Ub}}; +smart_collapse([{range,Lb,Ub}]) -> + {'ValueRange',{Lb,Ub}}; +smart_collapse([_|_]=L) -> + V = lists:foldr(fun({range,Lb,Ub}, A) -> + seq(Lb, Ub) ++ A + end, [], L), + {'SingleValue',V}. + +size_constraint_collapse([{range,0,'MAX'}]) -> none; -normalize_size_constraint({Lb,Ub}=Range) - when is_integer(Lb), is_integer(Ub) orelse Ub =:= 'MAX' -> - Range. +size_constraint_collapse(Root) -> + [{range,Lb,_}|_] = Root, + {range,_,Ub} = lists:last(Root), + {Lb,Ub}. -is_range(Prev, [H|T]) when Prev =:= H - 1 -> is_range(H, T); -is_range(_, [_|_]) -> false; -is_range(_, []) -> true. +seq(Same, Same) -> + [Same]; +seq(Lb, Ub) when is_integer(Lb), is_integer(Ub) -> + lists:seq(Lb, Ub). -constraint_merge_1(_S, [H]=C) when is_tuple(H) -> - C; -constraint_merge_1(_S, []) -> - []; -constraint_merge_1(S, C) -> - %% skip all extension but the last extension - C1 = filter_extensions(C), - %% perform all internal level intersections, intersections first - %% since they have precedence over unions - C2 = lists:map(fun(X)when is_list(X)->constraint_intersection(S,X); - (X) -> X end, - C1), - %% perform all internal level unions - C3 = lists:map(fun(X)when is_list(X)->constraint_union(S,X); - (X) -> X end, - C2), - - %% now get intersection of the outermost level - %% get the least common single value constraint - SVs = get_constraints(C3,'SingleValue'), - CombSV = intersection_of_sv(S,SVs), - %% get the least common value range constraint - VRs = get_constraints(C3,'ValueRange'), - CombVR = intersection_of_vr(S,VRs), - %% get the least common size constraint - SZs = get_constraints(C3,'SizeConstraint'), - CombSZ = intersection_of_size(S,SZs), - RestC = ordsets:subtract(ordsets:from_list(C3), - ordsets:from_list(SZs ++ VRs ++ SVs)), - %% get the least common combined constraint. That is the union of each - %% deep constraint and merge of single value and value range constraints. - %% FIXME: Removing 'intersection' from the flattened list essentially - %% means that intersections are converted to unions! - Cs = combine_constraints(S, CombSV, CombVR, CombSZ++RestC), - [X || X <- lists:flatten(Cs), - X =/= intersection, - X =/= union]. - -%% constraint_union(S,C) takes a list of constraints as input and -%% merge them to a union. Unions are performed when two -%% constraints is found with an atom union between. -%% The list may be nested. Fix that later !!! -constraint_union(_S,[]) -> - []; -constraint_union(_S,C=[_E]) -> - C; -constraint_union(S,C) when is_list(C) -> - case lists:member(union,C) of - true -> - constraint_union1(S,C,[]); - _ -> - C - end; -% SV = get_constraints(C,'SingleValue'), -% SV1 = constraint_union_sv(S,SV), -% VR = get_constraints(C,'ValueRange'), -% VR1 = constraint_union_vr(VR), -% RestC = ordsets:filter(fun({'SingleValue',_})->false; -% ({'ValueRange',_})->false; -% (_) -> true end,ordsets:from_list(C)), -% SV1++VR1++RestC; -constraint_union(_S,C) -> - [C]. - -constraint_union1(S, [{'ValueRange',{Lb1,Ub1}},union, - {'ValueRange',{Lb2,Ub2}}|Rest], Acc) -> - AunionB = {'ValueRange',{c_min(Lb1, Lb2),max(Ub1, Ub2)}}, - constraint_union1(S, [AunionB|Rest], Acc); -constraint_union1(S,[A={'SingleValue',_},union,B={'SingleValue',_}|Rest],Acc) -> - AunionB = constraint_union_sv(S,[A,B]), - constraint_union1(S,Rest,Acc ++ AunionB); -constraint_union1(S,[A={'SingleValue',_},union,B={'ValueRange',_}|Rest],Acc) -> - AunionB = union_sv_vr(S,A,B), - constraint_union1(S, AunionB++Rest, Acc); -constraint_union1(S,[A={'ValueRange',_},union,B={'SingleValue',_}|Rest],Acc) -> - AunionB = union_sv_vr(S,B,A), - constraint_union1(S, AunionB++Rest, Acc); -constraint_union1(S,[union|Rest],Acc) -> %skip when unsupported constraints - constraint_union1(S,Rest,Acc); -constraint_union1(S,[A|Rest],Acc) -> - constraint_union1(S,Rest,[A|Acc]); -constraint_union1(_S,[],Acc) -> - Acc. +%%%----------------------------------------- +%% If the constraint value is a defined value the valuename +%% is replaced by the actual value +%% +resolve_value(S, HostType, Val) -> + Id = match_parameter(S, Val), + resolve_value1(S, HostType, Id). -constraint_union_sv(_S,SV) -> - Values=lists:map(fun({_,V})->V end,SV), - case ordsets:from_list(Values) of - [] -> []; - [N] -> [{'SingleValue',N}]; - L -> [{'SingleValue',L}] - end. -c_min('MIN', _) -> 'MIN'; -c_min(_, 'MIN') -> 'MIN'; -c_min(A, B) -> min(A, B). - -union_sv_vr(_S,{'SingleValue',SV},VR) - when is_integer(SV) -> - union_sv_vr(_S,{'SingleValue',[SV]},VR); -union_sv_vr(_S,{'SingleValue',SV},{'ValueRange',{VLb,VUb}}) - when is_list(SV) -> - L = lists:sort(SV++[VLb,VUb]), - {Lb,L1} = case lists:member('MIN',L) of - true -> {'MIN',L--['MIN']}; % remove 'MIN' so it does not disturb - false -> {hd(L),tl(L)} - end, - Ub = case lists:member('MAX',L1) of - true -> 'MAX'; - false -> lists:last(L1) - end, - case SV of - [H] -> H; - _ -> SV - end, - %% for now we through away the Singlevalues so that they don't disturb - %% in the code generating phase (the effective Valuerange is already - %% calculated. If we want to keep the Singlevalues as well for - %% use in code gen phases we need to introduce a new representation - %% like {'ValueRange',{Lb,Ub},[ListOfRanges|AntiValues|Singlevalues] - %% These could be used to generate guards which allows only the specific - %% values , not the full range - [{'ValueRange',{Lb,Ub}}]. - - -%% get_constraints/2 -%% Arguments are a list of constraints, which has the format {key,value}, -%% and a constraint type -%% Returns a list of constraints only of the requested type or the atom -%% 'no' if no such constraints were found -get_constraints(L=[{CType,_}],CType) -> - L; -get_constraints(C,CType) -> - keysearch_allwithkey(CType,1,C). - -%% keysearch_allwithkey(Key,Ix,L) -%% Types: -%% Key = is_atom() -%% Ix = integer() -%% L = [TwoTuple] -%% TwoTuple = [{atom(),term()}|...] -%% Returns a List that contains all -%% elements from L that has a key Key as element Ix -keysearch_allwithkey(Key,Ix,L) -> - lists:filter(fun(X) when is_tuple(X) -> - case element(Ix,X) of - Key -> true; - _ -> false - end; - (_) -> false - end, L). - - -%% filter_extensions(C) -%% takes a list of constraints as input and returns a list with the -%% constraints and all extensions but the last are removed. -filter_extensions([L]) when is_list(L) -> - [filter_extensions(L)]; -filter_extensions(C=[_H]) -> - C; -filter_extensions(C) when is_list(C) -> - filter_extensions(C,[], []). - -filter_extensions([],Acc,[]) -> - Acc; -filter_extensions([],Acc,[EC|ExtAcc]) -> - CwoExt = remove_extension(ExtAcc,[]), - CwoExt ++ [EC|Acc]; -filter_extensions([C={A,_E}|T],Acc,ExtAcc) when is_tuple(A) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([C={'SizeConstraint',{A,_B}}|T],Acc,ExtAcc) - when is_list(A);is_tuple(A) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([C={'PermittedAlphabet',{{'SingleValue',_},E}}|T],Acc,ExtAcc) - when is_tuple(E); is_list(E) -> - filter_extensions(T,Acc,[C|ExtAcc]); -filter_extensions([H|T],Acc,ExtAcc) -> - filter_extensions(T,[H|Acc],ExtAcc). - -remove_extension([],Acc) -> - Acc; -remove_extension([{'SizeConstraint',{A,_B}}|R],Acc) -> - remove_extension(R,[{'SizeConstraint',A}|Acc]); -remove_extension([{C,_E}|R],Acc) when is_tuple(C) -> - remove_extension(R,[C|Acc]); -remove_extension([{'PermittedAlphabet',{A={'SingleValue',_}, - E}}|R],Acc) - when is_tuple(E);is_list(E) -> - remove_extension(R,[{'PermittedAlphabet',A}|Acc]). - -%% constraint_intersection(S,C) takes a list of constraints as input and -%% performs intersections. Intersecions are performed when an -%% atom intersection is found between two constraints. -%% The list may be nested. Fix that later !!! -constraint_intersection(_S,[]) -> - []; -constraint_intersection(_S,C=[_E]) -> - C; -constraint_intersection(S,C) when is_list(C) -> -% io:format("constraint_intersection: ~p~n",[C]), - case lists:member(intersection,C) of - true -> - constraint_intersection1(S,C,[]); - _ -> - C +resolve_value1(S, HostType, #'Externalvaluereference'{value=Name}=ERef) -> + case resolve_namednumber(S, HostType, Name) of + V when is_integer(V) -> + V; + not_named -> + resolve_value1(S, HostType, get_referenced_value(S, ERef)) end; -constraint_intersection(_S,C) -> - [C]. - -constraint_intersection1(S,[A,intersection,B|Rest],Acc) -> - AisecB = c_intersect(S,A,B), - constraint_intersection1(S, AisecB++Rest, Acc); -constraint_intersection1(S,[A|Rest],Acc) -> - constraint_intersection1(S,Rest,[A|Acc]); -constraint_intersection1(_, [], [C]) -> - C; -constraint_intersection1(_,[],Acc) -> - lists:reverse(Acc). - -c_intersect(S,C1={'SingleValue',_},C2={'SingleValue',_}) -> - intersection_of_sv(S,[C1,C2]); -c_intersect(S,C1={'ValueRange',_},C2={'ValueRange',_}) -> - intersection_of_vr(S,[C1,C2]); -c_intersect(S,C1={'ValueRange',_},C2={'SingleValue',_}) -> - intersection_sv_vr(S,[C2],[C1]); -c_intersect(S,C1={'SingleValue',_},C2={'ValueRange',_}) -> - intersection_sv_vr(S,[C1],[C2]); -c_intersect(_S,C1,C2) -> - [C1,C2]. - -%% combine_constraints(S,SV,VR,CComb) -%% Types: -%% S = is_record(state,S) -%% SV = [] | [SVC] -%% VR = [] | [VRC] -%% CComb = [] | [Lists] -%% SVC = {'SingleValue',integer()} | {'SingleValue',[integer(),...]} -%% VRC = {'ValueRange',{Lb,Ub}} -%% Lists = List of lists containing any constraint combination -%% Lb = 'MIN' | integer() -%% Ub = 'MAX' | integer() -%% Returns a combination of the least common constraint among SV,VR and all -%% elements in CComb -combine_constraints(_S,[],VR,CComb) -> - VR ++ CComb; -% combine_combined_cnstr(S,VR,CComb); -combine_constraints(_S,SV,[],CComb) -> - SV ++ CComb; -% combine_combined_cnstr(S,SV,CComb); -combine_constraints(S,SV,VR,CComb) -> - C=intersection_sv_vr(S,SV,VR), - C ++ CComb. -% combine_combined_cnstr(S,C,CComb). - -intersection_sv_vr(_S,[C1={'SingleValue',SV}],[C2={'ValueRange',{_Lb,_Ub}}]) - when is_integer(SV) -> - case is_int_in_vr(SV,C2) of - true -> [C1]; - _ -> %%error({type,{"asn1 illegal constraint",C1,C2},S}) - %throw({error,{"asn1 illegal constraint",C1,C2}}) - %io:format("warning: could not analyze constraint ~p~n",[[C1,C2]]), - [C1,C2] +resolve_value1(S, HostType, {gt,V}) -> + case resolve_value1(S, HostType, V) of + Int when is_integer(Int) -> + Int + 1; + _Other -> + asn1_error(S, illegal_integer_value) end; -intersection_sv_vr(_S,[C1={'SingleValue',SV}],[C2]) - when is_list(SV) -> - case lists:filter(fun(X)->is_int_in_vr(X,C2) end,SV) of - [] -> - %%error({type,{"asn1 illegal constraint",C1,C2},S}); - %throw({error,{"asn1 illegal constraint",C1,C2}}); - %io:format("warning: could not analyze constraint ~p~n",[[C1,C2]]), - [C1,C2]; - [V] -> [{'SingleValue',V}]; - L -> [{'SingleValue',L}] - end. - - -%% Size constraint [{'SizeConstraint',1},{'SizeConstraint',{{1,64},[]}}] - -intersection_of_size(_,[]) -> - []; -intersection_of_size(_,C=[_SZ]) -> - C; -intersection_of_size(S,[SZ,SZ|Rest]) -> - intersection_of_size(S,[SZ|Rest]); -intersection_of_size(S,C=[C1={_,Int},{_,Range}|Rest]) - when is_integer(Int),is_tuple(Range) -> - case Range of - {Lb,Ub} when Int >= Lb, - Int =< Ub -> - intersection_of_size(S,[C1|Rest]); - {{Lb,Ub},Ext} when is_list(Ext),Int >= Lb,Int =< Ub -> - intersection_of_size(S,[C1|Rest]); - _ -> - throw({error,{asn1,{illegal_size_constraint,C}}}) +resolve_value1(S, HostType, {lt,V}) -> + case resolve_value1(S, HostType, V) of + Int when is_integer(Int) -> + Int - 1; + _Other -> + asn1_error(S, illegal_integer_value) end; -intersection_of_size(S,[C1={_,Range},C2={_,Int}|Rest]) - when is_integer(Int),is_tuple(Range) -> - intersection_of_size(S,[C2,C1|Rest]); -intersection_of_size(S,[{_,{Lb1,Ub1}},{_,{Lb2,Ub2}}|Rest]) -> - Lb=greatest_LB(ordsets:from_list([Lb1,Lb2])), - Ub=smallest_UB(ordsets:from_list([Ub1,Ub2])), - intersection_of_size(S,[{'SizeConstraint',{Lb,Ub}}|Rest]); -intersection_of_size(_,SZ) -> - throw({error,{asn1,{illegal_size_constraint,SZ}}}). - -intersection_of_vr(_,[]) -> - []; -intersection_of_vr(_,VR=[_C]) -> - VR; -intersection_of_vr(S,[{_,{Lb1,Ub1}},{_,{Lb2,Ub2}}|Rest]) -> - Lb=greatest_LB(ordsets:from_list([Lb1,Lb2])), - Ub=smallest_UB(ordsets:from_list([Ub1,Ub2])), - intersection_of_vr(S,[{'ValueRange',{Lb,Ub}}|Rest]); -intersection_of_vr(_S,VR) -> - %%error({type,{asn1,{illegal_value_range_constraint,VR}},S}); - throw({error,{asn1,{illegal_value_range_constraint,VR}}}). - -intersection_of_sv(_,[]) -> - []; -intersection_of_sv(_,SV=[_C]) -> - SV; -intersection_of_sv(S,[SV,SV|Rest]) -> - intersection_of_sv(S,[SV|Rest]); -intersection_of_sv(S,[{_,Int},{_,SV}|Rest]) when is_integer(Int), - is_list(SV) -> - SV2=intersection_of_sv1(S,Int,SV), - intersection_of_sv(S,[SV2|Rest]); -intersection_of_sv(S,[{_,SV},{_,Int}|Rest]) when is_integer(Int), - is_list(SV) -> - SV2=intersection_of_sv1(S,Int,SV), - intersection_of_sv(S,[SV2|Rest]); -intersection_of_sv(S,[{_,SV1},{_,SV2}|Rest]) when is_list(SV1), - is_list(SV2) -> - SV3=common_set(SV1,SV2), - intersection_of_sv(S,[SV3|Rest]); -intersection_of_sv(_S,SV) -> - %%error({type,{asn1,{illegal_single_value_constraint,SV}},S}). - throw({error,{asn1,{illegal_single_value_constraint,SV}}}). - -intersection_of_sv1(_S,Int,SV) when is_integer(Int),is_list(SV) -> - case lists:member(Int,SV) of - true -> {'SingleValue',Int}; +resolve_value1(S, _HostType, {'ValueFromObject',{object,Object},FieldName}) -> + get_value_from_object(S, Object, FieldName); +resolve_value1(_, _, #valuedef{checked=true,value=V}) -> + V; +resolve_value1(S, _, #valuedef{value={'ValueFromObject', + {object,Object},FieldName}}) -> + get_value_from_object(S, Object, FieldName); +resolve_value1(S, _HostType, #valuedef{}=VDef) -> + #valuedef{value=Val} = check_value(S,VDef), + Val; +resolve_value1(_, _, V) -> + V. + +resolve_namednumber(S, #type{def=Def}, Name) -> + case Def of + {'ENUMERATED',NameList} -> + resolve_namednumber_1(S, Name, NameList); + {'INTEGER',NameList} -> + resolve_namednumber_1(S, Name, NameList); _ -> - %%error({type,{asn1,{illegal_single_value_constraint,Int,SV}},S}) - throw({error,{asn1,{illegal_single_value_constraint,Int,SV}}}) - end; -intersection_of_sv1(_S,SV1,SV2) -> - %%error({type,{asn1,{illegal_single_value_constraint,SV1,SV2}},S}). - throw({error,{asn1,{illegal_single_value_constraint,SV1,SV2}}}). + not_named + end. -greatest_LB([H]) -> - H; -greatest_LB(L) -> - greatest_LB1(lists:reverse(L)). -greatest_LB1(['MIN',H2|_T])-> - H2; -greatest_LB1([H|_T]) -> - H. -smallest_UB(L) -> - hd(L). - -common_set(SV1,SV2) -> - lists:filter(fun(X)->lists:member(X,SV1) end,SV2). - -is_int_in_vr(Int,{_,{'MIN','MAX'}}) when is_integer(Int) -> - true; -is_int_in_vr(Int,{_,{'MIN',Ub}}) when is_integer(Int),Int =< Ub -> - true; -is_int_in_vr(Int,{_,{Lb,'MAX'}}) when is_integer(Int),Int >= Lb -> - true; -is_int_in_vr(Int,{_,{Lb,Ub}}) when is_integer(Int),Int >= Lb,Int =< Ub -> - true; -is_int_in_vr(_,_) -> - false. - +resolve_namednumber_1(S, Name, NameList) -> + try + NamedNumberList = check_enumerated(S, NameList), + {_,N} = lookup_enum_value(S, Name, NamedNumberList), + N + catch _:_ -> + not_named + end. + +%%% +%%% End of constraint handling. +%%% check_imported(S,Imodule,Name) -> check_imported(S,Imodule,Name,false). @@ -4510,18 +3757,28 @@ check_reference(S,#'Externaltypereference'{pos=Pos,module=Emod,type=Name}) -> #'Externaltypereference'{pos=Pos,module=ModName,type=Name} end. +get_referenced_value(S, T) -> + case get_referenced_type(S, T) of + {ExtMod,#valuedef{value=#'Externalvaluereference'{}=Ref}} -> + get_referenced_value(update_state(S, ExtMod), Ref); + {_,#valuedef{value=Val}} -> + Val + end. + get_referenced_type(S, T) -> + get_referenced_type(S, T, false). + +get_referenced_type(S, T, Recurse) -> case do_get_referenced_type(S, T) of - {_,#type{def=#'Externaltypereference'{}=ERef}} -> - get_referenced_type(S, ERef); - {_,#type{def=#'Externalvaluereference'{}=VRef}} -> - get_referenced_type(S, VRef); + {_,#typedef{typespec=#type{def=#'Externaltypereference'{}=ERef}}} + when Recurse -> + get_referenced_type(S, ERef, Recurse); {_,_}=Res -> Res end. -do_get_referenced_type(#state{parameters=Ps}=S, T0) -> - case match_parameters(S, T0, Ps) of +do_get_referenced_type(S, T0) -> + case match_parameter(S, T0) of T0 -> do_get_ref_type_1(S, T0); T -> @@ -4563,7 +3820,7 @@ get_referenced(S,Emod,Ename,Pos) -> %% May be an imported entity in module Emod or Emod may not exist case asn1_db:dbget(Emod,'MODULE') of undefined -> - throw({error,{asn1,{module_not_found,Emod}}}); + asn1_error(S, {undefined_import, Ename, Emod}); _ -> NewS = update_state(S,Emod), get_imported(NewS,Ename,Emod,Pos) @@ -4593,12 +3850,11 @@ get_imported(S,Name,Module,Pos) -> parse_and_save(S,Imodule), case asn1_db:dbget(Imodule,'MODULE') of undefined -> - throw({error,{asn1,{module_not_found,Imodule}}}); + asn1_error(S, {undefined_import, Name, Module}); Im when is_record(Im,module) -> case is_exported(Im,Name) of false -> - throw({error, - {asn1,{not_exported,{Im,Name}}}}); + asn1_error(S, {undefined_export, Name}); _ -> ?dbg("get_imported, is_exported ~p, ~p~n",[Imodule,Name]), get_referenced_type(S, @@ -4611,37 +3867,6 @@ get_imported(S,Name,Module,Pos) -> get_renamed_reference(S,Name,Module) end. -check_and_save(S,#'Externaltypereference'{module=M}=ERef,#typedef{checked=false}=TDef,Settings) - when S#state.mname /= M -> - %% This ERef is an imported type (or maybe a set.asn compilation) - NewS = S#state{mname=M,module=load_asn1_module(S,M), - type=TDef,tname=get_datastr_name(TDef)}, - Type=check_type(NewS,TDef,TDef#typedef.typespec),%XXX - CheckedTDef = TDef#typedef{checked=true, - typespec=Type}, - asn1_db:dbput(M,get_datastr_name(TDef),CheckedTDef), - {merged_name(S,ERef),Settings}; -check_and_save(S,#'Externaltypereference'{module=M,type=N}=Eref, - #ptypedef{name=Name,args=Params} = PTDef,Settings) -> - %% instantiate a parameterized type - %% The parameterized type should be saved as a type in the module - %% it was instantiated. - NewS = S#state{mname=M,module=load_asn1_module(S,M), - type=PTDef,tname=Name}, - {Args,RestSettings} = lists:split(length(Params),Settings), - Type = check_type(NewS,PTDef,#type{def={pt,Eref,Args}}), - ERefName = new_reference_name(N), - ERefNew = #'Externaltypereference'{type=ERefName,module=S#state.mname}, - NewTDef=#typedef{checked=true,name=ERefName, - typespec=Type}, - insert_once(S,parameterized_objects,{ERefName,type,NewTDef}), - asn1_db:dbput(S#state.mname,ERefNew#'Externaltypereference'.type, - NewTDef), - {ERefNew,RestSettings}; -check_and_save(_S,ERef,TDef,Settings) -> - %% This might be a renamed type in a set of specs, so rename the ERef - {ERef#'Externaltypereference'{type=asn1ct:get_name_of_def(TDef)},Settings}. - save_object_set_instance(S,Name,ObjSetSpec) when is_record(ObjSetSpec,'ObjectSet') -> NewObjSet = #typedef{checked=true,name=Name,typespec=ObjSetSpec}, @@ -4708,18 +3933,14 @@ update_state(S,ModuleName) -> S; _ -> parse_and_save(S,ModuleName), - case asn1_db:dbget(ModuleName,'MODULE') of - RefedMod when is_record(RefedMod,module) -> - S#state{mname=ModuleName,module=RefedMod}; - _ -> throw({error,{asn1,{module_does_not_exist,ModuleName}}}) - end + Mod = #module{} = asn1_db:dbget(ModuleName,'MODULE'), + S#state{mname=ModuleName,module=Mod} end. - get_renamed_reference(S,Name,Module) -> case renamed_reference(S,Name,Module) of undefined -> - throw({error,{asn1,{undefined_type,Name}}}); + asn1_error(S, {undefined, Name}); NewTypeName when NewTypeName =/= Name -> get_referenced1(S,Module,NewTypeName,undefined) end. @@ -4770,37 +3991,49 @@ get_importmoduleoftype([I|Is],Name) -> get_importmoduleoftype([],_) -> undefined. +match_parameters(S, Names) -> + [match_parameter(S, Name) || Name <- Names]. -match_parameters(_S,Name,[]) -> - Name; +match_parameter(#state{parameters=Ps}=S, Name) -> + match_parameter(S, Name, Ps). -match_parameters(_S,#'Externaltypereference'{type=Name},[{#'Externaltypereference'{type=Name},NewName}|_T]) -> +match_parameter(_S, Name, []) -> + Name; +match_parameter(S, {valueset,{element_set,#type{}=Ts,none}}, Ps) -> + match_parameter(S, {valueset,Ts}, Ps); +match_parameter(_S, #'Externaltypereference'{type=Name}, + [{#'Externaltypereference'{type=Name},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externaltypereference'{type=Name},[{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> +match_parameter(_S, #'Externaltypereference'{type=Name}, + [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externalvaluereference'{value=Name},[{#'Externalvaluereference'{value=Name},NewName}|_T]) -> +match_parameter(_S, #'Externalvaluereference'{value=Name}, + [{#'Externalvaluereference'{value=Name},NewName}|_T]) -> NewName; -match_parameters(_S,#'Externalvaluereference'{value=Name},[{{_,#'Externalvaluereference'{value=Name}},NewName}|_T]) -> +match_parameter(_S, #'Externalvaluereference'{value=Name}, + [{{_,#'Externalvaluereference'{value=Name}},NewName}|_T]) -> NewName; -match_parameters(_S,#type{def=#'Externaltypereference'{module=M,type=Name}}, - [{#'Externaltypereference'{module=M,type=Name},Type}]) -> +match_parameter(_S, #type{def=#'Externaltypereference'{module=M,type=Name}}, + [{#'Externaltypereference'{module=M,type=Name},Type}]) -> Type; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}},{valueset,#type{def=NewName}}}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}}, + {valueset,#type{def=NewName}}}|_T]) -> NewName; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}}, - NewName=#type{def=#'Externaltypereference'{}}}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}}, + NewName=#type{def=#'Externaltypereference'{}}}|_T]) -> NewName#type.def; -match_parameters(_S,{valueset,#type{def=#'Externaltypereference'{type=Name}}}, - [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> +match_parameter(_S, {valueset,#type{def=#'Externaltypereference'{type=Name}}}, + [{{_,#'Externaltypereference'{type=Name}},NewName}|_T]) -> NewName; %% When a parameter is a parameterized element it has to be %% instantiated now! -match_parameters(S,{valueset,T=#type{def={pt,_,_Args}}},_Parameters) -> - case catch check_type(S,#typedef{name=S#state.tname,typespec=T},T) of - pobjectsetdef -> - +match_parameter(S, {valueset,T=#type{def={pt,_,_Args}}}, _Ps) -> + try check_type(S,#typedef{name=S#state.tname,typespec=T},T) of + #type{def=Ts} -> + Ts + catch pobjectsetdef -> {_,ObjRef,_Params} = T#type.def, {_,ObjDef}=get_referenced_type(S,ObjRef), %%ObjDef is a pvaluesetdef where the type field holds the class @@ -4818,17 +4051,15 @@ match_parameters(S,{valueset,T=#type{def={pt,_,_Args}}},_Parameters) -> ObjectSet = #'ObjectSet'{class=RightClassRef,set=T}, ObjSpec = check_object(S,#typedef{typespec=ObjectSet},ObjectSet), Name = list_to_atom(asn1ct_gen:list2name([get_datastr_name(ObjDef)|S#state.recordtopname])), - save_object_set_instance(S,Name,ObjSpec); - pvaluesetdef -> error({pvaluesetdef,"parameterized valueset",S}); - {error,_Reason} -> error({type,"error in parameter",S}); - Ts when is_record(Ts,type) -> Ts#type.def + save_object_set_instance(S,Name,ObjSpec) end; + %% same as previous, only depends on order of parsing -match_parameters(S,{valueset,{pos,{objectset,_,POSref},Args}},Parameters) -> - match_parameters(S,{valueset,#type{def={pt,POSref,Args}}},Parameters); -match_parameters(S,Name, [_H|T]) -> - %%io:format("match_parameters(~p,~p)~n",[Name,[H|T]]), - match_parameters(S,Name,T). +match_parameter(S, {valueset,{pos,{objectset,_,POSref},Args}}, Ps) -> + match_parameter(S, {valueset,#type{def={pt,POSref,Args}}}, Ps); +match_parameter(S, Name, [_H|T]) -> + %%io:format("match_parameter(~p,~p)~n",[Name,[H|T]]), + match_parameter(S, Name, T). imported(S,Name) -> {imports,Ilist} = (S#state.module)#module.imports, @@ -4854,7 +4085,6 @@ check_named_number_list(_S, [{_,_}|_]=NNL) -> NNL; check_named_number_list(S, NNL0) -> %% Check that the names are unique. - T = S#state.type, case check_unique(NNL0, 2) of [] -> NNL1 = [{Id,resolve_valueref(S, Val)} || {'NamedNumber',Id,Val} <- NNL0], @@ -4863,14 +4093,14 @@ check_named_number_list(S, NNL0) -> [] -> NNL; [Val|_] -> - asn1_error(S, T, {value_reused,Val}) + asn1_error(S, {value_reused,Val}) end; [H|_] -> - asn1_error(S, T, {namelist_redefinition,H}) + asn1_error(S, {namelist_redefinition,H}) end. -resolve_valueref(S, #'Externalvaluereference'{module=Mod,value=Name}) -> - dbget_ex(S, Mod, Name); +resolve_valueref(S, #'Externalvaluereference'{} = T) -> + get_referenced_value(S, T); resolve_valueref(_, Val) when is_integer(Val) -> Val. @@ -4879,7 +4109,7 @@ check_integer(S, NNL) -> check_bitstring(S, NNL0) -> NNL = check_named_number_list(S, NNL0), - _ = [asn1_error(S, S#state.type, {invalid_bit_number,Bit}) || + _ = [asn1_error(S, {invalid_bit_number,Bit}) || {_,Bit} <- NNL, Bit < 0], NNL. @@ -4904,7 +4134,7 @@ check_type_identifier(S, Eref=#'Externaltypereference'{type=Class}) -> {_,TD=#typedef{typespec=#type{def=#'Externaltypereference'{}}}} -> check_type_identifier(S, (TD#typedef.typespec)#type.def); _ -> - asn1_error(S, S#state.type, {illegal_instance_of,Class}) + asn1_error(S, {illegal_instance_of,Class}) end. iof_associated_type(S,[]) -> @@ -4913,12 +4143,7 @@ iof_associated_type(S,[]) -> case get(instance_of) of undefined -> AssociateSeq = iof_associated_type1(S,[]), - Tag = - case S#state.erule of - ber -> - [?TAG_CONSTRUCTED(?N_INSTANCE_OF)]; - _ -> [] - end, + Tag = [?TAG_CONSTRUCTED(?N_INSTANCE_OF)], TypeDef=#typedef{checked=true, name='INSTANCE OF', typespec=#type{tag=Tag, @@ -4944,16 +4169,11 @@ iof_associated_type1(S,C) -> [] -> 'ASN1_OPEN_TYPE'; _ -> {typefield,'Type'} end, - {ObjIdTag,C1TypeTag}= - case S#state.erule of - ber -> - {[{'UNIVERSAL',8}], - [#tag{class='UNIVERSAL', - number=6, - type='IMPLICIT', - form=0}]}; - _ -> {[{'UNIVERSAL','INTEGER'}],[]} - end, + ObjIdTag = [{'UNIVERSAL',8}], + C1TypeTag = [#tag{class='UNIVERSAL', + number=6, + type='IMPLICIT', + form=0}], TypeIdentifierRef=#'Externaltypereference'{module=ModuleName, type='TYPE-IDENTIFIER'}, ObjectIdentifier = @@ -4992,9 +4212,13 @@ iof_associated_type1(S,C) -> %% returns the leading attribute, the constraint of the components and %% the tablecinf value for the second component. -instance_of_constraints(_,[]) -> +instance_of_constraints(_, []) -> {false,[],[],[]}; -instance_of_constraints(S, [{simpletable,Type}]) -> +instance_of_constraints(S, [{element_set,{simpletable,C},none}]) -> + {element_set,Type,none} = C, + instance_of_constraints_1(S, Type). + +instance_of_constraints_1(S, Type) -> #type{def=#'Externaltypereference'{type=Name}} = Type, ModuleName = S#state.mname, ObjectSetRef=#'Externaltypereference'{module=ModuleName, @@ -5014,93 +4238,100 @@ instance_of_constraints(S, [{simpletable,Type}]) -> valueindex=[]}, {TableCInf,[{simpletable,Name}],CRel,[{objfun,ObjectSetRef}]}. -%% Check ENUMERATED -%% **************************************** -%% Check that all values are unique -%% assign values to un-numbered identifiers -%% check that the constraints are allowed and correct -%% put the updated info back into database -check_enumerated(_S,[{Name,Number}|_Rest]= NNList,_Constr) when is_atom(Name), is_integer(Number)-> - %% already checked , just return the same list - NNList; -check_enumerated(_S,{[{Name,Number}|_Rest],L}= NNList,_Constr) when is_atom(Name), is_integer(Number), is_list(L)-> - %% already checked , contains extension marker, just return the same lists - NNList; -check_enumerated(S,NamedNumberList,_Constr) -> - check_enum(S,NamedNumberList,[],[],[]). - -%% identifiers are put in Acc2 -%% returns either [{Name,Number}] or {[{Name,Number}],[{ExtName,ExtNumber}]} -%% the latter is returned if the ENUMERATION contains EXTENSIONMARK -check_enum(S,[{'NamedNumber',Id,Num}|T],Acc1,Acc2,Root) when is_integer(Num) -> - check_enum(S,T,[{Id,Num}|Acc1],Acc2,Root); -check_enum(S,['EXTENSIONMARK'|T],Acc1,Acc2,_Root) -> - NewAcc2 = lists:keysort(2,Acc1), - NewList = enum_number(lists:reverse(Acc2),NewAcc2,0,[],[]), - { NewList, check_enum(S,T,[],[],enum_counts(NewList))}; -check_enum(S,[Id|T],Acc1,Acc2,Root) when is_atom(Id) -> - check_enum(S,T,Acc1,[Id|Acc2],Root); -check_enum(_S,[],Acc1,Acc2,Root) -> - NewAcc2 = lists:keysort(2,Acc1), - enum_number(lists:reverse(Acc2),NewAcc2,0,[],Root). - - -% assign numbers to identifiers , numbers from 0 ... but must not -% be the same as already assigned to NamedNumbers -enum_number(Identifiers,NamedNumbers,Cnt,Acc,[]) -> - enum_number(Identifiers,NamedNumbers,Cnt,Acc); -enum_number(Identifiers,NamedNumbers,_Cnt,Acc,CountL) -> - enum_extnumber(Identifiers,NamedNumbers,Acc,CountL). - -enum_number([H|T],[{Id,Num}|T2],Cnt,Acc) when Num > Cnt -> - enum_number(T,[{Id,Num}|T2],Cnt+1,[{H,Cnt}|Acc]); -enum_number([H|T],[{Id,Num}|T2],Cnt,Acc) when Num < Cnt -> % negative Num - enum_number(T,T2,Cnt+1,[{H,Cnt},{Id,Num}|Acc]); -enum_number([],L2,_Cnt,Acc) -> - lists:append([lists:reverse(Acc),L2]); -enum_number(L,[{Id,Num}|T2],Cnt,Acc) -> % Num == Cnt - enum_number(L,T2,Cnt+1,[{Id,Num}|Acc]); -enum_number([H|T],[],Cnt,Acc) -> - enum_number(T,[],Cnt+1,[{H,Cnt}|Acc]). - -enum_extnumber(Identifiers,NamedNumbers,Acc,[C]) -> - check_add_enum_numbers(NamedNumbers,[C]), - enum_number(Identifiers,NamedNumbers,C,Acc); -enum_extnumber([H|T],[{Id,Num}|T2],Acc,[C|Counts]) when Num > C -> - enum_extnumber(T,[{Id,Num}|T2],[{H,C}|Acc],Counts); -enum_extnumber([],L2,Acc,Cnt) -> - check_add_enum_numbers(L2, Cnt), - lists:concat([lists:reverse(Acc),L2]); -enum_extnumber(_Identifiers,[{Id,Num}|_T2],_Acc,[C|_]) when Num < C -> -%% enum_extnumber(Identifiers,T2,[{Id,Num}|Acc],Counts); - exit({error,{asn1,"AdditionalEnumeration element with same number as root element",{Id,Num}}}); -enum_extnumber(Identifiers,[{Id,Num}|T2],Acc,[_C|Counts]) -> % Num =:= C - enum_extnumber(Identifiers,T2,[{Id,Num}|Acc],Counts); -enum_extnumber([H|T],[],Acc,[C|Counts]) -> - enum_extnumber(T,[],[{H,C}|Acc],Counts). - -enum_counts([]) -> - [0]; -enum_counts(L) -> - Used=[I||{_,I}<-L], - AddEnumLb = lists:max(Used) + 1, - lists:foldl(fun(El,AccIn)->lists:delete(El,AccIn) end, - lists:seq(0,AddEnumLb), - Used). -check_add_enum_numbers(L, Cnt) -> - Max = lists:max(Cnt), - Fun = fun({_,N}=El) when N < Max -> - case lists:member(N,Cnt) of - false -> - exit({error,{asn1,"AdditionalEnumeration element with same number as root element",El}}); - _ -> - ok - end; - (_) -> - ok - end, - lists:foreach(Fun,L). +%%% +%%% Check ENUMERATED. +%%% +check_enumerated(_S, [{Name,Number}|_]=NNL) + when is_atom(Name), is_integer(Number) -> + %% Already checked. + NNL; +check_enumerated(_S, {[{Name,Number}|_],L}=NNL) + when is_atom(Name), is_integer(Number), is_list(L) -> + %% Already checked (with extension). + NNL; +check_enumerated(S, NNL) -> + check_enum_ids(S, NNL, gb_sets:empty()), + check_enum(S, NNL, gb_sets:empty(), []). + +check_enum_ids(S, [{'NamedNumber',Id,_}|T], Ids0) -> + Ids = check_enum_update_ids(S, Id, Ids0), + check_enum_ids(S, T, Ids); +check_enum_ids(S, ['EXTENSIONMARK'|T], Ids) -> + check_enum_ids(S, T, Ids); +check_enum_ids(S, [Id|T], Ids0) when is_atom(Id) -> + Ids = check_enum_update_ids(S, Id, Ids0), + check_enum_ids(S, T, Ids); +check_enum_ids(_, [], _) -> + ok. + +check_enum(S, [{'NamedNumber',Id,N}|T], Used0, Acc) -> + Used = check_enum_update_used(S, Id, N, Used0), + check_enum(S, T, Used, [{Id,N}|Acc]); +check_enum(S, ['EXTENSIONMARK'|Ext0], Used0, Acc0) -> + Acc = lists:reverse(Acc0), + {Root,Used,Cnt} = check_enum_number_root(Acc, Used0, 0, []), + Ext = check_enum_ext(S, Ext0, Used, Cnt, []), + {Root,Ext}; +check_enum(S, [Id|T], Used, Acc) when is_atom(Id) -> + check_enum(S, T, Used, [Id|Acc]); +check_enum(_, [], Used, Acc0) -> + Acc = lists:reverse(Acc0), + {Root,_,_} = check_enum_number_root(Acc, Used, 0, []), + lists:keysort(2, Root). + +check_enum_number_root([Id|T]=T0, Used0, Cnt, Acc) when is_atom(Id) -> + case gb_sets:is_element(Cnt, Used0) of + false -> + Used = gb_sets:insert(Cnt, Used0), + check_enum_number_root(T, Used, Cnt+1, [{Id,Cnt}|Acc]); + true -> + check_enum_number_root(T0, Used0, Cnt+1, Acc) + end; +check_enum_number_root([H|T], Used, Cnt, Acc) -> + check_enum_number_root(T, Used, Cnt, [H|Acc]); +check_enum_number_root([], Used, Cnt, Acc) -> + {lists:keysort(2, Acc),Used,Cnt}. + +check_enum_ext(S, [{'NamedNumber',Id,N}|T], Used0, C, Acc) -> + Used = check_enum_update_used(S, Id, N, Used0), + if + N < C -> + asn1_error(S, {enum_not_ascending,Id,N,C-1}); + true -> + ok + end, + check_enum_ext(S, T, Used, N+1, [{Id,N}|Acc]); +check_enum_ext(S, [Id|T]=T0, Used0, C, Acc) when is_atom(Id) -> + case gb_sets:is_element(C, Used0) of + true -> + check_enum_ext(S, T0, Used0, C+1, Acc); + false -> + Used = gb_sets:insert(C, Used0), + check_enum_ext(S, T, Used, C+1, [{Id,C}|Acc]) + end; +check_enum_ext(_, [], _, _, Acc) -> + lists:keysort(2, Acc). + +check_enum_update_ids(S, Id, Ids) -> + case gb_sets:is_element(Id, Ids) of + false -> + gb_sets:insert(Id, Ids); + true -> + asn1_error(S, {enum_illegal_redefinition,Id}) + end. + +check_enum_update_used(S, Id, N, Used) -> + case gb_sets:is_element(N, Used) of + false -> + gb_sets:insert(N, Used); + true -> + asn1_error(S, {enum_reused_value,Id,N}) + end. + +%%% +%%% End of ENUMERATED checking. +%%% check_boolean(_S,_Constr) -> ok. @@ -5145,7 +4376,7 @@ check_sequence(S,Type,Comps) -> CompListTuple = complist_as_tuple(NewComps4), {CRelInf,CompListTuple}; Dupl -> - throw({error,{asn1,{duplicate_components,Dupl}}}) + asn1_error(S, {duplicate_identifier, error_value(hd(Dupl))}) end. complist_as_tuple(CompList) -> @@ -5155,8 +4386,6 @@ complist_as_tuple([#'EXTENSIONMARK'{}|T], Acc, Ext, Acc2, root) -> complist_as_tuple(T, Acc, Ext, Acc2, ext); complist_as_tuple([#'EXTENSIONMARK'{}|T], Acc, Ext, Acc2, ext) -> complist_as_tuple(T, Acc, Ext, Acc2, root2); -complist_as_tuple([#'EXTENSIONMARK'{}|_T], _Acc, _Ext, _Acc2, root2) -> - throw({error,{asn1,{too_many_extension_marks}}}); complist_as_tuple([C|T], Acc, Ext, Acc2, root) -> complist_as_tuple(T, [C|Acc], Ext, Acc2, root); complist_as_tuple([C|T], Acc, Ext, Acc2, ext) -> @@ -5199,11 +4428,11 @@ expand_components2(S,{_,PT={pt,_,_}}) -> expand_components2(S,{_,OCFT = #'ObjectClassFieldType'{}}) -> UncheckedType = #type{def=OCFT}, Type = check_type(S,#typedef{typespec=UncheckedType},UncheckedType), - expand_components2(S,{undefined,oCFT_def(S,Type)}); + expand_components2(S, {undefined,ocft_def(Type)}); expand_components2(S,{_,ERef}) when is_record(ERef,'Externaltypereference') -> expand_components2(S,get_referenced_type(S,ERef)); -expand_components2(_S,Err) -> - throw({error,{asn1,{illegal_COMPONENTS_OF,Err}}}). +expand_components2(S,{_, What}) -> + asn1_error(S, {illegal_COMPONENTS_OF, error_value(What)}). take_only_rootset([])-> []; @@ -5252,7 +4481,7 @@ check_sequenceof(S,Type,Component) when is_record(Component,type) -> check_set(S,Type,Components) -> {TableCInf,NewComponents} = check_sequence(S,Type,Components), - check_distinct_tags(NewComponents,[]), + check_unique_tags(S, collect_components(NewComponents), []), case {lists:member(der,S#state.options),S#state.erule} of {true,_} -> {Sorted,SortedComponents} = sort_components(der,S,NewComponents), @@ -5264,35 +4493,21 @@ check_set(S,Type,Components) -> {false,TableCInf,NewComponents} end. - -%% check that all tags are distinct according to X.680 26.3 -check_distinct_tags({C1,C2,C3},Acc) when is_list(C1),is_list(C2),is_list(C3) -> - check_distinct_tags(C1++C2++C3,Acc); -check_distinct_tags({C1,C2},Acc) when is_list(C1),is_list(C2) -> - check_distinct_tags(C1++C2,Acc); -check_distinct_tags([#'ComponentType'{tags=[T]}|Cs],Acc) -> - check_distinct(T,Acc), - check_distinct_tags(Cs,[T|Acc]); -check_distinct_tags([C=#'ComponentType'{tags=[T|Ts]}|Cs],Acc) -> - check_distinct(T,Acc), - check_distinct_tags([C#'ComponentType'{tags=Ts}|Cs],[T|Acc]); -check_distinct_tags([#'ComponentType'{tags=[]}|_Cs],_Acc) -> - throw({error,"Not distinct tags in SET"}); -check_distinct_tags([],_) -> - ok. -check_distinct(T,Acc) -> - case lists:member(T,Acc) of - true -> - throw({error,"Not distinct tags in SET"}); - _ -> ok - end. +collect_components({C1,C2,C3}) -> + collect_components(C1++C2++C3); +collect_components({C1,C2}) -> + collect_components(C1++C2); +collect_components(Cs) -> + %% Assert that tags are not empty + [] = [EmptyTag || EmptyTag = #'ComponentType'{tags=[]} <- Cs], + Cs. %% sorting in canonical order according to X.680 8.6, X.691 9.2 %% DER: all components shall be sorted in canonical order. %% PER: only root components shall be sorted in canonical order. The %% extension components shall remain in textual order. %% -sort_components(der,S=#state{tname=TypeName},Components) -> +sort_components(der, S, Components) -> {R1,Ext,R2} = extension(textual_order(Components)), CompsList = case Ext of noext -> R1; @@ -5300,88 +4515,34 @@ sort_components(der,S=#state{tname=TypeName},Components) -> end, case {untagged_choice(S,CompsList),Ext} of {false,noext} -> - {true,sort_components1(S,TypeName,CompsList,[],[],[],[])}; + {true,sort_components1(CompsList)}; {false,_} -> - {true,{sort_components1(S,TypeName,CompsList,[],[],[],[]), []}}; + {true,{sort_components1(CompsList),[]}}; {true,noext} -> %% sort in run-time {dynamic,R1}; _ -> {dynamic,{R1, Ext, R2}} end; -sort_components(per,S=#state{tname=TypeName},Components) -> +sort_components(per, S, Components) -> {R1,Ext,R2} = extension(textual_order(Components)), Root = tag_untagged_choice(S,R1++R2), case Ext of noext -> - {true,sort_components1(S,TypeName,Root,[],[],[],[])}; + {true,sort_components1(Root)}; _ -> - {true,{sort_components1(S,TypeName,Root,[],[],[],[]), - Ext}} + {true,{sort_components1(Root),Ext}} end. -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'UNIVERSAL',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,[C|UnivAcc],ApplAcc,ContAcc,PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'APPLICATION',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,[C|ApplAcc],ContAcc,PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'CONTEXT',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,ApplAcc,[C|ContAcc],PrivAcc); -sort_components1(S,TypeName,[C=#'ComponentType'{tags=[{'PRIVATE',_}|_R]}|Cs], - UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - sort_components1(S,TypeName,Cs,UnivAcc,ApplAcc,ContAcc,[C|PrivAcc]); -sort_components1(S,TypeName,[],UnivAcc,ApplAcc,ContAcc,PrivAcc) -> - I = #'ComponentType'.tags, - ascending_order_check(S,TypeName,sort_universal_type(UnivAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,ApplAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,ContAcc)) ++ - ascending_order_check(S,TypeName,lists:keysort(I,PrivAcc)). - -ascending_order_check(S,TypeName,Components) -> - ascending_order_check1(S,TypeName,Components), - Components. - -ascending_order_check1(S,TypeName, - [C1 = #'ComponentType'{tags=[{_,T}|_]}, - C2 = #'ComponentType'{tags=[{_,T}|_]}|Rest]) -> - asn1ct:warning("Indistinct tag ~p in SET ~p, components ~p and ~p~n", - [T,TypeName,C1#'ComponentType'.name,C2#'ComponentType'.name],S, - "Indistinct tag in SET"), - ascending_order_check1(S,TypeName,[C2|Rest]); -ascending_order_check1(S,TypeName, - [C1 = #'ComponentType'{tags=[{'UNIVERSAL',T1}|_]}, - C2 = #'ComponentType'{tags=[{'UNIVERSAL',T2}|_]}|Rest]) -> - case (decode_type(T1) == decode_type(T2)) of - true -> - asn1ct:warning("Indistinct tags ~p and ~p in" - " SET ~p, components ~p and ~p~n", - [T1,T2,TypeName,C1#'ComponentType'.name, - C2#'ComponentType'.name],S, - "Indistinct tags and in SET"), - ascending_order_check1(S,TypeName,[C2|Rest]); - _ -> - ascending_order_check1(S,TypeName,[C2|Rest]) - end; -ascending_order_check1(S,N,[_|Rest]) -> - ascending_order_check1(S,N,Rest); -ascending_order_check1(_,_,[]) -> - ok. - -sort_universal_type(Components) -> - List = lists:map(fun(C) -> - #'ComponentType'{tags=[{_,T}|_]} = C, - {decode_type(T),C} - end, - Components), - SortedList = lists:keysort(1,List), - lists:map(fun(X)->element(2,X) end,SortedList). - -decode_type(I) when is_integer(I) -> - I; -decode_type(T) -> - asn1ct_gen_ber_bin_v2:decode_type(T). +sort_components1(Cs0) -> + Cs1 = [{tag_key(Tag),C} || #'ComponentType'{tags=[Tag|_]}=C <- Cs0], + Cs = lists:sort(Cs1), + [C || {_,C} <- Cs]. + +tag_key({'UNIVERSAL',Tag}) -> {0,Tag}; +tag_key({'APPLICATION',Tag}) -> {1,Tag}; +tag_key({'CONTEXT',Tag}) -> {2,Tag}; +tag_key({'PRIVATE',Tag}) -> {3,Tag}. untagged_choice(_S,[#'ComponentType'{typespec=#type{tag=[],def={'CHOICE',_}}}|_Rest]) -> true; @@ -5477,35 +4638,43 @@ check_selectiontype(S,Name,#type{def=Eref}) {RefMod,TypeDef} = get_referenced_type(S,Eref), NewS = S#state{module=load_asn1_module(S,RefMod), mname=RefMod, - type=TypeDef, tname=get_datastr_name(TypeDef)}, check_selectiontype2(NewS,Name,TypeDef); check_selectiontype(S,Name,Type=#type{def={pt,_,_}}) -> - TName = - case S#state.recordtopname of - [] -> - S#state.tname; - N -> N - end, + TName = case S#state.recordtopname of + [] -> S#state.tname; + N -> N + end, TDef = #typedef{name=TName,typespec=Type}, check_selectiontype2(S,Name,TDef); -check_selectiontype(S,Name,Type) -> - Msg = lists:flatten(io_lib:format("SelectionType error: ~w < ~w must be a reference to a CHOICE.",[Name,Type])), - error({type,Msg,S}). +check_selectiontype(S, _Name, Type) -> + asn1_error(S, {illegal_choice_type, error_value(Type)}). check_selectiontype2(S,Name,TypeDef) -> NewS = S#state{recordtopname=get_datastr_name(TypeDef)}, - CheckedType = check_type(NewS,TypeDef,TypeDef#typedef.typespec), - Components = get_choice_components(S,CheckedType#type.def), - case lists:keysearch(Name,#'ComponentType'.name,Components) of - {value,C} -> - %% The selected type will have the tag of the selected type. - _T = C#'ComponentType'.typespec; -% T#type{tag=def_to_tag(NewS,T#type.def)}; - _ -> - Msg = lists:flatten(io_lib:format("error checking SelectionType: ~w~n",[Name])), - error({type,Msg,S}) + Components = + try + CheckedType = check_type(NewS,TypeDef,TypeDef#typedef.typespec), + get_choice_components(S,CheckedType#type.def) + catch error:_ -> + asn1_error(S, {illegal_choice_type, error_value(TypeDef)}) + end, + case lists:keyfind(Name, #'ComponentType'.name, Components) of + #'ComponentType'{typespec=TS} -> TS; + false -> asn1_error(S, {illegal_id, error_value(Name)}) end. + + +get_choice_components(_S,{'CHOICE',Components}) when is_list(Components)-> + Components; +get_choice_components(_S,{'CHOICE',{C1,C2}}) when is_list(C1),is_list(C2) -> + C1++C2; +get_choice_components(S,ERef=#'Externaltypereference'{}) -> + {_RefMod,TypeDef}=get_referenced_type(S,ERef), + #typedef{typespec=TS} = TypeDef, + get_choice_components(S,TS#type.def). + + check_restrictedstring(_S,_Def,_Constr) -> ok. @@ -5538,7 +4707,7 @@ check_choice(S,Type,Components) when is_list(Components) -> check_unique_tags(S, NewComps3), complist_as_tuple(NewComps3); Dupl -> - throw({error,{asn1,{duplicate_choice_alternatives,Dupl}}}) + asn1_error(S, {duplicate_identifier,error_value(hd(Dupl))}) end; check_choice(_S,_,[]) -> []. @@ -5635,25 +4804,30 @@ check_unique_tags(S,C) -> case (S#state.module)#module.tagdefault of 'AUTOMATIC' -> case any_manual_tag(C) of - false -> true; - _ -> collect_and_sort_tags(C,[]) + false -> + true; + true -> + check_unique_tags(S, C, []) end; _ -> - collect_and_sort_tags(C,[]) + check_unique_tags(S, C, []) end. -collect_and_sort_tags([C|Rest],Acc) when is_record(C,'ComponentType') -> - collect_and_sort_tags(Rest,C#'ComponentType'.tags ++ Acc); -collect_and_sort_tags([_|Rest],Acc) -> - collect_and_sort_tags(Rest,Acc); -collect_and_sort_tags([],Acc) -> - {Dupl,_}= lists:mapfoldl(fun(El,El)->{{dup,El},El};(El,_Prev)-> {El,El} end,notag,lists:sort(Acc)), - Dupl2 = [Dup|| {dup,Dup} <- Dupl], - if - length(Dupl2) > 0 -> - throw({error,{asn1,{duplicates_of_the_tags,Dupl2}}}); - true -> - true +check_unique_tags(S, [#'ComponentType'{name=Name,tags=Tags0}|T], Acc) -> + Tags = [{Tag,Name} || Tag <- Tags0], + check_unique_tags(S, T, Tags ++ Acc); +check_unique_tags(S, [_|T], Acc) -> + check_unique_tags(S, T, Acc); +check_unique_tags(S, [], Acc) -> + R0 = sofs:relation(Acc), + R1 = sofs:relation_to_family(R0), + R2 = sofs:to_external(R1), + Dup = [Els || {_,[_,_|_]=Els} <- R2], + case Dup of + [] -> + ok; + [FirstDupl|_] -> + asn1_error(S, {duplicate_tags,FirstDupl}) end. check_unique(L,Pos) -> @@ -5795,28 +4969,18 @@ componentrelation_leadingattr(S,[C= #'ComponentType'{}|Cs],CompList,Acc,CompAcc) {[],C}; [{ObjSet,Attr,N,ClassDef,_Path,ValueIndex}|_NewRest] -> OS = object_set_mod_name(S,ObjSet), - UniqueFieldName = - case (catch get_unique_fieldname(S,#classdef{typespec=ClassDef})) of - {error,'__undefined_',_} -> - no_unique; - {asn1,Msg,_} -> - error({type,Msg,S}); - {'EXIT',Msg} -> - error({type,{internal_error,Msg},S}); - {Other,_} -> Other - end, -% UsedFieldName = get_used_fieldname(S,Attr,STList), + UniqFN = get_unique_fieldname(S, + #classdef{typespec=ClassDef}), %% Res should be done differently: even though %% a unique field name exists it is not %% certain that the ObjectClassFieldType of %% the simple table constraint picks that %% class field. Res = #simpletableattributes{objectsetname=OS, -%% c_name=asn1ct_gen:un_hyphen_var(Attr), c_name=Attr, c_index=N, - usedclassfield=UniqueFieldName, - uniqueclassfield=UniqueFieldName, + usedclassfield=UniqFN, + uniqueclassfield=UniqFN, valueindex=ValueIndex}, {[Res],C#'ComponentType'{typespec=NewTSpec}} end; @@ -5869,7 +5033,7 @@ remove_doubles1(El,L) -> NewL -> remove_doubles1(El,NewL) end. -%% get_simple_table_info searches the commponents Cs by the path from +%% get_simple_table_info searches the components Cs by the path from %% an at-list (third argument), and follows into a component of it if %% necessary, to get information needed for code generating. %% @@ -5884,32 +5048,35 @@ remove_doubles1(El,L) -> % %% at least one step below the outermost level, i.e. the leading % %% information shall be on a sub level. 2) They don't have any common % %% path. -get_simple_table_info(S,Cs,[AtList|Rest]) -> - [get_simple_table_info1(S,Cs,AtList,[])|get_simple_table_info(S,Cs,Rest)]; -get_simple_table_info(_,_,[]) -> - []. -get_simple_table_info1(S,Cs,[Cname|Cnames],Path) when is_list(Cs) -> - case lists:keysearch(Cname,#'ComponentType'.name,Cs) of - {value,C} -> - get_simple_table_info1(S,C,Cnames,[Cname|Path]); - _ -> - error({type,"Missing expected simple table constraint",S}) - end; -get_simple_table_info1(S,#'ComponentType'{typespec=TS},[],Path) -> - %% In this component there must be a simple table constraint - %% o.w. the asn1 code is wrong. - #type{def=OCFT,constraint=Cnstr} = TS, - case constraint_member(simpletable,Cnstr) of - {true,{simpletable,_OSRef}} -> - simple_table_info(S,OCFT,Path); - _ -> - error({type,{"missing expected simple table constraint", - Cnstr},S}) +get_simple_table_info(S, Cs, AtLists) -> + [get_simple_table_info1(S, Cs, AtList, []) || AtList <- AtLists]. + +get_simple_table_info1(S, Cs, [Cname|Cnames], Path) -> + #'ComponentType'{} = C = + lists:keyfind(Cname, #'ComponentType'.name, Cs), + get_simple_table_info2(S, C, Cnames, [Cname|Path]). + +get_simple_table_info2(S, #'ComponentType'{name=Name,typespec=TS}, [], Path) -> + OCFT = simple_table_get_ocft(S, Name, TS), + case lists:keymember(simpletable, 1, TS#type.constraint) of + true -> + simple_table_info(S, OCFT, Path); + false -> + asn1_error(S, {missing_table_constraint,Name}) end; -get_simple_table_info1(S,#'ComponentType'{typespec=TS},Cnames,Path) -> +get_simple_table_info2(S, #'ComponentType'{typespec=TS}, Cnames, Path) -> Components = get_atlist_components(TS#type.def), - get_simple_table_info1(S,Components,Cnames,Path). - + get_simple_table_info1(S, Components, Cnames, Path). + +simple_table_get_ocft(_, _, #type{def=#'ObjectClassFieldType'{}=OCFT}) -> + OCFT; +simple_table_get_ocft(S, Component, #type{constraint=Constr}) -> + case lists:keyfind(ocft, 1, Constr) of + {ocft,OCFT} -> + OCFT; + false -> + asn1_error(S, {missing_ocft,Component}) + end. simple_table_info(S,#'ObjectClassFieldType'{classname=ClRef, class=ObjectClass, @@ -5932,19 +5099,8 @@ simple_table_info(S,#'ObjectClassFieldType'{classname=ClRef, CDef; _ -> #classdef{typespec=ObjectClass} end, - UniqueName = - case (catch get_unique_fieldname(S,ClassDef)) of - {error,'__undefined_',_} -> no_unique; - {asn1,Msg,_} -> - error({type,Msg,S}); - {'EXIT',Msg} -> - error({type,{internal_error,Msg},S}); - {Other,_} -> Other - end, - {lists:reverse(Path),ObjectClassFieldName,UniqueName}; -simple_table_info(S,Type,_) -> - error({type,{"the type referenced by a componentrelation constraint must be a ObjectClassFieldType",Type},S}). - + UniqueName = get_unique_fieldname(S, ClassDef), + {lists:reverse(Path),ObjectClassFieldName,UniqueName}. %% any_component_relation searches for all component relation %% constraints that refers to the actual level and returns a list of @@ -5958,9 +5114,8 @@ simple_table_info(S,Type,_) -> %% is found to check the validity of the at-list. any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames,NamePath,Acc) -> CRelPath = - case constraint_member(componentrelation,Type#type.constraint) of -%% [{componentrelation,_,AtNotation}] -> - {true,{_,_,AtNotation}} -> + case lists:keyfind(componentrelation, 1, Type#type.constraint) of + {_,_,AtNotation} -> %% Found component relation constraint, now check %% whether this constraint is relevant for the level %% where the search started @@ -5969,7 +5124,7 @@ any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames, %% simple table constraint from where the component %% relation is found. evaluate_atpath(S,NamePath,CNames,AtNot); - _ -> + false -> [] end, InnerAcc = @@ -5991,11 +5146,11 @@ any_component_relation(S,[#'ComponentType'{name=CName,typespec=Type}|Cs],CNames, any_component_relation(S,Cs,CNames,NamePath,InnerAcc++CRelPath++Acc); any_component_relation(S,Type,CNames,NamePath,Acc) when is_record(Type,type) -> CRelPath = - case constraint_member(componentrelation,Type#type.constraint) of - {true,{_,_,AtNotation}} -> + case lists:keyfind(componentrelation, 1, Type#type.constraint) of + {_,_,AtNotation} -> AtNot = extract_at_notation(AtNotation), evaluate_atpath(S,NamePath,CNames,AtNot); - _ -> + false -> [] end, InnerAcc = @@ -6017,15 +5172,6 @@ any_component_relation(S,['ExtensionAdditionGroupEnd'|Cs],CNames,NamePath,Acc) - any_component_relation(_,[],_,_,Acc) -> Acc. -constraint_member(componentrelation,[CRel={componentrelation,_,_}|_Rest]) -> - {true,CRel}; -constraint_member(simpletable,[ST={simpletable,_}|_Rest]) -> - {true,ST}; -constraint_member(Key,[_H|T]) -> - constraint_member(Key,T); -constraint_member(_,[]) -> - false. - %% evaluate_atpath/4 finds out whether the at notation refers to the %% search level. The list of referenced names in the AtNot list shall %% begin with a name that exists on the level it refers to. If the @@ -6059,9 +5205,7 @@ evaluate_atpath(S=#state{abscomppath=TopPath},NamePath,Cnames,{outermost,AtPath= {_,[H|_T]} -> case lists:member(H,Cnames) of true -> [AtPathBelowTop]; - _ -> - %% error({type,{asn1,"failed to analyze at-path",AtPath},S}) - throw({type,{asn1,"failed to analyze at-path",AtPath},S}) + _ -> asn1_error(S, {invalid_at_path, AtPath}) end end; evaluate_atpath(_,_,_,_) -> @@ -6098,23 +5242,8 @@ tuple2complist({R1,E,R2}) -> tuple2complist(List) when is_list(List) -> List. -get_choice_components(_S,{'CHOICE',Components}) when is_list(Components)-> - Components; -get_choice_components(_S,{'CHOICE',{C1,C2}}) when is_list(C1),is_list(C2) -> - C1++C2; -get_choice_components(S,ERef=#'Externaltypereference'{}) -> - {_RefMod,TypeDef}=get_referenced_type(S,ERef), - #typedef{typespec=TS} = TypeDef, - get_choice_components(S,TS#type.def). - -extract_at_notation([{Level,[#'Externalvaluereference'{value=Name}|Rest]}]) -> - {Level,[Name|extract_at_notation1(Rest)]}; -extract_at_notation(At) -> - exit({error,{asn1,{at_notation,At}}}). -extract_at_notation1([#'Externalvaluereference'{value=Name}|Rest]) -> - [Name|extract_at_notation1(Rest)]; -extract_at_notation1([]) -> - []. +extract_at_notation([{Level,ValueRefs}]) -> + {Level,[Name || #'Externalvaluereference'{value=Name} <- ValueRefs]}. %% componentrelation1/1 identifies all componentrelation constraints %% that exist in C or in the substructure of C. Info about the found @@ -6133,8 +5262,8 @@ componentrelation1(S,C = #type{def=Def,constraint=Constraint,tablecinf=TCI}, Ret = % case Constraint of % [{componentrelation,{_,_,ObjectSet},AtList}|_Rest] -> - case constraint_member(componentrelation,Constraint) of - {true,{_,{_,_,ObjectSet},AtList}} -> + case lists:keyfind(componentrelation, 1, Constraint) of + {_,{_,_,ObjectSet},AtList} -> [{_,AL=[#'Externalvaluereference'{}|_R1]}|_R2] = AtList, %% Note: if Path is longer than one,i.e. it is within %% an inner type of the actual level, then the only @@ -6145,7 +5274,7 @@ componentrelation1(S,C = #type{def=Def,constraint=Constraint,tablecinf=TCI}, lists:map(fun(#'Externalvaluereference'{value=V})->V end, AL), {[{ObjectSet,AtPath,ClassDef,Path}],Def}; - _ -> + false -> %% check the inner type of component innertype_comprel(S,Def,Path) end, @@ -6219,10 +5348,8 @@ componentlist_comprel(_,[],Acc,_,NewCL) -> innertype_comprel1(S,T = #type{def=Def,constraint=Cons,tablecinf=TCI},Path) -> Ret = -% case Cons of -% [{componentrelation,{_,_,ObjectSet},AtList}|_Rest] -> - case constraint_member(componentrelation,Cons) of - {true,{_,{_,_,ObjectSet},AtList}} -> + case lists:keyfind(componentrelation, 1, Cons) of + {_,{_,_,ObjectSet},AtList} -> %% This AtList must have an "outermost" at sign to be %% relevent here. [{_,AL=[#'Externalvaluereference'{value=_Attr}|_R1]}|_R2] @@ -6233,7 +5360,7 @@ innertype_comprel1(S,T = #type{def=Def,constraint=Cons,tablecinf=TCI},Path) -> lists:map(fun(#'Externalvaluereference'{value=V})->V end, AL), [{ObjectSet,AtPath,ClassDef,Path}]; - _ -> + false -> innertype_comprel(S,Def,Path) end, case Ret of @@ -6301,8 +5428,7 @@ value_match(S,#'ComponentType'{typespec=Type},Name,[At|Ats],Acc) -> InnerType = asn1ct_gen:get_inner(Type#type.def), Components = case get_atlist_components(Type#type.def) of - [] -> error({type,{asn1,"element in at list must be a " - "SEQUENCE, SET or CHOICE.",Name},S}); + [] -> asn1_error(S, {invalid_element, Name}); Comps -> Comps end, {Index,ValueIndex} = component_value_index(S,InnerType,At,Components), @@ -6322,29 +5448,27 @@ component_index1(_S,Name,[#'ComponentType'{name=Name}|_Cs],N) -> component_index1(S,Name,[_C|Cs],N) -> component_index1(S,Name,Cs,N+1); component_index1(S,Name,[],_) -> - error({type,{asn1,"component of at-list was not" - " found in substructure",Name},S}). + asn1_error(S, {invalid_at_list, Name}). -get_unique_fieldname(_S,ClassDef) when is_record(ClassDef,classdef) -> -%% {_,Fields,_} = ClassDef#classdef.typespec, - Fields = (ClassDef#classdef.typespec)#objectclass.fields, - get_unique_fieldname1(Fields,[]); +get_unique_fieldname(S, #classdef{typespec=TS}) -> + Fields = TS#objectclass.fields, + get_unique_fieldname1(S, Fields, []); get_unique_fieldname(S,#typedef{typespec=#type{def=ClassRef}}) -> %% A class definition may be referenced as %% REFED-CLASS ::= DEFINED-CLASS and then REFED-CLASS is a typedef {_M,ClassDef} = get_referenced_type(S,ClassRef), get_unique_fieldname(S,ClassDef). -get_unique_fieldname1([],[]) -> - throw({error,'__undefined_',[]}); -get_unique_fieldname1([],[Name]) -> - Name; -get_unique_fieldname1([],Acc) -> - throw({asn1,'only one UNIQUE field is allowed in CLASS',Acc}); -get_unique_fieldname1([{fixedtypevaluefield,Name,_,'UNIQUE',Opt}|Rest],Acc) -> - get_unique_fieldname1(Rest,[{Name,Opt}|Acc]); -get_unique_fieldname1([_H|T],Acc) -> - get_unique_fieldname1(T,Acc). +get_unique_fieldname1(S, [{fixedtypevaluefield,Name,_,'UNIQUE',Opt}|T], Acc) -> + get_unique_fieldname1(S, T, [{Name,Opt}|Acc]); +get_unique_fieldname1(S, [_|T], Acc) -> + get_unique_fieldname1(S, T, Acc); +get_unique_fieldname1(S, [], Acc) -> + case Acc of + [] -> no_unique; + [Name] -> Name; + [_|_] -> asn1_error(S, multiple_uniqs) + end. get_tableconstraint_info(S,Type,{CheckedTs,EComps,CheckedTs2}) -> {get_tableconstraint_info(S,Type,CheckedTs,[]), @@ -6400,31 +5524,8 @@ get_tableconstraint_info(S,Type,[C|Cs],Acc) -> get_referenced_fieldname([{_,FirstFieldname}]) -> {FirstFieldname,[]}; -get_referenced_fieldname([{_,FirstFieldname}|Rest]) -> - {FirstFieldname,lists:map(fun(X)->element(2,X) end,Rest)}; -get_referenced_fieldname(Def={FieldName,RestFieldName}) when is_atom(FieldName),is_list(RestFieldName)-> - Def; -get_referenced_fieldname(Def) -> - {no_type,Def}. - -%% get_ObjectClassFieldType extracts the type from the chain of -%% objects that leads to a final type. -get_ObjectClassFieldType(S,ERef,PrimFieldNameList) when - is_record(ERef,'Externaltypereference') -> - {MName,Type} = get_referenced_type(S,ERef), - NewS = update_state(S#state{type=Type, - tname=ERef#'Externaltypereference'.type},MName), - ClassSpec = check_class(NewS,Type), - Fields = ClassSpec#objectclass.fields, - get_ObjectClassFieldType(S,Fields,PrimFieldNameList); -get_ObjectClassFieldType(S,Fields,L=[_PrimFieldName1|_Rest]) -> - check_PrimitiveFieldNames(S,Fields,L), - get_OCFType(S,Fields,L); -get_ObjectClassFieldType(S,ERef,{FieldName,Rest}) -> - get_ObjectClassFieldType(S,ERef,Rest ++ [FieldName]). - -check_PrimitiveFieldNames(_S,_Fields,_) -> - ok. +get_referenced_fieldname([{_,FirstFieldname}|T]) -> + {FirstFieldname,[element(2, X) || X <- T]}. %% get_ObjectClassFieldType_classdef gets the def of the class of the %% ObjectClassFieldType, i.e. the objectclass record. If the type has @@ -6445,15 +5546,13 @@ get_OCFType(S,Fields,[PrimFieldName|Rest]) -> {fixedtypevaluefield,PrimFieldName,Type}; {value,{objectfield,_,ClassRef,_Unique,_OptSpec}} -> {MName,ClassDef} = get_referenced_type(S,ClassRef), - NewS = update_state(S#state{type=ClassDef, - tname=get_datastr_name(ClassDef)}, + NewS = update_state(S#state{tname=get_datastr_name(ClassDef)}, MName), CheckedCDef = check_class(NewS,ClassDef), get_OCFType(S,CheckedCDef#objectclass.fields,Rest); {value,{objectsetfield,_,Type,_OptSpec}} -> {MName,ClassDef} = get_referenced_type(S,Type#type.def), - NewS = update_state(S#state{type=ClassDef, - tname=get_datastr_name(ClassDef)}, + NewS = update_state(S#state{tname=get_datastr_name(ClassDef)}, MName), CheckedCDef = check_class(NewS,ClassDef), get_OCFType(S,CheckedCDef#objectclass.fields,Rest); @@ -6461,7 +5560,7 @@ get_OCFType(S,Fields,[PrimFieldName|Rest]) -> {value,Other} -> {element(1,Other),PrimFieldName}; _ -> - throw({error,lists:flatten(io_lib:format("undefined FieldName in ObjectClassFieldType: ~w",[PrimFieldName]))}) + asn1_error(S, {illegal_object_field, PrimFieldName}) end. get_taglist(S,Ext) when is_record(Ext,'Externaltypereference') -> @@ -6485,30 +5584,8 @@ get_taglist(_S,#'ObjectClassFieldType'{type={typefield,_}}) -> []; get_taglist(S,#'ObjectClassFieldType'{type={fixedtypevaluefield,_,Type}}) -> get_taglist(S,Type); -get_taglist(S,{ERef=#'Externaltypereference'{},FieldNameList}) - when is_list(FieldNameList) -> - case get_ObjectClassFieldType(S,ERef,FieldNameList) of - {fixedtypevaluefield,_,Type} -> get_taglist(S,Type); - {TypeFieldName,_} when is_atom(TypeFieldName) -> []%should check if allowed - end; -get_taglist(S,{ObjCl,FieldNameList}) when is_record(ObjCl,objectclass), - is_list(FieldNameList) -> - case get_ObjectClassFieldType(S,ObjCl#objectclass.fields,FieldNameList) of - {fixedtypevaluefield,_,Type} -> get_taglist(S,Type); - {TypeFieldName,_} when is_atom(TypeFieldName) -> []%should check if allowed - end; -get_taglist(S,Def) -> - case S#state.erule of - ber -> - []; - _ -> - case Def of - 'ASN1_OPEN_TYPE' -> % open_type has no UNIVERSAL tag as such - []; - _ -> - [asn1ct_gen:def_to_tag(Def)] - end - end. +get_taglist(_, _) -> + []. get_taglist1(S,[#'ComponentType'{name=_Cname,tags=TagL}|Rest]) when is_list(TagL) -> %% tag_list has been here , just return TagL and continue with next alternative @@ -6565,15 +5642,6 @@ get_taglist1(_S,[]) -> %% tag_number('CHARACTER STRING') -> 29; %% tag_number('BMPString') -> 30. - -dbget_ex(_S,Module,Key) -> - case asn1_db:dbget(Module,Key) of - undefined -> - - throw({error,{asn1,{undefined,{Module,Key}}}}); % this is catched on toplevel type or value - T -> T - end. - merge_tags(T1, T2) when is_list(T2) -> merge_tags2(T1 ++ T2, []); merge_tags(T1, T2) -> @@ -6590,75 +5658,46 @@ merge_tags2([H|T],Acc) -> merge_tags2([], Acc) -> lists:reverse(Acc). -%% merge_constraints(C1, []) -> -%% C1; -%% merge_constraints([], C2) -> -%% C2; -%% merge_constraints(C1, C2) -> -%% {SList,VList,PAList,Rest} = splitlist(C1++C2,[],[],[],[]), -%% SizeC = merge_constraints(SList), -%% ValueC = merge_constraints(VList), -%% PermAlphaC = merge_constraints(PAList), -%% case Rest of -%% [] -> -%% SizeC ++ ValueC ++ PermAlphaC; -%% _ -> -%% throw({error,{asn1,{not_implemented,{merge_constraints,Rest}}}}) -%% end. - -%% merge_constraints([]) -> []; -%% merge_constraints([C1 = {_,{Low1,High1}},{_,{Low2,High2}}|Rest]) when Low1 >= Low2, -%% High1 =< High2 -> -%% merge_constraints([C1|Rest]); -%% merge_constraints([C1={'PermittedAlphabet',_},C2|Rest]) -> -%% [C1|merge_constraints([C2|Rest])]; -%% merge_constraints([C1 = {_,{_Low1,_High1}},C2 = {_,{_Low2,_High2}}|_Rest]) -> -%% throw({error,asn1,{conflicting_constraints,{C1,C2}}}); -%% merge_constraints([C]) -> -%% [C]. - -%% splitlist([C={'SizeConstraint',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,[C|Sacc],Vacc,PAacc,Restacc); -%% splitlist([C={'ValueRange',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,[C|Vacc],PAacc,Restacc); -%% splitlist([C={'PermittedAlphabet',_}|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,Vacc,[C|PAacc],Restacc); -%% splitlist([C|Rest],Sacc,Vacc,PAacc,Restacc) -> -%% splitlist(Rest,Sacc,Vacc,PAacc,[C|Restacc]); -%% splitlist([],Sacc,Vacc,PAacc,Restacc) -> -%% {lists:reverse(Sacc), -%% lists:reverse(Vacc), -%% lists:reverse(PAacc), -%% lists:reverse(Restacc)}. - - - -storeindb(S,M) when is_record(M,module) -> - TVlist = M#module.typeorval, - NewM = M#module{typeorval=findtypes_and_values(TVlist)}, - asn1_db:dbnew(NewM#module.name, S#state.erule), - asn1_db:dbput(NewM#module.name,'MODULE', NewM), - Res = storeindb(#state{mname=NewM#module.name}, TVlist, []), - include_default_class(S,NewM#module.name), +storeindb(S0, #module{name=ModName,typeorval=TVlist0}=M) -> + S = S0#state{mname=ModName}, + TVlist1 = [{asn1ct:get_name_of_def(Def),Def} || Def <- TVlist0], + case check_duplicate_defs(S, TVlist1) of + ok -> + storeindb_1(S, M, TVlist0, TVlist1); + {error,_}=Error -> + Error + end. + +storeindb_1(S, #module{name=ModName}=M, TVlist0, TVlist) -> + NewM = M#module{typeorval=findtypes_and_values(TVlist0)}, + asn1_db:dbnew(ModName, S#state.erule), + asn1_db:dbput(ModName, 'MODULE', NewM), + asn1_db:dbput(ModName, TVlist), + include_default_class(S, NewM#module.name), include_default_type(NewM#module.name), - Res. + ok. -storeindb(#state{mname=Module}=S, [H|T], Errors) -> - Name = asn1ct:get_name_of_def(H), - case asn1_db:dbget(Module, Name) of - undefined -> - asn1_db:dbput(Module, Name, H), - storeindb(S, T, Errors); - Prev -> - PrevLine = asn1ct:get_pos_of_def(Prev), - Error = return_asn1_error(S, H, {already_defined,Name,PrevLine}), - storeindb(S, T, [Error|Errors]) - end; -storeindb(_, [], []) -> - ok; -storeindb(_, [], [_|_]=Errors) -> - {error,Errors}. +check_duplicate_defs(S, Defs) -> + Set0 = sofs:relation(Defs), + Set1 = sofs:relation_to_family(Set0), + Set = sofs:to_external(Set1), + case [duplicate_def(S, N, Dup) || {N,[_,_|_]=Dup} <- Set] of + [] -> + ok; + [_|_]=E -> + {error,lists:append(E)} + end. + +duplicate_def(S, Name, Dups0) -> + Dups1 = [{asn1ct:get_pos_of_def(Def),Def} || Def <- Dups0], + [{Prev,_}|Dups] = lists:sort(Dups1), + duplicate_def_1(S, Dups, Name, Prev). +duplicate_def_1(S, [{_,Def}|T], Name, Prev) -> + E = return_asn1_error(S, Def, {already_defined,Name,Prev}), + [E|duplicate_def_1(S, T, Name, Prev)]; +duplicate_def_1(_, [], _, _) -> + []. findtypes_and_values(TVList) -> findtypes_and_values(TVList,[],[],[],[],[],[]).%% Types,Values, @@ -6698,99 +5737,146 @@ findtypes_and_values([],Tacc,Vacc,Pacc,Cacc,Oacc,OSacc) -> {lists:reverse(Tacc),lists:reverse(Vacc),lists:reverse(Pacc), lists:reverse(Cacc),lists:reverse(Oacc),lists:reverse(OSacc)}. +return_asn1_error(#state{error_context=Context}=S, Error) -> + return_asn1_error(S, Context, Error). + return_asn1_error(#state{mname=Where}, Item, Error) -> Pos = asn1ct:get_pos_of_def(Item), {structured_error,{Where,Pos},?MODULE,Error}. -asn1_error(S, Item, Error) -> - throw({error,return_asn1_error(S, Item, Error)}). +asn1_error(S, Error) -> + throw({error,return_asn1_error(S, Error)}). format_error({already_defined,Name,PrevLine}) -> io_lib:format("the name ~p has already been defined at line ~p", [Name,PrevLine]); +format_error({duplicate_identifier,Ids}) -> + io_lib:format("the identifier '~p' has already been used", [Ids]); +format_error({duplicate_tags,Elements}) -> + io_lib:format("duplicate tags in the elements: ~s", + [format_elements(Elements)]); +format_error({enum_illegal_redefinition,Id}) -> + io_lib:format("'~s' must not be redefined", [Id]); +format_error({enum_not_ascending,Id,N,Prev}) -> + io_lib:format("the values for enumerations which follow '...' must " + "be in ascending order, but '~p(~p)' is less than the " + "previous value '~p'", [Id,N,Prev]); +format_error({enum_reused_value,Id,Val}) -> + io_lib:format("'~s' has the value '~p' which is used more than once", + [Id,Val]); +format_error({illegal_id, Id}) -> + io_lib:format("illegal identifier: ~p", [Id]); +format_error({illegal_choice_type, Ref}) -> + io_lib:format("expecting a CHOICE type: ~p", [Ref]); +format_error({illegal_class_name,Class}) -> + io_lib:format("the class name '~s' is illegal (it must start with an uppercase letter and only contain uppercase letters, digits, or hyphens)", [Class]); +format_error({illegal_COMPONENTS_OF, Ref}) -> + io_lib:format("expected a SEQUENCE or SET got: ~p", [Ref]); +format_error(illegal_external_value) -> + "illegal value in EXTERNAL type"; format_error({illegal_instance_of,Class}) -> io_lib:format("using INSTANCE OF on class '~s' is illegal, " - "because INSTANCE OF may only be used on the class TYPE-IDENTFIER", + "because INSTANCE OF may only be used on the class TYPE-IDENTIFIER", [Class]); +format_error(illegal_integer_value) -> + "expecting an integer value"; +format_error(illegal_object) -> + "expecting an object"; +format_error({illegal_object_field, Id}) -> + io_lib:format("expecting a class field: ~p",[Id]); +format_error({illegal_oid,o_id}) -> + "illegal OBJECT IDENTIFIER"; +format_error({illegal_oid,rel_oid}) -> + "illegal RELATIVE-OID"; format_error(illegal_octet_string_value) -> "expecting a bstring or an hstring as value for an OCTET STRING"; format_error({illegal_typereference,Name}) -> io_lib:format("'~p' is used as a typereference, but does not start with an uppercase letter", [Name]); +format_error(illegal_table_constraint) -> + "table constraints may only be applied to CLASS.&field constructs"; +format_error(illegal_value) -> + "expecting a value"; +format_error({illegal_value, TYPE}) -> + io_lib:format("expecting a ~s value", [TYPE]); format_error({invalid_fields,Fields,Obj}) -> io_lib:format("invalid ~s in ~p", [format_fields(Fields),Obj]); format_error({invalid_bit_number,Bit}) -> io_lib:format("the bit number '~p' is invalid", [Bit]); +format_error(invalid_table_constraint) -> + "the table constraint is not an object set"; +format_error(invalid_objectset) -> + "expecting an object set"; +format_error({implicit_tag_before,Kind}) -> + "illegal implicit tag before " ++ + case Kind of + choice -> "'CHOICE'"; + open_type -> "open type" + end; format_error({missing_mandatory_fields,Fields,Obj}) -> io_lib:format("missing mandatory ~s in ~p", [format_fields(Fields),Obj]); +format_error({missing_table_constraint,Component}) -> + io_lib:format("the component '~s' is referenced by a component relation constraint using the '@field-name' notation, but does not have a table constraint", + [Component]); +format_error({missing_id,Id}) -> + io_lib:format("expected the mandatory component '~p'", [Id]); +format_error({missing_ocft,Component}) -> + io_lib:format("the component '~s' must be an ObjectClassFieldType (CLASSNAME.&field-name)", [Component]); +format_error(multiple_uniqs) -> + "implementation limitation: only one UNIQUE field is allowed in CLASS"; format_error({namelist_redefinition,Name}) -> io_lib:format("the name '~s' can not be redefined", [Name]); +format_error({param_bad_type, Ref}) -> + io_lib:format("'~p' is not a parameterized type", [Ref]); +format_error(param_wrong_number_of_arguments) -> + "wrong number of arguments"; +format_error(reversed_range) -> + "ranges must be given in increasing order"; +format_error({syntax_duplicated_fields,Fields}) -> + io_lib:format("~s must only occur once in the syntax list", + [format_fields(Fields)]); +format_error(syntax_nomatch) -> + "unexpected end of object definition"; +format_error({syntax_mandatory_in_optional_group,Name}) -> + io_lib:format("the field '&~s' must not be within an optional group since it is not optional", + [Name]); +format_error({syntax_missing_mandatory_fields,Fields}) -> + io_lib:format("missing mandatory ~s in the syntax list", + [format_fields(Fields)]); +format_error({syntax_nomatch,Actual}) -> + io_lib:format("~s is not the next item allowed according to the defined syntax", + [Actual]); +format_error({syntax_undefined_field,Field}) -> + io_lib:format("'&~s' is not a field of the class being defined", + [Field]); format_error({undefined,Name}) -> io_lib:format("'~s' is referenced, but is not defined", [Name]); +format_error({undefined_export,Ref}) -> + io_lib:format("'~s' is exported but is not defined", [Ref]); +format_error({undefined_field,FieldName}) -> + io_lib:format("the field '&~s' is undefined", [FieldName]); format_error({undefined_import,Ref,Module}) -> io_lib:format("'~s' is not exported from ~s", [Ref,Module]); +format_error({unique_and_default,Field}) -> + io_lib:format("the field '&~s' must not have both 'UNIQUE' and 'DEFAULT'", + [Field]); format_error({value_reused,Val}) -> io_lib:format("the value '~p' is used more than once", [Val]); +format_error({non_unique_object,Id}) -> + io_lib:format("object set with a UNIQUE field value of '~p' is used more than once", [Id]); format_error(Other) -> io_lib:format("~p", [Other]). format_fields([F]) -> - io_lib:format("field &~s", [F]); + io_lib:format("field '&~s'", [F]); format_fields([H|T]) -> - [io_lib:format("fields &~s", [H])| - [io_lib:format(", &~s", [F]) || F <- T]]. - -error({_,{structured_error,_,_,_}=SE,_}) -> - SE; -error({export,Msg,#state{mname=Mname,type=Ref,tname=Typename}}) -> - Pos = Ref#'Externaltypereference'.pos, - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{export,Pos,Mname,Typename,Msg}}; -% error({type,{Msg1,Msg2},#state{mname=Mname,type=Type,tname=Typename}}) -% when is_record(Type,typedef) -> -% io:format("asn1error:~p:~p:~p ~p~n", -% [Type#typedef.pos,Mname,Typename,Msg1]), -% {error,{type,Type#typedef.pos,Mname,Typename,Msg1,Msg2}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,type) -> - io:format("asn1error:~p:~p~n~p~n", - [Mname,Typename,Msg]), - {error,{type,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,typedef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#typedef.pos,Mname,Typename,Msg]), - {error,{type,Type#typedef.pos,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,ptypedef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#ptypedef.pos,Mname,Typename,Msg]), - {error,{type,Type#ptypedef.pos,Mname,Typename,Msg}}; -error({type,Msg,#state{mname=Mname,value=Value,vname=Valuename}}) - when is_record(Value,valuedef) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Value#valuedef.pos,Mname,Valuename,Msg]), - {error,{type,Value#valuedef.pos,Mname,Valuename,Msg}}; -error({type,Msg,#state{mname=Mname,type=Type,tname=Typename}}) - when is_record(Type,pobjectdef) -> - io:format("asn1error:~p:~p:~p~n~p~n", - [Type#pobjectdef.pos,Mname,Typename,Msg]), - {error,{type,Type#pobjectdef.pos,Mname,Typename,Msg}}; -error({value,Msg,#state{mname=Mname,value=Value,vname=Valuename}}) - when is_record(Value,valuedef) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Value#valuedef.pos,Mname,Valuename,Msg]), - {error,{value,Value#valuedef.pos,Mname,Valuename,Msg}}; -error({Other,Msg,#state{mname=Mname,value=#valuedef{pos=Pos},vname=Valuename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Valuename,Msg]), - {error,{Other,Pos,Mname,Valuename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=#typedef{pos=Pos},tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{Other,Pos,Mname,Typename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=#classdef{pos=Pos},tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[Pos,Mname,Typename,Msg]), - {error,{Other,Pos,Mname,Typename,Msg}}; -error({Other,Msg,#state{mname=Mname,type=Type,tname=Typename}}) -> - io:format("asn1error:~p:~p:~p~n~p~n",[asn1ct:get_pos_of_def(Type),Mname,Typename,Msg]), - {error,{Other,asn1ct:get_pos_of_def(Type),Mname,Typename,Msg}}. + [io_lib:format("fields '&~s'", [H])| + [io_lib:format(", '&~s'", [F]) || F <- T]]. + +format_elements([H1,H2|T]) -> + [io_lib:format("~p, ", [H1])|format_elements([H2|T])]; +format_elements([H]) -> + io_lib:format("~p", [H]). include_default_type(Module) -> NameAbsList = default_type_list(), @@ -6953,62 +6039,62 @@ default_type_list() -> ]. -include_default_class(S,Module) -> - NameAbsList = default_class_list(S), - include_default_class1(Module,NameAbsList). +include_default_class(S, Module) -> + _ = [include_default_class1(S, Module, ClassDef) || + ClassDef <- default_class_list()], + ok. -include_default_class1(_,[]) -> - ok; -include_default_class1(Module,[{Name,TS}|Rest]) -> - case asn1_db:dbget(Module,Name) of +include_default_class1(S, Module, {Name,Ts0}) -> + case asn1_db:dbget(Module, Name) of undefined -> - C = #classdef{checked=true,module=Module,name=Name, - typespec=TS}, - asn1_db:dbput(Module,Name,C); - _ -> ok - end, - include_default_class1(Module,Rest). + #objectclass{fields=Fields, + syntax={'WITH SYNTAX',Syntax0}} = Ts0, + Syntax = preprocess_syntax(S, Syntax0, Fields), + Ts = Ts0#objectclass{syntax={preprocessed_syntax,Syntax}}, + C = #classdef{checked=true,module=Module, + name=Name,typespec=Ts}, + asn1_db:dbput(Module, Name, C); + _ -> + ok + end. -default_class_list(S) -> +default_class_list() -> [{'TYPE-IDENTIFIER', - {objectclass, - [{fixedtypevaluefield, - id, - #type{tag=?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER), - def='OBJECT IDENTIFIER'}, - 'UNIQUE', - 'MANDATORY'}, - {typefield,'Type','MANDATORY'}], - {'WITH SYNTAX', - [{typefieldreference,'Type'}, - 'IDENTIFIED', - 'BY', - {valuefieldreference,id}]}}}, + #objectclass{fields=[{fixedtypevaluefield, + id, + #type{tag=[?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER)], + def='OBJECT IDENTIFIER'}, + 'UNIQUE', + 'MANDATORY'}, + {typefield,'Type','MANDATORY'}], + syntax={'WITH SYNTAX', + [{typefieldreference,'Type'}, + 'IDENTIFIED', + 'BY', + {valuefieldreference,id}]}}}, {'ABSTRACT-SYNTAX', - {objectclass, - [{fixedtypevaluefield, - id, - #type{tag=?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER), - def='OBJECT IDENTIFIER'}, - 'UNIQUE', - 'MANDATORY'}, - {typefield,'Type','MANDATORY'}, - {fixedtypevaluefield, - property, - #type{tag=?TAG_PRIMITIVE(?N_BIT_STRING), - def={'BIT STRING',[]}}, - undefined, - {'DEFAULT', - [0,1,0]}}], - {'WITH SYNTAX', - [{typefieldreference,'Type'}, - 'IDENTIFIED', - 'BY', - {valuefieldreference,id}, - ['HAS', - 'PROPERTY', - {valuefieldreference,property}]]}}}]. - + #objectclass{fields=[{fixedtypevaluefield, + id, + #type{tag=[?TAG_PRIMITIVE(?N_OBJECT_IDENTIFIER)], + def='OBJECT IDENTIFIER'}, + 'UNIQUE', + 'MANDATORY'}, + {typefield,'Type','MANDATORY'}, + {fixedtypevaluefield, + property, + #type{tag=[?TAG_PRIMITIVE(?N_BIT_STRING)], + def={'BIT STRING',[]}}, + undefined, + {'DEFAULT', + [0,1,0]}}], + syntax={'WITH SYNTAX', + [{typefieldreference,'Type'}, + 'IDENTIFIED', + 'BY', + {valuefieldreference,id}, + ['HAS', + 'PROPERTY', + {valuefieldreference,property}]]}}}]. new_reference_name(Name) -> case get(asn1_reference) of @@ -7037,8 +6123,9 @@ insert_once(S,Tab,Key) -> skipped end. -check_fold(S, [H|T], Check) -> - Type = asn1_db:dbget(S#state.mname, H), +check_fold(S0, [H|T], Check) -> + Type = asn1_db:dbget(S0#state.mname, H), + S = S0#state{error_context=Type}, case Check(S, H, Type) of ok -> check_fold(S, T, Check); @@ -7047,5 +6134,19 @@ check_fold(S, [H|T], Check) -> end; check_fold(_, [], Check) when is_function(Check, 3) -> []. +error_value(Value) when is_integer(Value) -> Value; +error_value(Value) when is_atom(Value) -> Value; +error_value(#type{def=Value}) when is_atom(Value) -> Value; +error_value(#type{def=Value}) -> error_value(Value); +error_value(RefOrType) -> + try name_of_def(RefOrType) of + Name -> Name + catch _:_ -> + case get_datastr_name(RefOrType) of + undefined -> RefOrType; + Name -> Name + end + end. + name_of_def(#'Externaltypereference'{type=N}) -> N; name_of_def(#'Externalvaluereference'{value=N}) -> N. diff --git a/lib/asn1/src/asn1ct_constructed_per.erl b/lib/asn1/src/asn1ct_constructed_per.erl index a91404ed54..0bc6688a49 100644 --- a/lib/asn1/src/asn1ct_constructed_per.erl +++ b/lib/asn1/src/asn1ct_constructed_per.erl @@ -410,12 +410,11 @@ gen_dec_open_type(Erule, Val, {Xmod,Xtype}, LeadingAttr, #classdef{typespec=ClassDef} = asn1_db:dbget(ClMod, ClType), #objectclass{fields=ClassFields} = ClassDef, Extensible = lists:member('EXTENSIONMARK', ObjSet1), - ObjSet2 = [{Key,fix_object_code(Name, Code, ClassFields)} || - {_,Key,Code} <- ObjSet1], - ObjSet = lists:sort([P || {_,B}=P <- ObjSet2, B =/= none]), + Typename = [Name,ClType], + ObjSet = index_object_set(Erule, ClType, Name, + ObjSet1, ClassFields), Key = erlang:md5(term_to_binary({decode,ObjSet,RestFieldNames, Prop,Extensible})), - Typename = [Name,ClType], Gen = fun(_Fd, N) -> dec_objset_optional(N, Prop), dec_objset(Erule, N, ObjSet, RestFieldNames, Typename), @@ -467,46 +466,15 @@ dec_objset_2(Erule, Obj, RestFields0, Typename) -> Imm = asn1ct_gen_per:gen_dec_imm(Erule, Type), {Term,_} = asn1ct_imm:dec_slim_cg(Imm, 'Bytes'), emit([com,nl,Term]); - #typedef{name={constructed,bif},typespec=Def} -> - InnerType = asn1ct_gen:get_inner(Def#type.def), - case InnerType of - 'CHOICE' -> - asn1ct_name:start(), - asn1ct_name:new(bytes), - {'CHOICE',CompList} = Def#type.def, - Ext = extensible_enc(CompList), - emit(["{Result,_} = begin",nl]), - gen_dec_choice(Erule, Typename, CompList, Ext), - emit([nl, - "end",com,nl, - "Result"]); - 'SET' -> - Imm0 = gen_dec_constructed_imm(Erule, Typename, Def), - Imm = opt_imm(Imm0), - asn1ct_name:start(), - emit(["{Result,_} = begin",nl]), - emit_gen_dec_imm(Imm), - emit([nl, - "end",com,nl, - "Result"]); - 'SET OF' -> - asn1ct_name:start(), - do_gen_decode_sof(Erule, Typename, 'SET OF', - Def, false); - 'SEQUENCE' -> - Imm0 = gen_dec_constructed_imm(Erule, Typename, Def), - Imm = opt_imm(Imm0), - asn1ct_name:start(), - emit(["{Result,_} = begin",nl]), - emit_gen_dec_imm(Imm), - emit([nl, - "end",com,nl, - "Result"]); - 'SEQUENCE OF' -> - asn1ct_name:start(), - do_gen_decode_sof(Erule, Typename, 'SEQUENCE OF', - Def, false) - end; + #typedef{name={constructed,bif},typespec=Type}=Def -> + Prefix = "dec_outlined_", + Key = {dec_outlined,Def}, + Gen = fun(_Fd, Name) -> + gen_dec_obj(Erule, Name, Typename, Type) + end, + Func = asn1ct_func:call_gen(Prefix, Key, Gen), + emit(["{Term,_} = ",{asis,Func},"(Bytes)",com,nl, + "Term"]); #typedef{name=Type} -> emit(["{Result,_} = ",{asis,enc_func("dec_", Type)},"(Bytes),",nl, "Result"]); @@ -531,6 +499,12 @@ dec_objset_2(Erule, Obj, RestFields0, Typename) -> end end. +gen_dec_obj(Erules, Name, Typename, Type) -> + emit([{asis,Name},"(Bytes) ->",nl]), + InnerType = asn1ct_gen:get_inner(Type#type.def), + asn1ct_gen:gen_decode_constructed(Erules, Typename, + InnerType, Type). + gen_encode_choice(Erule, TopType, D) -> asn1ct_name:start(), Imm = gen_encode_choice_imm(Erule, TopType, D), @@ -595,10 +569,10 @@ gen_encode_sof_imm(Erule, Typename, SeqOrSetOf, #type{}=D) -> gen_decode_sof(Erules, Typename, SeqOrSetOf, #type{}=D) -> asn1ct_name:start(), - do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, true), + do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D), emit([".",nl,nl]). -do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, NeedRest) -> +do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D) -> {_SeqOrSetOf,ComponentType} = D#type.def, SizeConstraint = asn1ct_imm:effective_constraint(bitstring, D#type.constraint), @@ -610,12 +584,11 @@ do_gen_decode_sof(Erules, Typename, SeqOrSetOf, D, NeedRest) -> "" end, {Num,Buf} = gen_decode_length(SizeConstraint, Erules), - Key = erlang:md5(term_to_binary({Typename,SeqOrSetOf, - ComponentType,NeedRest})), + Key = erlang:md5(term_to_binary({Typename,SeqOrSetOf,ComponentType})), Gen = fun(_Fd, Name) -> gen_decode_sof_components(Erules, Name, Typename, SeqOrSetOf, - ComponentType, NeedRest) + ComponentType) end, F = asn1ct_func:call_gen("dec_components", Key, Gen), emit([",",nl, @@ -629,7 +602,7 @@ gen_decode_length(Constraint, Erule) -> Imm = asn1ct_imm:per_dec_length(Constraint, true, is_aligned(Erule)), asn1ct_imm:dec_slim_cg(Imm, "Bytes"). -gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont, NeedRest) -> +gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont) -> {ObjFun,ObjFun_Var} = case Cont#type.tablecinf of [{objfun,_}|_R] -> @@ -637,14 +610,8 @@ gen_decode_sof_components(Erule, Name, Typename, SeqOrSetOf, Cont, NeedRest) -> _ -> {"",""} end, - case NeedRest of - false -> - emit([{asis,Name},"(0, _Bytes",ObjFun_Var,", Acc) ->",nl, - "lists:reverse(Acc);",nl]); - true -> - emit([{asis,Name},"(0, Bytes",ObjFun_Var,", Acc) ->",nl, - "{lists:reverse(Acc),Bytes};",nl]) - end, + emit([{asis,Name},"(0, Bytes",ObjFun_Var,", Acc) ->",nl, + "{lists:reverse(Acc),Bytes};",nl]), emit([{asis,Name},"(Num, Bytes",ObjFun,", Acc) ->",nl, "{Term,Remain} = "]), Constructed_Suffix = asn1ct_gen:constructed_suffix(SeqOrSetOf, @@ -1024,11 +991,12 @@ enc_var_type_call(Erule, Name, RestFieldNames, #classdef{typespec=ClassDef} = asn1_db:dbget(ClMod, ClType), #objectclass{fields=ClassFields} = ClassDef, Extensible = lists:member('EXTENSIONMARK', ObjSet1), - ObjSet2 = [{Key,fix_object_code(Name, Code, ClassFields)} || - {_,Key,Code} <- ObjSet1], - ObjSet = lists:sort([P || {_,B}=P <- ObjSet2, B =/= none]), + ObjSet = index_object_set(Erule, ClType, Name, + ObjSet1, ClassFields), Key = erlang:md5(term_to_binary({encode,ObjSet,RestFieldNames,Extensible})), - Imm = enc_objset_imm(Erule, Name, ObjSet, RestFieldNames, Extensible), + TypeName = [ClType,Name], + Imm = enc_objset_imm(Erule, TypeName, Name, ObjSet, + RestFieldNames, Extensible), Lambda = {lambda,[{var,"Val"},{var,"Id"}],Imm}, Gen = fun(_Fd, N) -> Aligned = is_aligned(Erule), @@ -1039,11 +1007,27 @@ enc_var_type_call(Erule, Name, RestFieldNames, Prefix = lists:concat(["enc_os_",Name]), [{call_gen,Prefix,Key,Gen,Lambda,[Val,Fun]}]. -fix_object_code(Name, [{Name,B}|_], _ClassFields) -> - B; -fix_object_code(Name, [_|T], ClassFields) -> - fix_object_code(Name, T, ClassFields); -fix_object_code(Name, [], ClassFields) -> +index_object_set(_Erules, _ClType, Name, Set0, ClassFields) -> + Set = index_object_set_1(Name, Set0, ClassFields), + lists:sort(Set). + +index_object_set_1(Name, [{_,Key,Code}|T], ClassFields) -> + case index_object_set_2(Name, Code, ClassFields) of + none -> + index_object_set_1(Name, T, ClassFields); + Type -> + [{Key,Type}|index_object_set_1(Name, T, ClassFields)] + end; +index_object_set_1(Name, [_|T], ClassFields) -> + index_object_set_1(Name, T, ClassFields); +index_object_set_1(_, [], _) -> + []. + +index_object_set_2(Name, [{Name,Type}|_], _ClassFields) -> + Type; +index_object_set_2(Name, [_|T], ClassFields) -> + index_object_set_2(Name, T, ClassFields); +index_object_set_2(Name, [], ClassFields) -> case lists:keyfind(Name, 2, ClassFields) of {typefield,Name,'OPTIONAL'} -> none; @@ -1059,7 +1043,8 @@ fix_object_code(Name, [], ClassFields) -> end end. -enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> +enc_objset_imm(Erule, TypeName, Component, ObjSet, + RestFieldNames, Extensible) -> Aligned = is_aligned(Erule), E = {error, fun() -> @@ -1070,7 +1055,7 @@ enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> end}, [{'cond', [[{eq,{var,"Id"},Key}| - enc_obj(Erule, Obj, RestFieldNames, Aligned)] || + enc_obj(Erule, Obj, TypeName, RestFieldNames, Aligned)] || {Key,Obj} <- ObjSet] ++ [['_',case Extensible of false -> @@ -1086,24 +1071,18 @@ enc_objset_imm(Erule, Component, ObjSet, RestFieldNames, Extensible) -> end end]]}]. -enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> +enc_obj(Erule, Obj, TypeName, RestFieldNames0, Aligned) -> + Val = {var,"Val"}, case Obj of + #typedef{name={constructed,bif},typespec=Type}=Def -> + Prefix = "enc_outlined_", + Key = {enc_outlined,Def}, + Gen = fun(_Fd, Name) -> + gen_enc_obj(Erule, Name, TypeName, Type) + end, + [{call_gen,Prefix,Key,Gen,undefined,[Val]}]; #typedef{name={primitive,bif},typespec=Def} -> asn1ct_gen_per:gen_encode_prim_imm({var,"Val"}, Def, Aligned); - #typedef{name={constructed,bif},typespec=Def} -> - InnerType = asn1ct_gen:get_inner(Def#type.def), - case InnerType of - 'CHOICE' -> - gen_encode_choice_imm(Erule, name, Def); - 'SET' -> - gen_encode_constructed_imm(Erule, name, Def); - 'SET OF' -> - gen_encode_sof_imm(Erule, name, InnerType, Def); - 'SEQUENCE' -> - gen_encode_constructed_imm(Erule, name, Def); - 'SEQUENCE OF' -> - gen_encode_sof_imm(Erule, name, InnerType, Def) - end; #typedef{name=Type} -> [{apply,{local,enc_func(Type),Type},[{var,"Val"}]}]; #'Externalvaluereference'{module=Mod,value=Value} -> @@ -1112,7 +1091,8 @@ enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> {object,_,Fields} = Def, [NextField|RestFieldNames] = RestFieldNames0, {NextField,Typedef} = lists:keyfind(NextField, 1, Fields), - enc_obj(Erule, Typedef, RestFieldNames, Aligned) + enc_obj(Erule, Typedef, TypeName, + RestFieldNames, Aligned) end; #'Externaltypereference'{module=Mod,type=Type} -> Func = enc_func(Type), @@ -1124,6 +1104,11 @@ enc_obj(Erule, Obj, RestFieldNames0, Aligned) -> end end. +gen_enc_obj(Erules, Name, Typename, Type) -> + emit([{asis,Name},"(Val) ->",nl]), + InnerType = asn1ct_gen:get_inner(Type#type.def), + asn1ct_gen:gen_encode_constructed(Erules, Typename, + InnerType, Type). gen_dec_components_call(Erule, TopType, {Root,ExtList}, DecInfObj, Ext, NumberOfOptionals) -> diff --git a/lib/asn1/src/asn1ct_gen.erl b/lib/asn1/src/asn1ct_gen.erl index 2ef8466309..0e41aa1a7a 100644 --- a/lib/asn1/src/asn1ct_gen.erl +++ b/lib/asn1/src/asn1ct_gen.erl @@ -531,34 +531,30 @@ gen_part_decode_funcs({primitive,bif},_TypeName, gen_part_decode_funcs(WhatKind,_TypeName,{_,Directive,_,_}) -> throw({error,{asn1,{"Not implemented yet",WhatKind," partial incomplete directive:",Directive}}}). - -gen_types(Erules,Tname,{RootL1,ExtList,RootL2}) +%% EncDec = 'gen_encode' | 'gen_decode' +gen_types(Erules, Tname, {RootL1,ExtList,RootL2}, EncDec) when is_list(RootL1), is_list(RootL2) -> - gen_types(Erules,Tname,RootL1), - Rtmod = ct_gen_module(Erules), - gen_types(Erules,Tname,Rtmod:extaddgroup2sequence(ExtList)), - gen_types(Erules,Tname,RootL2); -gen_types(Erules,Tname,{RootList,ExtList}) when is_list(RootList) -> - gen_types(Erules,Tname,RootList), + gen_types(Erules, Tname, RootL1, EncDec), Rtmod = ct_gen_module(Erules), - gen_types(Erules,Tname,Rtmod:extaddgroup2sequence(ExtList)); -gen_types(Erules,Tname,[{'EXTENSIONMARK',_,_}|Rest]) -> - gen_types(Erules,Tname,Rest); -gen_types(Erules,Tname,[ComponentType|Rest]) -> + gen_types(Erules, Tname, Rtmod:extaddgroup2sequence(ExtList), EncDec), + gen_types(Erules, Tname, RootL2, EncDec); +gen_types(Erules, Tname, {RootList,ExtList}, EncDec) when is_list(RootList) -> + gen_types(Erules, Tname, RootList, EncDec), Rtmod = ct_gen_module(Erules), + gen_types(Erules, Tname, Rtmod:extaddgroup2sequence(ExtList), EncDec); +gen_types(Erules, Tname, [{'EXTENSIONMARK',_,_}|T], EncDec) -> + gen_types(Erules, Tname, T, EncDec); +gen_types(Erules, Tname, [ComponentType|T], EncDec) -> asn1ct_name:clear(), - Rtmod:gen_encode(Erules,Tname,ComponentType), - asn1ct_name:clear(), - Rtmod:gen_decode(Erules,Tname,ComponentType), - gen_types(Erules,Tname,Rest); -gen_types(_,_,[]) -> - true; -gen_types(Erules,Tname,Type) when is_record(Type,type) -> Rtmod = ct_gen_module(Erules), + Rtmod:EncDec(Erules, Tname, ComponentType), + gen_types(Erules, Tname, T, EncDec); +gen_types(_, _, [], _) -> + ok; +gen_types(Erules, Tname, #type{}=Type, EncDec) -> asn1ct_name:clear(), - Rtmod:gen_encode(Erules,Tname,Type), - asn1ct_name:clear(), - Rtmod:gen_decode(Erules,Tname,Type). + Rtmod = ct_gen_module(Erules), + Rtmod:EncDec(Erules, Tname, Type). %% VARIOUS GENERATOR STUFF %% ************************************************* @@ -599,25 +595,25 @@ gen_encode_constructed(Erules,Typename,InnerType,D) when is_record(D,type) -> 'SET' -> Rtmod:gen_encode_set(Erules,Typename,D), #'SET'{components=Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'SEQUENCE' -> Rtmod:gen_encode_sequence(Erules,Typename,D), #'SEQUENCE'{components=Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'CHOICE' -> Rtmod:gen_encode_choice(Erules,Typename,D), {_,Components} = D#type.def, - gen_types(Erules,Typename,Components); + gen_types(Erules, Typename, Components, gen_encode); 'SEQUENCE OF' -> Rtmod:gen_encode_sof(Erules,Typename,InnerType,D), {_,Type} = D#type.def, NameSuffix = asn1ct_gen:constructed_suffix(InnerType,Type#type.def), - gen_types(Erules,[NameSuffix|Typename],Type); + gen_types(Erules, [NameSuffix|Typename], Type, gen_encode); 'SET OF' -> Rtmod:gen_encode_sof(Erules,Typename,InnerType,D), {_,Type} = D#type.def, NameSuffix = asn1ct_gen:constructed_suffix(InnerType,Type#type.def), - gen_types(Erules,[NameSuffix|Typename],Type); + gen_types(Erules, [NameSuffix|Typename], Type, gen_encode); _ -> exit({nyi,InnerType}) end; @@ -630,20 +626,29 @@ gen_decode_constructed(Erules,Typename,InnerType,D) when is_record(D,type) -> asn1ct:step_in_constructed(), %% updates namelist for exclusive decode case InnerType of 'SET' -> - Rtmod:gen_decode_set(Erules,Typename,D); + Rtmod:gen_decode_set(Erules,Typename,D), + #'SET'{components=Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'SEQUENCE' -> - Rtmod:gen_decode_sequence(Erules,Typename,D); + Rtmod:gen_decode_sequence(Erules,Typename,D), + #'SEQUENCE'{components=Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'CHOICE' -> - Rtmod:gen_decode_choice(Erules,Typename,D); + Rtmod:gen_decode_choice(Erules,Typename,D), + {_,Components} = D#type.def, + gen_types(Erules, Typename, Components, gen_decode); 'SEQUENCE OF' -> - Rtmod:gen_decode_sof(Erules,Typename,InnerType,D); + Rtmod:gen_decode_sof(Erules,Typename,InnerType,D), + {_,#type{def=Def}=Type} = D#type.def, + NameSuffix = asn1ct_gen:constructed_suffix(InnerType, Def), + gen_types(Erules, [NameSuffix|Typename], Type, gen_decode); 'SET OF' -> - Rtmod:gen_decode_sof(Erules,Typename,InnerType,D); - _ -> - exit({nyi,InnerType}) + Rtmod:gen_decode_sof(Erules,Typename,InnerType,D), + {_,#type{def=Def}=Type} = D#type.def, + NameSuffix = asn1ct_gen:constructed_suffix(InnerType, Def), + gen_types(Erules, [NameSuffix|Typename], Type, gen_decode) end; - gen_decode_constructed(Erules,Typename,InnerType,D) when is_record(D,typedef) -> gen_decode_constructed(Erules,Typename,InnerType,D#typedef.typespec). diff --git a/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl b/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl index e51b0898be..37413298a7 100644 --- a/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl +++ b/lib/asn1/src/asn1ct_gen_ber_bin_v2.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2002-2013. All Rights Reserved. +%% Copyright Ericsson AB 2002-2014. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in @@ -24,7 +24,7 @@ -include("asn1_records.hrl"). --export([decode_class/1, decode_type/1]). +-export([decode_class/1]). -export([gen_encode/2,gen_encode/3,gen_decode/2,gen_decode/3]). -export([gen_encode_prim/4]). -export([gen_dec_prim/3]). @@ -278,8 +278,7 @@ emit_enc_enumerated_cases(L, Tags) -> emit_enc_enumerated_cases(L, Tags, noext). emit_enc_enumerated_cases([{EnumName,EnumVal}|T], Tags, Ext) -> - Bytes = encode_pos_integer(EnumVal, []), - Len = length(Bytes), + {Bytes,Len} = encode_integer(EnumVal), emit([{asis,EnumName}," -> ", {call,ber,encode_tags,[Tags,{asis,Bytes},Len]},";",nl]), emit_enc_enumerated_cases(T, Tags, Ext); @@ -288,10 +287,25 @@ emit_enc_enumerated_cases([], _Tags, _Ext) -> emit([{curr,enumval}," -> exit({error,{asn1, {enumerated_not_in_range,",{curr, enumval},"}}})"]), emit([nl,"end"]). -encode_pos_integer(0, [B|_Acc] = L) when B < 128 -> +encode_integer(Val) -> + Bytes = + if + Val >= 0 -> + encode_integer_pos(Val, []); + true -> + encode_integer_neg(Val, []) + end, + {Bytes,length(Bytes)}. + +encode_integer_pos(0, [B|_Acc]=L) when B < 128 -> L; -encode_pos_integer(N, Acc) -> - encode_pos_integer(N bsr 8, [N band 255|Acc]). +encode_integer_pos(N, Acc) -> + encode_integer_pos((N bsr 8), [N band 16#ff| Acc]). + +encode_integer_neg(-1, [B1|_T]=L) when B1 > 127 -> + L; +encode_integer_neg(N, Acc) -> + encode_integer_neg(N bsr 8, [N band 16#ff|Acc]). %%=============================================================================== %%=============================================================================== @@ -1179,23 +1193,25 @@ gen_objset_enc(_,_,{unique,undefined},_,_,_,_,_) -> gen_objset_enc(Erules, ObjSetName, UniqueName, [{ObjName,Val,Fields}|T], ClName, ClFields, NthObj,Acc)-> - emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl]), CurrMod = get(currmod), {InternalFunc,NewNthObj}= case ObjName of {no_mod,no_name} -> - gen_inlined_enc_funs(Fields,ClFields,ObjSetName,NthObj); + gen_inlined_enc_funs(Fields, ClFields, ObjSetName, Val, NthObj); {CurrMod,Name} -> - emit({" fun 'enc_",Name,"'/3"}), + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + " fun 'enc_",Name,"'/3;",nl]), {[],NthObj}; {ModuleName,Name} -> + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl]), emit_ext_fun(enc,ModuleName,Name), + emit([";",nl]), {[],NthObj}; _ -> - emit({" fun 'enc_",ObjName,"'/3"}), + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + " fun 'enc_",ObjName,"'/3;",nl]), {[],NthObj} end, - emit({";",nl}), gen_objset_enc(Erules, ObjSetName, UniqueName, T, ClName, ClFields, NewNthObj, InternalFunc ++ Acc); %% See X.681 Annex E for the following case @@ -1223,13 +1239,14 @@ emit_default_getenc(ObjSetName,UniqueName) -> %% gen_inlined_enc_funs for each object iterates over all fields of a %% class, and for each typefield it checks if the object has that %% field and emits the proper code. -gen_inlined_enc_funs(Fields, [{typefield,_,_}|_]=T, ObjSetName, NthObj) -> - emit([indent(3),"fun(Type, Val, _RestPrimFieldName) ->",nl, +gen_inlined_enc_funs(Fields, [{typefield,_,_}|_]=T, ObjSetName, Val, NthObj) -> + emit(["'getenc_",ObjSetName,"'(",{asis,Val},") ->",nl, + indent(3),"fun(Type, Val, _RestPrimFieldName) ->",nl, indent(6),"case Type of",nl]), gen_inlined_enc_funs1(Fields, T, ObjSetName, [], NthObj, []); -gen_inlined_enc_funs(Fields,[_|Rest],ObjSetName,NthObj) -> - gen_inlined_enc_funs(Fields,Rest,ObjSetName,NthObj); -gen_inlined_enc_funs(_,[],_,NthObj) -> +gen_inlined_enc_funs(Fields, [_|Rest], ObjSetName, Val, NthObj) -> + gen_inlined_enc_funs(Fields, Rest, ObjSetName, Val, NthObj); +gen_inlined_enc_funs(_, [], _, _, NthObj) -> {[],NthObj}. gen_inlined_enc_funs1(Fields, [{typefield,Name,_}|Rest], ObjSetName, @@ -1276,7 +1293,7 @@ gen_inlined_enc_funs1(Fields,[_|Rest], ObjSetName, Sep, NthObj, Acc)-> gen_inlined_enc_funs1(Fields, Rest, ObjSetName, Sep, NthObj, Acc); gen_inlined_enc_funs1(_, [], _, _, NthObj, Acc) -> emit([nl,indent(6),"end",nl, - indent(3),"end"]), + indent(3),"end;",nl]), {Acc,NthObj}. emit_enc_open_type(I) -> @@ -1358,23 +1375,25 @@ gen_objset_dec(_,_,{unique,undefined},_,_,_,_) -> ok; gen_objset_dec(Erules, ObjSName, UniqueName, [{ObjName,Val,Fields}|T], ClName, ClFields, NthObj)-> - emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl]), CurrMod = get(currmod), NewNthObj= case ObjName of {no_mod,no_name} -> - gen_inlined_dec_funs(Fields,ClFields,ObjSName,NthObj); + gen_inlined_dec_funs(Fields,ClFields,ObjSName,Val,NthObj); {CurrMod,Name} -> - emit([" fun 'dec_",Name,"'/3"]), + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl, + " fun 'dec_",Name,"'/3;", nl]), NthObj; {ModuleName,Name} -> + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl]), emit_ext_fun(dec,ModuleName,Name), + emit([";",nl]), NthObj; _ -> - emit([" fun 'dec_",ObjName,"'/3"]), + emit(["'getdec_",ObjSName,"'(",{asis,Val},") ->",nl, + " fun 'dec_",ObjName,"'/3;", nl]), NthObj end, - emit([";",nl]), gen_objset_dec(Erules, ObjSName, UniqueName, T, ClName, ClFields, NewNthObj); gen_objset_dec(_,ObjSetName,_UniqueName,['EXTENSIONMARK'],_ClName, @@ -1394,10 +1413,15 @@ emit_default_getdec(ObjSetName,UniqueName) -> emit(["'getdec_",ObjSetName,"'(ErrV) ->",nl]), emit([indent(2), "fun(C,V,_) -> exit({{component,C},{value,V},{unique_name_and_value,",{asis,UniqueName},", ErrV}}) end"]). -gen_inlined_dec_funs(Fields, ClFields, ObjSetName, NthObj) -> +gen_inlined_dec_funs(Fields, [{typefield,_,_}|_]=ClFields, ObjSetName, Val, NthObj) -> + emit(["'getdec_",ObjSetName,"'(",{asis,Val},") ->",nl]), emit([indent(3),"fun(Type, Bytes, _RestPrimFieldName) ->",nl, indent(6),"case Type of",nl]), - gen_inlined_dec_funs1(Fields, ClFields, ObjSetName, "", NthObj). + gen_inlined_dec_funs1(Fields, ClFields, ObjSetName, "", NthObj); +gen_inlined_dec_funs(Fields, [_|ClFields], ObjSetName, Val, NthObj) -> + gen_inlined_dec_funs(Fields, ClFields, ObjSetName, Val, NthObj); +gen_inlined_dec_funs(_, _, _, _,NthObj) -> + NthObj. gen_inlined_dec_funs1(Fields, [{typefield,Name,Prop}|Rest], ObjSetName, Sep0, NthObj) -> @@ -1439,7 +1463,7 @@ gen_inlined_dec_funs1(Fields, [_|Rest], ObjSetName, Sep, NthObj)-> gen_inlined_dec_funs1(Fields, Rest, ObjSetName, Sep, NthObj); gen_inlined_dec_funs1(_, [], _, _, NthObj) -> emit([nl,indent(6),"end",nl, - indent(3),"end"]), + indent(3),"end;",nl]), NthObj. emit_dec_open_type(I) -> @@ -1534,39 +1558,6 @@ decode_class('CONTEXT') -> decode_class('PRIVATE') -> ?PRIVATE. -decode_type('BOOLEAN') -> 1; -decode_type('INTEGER') -> 2; -decode_type('BIT STRING') -> 3; -decode_type('OCTET STRING') -> 4; -decode_type('NULL') -> 5; -decode_type('OBJECT IDENTIFIER') -> 6; -decode_type('ObjectDescriptor') -> 7; -decode_type('EXTERNAL') -> 8; -decode_type('REAL') -> 9; -decode_type('ENUMERATED') -> 10; -decode_type('EMBEDDED_PDV') -> 11; -decode_type('UTF8String') -> 12; -decode_type('RELATIVE-OID') -> 13; -decode_type('SEQUENCE') -> 16; -decode_type('SEQUENCE OF') -> 16; -decode_type('SET') -> 17; -decode_type('SET OF') -> 17; -decode_type('NumericString') -> 18; -decode_type('PrintableString') -> 19; -decode_type('TeletexString') -> 20; -decode_type('T61String') -> 20; -decode_type('VideotexString') -> 21; -decode_type('IA5String') -> 22; -decode_type('UTCTime') -> 23; -decode_type('GeneralizedTime') -> 24; -decode_type('GraphicString') -> 25; -decode_type('VisibleString') -> 26; -decode_type('GeneralString') -> 27; -decode_type('UniversalString') -> 28; -decode_type('BMPString') -> 30; -decode_type('CHOICE') -> 'CHOICE'; % choice gets the tag from the actual alternative -decode_type(Else) -> exit({error,{asn1,{unrecognized_type,Else}}}). - mkfuncname(#'Externaltypereference'{module=Mod,type=EType}, DecOrEnc) -> CurrMod = get(currmod), case CurrMod of diff --git a/lib/asn1/src/asn1ct_imm.erl b/lib/asn1/src/asn1ct_imm.erl index bdd14871d1..5297d5291c 100644 --- a/lib/asn1/src/asn1ct_imm.erl +++ b/lib/asn1/src/asn1ct_imm.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2012-2013. All Rights Reserved. +%% Copyright Ericsson AB 2012-2015. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in @@ -499,6 +499,8 @@ per_dec_enumerated_fix_list([], Tail, _) -> Tail. per_dec_integer_1([{'SingleValue',Value}], _Aligned) -> {value,Value}; +per_dec_integer_1([{'ValueRange',{'MIN',_}}], Aligned) -> + per_dec_unconstrained(Aligned); per_dec_integer_1([{'ValueRange',{Lb,'MAX'}}], Aligned) when is_integer(Lb) -> per_decode_semi_constrained(Lb, Aligned); per_dec_integer_1([{'ValueRange',{Lb,Ub}}], Aligned) when is_integer(Lb), @@ -1094,6 +1096,9 @@ per_enc_integer_1(Val0, [Constr], Aligned) -> per_enc_integer_2(Val, {'SingleValue',Sv}, Aligned) when is_integer(Sv) -> per_enc_constrained(Val, Sv, Sv, Aligned); +per_enc_integer_2(Val, {'ValueRange',{'MIN',Ub}}, Aligned) + when is_integer(Ub) -> + {[],{lt,Val,Ub+1},per_enc_unconstrained(Val, Aligned)}; per_enc_integer_2(Val0, {'ValueRange',{Lb,'MAX'}}, Aligned) when is_integer(Lb) -> {Prefix,Val} = sub_lb(Val0, Lb), @@ -1580,7 +1585,7 @@ do_combine_put_bits(_, _, _) -> throw(impossible). debit(Budget0, Alternatives) -> - case Budget0 - log2(Alternatives) of + case Budget0 - math:log2(Alternatives) of Budget when Budget > 0.0 -> Budget; _ -> @@ -1593,8 +1598,6 @@ num_clauses([_|T], N) -> num_clauses(T, N+1); num_clauses([], N) -> N. -log2(N) -> - math:log(N) / math:log(2.0). collect_put_bits(Imm) -> lists:splitwith(fun({put_bits,V,_,_}) when is_integer(V) -> true; @@ -1919,16 +1922,7 @@ enc_opt(nil, St) -> enc_opt({seq,H0,T0}, St0) -> {H,St1} = enc_opt(H0, St0), {T,St} = enc_opt(T0, St1), - case {H,T} of - {none,_} -> - {T,St}; - {{list,Imm,Data}, - {seq,{call,per,complete,[Data],_},_}} -> - %% Get rid of any explicit 'align' added by per_enc_open_type/2. - {{seq,{list,remove_trailing_align(Imm),Data},T},St}; - {_,_} -> - {{seq,H,T},St} - end; + {enc_opt_seq(H, T),St}; enc_opt({set,_,_}=Imm, St) -> {Imm,St#ost{t=undefined}}; enc_opt({sub,Src0,Int,Dst}, St0) -> @@ -1962,6 +1956,28 @@ remove_trailing_align({seq,H,T}) -> {seq,H,remove_trailing_align(T)}; remove_trailing_align(Imm) -> Imm. +enc_opt_seq(none, T) -> + T; +enc_opt_seq({list,Imm,Data}, {seq,{call,per,complete,[Data],_},_}=T) -> + %% Get rid of any explicit 'align' added by per_enc_open_type/2. + {seq,{list,remove_trailing_align(Imm),Data},T}; +enc_opt_seq({call,_,_,_,{var,_}=Dst}=H, T) -> + case is_var_unused(Dst, T) of + false -> {seq,H,T}; + true -> T + end; +enc_opt_seq(H, T) -> + {seq,H,T}. + +is_var_unused(_, align) -> + true; +is_var_unused(V, {call,_,_,Args}) -> + not lists:member(V, Args); +is_var_unused(V, {cons,H,T}) -> + is_var_unused(V, H) andalso is_var_unused(V, T); +is_var_unused(_, _) -> + false. + bit_size_propagate(Bin, Type, St) -> case t_range(Type) of any -> @@ -2423,7 +2439,8 @@ bit_string_name2pos_fun(NNL, Src) -> gen_name2pos(Fd, Name, Names) -> Cs0 = gen_name2pos_cs(Names, Name), Cs = Cs0 ++ [bit_clause(Name),nil_clause(),invalid_clause()], - F = {function,1,Name,1,Cs}, + F0 = {function,1,Name,1,Cs}, + F = erl_parse:new_anno(F0), file:write(Fd, [erl_pp:function(F)]). gen_name2pos_cs([{K,V}|T], Name) -> diff --git a/lib/asn1/src/asn1ct_parser.yrl b/lib/asn1/src/asn1ct_parser.yrl deleted file mode 100644 index 083162f191..0000000000 --- a/lib/asn1/src/asn1ct_parser.yrl +++ /dev/null @@ -1,1177 +0,0 @@ -%%<copyright> -%% <year>1997-2008</year> -%% <holder>Ericsson AB, All Rights Reserved</holder> -%%</copyright> -%%<legalnotice> -%% The contents of this file are subject to the Erlang Public License, -%% Version 1.1, (the "License"); you may not use this file except in -%% compliance with the License. You should have received a copy of the -%% Erlang Public License along with this software. If not, it can be -%% retrieved online at http://www.erlang.org/. -%% -%% Software distributed under the License is distributed on an "AS IS" -%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See -%% the License for the specific language governing rights and limitations -%% under the License. -%% -%% The Initial Developer of the Original Code is Ericsson AB. -%%</legalnotice>
-%%
-Nonterminals
-ModuleDefinition ModuleIdentifier DefinitiveIdentifier DefinitiveObjIdComponentList
-DefinitiveObjIdComponent TagDefault ExtensionDefault
-ModuleBody Exports SymbolsExported Imports SymbolsImported
-SymbolsFromModuleList SymbolsFromModule GlobalModuleReference AssignedIdentifier SymbolList
-Symbol Reference AssignmentList Assignment
-ExtensionAndException
-ComponentTypeLists
-Externaltypereference Externalvaluereference DefinedType DefinedValue
-AbsoluteReference ItemSpec ItemId ComponentId TypeAssignment
-ValueAssignment
-% ValueSetTypeAssignment
-ValueSet
-Type BuiltinType NamedType ReferencedType
-Value ValueNotNull BuiltinValue ReferencedValue NamedValue
-% BooleanType
-BooleanValue IntegerType NamedNumberList NamedNumber SignedNumber
-% inlined IntegerValue
-EnumeratedType
-% inlined Enumerations
-Enumeration EnumerationItem
-% inlined EnumeratedValue
-% RealType
-RealValue NumericRealValue SpecialRealValue BitStringType
-% inlined BitStringValue
-IdentifierList
-% OctetStringType
-% inlined OctetStringValue
-% NullType NullValue
-SequenceType ComponentTypeList ComponentType
-% SequenceValue SequenceOfValue
-ComponentValueList SequenceOfType
-SAndSOfValue ValueList SetType
-% SetValue SetOfValue
-SetOfType
-ChoiceType
-% AlternativeTypeList made common with ComponentTypeList
-ChoiceValue
-AnyValue
-AnyDefBy
-SelectionType
-TaggedType Tag ClassNumber Class
-% redundant TaggedValue
-% EmbeddedPDVType EmbeddedPDVValue ExternalType ExternalValue ObjectIdentifierType
-ObjectIdentifierValue ObjIdComponentList ObjIdComponent
-% NameForm NumberForm NameAndNumberForm
-CharacterStringType
-RestrictedCharacterStringValue CharacterStringList
-% CharSyms CharsDefn
-Quadruple
-% Group Plane Row Cell
-Tuple
-% TableColumn TableRow
-% UnrestrictedCharacterString
-CharacterStringValue
-% UnrestrictedCharacterStringValue
-ConstrainedType Constraint ConstraintSpec TypeWithConstraint
-ElementSetSpecs ElementSetSpec
-%GeneralConstraint
-UserDefinedConstraint UserDefinedConstraintParameter
-UserDefinedConstraintParameters
-ExceptionSpec
-ExceptionIdentification
-Unions
-UnionMark
-UElems
-Intersections
-IntersectionElements
-IntersectionMark
-IElems
-Elements
-Elems
-SubTypeElements
-Exclusions
-LowerEndpoint
-UpperEndpoint
-LowerEndValue
-UpperEndValue
-TypeConstraints NamedConstraint PresenceConstraint
-
-ParameterizedTypeAssignment
-ParameterList
-Parameters
-Parameter
-ParameterizedType
-
-% X.681
-ObjectClassAssignment ObjectClass ObjectClassDefn
-FieldSpecs FieldSpec OptionalitySpec WithSyntaxSpec
-TokenOrGroupSpecs TokenOrGroupSpec
-SyntaxList OptionalGroup RequiredToken Word
-TypeOptionalitySpec
-ValueOrObjectOptSpec
-VSetOrOSetOptSpec
-ValueOptionalitySpec
-ObjectOptionalitySpec
-ValueSetOptionalitySpec
-ObjectSetOptionalitySpec
-% X.681 chapter 15
-InformationFromObjects
-ValueFromObject
-%ValueSetFromObjects
-TypeFromObject
-%ObjectFromObject
-%ObjectSetFromObjects
-ReferencedObjects
-FieldName
-PrimitiveFieldName
-
-ObjectAssignment
-ObjectSetAssignment
-ObjectSet
-ObjectSetElements
-Object
-ObjectDefn
-DefaultSyntax
-DefinedSyntax
-FieldSettings
-FieldSetting
-DefinedSyntaxTokens
-DefinedSyntaxToken
-Setting
-DefinedObject
-ObjectFromObject
-ObjectSetFromObjects
-ParameterizedObject
-ExternalObjectReference
-DefinedObjectSet
-DefinedObjectClass
-ExternalObjectClassReference
-
-% X.682
-TableConstraint
-ComponentRelationConstraint
-ComponentIdList
-
-% X.683
-ActualParameter
-.
-
-%UsefulType.
-
-Terminals
-'ABSENT' 'ABSTRACT-SYNTAX' 'ALL' 'ANY'
-'APPLICATION' 'AUTOMATIC' 'BEGIN' 'BIT'
-'BOOLEAN' 'BY' 'CHARACTER' 'CHOICE' 'CLASS' 'COMPONENT'
-'COMPONENTS' 'CONSTRAINED' 'DEFAULT' 'DEFINED' 'DEFINITIONS'
-'EMBEDDED' 'END' 'ENUMERATED' 'EXCEPT' 'EXPLICIT'
-'EXPORTS' 'EXTENSIBILITY' 'EXTERNAL' 'FALSE' 'FROM' 'GeneralizedTime'
-'TYPE-IDENTIFIER'
-'IDENTIFIER' 'IMPLICIT' 'IMPLIED' 'IMPORTS'
-'INCLUDES' 'INSTANCE' 'INTEGER' 'INTERSECTION'
-'MAX' 'MIN' 'MINUS-INFINITY' 'NULL'
-'OBJECT' 'ObjectDescriptor' 'OCTET' 'OF' 'OPTIONAL' 'PDV' 'PLUS-INFINITY'
-'PRESENT' 'PRIVATE' 'REAL' 'SEQUENCE' 'SET' 'SIZE'
-'STRING' 'SYNTAX' 'TAGS' 'TRUE' 'UNION'
-'UNIQUE' 'UNIVERSAL' 'UTCTime' 'WITH'
-'{' '}' '(' ')' '.' '::=' ';' ',' '@' '*' '-' '[' ']'
-'!' '..' '...' '|' '<' ':' '^'
-number identifier typereference restrictedcharacterstringtype
-bstring hstring cstring typefieldreference valuefieldreference
-objectclassreference word.
-
-Rootsymbol ModuleDefinition.
-Endsymbol '$end'.
-
-Left 300 'EXCEPT'.
-Left 200 '^'.
-Left 200 'INTERSECTION'.
-Left 100 '|'.
-Left 100 'UNION'.
-
-
-ModuleDefinition -> ModuleIdentifier
- 'DEFINITIONS'
- TagDefault
- ExtensionDefault
- '::='
- 'BEGIN'
- ModuleBody
- 'END' :
- {'ModuleBody',Ex,Im,Types} = '$7',
- {{typereference,Pos,Name},Defid} = '$1',
- #module{
- pos= Pos,
- name= Name,
- defid= Defid,
- tagdefault='$3',
- extensiondefault='$4',
- exports=Ex,
- imports=Im,
- typeorval=Types}.
-% {module, '$1','$3','$6'}.
-% Results always in a record of type module defined in asn_records.hlr
-
-ModuleIdentifier -> typereference DefinitiveIdentifier :
- put(asn1_module,'$1'#typereference.val),
- {'$1','$2'}.
-
-DefinitiveIdentifier -> '{' DefinitiveObjIdComponentList '}' : '$2' .
-DefinitiveIdentifier -> '$empty': [].
-
-DefinitiveObjIdComponentList -> DefinitiveObjIdComponent : ['$1'].
-DefinitiveObjIdComponentList -> DefinitiveObjIdComponent DefinitiveObjIdComponentList : ['$1'|'$2'].
-
-DefinitiveObjIdComponent -> identifier : '$1' . %expanded->
-% DefinitiveObjIdComponent -> NameForm : '$1' .
-DefinitiveObjIdComponent -> number : '$1' . %expanded->
-% DefinitiveObjIdComponent -> DefinitiveNumberForm : 'fix' .
-DefinitiveObjIdComponent -> identifier '(' number ')' : {'$1','$3'} . %expanded->
-% DefinitiveObjIdComponent -> DefinitiveNameAndNumberForm : {'$1','$3'} .
-
-% DefinitiveNumberForm -> number : 'fix' .
-
-% DefinitiveNameAndNumberForm -> identifier '(' DefinitiveNumberForm ')' : 'fix' .
-
-TagDefault -> 'EXPLICIT' 'TAGS' : put(tagdefault,'EXPLICIT'),'EXPLICIT' .
-TagDefault -> 'IMPLICIT' 'TAGS' : put(tagdefault,'IMPLICIT'),'IMPLICIT' .
-TagDefault -> 'AUTOMATIC' 'TAGS' : put(tagdefault,'AUTOMATIC'),'AUTOMATIC' .
-TagDefault -> '$empty': put(tagdefault,'EXPLICIT'),'EXPLICIT'. % because this is the default
-
-ExtensionDefault -> 'EXTENSIBILITY' 'IMPLIED' : 'IMPLIED'.
-ExtensionDefault -> '$empty' : 'false'. % because this is the default
-
-ModuleBody -> Exports Imports AssignmentList : {'ModuleBody','$1','$2','$3'}.
-ModuleBody -> '$empty' : {'ModuleBody',nil,nil,[]}.
-
-Exports -> 'EXPORTS' SymbolList ';' : {exports,'$2'}.
-Exports -> 'EXPORTS' ';' : {exports,[]}.
-Exports -> '$empty' : {exports,all} .
-
-% inlined above SymbolsExported -> SymbolList : '$1'.
-% inlined above SymbolsExported -> '$empty' : [].
-
-Imports -> 'IMPORTS' SymbolsFromModuleList ';' : {imports,'$2'}.
-Imports -> 'IMPORTS' ';' : {imports,[]}.
-Imports -> '$empty' : {imports,[]} .
-
-% inlined above SymbolsImported -> SymbolsFromModuleList : '$1'.
-% inlined above SymbolsImported -> '$empty' : [].
-
-SymbolsFromModuleList -> SymbolsFromModule :['$1'].
-% SymbolsFromModuleList -> SymbolsFromModuleList SymbolsFromModule :$1.%changed
-SymbolsFromModuleList -> SymbolsFromModule SymbolsFromModuleList :['$1'|'$2'].
-
-% expanded SymbolsFromModule -> SymbolList 'FROM' GlobalModuleReference : #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-SymbolsFromModule -> SymbolList 'FROM' typereference : #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-SymbolsFromModule -> SymbolList 'FROM' typereference '{' ValueList '}': #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference identifier: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference Externalvaluereference: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-%SymbolsFromModule -> SymbolList 'FROM' typereference DefinedValue: #'SymbolsFromModule'{symbols = '$1',module='$3'}.
-
-% inlined GlobalModuleReference -> typereference AssignedIdentifier : {'$1','$2'} .
-
-% inlined above AssignedIdentifier -> '{' ValueList '}' : '$2'.
-% replaced AssignedIdentifier -> '{' DefinedValue ObjIdComponentList '}' :{'$2','$3'}.
-% not necessary , replaced by SAndSOfValue AssignedIdentifier -> ObjectIdentifierValue :'$1'.
-% AssignedIdentifier -> DefinedValue : '$1'.
-% inlined AssignedIdentifier -> '$empty' : undefined.
-
-SymbolList -> Symbol : ['$1'].
-SymbolList -> Symbol ',' SymbolList :['$1'|'$3'].
-
-Symbol -> Reference :'$1'.
-% later Symbol -> ParameterizedReference :'$1'.
-
-Reference -> typereference :'$1'.
-Reference -> identifier:'$1'.
-Reference -> typereference '{' '}':'$1'.
-Reference -> Externaltypereference '{' '}':'$1'.
-
-% later Reference -> objectclassreference :'$1'.
-% later Reference -> objectreference :'$1'.
-% later Reference -> objectsetreference :'$1'.
-
-AssignmentList -> Assignment : ['$1'].
-% modified AssignmentList -> AssignmentList Assignment : '$1'.
-AssignmentList -> Assignment AssignmentList : ['$1'|'$2'].
-
-Assignment -> TypeAssignment : '$1'.
-Assignment -> ValueAssignment : '$1'.
-% later Assignment -> ValueSetTypeAssignment : '$1'.
-Assignment -> ObjectClassAssignment : '$1'.
-% later Assignment -> ObjectAssignment : '$1'.
-% combined with ValueAssignment Assignment -> ObjectAssignment : '$1'.
-Assignment -> ObjectSetAssignment : '$1'.
-Assignment -> ParameterizedTypeAssignment : '$1'.
-%Assignment -> ParameterizedValueAssignment : '$1'.
-%Assignment -> ParameterizedValueSetTypeAssignment : '$1'.
-%Assignment -> ParameterizedObjectClassAssignment : '$1'.
-
-ObjectClassAssignment -> typereference '::=' 'CLASS' '{' FieldSpecs '}' :
-%ObjectClassAssignment -> objectclassreference '::=' 'CLASS' '{' FieldSpecs '}' :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'CLASS','$5',[]}}.
-ObjectClassAssignment -> typereference '::=' 'CLASS' '{' FieldSpecs '}' WithSyntaxSpec :
-%ObjectClassAssignment -> objectclassreference '::=' 'CLASS' '{' FieldSpecs '}' WithSyntaxSpec :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'CLASS','$5','$7'}}.
-
-FieldSpecs -> FieldSpec : ['$1'].
-FieldSpecs -> FieldSpec ',' FieldSpecs : ['$1'|'$3'].
-
-FieldSpec -> typefieldreference TypeOptionalitySpec : {typefield,'$1','$2'}.
-
-FieldSpec -> valuefieldreference Type 'UNIQUE' ValueOrObjectOptSpec :
- {fixedtypevaluefield,'$1','$2','UNIQUE','$4'}.
-FieldSpec -> valuefieldreference Type ValueOrObjectOptSpec :
- {fixedtypevaluefield,'$1','$2',undefined,'$3'}.
-
-FieldSpec -> valuefieldreference typefieldreference ValueOrObjectOptSpec :
- {variabletypevaluefield, '$1','$2','$3'}.
-
-FieldSpec -> typefieldreference typefieldreference VSetOrOSetOptSpec :
- {variabletypevaluesetfield, '$1','$2','$3'}.
-
-FieldSpec -> typefieldreference Type VSetOrOSetOptSpec :
- {fixedtypevaluesetfield, '$1','$2','$3'}.
-
-TypeOptionalitySpec -> 'DEFAULT' Type : {'DEFAULT','$2'}.
-TypeOptionalitySpec -> 'OPTIONAL' : 'OPTIONAL'.
-TypeOptionalitySpec -> '$empty' : 'MANDATORY'.
-
-ValueOrObjectOptSpec -> ValueOptionalitySpec : '$1'.
-ValueOrObjectOptSpec -> ObjectOptionalitySpec : '$1'.
-ValueOrObjectOptSpec -> 'OPTIONAL' : 'OPTIONAL'.
-ValueOrObjectOptSpec -> '$empty' : 'MANDATORY'.
-
-ValueOptionalitySpec -> 'DEFAULT' Value :
- case '$2' of
- {identifier,_,Id} -> {'DEFAULT',Id};
- _ -> {'DEFAULT','$2'}
- end.
-
-%ObjectOptionalitySpec -> 'DEFAULT' Object :{'DEFAULT','$1'}.
-ObjectOptionalitySpec -> 'DEFAULT' '{' FieldSetting ',' FieldSettings '}' :
- {'DEFAULT',{object,['$2'|'$4']}}.
-ObjectOptionalitySpec -> 'DEFAULT' '{' FieldSetting '}' :
- {'DEFAULT',{object, ['$2']}}.
-%ObjectOptionalitySpec -> 'DEFAULT' '{' DefinedSyntaxTokens '}' :
-% {'DEFAULT',{object, '$2'}}.
-ObjectOptionalitySpec -> 'DEFAULT' ObjectFromObject :
- {'DEFAULT',{object, '$2'}}.
-
-
-VSetOrOSetOptSpec -> ValueSetOptionalitySpec : '$1'.
-%VSetOrOSetOptSpec -> ObjectSetOptionalitySpec : '$1'.
-VSetOrOSetOptSpec -> 'OPTIONAL' : 'OPTIONAL'.
-VSetOrOSetOptSpec -> '$empty' : 'MANDATORY'.
-
-ValueSetOptionalitySpec -> 'DEFAULT' ValueSet : {'DEFAULT','$1'}.
-
-%ObjectSetOptionalitySpec -> 'DEFAULT' ObjectSet : {'DEFAULT','$1'}.
-
-OptionalitySpec -> 'DEFAULT' Type : {'DEFAULT','$2'}.
-OptionalitySpec -> 'DEFAULT' ValueNotNull :
- case '$2' of
- {identifier,_,Id} -> {'DEFAULT',Id};
- _ -> {'DEFAULT','$2'}
- end.
-OptionalitySpec -> 'OPTIONAL' : 'OPTIONAL'.
-OptionalitySpec -> '$empty' : 'MANDATORY'.
-
-WithSyntaxSpec -> 'WITH' 'SYNTAX' SyntaxList : {'WITH SYNTAX','$3'}.
-
-SyntaxList -> '{' TokenOrGroupSpecs '}' : '$2'.
-SyntaxList -> '{' '}' : [].
-
-TokenOrGroupSpecs -> TokenOrGroupSpec : ['$1'].
-TokenOrGroupSpecs -> TokenOrGroupSpec TokenOrGroupSpecs : ['$1'|'$2'].
-
-TokenOrGroupSpec -> RequiredToken : '$1'.
-TokenOrGroupSpec -> OptionalGroup : '$1'.
-
-OptionalGroup -> '[' TokenOrGroupSpecs ']' : '$2'.
-
-RequiredToken -> typereference : '$1'.
-RequiredToken -> Word : '$1'.
-RequiredToken -> ',' : '$1'.
-RequiredToken -> PrimitiveFieldName : '$1'.
-
-Word -> 'BY' : 'BY'.
-
-ParameterizedTypeAssignment -> typereference ParameterList '::=' Type :
- #ptypedef{pos=element(2,'$1'),name=element(3,'$1'),
- args='$2', typespec='$4'}.
-
-ParameterList -> '{' Parameters '}':'$2'.
-
-Parameters -> Parameter: ['$1'].
-Parameters -> Parameter ',' Parameters: ['$1'|'$3'].
-
-Parameter -> typereference: '$1'.
-Parameter -> Value: '$1'.
-Parameter -> Type ':' typereference: {'$1','$3'}.
-Parameter -> Type ':' Value: {'$1','$3'}.
-Parameter -> '{' typereference '}': {objectset,'$2'}.
-
-
-% Externaltypereference -> modulereference '.' typereference : {'$1','$3'} .
-Externaltypereference -> typereference '.' typereference : #'Externaltypereference'{pos=element(2,'$1'),module=element(3,'$1'),type=element(3,'$3')}.
-
-% Externalvaluereference -> modulereference '.' valuereference : {'$1','$3'} .
-% inlined Externalvaluereference -> typereference '.' identifier : #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),value=element(3,'$3')}.
-
-
-DefinedType -> Externaltypereference : '$1' .
-DefinedType -> typereference :
- #'Externaltypereference'{pos='$1'#typereference.pos,
- module= get(asn1_module),
- type= '$1'#typereference.val} .
-DefinedType -> typereference ParameterList : {pt,'$1','$2'}.
-DefinedType -> Externaltypereference ParameterList : {pt,'$1','$2'}.
-
-% ActualParameterList -> '{' ActualParameters '}' : '$1'.
-
-% ActualParameters -> ActualParameter : ['$1'].
-% ActualParameters -> ActualParameter ',' ActualParameters : ['$1'|'$3'].
-
-ActualParameter -> Type : '$1'.
-ActualParameter -> ValueNotNull : '$1'.
-ActualParameter -> ValueSet : '$1'.
-% later DefinedType -> ParameterizedType : '$1' .
-% later DefinedType -> ParameterizedValueSetType : '$1' .
-
-% inlined DefinedValue -> Externalvaluereference :'$1'.
-% inlined DefinedValue -> identifier :'$1'.
-% later DefinedValue -> ParameterizedValue :'$1'.
-
-% not referenced yet AbsoluteReference -> '@' GlobalModuleReference '.' ItemSpec :{'$2','$4'}.
-
-% not referenced yet ItemSpec -> typereference :'$1'.
-% not referenced yet ItemSpec -> ItemId '.' ComponentId : {'$1','$3'}.
-
-% not referenced yet ItemId -> ItemSpec : '$1'.
-
-% not referenced yet ComponentId -> identifier :'$1'.
-% not referenced yet ComponentId -> number :'$1'.
-% not referenced yet ComponentId -> '*' :'$1'.
-
-TypeAssignment -> typereference '::=' Type :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec='$3'}.
-
-ValueAssignment -> identifier Type '::=' Value :
- #valuedef{pos=element(2,'$1'),name=element(3,'$1'),type='$2',value='$4'}.
-
-% later ValueSetTypeAssignment -> typereference Type '::=' ValueSet :{'ValueSetTypeAssignment','$1','$2','$4'}.
-
-
-ValueSet -> '{' ElementSetSpec '}' : {valueset,'$2'}.
-
-% record(type,{tag,def,constraint}).
-Type -> BuiltinType :#type{def='$1'}.
-Type -> 'NULL' :#type{def='NULL'}.
-Type -> TaggedType:'$1'.
-Type -> ReferencedType:#type{def='$1'}. % change notag later
-Type -> ConstrainedType:'$1'.
-
-%ANY is here for compatibility with the old ASN.1 standard from 1988
-BuiltinType -> 'ANY' AnyDefBy:
- case '$2' of
- [] -> 'ANY';
- _ -> {'ANY DEFINED BY','$2'}
- end.
-BuiltinType -> BitStringType :'$1'.
-BuiltinType -> 'BOOLEAN' :element(1,'$1').
-BuiltinType -> CharacterStringType :'$1'.
-BuiltinType -> ChoiceType :'$1'.
-BuiltinType -> 'EMBEDDED' 'PDV' :'EMBEDDED PDV'.
-BuiltinType -> EnumeratedType :'$1'.
-BuiltinType -> 'EXTERNAL' :element(1,'$1').
-% later BuiltinType -> InstanceOfType :'$1'.
-BuiltinType -> IntegerType :'$1'.
-% BuiltinType -> 'NULL' :element(1,'$1').
-% later BuiltinType -> ObjectClassFieldType :'$1'.
-BuiltinType -> 'OBJECT' 'IDENTIFIER' :'OBJECT IDENTIFIER'.
-BuiltinType -> 'OCTET' 'STRING' :'OCTET STRING'.
-BuiltinType -> 'REAL' :element(1,'$1').
-BuiltinType -> SequenceType :'$1'.
-BuiltinType -> SequenceOfType :'$1'.
-BuiltinType -> SetType :'$1'.
-BuiltinType -> SetOfType :'$1'.
-% The so called Useful types
-BuiltinType -> 'GeneralizedTime': 'GeneralizedTime'.
-BuiltinType -> 'UTCTime' :'UTCTime'.
-BuiltinType -> 'ObjectDescriptor' : 'ObjectDescriptor'.
-
-% moved BuiltinType -> TaggedType :'$1'.
-
-
-AnyDefBy -> 'DEFINED' 'BY' identifier: '$3'.
-AnyDefBy -> '$empty': [].
-
-NamedType -> identifier Type :
-%{_,Pos,Val} = '$1',
-%{'NamedType',Pos,{Val,'$2'}}.
-V1 = '$1',
-{'NamedType',V1#identifier.pos,{V1#identifier.val,'$2'}}.
-NamedType -> SelectionType :'$1'.
-
-ReferencedType -> DefinedType : '$1'.
-% redundant ReferencedType -> UsefulType : 'fix'.
-ReferencedType -> SelectionType : '$1'.
-ReferencedType -> TypeFromObject : '$1'.
-% later ReferencedType -> ValueSetFromObjects : 'fix'.
-
-% to much conflicts Value -> AnyValue :'$1'.
-Value -> ValueNotNull : '$1'.
-Value -> 'NULL' :element(1,'$1').
-
-ValueNotNull -> BuiltinValue :'$1'.
-% inlined Value -> DefinedValue :'$1'. % DefinedValue , identifier
-% inlined Externalvaluereference -> Externalvaluereference :'$1'.
-ValueNotNull -> typereference '.' identifier :
- #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),
- value=element(3,'$3')}.
-ValueNotNull -> identifier :'$1'.
-
-
-%tmp Value -> NamedNumber: '$1'. % not a value but part of ObjIdC
-% redundant BuiltinValue -> BitStringValue :'$1'.
-BuiltinValue -> BooleanValue :'$1'.
-BuiltinValue -> CharacterStringValue :'$1'.
-BuiltinValue -> ChoiceValue :'$1'.
-% BuiltinValue -> EmbeddedPDVValue :'$1'. ==SequenceValue
-% BuiltinValue -> EnumeratedValue :'$1'. identifier
-% BuiltinValue -> ExternalValue :'$1'. ==SequenceValue
-% later BuiltinValue -> InstanceOfValue :'$1'.
-BuiltinValue -> SignedNumber :'$1'.
-% BuiltinValue -> 'NULL' :'$1'.
-% later BuiltinValue -> ObjectClassFieldValue :'$1'.
-% replaced by SAndSOfValue BuiltinValue -> ObjectIdentifierValue :'$1'.
-BuiltinValue -> bstring :element(3,'$1').
-BuiltinValue -> hstring :element(3,'$1').
-% conflict BuiltinValue -> RealValue :'$1'.
-BuiltinValue -> SAndSOfValue :'$1'.
-% replaced BuiltinValue -> SequenceOfValue :'$1'.
-% replaced BuiltinValue -> SequenceValue :'$1'.
-% replaced BuiltinValue -> SetValue :'$1'.
-% replaced BuiltinValue -> SetOfValue :'$1'.
-% conflict redundant BuiltinValue -> TaggedValue :'$1'.
-
-% inlined ReferencedValue -> DefinedValue:'$1'.
-% ReferencedValue -> Externalvaluereference:'$1'.
-% ReferencedValue -> identifier :'$1'.
-% later ReferencedValue -> ValueFromObject:'$1'.
-
-% inlined BooleanType -> BOOLEAN :'BOOLEAN'.
-
-% to much conflicts AnyValue -> Type ':' Value : {'ANYVALUE',{'$1','$3'}}.
-
-BooleanValue -> TRUE :true.
-BooleanValue -> FALSE :false.
-
-IntegerType -> 'INTEGER' : 'INTEGER'.
-IntegerType -> 'INTEGER' '{' NamedNumberList '}' : {'INTEGER','$3'}.
-
-NamedNumberList -> NamedNumber :['$1'].
-% modified NamedNumberList -> NamedNumberList ',' NamedNumber :'fix'.
-NamedNumberList -> NamedNumber ',' NamedNumberList :['$1'|'$3'].
-
-NamedNumber -> identifier '(' SignedNumber ')' : {'NamedNumber',element(3,'$1'),'$3'}.
-NamedNumber -> identifier '(' typereference '.' identifier ')' : {'NamedNumber',element(3,'$1'),{'ExternalValue',element(3,'$3'),element(3,'$5')}}.
-NamedNumber -> identifier '(' identifier ')' : {'NamedNumber',element(3,'$1'),element(3,'$3')}.
-
-%NamedValue -> identifier Value :
-% {'NamedValue',element(2,'$1'),element(3,'$1'),'$2'}.
-
-
-SignedNumber -> number : element(3,'$1').
-SignedNumber -> '-' number : - element(3,'$1').
-
-% inlined IntegerValue -> SignedNumber :'$1'.
-% conflict moved to Value IntegerValue -> identifier:'$1'.
-
-EnumeratedType -> ENUMERATED '{' Enumeration '}' :{'ENUMERATED','$3'}.
-
-% inlined Enumerations -> Enumeration :{'$1','false',[]}.
-% inlined Enumerations -> Enumeration ',' '...' : {'$1','true',[]}.
-% inlined Enumerations -> Enumeration ',' '...' ',' Enumeration : {'$1','true','$5'}.
-
-Enumeration -> EnumerationItem :['$1'].
-% modified Enumeration -> EnumerationItem ',' Enumeration :'fix'.
-Enumeration -> EnumerationItem ',' Enumeration :['$1'|'$3'].
-
-EnumerationItem -> identifier:element(3,'$1').
-EnumerationItem -> NamedNumber :'$1'.
-EnumerationItem -> '...' :'EXTENSIONMARK'.
-
-% conflict moved to Value EnumeratedValue -> identifier:'$1'.
-
-% inlined RealType -> REAL:'REAL'.
-
-RealValue -> NumericRealValue :'$1'.
-RealValue -> SpecialRealValue:'$1'.
-
-% ?? NumericRealValue -> number:'$1'. % number MUST BE '0'
-NumericRealValue -> SAndSOfValue : '$1'. % Value of the associated sequence type
-
-SpecialRealValue -> 'PLUS-INFINITY' :'$1'.
-SpecialRealValue -> 'MINUS-INFINITY' :'$1'.
-
-BitStringType -> 'BIT' 'STRING' :{'BIT STRING',[]}.
-BitStringType -> 'BIT' 'STRING' '{' NamedNumberList '}' :{'BIT STRING','$4'}.
-% NamedBitList replaced by NamedNumberList to reduce the grammar
-% Must check later that all "numbers" are positive
-
-% inlined BitStringValue -> bstring:'$1'.
-% inlined BitStringValue -> hstring:'$1'.
-% redundant use SequenceValue BitStringValue -> '{' IdentifierList '}' :$2.
-% redundant use SequenceValue BitStringValue -> '{' '}' :'fix'.
-
-IdentifierList -> identifier :[element(3,'$1')].
-% modified IdentifierList -> IdentifierList ',' identifier :'$1'.
-IdentifierList -> identifier ',' IdentifierList :[element(3,'$1')|'$3'].
-
-% inlined OctetStringType -> 'OCTET' 'STRING' :'OCTET STRING'.
-
-% inlined OctetStringValue -> bstring:'$1'.
-% inlined OctetStringValue -> hstring:'$1'.
-
-% inlined NullType -> 'NULL':'NULL'.
-
-% inlined NullValue -> NULL:'NULL'.
-
-% result is {'SEQUENCE',Optionals,Extensionmark,Componenttypelist}.
-SequenceType -> SEQUENCE '{' ComponentTypeList '}' :{'SEQUENCE','$3'}.
-% SequenceType -> SEQUENCE '{' ComponentTypeLists '}' :{'SEQUENCE','$3'}.
-% SequenceType -> SEQUENCE '{' ExtensionAndException '}' :{'SEQUENCE','$3'}.
-SequenceType -> SEQUENCE '{' '}' :{'SEQUENCE',[]}.
-
-% result is {RootComponentList,ExtensionAndException,AdditionalComponentTypeList}.
-%ComponentTypeLists -> ComponentTypeList ',' ExtensionAndException :{'$1','$3',[]}.
-%ComponentTypeLists -> ComponentTypeList :{'$1','false',[]}.
-%ComponentTypeLists -> ComponentTypeList ',' ExtensionAndException
-% ',' ComponentTypeList :{'$1','$3', '$5'}.
-%ComponentTypeLists -> ExtensionAndException ',' ComponentTypeList :{[],'$1','$3'}.
-
-ComponentTypeList -> ComponentType :['$1'].
-% modified below ComponentTypeList -> ComponentTypeList ',' ComponentType :'$1'.
-ComponentTypeList -> ComponentType ',' ComponentTypeList :['$1'|'$3'].
-
-% -record('ComponentType',{pos,name,type,attrib}).
-ComponentType -> '...' ExceptionSpec :{'EXTENSIONMARK',element(2,'$1'),'$2'}.
-ComponentType -> NamedType :
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop=mandatory}.
-ComponentType -> NamedType 'OPTIONAL' :
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop='OPTIONAL'}.
-ComponentType -> NamedType 'DEFAULT' Value:
- {'NamedType',Pos,{Name,Type}} = '$1',
- #'ComponentType'{pos=Pos,name=Name,typespec=Type,prop={'DEFAULT','$3'}}.
-ComponentType -> 'COMPONENTS' 'OF' Type :{'COMPONENTS OF','$3'}.
-
-% redundant ExtensionAndException -> '...' : extensionmark.
-% ExtensionAndException -> '...' ExceptionSpec : {extensionmark,'$2'}.
-
-% replaced SequenceValue -> '{' ComponentValueList '}':'$2'.
-% replaced SequenceValue -> '{' '}':[].
-
-ValueList -> Value :['$1'].
-ValueList -> NamedNumber :['$1'].
-% modified ValueList -> ValueList ',' Value :'$1'.
-ValueList -> Value ',' ValueList :['$1'|'$3'].
-ValueList -> Value ',' '...' :['$1' |[]].
-ValueList -> Value ValueList : ['$1',space|'$2'].
-ValueList -> NamedNumber ValueList: ['$1',space|'$2'].
-
-%ComponentValueList -> identifier ObjIdComponent:[{'NamedValue','$1','$2'}].
-%ComponentValueList -> NamedValue :['$1'].
-%ComponentValueList -> NamedValue ',' ComponentValueList:['$1'|'$3'].
-%ComponentValueList -> identifier ObjIdComponent ',' ComponentValueList :[{'NamedValue', '$1','$2'}|'$4'].
-
-SequenceOfType -> SEQUENCE OF Type : {'SEQUENCE OF','$3'}.
-
-% replaced SequenceOfValue with SAndSOfValue
-
-SAndSOfValue -> '{' ValueList '}' :'$2'.
-%SAndSOfValue -> '{' ComponentValueList '}' :'$2'.
-SAndSOfValue -> '{' '}' :[].
-
-% save for later SetType ->
-% result is {'SET',Optionals,Extensionmark,Componenttypelist}.
-SetType -> SET '{' ComponentTypeList '}' :{'SET','$3'}.
-% SetType -> SET '{' ExtensionAndException '}' :{'SET','$3'}.
-SetType -> SET '{' '}' :{'SET',[]}.
-
-% replaced SetValue with SAndSOfValue
-
-SetOfType -> SET OF Type : {'SET OF','$3'}.
-
-% replaced SetOfValue with SAndSOfValue
-
-ChoiceType -> 'CHOICE' '{' ComponentTypeList '}' :{'CHOICE','$3'}.
-% AlternativeTypeList is replaced by ComponentTypeList
-ChoiceValue -> identifier ':' Value : {'ChoiceValue',element(3,'$1'),'$3'}.
-% save for later SelectionType ->
-
-TaggedType -> Tag Type : '$2'#type{tag=['$1'#tag{type={default,get(tagdefault)}}]}.
-TaggedType -> Tag IMPLICIT Type :'$3'#type{tag=['$1'#tag{type='IMPLICIT'}]}.
-TaggedType -> Tag EXPLICIT Type :'$3'#type{tag=['$1'#tag{type='EXPLICIT'}]}.
-
-Tag -> '[' Class ClassNumber ']': #tag{class='$2',number='$3'}.
-Tag -> '[' Class typereference '.' identifier ']':
- #tag{class='$2',number=#'Externalvaluereference'{pos=element(2,'$3'),module=element(3,'$3'),
- value=element(3,'$5')}}.
-Tag -> '[' Class number ']': #tag{class='$2',number=element(3,'$3')}.
-Tag -> '[' Class identifier ']': #tag{class='$2',number=element(3,'$3')}.
-
-ClassNumber -> number :element(3,'$1').
-% inlined above ClassNumber -> typereference '.' identifier :{'Externalvaluereference',element(3,'$1'),element(3,'$3')}.
-ClassNumber -> identifier :element(3,'$1').
-
-Class -> 'UNIVERSAL' :element(1,'$1').
-Class -> 'APPLICATION' :element(1,'$1').
-Class -> 'PRIVATE' :element(1,'$1').
-Class -> '$empty' :'CONTEXT'.
-
-% conflict redundant TaggedValue -> Value:'$1'.
-
-% inlined EmbeddedPDVType -> 'EMBEDDED' 'PDV' :'EMBEDDED PDV'.
-
-% inlined EmbeddedPDVValue -> SequenceValue:'$1'.
-
-% inlined ExternalType -> 'EXTERNAL' :'EXTERNAL'.
-
-% inlined ExternalValue -> SequenceValue :'$1'.
-
-% inlined ObjectIdentifierType -> 'OBJECT' 'IDENTIFIER' :'OBJECT IDENTIFIER'.
-
-ObjectIdentifierValue -> '{' ObjIdComponentList '}' :'$2'.
-% inlined ObjectIdentifierValue -> SequenceAndSequenceOfValue :'$1'.
-% ObjectIdentifierValue -> '{' identifier ObjIdComponentList '}' :{'ObjectIdentifierValue','$2','$3'}.
-% ObjectIdentifierValue -> '{' typereference '.' identifier ObjIdComponentList '}' :{'ObjectIdentifierValue',{'$2','$4'},'$5'}.
-
-ObjIdComponentList -> Value:'$1'.
-ObjIdComponentList -> Value ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> DefinedValue:'$1'.
-%ObjIdComponentList -> number:'$1'.
-%ObjIdComponentList -> DefinedValue ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> number ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> ObjIdComponent ObjIdComponentList :['$1'|'$2'].
-%ObjIdComponentList -> ObjIdComponent ObjIdComponentList :['$1'|'$2'].
-
-% redundant ObjIdComponent -> NameForm :'$1'. % expanded
-% replaced by 2 ObjIdComponent -> NumberForm :'$1'.
-% ObjIdComponent -> number :'$1'.
-% ObjIdComponent -> DefinedValue :'$1'. % means DefinedValue
-% ObjIdComponent -> NameAndNumberForm :'$1'.
-% ObjIdComponent -> NamedNumber :'$1'.
-% NamedBit replaced by NamedNumber to reduce grammar
-% must check later that "number" is positive
-
-% NameForm -> identifier:'$1'.
-
-% inlined NumberForm -> number :'$1'.
-% inlined NumberForm -> DefinedValue :'$1'.
-
-% replaced by NamedBit NameAndNumberForm -> identifier '(' NumberForm ')'.
-% NameAndNumberForm -> NamedBit:'$1'.
-
-
-CharacterStringType -> restrictedcharacterstringtype :element(3,'$1').
-CharacterStringType -> 'CHARACTER' 'STRING' :'CHARACTER STRING'.
-
-RestrictedCharacterStringValue -> cstring :element(3, '$1').
-% modified below RestrictedCharacterStringValue -> CharacterStringList :'$1'.
-% conflict vs BuiltinValue RestrictedCharacterStringValue -> SequenceAndSequenceOfValue :'$1'.
-RestrictedCharacterStringValue -> Quadruple :'$1'.
-RestrictedCharacterStringValue -> Tuple :'$1'.
-
-% redundant CharacterStringList -> '{' ValueList '}' :'$2'. % modified
-
-% redundant CharSyms -> CharsDefn :'$1'.
-% redundant CharSyms -> CharSyms ',' CharsDefn :['$1'|'$3'].
-
-% redundant CharsDefn -> cstring :'$1'.
-% temporary replaced see below CharsDefn -> DefinedValue :'$1'.
-% redundant CharsDefn -> Value :'$1'.
-
-Quadruple -> '{' number ',' number ',' number ',' number '}' :{'Quadruple','$2','$4','$6','$8'}.
-% {Group,Plane,Row,Cell}
-
-Tuple -> '{' number ',' number '}' :{'Tuple', '$2','$4'}.
-% {TableColumn,TableRow}
-
-% inlined UnrestrictedCharacterString -> 'CHARACTER' 'STRING' :'CHARACTER STRING'.
-
-CharacterStringValue -> RestrictedCharacterStringValue :'$1'.
-% conflict vs BuiltinValue CharacterStringValue -> SequenceValue :'$1'. % UnrestrictedCharacterStringValue
-
-% inlined UsefulType -> typereference :'$1'.
-
-SelectionType -> identifier '<' Type : {'SelectionType',element(3,'$1'),'$3'}.
-
-ConstrainedType -> Type Constraint :
- '$1'#type{constraint=merge_constraints(['$2'])}.
-ConstrainedType -> Type Constraint Constraint :
- '$1'#type{constraint=merge_constraints(['$2','$3'])}.
-ConstrainedType -> Type Constraint Constraint Constraint:
- '$1'#type{constraint=merge_constraints(['$2','$3','$4'])}.
-ConstrainedType -> Type Constraint Constraint Constraint Constraint:
- '$1'#type{constraint=merge_constraints(['$2','$3','$4','$5'])}.
-%ConstrainedType -> Type Constraint :'$1'#type{constraint='$2'}.
-%ConstrainedType -> Type Constraint :'$1'#type{constraint='$2'}.
-ConstrainedType -> TypeWithConstraint :'$1'.
-
-TypeWithConstraint -> 'SET' Constraint 'OF' Type :
- #type{def = {'SET OF','$4'},constraint=merge_constraints(['$2'])}.
-TypeWithConstraint -> 'SET' 'SIZE' Constraint 'OF' Type :
- #type{def = {'SET OF','$5'},constraint = merge_constraints([#constraint{c={'SizeConstraint','$3'#constraint.c}}])}.
-TypeWithConstraint -> 'SEQUENCE' Constraint 'OF' Type :
- #type{def = {'SEQUENCE OF','$4'},constraint =
- merge_constraints(['$2'])}.
-TypeWithConstraint -> 'SEQUENCE' 'SIZE' Constraint 'OF' Type :
- #type{def = {'SEQUENCE OF','$5'},constraint = merge_constraints([#constraint{c={'SizeConstraint','$3'#constraint.c}}])}.
-
-
-Constraint -> '(' ConstraintSpec ExceptionSpec ')' :
- #constraint{c='$2',e='$3'}.
-
-% inlined Constraint -> SubTypeConstraint :'$1'.
-ConstraintSpec -> ElementSetSpecs :'$1'.
-ConstraintSpec -> UserDefinedConstraint :'$1'.
-ConstraintSpec -> TableConstraint :'$1'.
-
-TableConstraint -> ComponentRelationConstraint : '$1'.
-TableConstraint -> ObjectSet : '$1'.
-%TableConstraint -> '{' typereference '}' :tableconstraint.
-
-ComponentRelationConstraint -> '{' typereference '}' '{' '@' ComponentIdList '}' : componentrelation.
-ComponentRelationConstraint -> '{' typereference '}' '{' '@' '.' ComponentIdList '}' : componentrelation.
-
-ComponentIdList -> identifier: ['$1'].
-ComponentIdList -> identifier '.' ComponentIdList: ['$1'| '$3'].
-
-
-% later ConstraintSpec -> GeneralConstraint :'$1'.
-
-% from X.682
-UserDefinedConstraint -> 'CONSTRAINED' 'BY' '{' '}' : {constrained_by,[]}.
-UserDefinedConstraint -> 'CONSTRAINED' 'BY'
- '{' UserDefinedConstraintParameters '}' : {constrained_by,'$4'}.
-
-UserDefinedConstraintParameters -> UserDefinedConstraintParameter : ['$1'].
-UserDefinedConstraintParameters ->
- UserDefinedConstraintParameter ','
- UserDefinedConstraintParameters: ['$1'|'$3'].
-
-UserDefinedConstraintParameter -> Type '.' ActualParameter : {'$1','$3'}.
-UserDefinedConstraintParameter -> ActualParameter : '$1'.
-
-
-
-ExceptionSpec -> '!' ExceptionIdentification : '$1'.
-ExceptionSpec -> '$empty' : undefined.
-
-ExceptionIdentification -> SignedNumber : '$1'.
-% inlined ExceptionIdentification -> DefinedValue : '$1'.
-ExceptionIdentification -> typereference '.' identifier :
- #'Externalvaluereference'{pos=element(2,'$1'),module=element(3,'$1'),
- value=element(3,'$1')}.
-ExceptionIdentification -> identifier :'$1'.
-ExceptionIdentification -> Type ':' Value : {'$1','$3'}.
-
-% inlined SubTypeConstraint -> ElementSetSpec
-
-ElementSetSpecs -> ElementSetSpec : '$1'.
-ElementSetSpecs -> ElementSetSpec ',' '...': {'$1',[]}.
-ElementSetSpecs -> '...' ',' ElementSetSpec : {[],'$3'}.
-ElementSetSpecs -> ElementSetSpec ',' '...' ',' ElementSetSpec : {'$1','$5'}.
-
-ElementSetSpec -> Unions : '$1'.
-ElementSetSpec -> 'ALL' Exclusions : {'ALL','$2'}.
-
-Unions -> Intersections : '$1'.
-Unions -> UElems UnionMark IntersectionElements :
- case {'$1','$3'} of
- {{'SingleValue',V1},{'SingleValue',V2}} ->
- {'SingleValue',ordsets:union(to_set(V1),to_set(V2))}
- end.
-
-UElems -> Unions :'$1'.
-
-Intersections -> IntersectionElements :'$1'.
-Intersections -> IElems IntersectionMark IntersectionElements :
- case {'$1','$3'} of
- {{'SingleValue',V1},{'SingleValue',V2}} ->
- {'SingleValue',ordsets:intersection(to_set(V1),to_set(V2))};
- {V1,V2} when list(V1) ->
- V1 ++ [V2];
- {V1,V2} ->
- [V1,V2]
- end.
-%Intersections -> IElems '^' IntersectionElements :{'INTERSECTION','$1','$3'}.
-%Intersections -> IElems 'INTERSECTION' IntersectionElements :{'INTERSECTION','$1','$3'}.
-
-IElems -> Intersections :'$1'.
-
-IntersectionElements -> Elements :'$1'.
-IntersectionElements -> Elems Exclusions :{'$1','$2'}.
-
-Elems -> Elements :'$1'.
-
-Exclusions -> 'EXCEPT' Elements :{'EXCEPT','$2'}.
-
-IntersectionMark -> 'INTERSECTION':'$1'.
-IntersectionMark -> '^':'$1'.
-UnionMark -> 'UNION':'$1'.
-UnionMark -> '|':'$1'.
-
-
-Elements -> SubTypeElements : '$1'.
-%Elements -> ObjectSetElements : '$1'.
-Elements -> '(' ElementSetSpec ')' : '$2'.
-Elements -> ReferencedType : '$1'.
-
-SubTypeElements -> ValueList : {'SingleValue','$1'}. % NOTE it must be a Value
-% The rule above modifyed only because of conflicts
-SubTypeElements -> 'INCLUDES' Type : {'ContainedSubType','$2'}.
-%not lalr1 if this is activated SubTypeElements -> Type : {'TypeConstraint','$1'}.
-SubTypeElements -> LowerEndpoint '..' UpperEndpoint : {'ValueRange',{'$1','$3'}}.
-SubTypeElements -> 'FROM' Constraint : {'PermittedAlphabet','$2'#constraint.c}.
-SubTypeElements -> 'SIZE' Constraint: {'SizeConstraint','$2'#constraint.c}.
-% later will introduce conflicts related to NULL SubTypeElements -> Type : {'TypeConstraint','$1'}.
-SubTypeElements -> 'WITH' 'COMPONENT' Constraint:{'WITH COMPONENT','$3'}.
-SubTypeElements -> 'WITH' 'COMPONENTS' '{' TypeConstraints '}':{'WITH COMPONENTS',{'FullSpecification','$4'}}.
-SubTypeElements -> 'WITH' 'COMPONENTS' '{' '...' ',' TypeConstraints '}' :{'WITH COMPONENTS',{'PartialSpecification','$3'}}.
-
-% inlined above InnerTypeConstraints ::=
-% inlined above SingleTypeConstraint::= Constraint
-% inlined above MultipleTypeConstraints ::= FullSpecification | PartialSpecification
-% inlined above FullSpecification ::= "{" TypeConstraints "}"
-% inlined above PartialSpecification ::= "{" "..." "," TypeConstraints "}"
-% TypeConstraints -> identifier : [{'NamedConstraint',element(3,'$1'),undefined,undefined}]. % is this really meaningful or allowed
-TypeConstraints -> NamedConstraint : ['$1'].
-TypeConstraints -> NamedConstraint ',' TypeConstraints : ['$1'|'$3'].
-TypeConstraints -> identifier : ['$1'].
-TypeConstraints -> identifier ',' TypeConstraints : ['$1'|'$3'].
-
-NamedConstraint -> identifier Constraint PresenceConstraint :{'NamedConstraint',element(3,'$1'),'$2','$3'}.
-NamedConstraint -> identifier Constraint :{'NamedConstraint',element(3,'$1'),'$2',undefined}.
-NamedConstraint -> identifier PresenceConstraint :{'NamedConstraint',element(3,'$1'),undefined,'$2'}.
-
-PresenceConstraint -> 'PRESENT' : 'PRESENT'.
-PresenceConstraint -> 'ABSENT' : 'ABSENT'.
-PresenceConstraint -> 'OPTIONAL' : 'OPTIONAL'.
-
-
-
-LowerEndpoint -> LowerEndValue :'$1'.
-%LowerEndpoint -> LowerEndValue '<':{gt,'$1'}.
-LowerEndpoint -> LowerEndValue '<':('$1'+1).
-
-UpperEndpoint -> UpperEndValue :'$1'.
-%UpperEndpoint -> '<' UpperEndValue :{lt,'$2'}.
-UpperEndpoint -> '<' UpperEndValue :('$2'-1).
-
-LowerEndValue -> Value :'$1'.
-LowerEndValue -> 'MIN' :'MIN'.
-
-UpperEndValue -> Value :'$1'.
-UpperEndValue -> 'MAX' :'MAX'.
-
-
-% X.681
-
-
-% X.681 chap 15
-
-%TypeFromObject -> ReferencedObjects '.' FieldName : {'$1','$3'}.
-TypeFromObject -> typereference '.' FieldName : {'$1','$3'}.
-
-ReferencedObjects -> typereference : '$1'.
-%ReferencedObjects -> ParameterizedObject
-%ReferencedObjects -> DefinedObjectSet
-%ReferencedObjects -> ParameterizedObjectSet
-
-FieldName -> typefieldreference : ['$1'].
-FieldName -> valuefieldreference : ['$1'].
-FieldName -> FieldName '.' FieldName : ['$1' | '$3'].
-
-PrimitiveFieldName -> typefieldreference : '$1'.
-PrimitiveFieldName -> valuefieldreference : '$1'.
-
-%ObjectSetAssignment -> typereference DefinedObjectClass '::=' ObjectSet: null.
-ObjectSetAssignment -> typereference typereference '::=' ObjectSet :
- #typedef{pos=element(2,'$1'),name=element(3,'$1'),typespec={'ObjectSet',element(3,'$2'), '$4'}}.
-ObjectSetAssignment -> typereference typereference '.' typereference '::=' ObjectSet.
-
-ObjectSet -> '{' ElementSetSpecs '}' : '$2'.
-ObjectSet -> '{' '...' '}' : ['EXTENSIONMARK'].
-
-%ObjectSetElements -> Object.
-% ObjectSetElements -> identifier : '$1'.
-%ObjectSetElements -> DefinedObjectSet.
-%ObjectSetElements -> ObjectSetFromObjects.
-%ObjectSetElements -> ParameterizedObjectSet.
-
-%ObjectAssignment -> identifier DefinedObjectClass '::=' Object.
-ObjectAssignment -> ValueAssignment.
-%ObjectAssignment -> identifier typereference '::=' Object.
-%ObjectAssignment -> identifier typereference '.' typereference '::=' Object.
-
-%Object -> DefinedObject: '$1'.
-%Object -> ExternalObjectReference: '$1'.%Object -> DefinedObject: '$1'.
-Object -> typereference '.' identifier: '$1'.%Object -> DefinedObject: '$1'.
-Object -> identifier: '$1'.%Object -> DefinedObject: '$1'.
-
-%Object -> ObjectDefn -> DefaultSyntax: '$1'.
-Object -> '{' FieldSetting ',' FieldSettings '}' : ['$2'|'$4'].
-Object -> '{' FieldSetting '}' :['$2'].
-
-%% For User-friendly notation
-%% Object -> ObjectDefn -> DefinedSyntax
-Object -> '{' '}'.
-Object -> '{' DefinedSyntaxTokens '}'.
-
-% later Object -> ParameterizedObject: '$1'. look in x.683
-
-%DefinedObject -> ExternalObjectReference: '$1'.
-%DefinedObject -> identifier: '$1'.
-
-DefinedObjectClass -> typereference.
-%DefinedObjectClass -> objectclassreference.
-DefinedObjectClass -> ExternalObjectClassReference.
-%DefinedObjectClass -> typereference '.' objectclassreference.
-%%DefinedObjectClass -> UsefulObjectClassReference.
-
-ExternalObjectReference -> typereference '.' identifier.
-ExternalObjectClassReference -> typereference '.' typereference.
-%%ExternalObjectClassReference -> typereference '.' objectclassreference.
-
-ObjectDefn -> DefaultSyntax: '$1'.
-%ObjectDefn -> DefinedSyntax: '$1'.
-
-ObjectFromObject -> ReferencedObjects '.' FieldName : {'ObjectFromObject','$1','$3'}.
-
-% later look in x.683 ParameterizedObject ->
-
-%DefaultSyntax -> '{' '}'.
-%DefaultSyntax -> '{' FieldSettings '}': '$2'.
-DefaultSyntax -> '{' FieldSetting ',' FieldSettings '}': '$2'.
-DefaultSyntax -> '{' FieldSetting '}': '$2'.
-
-FieldSetting -> PrimitiveFieldName Setting: {'$1','$2'}.
-
-FieldSettings -> FieldSetting ',' FieldSettings: ['$1'|'$3'].
-FieldSettings -> FieldSetting ',' FieldSettings: ['$1'|'$3'].
-FieldSettings -> FieldSetting: '$1'.
-
-%DefinedSyntax -> '{' '}'.
-DefinedSyntax -> '{' DefinedSyntaxTokens '}': '$2'.
-
-DefinedSyntaxTokens -> DefinedSyntaxToken: '$1'.
-DefinedSyntaxTokens -> DefinedSyntaxToken DefinedSyntaxTokens: ['$1'|'$2'].
-
-% expanded DefinedSyntaxToken -> Literal: '$1'.
-%DefinedSyntaxToken -> typereference: '$1'.
-DefinedSyntaxToken -> word: '$1'.
-DefinedSyntaxToken -> ',': '$1'.
-DefinedSyntaxToken -> Setting: '$1'.
-%DefinedSyntaxToken -> '$empty': nil .
-
-% Setting ::= Type|Value|ValueSet|Object|ObjectSet
-Setting -> Type: '$1'.
-%Setting -> Value: '$1'.
-%Setting -> ValueNotNull: '$1'.
-Setting -> BuiltinValue: '$1'.
-Setting -> ValueSet: '$1'.
-%Setting -> Object: '$1'.
-%Setting -> ExternalObjectReference.
-Setting -> typereference '.' identifier.
-Setting -> identifier.
-Setting -> ObjectDefn.
-
-Setting -> ObjectSet: '$1'.
-
-
-Erlang code.
-%%-author('[email protected]').
--copyright('Copyright (c) 1991-99 Ericsson Telecom AB').
--vsn('$Revision: /main/release/1 $').
--include("asn1_records.hrl").
-
-to_set(V) when list(V) ->
- ordsets:list_to_set(V);
-to_set(V) ->
- ordsets:list_to_set([V]).
-
-merge_constraints({Rlist,ExtList}) -> % extensionmarker in constraint
- {merge_constraints(Rlist,[],[]),
- merge_constraints(ExtList,[],[])};
-
-merge_constraints(Clist) ->
- merge_constraints(Clist, [], []).
-
-merge_constraints([Ch|Ct],Cacc, Eacc) ->
- NewEacc = case Ch#constraint.e of
- undefined -> Eacc;
- E -> [E|Eacc]
- end,
- merge_constraints(Ct,[fixup_constraint(Ch#constraint.c)|Cacc],NewEacc);
-
-merge_constraints([],Cacc,[]) ->
- lists:flatten(Cacc);
-merge_constraints([],Cacc,Eacc) ->
- lists:flatten(Cacc) ++ [{'Errors',Eacc}].
-
-fixup_constraint(C) ->
- case C of
- {'SingleValue',V} when list(V) ->
- [C,
- {'ValueRange',{lists:min(V),lists:max(V)}}];
- {'PermittedAlphabet',{'SingleValue',V}} when list(V) ->
- V2 = {'SingleValue',
- ordsets:list_to_set(lists:flatten(V))},
- {'PermittedAlphabet',V2};
- {'PermittedAlphabet',{'SingleValue',V}} ->
- V2 = {'SingleValue',[V]},
- {'PermittedAlphabet',V2};
- {'SizeConstraint',Sc} ->
- {'SizeConstraint',fixup_size_constraint(Sc)};
-
- List when list(List) ->
- [fixup_constraint(Xc)||Xc <- List];
- Other ->
- Other
- end.
-
-fixup_size_constraint({'ValueRange',{Lb,Ub}}) ->
- {Lb,Ub};
-fixup_size_constraint({{'ValueRange',R},[]}) ->
- {R,[]};
-fixup_size_constraint({[],{'ValueRange',R}}) ->
- {[],R};
-fixup_size_constraint({{'ValueRange',R1},{'ValueRange',R2}}) ->
- {R1,R2};
-fixup_size_constraint({'SingleValue',[Sv]}) ->
- fixup_size_constraint({'SingleValue',Sv});
-fixup_size_constraint({'SingleValue',L}) when list(L) ->
- ordsets:list_to_set(L);
-fixup_size_constraint({'SingleValue',L}) ->
- {L,L};
-fixup_size_constraint({C1,C2}) ->
- {fixup_size_constraint(C1), fixup_size_constraint(C2)}.
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/lib/asn1/src/asn1ct_parser2.erl b/lib/asn1/src/asn1ct_parser2.erl index 3891fce8d3..488e4af4e0 100644 --- a/lib/asn1/src/asn1ct_parser2.erl +++ b/lib/asn1/src/asn1ct_parser2.erl @@ -20,7 +20,7 @@ %% -module(asn1ct_parser2). --export([parse/1]). +-export([parse/2,format_error/1]). -include("asn1_records.hrl"). %% Only used internally within this module. @@ -28,26 +28,34 @@ -record(constraint, {c,e}). -record(identifier, {pos,val}). -%% parse all types in module -parse(Tokens) -> - case catch parse_ModuleDefinition(Tokens) of - {'EXIT',Reason} -> - {error,{{undefined,get(asn1_module), - [internal,error,'when',parsing,module,definition,Reason]}, - hd(Tokens)}}; - {asn1_error,Reason} -> - {error,{Reason,hd(Tokens)}}; - {ModuleDefinition,Rest1} -> - {Types,Rest2} = parse_AssignmentList(Rest1), - clean_process_dictionary(), - case Rest2 of - [{'END',_}|_Rest3] -> - {ok,ModuleDefinition#module{typeorval = Types}}; - _ -> - {error,{{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'END']}, - hd(Rest2)}} - end +parse(File0, Tokens0) -> + try do_parse(Tokens0) of + {ok,#module{}}=Result -> + Result + catch + throw:{asn1_error,Fun} when is_function(Fun, 0) -> + handle_parse_error(File0, Fun()); + throw:{asn1_error,{parse_error,Tokens}} -> + handle_parse_error(File0, Tokens) + after + clean_process_dictionary() + end. + +handle_parse_error(File0, [Token|_]) -> + File = filename:basename(File0), + Line = get_line(Token), + Error = {structured_error,{File,Line},?MODULE, + {syntax_error,get_token(Token)}}, + {error,[Error]}. + +do_parse(Tokens0) -> + {ModuleDefinition,Tokens1} = parse_ModuleDefinition(Tokens0), + {Types,Tokens2} = parse_AssignmentList(Tokens1), + case Tokens2 of + [{'END',_}|_Rest3] -> + {ok,ModuleDefinition#module{typeorval=Types}}; + _ -> + parse_error(Tokens2) end. clean_process_dictionary() -> @@ -57,6 +65,11 @@ clean_process_dictionary() -> _ = erase(extensiondefault), ok. +format_error({syntax_error,Token}) when is_atom(Token) -> + io_lib:format("syntax error before: '~s'", [Token]); +format_error({syntax_error,Token}) -> + io_lib:format("syntax error before: '~p'", [Token]). + parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> put(asn1_module,ModuleIdentifier), {_DefinitiveIdentifier,Rest02} = @@ -70,9 +83,7 @@ parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> [{'DEFINITIONS',_}|Rest03] -> Rest03; _ -> - throw({asn1_error,{get_line(hd(Rest02)),get(asn1_module), - [got,get_token(hd(Rest02)), - expected,'DEFINITIONS']}}) + parse_error(Rest02) end, {TagDefault,Rest2} = case Rest of @@ -104,12 +115,11 @@ parse_ModuleDefinition([{typereference,L1,ModuleIdentifier}|Rest0]) -> extensiondefault = ExtensionDefault, exports = Exports, imports = {imports, Imports}}, Rest6}; - _ -> throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,"::= BEGIN"]}}) + _ -> + parse_error(Rest3) end; parse_ModuleDefinition(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typereference]}}). + parse_error(Tokens). parse_Exports([{'EXPORTS',_L1},{';',_L2}|Rest]) -> {{exports,[]},Rest}; @@ -122,8 +132,7 @@ parse_Exports([{'EXPORTS',_L1}|Rest]) -> [{';',_}|Rest3] -> {{exports,SymbolList},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,';']}}) + parse_error(Rest2) end; parse_Exports(Rest) -> {{exports,all},Rest}. @@ -137,29 +146,25 @@ parse_SymbolList(Tokens,Acc) -> [{',',_L1}|Rest2] -> parse_SymbolList(Rest2,[Symbol|Acc]); Rest2 -> - {lists:reverse([Symbol|Acc]),Rest2} + {lists:reverse(Acc, [Symbol]),Rest2} end. parse_Symbol(Tokens) -> parse_Reference(Tokens). parse_Reference([{typereference,L1,TrefName},{'{',_L2},{'}',_L3}|Rest]) -> -% {Tref,Rest}; {tref2Exttref(L1,TrefName),Rest}; parse_Reference([Tref1 = {typereference,_,_},{'.',_},Tref2 = {typereference,_,_}, {'{',_L2},{'}',_L3}|Rest]) -> -% {{Tref1,Tref2},Rest}; {{tref2Exttref(Tref1),tref2Exttref(Tref2)},Rest}; parse_Reference([Tref = {typereference,_L1,_TrefName}|Rest]) -> {tref2Exttref(Tref),Rest}; -parse_Reference([Vref = {identifier,_L1,_VName},{'{',_L2},{'}',_L3}|Rest]) -> +parse_Reference([#identifier{}=Vref,{'{',_L2},{'}',_L3}|Rest]) -> {identifier2Extvalueref(Vref),Rest}; -parse_Reference([Vref = {identifier,_L1,_VName}|Rest]) -> +parse_Reference([#identifier{}=Vref|Rest]) -> {identifier2Extvalueref(Vref),Rest}; parse_Reference(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,identifier]]}}). + parse_error(Tokens). parse_Imports([{'IMPORTS',_L1},{';',_L2}|Rest]) -> {{imports,[]},Rest}; @@ -168,9 +173,8 @@ parse_Imports([{'IMPORTS',_L1}|Rest]) -> case Rest2 of [{';',_L2}|Rest3] -> {{imports,SymbolsFromModuleList},Rest3}; - Rest3 -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,';']}}) + _ -> + parse_error(Rest2) end; parse_Imports(Tokens) -> {{imports,[]},Tokens}. @@ -180,11 +184,12 @@ parse_SymbolsFromModuleList(Tokens) -> parse_SymbolsFromModuleList(Tokens,Acc) -> {SymbolsFromModule,Rest} = parse_SymbolsFromModule(Tokens), - case (catch parse_SymbolsFromModule(Rest)) of + try parse_SymbolsFromModule(Rest) of {Sl,_Rest2} when is_record(Sl,'SymbolsFromModule') -> - parse_SymbolsFromModuleList(Rest,[SymbolsFromModule|Acc]); - _ -> - {lists:reverse([SymbolsFromModule|Acc]),Rest} + parse_SymbolsFromModuleList(Rest, [SymbolsFromModule|Acc]) + catch + throw:{asn1_error,_} -> + {lists:reverse(Acc, [SymbolsFromModule]),Rest} end. parse_SymbolsFromModule(Tokens) -> @@ -198,169 +203,154 @@ parse_SymbolsFromModule(Tokens) -> end, {SymbolList,Rest} = parse_SymbolList(Tokens), case Rest of - [{'FROM',_L1},Tref = {typereference,_,Name},Ref={identifier,_L2,_Id},C={',',_}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref| + [#identifier{},{',',_}|_]=Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, - module=tref2Exttref(Tref)},[Ref,C|Rest2]}; + module=tref2Exttref(Tref)},Rest2}; %% This a special case when there is only one Symbol imported %% from the next module. No other way to distinguish Ref from %% a part of the GlobalModuleReference of Name. - [{'FROM',_L1},Tref = {typereference,_,Name},Ref = {identifier,_L2,_Id},From = {'FROM',_}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref| + [#identifier{},{'FROM',_}|_]=Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, - module=tref2Exttref(Tref)},[Ref,From|Rest2]}; - [{'FROM',_L1},Tref = {typereference,_,Name},{identifier,_L2,_Id}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + module=tref2Exttref(Tref)},Rest2}; + [{'FROM',_L1},{typereference,_,Name}=Tref,#identifier{}|Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest2}; - [{'FROM',_L1},Tref = {typereference,_,Name},Brace = {'{',_}|Rest2] -> - {_ObjIdVal,Rest3} = parse_ObjectIdentifierValue([Brace|Rest2]), % value not used yet, fix me - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref|[{'{',_}|_]=Rest2] -> + {_ObjIdVal,Rest3} = parse_ObjectIdentifierValue(Rest2), % value not used yet, fix me + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest3}; - [{'FROM',_L1},Tref = {typereference,_,Name}|Rest2] -> - NewSymbolList = lists:map(SetRefModuleName(Name),SymbolList), + [{'FROM',_L1},{typereference,_,Name}=Tref|Rest2] -> + NewSymbolList = lists:map(SetRefModuleName(Name), SymbolList), {#'SymbolsFromModule'{symbols=NewSymbolList, module=tref2Exttref(Tref)},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected, - ['FROM typerefernece identifier ,', - 'FROM typereference identifier', - 'FROM typereference {', - 'FROM typereference']]}}) + parse_error(Rest) end. parse_ObjectIdentifierValue([{'{',_}|Rest]) -> parse_ObjectIdentifierValue(Rest,[]). -parse_ObjectIdentifierValue([{number,_,Num}|Rest],Acc) -> +parse_ObjectIdentifierValue([{number,_,Num}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[Num|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {number,_,Num}, {')',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},{number,_,Num},{')',_}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,Num}|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {identifier,_,Id2}, {')',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},#identifier{val=Id2},{')',_}|Rest], Acc) -> parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,Id2}|Acc]); -parse_ObjectIdentifierValue([{identifier,_,Id},{'(',_}, {typereference,_,Tref},{'.',_},{identifier,_,Id2}, {')',_}|Rest],Acc) -> - parse_ObjectIdentifierValue(Rest,[{'NamedNumber',Id,{'ExternalValue',Tref,Id2}}|Acc]); -parse_ObjectIdentifierValue([Id = {identifier,_,_}|Rest],Acc) -> - parse_ObjectIdentifierValue(Rest,[identifier2Extvalueref(Id)|Acc]); -parse_ObjectIdentifierValue([{'}',_}|Rest],Acc) -> +parse_ObjectIdentifierValue([#identifier{val=Id},{'(',_},{typereference,_,Tref},{'.',_},#identifier{val=Id2}, {')',_}|Rest], Acc) -> + parse_ObjectIdentifierValue(Rest, [{'NamedNumber',Id,{'ExternalValue',Tref,Id2}}|Acc]); +parse_ObjectIdentifierValue([#identifier{}=Id|Rest], Acc) -> + parse_ObjectIdentifierValue(Rest, [identifier2Extvalueref(Id)|Acc]); +parse_ObjectIdentifierValue([{'}',_}|Rest], Acc) -> {lists:reverse(Acc),Rest}; -parse_ObjectIdentifierValue([H|_T],_Acc) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - ['{ some of the following }',number,'identifier ( number )', - 'identifier ( identifier )', - 'identifier ( typereference.identifier)',identifier]]}}). +parse_ObjectIdentifierValue(Tokens, _Acc) -> + parse_error(Tokens). -parse_AssignmentList(Tokens = [{'END',_}|_Rest]) -> - {[],Tokens}; -parse_AssignmentList(Tokens = [{'$end',_}|_Rest]) -> - {[],Tokens}; parse_AssignmentList(Tokens) -> - parse_AssignmentList(Tokens,[]). + parse_AssignmentList(Tokens, []). -parse_AssignmentList(Tokens= [{'END',_}|_Rest],Acc) -> +parse_AssignmentList([{'END',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_AssignmentList(Tokens= [{'$end',_}|_Rest],Acc) -> +parse_AssignmentList([{'$end',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_AssignmentList(Tokens,Acc) -> - case (catch parse_Assignment(Tokens)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,R} -> -% [H|T] = Tokens, - throw({error,{R,hd(Tokens)}}); - {Assignment,Rest} -> - parse_AssignmentList(Rest,[Assignment|Acc]) - end. - -parse_Assignment(Tokens) -> - Flist = [fun parse_TypeAssignment/1, - fun parse_ValueAssignment/1, - fun parse_ObjectClassAssignment/1, - fun parse_ObjectAssignment/1, - fun parse_ObjectSetAssignment/1, - fun parse_ParameterizedAssignment/1, +parse_AssignmentList(Tokens0, Acc) -> + {Assignment,Tokens} = parse_Assignment(Tokens0), + parse_AssignmentList(Tokens, [Assignment|Acc]). + +parse_Assignment([{typereference,L1,Name},{'::=',_}|Tokens0]) -> + %% 1) Type ::= TypeDefinition + %% 2) CLASS-NAME ::= CLASS {...} + Flist = [{type,fun parse_Type/1}, + {class,fun parse_ObjectClass/1}], + case parse_or_tag(Tokens0, Flist) of + {{type,Type},Tokens} -> + %% TypeAssignment + {#typedef{pos=L1,name=Name,typespec=Type},Tokens}; + {{class,Type},Tokens} -> + %% ObjectClassAssignment + {#classdef{pos=L1,name=Name,module=resolve_module(Type), + typespec=Type},Tokens} + end; +parse_Assignment([{typereference,_,_},{'{',_}|_]=Tokens) -> + %% 1) Type{...} ::= ... + %% 2) ValueSet{...} Type ::= ... + %% ObjectSet{...} CLASS-NAME ::= CLASS {...} + %% 3) CLASS-NAME{...} ::= CLASS {...} + %% A parameterized value set and and a parameterized object set + %% cannot be distinguished from each other without type information. + Flist = [fun parse_ParameterizedTypeAssignment/1, + fun parse_ParameterizedValueSetTypeAssignment/1, + fun parse_ParameterizedObjectClassAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment([{typereference,_,_}|_]=Tokens) -> + %% 1) ObjectSet CLASS-NAME ::= ... + %% 2) ValueSet Type ::= ... + Flist = [fun parse_ObjectSetAssignment/1, fun parse_ValueSetTypeAssignment/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {asn1_assignment_error,Reason} -> - throw({asn1_error,Reason}); - Result -> - Result - end. - + parse_or(Tokens, Flist); +parse_Assignment([#identifier{},{'{',_}|_]=Tokens) -> + %% 1) value{...} Type ::= ... + %% 2) object{...} CLASS-NAME ::= ... + Flist = [fun parse_ParameterizedValueAssignment/1, + fun parse_ParameterizedObjectAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment([#identifier{}|_]=Tokens) -> + %% 1) value Type ::= ... + %% 2) object CLASS-NAME ::= ... + Flist = [fun parse_ValueAssignment/1, + fun parse_ObjectAssignment/1], + parse_or(Tokens, Flist); +parse_Assignment(Tokens) -> + parse_error(Tokens). parse_or(Tokens,Flist) -> parse_or(Tokens,Flist,[]). -parse_or(_Tokens,[],ErrList) -> - case ErrList of - [] -> - throw({asn1_error,{parse_or,ErrList}}); - L when is_list(L) -> - %% chose to throw 1) the error with the highest line no, - %% 2) the last error which is not a asn1_assignment_error or - %% 3) the last error. - throw(prioritize_error(ErrList)) +parse_or(Tokens, [Fun|Funs], ErrList) when is_function(Fun, 1) -> + try Fun(Tokens) of + {_,Rest}=Result when is_list(Rest) -> + Result + catch + throw:{asn1_error,Error} -> + parse_or(Tokens, Funs, [Error|ErrList]) end; -parse_or(Tokens,[Fun|Frest],ErrList) -> - case (catch Fun(Tokens)) of - Exit = {'EXIT',_Reason} -> - parse_or(Tokens,Frest,[Exit|ErrList]); - AsnErr = {asn1_error,_} -> - parse_or(Tokens,Frest,[AsnErr|ErrList]); - AsnAssErr = {asn1_assignment_error,_} -> - parse_or(Tokens,Frest,[AsnAssErr|ErrList]); - Result = {_,L} when is_list(L) -> - Result; - Error -> - parse_or(Tokens,Frest,[Error|ErrList]) - end. - -parse_or_tag(Tokens,Flist) -> - parse_or_tag(Tokens,Flist,[]). - -parse_or_tag(_Tokens,[],ErrList) -> - case ErrList of - [] -> - throw({asn1_error,{parse_or_tag,ErrList}}); - L when is_list(L) -> - %% chose to throw 1) the error with the highest line no, - %% 2) the last error which is not a asn1_assignment_error or - %% 3) the last error. - throw(prioritize_error(ErrList)) +parse_or(_Tokens, [], ErrList) -> + throw({asn1_error,fun() -> prioritize_error(ErrList) end}). + +parse_or_tag(Tokens, Flist) -> + parse_or_tag(Tokens, Flist, []). + +parse_or_tag(Tokens, [{Tag,Fun}|Funs], ErrList) when is_function(Fun, 1) -> + try Fun(Tokens) of + {Parsed,Rest} when is_list(Rest) -> + {{Tag,Parsed},Rest} + catch + throw:{asn1_error,Error} -> + parse_or_tag(Tokens, Funs, [Error|ErrList]) end; -parse_or_tag(Tokens,[{Tag,Fun}|Frest],ErrList) when is_function(Fun) -> - case (catch Fun(Tokens)) of - Exit = {'EXIT',_Reason} -> - parse_or_tag(Tokens,Frest,[Exit|ErrList]); - AsnErr = {asn1_error,_} -> - parse_or_tag(Tokens,Frest,[AsnErr|ErrList]); - AsnAssErr = {asn1_assignment_error,_} -> - parse_or_tag(Tokens,Frest,[AsnAssErr|ErrList]); - {ParseRes,Rest} when is_list(Rest) -> - {{Tag,ParseRes},Rest}; - Error -> - parse_or_tag(Tokens,Frest,[Error|ErrList]) - end. +parse_or_tag(_Tokens, [], ErrList) -> + throw({asn1_error,fun() -> prioritize_error(ErrList) end}). + +prioritize_error(Errors0) -> + Errors1 = prioritize_error_1(Errors0), + Errors2 = [{length(L),L} || L <- Errors1], + Errors = lists:sort(Errors2), + [Res|_] = [L || {_,L} <- Errors], + Res. + +prioritize_error_1([F|T]) when is_function(F, 0) -> + [F()|prioritize_error_1(T)]; +prioritize_error_1([{parse_error,Tokens}|T]) -> + [Tokens|prioritize_error_1(T)]; +prioritize_error_1([]) -> + []. -parse_TypeAssignment([{typereference,L1,Tref},{'::=',_}|Rest]) -> - {Type,Rest2} = parse_Type(Rest), - {#typedef{pos=L1,name=Tref,typespec=Type},Rest2}; -parse_TypeAssignment([H1,H2|_Rest]) -> - throw({asn1_assignment_error,{get_line(H1),get(asn1_module), - [got,[get_token(H1),get_token(H2)], expected, - typereference,'::=']}}); -parse_TypeAssignment([H|_T]) -> - throw({asn1_assignment_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - typereference]}}). %% parse_Type(Tokens) -> Ret %% @@ -370,9 +360,8 @@ parse_TypeAssignment([H|_T]) -> %% parse_Type(Tokens) -> {Tag,Rest3} = case Tokens of - [Lbr= {'[',_}|Rest] -> - parse_Tag([Lbr|Rest]); - Rest-> {[],Rest} + [{'[',_}|_] -> parse_Tag(Tokens); + _ -> {[],Tokens} end, {Tag2,Rest4} = case Rest3 of [{'IMPLICIT',_}|Rest31] when is_record(Tag,tag)-> @@ -384,31 +373,17 @@ parse_Type(Tokens) -> Rest31 -> {Tag,Rest31} end, - Flist = [fun parse_BuiltinType/1,fun parse_ReferencedType/1,fun parse_TypeWithConstraint/1], - {Type,Rest5} = case (catch parse_or(Rest4,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_Reason} -> - throw(AsnErr); - Result -> - Result - end, - case hd(Rest5) of - {'(',_} -> + Flist = [fun parse_BuiltinType/1, + fun parse_ReferencedType/1, + fun parse_TypeWithConstraint/1], + {Type,Rest5} = parse_or(Rest4, Flist), + case Rest5 of + [{'(',_}|_] -> {Constraints,Rest6} = parse_Constraints(Rest5), - if is_record(Type,type) -> - {Type#type{constraint=merge_constraints(Constraints), - tag=Tag2},Rest6}; - true -> - {#type{def=Type,constraint=merge_constraints(Constraints), - tag=Tag2},Rest6} - end; - _ -> - if is_record(Type,type) -> - {Type#type{tag=Tag2},Rest5}; - true -> - {#type{def=Type,tag=Tag2},Rest5} - end + {Type#type{tag=Tag2, + constraint=merge_constraints(Constraints)},Rest6}; + [_|_] -> + {Type#type{tag=Tag2},Rest5} end. parse_BuiltinType([{'BIT',_},{'STRING',_}|Rest]) -> @@ -419,11 +394,10 @@ parse_BuiltinType([{'BIT',_},{'STRING',_}|Rest]) -> [{'}',_}|Rest4] -> {#type{def={'BIT STRING',NamedNumberList}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end; _ -> - {{'BIT STRING',[]},Rest} + {#type{def={'BIT STRING',[]}},Rest} end; parse_BuiltinType([{'BOOLEAN',_}|Rest]) -> {#type{def='BOOLEAN'},Rest}; @@ -435,41 +409,33 @@ parse_BuiltinType([{'CHARACTER',_},{'STRING',_}|Rest]) -> {#type{def='CHARACTER STRING'},Rest}; parse_BuiltinType([{'CHOICE',_},{'{',_}|Rest]) -> - {AlternativeTypeLists,Rest2} = parse_AlternativeTypeLists(Rest), - AlternativeTypeLists1 = - lists:filter(fun(#'ExtensionAdditionGroup'{}) -> false; - ('ExtensionAdditionGroupEnd') -> false; - (_) -> true - end,AlternativeTypeLists), + {L0,Rest2} = parse_AlternativeTypeLists(Rest), case Rest2 of [{'}',_}|Rest3] -> - AlternativeTypeLists2 = - case {[Ext||Ext = #'EXTENSIONMARK'{} <- AlternativeTypeLists1], - get(extensiondefault)} of - {[],'IMPLIED'} -> AlternativeTypeLists1 ++ [#'EXTENSIONMARK'{}]; - _ -> AlternativeTypeLists1 + NeedExt = not lists:keymember('EXTENSIONMARK', 1, L0) andalso + get(extensiondefault) =:= 'IMPLIED', + L = case NeedExt of + true -> + L0 ++ [#'EXTENSIONMARK'{}]; + false -> + L0 end, - - {#type{def={'CHOICE',AlternativeTypeLists2}},Rest3}; + {#type{def={'CHOICE',L}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_BuiltinType([{'EMBEDDED',_},{'PDV',_}|Rest]) -> {#type{def='EMBEDDED PDV'},Rest}; parse_BuiltinType([{'ENUMERATED',_},{'{',_}|Rest]) -> - {Enumerations,Rest2} = parse_Enumerations(Rest,get(extensiondefault)), + {Enumerations,Rest2} = parse_Enumerations(Rest), case Rest2 of [{'}',_}|Rest3] -> {#type{def={'ENUMERATED',Enumerations}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_BuiltinType([{'EXTERNAL',_}|Rest]) -> {#type{def='EXTERNAL'},Rest}; - -% InstanceOfType parse_BuiltinType([{'INSTANCE',_},{'OF',_}|Rest]) -> {DefinedObjectClass,Rest2} = parse_DefinedObjectClass(Rest), case Rest2 of @@ -480,9 +446,6 @@ parse_BuiltinType([{'INSTANCE',_},{'OF',_}|Rest]) -> _ -> {#type{def={'INSTANCE OF',DefinedObjectClass,[]}},Rest2} end; - -% parse_BuiltinType(Tokens) -> - parse_BuiltinType([{'INTEGER',_}|Rest]) -> case Rest of [{'{',_}|Rest2] -> @@ -491,17 +454,13 @@ parse_BuiltinType([{'INTEGER',_}|Rest]) -> [{'}',_}|Rest4] -> {#type{def={'INTEGER',NamedNumberList}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end; _ -> {#type{def='INTEGER'},Rest} end; parse_BuiltinType([{'NULL',_}|Rest]) -> {#type{def='NULL'},Rest}; - -% ObjectClassFieldType fix me later - parse_BuiltinType([{'OBJECT',_},{'IDENTIFIER',_}|Rest]) -> {#type{def='OBJECT IDENTIFIER'},Rest}; parse_BuiltinType([{'OCTET',_},{'STRING',_}|Rest]) -> @@ -529,18 +488,14 @@ parse_BuiltinType([{'SEQUENCE',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> parse_ComponentTypeLists2(Rest2,[#'EXTENSIONMARK'{pos=Line}]), case Rest3 of [{'}',_}|Rest4] -> - {#type{def=#'SEQUENCE'{components=ComponentTypeLists}},Rest4}; + {#type{def=#'SEQUENCE'{components=ComponentTypeLists}},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,'}']}}) + parse_error(Rest3) end -% _ -> % Seq case 4,17-19,23-26 will fail here -% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -% [got,get_token(hd(Rest2)),expected,'}']}}) end; parse_BuiltinType([{'SEQUENCE',_},{'{',_}|Rest]) -> {ComponentTypeLists,Rest2} = parse_ComponentTypeLists(Rest), - case Rest2 of + case Rest2 of [{'}',_}|Rest3] -> ComponentTypeLists2 = case {[Ext||Ext = #'EXTENSIONMARK'{} <- ComponentTypeLists], @@ -551,25 +506,19 @@ parse_BuiltinType([{'SEQUENCE',_},{'{',_}|Rest]) -> {#type{def=#'SEQUENCE'{components = ComponentTypeLists2}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; - -parse_BuiltinType([{'SEQUENCE',_},{'OF',_},Id={identifier,_,_},Lt={'<',_}|Rest]) -> -%% TODO: take care of the identifier for something useful - {Type,Rest2} = parse_SelectionType([Id,Lt|Rest]), - {#type{def={'SEQUENCE OF',#type{def=Type,tag=[]}}},Rest2}; - -parse_BuiltinType([{'SEQUENCE',_},{'OF',_},{identifier,_,_} |Rest]) -> +parse_BuiltinType([{'SEQUENCE',_},{'OF',_}| + [#identifier{},{'<',_}|_]=Tokens0]) -> + {Type,Tokens} = parse_SelectionType(Tokens0), + {#type{def={'SEQUENCE OF',Type}},Tokens}; +parse_BuiltinType([{'SEQUENCE',_},{'OF',_},#identifier{} |Rest]) -> %% TODO: take care of the identifier for something useful {Type,Rest2} = parse_Type(Rest), {#type{def={'SEQUENCE OF',Type}},Rest2}; - parse_BuiltinType([{'SEQUENCE',_},{'OF',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#type{def={'SEQUENCE OF',Type}},Rest2}; - - parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'}',_}|Rest]) -> {#type{def=#'SET'{components=[#'EXTENSIONMARK'{pos = Line}]}},Rest}; parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> @@ -581,12 +530,18 @@ parse_BuiltinType([{'SET',_},{'{',_},{'...',Line},{'!',_}|Rest]) -> val = ExceptionIdentification}]}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + {ComponentTypeLists,Rest3}= + parse_ComponentTypeLists2(Rest2,[#'EXTENSIONMARK'{pos=Line}]), + case Rest3 of + [{'}',_}|Rest4] -> + {#type{def=#'SET'{components=ComponentTypeLists}},Rest4}; + _ -> + parse_error(Rest3) + end end; parse_BuiltinType([{'SET',_},{'{',_}|Rest]) -> {ComponentTypeLists,Rest2} = parse_ComponentTypeLists(Rest), - case Rest2 of + case Rest2 of [{'}',_}|Rest3] -> ComponentTypeLists2 = case {[Ext||Ext = #'EXTENSIONMARK'{} <- ComponentTypeLists], @@ -597,184 +552,128 @@ parse_BuiltinType([{'SET',_},{'{',_}|Rest]) -> {#type{def=#'SET'{components = ComponentTypeLists2}}, Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; - -parse_BuiltinType([{'SET',_},{'OF',_},Id={identifier,_,_},Lt={'<',_}|Rest]) -> -%% TODO: take care of the identifier for something useful - {Type,Rest2} = parse_SelectionType([Id,Lt|Rest]), - {#type{def={'SET OF',#type{def=Type,tag=[]}}},Rest2}; - - -parse_BuiltinType([{'SET',_},{'OF',_},{identifier,_,_}|Rest]) -> +parse_BuiltinType([{'SET',_},{'OF',_}| + [#identifier{},{'<',_}|_]=Tokens0]) -> + {Type,Tokens} = parse_SelectionType(Tokens0), + {#type{def={'SET OF',Type}},Tokens}; +parse_BuiltinType([{'SET',_},{'OF',_},#identifier{}|Rest]) -> %%TODO: take care of the identifier for something useful {Type,Rest2} = parse_Type(Rest), {#type{def={'SET OF',Type}},Rest2}; - parse_BuiltinType([{'SET',_},{'OF',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#type{def={'SET OF',Type}},Rest2}; - -%% The so called Useful types parse_BuiltinType([{'GeneralizedTime',_}|Rest]) -> {#type{def='GeneralizedTime'},Rest}; parse_BuiltinType([{'UTCTime',_}|Rest]) -> {#type{def='UTCTime'},Rest}; parse_BuiltinType([{'ObjectDescriptor',_}|Rest]) -> {#type{def='ObjectDescriptor'},Rest}; - -%% For compatibility with old standard -parse_BuiltinType([{'ANY',_},{'DEFINED',_},{'BY',_},{identifier,_,Id}|Rest]) -> +parse_BuiltinType([{'ANY',_},{'DEFINED',_},{'BY',_},#identifier{val=Id}|Rest]) -> + %% For compatibility with the old standard. {#type{def={'ANY_DEFINED_BY',Id}},Rest}; parse_BuiltinType([{'ANY',_}|Rest]) -> + %% For compatibility with the old standard. {#type{def='ANY'},Rest}; - parse_BuiltinType(Tokens) -> parse_ObjectClassFieldType(Tokens). -% throw({asn1_error,unhandled_type}). -parse_TypeWithConstraint([{'SEQUENCE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SEQUENCE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SEQUENCE OF',Type}, constraint = merge_constraints([Constraint])},Rest5}; -parse_TypeWithConstraint([{'SEQUENCE',_},{'SIZE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SEQUENCE',_},{'SIZE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), #constraint{c=C} = Constraint, - Constraint2 = Constraint#constraint{c={'SizeConstraint',C}}, + Constraint2 = Constraint#constraint{c={element_set,{'SizeConstraint',C}, + none}}, Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SEQUENCE OF',Type}, constraint = merge_constraints([Constraint2])},Rest5}; -parse_TypeWithConstraint([{'SET',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SET',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SET OF',Type}, constraint = merge_constraints([Constraint])},Rest5}; -parse_TypeWithConstraint([{'SET',_},{'SIZE',_},Lpar = {'(',_}|Rest]) -> - {Constraint,Rest2} = parse_Constraint([Lpar|Rest]), +parse_TypeWithConstraint([{'SET',_},{'SIZE',_}|[{'(',_}|_]=Rest0]) -> + {Constraint,Rest2} = parse_Constraint(Rest0), #constraint{c=C} = Constraint, - Constraint2 = Constraint#constraint{c={'SizeConstraint',C}}, + Constraint2 = Constraint#constraint{c={element_set, + {'SizeConstraint',C},none}}, Rest4 = case Rest2 of - [{'OF',_}, {identifier,_,_Id}|Rest3] -> + [{'OF',_},#identifier{}|Rest3] -> %%% TODO: make some use of the identifier, maybe useful in the XML mapping Rest3; [{'OF',_}|Rest3] -> Rest3; _ -> - throw({asn1_error, - {get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'OF']}}) + parse_error(Rest2) end, {Type,Rest5} = parse_Type(Rest4), {#type{def = {'SET OF',Type}, constraint = merge_constraints([Constraint2])},Rest5}; parse_TypeWithConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['SEQUENCE','SEQUENCE SIZE','SET','SET SIZE'], - followed,by,a,constraint]}}). + parse_error(Tokens). %% -------------------------- parse_ReferencedType(Tokens) -> - Flist = [fun parse_DefinedType/1, + Flist = [fun parse_ParameterizedType/1, + fun parse_DefinedType/1, fun parse_SelectionType/1, - fun parse_TypeFromObject/1, - fun parse_ValueSetFromObjects/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + fun parse_TypeFromObject/1], + parse_or(Tokens, Flist). -parse_DefinedType(Tokens=[{typereference,_,_},{'{',_}|_Rest]) -> - parse_ParameterizedType(Tokens); -parse_DefinedType(Tokens=[{typereference,L1,TypeName}, - T2={typereference,_,_},T3={'{',_}|Rest]) -> - case (catch parse_ParameterizedType(Tokens)) of - {'EXIT',_Reason} -> - Rest2 = [T2,T3|Rest], - {#type{def = #'Externaltypereference'{pos=L1, - module=resolve_module(TypeName), - type=TypeName}},Rest2}; - {asn1_error,_} -> - Rest2 = [T2,T3|Rest], - {#type{def = #'Externaltypereference'{pos=L1, - module=resolve_module(TypeName), - type=TypeName}},Rest2}; - Result -> - Result - end; -parse_DefinedType(Tokens=[{typereference,_L1,_Module},{'.',_}, - {typereference,_,_TypeName},{'{',_}|_Rest]) -> - parse_ParameterizedType(Tokens); -parse_DefinedType([{typereference,L1,Module},{'.',_},{typereference,_,TypeName}|Rest]) -> - {#type{def = #'Externaltypereference'{pos=L1,module=Module,type=TypeName}},Rest}; -parse_DefinedType([{typereference,L1,TypeName}|Rest]) -> - case is_pre_defined_class(TypeName) of - false -> - {#type{def = #'Externaltypereference'{pos=L1,module=resolve_module(TypeName), - type=TypeName}},Rest}; - _ -> - throw({asn1_error, - {L1,get(asn1_module), - [got,TypeName,expected, - [typereference,'typereference.typereference', - 'typereference typereference']]}}) - end; +parse_DefinedType([{typereference,L1,Module}, + {'.',_}, + {typereference,_,TypeName}|Tokens]) -> + {#type{def = #'Externaltypereference'{pos=L1,module=Module, + type=TypeName}},Tokens}; +parse_DefinedType([{typereference,_,_}=Tr|Tokens]) -> + {#type{def=tref2Exttref(Tr)},Tokens}; parse_DefinedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference', - 'typereference typereference']]}}). + parse_error(Tokens). -parse_SelectionType([{identifier,_,Name},{'<',_}|Rest]) -> +parse_SelectionType([#identifier{val=Name},{'<',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), - {{'SelectionType',Name,Type},Rest2}; + {#type{def={'SelectionType',Name,Type}},Rest2}; parse_SelectionType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'identifier <']}}). + parse_error(Tokens). resolve_module(Type) -> @@ -787,30 +686,13 @@ resolve_module(_Type, Current, undefined) -> resolve_module(Type, Current, Imports) -> case [Mod || #'SymbolsFromModule'{symbols = S, module = Mod} <- Imports, #'Externaltypereference'{type = T} <- S, - Type == T] of + Type =:= T] of [#'Externaltypereference'{type = Mod}|_] -> Mod; %% This allows the same symbol to be imported several times %% which ought to be checked elsewhere and flagged as an error [] -> Current end. -%% -------------------------- - - -%% This should probably be removed very soon -% parse_ConstrainedType(Tokens) -> -% case (catch parse_TypeWithConstraint(Tokens)) of -% {'EXIT',Reason} -> -% {Type,Rest} = parse_Type(Tokens), -% {Constraint,Rest2} = parse_Constraint(Rest), -% {Type#type{constraint=Constraint},Rest2}; -% {asn1_error,Reason2} -> -% {Type,Rest} = parse_Type(Tokens), -% {Constraint,Rest2} = parse_Constraint(Rest), -% {Type#type{constraint=Constraint},Rest2}; -% Result -> -% Result -% end. parse_Constraints(Tokens) -> parse_Constraints(Tokens,[]). @@ -819,9 +701,9 @@ parse_Constraints(Tokens,Acc) -> {Constraint,Rest} = parse_Constraint(Tokens), case Rest of [{'(',_}|_Rest2] -> - parse_Constraints(Rest,[Constraint|Acc]); + parse_Constraints(Rest, [Constraint|Acc]); _ -> - {lists:reverse([Constraint|Acc]),Rest} + {lists:reverse(Acc, [Constraint]),Rest} end. parse_Constraint([{'(',_}|Rest]) -> @@ -830,46 +712,27 @@ parse_Constraint([{'(',_}|Rest]) -> case Rest3 of [{')',_}|Rest4] -> {#constraint{c=Constraint,e=Exception},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,')']}}) - end; -parse_Constraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'(']}}). + [_|_] -> + parse_error(Rest3) + end. parse_ConstraintSpec(Tokens) -> Flist = [fun parse_GeneralConstraint/1, fun parse_SubtypeConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ExceptionSpec([LPar={')',_}|Rest]) -> {undefined,[LPar|Rest]}; parse_ExceptionSpec([{'!',_}|Rest]) -> parse_ExceptionIdentification(Rest); parse_ExceptionSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,[')','!']]}}). + parse_error(Tokens). parse_ExceptionIdentification(Tokens) -> Flist = [fun parse_SignedNumber/1, fun parse_DefinedValue/1, fun parse_TypeColonValue/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_TypeColonValue(Tokens) -> {Type,Rest} = parse_Type(Tokens), @@ -877,32 +740,28 @@ parse_TypeColonValue(Tokens) -> [{':',_}|Rest2] -> {Value,Rest3} = parse_Value(Rest2), {{Type,Value},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + [_|_] -> + parse_error(Rest) end. parse_SubtypeConstraint(Tokens) -> parse_ElementSetSpecs(Tokens). -parse_ElementSetSpecs([{'...',_}|Rest]) -> - {Elements,Rest2} = parse_ElementSetSpec(Rest), - {{[],Elements},Rest2}; parse_ElementSetSpecs(Tokens) -> {RootElems,Rest} = parse_ElementSetSpec(Tokens), case Rest of [{',',_},{'...',_},{',',_}|Rest2] -> {AdditionalElems,Rest3} = parse_ElementSetSpec(Rest2), - {{RootElems,AdditionalElems},Rest3}; + {{element_set,RootElems,AdditionalElems},Rest3}; [{',',_},{'...',_}|Rest2] -> - {{RootElems,[]},Rest2}; + {{element_set,RootElems,empty},Rest2}; _ -> - {RootElems,Rest} + {{element_set,RootElems,none},Rest} end. parse_ElementSetSpec([{'ALL',_},{'EXCEPT',_}|Rest]) -> {Exclusions,Rest2} = parse_Elements(Rest), - {{'ALL',{'EXCEPT',Exclusions}},Rest2}; + {{'ALL-EXCEPT',Exclusions},Rest2}; parse_ElementSetSpec(Tokens) -> parse_Unions(Tokens). @@ -918,14 +777,8 @@ parse_Unions(Tokens) -> case {InterSec,Unions} of {InterSec,[]} -> {InterSec,Rest2}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue',ordsets:union(to_set(V1),to_set(V2))},Rest2}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [union|V2],Rest2}; {V1,V2} -> - {[V1,union,V2],Rest2} -% Other -> -% throw(Other) + {{union,V1,V2},Rest2} end. parse_UnionsRec([{'|',_}|Rest]) -> @@ -934,12 +787,8 @@ parse_UnionsRec([{'|',_}|Rest]) -> case {InterSec,URec} of {V1,[]} -> {V1,Rest3}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue',ordsets:union(to_set(V1),to_set(V2))},Rest3}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [union|V2],Rest3}; {V1,V2} -> - {[V1,union,V2],Rest3} + {{union,V1,V2},Rest3} end; parse_UnionsRec([{'UNION',Info}|Rest]) -> parse_UnionsRec([{'|',Info}|Rest]); @@ -952,13 +801,8 @@ parse_Intersections(Tokens) -> case {InterSec,IRec} of {V1,[]} -> {V1,Rest2}; - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue', - ordsets:intersection(to_set(V1),to_set(V2))},Rest2}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [intersection|V2],Rest2}; {V1,V2} -> - {[V1,intersection,V2],Rest2} + {{intersection,V1,V2},Rest2} end. %% parse_IElemsRec(Tokens) -> Result @@ -967,15 +811,10 @@ parse_IElemsRec([{'^',_}|Rest]) -> {InterSec,Rest2} = parse_IntersectionElements(Rest), {IRec,Rest3} = parse_IElemsRec(Rest2), case {InterSec,IRec} of - {{'SingleValue',V1},{'SingleValue',V2}} -> - {{'SingleValue', - ordsets:intersection(to_set(V1),to_set(V2))},Rest3}; {V1,[]} -> - {V1,Rest3}; - {V1,V2} when is_list(V2) -> - {[V1] ++ [intersection|V2],Rest3}; + {V1,Rest2}; {V1,V2} -> - {[V1,intersection,V2],Rest3} + {{intersection,V1,V2},Rest3} end; parse_IElemsRec([{'INTERSECTION',Info}|Rest]) -> parse_IElemsRec([{'^',Info}|Rest]); @@ -992,7 +831,7 @@ parse_IntersectionElements(Tokens) -> case Rest of [{'EXCEPT',_}|Rest2] -> {Exclusion,Rest3} = parse_Elements(Rest2), - {{InterSec,{'EXCEPT',Exclusion}},Rest3}; + {{'EXCEPT',InterSec,Exclusion},Rest3}; Rest -> {InterSec,Rest} end. @@ -1006,102 +845,73 @@ parse_Elements([{'(',_}|Rest]) -> case Rest2 of [{')',_}|Rest3] -> {Elems,Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,')']}}) + [_|_] -> + parse_error(Rest2) end; parse_Elements(Tokens) -> Flist = [fun parse_ObjectSetElements/1, fun parse_SubtypeElements/1, -% fun parse_Value/1, -% fun parse_Type/1, fun parse_Object/1, fun parse_DefinedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - Err = {asn1_error,_} -> - throw(Err); - Result = {Val,_} when is_record(Val,type) -> - Result; - - Result -> - Result - end. - - + parse_or(Tokens, Flist). %% -------------------------- -parse_DefinedObjectClass([{typereference,_,_ModName},{'.',_},Tr={typereference,_,_ObjClName}|Rest]) -> -%% {{objectclassname,ModName,ObjClName},Rest}; -% {{objectclassname,tref2Exttref(Tr)},Rest}; - {tref2Exttref(Tr),Rest}; +parse_DefinedObjectClass([{typereference,_,ModName},{'.',_}, + {typereference,Pos,Name}|Tokens]) -> + Ext = #'Externaltypereference'{pos=Pos, + module=ModName, + type=Name}, + {Ext,Tokens}; parse_DefinedObjectClass([Tr={typereference,_,_ObjClName}|Rest]) -> -% {{objectclassname,tref2Exttref(Tr)},Rest}; {tref2Exttref(Tr),Rest}; parse_DefinedObjectClass(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['typereference . typereference', - typereference, - 'TYPE-IDENTIFIER', - 'ABSTRACT-SYNTAX']]}}). - -parse_ObjectClassAssignment([{typereference,L1,ObjClName},{'::=',_}|Rest]) -> - {Type,Rest2} = parse_ObjectClass(Rest), - {#classdef{pos=L1,name=ObjClName,module=resolve_module(Type), - typespec=Type},Rest2}; -parse_ObjectClassAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - 'typereference ::=']}}). + parse_error(Tokens). parse_ObjectClass(Tokens) -> - Flist = [fun parse_DefinedObjectClass/1, - fun parse_ObjectClassDefn/1, - fun parse_ParameterizedObjectClass/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason2} -> - throw({asn1_error,Reason2}); - Result -> - Result - end. + Flist = [fun parse_ObjectClassDefn/1, + fun parse_DefinedObjectClass/1], + parse_or(Tokens, Flist). parse_ObjectClassDefn([{'CLASS',_},{'{',_}|Rest]) -> {Type,Rest2} = parse_FieldSpec(Rest), {WithSyntaxSpec,Rest3} = parse_WithSyntaxSpec(Rest2), {#objectclass{fields=Type,syntax=WithSyntaxSpec},Rest3}; parse_ObjectClassDefn(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'CLASS {']}}). + parse_error(Tokens). parse_FieldSpec(Tokens) -> parse_FieldSpec(Tokens,[]). -parse_FieldSpec(Tokens,Acc) -> - Flist = [fun parse_FixedTypeValueFieldSpec/1, - fun parse_VariableTypeValueFieldSpec/1, - fun parse_ObjectFieldSpec/1, - fun parse_FixedTypeValueSetFieldSpec/1, - fun parse_VariableTypeValueSetFieldSpec/1, - fun parse_TypeFieldSpec/1, - fun parse_ObjectSetFieldSpec/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); +parse_FieldSpec(Tokens0, Acc) -> + Fl = case Tokens0 of + [{valuefieldreference,_,_}|_] -> + %% 1) &field Type + %% &object CLASS-NAME + %% 2) &field &FieldName + %% A fixed type field cannot be distinguished from + %% an object field without type information. + [fun parse_FixedTypeValueFieldSpec/1, + fun parse_VariableTypeValueFieldSpec/1]; + [{typefieldreference,_,_}|_] -> + %% 1) &Set Type + %% &ObjectSet CLASS-NAME + %% 2) &Set &FieldName + %% 3) &Type + %% A value set and an object cannot be distinguished + %% without type information. + [fun parse_FixedTypeValueSetFieldSpec/1, + fun parse_VariableTypeValueSetFieldSpec/1, + fun parse_TypeFieldSpec/1]; + [_|_] -> + parse_error(Tokens0) + end, + case parse_or(Tokens0, Fl) of {Type,[{'}',_}|Rest]} -> - {lists:reverse([Type|Acc]),Rest}; + {lists:reverse(Acc, [Type]),Rest}; {Type,[{',',_}|Rest2]} -> - parse_FieldSpec(Rest2,[Type|Acc]); - {_,[H|_T]} -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + parse_FieldSpec(Rest2, [Type|Acc]) end. parse_PrimitiveFieldName([{typefieldreference,_,FieldName}|Rest]) -> @@ -1109,27 +919,19 @@ parse_PrimitiveFieldName([{typefieldreference,_,FieldName}|Rest]) -> parse_PrimitiveFieldName([{valuefieldreference,_,FieldName}|Rest]) -> {{valuefieldreference,FieldName},Rest}; parse_PrimitiveFieldName(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typefieldreference,valuefieldreference]]}}). + parse_error(Tokens). parse_FieldName(Tokens) -> {Field,Rest} = parse_PrimitiveFieldName(Tokens), parse_FieldName(Rest,[Field]). -parse_FieldName([{'.',_}|Rest],Acc) -> - case (catch parse_PrimitiveFieldName(Rest)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {FieldName,Rest2} -> - parse_FieldName(Rest2,[FieldName|Acc]) - end; -parse_FieldName(Tokens,Acc) -> +parse_FieldName([{'.',_}|Rest0],Acc) -> + {FieldName,Rest1} = parse_PrimitiveFieldName(Rest0), + parse_FieldName(Rest1, [FieldName|Acc]); +parse_FieldName(Tokens, Acc) -> {lists:reverse(Acc),Tokens}. -parse_FixedTypeValueFieldSpec([{valuefieldreference,L1,VFieldName}|Rest]) -> +parse_FixedTypeValueFieldSpec([{valuefieldreference,_,VFieldName}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {Unique,Rest3} = case Rest2 of @@ -1139,109 +941,61 @@ parse_FixedTypeValueFieldSpec([{valuefieldreference,L1,VFieldName}|Rest]) -> {undefined,Rest2} end, {OptionalitySpec,Rest5} = parse_ValueOptionalitySpec(Rest3), - case {Unique,Rest5} of - {'UNIQUE',[{Del,_}|_]} when Del =:= ','; Del =:= '}' -> - case OptionalitySpec of - {'DEFAULT',_} -> - throw({asn1_error, - {L1,get(asn1_module), - ['UNIQUE and DEFAULT in same field',VFieldName]}}); - _ -> - {{fixedtypevaluefield,VFieldName,Type,Unique,OptionalitySpec},Rest5} - end; - {_,[{Del,_}|_]} when Del =:= ','; Del =:= '}' -> - {{object_or_fixedtypevalue_field,VFieldName,Type,Unique,OptionalitySpec},Rest5}; - _ -> - throw({asn1_error,{L1,get(asn1_module), - [got,get_token(hd(Rest5)),expected,[',','}']]}}) - end; -parse_FixedTypeValueFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). + case is_end_delimiter(Rest5) of + false -> parse_error(Rest5); + true -> ok + end, + Tag = case Unique of + 'UNIQUE' -> fixedtypevaluefield; + _ -> object_or_fixedtypevalue_field + end, + {{Tag,VFieldName,Type,Unique,OptionalitySpec},Rest5}. + +parse_VariableTypeValueFieldSpec([{valuefieldreference,_,VFieldName}|Rest0]) -> + {FieldRef,Rest1} = parse_FieldName(Rest0), + {OptionalitySpec,Rest} = parse_ValueOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{variabletypevaluefield,VFieldName,FieldRef,OptionalitySpec}, + Rest}; + false -> + parse_error(Rest) + end. -parse_VariableTypeValueFieldSpec([{valuefieldreference,L,VFieldName}|Rest]) -> - {FieldRef,Rest2} = parse_FieldName(Rest), - {OptionalitySpec,Rest3} = parse_ValueOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{variabletypevaluefield,VFieldName,FieldRef,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_VariableTypeValueFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). +parse_TypeFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {OptionalitySpec,Rest} = parse_TypeOptionalitySpec(Rest0), + case is_end_delimiter(Rest) of + true -> + {{typefield,Name,OptionalitySpec},Rest}; + false -> + parse_error(Rest) + end. -parse_ObjectFieldSpec([{valuefieldreference,L,VFieldName}|Rest]) -> - {Class,Rest2} = parse_DefinedObjectClass(Rest), - {OptionalitySpec,Rest3} = parse_ObjectOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectfield,VFieldName,Class,undefined,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_ObjectFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,valuefieldreference]}}). +parse_FixedTypeValueSetFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {Type,Rest1} = parse_Type(Rest0), + {OptionalitySpec,Rest} = parse_ValueSetOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{objectset_or_fixedtypevalueset_field,Name,Type, + OptionalitySpec},Rest}; + false -> + parse_error(Rest) + end. -parse_TypeFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {OptionalitySpec,Rest2} = parse_TypeOptionalitySpec(Rest), - case Rest2 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{typefield,TFieldName,OptionalitySpec},Rest2}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest2)),expected,[',','}']]}}) - end; -parse_TypeFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). +parse_VariableTypeValueSetFieldSpec([{typefieldreference,_,Name}|Rest0]) -> + {FieldRef,Rest1} = parse_FieldName(Rest0), + {OptionalitySpec,Rest} = parse_ValueSetOptionalitySpec(Rest1), + case is_end_delimiter(Rest) of + true -> + {{variabletypevaluesetfield,Name,FieldRef,OptionalitySpec}, + Rest}; + false -> + parse_error(Rest) + end. -parse_FixedTypeValueSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {Type,Rest2} = parse_Type(Rest), - {OptionalitySpec,Rest3} = parse_ValueSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectset_or_fixedtypevalueset_field,TFieldName,Type, - OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_FixedTypeValueSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). - -parse_VariableTypeValueSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {FieldRef,Rest2} = parse_FieldName(Rest), - {OptionalitySpec,Rest3} = parse_ValueSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{variabletypevaluesetfield,TFieldName,FieldRef,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_VariableTypeValueSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). - -parse_ObjectSetFieldSpec([{typefieldreference,L,TFieldName}|Rest]) -> - {Class,Rest2} = parse_DefinedObjectClass(Rest), - {OptionalitySpec,Rest3} = parse_ObjectSetOptionalitySpec(Rest2), - case Rest3 of - [{Del,_}|_] when Del =:= ','; Del =:= '}' -> - {{objectsetfield,TFieldName,Class,OptionalitySpec},Rest3}; - _ -> - throw({asn1_error,{L,get(asn1_module), - [got,get_token(hd(Rest3)),expected,[',','}']]}}) - end; -parse_ObjectSetFieldSpec(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,typefieldreference]}}). +is_end_delimiter([{',',_}|_]) -> true; +is_end_delimiter([{'}',_}|_]) -> true; +is_end_delimiter([_|_]) -> false. parse_ValueOptionalitySpec(Tokens)-> case Tokens of @@ -1252,15 +1006,6 @@ parse_ValueOptionalitySpec(Tokens)-> _ -> {'MANDATORY',Tokens} end. -parse_ObjectOptionalitySpec(Tokens) -> - case Tokens of - [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; - [{'DEFAULT',_}|Rest] -> - {Object,Rest2} = parse_Object(Rest), - {{'DEFAULT',Object},Rest2}; - _ -> {'MANDATORY',Tokens} - end. - parse_TypeOptionalitySpec(Tokens) -> case Tokens of [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; @@ -1279,65 +1024,44 @@ parse_ValueSetOptionalitySpec(Tokens) -> _ -> {'MANDATORY',Tokens} end. -parse_ObjectSetOptionalitySpec(Tokens) -> - case Tokens of - [{'OPTIONAL',_}|Rest] -> {'OPTIONAL',Rest}; - [{'DEFAULT',_}|Rest] -> - {ObjectSet,Rest2} = parse_ObjectSet(Rest), - {{'DEFAULT',ObjectSet},Rest2}; - _ -> {'MANDATORY',Tokens} - end. - parse_WithSyntaxSpec([{'WITH',_},{'SYNTAX',_}|Rest]) -> {SyntaxList,Rest2} = parse_SyntaxList(Rest), {{'WITH SYNTAX',SyntaxList},Rest2}; parse_WithSyntaxSpec(Tokens) -> {[],Tokens}. -parse_SyntaxList([{'{',_},{'}',_}|Rest]) -> - {[],Rest}; parse_SyntaxList([{'{',_}|Rest]) -> parse_SyntaxList(Rest,[]); parse_SyntaxList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['{}','{']]}}). + parse_error(Tokens). -parse_SyntaxList(Tokens,Acc) -> +parse_SyntaxList(Tokens, Acc) -> {SyntaxList,Rest} = parse_TokenOrGroupSpec(Tokens), case Rest of [{'}',_}|Rest2] -> - {lists:reverse([SyntaxList|Acc]),Rest2}; + {lists:reverse(Acc, [SyntaxList]),Rest2}; _ -> - parse_SyntaxList(Rest,[SyntaxList|Acc]) + parse_SyntaxList(Rest, [SyntaxList|Acc]) end. parse_TokenOrGroupSpec(Tokens) -> Flist = [fun parse_RequiredToken/1, fun parse_OptionalGroup/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). -parse_RequiredToken([{typereference,L1,WordName}|Rest]) -> +parse_RequiredToken([{typereference,_,WordName}|Rest]=Tokens) -> case is_word(WordName) of false -> - throw({asn1_error,{L1,get(asn1_module), - [got,WordName,expected,a,'Word']}}); + parse_error(Tokens); true -> {WordName,Rest} end; parse_RequiredToken([{',',L1}|Rest]) -> {{',',L1},Rest}; -parse_RequiredToken([{WordName,L1}|Rest]) -> +parse_RequiredToken([{WordName,_}|Rest]=Tokens) -> case is_word(WordName) of false -> - throw({asn1_error,{L1,get(asn1_module), - [got,WordName,expected,a,'Word']}}); + parse_error(Tokens); true -> {WordName,Rest} end; @@ -1347,7 +1071,9 @@ parse_RequiredToken(Tokens) -> parse_OptionalGroup([{'[',_}|Rest]) -> {Spec,Rest2} = parse_TokenOrGroupSpec(Rest), {SpecList,Rest3} = parse_OptionalGroup(Rest2,[Spec]), - {SpecList,Rest3}. + {SpecList,Rest3}; +parse_OptionalGroup(Tokens) -> + parse_error(Tokens). parse_OptionalGroup([{']',_}|Rest],Acc) -> {lists:reverse(Acc),Rest}; @@ -1355,82 +1081,55 @@ parse_OptionalGroup(Tokens,Acc) -> {Spec,Rest} = parse_TokenOrGroupSpec(Tokens), parse_OptionalGroup(Rest,[Spec|Acc]). -parse_DefinedObject([Id={identifier,_,_ObjName}|Rest]) -> +parse_DefinedObject([#identifier{}=Id|Rest]) -> {{object,identifier2Extvalueref(Id)},Rest}; -parse_DefinedObject([{typereference,L1,ModName},{'.',_},{identifier,_,ObjName}|Rest]) -> +parse_DefinedObject([{typereference,L1,ModName},{'.',_},#identifier{val=ObjName}|Rest]) -> {{object, #'Externaltypereference'{pos=L1,module=ModName,type=ObjName}},Rest}; parse_DefinedObject(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [identifier,'typereference.identifier']]}}). + parse_error(Tokens). -parse_ObjectAssignment([{identifier,L1,ObjName}|Rest]) -> +parse_ObjectAssignment([#identifier{pos=L1,val=ObjName}|Rest]) -> {Class,Rest2} = parse_DefinedObjectClass(Rest), case Rest2 of [{'::=',_}|Rest3] -> {Object,Rest4} = parse_Object(Rest3), {#typedef{pos=L1,name=ObjName, typespec=#'Object'{classname=Class,def=Object}},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}); - Other -> - throw({asn1_error,{L1,get(asn1_module), - [got,Other,expected,'::=']}}) - end; -parse_ObjectAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). - + _ -> + parse_error(Rest2) + end. %% parse_Object(Tokens) -> Ret %% Tokens = [Tok] %% Tok = tuple() %% Ret = {object,_} | {object, _, _} parse_Object(Tokens) -> - Flist=[fun parse_ObjectDefn/1, - fun parse_ObjectFromObject/1, - fun parse_ParameterizedObject/1, - fun parse_DefinedObject/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + %% The ObjectFromObject production is not included here, + %% since it will have been catched by the ValueFromObject + %% before we reach this point. + Flist = [fun parse_ObjectDefn/1, + fun parse_DefinedObject/1], + parse_or(Tokens, Flist). parse_ObjectDefn(Tokens) -> Flist=[fun parse_DefaultSyntax/1, fun parse_DefinedSyntax/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). -parse_DefaultSyntax([{'{',_},{'}',_}|Rest]) -> - {{object,defaultsyntax,[]},Rest}; parse_DefaultSyntax([{'{',_}|Rest]) -> parse_DefaultSyntax(Rest,[]); parse_DefaultSyntax(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['{}','{']]}}). + parse_error(Tokens). -parse_DefaultSyntax(Tokens,Acc) -> +parse_DefaultSyntax(Tokens, Acc) -> {Setting,Rest} = parse_FieldSetting(Tokens), case Rest of [{',',_}|Rest2] -> parse_DefaultSyntax(Rest2,[Setting|Acc]); [{'}',_}|Rest3] -> - {{object,defaultsyntax,lists:reverse([Setting|Acc])},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) + {{object,defaultsyntax,lists:reverse(Acc, [Setting])},Rest3}; + _ -> + parse_error(Rest) end. parse_FieldSetting(Tokens) -> @@ -1439,7 +1138,9 @@ parse_FieldSetting(Tokens) -> {{PrimFieldName,Setting},Rest2}. parse_DefinedSyntax([{'{',_}|Rest]) -> - parse_DefinedSyntax(Rest,[]). + parse_DefinedSyntax(Rest, []); +parse_DefinedSyntax(Tokens) -> + parse_error(Tokens). parse_DefinedSyntax(Tokens,Acc) -> case Tokens of @@ -1455,95 +1156,70 @@ parse_DefinedSyntax(Tokens,Acc) -> %% Literal ::= word | ',' %% Setting ::= Type | Value | ValueSet | Object | ObjectSet %% word equals typereference, but no lower cases -parse_DefinedSyntaxToken([{',',L1}|Rest]) -> - {{',',L1},Rest}; +parse_DefinedSyntaxToken([{',',_}=Comma|Rest]) -> + {Comma,Rest}; %% ObjectClassFieldType or a defined type with a constraint. %% Should also be able to parse a parameterized type. It may be %% impossible to distinguish between a parameterized type and a Literal %% followed by an object set. -parse_DefinedSyntaxToken(Tokens=[{typereference,L1,_Name},{T,_}|_Rest]) - when T == '.'; T == '(' -> - case catch parse_Setting(Tokens) of - {asn1_error,_} -> - throw({asn1_error,{L1,get(asn1_module), - [got,hd(Tokens), expected,['Word',setting]]}}); - {'EXIT',Reason} -> - exit(Reason); - Result -> - Result - end; -parse_DefinedSyntaxToken(Tokens=[TRef={typereference,L1,Name}|Rest]) -> +parse_DefinedSyntaxToken([{typereference,_,_Name},{T,_}|_]=Tokens) + when T =:= '.'; T =:= '(' -> + parse_Setting(Tokens); +parse_DefinedSyntaxToken([{typereference,L1,Name}=TRef|Rest]=Tokens) -> case is_word(Name) of false -> case lookahead_definedsyntax(Rest) of word_or_setting -> {{setting,L1,tref2Exttref(TRef)},Rest}; - _ -> + setting -> parse_Setting(Tokens) end; true -> - %% {{word_or_setting,L1,Name},Rest} {{word_or_setting,L1,tref2Exttref(TRef)},Rest} end; parse_DefinedSyntaxToken(Tokens) -> - case catch parse_Setting(Tokens) of - {asn1_error,_} -> - parse_Word(Tokens); - {'EXIT',Reason} -> - exit(Reason); - Result -> + try parse_Setting(Tokens) of + {_,_}=Result -> Result + catch + throw:{asn1_error,_} -> + parse_Word(Tokens) end. lookahead_definedsyntax([{typereference,_,Name}|_Rest]) -> - case is_word(Name) of + case is_word(Name) of true -> word_or_setting; - _ -> setting + false -> setting end; lookahead_definedsyntax([{'}',_}|_Rest]) -> word_or_setting; lookahead_definedsyntax(_) -> setting. -parse_Word([{Name,Pos}|Rest]) -> +parse_Word([{Name,Pos}|Rest]=Tokens) -> case is_word(Name) of false -> - throw({asn1_error,{Pos,get(asn1_module), - [got,Name, expected,a,'Word']}}); + parse_error(Tokens); true -> {{word_or_setting,Pos,tref2Exttref(Pos,Name)},Rest} - end. + end; +parse_Word(Tokens) -> + parse_error(Tokens). parse_Setting(Tokens) -> Flist = [{type_tag,fun parse_Type/1}, {value_tag,fun parse_Value/1}, {object_tag,fun parse_Object/1}, {objectset_tag,fun parse_ObjectSet/1}], - case (catch parse_or_tag(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result = {{value_tag,_},_} -> + case parse_or_tag(Tokens, Flist) of + {{value_tag,_},_}=Result -> + %% Keep the value_tag. Result; {{Tag,Setting},Rest} when is_atom(Tag) -> + %% Remove all other tags. {Setting,Rest} end. -%% parse_Setting(Tokens) -> -%% Flist = [fun parse_Type/1, -%% fun parse_Value/1, -%% fun parse_Object/1, -%% fun parse_ObjectSet/1], -%% case (catch parse_or(Tokens,Flist)) of -%% {'EXIT',Reason} -> -%% exit(Reason); -%% AsnErr = {asn1_error,_} -> -%% throw(AsnErr); -%% Result -> -%% Result -%% end. - parse_DefinedObjectSet([{typereference,L1,ModuleName},{'.',_}, {typereference,L2,ObjSetName}|Rest]) -> {{objectset,L1,#'Externaltypereference'{pos=L2,module=ModuleName, @@ -1552,9 +1228,7 @@ parse_DefinedObjectSet([{typereference,L1,ObjSetName}|Rest]) -> {{objectset,L1,#'Externaltypereference'{pos=L1,module=resolve_module(ObjSetName), type=ObjSetName}},Rest}; parse_DefinedObjectSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference']]}}). + parse_error(Tokens). parse_ObjectSetAssignment([{typereference,L1,ObjSetName}|Rest]) -> {Class,Rest2} = parse_DefinedObjectClass(Rest), @@ -1564,16 +1238,9 @@ parse_ObjectSetAssignment([{typereference,L1,ObjSetName}|Rest]) -> {#typedef{pos=L1,name=ObjSetName, typespec=#'ObjectSet'{class=Class, set=ObjectSet}},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ObjectSetAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ObjectSet(Tokens) -> {Ret,Rest} %% Tokens = [Tok] @@ -1590,26 +1257,20 @@ parse_ObjectSet([{'{',_}|Rest]) -> case Rest2 of [{'}',_}|Rest3] -> {ObjSetSpec,Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_ObjectSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). -parse_ObjectSetSpec([{'...',_}|Rest]) -> - case Rest of - [{',',_}|Rest2] -> - {Elements,Rest3}=parse_ElementSetSpecs(Rest2), - {{[],Elements},Rest3}; - _ -> - {['EXTENSIONMARK'],Rest} - end; +parse_ObjectSetSpec([{'...',_},{',',_}|Tokens0]) -> + {Elements,Tokens} = parse_ElementSetSpec(Tokens0), + {{element_set,empty,Elements},Tokens}; +parse_ObjectSetSpec([{'...',_}|Tokens]) -> + {{element_set,empty,empty},Tokens}; parse_ObjectSetSpec(Tokens) -> parse_ElementSetSpecs(Tokens). -% moved fun parse_Object/1 and fun parse_DefinedObjectSet/1 to parse_Elements %% parse_ObjectSetElements(Tokens) -> {Result,Rest} %% Result ::= {'ObjectSetFromObjects',Objects,Name} | {pos,ObjectSet,Params} %% Objects ::= ReferencedObjects @@ -1619,18 +1280,9 @@ parse_ObjectSetSpec(Tokens) -> %% ObjectSet ::= {objectset,integer(),#'Externaltypereference'{}} %% Params ::= list() (see parse_ActualParameterList/1) parse_ObjectSetElements(Tokens) -> - Flist = [%fun parse_Object/1, - %fun parse_DefinedObjectSet/1, - fun parse_ObjectSetFromObjects/1, + Flist = [fun parse_ObjectSetFromObjects/1, fun parse_ParameterizedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ObjectClassFieldType(Tokens) -> {Class,Rest} = parse_DefinedObjectClass(Tokens), @@ -1641,25 +1293,10 @@ parse_ObjectClassFieldType(Tokens) -> classname=Class, class=Class,fieldname=FieldName}, {#type{def=OCFT},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw(Other) + _ -> + parse_error(Rest) end. -%parse_ObjectClassFieldValue(Tokens) -> -% Flist = [fun parse_OpenTypeFieldVal/1, -% fun parse_FixedTypeFieldVal/1], -% case (catch parse_or(Tokens,Flist)) of -% {'EXIT',Reason} -> -% throw(Reason); -% AsnErr = {asn1_error,_} -> -% throw(AsnErr); -% Result -> -% Result -% end. - parse_ObjectClassFieldValue(Tokens) -> parse_OpenTypeFieldVal(Tokens). @@ -1669,28 +1306,10 @@ parse_OpenTypeFieldVal(Tokens) -> [{':',_}|Rest2] -> {Value,Rest3} = parse_Value(Rest2), {{opentypefieldvalue,Type,Value},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. -% parse_FixedTypeFieldVal(Tokens) -> -% parse_Value(Tokens). - -% parse_InformationFromObjects(Tokens) -> -% Flist = [fun parse_ValueFromObject/1, -% fun parse_ValueSetFromObjects/1, -% fun parse_TypeFromObject/1, -% fun parse_ObjectFromObject/1], -% case (catch parse_or(Tokens,Flist)) of -% {'EXIT',Reason} -> -% throw(Reason); -% AsnErr = {asn1_error,_} -> -% throw(AsnErr); -% Result -> -% Result -% end. - %% parse_ReferencedObjects(Tokens) -> {Result,Rest} %% Result ::= DefObject | DefObjSet | %% {po,DefObject,Params} | {pos,DefObjSet,Params} | @@ -1702,18 +1321,11 @@ parse_OpenTypeFieldVal(Tokens) -> parse_ReferencedObjects(Tokens) -> Flist = [fun parse_DefinedObject/1, fun parse_DefinedObjectSet/1, - fun parse_ParameterizedObject/1, fun parse_ParameterizedObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ValueFromObject(Tokens) -> + %% This production also matches ObjectFromObject. {Objects,Rest} = parse_ReferencedObjects(Tokens), case Rest of [{'.',_}|Rest2] -> @@ -1722,35 +1334,10 @@ parse_ValueFromObject(Tokens) -> {valuefieldreference,_} -> {{'ValueFromObject',Objects,Name},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,typefieldreference,expected, - valuefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) - end. - -parse_ValueSetFromObjects(Tokens) -> - {Objects,Rest} = parse_ReferencedObjects(Tokens), - case Rest of - [{'.',_}|Rest2] -> - {Name,Rest3} = parse_FieldName(Rest2), - case lists:last(Name) of - {typefieldreference,_FieldName} -> - {{'ValueSetFromObjects',Objects,Name},Rest3}; - _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) - end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) + _ -> + parse_error(Rest) end. parse_TypeFromObject(Tokens) -> @@ -1760,28 +1347,12 @@ parse_TypeFromObject(Tokens) -> {Name,Rest3} = parse_FieldName(Rest2), case lists:last(Name) of {typefieldreference,_FieldName} -> - {{'TypeFromObject',Objects,Name},Rest3}; + {#type{def={'TypeFromObject',Objects,Name}},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) -%%% Other -> -%%% throw({asn1_error,{got,Other,expected,'.'}}) - end. - -parse_ObjectFromObject(Tokens) -> - {Objects,Rest} = parse_ReferencedObjects(Tokens), - case Rest of - [{'.',_}|Rest2] -> - {Name,Rest3} = parse_FieldName(Rest2), - {{'ObjectFromObject',Objects,Name},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) + _ -> + parse_error(Rest) end. %% parse_ObjectSetFromObjects(Tokens) -> {Result,Rest} @@ -1799,23 +1370,12 @@ parse_ObjectSetFromObjects(Tokens) -> {typefieldreference,_FieldName} -> {{'ObjectSetFromObjects',Objects,Name},Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected, - typefieldreference]}}) + parse_error(Rest2) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'.']}}) + _ -> + parse_error(Rest) end. -% parse_InstanceOfType([{'INSTANCE',_},{'OF',_}|Rest]) -> -% {Class,Rest2} = parse_DefinedObjectClass(Rest), -% {{'InstanceOfType',Class},Rest2}. - -% parse_InstanceOfValue(Tokens) -> -% parse_Value(Tokens). - - %% X.682 constraint specification @@ -1823,14 +1383,7 @@ parse_GeneralConstraint(Tokens) -> Flist = [fun parse_UserDefinedConstraint/1, fun parse_TableConstraint/1, fun parse_ContentsConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_UserDefinedConstraint([{'CONSTRAINED',_},{'BY',_},{'{',_},{'}',_}|Rest])-> {{constrained_by,[]},Rest}; @@ -1841,32 +1394,23 @@ parse_UserDefinedConstraint([{'CONSTRAINED',_}, case Rest2 of [{'}',_}|Rest3] -> {{constrained_by,Param},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_UserDefinedConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['CONSTRAINED BY {}','CONSTRAINED BY {']]}}). + parse_error(Tokens). parse_UserDefinedConstraintParameter(Tokens) -> - parse_UserDefinedConstraintParameter(Tokens,[]). -parse_UserDefinedConstraintParameter(Tokens,Acc) -> + parse_UserDefinedConstraintParameter(Tokens, []). + +parse_UserDefinedConstraintParameter(Tokens0, Acc) -> Flist = [fun parse_GovernorAndActualParameter/1, fun parse_ActualParameter/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {Result,Rest} -> - case Rest of - [{',',_}|_Rest2] -> - parse_UserDefinedConstraintParameter(Tokens,[Result|Acc]); - _ -> - {lists:reverse([Result|Acc]),Rest} - end + case parse_or(Tokens0, Flist) of + {Result,[{',',_}|Tokens]} -> + parse_UserDefinedConstraintParameter(Tokens, [Result|Acc]); + {Result,Tokens} -> + {lists:reverse(Acc, [Result]),Tokens} end. parse_GovernorAndActualParameter(Tokens) -> @@ -1875,26 +1419,18 @@ parse_GovernorAndActualParameter(Tokens) -> [{':',_}|Rest2] -> {Params,Rest3} = parse_ActualParameter(Rest2), {{'Governor_Params',Governor,Params},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. parse_TableConstraint(Tokens) -> Flist = [fun parse_ComponentRelationConstraint/1, fun parse_SimpleTableConstraint/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_SimpleTableConstraint(Tokens) -> {ObjectSet,Rest} = parse_ObjectSet(Tokens), - {{simpletable,ObjectSet},Rest}. + {{element_set,{simpletable,ObjectSet},none},Rest}. parse_ComponentRelationConstraint([{'{',_}|Rest]) -> {ObjectSet,Rest2} = parse_DefinedObjectSet(Rest), @@ -1903,21 +1439,18 @@ parse_ComponentRelationConstraint([{'{',_}|Rest]) -> {AtNot,Rest4} = parse_AtNotationList(Rest3,[]), case Rest4 of [{'}',_}|Rest5] -> - {{componentrelation,ObjectSet,AtNot},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + Ret = {element_set, + {componentrelation,ObjectSet,AtNot}, + none}, + {Ret,Rest5}; + _ -> + parse_error(Rest4) end; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected, - 'ComponentRelationConstraint',ended,with,'}']}}) -%%% Other -> -%%% throw(Other) + _ -> + parse_error(Rest2) end; parse_ComponentRelationConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). parse_AtNotationList(Tokens,Acc) -> {AtNot,Rest} = parse_AtNotation(Tokens), @@ -1925,7 +1458,7 @@ parse_AtNotationList(Tokens,Acc) -> [{',',_}|Rest2] -> parse_AtNotationList(Rest2,[AtNot|Acc]); _ -> - {lists:reverse([AtNot|Acc]),Rest} + {lists:reverse(Acc, [AtNot]),Rest} end. parse_AtNotation([{'@',_},{'.',_}|Rest]) -> @@ -1935,20 +1468,17 @@ parse_AtNotation([{'@',_}|Rest]) -> {CIdList,Rest2} = parse_ComponentIdList(Rest), {{outermost,CIdList},Rest2}; parse_AtNotation(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,['@','@.']]}}). + parse_error(Tokens). parse_ComponentIdList(Tokens) -> parse_ComponentIdList(Tokens,[]). -parse_ComponentIdList([Id = {identifier,_,_},{'.',_}|Rest],Acc) -> +parse_ComponentIdList([#identifier{}=Id,{'.',_}|Rest], Acc) -> parse_ComponentIdList(Rest,[identifier2Extvalueref(Id)|Acc]); -parse_ComponentIdList([Id = {identifier,_,_}|Rest],Acc) -> - {lists:reverse([identifier2Extvalueref(Id)|Acc]),Rest}; +parse_ComponentIdList([#identifier{}=Id|Rest], Acc) -> + {lists:reverse(Acc, [identifier2Extvalueref(Id)]),Rest}; parse_ComponentIdList(Tokens,_) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [identifier,'identifier.']]}}). + parse_error(Tokens). parse_ContentsConstraint([{'CONTAINING',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), @@ -1963,24 +1493,14 @@ parse_ContentsConstraint([{'ENCODED',_},{'BY',_}|Rest]) -> {Value,Rest2} = parse_Value(Rest), {{contentsconstraint,[],Value},Rest2}; parse_ContentsConstraint(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - 'CONTAINING','or','ENCODED BY']}}). - + parse_error(Tokens). % X.683 Parameterization of ASN.1 specifications parse_Governor(Tokens) -> Flist = [fun parse_Type/1, fun parse_DefinedObjectClass/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ActualParameter(Tokens) -> Flist = [fun parse_Type/1, @@ -1989,32 +1509,7 @@ parse_ActualParameter(Tokens) -> fun parse_DefinedObjectClass/1, fun parse_Object/1, fun parse_ObjectSet/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. - -parse_ParameterizedAssignment(Tokens) -> - Flist = [fun parse_ParameterizedTypeAssignment/1, - fun parse_ParameterizedValueAssignment/1, - fun parse_ParameterizedValueSetTypeAssignment/1, - fun parse_ParameterizedObjectClassAssignment/1, - fun parse_ParameterizedObjectAssignment/1, - fun parse_ParameterizedObjectSetAssignment/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - AsnAssErr = {asn1_assignment_error,_} -> - throw(AsnAssErr); - Result -> - Result - end. + parse_or(Tokens, Flist). %% parse_ParameterizedTypeAssignment(Tokens) -> Result %% Result = {#ptypedef{},Rest} | throw() @@ -2025,18 +1520,13 @@ parse_ParameterizedTypeAssignment([{typereference,L1,Name}|Rest]) -> {Type,Rest4} = parse_Type(Rest3), {#ptypedef{pos=L1,name=Name,args=ParameterList,typespec=Type}, Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ParameterizedValueAssignment(Tokens) -> Result %% Result = {#pvaluedef{},Rest} | throw() -parse_ParameterizedValueAssignment([{identifier,L1,Name}|Rest]) -> +parse_ParameterizedValueAssignment([#identifier{pos=L1,val=Name}|Rest]) -> {ParameterList,Rest2} = parse_ParameterList(Rest), {Type,Rest3} = parse_Type(Rest2), case Rest3 of @@ -2044,13 +1534,9 @@ parse_ParameterizedValueAssignment([{identifier,L1,Name}|Rest]) -> {Value,Rest5} = parse_Value(Rest4), {#pvaluedef{pos=L1,name=Name,args=ParameterList,type=Type, value=Value},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedValueAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterizedValueSetTypeAssignment(Tokens) -> Result %% Result = {#pvaluesetdef{},Rest} | throw() @@ -2062,14 +1548,9 @@ parse_ParameterizedValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> {ValueSet,Rest5} = parse_ValueSet(Rest4), {#pvaluesetdef{pos=L1,name=Name,args=ParameterList, type=Type,valueset=ValueSet},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedValueSetTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterizedObjectClassAssignment(Tokens) -> Result %% Result = {#ptypedef{},Rest} | throw() @@ -2080,18 +1561,13 @@ parse_ParameterizedObjectClassAssignment([{typereference,L1,Name}|Rest]) -> {Class,Rest4} = parse_ObjectClass(Rest3), {#ptypedef{pos=L1,name=Name,args=ParameterList,typespec=Class}, Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ParameterizedObjectClassAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. %% parse_ParameterizedObjectAssignment(Tokens) -> Result %% Result = {#pobjectdef{},Rest} | throw() -parse_ParameterizedObjectAssignment([{identifier,L1,Name}|Rest]) -> +parse_ParameterizedObjectAssignment([#identifier{pos=L1,val=Name}|Rest]) -> {ParameterList,Rest2} = parse_ParameterList(Rest), {Class,Rest3} = parse_DefinedObjectClass(Rest2), case Rest3 of @@ -2099,36 +1575,9 @@ parse_ParameterizedObjectAssignment([{identifier,L1,Name}|Rest]) -> {Object,Rest5} = parse_Object(Rest4), {#pobjectdef{pos=L1,name=Name,args=ParameterList, class=Class,def=Object},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ParameterizedObjectAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). - -%% parse_ParameterizedObjectSetAssignment(Tokens) -> Result -%% Result = {#pobjectsetdef{},Rest} | throw{} -parse_ParameterizedObjectSetAssignment([{typereference,L1,Name}|Rest]) -> - {ParameterList,Rest2} = parse_ParameterList(Rest), - {Class,Rest3} = parse_DefinedObjectClass(Rest2), - case Rest3 of - [{'::=',_}|Rest4] -> - {ObjectSet,Rest5} = parse_ObjectSet(Rest4), - {#pobjectsetdef{pos=L1,name=Name,args=ParameterList, - class=Class,def=ObjectSet},Rest5}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'::=']}}) -%%% Other -> -%%% throw(Other) - end; -parse_ParameterizedObjectSetAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest3) + end. %% parse_ParameterList(Tokens) -> Result %% Result = [Parameter] @@ -2137,35 +1586,24 @@ parse_ParameterizedObjectSetAssignment(Tokens) -> %% Type = #type{} %% DefinedObjectClass = #'Externaltypereference'{} %% Reference = #'Externaltypereference'{} | #'Externalvaluereference'{} -parse_ParameterList([{'{',_}|Rest]) -> - parse_ParameterList(Rest,[]); -parse_ParameterList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). +parse_ParameterList([{'{',_}|Tokens]) -> + parse_ParameterList(Tokens, []). parse_ParameterList(Tokens,Acc) -> {Parameter,Rest} = parse_Parameter(Tokens), case Rest of [{',',_}|Rest2] -> - parse_ParameterList(Rest2,[Parameter|Acc]); + parse_ParameterList(Rest2, [Parameter|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Parameter|Acc]),Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) + {lists:reverse(Acc, [Parameter]),Rest3}; + _ -> + parse_error(Rest) end. parse_Parameter(Tokens) -> Flist = [fun parse_ParamGovAndRef/1, fun parse_Reference/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_ParamGovAndRef(Tokens) -> {ParamGov,Rest} = parse_ParamGovernor(Tokens), @@ -2173,86 +1611,54 @@ parse_ParamGovAndRef(Tokens) -> [{':',_}|Rest2] -> {Ref,Rest3} = parse_Reference(Rest2), {{ParamGov,Ref},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,':']}}) + _ -> + parse_error(Rest) end. parse_ParamGovernor(Tokens) -> Flist = [fun parse_Governor/1, fun parse_Reference/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. - -% parse_ParameterizedReference(Tokens) -> -% {Ref,Rest} = parse_Reference(Tokens), -% case Rest of -% [{'{',_},{'}',_}|Rest2] -> -% {{ptref,Ref},Rest2}; -% _ -> -% {{ptref,Ref},Rest} -% end. + parse_or(Tokens, Flist). parse_SimpleDefinedType([{typereference,L1,ModuleName},{'.',_}, {typereference,_,TypeName}|Rest]) -> {#'Externaltypereference'{pos=L1,module=ModuleName, type=TypeName},Rest}; parse_SimpleDefinedType([Tref={typereference,_,_}|Rest]) -> -% {#'Externaltypereference'{pos=L2,module=get(asn1_module), -% type=TypeName},Rest}; {tref2Exttref(Tref),Rest}; parse_SimpleDefinedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [typereference,'typereference.typereference']]}}). + parse_error(Tokens). parse_SimpleDefinedValue([{typereference,L1,ModuleName},{'.',_}, - {identifier,_,Value}|Rest]) -> + #identifier{val=Value}|Rest]) -> {{simpledefinedvalue,#'Externalvaluereference'{pos=L1,module=ModuleName, value=Value}},Rest}; -parse_SimpleDefinedValue([Id={identifier,_,_Value}|Rest]) -> +parse_SimpleDefinedValue([#identifier{}=Id|Rest]) -> {{simpledefinedvalue,identifier2Extvalueref(Id)},Rest}; parse_SimpleDefinedValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - ['typereference.identifier',identifier]]}}). + parse_error(Tokens). parse_ParameterizedType(Tokens) -> + %% May also be a parameterized class. {Type,Rest} = parse_SimpleDefinedType(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), - {{pt,Type,Params},Rest2}. + {#type{def={pt,Type,Params}},Rest2}. parse_ParameterizedValue(Tokens) -> + %% May also be a parameterized object. {Value,Rest} = parse_SimpleDefinedValue(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), {{pv,Value,Params},Rest2}. -parse_ParameterizedObjectClass(Tokens) -> - {Type,Rest} = parse_DefinedObjectClass(Tokens), - {Params,Rest2} = parse_ActualParameterList(Rest), - {{poc,Type,Params},Rest2}. - parse_ParameterizedObjectSet(Tokens) -> {ObjectSet,Rest} = parse_DefinedObjectSet(Tokens), {Params,Rest2} = parse_ActualParameterList(Rest), {{pos,ObjectSet,Params},Rest2}. -parse_ParameterizedObject(Tokens) -> - {Object,Rest} = parse_DefinedObject(Tokens), - {Params,Rest2} = parse_ActualParameterList(Rest), - {{po,Object,Params},Rest2}. - parse_ActualParameterList([{'{',_}|Rest]) -> parse_ActualParameterList(Rest,[]); parse_ActualParameterList(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). parse_ActualParameterList(Tokens,Acc) -> {Parameter,Rest} = parse_ActualParameter(Tokens), @@ -2260,43 +1666,22 @@ parse_ActualParameterList(Tokens,Acc) -> [{',',_}|Rest2] -> parse_ActualParameterList(Rest2,[Parameter|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Parameter|Acc]),Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,[',','}']]}}) -%%% Other -> -%%% throw(Other) + {lists:reverse(Acc, [Parameter]),Rest3}; + _ -> + parse_error(Rest) end. - - - - - - -%------------------------- - +%% Test whether Token is allowed in a syntax list. is_word(Token) -> - case not_allowed_word(Token) of + List = atom_to_list(Token), + case not_allowed_word(List) of true -> false; - _ -> - if - is_atom(Token) -> - Item = atom_to_list(Token), - is_word(Item); - is_list(Token), length(Token) == 1 -> - check_one_char_word(Token); - is_list(Token) -> - [A|Rest] = Token, - case check_first(A) of - true -> - check_rest(Rest); - _ -> - false - end - end + false -> is_word_1(List) end. +is_word_1([H|T]) -> + check_first(H) andalso check_rest(T). + not_allowed_word(Name) -> lists:member(Name,["BIT", "BOOLEAN", @@ -2321,257 +1706,123 @@ not_allowed_word(Name) -> "TRUE", "UNION"]). -check_one_char_word([A]) when $A =< A, $Z >= A -> - true; -check_one_char_word([_]) -> - false. %% unknown item in SyntaxList +check_first(C) -> + $A =< C andalso C =< $Z. -check_first(A) when $A =< A, $Z >= A -> - true; -check_first(_) -> - false. %% unknown item in SyntaxList - -check_rest([R,R|_Rs]) when $- == R -> - false; %% two consecutive hyphens are not allowed in a word -check_rest([R]) when $- == R -> - false; %% word cannot end with hyphen -check_rest([R|Rs]) when $A=<R, $Z>=R; $-==R -> +check_rest([R|Rs]) when $A =< R, R =< $Z; R =:= $- -> check_rest(Rs); check_rest([]) -> true; check_rest(_) -> false. +%%% +%%% Parse alternative type lists for CHOICE. +%%% + +parse_AlternativeTypeLists(Tokens0) -> + {Root,Tokens1} = parse_AlternativeTypeList(Tokens0), + case Tokens1 of + [{',',_}|Tokens2] -> + {ExtMarker,Tokens3} = parse_ExtensionAndException(Tokens2), + {ExtAlts,Tokens4} = parse_ExtensionAdditionAlternatives(Tokens3), + {_,Tokens} = parse_OptionalExtensionMarker(Tokens4, []), + {Root++ExtMarker++ExtAlts,Tokens}; + Tokens -> + {Root,Tokens} + end. + +parse_ExtensionAndException([{'...',L}|Tokens0]) -> + {[#'EXTENSIONMARK'{pos=L}], + case Tokens0 of + [{'!',_}|Tokens1] -> + {_,Tokens} = parse_ExceptionIdentification(Tokens1), + Tokens; + _ -> + Tokens0 + end}. + +parse_AlternativeTypeList([#identifier{}|_]=Tokens0) -> + {AltType,Tokens} = parse_NamedType(Tokens0), + parse_AlternativeTypeList_1(Tokens, [AltType]); +parse_AlternativeTypeList(Tokens) -> + parse_error(Tokens). + +parse_AlternativeTypeList_1([{',',_}|[#identifier{}|_]=Tokens0], Acc) -> + {AltType,Tokens} = parse_NamedType(Tokens0), + parse_AlternativeTypeList_1(Tokens, [AltType|Acc]); +parse_AlternativeTypeList_1(Tokens, Acc) -> + {lists:reverse(Acc),Tokens}. -to_set(V) when is_list(V) -> - ordsets:from_list(V); -to_set(V) -> - ordsets:from_list([V]). - -parse_AlternativeTypeLists(Tokens) -> - parse_AlternativeTypeLists(Tokens,[]). - -parse_AlternativeTypeLists(Tokens = [{identifier,_,_}|_Rest0],Clist) -> - {CompList,Rest1} = parse_AlternativeTypeList(Tokens,[]), - parse_AlternativeTypeLists(Rest1,Clist++CompList); -parse_AlternativeTypeLists([{'...',L1},{'!',_}|Rest02],Clist0) -> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_AlternativeTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists([{',',L1},{'...',_},{'!',_}|Rest02],Clist0) when Clist0 =/= []-> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_AlternativeTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); - -parse_AlternativeTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> - parse_AlternativeTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists([{'...',L1}|Rest02],Clist0) -> - parse_AlternativeTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); -parse_AlternativeTypeLists(Tokens = [{'}',_L1}|_Rest02],Clist0) -> - {Clist0,Tokens}. - -parse_AlternativeTypeLists2(Tokens,Clist) -> - {ExtAdd,Rest} = parse_ExtensionAdditionAlternatives(Tokens,Clist), - {Clist2,Rest2} = parse_OptionalExtensionMarker(Rest,lists:flatten(ExtAdd)), - case Rest2 of - [{',',_}|Rest3] -> - {CompList,Rest4} = parse_AlternativeTypeList(Rest3,[]), - {Clist2 ++ CompList,Rest4}; - _ -> - {Clist2,Rest2} - end. - - - -parse_AlternativeTypeList([{',',_},Id = {identifier,_,_}|Rest],Acc) when Acc =/= [] -> - {AlternativeType,Rest2} = parse_NamedType([Id|Rest]), - parse_AlternativeTypeList(Rest2,[AlternativeType|Acc]); -parse_AlternativeTypeList(Tokens = [{'}',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens = [{']',_},{']',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens = [{',',_},{'...',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_AlternativeTypeList(Tokens,[]) -> - {AlternativeType,Rest} = parse_NamedType(Tokens), - parse_AlternativeTypeList(Rest,[AlternativeType]); -parse_AlternativeTypeList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - -parse_ExtensionAdditionAlternatives(Tokens =[{',',_}|_],Clist) -> - {ExtAddList,Rest2} = parse_ExtensionAdditionAlternativesList(Tokens,[]), - {Clist++lists:flatten(ExtAddList),Rest2}; -parse_ExtensionAdditionAlternatives(Tokens,Clist) -> - %% Empty - {Clist,Tokens}. +parse_ExtensionAdditionAlternatives([{',',_}|_]=Tokens0) -> + parse_ExtensionAdditionAlternativesList(Tokens0, []); +parse_ExtensionAdditionAlternatives(Tokens) -> + {[],Tokens}. -parse_ExtensionAdditionAlternativesList([{',',_},Id = {identifier,_,_}|Rest],Acc) -> - {AlternativeType,Rest2} = parse_NamedType([Id|Rest]), - parse_ExtensionAdditionAlternativesList(Rest2,[AlternativeType|Acc]); -parse_ExtensionAdditionAlternativesList([{',',_},C1 = {'[',_},C2 = {'[',_}|Rest],Acc) -> - {ExtAddGroup,Rest2} = parse_ExtensionAdditionAlternativesGroup([C1,C2|Rest],[]), - parse_ExtensionAdditionAlternativesList(Rest2,[ExtAddGroup|Acc]); -parse_ExtensionAdditionAlternativesList(Tokens = [{'}',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionAlternativesList(Tokens = [{',',_},{'...',_}|_],Acc) -> - {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionAlternativesList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - - -parse_ExtensionAdditionAlternativesGroup([ {'[',_},{'[',_},_VsnNr = {number,_,Num},{':',_}|Rest],[]) -> - parse_ExtensionAdditionAlternativesGroup2(Rest,Num); -parse_ExtensionAdditionAlternativesGroup([ {'[',_},{'[',_}|Rest],[]) -> - parse_ExtensionAdditionAlternativesGroup2(Rest,undefined); -parse_ExtensionAdditionAlternativesGroup(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['[[']]}}). - - -parse_ExtensionAdditionAlternativesGroup2(Tokens,Num) -> - {CompTypeList,Rest} = parse_AlternativeTypeList(Tokens,[]), - case Rest of - [{']',_},{']',_}|Rest2] -> - {[{'ExtensionAdditionGroup',Num}|CompTypeList] ++ - ['ExtensionAdditionGroupEnd'],Rest2}; +parse_ExtensionAdditionAlternativesList([{',',_}|Tokens1]=Tokens0, Acc) -> + try parse_ExtensionAdditionAlternative(Tokens1) of + {ExtAddAlt,Tokens2} -> + parse_ExtensionAdditionAlternativesList(Tokens2, [ExtAddAlt|Acc]) + catch + throw:{asn1_error,_} -> + {lists:append(lists:reverse(Acc)),Tokens0} + end; +parse_ExtensionAdditionAlternativesList(Tokens, Acc) -> + {lists:append(lists:reverse(Acc)),Tokens}. + +parse_ExtensionAdditionAlternative([#identifier{}|_]=Tokens0) -> + {NamedType,Tokens} = parse_NamedType(Tokens0), + {[NamedType],Tokens}; +parse_ExtensionAdditionAlternative([{'[',_},{'[',_}|Tokens0]) -> + Tokens2 = case Tokens0 of + [{number,_,_},{':',_}|Tokens1] -> Tokens1; + _ -> Tokens0 + end, + {GroupList,Tokens3} = parse_AlternativeTypeList(Tokens2), + case Tokens3 of + [{']',_},{']',_}|Tokens] -> + {GroupList,Tokens}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,[']]']]}}) - end. - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -%% parse_AlternativeTypeLists(Tokens,ExtensionDefault) -> -%% {AltTypeList,Rest1} = parse_AlternativeTypeList(Tokens), -%% {ExtensionAndException,Rest2} = -%% case Rest1 of -%% [{',',_},{'...',L1},{'!',_}|Rest12] -> -%% {_,Rest13} = parse_ExceptionIdentification(Rest12), -%% %% Exception info is currently thrown away -%% {[#'EXTENSIONMARK'{pos=L1}],Rest13}; -%% [{',',_},{'...',L1}|Rest12] -> -%% {[#'EXTENSIONMARK'{pos=L1}],Rest12}; -%% _ -> -%% {[],Rest1} -%% end, -%% {AltTypeList2,Rest5} = -%% case ExtensionAndException of -%% [] -> -%% {AltTypeList,Rest2}; -%% _ -> -%% {ExtensionAddition,Rest3} = -%% case Rest2 of -%% [{',',_}|Rest23] -> -%% parse_ExtensionAdditionAlternativeList(Rest23); -%% _ -> -%% {[],Rest2} -%% end, -%% {OptionalExtensionMarker,Rest4} = -%% case Rest3 of -%% [{',',_},{'...',L3}|Rest31] -> -%% {[#'EXTENSIONMARK'{pos=L3}],Rest31}; -%% _ -> -%% {[],Rest3} -%% end, -%% {AltTypeList ++ ExtensionAndException ++ -%% ExtensionAddition ++ OptionalExtensionMarker, Rest4} -%% end, -%% AltTypeList3 = -%% case [X || X=#'EXTENSIONMARK'{} <- AltTypeList2] of -%% [] when ExtensionDefault == 'IMPLIED' -> -%% AltTypeList2 ++ [#'EXTENSIONMARK'{}]; -%% _ -> -%% AltTypeList2 -%% end, -%% {AltTypeList3,Rest5}. - - -%% parse_AlternativeTypeList(Tokens) -> -%% parse_AlternativeTypeList(Tokens,[]). + parse_error(Tokens3) + end; +parse_ExtensionAdditionAlternative(Tokens) -> + parse_error(Tokens). -%% parse_AlternativeTypeList(Tokens,Acc) -> -%% {NamedType,Rest} = parse_NamedType(Tokens), -%% case Rest of -%% [{',',_},Id = {identifier,_,_}|Rest2] -> -%% parse_AlternativeTypeList([Id|Rest2],[NamedType|Acc]); -%% _ -> -%% {lists:reverse([NamedType|Acc]),Rest} -%% end. +%%% +%%% End of parsing of alternative type lists. +%%% - - -%% parse_ExtensionAdditionAlternativeList(Tokens) -> -%% parse_ExtensionAdditionAlternativeList(Tokens,[]). - -%% parse_ExtensionAdditionAlternativeList([{'[[',_}|Rest],Acc) -> -%% parse_ExtensionAdditionAlternativeList(Rest,Acc); -%% parse_ExtensionAdditionAlternativeList(Tokens = [{identifier,_,_}|_Rest],Acc) -> -%% {Element,Rest0} = parse_NamedType(Tokens); -%% case Rest0 of -%% [{',',_}|Rest01] -> -%% parse_ExtensionAdditionAlternativeList(Rest01,[Element|Acc]); -%% _ -> -%% {lists:reverse([Element|Acc]),Rest0} -%% end. - -%% parse_ExtensionAdditionAlternatives([{'[[',_}|Rest]) -> -%% parse_ExtensionAdditionAlternatives(Rest,[]); -%% parse_ExtensionAdditionAlternatives(Tokens) -> -%% throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), -%% [got,get_token(hd(Tokens)),expected,'[[']}}). - -%% parse_ExtensionAdditionAlternatives([Id = {identifier,_,_}|Rest],Acc) -> -%% {NamedType, Rest2} = parse_NamedType([Id|Rest]), -%% case Rest2 of -%% [{',',_}|Rest21] -> -%% parse_ExtensionAdditionAlternatives(Rest21,[NamedType|Acc]); -%% [{']]',_}|Rest21] -> -%% {lists:reverse(Acc),Rest21}; -%% _ -> -%% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -%% [got,get_token(hd(Rest2)),expected,[',',']]']]}}) -%% end. - -parse_NamedType([{identifier,L1,Idname}|Rest]) -> +parse_NamedType([#identifier{pos=L1,val=Idname}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {#'ComponentType'{pos=L1,name=Idname,typespec=Type,prop=mandatory},Rest2}; parse_NamedType(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). +%%% +%%% Parse component type lists for SEQUENCE and SET. +%%% parse_ComponentTypeLists(Tokens) -> - parse_ComponentTypeLists(Tokens,[]). + parse_ComponentTypeLists(Tokens, []). -parse_ComponentTypeLists(Tokens = [{identifier,_,_}|_Rest0],Clist) -> - {CompList,Rest1} = parse_ComponentTypeList(Tokens,[]), - parse_ComponentTypeLists(Rest1,Clist++CompList); -parse_ComponentTypeLists(Tokens = [{'COMPONENTS',_},{'OF',_}|_Rest],Clist) -> +parse_ComponentTypeLists([#identifier{}|_Rest0]=Tokens, Clist) -> {CompList,Rest1} = parse_ComponentTypeList(Tokens,[]), parse_ComponentTypeLists(Rest1,Clist++CompList); -parse_ComponentTypeLists([{'...',L1},{'!',_}|Rest02],Clist0) -> - {_,Rest03} = parse_ExceptionIdentification(Rest02), - %% Exception info is currently thrown away - parse_ComponentTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); +parse_ComponentTypeLists([{'COMPONENTS',_},{'OF',_}|_]=Tokens,Clist) -> + {CompList,Rest1} = parse_ComponentTypeList(Tokens, []), + parse_ComponentTypeLists(Rest1, Clist++CompList); parse_ComponentTypeLists([{',',L1},{'...',_},{'!',_}|Rest02],Clist0) when Clist0 =/= []-> {_,Rest03} = parse_ExceptionIdentification(Rest02), %% Exception info is currently thrown away parse_ComponentTypeLists2(Rest03,Clist0++[#'EXTENSIONMARK'{pos=L1}]); - - parse_ComponentTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> +parse_ComponentTypeLists([{',',_},{'...',L1}|Rest02],Clist0) when Clist0 =/= []-> parse_ComponentTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); parse_ComponentTypeLists([{'...',L1}|Rest02],Clist0) -> parse_ComponentTypeLists2(Rest02,Clist0++[#'EXTENSIONMARK'{pos=L1}]); parse_ComponentTypeLists(Tokens = [{'}',_L1}|_Rest02],Clist0) -> - {Clist0,Tokens}. + {Clist0,Tokens}; +parse_ComponentTypeLists(Tokens, _) -> + parse_error(Tokens). parse_ComponentTypeLists2(Tokens,Clist) -> {ExtAdd,Rest} = parse_ExtensionAdditions(Tokens,Clist), @@ -2590,12 +1841,12 @@ parse_OptionalExtensionMarker(Tokens,Clist) -> {Clist,Tokens}. -parse_ComponentTypeList([{',',_},Id = {identifier,_,_}|Rest],Acc) when Acc =/= [] -> - {ComponentType,Rest2} = parse_ComponentType([Id|Rest]), - parse_ComponentTypeList(Rest2,[ComponentType|Acc]); -parse_ComponentTypeList([{',',_},C1={'COMPONENTS',_},C2={'OF',_}|Rest],Acc) when Acc =/= [] -> - {ComponentType,Rest2} = parse_ComponentType([C1,C2|Rest]), - parse_ComponentTypeList(Rest2,[ComponentType|Acc]); +parse_ComponentTypeList([{',',_}|[#identifier{}|_]=Tokens0], Acc) when Acc =/= [] -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ComponentTypeList(Tokens, [ComponentType|Acc]); +parse_ComponentTypeList([{',',_}|[{'COMPONENTS',_},{'OF',_}|_]=Tokens0], Acc) when Acc =/= [] -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ComponentTypeList(Tokens, [ComponentType|Acc]); parse_ComponentTypeList(Tokens = [{'}',_}|_],Acc) -> {lists:reverse(Acc),Tokens}; parse_ComponentTypeList(Tokens = [{']',_},{']',_}|_],Acc) -> @@ -2606,10 +1857,7 @@ parse_ComponentTypeList(Tokens,[]) -> {ComponentType,Rest} = parse_ComponentType(Tokens), parse_ComponentTypeList(Rest,[ComponentType]); parse_ComponentTypeList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). + parse_error(Tokens). parse_ExtensionAdditions(Tokens=[{',',_}|_],Clist) -> {ExtAddList,Rest2} = parse_ExtensionAdditionList(Tokens,[]), @@ -2618,46 +1866,36 @@ parse_ExtensionAdditions(Tokens,Clist) -> %% Empty {Clist,Tokens}. -parse_ExtensionAdditionList([{',',_},Id = {identifier,_,_}|Rest],Acc) -> - {ComponentType,Rest2} = parse_ComponentType([Id|Rest]), - parse_ExtensionAdditionList(Rest2,[ComponentType|Acc]); -parse_ExtensionAdditionList([{',',_},C1={'COMPONENTS',_},C2={'OF',_}|Rest],Acc) -> - {ComponentType,Rest2} = parse_ComponentType([C1,C2|Rest]), - parse_ExtensionAdditionList(Rest2,[ComponentType|Acc]); -parse_ExtensionAdditionList([{',',_},C1 = {'[',_},C2 = {'[',_}|Rest],Acc) -> - {ExtAddGroup,Rest2} = parse_ExtensionAdditionGroup([C1,C2|Rest],[]), +parse_ExtensionAdditionList([{',',_}|[#identifier{}|_]=Tokens0], Acc) -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ExtensionAdditionList(Tokens, [ComponentType|Acc]); +parse_ExtensionAdditionList([{',',_}|[{'COMPONENTS',_},{'OF',_}|_]=Tokens0], Acc) -> + {ComponentType,Tokens} = parse_ComponentType(Tokens0), + parse_ExtensionAdditionList(Tokens, [ComponentType|Acc]); +parse_ExtensionAdditionList([{',',_},{'[',_},{'[',_}|Tokens], Acc) -> + {ExtAddGroup,Rest2} = parse_ExtensionAdditionGroup(Tokens), parse_ExtensionAdditionList(Rest2,[ExtAddGroup|Acc]); -parse_ExtensionAdditionList(Tokens = [{'}',_}|_],Acc) -> +parse_ExtensionAdditionList([{'}',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionList(Tokens = [{',',_},{'...',_}|_],Acc) -> +parse_ExtensionAdditionList([{',',_},{'...',_}|_]=Tokens, Acc) -> {lists:reverse(Acc),Tokens}; -parse_ExtensionAdditionList(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['}',', identifier']]}}). - +parse_ExtensionAdditionList(Tokens, _) -> + parse_error(Tokens). -parse_ExtensionAdditionGroup([ {'[',_},{'[',_},_VsnNr = {number,_,Num},{':',_}|Rest],[]) -> - parse_ExtensionAdditionGroup2(Rest,Num); -parse_ExtensionAdditionGroup([ {'[',_},{'[',_}|Rest],[]) -> - parse_ExtensionAdditionGroup2(Rest,undefined); -parse_ExtensionAdditionGroup(Tokens,_) -> - throw({asn1_error, - {get_line(hd(Tokens)),get(asn1_module), - [got,[get_token(hd(Tokens)),get_token(hd(tl(Tokens)))], - expected,['[[']]}}). +parse_ExtensionAdditionGroup([{number,_,Num},{':',_}|Tokens]) -> + parse_ExtensionAdditionGroup2(Tokens, Num); +parse_ExtensionAdditionGroup(Tokens) -> + parse_ExtensionAdditionGroup2(Tokens, undefined). -parse_ExtensionAdditionGroup2(Tokens,Num) -> +parse_ExtensionAdditionGroup2(Tokens, Num) -> {CompTypeList,Rest} = parse_ComponentTypeList(Tokens,[]), case Rest of [{']',_},{']',_}|Rest2] -> {[{'ExtensionAdditionGroup',Num}|CompTypeList] ++ ['ExtensionAdditionGroupEnd'],Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,[']]']]}}) + parse_error(Rest) end. @@ -2676,83 +1914,81 @@ parse_ComponentType(Tokens) -> Result end. - +%%% +%%% Parse ENUMERATED. +%%% -parse_SignedNumber([{number,_,Value}|Rest]) -> - {Value,Rest}; -parse_SignedNumber([{'-',_},{number,_,Value}|Rest]) -> - {-Value,Rest}; -parse_SignedNumber(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - [number,'-number']]}}). - -parse_Enumerations(Tokens=[{identifier,_,_}|_Rest],ExtensionDefault) -> - parse_Enumerations(Tokens,[],ExtensionDefault); -parse_Enumerations([H|_T],_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). - -parse_Enumerations(Tokens = [{identifier,_,_},{'(',_}|_Rest], Acc, ExtensionDefault) -> - {NamedNumber,Rest2} = parse_NamedNumber(Tokens), - case Rest2 of - [{',',_}|Rest3] -> - parse_Enumerations(Rest3,[NamedNumber|Acc], ExtensionDefault); - _ when ExtensionDefault == 'IMPLIED'-> - {lists:reverse(['EXTENSIONMARK',NamedNumber|Acc]),Rest2}; +parse_Enumerations(Tokens0) -> + {Root,Tokens1} = parse_Enumeration(Tokens0), + case Tokens1 of + [{',',_},{'...',_},{',',_}|Tokens2] -> + {Ext,Tokens} = parse_Enumeration(Tokens2), + {Root++['EXTENSIONMARK'|Ext],Tokens}; + [{',',_},{'...',_}|Tokens] -> + {Root++['EXTENSIONMARK'],Tokens}; _ -> - {lists:reverse([NamedNumber|Acc]),Rest2} - end; -parse_Enumerations([{identifier,_,Id}|Rest], Acc, ExtensionDefault) -> - case Rest of - [{',',_}|Rest2] -> - parse_Enumerations(Rest2,[Id|Acc], ExtensionDefault); - _ when ExtensionDefault == 'IMPLIED' -> - {lists:reverse(['EXTENSIONMARK', Id |Acc]),Rest}; - _ -> - {lists:reverse([Id|Acc]),Rest} - end; -parse_Enumerations([{'...',_}|Rest], Acc, _ExtensionDefault) -> - case Rest of - [{',',_}|Rest2] -> - parse_Enumerations(Rest2,['EXTENSIONMARK'|Acc],undefined); - _ -> - {lists:reverse(['EXTENSIONMARK'|Acc]),Rest} + case get(extensiondefault) of + 'IMPLIED' -> + {Root++['EXTENSIONMARK'],Tokens1}; + _ -> + {Root,Tokens1} + end + end. + +parse_Enumeration(Tokens0) -> + {Item,Tokens} = parse_EnumerationItem(Tokens0), + parse_Enumeration_1(Tokens, [Item]). + +parse_Enumeration_1([{',',_}|Tokens1]=Tokens0, Acc) -> + try parse_EnumerationItem(Tokens1) of + {Item,Tokens} -> + parse_Enumeration_1(Tokens, [Item|Acc]) + catch + throw:{asn1_error,_} -> + {lists:reverse(Acc),Tokens0} end; -parse_Enumerations([H|_T],_,_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). +parse_Enumeration_1(Tokens, Acc) -> + {lists:reverse(Acc),Tokens}. + +parse_EnumerationItem([#identifier{},{'(',_}|_]=Tokens) -> + parse_NamedNumber(Tokens); +parse_EnumerationItem([#identifier{val=Id}|Tokens]) -> + {Id,Tokens}; +parse_EnumerationItem(Tokens) -> + parse_error(Tokens). + +%%% +%%% End of parsing of ENUMERATED. +%%% parse_NamedNumberList(Tokens) -> - parse_NamedNumberList(Tokens,[]). + parse_NamedNumberList(Tokens, []). -parse_NamedNumberList(Tokens,Acc) -> +parse_NamedNumberList(Tokens, Acc) -> {NamedNum,Rest} = parse_NamedNumber(Tokens), case Rest of [{',',_}|Rest2] -> parse_NamedNumberList(Rest2,[NamedNum|Acc]); _ -> - {lists:reverse([NamedNum|Acc]),Rest} + {lists:reverse(Acc, [NamedNum]),Rest} end. -parse_NamedNumber([{identifier,_,Name},{'(',_}|Rest]) -> +parse_NamedNumber([#identifier{val=Name},{'(',_}|Rest]) -> Flist = [fun parse_SignedNumber/1, fun parse_DefinedValue/1], - case (catch parse_or(Rest,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); + case parse_or(Rest, Flist) of {NamedNum,[{')',_}|Rest2]} -> {{'NamedNumber',Name,NamedNum},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'NamedNumberList']}}) + parse_error(Rest) end; parse_NamedNumber(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). +parse_SignedNumber([{number,_,Value}|Rest]) -> + {Value,Rest}; +parse_SignedNumber(Tokens) -> + parse_error(Tokens). parse_Tag([{'[',_}|Rest]) -> {Class,Rest2} = parse_Class(Rest), @@ -2767,12 +2003,8 @@ parse_Tag([{'[',_}|Rest]) -> [{']',_}|Rest4] -> {#tag{class=Class,number=ClassNumber},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest3)),get(asn1_module), - [got,get_token(hd(Rest3)),expected,']']}}) - end; -parse_Tag(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'[']}}). + parse_error(Rest3) + end. parse_Class([{'UNIVERSAL',_}|Rest]) -> {'UNIVERSAL',Rest}; @@ -2791,15 +2023,7 @@ parse_Value(Tokens) -> Flist = [fun parse_BuiltinValue/1, fun parse_ValueFromObject/1, fun parse_DefinedValue/1], - - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end. + parse_or(Tokens, Flist). parse_BuiltinValue([{bstring,_,Bstr}|Rest]) -> {{bstring,Bstr},Rest}; @@ -2812,18 +2036,11 @@ parse_BuiltinValue(Tokens = [{'{',_}|_Rest]) -> fun parse_SequenceOfValue/1, fun parse_SequenceValue/1, fun parse_ObjectIdentifierValue/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - Result -> - Result - end; -parse_BuiltinValue([{identifier,_,IdName},{':',_}|Rest]) -> + parse_or(Tokens, Flist); +parse_BuiltinValue([#identifier{val=IdName},{':',_}|Rest]) -> {Value,Rest2} = parse_Value(Rest), {{'CHOICE',{IdName,Value}},Rest2}; -parse_BuiltinValue(Tokens=[{'NULL',_},{':',_}|_Rest]) -> +parse_BuiltinValue([{'NULL',_},{':',_}|_]=Tokens) -> parse_ObjectClassFieldValue(Tokens); parse_BuiltinValue([{'NULL',_}|Rest]) -> {'NULL',Rest}; @@ -2839,31 +2056,29 @@ parse_BuiltinValue([{cstring,_,Cstr}|Rest]) -> {Cstr,Rest}; parse_BuiltinValue([{number,_,Num}|Rest]) -> {Num,Rest}; -parse_BuiltinValue([{'-',_},{number,_,Num}|Rest]) -> - {- Num,Rest}; parse_BuiltinValue(Tokens) -> parse_ObjectClassFieldValue(Tokens). -parse_DefinedValue(Tokens=[{identifier,_,_},{'{',_}|_Rest]) -> - parse_ParameterizedValue(Tokens); -%% Externalvaluereference -parse_DefinedValue([{typereference,L1,Tname},{'.',_},{identifier,_,Idname}|Rest]) -> +parse_DefinedValue(Tokens) -> + Flist = [fun parse_ParameterizedValue/1, + fun parse_DefinedValue2/1], + parse_or(Tokens, Flist). + +parse_DefinedValue2([{typereference,L1,Tname}, + {'.',_}, + #identifier{val=Idname}|Rest]) -> {#'Externalvaluereference'{pos=L1,module=Tname,value=Idname},Rest}; %% valuereference -parse_DefinedValue([Id = {identifier,_,_}|Rest]) -> +parse_DefinedValue2([#identifier{}=Id|Rest]) -> {identifier2Extvalueref(Id),Rest}; -%% ParameterizedValue -parse_DefinedValue(Tokens) -> - parse_ParameterizedValue(Tokens). +parse_DefinedValue2(Tokens) -> + parse_error(Tokens). parse_SequenceValue([{'{',_}|Tokens]) -> - parse_SequenceValue(Tokens,[]); -parse_SequenceValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_SequenceValue(Tokens, []). -parse_SequenceValue([{identifier,Pos,IdName}|Rest],Acc) -> +parse_SequenceValue([#identifier{pos=Pos,val=IdName}|Rest],Acc) -> {Value,Rest2} = parse_Value(Rest), SeqTag = #seqtag{pos=Pos,module=get(asn1_module),val=IdName}, case Rest2 of @@ -2872,18 +2087,13 @@ parse_SequenceValue([{identifier,Pos,IdName}|Rest],Acc) -> [{'}',_}|Rest3] -> {lists:reverse(Acc, [{SeqTag,Value}]),Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end; parse_SequenceValue(Tokens,_Acc) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Tokens). parse_SequenceOfValue([{'{',_}|Tokens]) -> - parse_SequenceOfValue(Tokens,[]); -parse_SequenceOfValue(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_SequenceOfValue(Tokens, []). parse_SequenceOfValue(Tokens,Acc) -> {Value,Rest2} = parse_Value(Tokens), @@ -2891,10 +2101,9 @@ parse_SequenceOfValue(Tokens,Acc) -> [{',',_}|Rest3] -> parse_SequenceOfValue(Rest3,[Value|Acc]); [{'}',_}|Rest3] -> - {lists:reverse([Value|Acc]),Rest3}; + {lists:reverse(Acc, [Value]),Rest3}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'}']}}) + parse_error(Rest2) end. parse_ValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> @@ -2904,49 +2113,31 @@ parse_ValueSetTypeAssignment([{typereference,L1,Name}|Rest]) -> {ValueSet,Rest4} = parse_ValueSet(Rest3), {#valuedef{pos=L1,name=Name,type=Type,value=ValueSet, module=get(asn1_module)},Rest4}; - [H|_T] -> - throw({asn1_error,{get_line(L1),get(asn1_module), - [got,get_token(H),expected,'::=']}}) - end; -parse_ValueSetTypeAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected, - typereference]}}). + _ -> + parse_error(Rest2) + end. parse_ValueSet([{'{',_}|Rest]) -> {Elems,Rest2} = parse_ElementSetSpecs(Rest), case Rest2 of [{'}',_}|Rest3] -> {{valueset,Elems},Rest3}; - [H|_T] -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,'}']}}) + _ -> + parse_error(Rest2) end; parse_ValueSet(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'{']}}). + parse_error(Tokens). -parse_ValueAssignment([{identifier,L1,IdName}|Rest]) -> +parse_ValueAssignment([#identifier{pos=L1,val=IdName}|Rest]) -> {Type,Rest2} = parse_Type(Rest), case Rest2 of [{'::=',_}|Rest3] -> {Value,Rest4} = parse_Value(Rest3), - case catch lookahead_assignment(Rest4) of - ok -> - {#valuedef{pos=L1,name=IdName,type=Type,value=Value, - module=get(asn1_module)},Rest4}; - Error -> - throw(Error) -%% throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), -%% [got,get_token(hd(Rest2)),expected,'::=']}}) - end; + {#valuedef{pos=L1,name=IdName,type=Type,value=Value, + module=get(asn1_module)},Rest4}; _ -> - throw({asn1_error,{get_line(hd(Rest2)),get(asn1_module), - [got,get_token(hd(Rest2)),expected,'::=']}}) - end; -parse_ValueAssignment(Tokens) -> - throw({asn1_assignment_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,identifier]}}). + parse_error(Rest2) + end. %% SizeConstraint parse_SubtypeElements([{'SIZE',_}|Tokens]) -> @@ -2966,8 +2157,7 @@ parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_},{'...',_},{',',_}|Tok [{'}',_}|Rest2] -> {{'WITH COMPONENTS',{'PartialSpecification',Constraint}},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'}']}}) + parse_error(Rest) end; parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_}|Tokens]) -> {Constraint,Rest} = parse_TypeConstraints(Tokens), @@ -2975,28 +2165,18 @@ parse_SubtypeElements([{'WITH',_},{'COMPONENTS',_},{'{',_}|Tokens]) -> [{'}',_}|Rest2] -> {{'WITH COMPONENTS',{'FullSpecification',Constraint}},Rest2}; _ -> - throw({asn1_error,{get_line(hd(Rest)),get(asn1_module), - [got,get_token(hd(Rest)),expected,'}']}}) + parse_error(Rest) end; parse_SubtypeElements([{'PATTERN',_}|Tokens]) -> {Value,Rest} = parse_Value(Tokens), {{pattern,Value},Rest}; -%% SingleValue -%% ContainedSubtype -%% ValueRange -%% TypeConstraint -%% Moved fun parse_Value/1 and fun parse_Type/1 to parse_Elements parse_SubtypeElements(Tokens) -> Flist = [fun parse_ContainedSubtype/1, fun parse_Value/1, - fun([{'MIN',_}|T]) -> {'MIN',T} end, + fun parse_MIN/1, fun parse_Type/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - {asn1_error,Reason} -> - throw(Reason); - Result = {Val,_} when is_record(Val,type) -> + case parse_or(Tokens, Flist) of + {#type{},_}=Result -> Result; {Lower,[{'..',_}|Rest]} -> {Upper,Rest2} = parse_UpperEndpoint(Rest), @@ -3014,10 +2194,7 @@ parse_ContainedSubtype([{'INCLUDES',_}|Rest]) -> {Type,Rest2} = parse_Type(Rest), {{'ContainedSubtype',Type},Rest2}; parse_ContainedSubtype(Tokens) -> - throw({asn1_error,{get_line(hd(Tokens)),get(asn1_module), - [got,get_token(hd(Tokens)),expected,'INCLUDES']}}). -%%parse_ContainedSubtype(Tokens) -> %this option is moved to parse_SubtypeElements -%% parse_Type(Tokens). + parse_error(Tokens). parse_UpperEndpoint([{'<',_}|Rest]) -> parse_UpperEndpoint(lt,Rest); @@ -3025,33 +2202,38 @@ parse_UpperEndpoint(Tokens) -> parse_UpperEndpoint(false,Tokens). parse_UpperEndpoint(Lt,Tokens) -> - Flist = [ fun([{'MAX',_}|T]) -> {'MAX',T} end, - fun parse_Value/1], - case (catch parse_or(Tokens,Flist)) of - {'EXIT',Reason} -> - exit(Reason); - AsnErr = {asn1_error,_} -> - throw(AsnErr); - {Value,Rest2} when Lt == lt -> + Flist = [fun parse_MAX/1, + fun parse_Value/1], + case parse_or(Tokens, Flist) of + {Value,Rest2} when Lt =:= lt -> {{lt,Value},Rest2}; {Value,Rest2} -> {Value,Rest2} end. +parse_MIN([{'MIN',_}|T]) -> + {'MIN',T}; +parse_MIN(Tokens) -> + parse_error(Tokens). + +parse_MAX([{'MAX',_}|T]) -> + {'MAX',T}; +parse_MAX(Tokens) -> + parse_error(Tokens). + parse_TypeConstraints(Tokens) -> - parse_TypeConstraints(Tokens,[]). + parse_TypeConstraints(Tokens, []). -parse_TypeConstraints([{identifier,_,_}|Rest],Acc) -> +parse_TypeConstraints([#identifier{}|Rest], Acc) -> {ComponentConstraint,Rest2} = parse_ComponentConstraint(Rest), case Rest2 of [{',',_}|Rest3] -> - parse_TypeConstraints(Rest3,[ComponentConstraint|Acc]); + parse_TypeConstraints(Rest3, [ComponentConstraint|Acc]); _ -> - {lists:reverse([ComponentConstraint|Acc]),Rest2} + {lists:reverse(Acc, [ComponentConstraint]),Rest2} end; -parse_TypeConstraints([H|_T],_) -> - throw({asn1_error,{get_line(H),get(asn1_module), - [got,get_token(H),expected,identifier]}}). +parse_TypeConstraints(Tokens, _) -> + parse_error(Tokens). parse_ComponentConstraint(Tokens = [{'(',_}|_Rest]) -> {ValueConstraint,Rest2} = parse_Constraint(Tokens), @@ -3071,145 +2253,36 @@ parse_PresenceConstraint(Tokens) -> {asn1_empty,Tokens}. -% merge_constraints({Rlist,ExtList}) -> % extensionmarker in constraint -% {merge_constraints(Rlist,[],[]), -% merge_constraints(ExtList,[],[])}; - -%% An arg with a constraint with extension marker will look like -%% [#constraint{c={Root,Ext}}|Rest] - merge_constraints(Clist) -> merge_constraints(Clist, [], []). -merge_constraints([Ch|Ct],Cacc, Eacc) -> - NewEacc = case Ch#constraint.e of - undefined -> Eacc; - E -> [E|Eacc] - end, - merge_constraints(Ct,[fixup_constraint(Ch#constraint.c)|Cacc],NewEacc); - -merge_constraints([],Cacc,[]) -> -%% lists:flatten(Cacc); +merge_constraints([#constraint{c=C,e=E}|T], Cacc0, Eacc0) -> + Eacc = case E of + undefined -> Eacc0; + E -> [E|Eacc0] + end, + Cacc = [C|Cacc0], + merge_constraints(T, Cacc, Eacc); +merge_constraints([], Cacc, []) -> lists:reverse(Cacc); -merge_constraints([],Cacc,Eacc) -> -%% lists:flatten(Cacc) ++ [{'Errors',Eacc}]. - lists:reverse(Cacc) ++ [{'Errors',Eacc}]. - - -fixup_constraint(C) -> - case C of - {'SingleValue',SubType} when element(1,SubType) == 'ContainedSubtype' -> - SubType; - {'SingleValue',V} when is_list(V) -> - C; - %% [C,{'ValueRange',{lists:min(V),lists:max(V)}}]; - %% bug, turns wrong when an element in V is a reference to a defined value - {'PermittedAlphabet',{'SingleValue',V}} when is_list(V) -> - %%sort and remove duplicates - V2 = {'SingleValue', - ordsets:from_list(lists:flatten(V))}, - {'PermittedAlphabet',V2}; - {'PermittedAlphabet',{'SingleValue',V}} -> - V2 = {'SingleValue',[V]}, - {'PermittedAlphabet',V2}; - {'SizeConstraint',Sc} -> - {'SizeConstraint',fixup_size_constraint(Sc)}; - - List when is_list(List) -> %% In This case maybe a union or intersection - [fixup_constraint(Xc)||Xc <- List]; - Other -> - Other - end. +merge_constraints([], Cacc, Eacc) -> + lists:reverse(Cacc) ++ [{element_set,{'Errors',Eacc},none}]. -fixup_size_constraint({'ValueRange',{Lb,Ub}}) -> - {Lb,Ub}; -fixup_size_constraint({{'ValueRange',R},[]}) -> - {R,[]}; -fixup_size_constraint({[],{'ValueRange',R}}) -> - {[],R}; -fixup_size_constraint({{'ValueRange',R1},{'ValueRange',R2}}) -> - {R1,R2}; -fixup_size_constraint({'SingleValue',[Sv]}) -> - fixup_size_constraint({'SingleValue',Sv}); -fixup_size_constraint({'SingleValue',L}) when is_list(L) -> - ordsets:from_list(L); -fixup_size_constraint({'SingleValue',L}) -> - {L,L}; -fixup_size_constraint({'SizeConstraint',C}) -> - %% this is a second SIZE - fixup_size_constraint(C); -fixup_size_constraint({C1,C2}) -> - %% this is with extension marks - {turn2vr(fixup_size_constraint(C1)), extension_size(fixup_size_constraint(C2))}; -fixup_size_constraint(CList) when is_list(CList) -> - [fixup_constraint(Xc)||Xc <- CList]. - -turn2vr(L) when is_list(L) -> - L2 =[X||X<-ordsets:from_list(L),is_integer(X)], - case L2 of - [H|_] -> - {H,hd(lists:reverse(L2))}; - _ -> - L - end; -turn2vr(VR) -> - VR. -extension_size({I,I}) -> - [I]; -extension_size({I1,I2}) -> - [I1,I2]; -extension_size(C) -> - C. - -get_line({_,Pos,Token}) when is_integer(Pos),is_atom(Token) -> +get_line({Token,Pos,_}) when is_integer(Pos), is_atom(Token) -> Pos; get_line({Token,Pos}) when is_integer(Pos),is_atom(Token) -> - Pos; -get_line(_) -> - undefined. - -get_token({_,Pos,Token}) when is_integer(Pos),is_atom(Token) -> - Token; + Pos. + +get_token({valuefieldreference,_,FieldName}) -> + list_to_atom([$&|atom_to_list(FieldName)]); +get_token({typefieldreference,_,FieldName}) -> + list_to_atom([$&|atom_to_list(FieldName)]); +get_token({Token,Pos,Value}) when is_integer(Pos), is_atom(Token) -> + Value; get_token({'$end',Pos}) when is_integer(Pos) -> - undefined; + 'END-OF-FILE'; get_token({Token,Pos}) when is_integer(Pos),is_atom(Token) -> - Token; -get_token(_) -> - undefined. - -prioritize_error(ErrList) -> - case lists:keymember(asn1_error,1,ErrList) of - false -> % only asn1_assignment_error -> take the last - lists:last(ErrList); - true -> % contains errors from deeper in a Type - NewErrList = [_Err={_,_}|_RestErr] = - lists:filter(fun({asn1_error,_})->true;(_)->false end, - ErrList), - SplitErrs = - lists:splitwith(fun({_,X})-> - case element(1,X) of - Int when is_integer(Int) -> true; - _ -> false - end - end, - NewErrList), - case SplitErrs of - {[],UndefPosErrs} -> % if no error with Positon exists - lists:last(UndefPosErrs); - {IntPosErrs,_} -> - IntPosReasons = lists:map(fun(X)->element(2,X) end,IntPosErrs), - SortedReasons = lists:keysort(1,IntPosReasons), - {asn1_error,lists:last(SortedReasons)} - end - end. - -%% most_prio_error([H={_,Reason}|T],Atom,Err) when is_atom(Atom) -> -%% most_prio_error(T,element(1,Reason),H); -%% most_prio_error([H={_,Reason}|T],Greatest,Err) -> -%% case element(1,Reason) of -%% Pos when is_integer(Pos),Pos>Greatest -> -%% most_prio_error( - + Token. tref2Exttref(#typereference{pos=Pos,val=Name}) -> #'Externaltypereference'{pos=Pos, @@ -3226,19 +2299,5 @@ identifier2Extvalueref(#identifier{pos=Pos,val=Name}) -> module=resolve_module(Name), value=Name}. -%% lookahead_assignment/1 checks that the next sequence of tokens -%% in Token contain a valid assignment or the -%% 'END' token. Otherwise an exception is thrown. -lookahead_assignment([{'END',_}|_Rest]) -> - ok; -lookahead_assignment(Tokens) -> - parse_Assignment(Tokens), - ok. - -is_pre_defined_class('TYPE-IDENTIFIER') -> - true; -is_pre_defined_class('ABSTRACT-SYNTAX') -> - true; -is_pre_defined_class(_) -> - false. - +parse_error(Tokens) -> + throw({asn1_error,{parse_error,Tokens}}). diff --git a/lib/asn1/src/asn1ct_tok.erl b/lib/asn1/src/asn1ct_tok.erl index 8687ed955c..d51fea6402 100644 --- a/lib/asn1/src/asn1ct_tok.erl +++ b/lib/asn1/src/asn1ct_tok.erl @@ -21,191 +21,177 @@ %% Tokenize ASN.1 code (input to parser generated with yecc) --export([get_name/2,tokenise/4, file/1]). +-export([file/1,format_error/1]). - -file(File) -> - case file:open(File, [read]) of +file(File0) -> + case file:open(File0, [read]) of {error, Reason} -> - {error,{File,file:format_error(Reason)}}; + {error,{File0,file:format_error(Reason)}}; {ok,Stream} -> - process(Stream,0,[]) + try + process(Stream, 1, []) + catch + throw:{error,Line,Reason} -> + File = filename:basename(File0), + Error = {structured_error,{File,Line},?MODULE,Reason}, + {error,[Error]} + end end. -process(Stream,Lno,R) -> - process(io:get_line(Stream, ''), Stream,Lno+1,R). +process(Stream, Lno, R) -> + process(io:get_line(Stream, ''), Stream, Lno, R). -process(eof, Stream,Lno,R) -> +process(eof, Stream, Lno, Acc) -> ok = file:close(Stream), - lists:flatten(lists:reverse([{'$end',Lno}|R])); - - -process(L, Stream,Lno,R) when is_list(L) -> - %%io:format('read:~s',[L]), - case catch tokenise(Stream,L,Lno,[]) of - {'ERR',Reason} -> - io:format("Tokeniser error on line: ~w ~w~n",[Lno,Reason]), - exit(0); - {NewLno,T} -> - %%io:format('toks:~w~n',[T]), - process(Stream,NewLno,[T|R]) - end. - -tokenise(Stream,[H|T],Lno,R) when $a =< H , H =< $z -> - {X, T1} = get_name(T, [H]), - tokenise(Stream,T1,Lno,[{identifier,Lno, list_to_atom(X)}|R]); - -tokenise(Stream,[$&,H|T],Lno,R) when $A =< H , H =< $Z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - tokenise(Stream,T1,Lno,[{typefieldreference, Lno, X} | R]); - -tokenise(Stream,[$&,H|T],Lno,R) when $a =< H , H =< $z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - tokenise(Stream,T1,Lno,[{valuefieldreference, Lno, X} | R]); - -tokenise(Stream,[H|T],Lno,R) when $A =< H , H =< $Z -> - {Y, T1} = get_name(T, [H]), - X = list_to_atom(Y), - case reserved_word(X) of - true -> - tokenise(Stream,T1,Lno,[{X,Lno}|R]); - false -> - tokenise(Stream,T1,Lno,[{typereference,Lno,X}|R]); - rstrtype -> - tokenise(Stream,T1,Lno,[{restrictedcharacterstringtype,Lno,X}|R]) - end; - -tokenise(Stream,[$-,H|T],Lno,R) when $0 =< H , H =< $9 -> - {X, T1} = get_number(T, [H]), - tokenise(Stream,T1,Lno,[{number,Lno,-1 * list_to_integer(X)}|R]); + lists:reverse([{'$end',Lno}|Acc]); +process(L, Stream, Lno0, Acc) when is_list(L) -> + try tokenise(Stream, L, Lno0, []) of + {Lno,[]} -> + process(Stream, Lno, Acc); + {Lno,Ts} -> + process(Stream, Lno, Ts++Acc) + catch + throw:{error,Reason} -> + throw({error,Lno0,Reason}) + end. -tokenise(Stream,[H|T],Lno,R) when $0 =< H , H =< $9 -> +format_error(eof_in_comment) -> + "premature end of file in multi-line comment"; +format_error(eol_in_token) -> + "end of line in token"; +format_error({invalid_binary_number,Str}) -> + io_lib:format("invalid binary number: '~s'", [Str]); +format_error({invalid_hex_number,Str}) -> + io_lib:format("invalid hex number: '~s'", [Str]); +format_error(Other) -> + io_lib:format("~p", [Other]). + +tokenise(Stream, [$&,H|T], Lno, R) when $A =< H , H =< $Z -> + {X,T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{typefieldreference,Lno,X}|R]); +tokenise(Stream, [$&,H|T], Lno, R) when $a =< H , H =< $z -> + {X,T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{valuefieldreference,Lno,X}|R]); + +tokenise(Stream, "--"++T, Lno, R) -> + tokenise(Stream, skip_comment(T), Lno, R); + +tokenise(Stream, [$-,H|T], Lno, R) when $0 =< H , H =< $9 -> {X, T1} = get_number(T, [H]), - tokenise(Stream,T1,Lno,[{number,Lno,list_to_integer(X)}|R]); - -tokenise(Stream,[$-,$-|T],Lno,R) -> - tokenise(Stream,skip_comment(T),Lno,R); + tokenise(Stream, T1, Lno, [{number,Lno,-list_to_integer(X)}|R]); -tokenise(Stream,[$/,$*|T],Lno,R) -> - {NewLno,T1} = skip_multiline_comment(Stream,T,Lno,0), - tokenise(Stream,T1,NewLno,R); +tokenise(Stream, "/*"++T, Lno0, R) -> + {Lno,T1} = skip_multiline_comment(Stream, T, Lno0, 0), + tokenise(Stream, T1, Lno, R); -tokenise(Stream,[$:,$:,$=|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'::=',Lno}|R]); - -tokenise(Stream,[$'|T],Lno,R) -> - case catch collect_quoted(T,Lno,[]) of - {'ERR',_} -> - throw({'ERR','bad_quote'}); - {Thing, T1} -> - tokenise(Stream,T1,Lno,[Thing|R]) - end; +tokenise(Stream, "::="++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'::=',Lno}|R]); +tokenise(Stream, ":"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{':',Lno}|R]); +tokenise(Stream, "'"++T0, Lno, R) -> + {Thing, T1} = collect_quoted(T0, Lno, []), + tokenise(Stream, T1, Lno, [Thing|R]); tokenise(Stream,[$"|T],Lno,R) -> {Str,T1} = collect_string(T,Lno), tokenise(Stream,T1,Lno,[Str|R]); -tokenise(Stream,[${|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'{',Lno}|R]); - -tokenise(Stream,[$}|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'}',Lno}|R]); - -%% tokenise(Stream,[$],$]|T],Lno,R) -> -%% tokenise(Stream,T,Lno,[{']]',Lno}|R]); +tokenise(Stream, "{"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'{',Lno}|R]); +tokenise(Stream, "}"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'}',Lno}|R]); %% Even though x.680 specify '[[' and ']]' as lexical items -%% it does not work to have them as such since the single [ and ] can -%% be used beside each other in the SYNTAX OF in x.681 -%% the solution chosen here , i.e. to have them as separate lexical items +%% it does not work to have them as such since the single '[' and ']' can +%% be used beside each other in 'WITH SYNTAX' in x.681. +%% The solution chosen here, i.e. to have them as separate lexical items %% will not detect the cases where there is white space between them -%% which would be an error in the use in ExtensionAdditionGroups - -%% tokenise(Stream,[$[,$[|T],Lno,R) -> -%% tokenise(Stream,T,Lno,[{'[[',Lno}|R]); - -tokenise(Stream,[$]|T],Lno,R) -> - tokenise(Stream,T,Lno,[{']',Lno}|R]); - -tokenise(Stream,[$[|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'[',Lno}|R]); +%% which would be an error in the use in ExtensionAdditionGroups. -tokenise(Stream,[$,|T],Lno,R) -> - tokenise(Stream,T,Lno,[{',',Lno}|R]); +tokenise(Stream, "]"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{']',Lno}|R]); +tokenise(Stream, "["++T,Lno,R) -> + tokenise(Stream, T, Lno, [{'[',Lno}|R]); -tokenise(Stream,[$(|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'(',Lno}|R]); -tokenise(Stream,[$)|T],Lno,R) -> - tokenise(Stream,T,Lno,[{')',Lno}|R]); +tokenise(Stream, ","++T,Lno,R) -> + tokenise(Stream, T, Lno, [{',',Lno}|R]); -tokenise(Stream,[$.,$.,$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'...',Lno}|R]); +tokenise(Stream, "("++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'(',Lno}|R]); +tokenise(Stream, ")"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{')',Lno}|R]); -tokenise(Stream,[$.,$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'..',Lno}|R]); +tokenise(Stream, "..."++T,Lno,R) -> + tokenise(Stream, T, Lno, [{'...',Lno}|R]); +tokenise(Stream, ".."++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'..',Lno}|R]); +tokenise(Stream, "."++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'.',Lno}|R]); -tokenise(Stream,[$.|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'.',Lno}|R]); -tokenise(Stream,[$^|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'^',Lno}|R]); -tokenise(Stream,[$!|T],Lno,R) -> - tokenise(Stream,T,Lno,[{'!',Lno}|R]); -tokenise(Stream,[$||T],Lno,R) -> - tokenise(Stream,T,Lno,[{'|',Lno}|R]); +tokenise(Stream, "|"++T, Lno, R) -> + tokenise(Stream, T, Lno, [{'|',Lno}|R]); -tokenise(Stream,[H|T],Lno,R) -> - case white_space(H) of +tokenise(Stream, [H|T], Lno, R) when $A =< H , H =< $Z -> + {X,T1} = get_name(T, [H]), + case reserved_word(X) of true -> - tokenise(Stream,T,Lno,R); + tokenise(Stream, T1, Lno, [{X,Lno}|R]); false -> - tokenise(Stream,T,Lno,[{list_to_atom([H]),Lno}|R]) + tokenise(Stream, T1, Lno, [{typereference,Lno,X}|R]); + rstrtype -> + tokenise(Stream, T1, Lno, [{restrictedcharacterstringtype,Lno,X}|R]) end; -tokenise(_Stream,[],Lno,R) -> - {Lno,lists:reverse(R)}. +tokenise(Stream, [H|T], Lno, R) when $a =< H , H =< $z -> + {X, T1} = get_name(T, [H]), + tokenise(Stream, T1, Lno, [{identifier,Lno,X}|R]); -collect_string(L,Lno) -> - collect_string(L,Lno,[]). +tokenise(Stream, [H|T], Lno, R) when $0 =< H , H =< $9 -> + {X, T1} = get_number(T, [H]), + tokenise(Stream, T1, Lno, [{number,Lno,list_to_integer(X)}|R]); -collect_string([],_,_) -> - throw({'ERR','bad_quote found eof'}); +tokenise(Stream, [H|T], Lno, R) when H =< $\s -> + tokenise(Stream, T, Lno, R); -collect_string([H|T],Lno,Str) -> - case H of - $" -> - {{cstring,1,lists:reverse(Str)},T}; - Ch -> - collect_string(T,Lno,[Ch|Str]) - end. - +tokenise(Stream, [H|T], Lno, R) -> + tokenise(Stream, T, Lno, [{list_to_atom([H]),Lno}|R]); +tokenise(_Stream, [], Lno, R) -> + {Lno+1,R}. -% <name> is letters digits hyphens -% hypen is not the last character. Hypen hyphen is NOT allowed -% -% <identifier> ::= <lowercase> <name> +collect_string(L, Lno) -> + collect_string(L, Lno, []). -get_name([$-,Char|T], L) -> +collect_string([$"|T], _Lno, Str) -> + {{cstring,1,lists:reverse(Str)},T}; +collect_string([H|T], Lno, Str) -> + collect_string(T, Lno, [H|Str]); +collect_string([], _, _) -> + throw({error,missing_quote_at_eof}). + +%% <name> is letters digits hyphens. +%% Hypen is not the last character. Hypen hyphen is NOT allowed. +%% +%% <identifier> ::= <lowercase> <name> + +get_name([$-,Char|T]=T0, Acc) -> case isalnum(Char) of true -> - get_name(T,[Char,$-|L]); + get_name(T, [Char,$-|Acc]); false -> - {lists:reverse(L),[$-,Char|T]} + {list_to_atom(lists:reverse(Acc)),T0} end; -get_name([$-|T], L) -> - {lists:reverse(L),[$-|T]}; -get_name([Char|T], L) -> +get_name([$-|_]=T, Acc) -> + {list_to_atom(lists:reverse(Acc)),T}; +get_name([Char|T]=T0, Acc) -> case isalnum(Char) of true -> - get_name(T,[Char|L]); + get_name(T, [Char|Acc]); false -> - {lists:reverse(L),[Char|T]} + {list_to_atom(lists:reverse(Acc)),T0} end; -get_name([], L) -> - {lists:reverse(L), []}. - +get_name([], Acc) -> + {list_to_atom(lists:reverse(Acc)),[]}. isalnum(H) when $A =< H , H =< $Z -> true; @@ -221,67 +207,54 @@ isdigit(H) when $0 =< H , H =< $9 -> isdigit(_) -> false. -white_space(9) -> true; -white_space(10) -> true; -white_space(13) -> true; -white_space(32) -> true; -white_space(_) -> false. - - -get_number([H|T], L) -> +get_number([H|T]=T0, L) -> case isdigit(H) of true -> get_number(T, [H|L]); false -> - {lists:reverse(L), [H|T]} + {lists:reverse(L), T0} end; get_number([], L) -> {lists:reverse(L), []}. -skip_comment([]) -> - []; -skip_comment([$-,$-|T]) -> - T; -skip_comment([_|T]) -> - skip_comment(T). - +skip_comment([]) -> []; +skip_comment("--"++T) -> T; +skip_comment([_|T]) -> skip_comment(T). -skip_multiline_comment(Stream,[],Lno,Level) -> - case io:get_line(Stream,'') of +skip_multiline_comment(Stream, [], Lno, Level) -> + case io:get_line(Stream, '') of eof -> - io:format("Tokeniser error on line: ~w~n" - "premature end of multiline comment~n",[Lno]), - exit(0); + throw({error,eof_in_comment}); Line -> - skip_multiline_comment(Stream,Line,Lno+1,Level) + skip_multiline_comment(Stream, Line, Lno+1, Level) end; -skip_multiline_comment(_Stream,[$*,$/|T],Lno,0) -> +skip_multiline_comment(_Stream, "*/"++T, Lno, 0) -> {Lno,T}; -skip_multiline_comment(Stream,[$*,$/|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level - 1); -skip_multiline_comment(Stream,[$/,$*|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level + 1); -skip_multiline_comment(Stream,[_|T],Lno,Level) -> - skip_multiline_comment(Stream,T,Lno,Level). - -collect_quoted([$',$B|T],Lno, L) -> +skip_multiline_comment(Stream, "*/"++T, Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level - 1); +skip_multiline_comment(Stream, "/*"++T, Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level + 1); +skip_multiline_comment(Stream, [_|T], Lno, Level) -> + skip_multiline_comment(Stream, T, Lno, Level). + +collect_quoted("'B"++T, Lno, L) -> case check_bin(L) of true -> - {{bstring,Lno, lists:reverse(L)}, T}; + {{bstring,Lno,lists:reverse(L)}, T}; false -> - throw({'ERR',{invalid_binary_number, lists:reverse(L)}}) + throw({error,{invalid_binary_number,lists:reverse(L)}}) end; -collect_quoted([$',$H|T],Lno, L) -> +collect_quoted("'H"++T, Lno, L) -> case check_hex(L) of true -> - {{hstring,Lno, lists:reverse(L)}, T}; + {{hstring,Lno,lists:reverse(L)}, T}; false -> - throw({'ERR',{invalid_binary_number, lists:reverse(L)}}) + throw({error,{invalid_hex_number,lists:reverse(L)}}) end; collect_quoted([H|T], Lno, L) -> collect_quoted(T, Lno,[H|L]); collect_quoted([], _, _) -> % This should be allowed FIX later - throw({'ERR',{eol_in_token}}). + throw({error,eol_in_token}). check_bin([$0|T]) -> check_bin(T); @@ -351,7 +324,6 @@ reserved_word('INCLUDES') -> true; reserved_word('INSTANCE') -> true; reserved_word('INTEGER') -> true; reserved_word('INTERSECTION') -> true; -reserved_word('ISO646String') -> rstrtype; reserved_word('MAX') -> true; reserved_word('MIN') -> true; reserved_word('MINUS-INFINITY') -> true; diff --git a/lib/asn1/src/asn1ct_value.erl b/lib/asn1/src/asn1ct_value.erl index 221cd991a7..c5901d5489 100644 --- a/lib/asn1/src/asn1ct_value.erl +++ b/lib/asn1/src/asn1ct_value.erl @@ -352,8 +352,9 @@ random_unnamed_bit_string(M, C) -> %% end. random(Upper) -> - {A1,A2,A3} = erlang:now(), - _ = random:seed(A1, A2, A3), + _ = random:seed(erlang:phash2([erlang:node()]), + erlang:monotonic_time(), + erlang:unique_integer()), random:uniform(Upper). size_random(C) -> diff --git a/lib/asn1/test/Makefile b/lib/asn1/test/Makefile index b1b08aa9f9..ea5a0f857e 100644 --- a/lib/asn1/test/Makefile +++ b/lib/asn1/test/Makefile @@ -78,6 +78,7 @@ MODULES= \ testEnumExt \ testInfObjectClass \ testInfObj \ + testInfObjExtract \ testParameterizedInfObj \ testFragmented \ testMergeCompile \ @@ -104,14 +105,19 @@ MODULES= \ test_compile_options \ testDoubleEllipses \ test_modified_x420 \ - testX420 \ test_x691 \ testWSParamClass \ + testValueTest \ + testUniqueObjectSets \ + testRfcs \ + testImporting \ + testExtensibilityImplied \ asn1_test_lib \ asn1_app_test \ asn1_appup_test \ asn1_SUITE \ - error_SUITE + error_SUITE \ + syntax_SUITE ERL_FILES= $(MODULES:%=%.erl) diff --git a/lib/asn1/test/asn1_SUITE.erl b/lib/asn1/test/asn1_SUITE.erl index 432197eec0..9dfcc3f571 100644 --- a/lib/asn1/test/asn1_SUITE.erl +++ b/lib/asn1/test/asn1_SUITE.erl @@ -52,9 +52,7 @@ all() -> groups() -> Parallel = asn1_test_lib:parallel(), [{compile, Parallel, - [c_syntax, - c_string, - c_implicit_before_choice, + [c_string, constraint_equivalence]}, {ber, Parallel, @@ -89,6 +87,7 @@ groups() -> ber_other, der, h323test]}, + testExtensibilityImplied, testChoPrim, testChoExtension, testChoOptional, @@ -135,19 +134,19 @@ groups() -> testChoiceIndefinite, per_open_type, testInfObjectClass, + testUniqueObjectSets, + testInfObjExtract, testParam, testFragmented, testMergeCompile, testobj, testDeepTConstr, - testExport, testImport, testDER, testDEFAULT, testMvrasn6, testContextSwitchingTypes, testOpenTypeImplicitTag, - duplicate_tags, testROSE, testINSTANCE_OF, testTCAP, @@ -158,16 +157,19 @@ groups() -> testNortel, % Uses 'PKCS7', 'InformationFramework' {group, [], [test_WS_ParamClass, - test_modified_x420, - testX420]}, - testTcapsystem, - testNBAPsystem, - testS1AP, + test_modified_x420]}, + %% Don't run all these at the same time. + {group, [], + [testTcapsystem, + testNBAPsystem, + testS1AP, + testRfcs]}, test_compile_options, testDoubleEllipses, test_x691, ticket_6143, - test_OTP_9688]}, + test_OTP_9688, + testValueTest]}, {performance, [], [testTimer_ber, @@ -196,7 +198,7 @@ init_per_testcase(Func, Config) -> true = code:add_patha(CaseDir), Dog = case Func of - testX420 -> ct:timetrap({minutes, 90}); + testRfcs -> ct:timetrap({minutes, 90}); _ -> ct:timetrap({minutes, 60}) end, [{case_dir, CaseDir}, {watchdog, Dog}|Config]. @@ -374,6 +376,12 @@ testExternal(Config, Rule, Opts) -> testSetOfTag:main(Rule), testSetTag:main(Rule). +testExtensibilityImplied(Config) -> + test(Config, fun testExtensibilityImplied/3). +testExtensibilityImplied(Config, Rule, Opts) -> + asn1_test_lib:compile("ExtensibilityImplied", Config, + [Rule,no_ok_wrapper|Opts]), + testExtensibilityImplied:main(). testChoPrim(Config) -> test(Config, fun testChoPrim/3). testChoPrim(Config, Rule, Opts) -> @@ -561,39 +569,21 @@ testSetOfCho(Config, Rule, Opts) -> asn1_test_lib:compile("SetOfCho", Config, [Rule|Opts]), testSetOfCho:main(Rule). -c_syntax(Config) -> - DataDir = ?config(data_dir, Config), - [{error, _} = asn1ct:compile(filename:join(DataDir, F)) - || F <-["Syntax", - "BadTypeEnding", - "BadValueAssignment1", - "BadValueAssignment2", - "BadValueSet", - "ChoiceBadExtension", - "EnumerationBadExtension", - "Example", - "Export1", - "MissingEnd", - "SequenceBadComma", - "SequenceBadComponentName", - "SequenceBadComponentType", - "SeqBadComma"]]. - c_string(Config) -> test(Config, fun c_string/3). c_string(Config, Rule, Opts) -> asn1_test_lib:compile("String", Config, [Rule|Opts]), asn1ct:test('String'). -c_implicit_before_choice(Config) -> - test(Config, fun c_implicit_before_choice/3, [ber]). -c_implicit_before_choice(Config, Rule, Opts) -> - DataDir = ?config(data_dir, Config), - CaseDir = ?config(case_dir, Config), - {error, _R2} = asn1ct:compile(filename:join(DataDir, "CCSNARG3"), - [Rule, {outdir, CaseDir}|Opts]). - constraint_equivalence(Config) -> + constraint_equivalence_abs(Config), + test(Config, fun constraint_equivalence/3). + +constraint_equivalence(Config, Rule, Opts) -> + M = 'ConstraintEquivalence', + asn1_test_lib:compile(M, Config, [Rule|Opts]). + +constraint_equivalence_abs(Config) -> DataDir = ?config(data_dir, Config), CaseDir = ?config(case_dir, Config), Asn1Spec = "ConstraintEquivalence", @@ -765,6 +755,16 @@ testInfObjectClass(Config, Rule, Opts) -> testInfObjectClass:main(Rule), testInfObj:main(Rule). +testUniqueObjectSets(Config) -> test(Config, fun testUniqueObjectSets/3). +testUniqueObjectSets(Config, Rule, Opts) -> + CaseDir = ?config(case_dir, Config), + testUniqueObjectSets:main(CaseDir, Rule, Opts). + +testInfObjExtract(Config) -> test(Config, fun testInfObjExtract/3). +testInfObjExtract(Config, Rule, Opts) -> + asn1_test_lib:compile("InfObjExtract", Config, [Rule|Opts]), + testInfObjExtract:main(). + testParam(Config) -> test(Config, fun testParam/3, [ber,{ber,[der]},per,uper]). testParam(Config, Rule, Opts) -> @@ -804,18 +804,14 @@ testDeepTConstr(Config, Rule, Opts) -> [Rule|Opts]), testDeepTConstr:main(Rule). -testExport(Config) -> - {error, _} = - asn1ct:compile(filename:join(?config(data_dir, Config), - "IllegalExport"), - [{outdir, ?config(case_dir, Config)}]). - testImport(Config) -> test(Config, fun testImport/3). testImport(Config, Rule, Opts) -> - Files = ["ImportsFrom","ImportsFrom2","ImportsFrom3"], + Files = ["ImportsFrom","ImportsFrom2","ImportsFrom3", + "Importing","Exporting"], asn1_test_lib:compile_all(Files, Config, [Rule|Opts]), 42 = 'ImportsFrom':i(), + testImporting:main(), ok. testMegaco(Config) -> test(Config, fun testMegaco/3). @@ -839,24 +835,20 @@ testContextSwitchingTypes(Config, Rule, Opts) -> testTypeValueNotation(Config) -> test(Config, fun testTypeValueNotation/3). testTypeValueNotation(Config, Rule, Opts) -> - asn1_test_lib:compile_all(["SeqTypeRefPrim", "ValueTest"], Config, - [Rule|Opts]), + asn1_test_lib:compile("SeqTypeRefPrim", Config, [Rule|Opts]), testTypeValueNotation:main(Rule, Opts). +testValueTest(Config) -> test(Config, fun testValueTest/3). +testValueTest(Config, Rule, Opts) -> + asn1_test_lib:compile("ValueTest", Config, [Rule|Opts]), + testValueTest:main(). + testOpenTypeImplicitTag(Config) -> test(Config, fun testOpenTypeImplicitTag/3). testOpenTypeImplicitTag(Config, Rule, Opts) -> asn1_test_lib:compile("OpenTypeImplicitTag", Config, [Rule|Opts]), testOpenTypeImplicitTag:main(Rule). -duplicate_tags(Config) -> - DataDir = ?config(data_dir, Config), - CaseDir = ?config(case_dir, Config), - {error, [{error, {type, _, _, 'SeqOpt1Imp', - {asn1, {duplicates_of_the_tags, _}}}}]} = - asn1ct:compile(filename:join(DataDir, "SeqOptional2"), - [abs, {outdir, CaseDir}]). - rtUI(Config) -> test(Config, fun rtUI/3). rtUI(Config, Rule, Opts) -> asn1_test_lib:compile("Prim", Config, [Rule|Opts]), @@ -990,13 +982,22 @@ testS1AP(Config, Rule, Opts) -> ok end. +testRfcs(Config) -> test(Config, fun testRfcs/3, [{ber,[der]}]). +testRfcs(Config, Rule, Opts) -> + case erlang:system_info(system_architecture) of + "sparc-sun-solaris2.10" -> + {skip,"Too slow for an old Sparc"}; + _ -> + testRfcs:compile(Config, Rule, Opts), + testRfcs:test() + end. + test_compile_options(Config) -> ok = test_compile_options:wrong_path(Config), ok = test_compile_options:path(Config), ok = test_compile_options:noobj(Config), ok = test_compile_options:record_name_prefix(Config), - ok = test_compile_options:verbose(Config), - ok = test_compile_options:warnings_as_errors(Config). + ok = test_compile_options:verbose(Config). testDoubleEllipses(Config) -> test(Config, fun testDoubleEllipses/3). testDoubleEllipses(Config, Rule, Opts) -> @@ -1084,6 +1085,7 @@ test_modules() -> "CommonDataTypes", "Constraints", "ContextSwitchingTypes", + "CoverParser", "DS-EquipmentUser-CommonFunctionOrig-TransmissionPath", "Enum", "From", @@ -1118,7 +1120,9 @@ test_modules() -> "Def", "Opt", "ELDAPv3", - "LDAP"]. + "LDAP", + "SeqOptional2", + "CCSNARG3"]. test_OTP_9688(Config) -> PrivDir = ?config(case_dir, Config), diff --git a/lib/asn1/test/asn1_SUITE_data/BadTypeEnding.asn b/lib/asn1/test/asn1_SUITE_data/BadTypeEnding.asn deleted file mode 100644 index 3ccd838ac0..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/BadTypeEnding.asn +++ /dev/null @@ -1,6 +0,0 @@ -BadTypeEnding DEFINITIONS ::= -BEGIN - -T ::= Typ; - -END diff --git a/lib/asn1/test/asn1_SUITE_data/BadValueAssignment1.asn1 b/lib/asn1/test/asn1_SUITE_data/BadValueAssignment1.asn1 deleted file mode 100644 index a5d4984e60..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/BadValueAssignment1.asn1 +++ /dev/null @@ -1,8 +0,0 @@ -BadValueAssignment1 DEFINITIONS ::= -BEGIN - -int INTEGER ::= 3 - -int2 integer ::= 3 - -END diff --git a/lib/asn1/test/asn1_SUITE_data/BadValueAssignment2.asn1 b/lib/asn1/test/asn1_SUITE_data/BadValueAssignment2.asn1 deleted file mode 100644 index 7a96406001..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/BadValueAssignment2.asn1 +++ /dev/null @@ -1,8 +0,0 @@ -BadValueAssignment2 DEFINITIONS ::= -BEGIN - -int INTEGER ::= 3 - -int2 ::= 3 - -END diff --git a/lib/asn1/test/asn1_SUITE_data/BadValueSet.asn1 b/lib/asn1/test/asn1_SUITE_data/BadValueSet.asn1 deleted file mode 100644 index 68bd4380b7..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/BadValueSet.asn1 +++ /dev/null @@ -1,9 +0,0 @@ -BadValueSet DEFINITIONS ::= -BEGIN - -Int INTEGER ::= {1|2|3} - -Int2 INTEGER ::= { - 1,2,3} - -END diff --git a/lib/asn1/test/asn1_SUITE_data/CCSNARG3.asn b/lib/asn1/test/asn1_SUITE_data/CCSNARG3.asn index 23c1f32ceb..8932238adc 100644 --- a/lib/asn1/test/asn1_SUITE_data/CCSNARG3.asn +++ b/lib/asn1/test/asn1_SUITE_data/CCSNARG3.asn @@ -3,7 +3,7 @@ BEGIN CallCentreServiceNotificationArg ::= SEQUENCE { scriptInformation [0] ScriptToScriptInformation, - eventInformation [1] IMPLICIT EventInformation OPTIONAL + eventInformation [1] EventInformation OPTIONAL } diff --git a/lib/asn1/test/asn1_SUITE_data/ChoExtension.asn1 b/lib/asn1/test/asn1_SUITE_data/ChoExtension.asn1 index f6fe18be10..18473bae30 100644 --- a/lib/asn1/test/asn1_SUITE_data/ChoExtension.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/ChoExtension.asn1 @@ -41,10 +41,4 @@ ChoExt4 ::= CHOICE str OCTET STRING } -ChoEmptyRoot ::= CHOICE { - ..., - bool BOOLEAN, - int INTEGER (0..7) -} - END diff --git a/lib/asn1/test/asn1_SUITE_data/ChoiceBadExtension.asn1 b/lib/asn1/test/asn1_SUITE_data/ChoiceBadExtension.asn1 deleted file mode 100644 index d0789d7414..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/ChoiceBadExtension.asn1 +++ /dev/null @@ -1,27 +0,0 @@ -ChoiceBadExtension DEFINITIONS ::= -BEGIN - -Seq ::= SEQUENCE { - ..., - name PrintableString, - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER - } - -Cho1 ::= CHOICE { - name PrintableString, - ..., - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER - } - -Cho2 ::= CHOICE { - ..., - name PrintableString, - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER - } - -END - - diff --git a/lib/asn1/test/asn1_SUITE_data/ConstraintEquivalence.asn1 b/lib/asn1/test/asn1_SUITE_data/ConstraintEquivalence.asn1 index 8b3d151502..648275dd66 100644 --- a/lib/asn1/test/asn1_SUITE_data/ConstraintEquivalence.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/ConstraintEquivalence.asn1 @@ -11,6 +11,10 @@ BEGIN SingleValueX8 ::= INTEGER (integer42) SingleValueX9 ::= INTEGER (integer42..integer42) SingleValueX10 ::= INTEGER ((integer42) INTERSECTION (40..49)) + SingleValueX11 ::= INTEGER (40..49) (integer42) + SingleValueX12 ::= INTEGER ((MIN..0) ^ (1..10) | integer42) + SingleValueX13 ::= INTEGER ((11..20) ^ (1..10) | integer42) + SingleValueX14 ::= INTEGER ((MIN..42) ^ (1..100) ^ (42..50)) UnconstrainedX0 ::= INTEGER UnconstrainedX1 ::= INTEGER (MIN..MAX) @@ -19,6 +23,10 @@ BEGIN UnconstrainedX4 ::= INTEGER ((MIN..MAX)|9|10) UnconstrainedX5 ::= INTEGER ((MIN..MAX)|10..20) UnconstrainedX6 ::= INTEGER ((MIN..MAX) UNION (10..20)) + UnconstrainedX7 ::= INTEGER ((MIN..MAX) ^ ((MIN..MAX) UNION (10..20))) + UnconstrainedX8 ::= INTEGER ((-100..MAX) ^ (42..MAX) | (MIN..41)) + UnconstrainedX9 ::= INTEGER (UnconstrainedX0) + UnconstrainedX10 ::= INTEGER (UnconstrainedX0)(MIN..MAX) RangeX00 ::= INTEGER (5..10) RangeX01 ::= INTEGER (4<..<11) @@ -38,22 +46,66 @@ BEGIN RangeX16 ::= INTEGER ((5|6) UNION (7) UNION (7<..<11)) RangeX20 ::= INTEGER (0..20) (5..10) - RangeX21 ::= INTEGER (0..10) (5..20) - RangeX22 ::= INTEGER (0..10) (5..20) (MIN..MAX) - RangeX23 ::= INTEGER ((0..10) INTERSECTION (5..20) ^ (MIN..MAX)) - RangeX24 ::= INTEGER ((5|6|7|8|9|10) INTERSECTION (5..20) ^ (MIN..MAX)) + RangeX21 ::= INTEGER ((0..10) ^ (5..20)) + RangeX22 ::= INTEGER ((0..10) ^ (5..20) ^ (MIN..MAX)) + RangeX23 ::= INTEGER (MIN..MAX) (-100..20) (5..10) + RangeX24 ::= INTEGER (MIN..MAX) (0..100) (5..20) (5..10) + RangeX25 ::= INTEGER ((0..10) INTERSECTION (5..20) ^ (MIN..MAX)) + RangeX26 ::= INTEGER ((5|6|7|8|9|10) INTERSECTION (5..20) ^ (MIN..MAX)) + + RangeX30 ::= INTEGER (((5|6) | (5..20)) ^ (0..10)) + RangeX31 ::= INTEGER (((((5|6) | (5..20)) ^ (0..10))) ^ (MIN..MAX)) + RangeX32 ::= INTEGER ((5|7) | (5..10)) + + Semi00 ::= INTEGER (0..MAX) + Semi01 ::= INTEGER (0..MAX) (MIN..MAX) + Semi02 ::= INTEGER ((0..100) UNION (200..MAX) UNION (50..1024)) + + RangeExtX00 ::= INTEGER (5..10, ...) + RangeExtX01 ::= INTEGER (0..20) (5..10, ...) + RangeExtX02 ::= INTEGER (RangeX26) (5..10, ...) +-- RangeExtX03 ::= RangeX26 (5..10, ...) + + MinRangeX00 ::= INTEGER (MIN..10) + MinRangeX01 ::= INTEGER ((MIN..0) | (0..10)) + MinRangeX02 ::= INTEGER (MIN..MAX) (MIN..100) (MIN..10) + MinRangeX03 ::= INTEGER (((MIN..-100)|(-60..-50)) | (MIN..10)) + + DisjointRangeX00 ::= INTEGER (0..5 UNION 95..99) + DisjointRangeX01 ::= INTEGER (0|1|2|3|4|5|95|96|97|98|99) + DisjointRangeX02 ::= INTEGER (0..100) (0..2 UNION 95..99 UNION 3|4|5) + DisjointRangeX03 ::= INTEGER (MIN..MAX) (0..2 UNION 95..99 UNION 3|4|5) + + MinDisjointRangeX00 ::= INTEGER (MIN..-100 UNION 100..1000) + MinDisjointRangeX01 ::= INTEGER (MIN..-100 UNION 100..1000 UNION (MIN..-100)) + MinDisjointRangeX02 ::= INTEGER (MIN..-50000 UNION 100..1000 UNION (MIN..-100)) + MinDisjointRangeX03 ::= INTEGER (MIN..-100 UNION 100..1000 UNION (MIN..-1000000)) + MinDisjointRangeX04 ::= INTEGER (MIN..-100 UNION 100..1000 UNION (MIN..-1000000)) + MinDisjointRangeX05 ::= INTEGER (MIN..-100 ^ (MIN..-100) UNION 100..1000) + MinDisjointRangeX06 ::= INTEGER (MIN..-100 ^ (MIN..0) UNION 100..1000) UnconstrainedStringX00 ::= IA5String UnconstrainedStringX01 ::= IA5String (SIZE (0..MAX)) + UnconstrainedStringX02 ::= IA5String (SIZE (0..42|43..MAX)) ConstrainedStringX00 ::= IA5String (SIZE (0..5)) ConstrainedStringX01 ::= IA5String (SIZE (0|1|2|3|4|5)) + StringExtFromX00 ::= IA5String (FROM ("AB", ..., "CD"))(SIZE (1..10, ..., 15..20)) + StringExtFromX01 ::= IA5String (FROM ("AB", ..., "CD"))(SIZE (1..10, ..., 15..20)) + StringExtFromX02 ::= IA5String ((FROM ("AB", ..., "CD")) ^ ((SIZE (1..10, ..., 15..20)))) + StringExtFromX03 ::= IA5String ((FROM ("AB", ..., "CD")) ^ (SIZE (1..10, ..., 15..20))) + StringExtFromX04 ::= IA5String (StringExtFromX00) + -- Note: None of the back-ends care about the exact values -- outside of the root range. ExtConstrainedStringX00 ::= IA5String (SIZE (1..2, ...)) ExtConstrainedStringX01 ::= IA5String (SIZE (1|2, ..., 3)) ExtConstrainedStringX02 ::= IA5String (SIZE (1|2, ..., 3|4|5)) + ExtConstrainedStringX03 ::= IA5String (SIZE (1|2, ..., 1|2|3|4|5)) + ExtConstrainedStringX04 ::= IA5String (SIZE (1|2), ..., SIZE (1|2|3|4|5)) + ExtConstrainedStringX05 ::= IA5String (SIZE (1|2, ...), ..., + SIZE (1|2|3|4|5, ...)) integer4 INTEGER ::= 4 integer11 INTEGER ::= 11 diff --git a/lib/asn1/test/asn1_SUITE_data/Constraints.py b/lib/asn1/test/asn1_SUITE_data/Constraints.py index 3495cd841b..a40c513141 100644 --- a/lib/asn1/test/asn1_SUITE_data/Constraints.py +++ b/lib/asn1/test/asn1_SUITE_data/Constraints.py @@ -81,7 +81,7 @@ maxNrOfCellPortionsPerCell-1 INTEGER ::= 35 CellPortionID ::= INTEGER (0..maxNrOfCellPortionsPerCell-1,...) -- OTP-6763 -T ::= IA5String (SIZE (1|2, ..., SIZE (1|2|3))) -- Dubuisson 268 +T ::= IA5String (SIZE (1|2), ..., SIZE (1|2|3)) -- Dubuisson 268 T2 ::= IA5String (SIZE (1|2, ..., 3)) -- equal with T -- OTP-8046 @@ -144,5 +144,47 @@ NonOverlapping ::= INTEGER (7280..7560 | 23000..24000 | 24960..26900) +-- +-- Test INTEGER constraints from fields in objects. +-- + +INT-HOLDER ::= CLASS { + &id INTEGER UNIQUE, + &obj INT-HOLDER OPTIONAL +} WITH SYNTAX { + ID &id + [OBJ &obj] +} + +int-holder-1 INT-HOLDER ::= { ID 2 } +int-holder-2 INT-HOLDER ::= { ID 4 OBJ int-holder-1 } + +IntObjectConstr ::= INTEGER (int-holder-2.&obj.&id..int-holder-2.&id) + +-- +-- INTEGER constraints defined using named INTEGERs. +-- + +ConstrainedNamedInt ::= INTEGER {v1(42)} (v1) +constrainedNamedInt-1 INTEGER {v1(42)} (v1) ::= 42 +constrainedNamedInt-2 ConstrainedNamedInt ::= 100 + +SeqWithNamedInt ::= SEQUENCE { + int INTEGER {v2(7)} (v2) +} + +-- +-- Cover simpletable constraint checking code. +-- + +ContentInfo ::= SEQUENCE { + contentType ContentType +} + +Contents TYPE-IDENTIFIER ::= { + {OCTET STRING IDENTIFIED BY {2 1 1 1 1 1 1}} +} + +ContentType ::= TYPE-IDENTIFIER.&id({Contents}) END diff --git a/lib/asn1/test/asn1_SUITE_data/CoverParser.asn1 b/lib/asn1/test/asn1_SUITE_data/CoverParser.asn1 new file mode 100644 index 0000000000..75d40188ca --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/CoverParser.asn1 @@ -0,0 +1,57 @@ +CoverParser DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + + Cho1 ::= CHOICE { + i INTEGER, + ... ! 42, + [[ b BOOLEAN ]] + } + + Cho2 ::= CHOICE { + i INTEGER, + ..., + [[ b BOOLEAN, + s IA5String ]], + ... + } + + Int1 ::= INTEGER (CONSTRAINED BY {INTEGER:1,INTEGER:2}) + + Seq1 ::= SEQUENCE { + ... ! INTEGER:1 + } + + Seq2 ::= SEQUENCE { + ... ! INTEGER:1, + i INTEGER + } + + Seq3 ::= SEQUENCE { + b BOOLEAN, + ... ! INTEGER:1, + i INTEGER + } + + Seq4 ::= SEQUENCE { + a INTEGER OPTIONAL, + b OCTET STRING OPTIONAL + } (WITH COMPONENTS {a ABSENT, b OPTIONAL} | + WITH COMPONENTS {a PRESENT, b PRESENT}) + + SeqOf1 ::= SEQUENCE OF INTEGER + SeqOf2 ::= SeqOf1 (WITH COMPONENT (0..7)) + + SegOf3 ::= SEQUENCE (SIZE (1..10)) OF id INTEGER + + Set1 ::= SET { + ... ! INTEGER:1 + } + + Set2 ::= SET { + ... ! INTEGER:1, + a INTEGER + } + + SetOf3 ::= SET (SIZE (1..10)) OF id INTEGER + +END diff --git a/lib/asn1/test/asn1_SUITE_data/EnumExt.asn1 b/lib/asn1/test/asn1_SUITE_data/EnumExt.asn1 index 74fa97e7aa..55ad5a01a1 100644 --- a/lib/asn1/test/asn1_SUITE_data/EnumExt.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/EnumExt.asn1 @@ -53,5 +53,7 @@ SeqBig ::= SEQUENCE { i INTEGER } +EnumSkip ::= ENUMERATED {a(2), ..., b, c, d, e, f} + END diff --git a/lib/asn1/test/asn1_SUITE_data/Example.asn1 b/lib/asn1/test/asn1_SUITE_data/Example.asn1 deleted file mode 100644 index 2639f63940..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/Example.asn1 +++ /dev/null @@ -1,20 +0,0 @@ -Example DEFINITIONS ::= -BEGIN - -T ::= Typ - -Typ ::= SEQUENCE { - a b, - c Typ} ---ECLASS ::= CLASS { --- &num INTEGER UNIQUE, --- &Typo --- } WITH SYNTAX { --- &Typo DETERMINED BY &num --- } - ---v1 ECLASS ::= {INTEGER DETERMINED BY 12} - ---v2 INTEGER ::= 13 - -END diff --git a/lib/asn1/test/asn1_SUITE_data/Export1.asn b/lib/asn1/test/asn1_SUITE_data/Export1.asn deleted file mode 100644 index 78ead8f4d2..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/Export1.asn +++ /dev/null @@ -1,7 +0,0 @@ -Export1 DEFINITIONS ::= -BEGIN -EXPORTS T - -T ::= Typ - -END diff --git a/lib/asn1/test/asn1_SUITE_data/Exporting.asn1 b/lib/asn1/test/asn1_SUITE_data/Exporting.asn1 new file mode 100644 index 0000000000..e4f32f6788 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/Exporting.asn1 @@ -0,0 +1,18 @@ +Exporting DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + + Seq ::= SEQUENCE { id INTEGER, f BOOLEAN } + PtSeq{T} ::= SEQUENCE { a T } + + CL ::= CLASS { + &id INTEGER UNIQUE, + &Type + } WITH SYNTAX { + ID &id TYPE &Type + } + + obj CL ::= { ID 1 TYPE OCTET STRING } + + pt-object{CL:ob} CL ::= {ID ob.&id TYPE OCTET STRING} + +END diff --git a/lib/asn1/test/asn1_SUITE_data/ExtensibilityImplied.asn1 b/lib/asn1/test/asn1_SUITE_data/ExtensibilityImplied.asn1 new file mode 100644 index 0000000000..d59b0edda5 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/ExtensibilityImplied.asn1 @@ -0,0 +1,30 @@ +ExtensibilityImplied DEFINITIONS +AUTOMATIC TAGS +EXTENSIBILITY IMPLIED +::= +BEGIN + +Enum1 ::= ENUMERATED { root, ..., ext } +Enum2 ::= ENUMERATED { root } + +Seq1 ::= SEQUENCE { + b BOOLEAN, + ..., + i INTEGER +} + +Seq2 ::= SEQUENCE { + b BOOLEAN +} + +Set1 ::= SET { + b BOOLEAN, + ..., + i INTEGER +} + +Set2 ::= SET { + b BOOLEAN +} + +END diff --git a/lib/asn1/test/asn1_SUITE_data/IllegalExport.asn1 b/lib/asn1/test/asn1_SUITE_data/IllegalExport.asn1 deleted file mode 100644 index 1b5e42ad3c..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/IllegalExport.asn1 +++ /dev/null @@ -1,7 +0,0 @@ -IllegalExport DEFINITIONS ::= -BEGIN -EXPORTS T, KalleAnka; - -T ::= INTEGER - -END diff --git a/lib/asn1/test/asn1_SUITE_data/Importing.asn1 b/lib/asn1/test/asn1_SUITE_data/Importing.asn1 new file mode 100644 index 0000000000..2f2699c576 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/Importing.asn1 @@ -0,0 +1,20 @@ +Importing DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + + Seq ::= Exporting.PtSeq{ INTEGER(0..7) } + OtherSeq ::= Exporting.Seq + + seq Exporting.Seq ::= { id 42, f TRUE } + + o1 Exporting.CL ::= { ID 2 TYPE INTEGER (0..63) } + + ObjSet Exporting.CL ::= { o1 | Exporting.obj } + + ObjSeq ::= SEQUENCE { + id Exporting.CL.&id ({ObjSet}), + type Exporting.CL.&Type ({ObjSet}{@id}) + } + + o1-cloned Exporting.CL ::= Exporting.pt-object{o1} + +END diff --git a/lib/asn1/test/asn1_SUITE_data/InfObj.asn b/lib/asn1/test/asn1_SUITE_data/InfObj.asn index 719119f418..3b88770d78 100644 --- a/lib/asn1/test/asn1_SUITE_data/InfObj.asn +++ b/lib/asn1/test/asn1_SUITE_data/InfObj.asn @@ -206,7 +206,9 @@ ConstructedDefaultSet CONSTRUCTED-DEFAULT ::= { { &id 4, &Type SET { a INTEGER, b BIT STRING } } | { &id 5, &Type CHOICE { i INTEGER, b BIT STRING } } | { &id 6, &Type SEQUENCE OF INTEGER (1..16) } | - { &id 7, &Type SET OF INTEGER (1..64) } + { &id 7, &Type SET OF INTEGER (1..64) } | + { &id 8, &Type SEQUENCE OF SEQUENCE { x INTEGER, y INTEGER } } | + { &id 9, &Type SET OF SEQUENCE { x INTEGER, y INTEGER } } } ConstructedPdu ::= SEQUENCE { @@ -288,18 +290,196 @@ OstSeq1234 ::= ObjectSetTest{ {Ost1234} } OstSeq45 ::= ObjectSetTest{ {Ost45} } OstSeq12345 ::= ObjectSetTest{ {Ost12345} } +OstSeq12Except ::= ObjectSetTest{ {Ost123 EXCEPT ost3} } +OstSeq123Except ::= ObjectSetTest{ {Ost12345 EXCEPT Ost45} } + +ExOst1 OBJECT-SET-TEST ::= { ost1, ... } ExOst12 OBJECT-SET-TEST ::= { ost1, ..., ost2 } ExOst123 OBJECT-SET-TEST ::= { ost3, ..., ExOst12 } ---ExOst1234 OBJECT-SET-TEST ::= { ExOst123, ..., ost4 } +ExOst1234 OBJECT-SET-TEST ::= { ExOst123, ..., ost4 } ExOst45 OBJECT-SET-TEST ::= { ost4, ..., ost5 } ExOst12345 OBJECT-SET-TEST ::= { ExOst123, ..., ExOst45 } +ExOstSeq1 ::= ObjectSetTest{ {ExOst1} } ExOstSeq12 ::= ObjectSetTest{ {ExOst12} } ExOstSeq123 ::= ObjectSetTest{ {ExOst123} } ---ExOstSeq1234 ::= ObjectSetTest{ {ExOst1234} } +ExOstSeq1234 ::= ObjectSetTest{ {ExOst1234} } ExOstSeq45 ::= ObjectSetTest{ {ExOst45} } ExOstSeq12345 ::= ObjectSetTest{ {ExOst12345} } -END +ExOstSeq12Except ::= ObjectSetTest{ {ExOst123 EXCEPT ost3} } +ExOstSeq123Except ::= ObjectSetTest{ {ExOst12345 EXCEPT ExOst45} } + +ExInlOst1 OBJECT-SET-TEST ::= { + { 1 IS BIT STRING }, + ... +} +ExInlOst12 OBJECT-SET-TEST ::= { + { 1 IS BIT STRING }, + ..., + { 2 IS OCTET STRING } +} + +ExInlOstSeq1 ::= ObjectSetTest{ {ExInlOst1} } +ExInlOstSeq12 ::= ObjectSetTest{ {ExInlOst12} } + +-- +-- Test that extensions in a simple class works. +-- + +ExtClassSeq ::= SEQUENCE { + arg EXT-CLASS.&id({Extend}) +} + +EXT-CLASS ::= CLASS { + &id INTEGER UNIQUE +} WITH SYNTAX { + ID &id +} + +Extend EXT-CLASS ::= { { ID alt1 } | { ID alt2 }, ... } + +alt1 INTEGER ::= 4 +alt2 INTEGER ::= 5 + + +-- +-- Test a BIT STRING which is optional in the simplified syntax. +-- + +PUBLIC-KEY ::= CLASS { + &id INTEGER UNIQUE, + &keyUsage KeyUsage OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [OPTIONAL-BIT-STRING &keyUsage] +} + +KeyUsage ::= BIT STRING { + digitalSignature (0), + nonRepudiation (1), + keyEncipherment (2) + } + +object-with-optional-bit-string PUBLIC-KEY ::= { + IDENTIFIER 42 + OPTIONAL-BIT-STRING {digitalSignature, nonRepudiation, keyEncipherment} +} + +-- Test object identifiers from objects. + +CONTAINER ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &rid RELATIVE-OID OPTIONAL, + &Type OPTIONAL +} WITH SYNTAX { + IDENTIFIED BY &id + [REL-OID &rid] + [TYPE &Type] +} + +id1 OBJECT IDENTIFIER ::= {1 2 42} +obj1 CONTAINER ::= { IDENTIFIED BY id1 REL-OID {100 101} } + +value-2 OBJECT IDENTIFIER ::= { value-1 25 } +value-1 OBJECT IDENTIFIER ::= obj1.&id +value-3 RELATIVE-OID ::= obj1.&rid +value-4 OBJECT IDENTIFIER ::= { 1 2 value-3 } + + +-- Test an obscure issue when ATTRIBUTE.&id was not +-- properly evaluated. + +Rdn ::= SingleAttribute { {SupportedAttributes} } + +ATTRIBUTE ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Type OPTIONAL +} + +SingleAttribute{ATTRIBUTE:AttrSet} ::= SEQUENCE { + type ATTRIBUTE.&id({AttrSet}), + value ATTRIBUTE.&Type({AttrSet}{@type}) +} +AttributeType ::= ATTRIBUTE.&id +SupportedAttributes ATTRIBUTE ::= { at-name } + +id-at OBJECT IDENTIFIER ::= { 2 5 4 41 } +id-at-name AttributeType ::= id-at +at-name ATTRIBUTE ::= { &Type PrintableString, &id id-at-name } + +-- +-- Test using an alias for TYPE-IDENTIFIER. +-- + +TiAliasParameterized { TI-ALIAS:InfoObjectSet } ::= SEQUENCE { + algorithm TI-ALIAS.&id({InfoObjectSet}), + parameters TI-ALIAS.&Type({InfoObjectSet} {@algorithm}) OPTIONAL +} + +TI-ALIAS ::= TYPE-IDENTIFIER + +TiAliasSeq ::= SEQUENCE { + prf TiAliasParameterized {{TiAliasSet}} +} + +TiAliasSet TI-ALIAS ::= { + {NULL IDENTIFIED BY {2 1 2}}, + ... +} + +-- +-- Test using an alias for a class. +-- + +ALIAS-CONTAINER ::= CLASS { + &id INTEGER UNIQUE, + &obj INDIRECT-CLASS +} + +INDIRECTED-CLASS ::= CLASS { + &id INTEGER UNIQUE, + &Type +} + +INDIRECT-CLASS ::= INDIRECTED-CLASS + +-- +-- Indirect ObjectClassFieldType in a SEQUENCE. +-- + +ContentInfo ::= SEQUENCE { + contentType ContentType, -- Indirect ObjectClassFieldType + content TYPE-IDENTIFIER.&Type({Contents}{@contentType}) +OPTIONAL +} + +Contents TYPE-IDENTIFIER ::= { + {IA5String IDENTIFIED BY id-content-type} +} + +ContentType ::= TYPE-IDENTIFIER.&id({Contents}) +id-content-type ContentType ::= { 2 7 8 9 } + +-- +-- Tricky parsing of simplified syntax. +-- + +TrickyType-1 ::= BIT STRING +TrickyType-2 ::= OCTET STRING + +TRICKY ::= CLASS { + &Type1, + &Type2 +} WITH SYNTAX { + TYPE &Type1 &Type2 +} + +tricky-object TRICKY ::= {TYPE TrickyType-1 TrickyType-2} + +tricky-bit-string tricky-object.&Type1 ::= '1011'B +tricky-octet-string tricky-object.&Type1 ::= 'CAFE'H + +END diff --git a/lib/asn1/test/asn1_SUITE_data/InfObjExtract.asn1 b/lib/asn1/test/asn1_SUITE_data/InfObjExtract.asn1 new file mode 100644 index 0000000000..13981b546d --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/InfObjExtract.asn1 @@ -0,0 +1,136 @@ +InfObjExtract DEFINITIONS AUTOMATIC TAGS ::= +BEGIN + +DATA-CLASS ::= CLASS { + &id INTEGER UNIQUE, + &Type +} WITH SYNTAX { + ID &id + TYPE &Type +} + +data-object-1 DATA-CLASS ::= { ID 1 TYPE BOOLEAN } +data-object-2 DATA-CLASS ::= { ID 2 TYPE OCTET STRING } +data-object-3 DATA-CLASS ::= { ID 3 TYPE BIT STRING } + +ObjSet DATA-CLASS ::= { + holder-object-1.&obj | + data-object-2 | + data-object-3, + ... +} + +OBJ-SET DATA-CLASS ::= { + holder-object-1.&obj | + data-object-2 | + data-object-3, + ... +} + +SingleElementSet DATA-CLASS ::= { + holder-object-1.&obj +} + +holder-object-1 HOLDER-CLASS ::= { + OBJ data-object-1 +} + +holder-object-2 HOLDER-CLASS ::= { + OBJ-SET {data-object-1} +} + +holder-object-3 HOLDER-CLASS ::= { + OBJ-SET {holder-object-2.&ObjSet} +} + +-- Note: References to object sets with names in all uppercase/hyphens +-- may be represented differently compared to object sets with names +-- that contain lowercase letters. CAVEAT TESTOR. + +HOLDER-OBJECTS HOLDER-CLASS ::= { holder-object-2 } +HolderObjects HOLDER-CLASS ::= { holder-object-3 } + +holder-object-4 HOLDER-CLASS ::= { + OBJ-SET { HOLDER-OBJECTS.&ObjSet } +} + +holder-object-5 HOLDER-CLASS ::= { + OBJ-SET { HolderObjects.&ObjSet } +} + +holder-object-6 HOLDER-CLASS ::= { + OBJ-SET { OBJ-SET } +} + +holder-object-7 HOLDER-CLASS ::= { + OBJ-SET { ObjSet } +} + +HOLDER-CLASS ::= CLASS { + &obj DATA-CLASS OPTIONAL, + &ObjSet DATA-CLASS OPTIONAL +} WITH SYNTAX { + [OBJ &obj] + [OBJ-SET &ObjSet] +} + +TestSeq{DATA-CLASS:ObjectSet} ::= SEQUENCE { + id DATA-CLASS.&id ({ObjectSet}), + data DATA-CLASS.&Type ({ObjectSet}{@id}) +} + +DataSeq-1 ::= TestSeq{ {ObjSet} } +DataSeq-2 ::= TestSeq{ {holder-object-3.&ObjSet} } + +DataSeq-3 ::= TestSeq{ {holder-object-4.&ObjSet} } +DataSeq-4 ::= TestSeq{ {holder-object-5.&ObjSet} } +DataSeq-5 ::= TestSeq{ {holder-object-6.&ObjSet} } +DataSeq-6 ::= TestSeq{ {holder-object-7.&ObjSet} } + +DataSeqSingleSet-1 ::= TestSeq{ {SingleElementSet} } +DataSeqSingleSet-2 ::= TestSeq{ {holder-object-1.&obj} } + +-- +-- Test ObjectSetFromObjects. +-- + +OBJ-CLASS ::= CLASS { + &id INTEGER UNIQUE, + &Data OPTIONAL, + &Obj OBJ-CLASS OPTIONAL, + &obj OBJ-CLASS OPTIONAL +} + +obj-class-obj-1 OBJ-CLASS ::= { &id 1, &Data BOOLEAN } + +obj-class-obj-2 OBJ-CLASS ::= { &id 2, &Data BOOLEAN, + &Obj {obj-class-obj-1} } + +obj-class-obj-3 OBJ-CLASS ::= { &id 3, &Data BOOLEAN, + &obj {&id 99, &Obj {obj-class-obj-1}} } + +obj-class-obj-4 OBJ-CLASS ::= { &id 4, &Data BOOLEAN, &obj obj-class-obj-2 } + +obj-class-obj-5 OBJ-CLASS ::= { &id 5, &Data BOOLEAN, + &Obj {obj-class-obj-4.&obj} } + +ObjClassSet OBJ-CLASS ::= { obj-class-obj-3.&obj.&Obj | + obj-class-obj-4.&Obj | -- Non-existing field + obj-class-obj-5.&Obj + } + +TestObjClassSeq{OBJ-CLASS:ObjectSet} ::= SEQUENCE { + id OBJ-CLASS.&id ({ObjectSet}), + data OBJ-CLASS.&Data ({ObjectSet}{@id}) +} + +ObjClassSeq-1 ::= TestObjClassSeq{{ObjClassSet}} + +-- +-- Test several levels of inlined definitions. +-- + +obj-class-obj-6 OBJ-CLASS ::= { &id 6, &Obj {{&id 100, &Data INTEGER}}, + &Data INTEGER } + +END diff --git a/lib/asn1/test/asn1_SUITE_data/MissingEnd.asn1 b/lib/asn1/test/asn1_SUITE_data/MissingEnd.asn1 deleted file mode 100644 index 66912ef693..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/MissingEnd.asn1 +++ /dev/null @@ -1,5 +0,0 @@ -MissingEnd DEFINITIONS ::= -BEGIN - -T ::= Typ - diff --git a/lib/asn1/test/asn1_SUITE_data/ObjIdValues.asn1 b/lib/asn1/test/asn1_SUITE_data/ObjIdValues.asn1 index 9368e8dceb..9193ed495c 100644 --- a/lib/asn1/test/asn1_SUITE_data/ObjIdValues.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/ObjIdValues.asn1 @@ -50,6 +50,7 @@ itu-t-o OBJECT IDENTIFIER ::= {itu-t recommendation o} itu-t-p OBJECT IDENTIFIER ::= {itu-t recommendation p} itu-t-q OBJECT IDENTIFIER ::= {itu-t recommendation q} itu-t-r OBJECT IDENTIFIER ::= {itu-t recommendation r} +itu-t-s OBJECT IDENTIFIER ::= {itu-t recommendation s} itu-t-t OBJECT IDENTIFIER ::= {itu-t recommendation t} itu-t-u OBJECT IDENTIFIER ::= {itu-t recommendation u} itu-t-v OBJECT IDENTIFIER ::= {itu-t recommendation v} diff --git a/lib/asn1/test/asn1_SUITE_data/ParamBasic.asn1 b/lib/asn1/test/asn1_SUITE_data/ParamBasic.asn1 index 68fc782f33..d203b6c816 100644 --- a/lib/asn1/test/asn1_SUITE_data/ParamBasic.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/ParamBasic.asn1 @@ -42,4 +42,37 @@ SIGNATURE-ALGORITHM ::= CLASS { KEY &id CONTAINING &Type } +alg-seq-1 AnAlgorithm ::= { algorithm 1, type 42 } +alg-seq-2 AnAlgorithm ::= { algorithm 2, type TRUE } + +-- +-- Test that indirect classes references are resolved. +-- + +AlgorithmIdentifier2 { ALGORITHM-IDENTIFIER:InfoObjectSet } ::= SEQUENCE { + algorithm ALGORITHM-IDENTIFIER.&id({InfoObjectSet}), + parameters ALGORITHM-IDENTIFIER.&Type({InfoObjectSet} {@algorithm}) OPTIONAL +} + +ALGORITHM-IDENTIFIER ::= TYPE-IDENTIFIER + +Seq ::= SEQUENCE { + c1 AlgorithmIdentifier2 {{ObjectSet-1}}, + c2 AlgorithmIdentifier2 {{ObjectSet-2}} +} + +ObjectSet-1 ALGORITHM-IDENTIFIER ::= { {INTEGER IDENTIFIED BY {2 1 1}}, ... } +ObjectSet-2 ALGORITHM-IDENTIFIER ::= { ... } + +-- Test a value that uses the instantiation of a parameterized type inline. +-- (Adapted from PKCS-5.) +-- + +algid-hmacWithSHA1 AlgorithmIdentifier2 {{ObjectSet-3}} ::= + {algorithm id-hmacWithSHA1, parameters NULL : NULL} + +ObjectSet-3 TYPE-IDENTIFIER ::= { {NULL IDENTIFIED BY id-hmacWithSHA1} } + +id-hmacWithSHA1 OBJECT IDENTIFIER ::= {2 9 9 9 7} + END diff --git a/lib/asn1/test/asn1_SUITE_data/Prim.asn1 b/lib/asn1/test/asn1_SUITE_data/Prim.asn1 index cc0e61422a..b4c011fd39 100644 --- a/lib/asn1/test/asn1_SUITE_data/Prim.asn1 +++ b/lib/asn1/test/asn1_SUITE_data/Prim.asn1 @@ -24,6 +24,8 @@ BEGIN friday(5),saturday(6),sunday(7)} SingleEnumVal ::= ENUMERATED {true} SingleEnumValExt ::= ENUMERATED {true, ...} + NegEnumVal ::= ENUMERATED {neg(-1), ..., zero(0)} + EnumVal128 ::= ENUMERATED {val(128)} ObjId ::= OBJECT IDENTIFIER diff --git a/lib/asn1/test/asn1_SUITE_data/SelectionType.asn b/lib/asn1/test/asn1_SUITE_data/SelectionType.asn index d7bfbf1788..6163f390dd 100644 --- a/lib/asn1/test/asn1_SUITE_data/SelectionType.asn +++ b/lib/asn1/test/asn1_SUITE_data/SelectionType.asn @@ -14,7 +14,7 @@ Element ::= CHOICE {bool BOOLEAN, utf UTF8String, ro RELATIVE-OID, nums NumericString, - symbol PrintableString, + symbol PrintableString, telet TeletexString, t61 T61String, video VideotexString, @@ -23,13 +23,14 @@ Element ::= CHOICE {bool BOOLEAN, generalizedTime GeneralizedTime, gs GraphicString, vs VisibleString, --- iso64 ISO646String, generalString GeneralString, univ UniversalString, cs CHARACTER STRING, bmp BMPString} -MendeleyevTable ::= SEQUENCE OF symbol < Element +MendeleyevTable ::= SEQUENCE OF symbol < Element +MendeleyevSet ::= SET OF atomic-no < Element + BoolType ::= bool < Element einsteinium symbol < Element ::= "Es" @@ -51,7 +52,6 @@ utctimev utctime < Element ::= "9805281429Z" gTime generalizedTime < Element ::= "19980528142905.1" gsv gs < Element ::= "graphic" vsv vs < Element ::= "visible" ---iso64v iso64 < Element ::= "iso" gStringv generalString < Element ::= "general" univv univ < Element ::= "Universal" bmov bmp < Element ::= "bmp" diff --git a/lib/asn1/test/asn1_SUITE_data/Seq.py b/lib/asn1/test/asn1_SUITE_data/Seq.py index f345373ab5..b68f9045a6 100644 --- a/lib/asn1/test/asn1_SUITE_data/Seq.py +++ b/lib/asn1/test/asn1_SUITE_data/Seq.py @@ -142,7 +142,10 @@ SeqImp3 ::= SET set Set1 } - +SeqCompOf ::= SEQUENCE { + ..., + COMPONENTS OF SeqS3 +} END diff --git a/lib/asn1/test/asn1_SUITE_data/SeqOptional2.asn b/lib/asn1/test/asn1_SUITE_data/SeqOptional2.asn index 7de9134096..bb85c9e418 100644 --- a/lib/asn1/test/asn1_SUITE_data/SeqOptional2.asn +++ b/lib/asn1/test/asn1_SUITE_data/SeqOptional2.asn @@ -15,10 +15,10 @@ SeqOpt1Imp ::= SEQUENCE bool1 [1] BOOLEAN OPTIONAL, int1 INTEGER, seq1 [2] SeqIn OPTIONAL, - seq2 [2] SeqIn OPTIONAL, + seq2 [3] SeqIn OPTIONAL, ..., - int2 [3] SeqIn, - int3 [3] SeqIn + int2 [4] SeqIn, + int3 [5] SeqIn } SeqOpt1Exp ::= SEQUENCE diff --git a/lib/asn1/test/asn1_SUITE_data/SequenceBadComma.asn b/lib/asn1/test/asn1_SUITE_data/SequenceBadComma.asn deleted file mode 100644 index 436815aa9b..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/SequenceBadComma.asn +++ /dev/null @@ -1,10 +0,0 @@ -SequenceBadComma DEFINITIONS IMPLICIT TAGS ::= -BEGIN -EXPORTS Person; - -Person ::= [PRIVATE 19] SEQUENCE {, - name PrintableString, - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER OPTIONAL - } -END diff --git a/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentName.asn1 b/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentName.asn1 deleted file mode 100644 index 8b2b8816db..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentName.asn1 +++ /dev/null @@ -1,10 +0,0 @@ -SequenceBadComponentName DEFINITIONS ::= -BEGIN - -T ::= Typ - -Typ ::= SEQUENCE { - a INTEGER, - C Typ} - -END diff --git a/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentType.asn1 b/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentType.asn1 deleted file mode 100644 index 0c33f48906..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/SequenceBadComponentType.asn1 +++ /dev/null @@ -1,10 +0,0 @@ -SequenceBadComponentType DEFINITIONS ::= -BEGIN - -T ::= Typ - -Typ ::= SEQUENCE { - a b, - c T} - -END diff --git a/lib/asn1/test/asn1_SUITE_data/Syntax.py b/lib/asn1/test/asn1_SUITE_data/Syntax.py deleted file mode 100644 index 867d1148e1..0000000000 --- a/lib/asn1/test/asn1_SUITE_data/Syntax.py +++ /dev/null @@ -1,10 +0,0 @@ -Syntax DEFINITIONS IMPLICIT TAGS ::= -BEGIN -EXPORTS Person; - -Person ::= [PRIVATE 19] SEQUENCE {, - name PrintableString, - location INTEGER {home(0),field(1),roving(2)}, - age INTEGER OPTIONAL - } -END diff --git a/lib/asn1/test/asn1_SUITE_data/ValueTest.asn b/lib/asn1/test/asn1_SUITE_data/ValueTest.asn index dae9ae498a..b2c59d686a 100644 --- a/lib/asn1/test/asn1_SUITE_data/ValueTest.asn +++ b/lib/asn1/test/asn1_SUITE_data/ValueTest.asn @@ -1,4 +1,4 @@ -ValueTest DEFINITIONS ::= +ValueTest DEFINITIONS AUTOMATIC TAGS ::= BEGIN @@ -23,8 +23,15 @@ vENUMERATED RadioButton ::= button1 vBS BSNNL ::= {zero,two} vNULL NULL ::= NULL vOS OCTET STRING ::= '313233'H -vOD OBJECT IDENTIFIER ::= {2 1 1} +-- OBJECT IDENTIFIER +vOD OBJECT IDENTIFIER ::= {2 1 1} +one INTEGER ::= 1 +integer-first OBJECT IDENTIFIER ::= {one 2} +rel-oid-1 RELATIVE-OID ::= {2 4 5} +include-roid OBJECT IDENTIFIER ::= {0 rel-oid-1} +include-oid OBJECT IDENTIFIER ::= {integer-first 1} +include-all OBJECT IDENTIFIER ::= {integer-first 1 rel-oid-1 42} --Character strings numericstring NumericString ::= "01234567" @@ -41,7 +48,6 @@ objectdescriptor ObjectDescriptor ::= "ObjectDescriptor" graphicstring GraphicString ::= "GraphicString" generalstring GeneralString ::= "GeneralString" bmpstring1 BMPString ::= "BMPString" ---bmpstring2 BMPString ::= [{0,0,0,66},{0,0,0,77},{0,0,0,80},{0,0,0,115},{0,0,0,116},{0,0,0,114},{0,0,0,105},{0,0,0,110},{0,0,0,103}] latinCapitalLetterA UniversalString ::= {0,0,0,65} greekCapitalLetterSigma UniversalString ::= {0,0,3,145} my-universalstring UniversalString ::= {"This is a capital A: ", @@ -50,4 +56,88 @@ my-universalstring UniversalString ::= {"This is a capital A: ", greekCapitalLetterSigma, "; try and spot the difference!"} +-- Useful parameterized SEQUENCE. +ParamSeq{Type} ::= SEQUENCE { + a Type +} + +-- Integer values. +IntegerSeq ::= ParamSeq{INTEGER} +someInteger INTEGER ::= 42 +integerSeq1 IntegerSeq ::= { a otherInteger } +otherInteger INTEGER ::= someInteger + +-- +-- Values from objects. +-- +int-from-object-1 INTEGER ::= int-holder-2.&obj.&id +int-from-object-2 INTEGER ::= int-holder-2.&id + +INT-HOLDER ::= CLASS { + &id INTEGER UNIQUE, + &obj INT-HOLDER OPTIONAL +} WITH SYNTAX { + ID &id + [OBJ &obj] +} + +int-holder-1 INT-HOLDER ::= { ID 2 } +int-holder-2 INT-HOLDER ::= { ID 4 OBJ int-holder-1 } + +II ::= INTEGER (int-from-object-1..int-from-object-2) + +-- Recursive OCTET STRING definitions. + +OS-HOLDER ::= CLASS { + &id INTEGER UNIQUE, + &os OCTET STRING +} WITH SYNTAX { + ID &id OS &os +} + +os-holder-1 OS-HOLDER ::= { ID 1 OS '4041FF'H } + +OctetStringSeq ::= ParamSeq{OCTET STRING} + +someOctetString OCTET STRING ::= '404142'H + +octetStringSeq1 OctetStringSeq ::= { a someOctetString } +octetStringSeq2 OctetStringSeq ::= { a otherOctetString } +octetStringSeq3 OctetStringSeq ::= { a os-holder-1.&os } + +otherOctetString OCTET STRING ::= someOctetString + +os-1 OCTET STRING ::= os-2 +os-2 OCTET STRING ::= os-holder-1.&os + +-- Recursive BIT STRING definitions. + +BS-HOLDER ::= CLASS { + &id INTEGER UNIQUE, + &bs BIT STRING, + &named-bs NamedBsType +} WITH SYNTAX { + ID &id BS &bs NAMED-BS &named-bs +} +bs-holder-1 BS-HOLDER ::= { ID 1 BS '101'B NAMED-BS {a,c} } + +NamedBsType ::= BIT STRING {a(0),b(1),c(2)} +BsSeq ::= SEQUENCE { + a BIT STRING, + b NamedBsType +} + +someBitString BIT STRING ::= '101101'B + +bsSeq1 BsSeq ::= { a someBitString, b someNamedBs } +bsSeq2 BsSeq ::= { a otherBitString, b someOtherNamedBs } +bsSeq3 BsSeq ::= { a bs-holder-1.&bs, b bs-holder-1.&named-bs } + +otherBitString BIT STRING ::= someBitString +bsFromObjectInd BIT STRING ::= bsFromObject +bsFromObject BIT STRING ::= bs-holder-1.&bs + +someOtherNamedBs NamedBsType ::= someNamedBs +someNamedBs NamedBsType ::= {c} + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ACSE-1.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ACSE-1.asn1 index 3f1385323a..3f1385323a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ACSE-1.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ACSE-1.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/AlgorithmInformation-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/AlgorithmInformation-2009.asn1 new file mode 100644 index 0000000000..f912966c72 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/AlgorithmInformation-2009.asn1 @@ -0,0 +1,466 @@ +AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + +DEFINITIONS EXPLICIT TAGS ::= +BEGIN +EXPORTS ALL; +IMPORTS + +KeyUsage +FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-implicit-02(59)} ; + +-- Suggested prefixes for algorithm objects are: +-- +-- mda- Message Digest Algorithms +-- sa- Signature Algorithms +-- kta- Key Transport Algorithms (Asymmetric) +-- kaa- Key Agreement Algorithms (Asymmetric) +-- kwa- Key Wrap Algorithms (Symmetric) +-- kda- Key Derivation Algorithms +-- maca- Message Authentication Code Algorithms +-- pk- Public Key +-- cea- Content (symmetric) Encryption Algorithms +-- cap- S/MIME Capabilities + +ParamOptions ::= ENUMERATED { + required, -- Parameters MUST be encoded in structure + preferredPresent, -- Parameters SHOULD be encoded in structure + preferredAbsent, -- Parameters SHOULD NOT be encoded in structure + absent, -- Parameters MUST NOT be encoded in structure + inheritable, -- Parameters are inherited if not present + optional, -- Parameters MAY be encoded in the structure + ... +} + +-- DIGEST-ALGORITHM +-- +-- Describes the basic information for ASN.1 and a digest +-- algorithm. +-- +-- &id - contains the OID identifying the digest algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- +-- Additional information such as the length of the hash could have +-- been encoded. Without a clear understanding of what information +-- is needed by applications, such extraneous information was not +-- considered to be of sufficent importance. +-- +-- Example: +-- mda-sha1 DIGEST-ALGORITHM ::= { +-- IDENTIFIER id-sha1 +-- PARAMS TYPE NULL ARE preferredAbsent +-- } + +DIGEST-ALGORITHM ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence ] +} + +-- SIGNATURE-ALGORITHM +-- +-- Describes the basic properties of a signature algorithm +-- +-- &id - contains the OID identifying the signature algorithm +-- &Value - contains a type definition for the value structure of +-- the signature; if absent, implies that no ASN.1 +-- encoding is performed on the value +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &HashSet - The set of hash algorithms used with this +-- signature algorithm +-- &PublicKeySet - the set of public key algorithms for this +-- signature algorithm +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- sig-RSA-PSS SIGNATURE-ALGORITHM ::= { +-- IDENTIFIER id-RSASSA-PSS +-- PARAMS TYPE RSASSA-PSS-params ARE required +-- HASHES { mda-sha1 | mda-md5, ... } +-- PUBLIC-KEYS { pk-rsa | pk-rsa-pss } +-- } + +SIGNATURE-ALGORITHM ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Value OPTIONAL, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &HashSet DIGEST-ALGORITHM OPTIONAL, + &PublicKeySet PUBLIC-KEY OPTIONAL, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [VALUE &Value] + [PARAMS [TYPE &Params] ARE ¶mPresence ] + [HASHES &HashSet] + [PUBLIC-KEYS &PublicKeySet] + [SMIME-CAPS &smimeCaps] +} + +-- PUBLIC-KEY +-- +-- Describes the basic properties of a public key +-- +-- &id - contains the OID identifying the public key +-- &KeyValue - contains the type for the key value +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &keyUsage - contains the set of bits that are legal for this +-- key type. Note that is does not make any statement +-- about how bits may be paired. +-- &PrivateKey - contains a type structure for encoding the private +-- key information. +-- +-- Example: +-- pk-rsa-pss PUBLIC-KEY ::= { +-- IDENTIFIER id-RSASSA-PSS +-- KEY RSAPublicKey +-- PARAMS TYPE RSASSA-PSS-params ARE optional +-- CERT-KEY-USAGE { .... } +-- } + +PUBLIC-KEY ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &KeyValue OPTIONAL, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &keyUsage KeyUsage OPTIONAL, + &PrivateKey OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [KEY &KeyValue] + [PARAMS [TYPE &Params] ARE ¶mPresence] + [CERT-KEY-USAGE &keyUsage] + [PRIVATE-KEY &PrivateKey] +} + +-- KEY-TRANSPORT +-- +-- Describes the basic properties of a key transport algorithm +-- +-- &id - contains the OID identifying the key transport algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &PublicKeySet - specifies which public keys are used with +-- this algorithm +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- kta-rsaTransport KEY-TRANSPORT ::= { +-- IDENTIFIER &id +-- PARAMS TYPE NULL ARE required +-- PUBLIC-KEYS { pk-rsa | pk-rsa-pss } +-- } + +KEY-TRANSPORT ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &PublicKeySet PUBLIC-KEY OPTIONAL, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [PUBLIC-KEYS &PublicKeySet] + [SMIME-CAPS &smimeCaps] +} + +-- KEY-AGREE +-- +-- Describes the basic properties of a key agreement algorithm +-- +-- &id - contains the OID identifying the key agreement algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &PublicKeySet - specifies which public keys are used with +-- this algorithm +-- &Ukm - type of user keying material used +-- &ukmPresence - specifies the requirements to define the UKM field +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- kaa-dh-static-ephemeral KEY-AGREE ::= { +-- IDENTIFIER id-alg-ESDH +-- PARAMS TYPE KeyWrapAlgorithm ARE required +-- PUBLIC-KEYS { +-- {IDENTIFIER dh-public-number KEY DHPublicKey +-- PARAMS TYPE DHDomainParameters ARE inheritable } +-- } +-- - - UKM should be present but is not separately ASN.1-encoded +-- UKM ARE preferredPresent +-- } + +KEY-AGREE ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &PublicKeySet PUBLIC-KEY OPTIONAL, + &Ukm OPTIONAL, + &ukmPresence ParamOptions DEFAULT absent, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [PUBLIC-KEYS &PublicKeySet] + [UKM [TYPE &Ukm] ARE &ukmPresence] + [SMIME-CAPS &smimeCaps] +} + +-- KEY-WRAP +-- +-- Describes the basic properties of a key wrap algorithm +-- +-- &id - contains the OID identifying the key wrap algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- kwa-cms3DESwrap KEY-WRAP ::= { +-- IDENTIFIER id-alg-CMS3DESwrap +-- PARAMS TYPE NULL ARE required +-- } + +KEY-WRAP ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [SMIME-CAPS &smimeCaps] +} +-- KEY-DERIVATION +-- +-- Describes the basic properties of a key derivation algorithm +-- +-- &id - contains the OID identifying the key derivation algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- kda-pbkdf2 KEY-DERIVATION ::= { +-- IDENTIFIER id-PBKDF2 +-- PARAMS TYPE PBKDF2-params ARE required +-- } + +KEY-DERIVATION ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [SMIME-CAPS &smimeCaps] +} + +-- MAC-ALGORITHM +-- +-- Describes the basic properties of a message +-- authentication code (MAC) algorithm +-- +-- &id - contains the OID identifying the MAC algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &keyed - MAC algorithm is a keyed MAC algorithm +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Some parameters that perhaps should have been added would be +-- fields with the minimum and maximum MAC lengths for +-- those MAC algorithms that allow truncations. +-- +-- Example: +-- maca-hmac-sha1 MAC-ALGORITHM ::= { +-- IDENTIFIER hMAC-SHA1 +-- PARAMS TYPE NULL ARE preferredAbsent +-- IS KEYED MAC TRUE +-- SMIME-CAPS {IDENTIFIED BY hMAC-SHA1} +-- } + +MAC-ALGORITHM ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &keyed BOOLEAN, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + IS-KEYED-MAC &keyed + [SMIME-CAPS &smimeCaps] +} + +-- CONTENT-ENCRYPTION +-- +-- Describes the basic properties of a content encryption +-- algorithm +-- +-- &id - contains the OID identifying the content +-- encryption algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- Example: +-- cea-3DES-cbc CONTENT-ENCRYPTION ::= { +-- IDENTIFIER des-ede3-cbc +-- PARAMS TYPE IV ARE required +-- SMIME-CAPS { IDENTIFIED BY des-ede3-cbc } +-- } + +CONTENT-ENCRYPTION ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [SMIME-CAPS &smimeCaps] +} + +-- ALGORITHM +-- +-- Describes a generic algorithm identifier +-- +-- &id - contains the OID identifying the algorithm +-- &Params - if present, contains the type for the algorithm +-- parameters; if absent, implies no parameters +-- ¶mPresence - parameter presence requirement +-- &smimeCaps - contains the object describing how the S/MIME +-- capabilities are presented. +-- +-- This would be used for cases where an algorithm of an unknown +-- type is used. In general however, one should either define +-- a more complete algorithm structure (such as the one above) +-- or use the TYPE-IDENTIFIER class. + +ALGORITHM ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Params OPTIONAL, + ¶mPresence ParamOptions DEFAULT absent, + &smimeCaps SMIME-CAPS OPTIONAL +} WITH SYNTAX { + IDENTIFIER &id + [PARAMS [TYPE &Params] ARE ¶mPresence] + [SMIME-CAPS &smimeCaps] +} + +-- AlgorithmIdentifier +-- +-- Provides the generic structure that is used to encode algorithm +-- identification and the parameters associated with the +-- algorithm. +-- +-- The first parameter represents the type of the algorithm being +-- used. +-- The second parameter represents an object set containing the +-- algorithms that may occur in this situation. +-- The initial list of required algorithms should occur to the +-- left of an extension marker; all other algorithms should +-- occur to the right of an extension marker. +-- +-- The object class ALGORITHM can be used for generic unspecified +-- items. +-- If new ALGORITHM classes are defined, the fields &id and &Params +-- need to be present as fields in the object in order to use +-- this parameterized type. +-- +-- Example: +-- SignatureAlgorithmIdentifier ::= +-- AlgorithmIdentifier{SIGNATURE-ALGORITHM, {SignatureAlgSet}} + +AlgorithmIdentifier{ALGORITHM-TYPE, ALGORITHM-TYPE:AlgorithmSet} ::= + SEQUENCE { + algorithm ALGORITHM-TYPE.&id({AlgorithmSet}), + parameters ALGORITHM-TYPE. + &Params({AlgorithmSet}{@algorithm}) OPTIONAL + } + +-- S/MIME Capabilities +-- +-- We have moved the SMIME-CAPS from the module for RFC 3851 to here +-- because it is used in RFC 4262 (X.509 Certificate Extension for +-- S/MIME Capabilities) +-- +-- +-- This class is used to represent an S/MIME capability. S/MIME +-- capabilities are used to represent what algorithm capabilities +-- an individual has. The classic example was the content encryption +-- algorithm RC2 where the algorithm id and the RC2 key lengths +-- supported needed to be advertised, but the IV used is not fixed. +-- Thus, for RC2 we used +-- +-- cap-RC2CBC SMIME-CAPS ::= { +-- TYPE INTEGER ( 40 | 128 ) IDENTIFIED BY rc2-cbc } +-- +-- where 40 and 128 represent the RC2 key length in number of bits. +-- +-- Another example where information needs to be shown is for +-- RSA-OAEP where only specific hash functions or mask generation +-- functions are supported, but the saltLength is specified by the +-- sender and not the recipient. In this case, one can either +-- generate a number of capability items, +-- or a new S/MIME capability type could be generated where +-- multiple hash functions could be specified. +-- +-- +-- SMIME-CAP +-- +-- This class is used to associate the type that describes the +-- capabilities with the object identifier. +-- + +SMIME-CAPS ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Type OPTIONAL +} +WITH SYNTAX { [TYPE &Type] IDENTIFIED BY &id } + +-- +-- Generic type - this is used for defining values. +-- + +-- Define a single S/MIME capability encoding + +SMIMECapability{SMIME-CAPS:CapabilitySet} ::= SEQUENCE { + capabilityID SMIME-CAPS.&id({CapabilitySet}), + parameters SMIME-CAPS.&Type({CapabilitySet} + {@capabilityID}) OPTIONAL +} + +-- Define a sequence of S/MIME capability values + +SMIMECapabilities { SMIME-CAPS:CapabilitySet } ::= + SEQUENCE SIZE (1..MAX) OF SMIMECapability{{CapabilitySet} } + +END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/AttributeCertificateVersion1-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/AttributeCertificateVersion1-2009.asn1 new file mode 100644 index 0000000000..46b431af40 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/AttributeCertificateVersion1-2009.asn1 @@ -0,0 +1,59 @@ + AttributeCertificateVersion1-2009 + {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-v1AttrCert-02(49)} + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + IMPORTS + + SIGNATURE-ALGORITHM, ALGORITHM, AlgorithmIdentifier{} + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + AttributeSet{}, Extensions{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57) } + + CertificateSerialNumber, UniqueIdentifier, SIGNED{} + FROM PKIX1Explicit-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51) } + + GeneralNames + FROM PKIX1Implicit-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59) } + + AttCertValidityPeriod, IssuerSerial + FROM PKIXAttributeCertificate-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-attribute-cert-02(47) } ; + + -- Definition extracted from X.509-1997 [X.509-97], but + -- different type names are used to avoid collisions. + + AttributeCertificateV1 ::= SIGNED{AttributeCertificateInfoV1} + + AttributeCertificateInfoV1 ::= SEQUENCE { + version AttCertVersionV1 DEFAULT v1, + subject CHOICE { + baseCertificateID [0] IssuerSerial, + -- associated with a Public Key Certificate + subjectName [1] GeneralNames }, + -- associated with a name + issuer GeneralNames, + signature AlgorithmIdentifier{SIGNATURE-ALGORITHM, {...}}, + serialNumber CertificateSerialNumber, + attCertValidityPeriod AttCertValidityPeriod, + attributes SEQUENCE OF AttributeSet{{AttrList}}, + issuerUniqueID UniqueIdentifier OPTIONAL, + extensions Extensions{{AttributeCertExtensionsV1}} OPTIONAL } + + AttCertVersionV1 ::= INTEGER { v1(0) } + + AttrList ATTRIBUTE ::= {...} + AttributeCertExtensionsV1 EXTENSION ::= {...} + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/AuthenticationFramework.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/AuthenticationFramework.asn1 index 5cfa9062f0..5cfa9062f0 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/AuthenticationFramework.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/AuthenticationFramework.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/BasicAccessControl.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/BasicAccessControl.asn1 index d8b2b687ae..d8b2b687ae 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/BasicAccessControl.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/BasicAccessControl.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/CertificateExtensions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/CertificateExtensions.asn1 index 0daf2208e9..0daf2208e9 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/CertificateExtensions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/CertificateExtensions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Character-Coding-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Coding-Attributes.asn1 index 04060cf060..04060cf060 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Character-Coding-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Coding-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Character-Presentation-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Presentation-Attributes.asn1 index aed48ac26b..aed48ac26b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Character-Presentation-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Presentation-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Character-Profile-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Profile-Attributes.asn1 index 7ba5bf194a..7ba5bf194a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Character-Profile-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Character-Profile-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Colour-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Colour-Attributes.asn1 index 24c7fafc38..24c7fafc38 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Colour-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Colour-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntax-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntax-2009.asn1 new file mode 100644 index 0000000000..3e350294be --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntax-2009.asn1 @@ -0,0 +1,463 @@ + CryptographicMessageSyntax-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-9(9) smime(16) modules(0) id-mod-cms-2004-02(41) } + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + ParamOptions, DIGEST-ALGORITHM, SIGNATURE-ALGORITHM, + PUBLIC-KEY, KEY-DERIVATION, KEY-WRAP, MAC-ALGORITHM, + KEY-AGREE, KEY-TRANSPORT, CONTENT-ENCRYPTION, ALGORITHM, + AlgorithmIdentifier + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + SignatureAlgs, MessageDigestAlgs, KeyAgreementAlgs, + MessageAuthAlgs, KeyWrapAlgs, ContentEncryptionAlgs, + KeyTransportAlgs, KeyDerivationAlgs, KeyAgreePublicKeys + FROM CryptographicMessageSyntaxAlgorithms-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cmsalg-2001-02(37) } + + Certificate, CertificateList, CertificateSerialNumber, + Name, ATTRIBUTE + FROM PKIX1Explicit-2009 + { iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-explicit-02(51) } + + AttributeCertificate + FROM PKIXAttributeCertificate-2009 + { iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-attribute-cert-02(47) } + + AttributeCertificateV1 + FROM AttributeCertificateVersion1-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-v1AttrCert-02(49) } ; + + -- Cryptographic Message Syntax + + -- The following are used for version numbers using the ASN.1 + -- idiom "[[n:" + -- Version 1 = PKCS #7 + -- Version 2 = S/MIME V2 + -- Version 3 = RFC 2630 + -- Version 4 = RFC 3369 + -- Version 5 = RFC 3852 + + CONTENT-TYPE ::= TYPE-IDENTIFIER + ContentType ::= CONTENT-TYPE.&id + + ContentInfo ::= SEQUENCE { + contentType CONTENT-TYPE. + &id({ContentSet}), + content [0] EXPLICIT CONTENT-TYPE. + &Type({ContentSet}{@contentType})} + + ContentSet CONTENT-TYPE ::= { + -- Define the set of content types to be recognized. + ct-Data | ct-SignedData | ct-EncryptedData | ct-EnvelopedData | + ct-AuthenticatedData | ct-DigestedData, ... } + + SignedData ::= SEQUENCE { + version CMSVersion, + digestAlgorithms SET OF DigestAlgorithmIdentifier, + encapContentInfo EncapsulatedContentInfo, + certificates [0] IMPLICIT CertificateSet OPTIONAL, + crls [1] IMPLICIT RevocationInfoChoices OPTIONAL, + signerInfos SignerInfos } + + SignerInfos ::= SET OF SignerInfo + + EncapsulatedContentInfo ::= SEQUENCE { + eContentType CONTENT-TYPE.&id({ContentSet}), + eContent [0] EXPLICIT OCTET STRING + ( CONTAINING CONTENT-TYPE. + &Type({ContentSet}{@eContentType})) OPTIONAL } + + SignerInfo ::= SEQUENCE { + version CMSVersion, + sid SignerIdentifier, + digestAlgorithm DigestAlgorithmIdentifier, + signedAttrs [0] IMPLICIT SignedAttributes OPTIONAL, + signatureAlgorithm SignatureAlgorithmIdentifier, + signature SignatureValue, + unsignedAttrs [1] IMPLICIT Attributes + {{UnsignedAttributes}} OPTIONAL } + + SignedAttributes ::= Attributes {{ SignedAttributesSet }} + + SignerIdentifier ::= CHOICE { + issuerAndSerialNumber IssuerAndSerialNumber, + ..., + [[3: subjectKeyIdentifier [0] SubjectKeyIdentifier ]] } + + SignedAttributesSet ATTRIBUTE ::= + { aa-signingTime | aa-messageDigest | aa-contentType, ... } + + UnsignedAttributes ATTRIBUTE ::= { aa-countersignature, ... } + + SignatureValue ::= OCTET STRING + + EnvelopedData ::= SEQUENCE { + version CMSVersion, + originatorInfo [0] IMPLICIT OriginatorInfo OPTIONAL, + recipientInfos RecipientInfos, + encryptedContentInfo EncryptedContentInfo, + ..., + [[2: unprotectedAttrs [1] IMPLICIT Attributes + {{ UnprotectedAttributes }} OPTIONAL ]] } + + OriginatorInfo ::= SEQUENCE { + certs [0] IMPLICIT CertificateSet OPTIONAL, + crls [1] IMPLICIT RevocationInfoChoices OPTIONAL } + + RecipientInfos ::= SET SIZE (1..MAX) OF RecipientInfo + + EncryptedContentInfo ::= SEQUENCE { + contentType CONTENT-TYPE.&id({ContentSet}), + contentEncryptionAlgorithm ContentEncryptionAlgorithmIdentifier, + encryptedContent [0] IMPLICIT OCTET STRING OPTIONAL } + + -- If you want to do constraints, you might use: + -- EncryptedContentInfo ::= SEQUENCE { + -- contentType CONTENT-TYPE.&id({ContentSet}), + -- contentEncryptionAlgorithm ContentEncryptionAlgorithmIdentifier, + -- encryptedContent [0] IMPLICIT ENCRYPTED {CONTENT-TYPE. + -- &Type({ContentSet}{@contentType}) OPTIONAL } + -- ENCRYPTED {ToBeEncrypted} ::= OCTET STRING ( CONSTRAINED BY + -- { ToBeEncrypted } ) + + UnprotectedAttributes ATTRIBUTE ::= { ... } + + RecipientInfo ::= CHOICE { + ktri KeyTransRecipientInfo, + ..., + [[3: kari [1] KeyAgreeRecipientInfo ]], + [[4: kekri [2] KEKRecipientInfo]], + [[5: pwri [3] PasswordRecipientInfo, + ori [4] OtherRecipientInfo ]] } + + EncryptedKey ::= OCTET STRING + + KeyTransRecipientInfo ::= SEQUENCE { + version CMSVersion, -- always set to 0 or 2 + rid RecipientIdentifier, + keyEncryptionAlgorithm AlgorithmIdentifier + {KEY-TRANSPORT, {KeyTransportAlgorithmSet}}, + encryptedKey EncryptedKey } + + KeyTransportAlgorithmSet KEY-TRANSPORT ::= { KeyTransportAlgs, ... } + + RecipientIdentifier ::= CHOICE { + issuerAndSerialNumber IssuerAndSerialNumber, + ..., + [[2: subjectKeyIdentifier [0] SubjectKeyIdentifier ]] } + KeyAgreeRecipientInfo ::= SEQUENCE { + version CMSVersion, -- always set to 3 + originator [0] EXPLICIT OriginatorIdentifierOrKey, + ukm [1] EXPLICIT UserKeyingMaterial OPTIONAL, + keyEncryptionAlgorithm AlgorithmIdentifier + {KEY-AGREE, {KeyAgreementAlgorithmSet}}, + recipientEncryptedKeys RecipientEncryptedKeys } + + KeyAgreementAlgorithmSet KEY-AGREE ::= { KeyAgreementAlgs, ... } + + OriginatorIdentifierOrKey ::= CHOICE { + issuerAndSerialNumber IssuerAndSerialNumber, + subjectKeyIdentifier [0] SubjectKeyIdentifier, + originatorKey [1] OriginatorPublicKey } + + OriginatorPublicKey ::= SEQUENCE { + algorithm AlgorithmIdentifier {PUBLIC-KEY, {OriginatorKeySet}}, + publicKey BIT STRING } + + OriginatorKeySet PUBLIC-KEY ::= { KeyAgreePublicKeys, ... } + + RecipientEncryptedKeys ::= SEQUENCE OF RecipientEncryptedKey + + RecipientEncryptedKey ::= SEQUENCE { + rid KeyAgreeRecipientIdentifier, + encryptedKey EncryptedKey } + + KeyAgreeRecipientIdentifier ::= CHOICE { + issuerAndSerialNumber IssuerAndSerialNumber, + rKeyId [0] IMPLICIT RecipientKeyIdentifier } + + RecipientKeyIdentifier ::= SEQUENCE { + subjectKeyIdentifier SubjectKeyIdentifier, + date GeneralizedTime OPTIONAL, + other OtherKeyAttribute OPTIONAL } + + SubjectKeyIdentifier ::= OCTET STRING + + KEKRecipientInfo ::= SEQUENCE { + version CMSVersion, -- always set to 4 + kekid KEKIdentifier, + keyEncryptionAlgorithm KeyEncryptionAlgorithmIdentifier, + encryptedKey EncryptedKey } + + KEKIdentifier ::= SEQUENCE { + keyIdentifier OCTET STRING, + date GeneralizedTime OPTIONAL, + other OtherKeyAttribute OPTIONAL } + PasswordRecipientInfo ::= SEQUENCE { + version CMSVersion, -- always set to 0 + keyDerivationAlgorithm [0] KeyDerivationAlgorithmIdentifier + OPTIONAL, + keyEncryptionAlgorithm KeyEncryptionAlgorithmIdentifier, + encryptedKey EncryptedKey } + + OTHER-RECIPIENT ::= TYPE-IDENTIFIER + + OtherRecipientInfo ::= SEQUENCE { + oriType OTHER-RECIPIENT. + &id({SupportedOtherRecipInfo}), + oriValue OTHER-RECIPIENT. + &Type({SupportedOtherRecipInfo}{@oriType})} + + SupportedOtherRecipInfo OTHER-RECIPIENT ::= { ... } + + DigestedData ::= SEQUENCE { + version CMSVersion, + digestAlgorithm DigestAlgorithmIdentifier, + encapContentInfo EncapsulatedContentInfo, + digest Digest, ... } + + Digest ::= OCTET STRING + + EncryptedData ::= SEQUENCE { + version CMSVersion, + encryptedContentInfo EncryptedContentInfo, + ..., + [[2: unprotectedAttrs [1] IMPLICIT Attributes + {{UnprotectedAttributes}} OPTIONAL ]] } + + AuthenticatedData ::= SEQUENCE { + version CMSVersion, + originatorInfo [0] IMPLICIT OriginatorInfo OPTIONAL, + recipientInfos RecipientInfos, + macAlgorithm MessageAuthenticationCodeAlgorithm, + digestAlgorithm [1] DigestAlgorithmIdentifier OPTIONAL, + encapContentInfo EncapsulatedContentInfo, + authAttrs [2] IMPLICIT AuthAttributes OPTIONAL, + mac MessageAuthenticationCode, + unauthAttrs [3] IMPLICIT UnauthAttributes OPTIONAL } + + AuthAttributes ::= SET SIZE (1..MAX) OF Attribute + {{AuthAttributeSet}} + + AuthAttributeSet ATTRIBUTE ::= { aa-contentType | aa-messageDigest + | aa-signingTime, ...} + MessageAuthenticationCode ::= OCTET STRING + + UnauthAttributes ::= SET SIZE (1..MAX) OF Attribute + {{UnauthAttributeSet}} + + UnauthAttributeSet ATTRIBUTE ::= {...} + + -- + -- General algorithm definitions + -- + + DigestAlgorithmIdentifier ::= AlgorithmIdentifier + {DIGEST-ALGORITHM, {DigestAlgorithmSet}} + + DigestAlgorithmSet DIGEST-ALGORITHM ::= { + CryptographicMessageSyntaxAlgorithms-2009.MessageDigestAlgs, ... } + + SignatureAlgorithmIdentifier ::= AlgorithmIdentifier + {SIGNATURE-ALGORITHM, {SignatureAlgorithmSet}} + + SignatureAlgorithmSet SIGNATURE-ALGORITHM ::= + { SignatureAlgs, ... } + + KeyEncryptionAlgorithmIdentifier ::= AlgorithmIdentifier + {KEY-WRAP, {KeyEncryptionAlgorithmSet}} + + KeyEncryptionAlgorithmSet KEY-WRAP ::= { KeyWrapAlgs, ... } + + ContentEncryptionAlgorithmIdentifier ::= AlgorithmIdentifier + {CONTENT-ENCRYPTION, {ContentEncryptionAlgorithmSet}} + + ContentEncryptionAlgorithmSet CONTENT-ENCRYPTION ::= + { ContentEncryptionAlgs, ... } + + MessageAuthenticationCodeAlgorithm ::= AlgorithmIdentifier + {MAC-ALGORITHM, {MessageAuthenticationCodeAlgorithmSet}} + + MessageAuthenticationCodeAlgorithmSet MAC-ALGORITHM ::= + { MessageAuthAlgs, ... } + + KeyDerivationAlgorithmIdentifier ::= AlgorithmIdentifier + {KEY-DERIVATION, {KeyDerivationAlgs, ...}} + + RevocationInfoChoices ::= SET OF RevocationInfoChoice + + RevocationInfoChoice ::= CHOICE { + crl CertificateList, + ..., + [[5: other [1] IMPLICIT OtherRevocationInfoFormat ]] } + + OTHER-REVOK-INFO ::= TYPE-IDENTIFIER + + OtherRevocationInfoFormat ::= SEQUENCE { + otherRevInfoFormat OTHER-REVOK-INFO. + &id({SupportedOtherRevokInfo}), + otherRevInfo OTHER-REVOK-INFO. + &Type({SupportedOtherRevokInfo}{@otherRevInfoFormat})} + + SupportedOtherRevokInfo OTHER-REVOK-INFO ::= { ... } + + CertificateChoices ::= CHOICE { + certificate Certificate, + extendedCertificate [0] IMPLICIT ExtendedCertificate, + -- Obsolete + ..., + [[3: v1AttrCert [1] IMPLICIT AttributeCertificateV1]], + -- Obsolete + [[4: v2AttrCert [2] IMPLICIT AttributeCertificateV2]], + [[5: other [3] IMPLICIT OtherCertificateFormat]] } + + AttributeCertificateV2 ::= AttributeCertificate + + OTHER-CERT-FMT ::= TYPE-IDENTIFIER + + OtherCertificateFormat ::= SEQUENCE { + otherCertFormat OTHER-CERT-FMT. + &id({SupportedCertFormats}), + otherCert OTHER-CERT-FMT. + &Type({SupportedCertFormats}{@otherCertFormat})} + + SupportedCertFormats OTHER-CERT-FMT ::= { ... } + + CertificateSet ::= SET OF CertificateChoices + + IssuerAndSerialNumber ::= SEQUENCE { + issuer Name, + serialNumber CertificateSerialNumber } + + CMSVersion ::= INTEGER { v0(0), v1(1), v2(2), v3(3), v4(4), v5(5) } + + UserKeyingMaterial ::= OCTET STRING + + KEY-ATTRIBUTE ::= TYPE-IDENTIFIER + + OtherKeyAttribute ::= SEQUENCE { + keyAttrId KEY-ATTRIBUTE. + + &id({SupportedKeyAttributes}), + keyAttr KEY-ATTRIBUTE. + &Type({SupportedKeyAttributes}{@keyAttrId})} + + SupportedKeyAttributes KEY-ATTRIBUTE ::= { ... } + + -- Content Type Object Identifiers + + id-ct-contentInfo OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) smime(16) ct(1) 6 } + + ct-Data CONTENT-TYPE ::= {OCTET STRING IDENTIFIED BY id-data} + + id-data OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs7(7) 1 } + + ct-SignedData CONTENT-TYPE ::= + { SignedData IDENTIFIED BY id-signedData} + + id-signedData OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs7(7) 2 } + + ct-EnvelopedData CONTENT-TYPE ::= + { EnvelopedData IDENTIFIED BY id-envelopedData} + + id-envelopedData OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs7(7) 3 } + + ct-DigestedData CONTENT-TYPE ::= + { DigestedData IDENTIFIED BY id-digestedData} + + id-digestedData OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs7(7) 5 } + + ct-EncryptedData CONTENT-TYPE ::= + { EncryptedData IDENTIFIED BY id-encryptedData} + + id-encryptedData OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs7(7) 6 } + + ct-AuthenticatedData CONTENT-TYPE ::= + { AuthenticatedData IDENTIFIED BY id-ct-authData} + + id-ct-authData OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) ct(1) 2 } + + -- + -- The CMS Attributes + -- + + MessageDigest ::= OCTET STRING + + SigningTime ::= Time + + Time ::= CHOICE { + utcTime UTCTime, + generalTime GeneralizedTime } + + Countersignature ::= SignerInfo + + -- Attribute Object Identifiers + + aa-contentType ATTRIBUTE ::= + { TYPE ContentType IDENTIFIED BY id-contentType } + id-contentType OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 3 } + + aa-messageDigest ATTRIBUTE ::= + { TYPE MessageDigest IDENTIFIED BY id-messageDigest} + id-messageDigest OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 4 } + + aa-signingTime ATTRIBUTE ::= + { TYPE SigningTime IDENTIFIED BY id-signingTime } + id-signingTime OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 5 } + + aa-countersignature ATTRIBUTE ::= + { TYPE Countersignature IDENTIFIED BY id-countersignature } + id-countersignature OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 6 } + + -- + -- Obsolete Extended Certificate syntax from PKCS#6 + -- + + ExtendedCertificateOrCertificate ::= CHOICE { + certificate Certificate, + extendedCertificate [0] IMPLICIT ExtendedCertificate } + + ExtendedCertificate ::= SEQUENCE { + extendedCertificateInfo ExtendedCertificateInfo, + signatureAlgorithm SignatureAlgorithmIdentifier, + signature Signature } + + ExtendedCertificateInfo ::= SEQUENCE { + version CMSVersion, + certificate Certificate, + attributes UnauthAttributes } + + Signature ::= BIT STRING + + Attribute{ ATTRIBUTE:AttrList } ::= SEQUENCE { + attrType ATTRIBUTE. + &id({AttrList}), + attrValues SET OF ATTRIBUTE. + &Type({AttrList}{@attrType}) } + + Attributes { ATTRIBUTE:AttrList } ::= + SET SIZE (1..MAX) OF Attribute {{ AttrList }} + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntaxAlgorithms-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntaxAlgorithms-2009.asn1 new file mode 100644 index 0000000000..72e8b270db --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/CryptographicMessageSyntaxAlgorithms-2009.asn1 @@ -0,0 +1,248 @@ + CryptographicMessageSyntaxAlgorithms-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cmsalg-2001-02(37) } + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + ParamOptions, DIGEST-ALGORITHM, SIGNATURE-ALGORITHM, + PUBLIC-KEY, KEY-DERIVATION, KEY-WRAP, MAC-ALGORITHM, + KEY-AGREE, KEY-TRANSPORT, CONTENT-ENCRYPTION, ALGORITHM, + AlgorithmIdentifier{}, SMIME-CAPS + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + pk-rsa, pk-dh, pk-dsa, rsaEncryption, DHPublicKey, dhpublicnumber + FROM PKIXAlgs-2009 + {iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56)} + + cap-RC2CBC + FROM SecureMimeMessageV3dot1-2009 + {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-msg-v3dot1-02(39)}; + + -- 2. Hash algorithms in this document + + MessageDigestAlgs DIGEST-ALGORITHM ::= { + -- mda-md5 | mda-sha1, + ... } + + -- 3. Signature algorithms in this document + + SignatureAlgs SIGNATURE-ALGORITHM ::= { + -- See RFC 3279 + -- sa-dsaWithSHA1 | sa-rsaWithMD5 | sa-rsaWithSHA1, + ... } + + -- 4. Key Management Algorithms + -- 4.1 Key Agreement Algorithms + + KeyAgreementAlgs KEY-AGREE ::= { kaa-esdh | kaa-ssdh, ...} + KeyAgreePublicKeys PUBLIC-KEY ::= { pk-dh, ...} + + -- 4.2 Key Transport Algorithms + + KeyTransportAlgs KEY-TRANSPORT ::= { kt-rsa, ... } + + -- 4.3 Symmetric Key-Encryption Key Algorithms + + KeyWrapAlgs KEY-WRAP ::= { kwa-3DESWrap | kwa-RC2Wrap, ... } + + -- 4.4 Key Derivation Algorithms + + KeyDerivationAlgs KEY-DERIVATION ::= { kda-PBKDF2, ... } + + -- 5. Content Encryption Algorithms + + ContentEncryptionAlgs CONTENT-ENCRYPTION ::= + { cea-3DES-cbc | cea-RC2-cbc, ... } + + -- 6. Message Authentication Code Algorithms + + MessageAuthAlgs MAC-ALGORITHM ::= { maca-hMAC-SHA1, ... } + + -- S/MIME Capabilities for these items + + SMimeCaps SMIME-CAPS ::= { + kaa-esdh.&smimeCaps | + kaa-ssdh.&smimeCaps | + kt-rsa.&smimeCaps | + kwa-3DESWrap.&smimeCaps | + kwa-RC2Wrap.&smimeCaps | + cea-3DES-cbc.&smimeCaps | + cea-RC2-cbc.&smimeCaps | + maca-hMAC-SHA1.&smimeCaps, + ...} + + -- + -- + -- + + -- Algorithm Identifiers + + -- rsaEncryption OBJECT IDENTIFIER ::= { iso(1) member-body(2) + -- us(840) rsadsi(113549) pkcs(1) pkcs-1(1) 1 } + + id-alg-ESDH OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) alg(3) 5 } + + id-alg-SSDH OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) alg(3) 10 } + + id-alg-CMS3DESwrap OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) alg(3) 6 } + + id-alg-CMSRC2wrap OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) alg(3) 7 } + + des-ede3-cbc OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) encryptionAlgorithm(3) 7 } + + rc2-cbc OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) + rsadsi(113549) encryptionAlgorithm(3) 2 } + + hMAC-SHA1 OBJECT IDENTIFIER ::= { iso(1) identified-organization(3) + dod(6) internet(1) security(5) mechanisms(5) 8 1 2 } + + id-PBKDF2 OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-5(5) 12 } + + -- Algorithm Identifier Parameter Types + + KeyWrapAlgorithm ::= + AlgorithmIdentifier {KEY-WRAP, {KeyWrapAlgs }} + + RC2wrapParameter ::= RC2ParameterVersion + RC2ParameterVersion ::= INTEGER + + CBCParameter ::= IV + + IV ::= OCTET STRING -- exactly 8 octets + + RC2CBCParameter ::= SEQUENCE { + rc2ParameterVersion INTEGER (1..256), + iv OCTET STRING } -- exactly 8 octets + + maca-hMAC-SHA1 MAC-ALGORITHM ::= { + IDENTIFIER hMAC-SHA1 + PARAMS TYPE NULL ARE preferredAbsent + IS-KEYED-MAC TRUE + SMIME-CAPS {IDENTIFIED BY hMAC-SHA1} + } + + PBKDF2-PRFsAlgorithmIdentifier ::= AlgorithmIdentifier{ ALGORITHM, + {PBKDF2-PRFs} } + + alg-hMAC-SHA1 ALGORITHM ::= + { IDENTIFIER hMAC-SHA1 PARAMS TYPE NULL ARE required } + + PBKDF2-PRFs ALGORITHM ::= { alg-hMAC-SHA1, ... } + + PBKDF2-SaltSources ALGORITHM ::= { ... } + + PBKDF2-SaltSourcesAlgorithmIdentifier ::= + AlgorithmIdentifier {ALGORITHM, {PBKDF2-SaltSources}} + + defaultPBKDF2 PBKDF2-PRFsAlgorithmIdentifier ::= + { algorithm alg-hMAC-SHA1.&id, parameters NULL:NULL } + + PBKDF2-params ::= SEQUENCE { + salt CHOICE { + specified OCTET STRING, + otherSource PBKDF2-SaltSourcesAlgorithmIdentifier }, + iterationCount INTEGER (1..MAX), + keyLength INTEGER (1..MAX) OPTIONAL, + prf PBKDF2-PRFsAlgorithmIdentifier DEFAULT + defaultPBKDF2 + } + + -- + -- This object is included for completeness. It should not be used + -- for encoding of signatures, but was sometimes used in older + -- versions of CMS for encoding of RSA signatures. + -- + -- + -- sa-rsa SIGNATURE-ALGORITHM ::= { + -- IDENTIFIER rsaEncryption + -- - - value is not ASN.1 encoded + -- PARAMS TYPE NULL ARE required + -- HASHES {mda-sha1 | mda-md5, ...} + -- PUBLIC-KEYS { pk-rsa} + -- } + -- + -- No ASN.1 encoding is applied to the signature value + -- for these items + + kaa-esdh KEY-AGREE ::= { + IDENTIFIER id-alg-ESDH + PARAMS TYPE KeyWrapAlgorithm ARE required + PUBLIC-KEYS { pk-dh } + -- UKM is not ASN.1 encoded + UKM ARE optional + SMIME-CAPS {TYPE KeyWrapAlgorithm IDENTIFIED BY id-alg-ESDH} + } + + kaa-ssdh KEY-AGREE ::= { + IDENTIFIER id-alg-SSDH + PARAMS TYPE KeyWrapAlgorithm ARE required + PUBLIC-KEYS {pk-dh} + -- UKM is not ASN.1 encoded + UKM ARE optional + SMIME-CAPS {TYPE KeyWrapAlgorithm IDENTIFIED BY id-alg-SSDH} + } + + dh-public-number OBJECT IDENTIFIER ::= dhpublicnumber + + pk-originator-dh PUBLIC-KEY ::= { + IDENTIFIER dh-public-number + KEY DHPublicKey + PARAMS ARE absent + CERT-KEY-USAGE {keyAgreement, encipherOnly, decipherOnly} + } + + kwa-3DESWrap KEY-WRAP ::= { + IDENTIFIER id-alg-CMS3DESwrap + PARAMS TYPE NULL ARE required + SMIME-CAPS {IDENTIFIED BY id-alg-CMS3DESwrap} + } + + kwa-RC2Wrap KEY-WRAP ::= { + IDENTIFIER id-alg-CMSRC2wrap + PARAMS TYPE RC2wrapParameter ARE required + SMIME-CAPS { IDENTIFIED BY id-alg-CMSRC2wrap } + } + + kda-PBKDF2 KEY-DERIVATION ::= { + IDENTIFIER id-PBKDF2 + PARAMS TYPE PBKDF2-params ARE required + -- No S/MIME caps defined + } + + cea-3DES-cbc CONTENT-ENCRYPTION ::= { + IDENTIFIER des-ede3-cbc + PARAMS TYPE IV ARE required + SMIME-CAPS { IDENTIFIED BY des-ede3-cbc } + } + + cea-RC2-cbc CONTENT-ENCRYPTION ::= { + IDENTIFIER rc2-cbc + PARAMS TYPE RC2CBCParameter ARE required + SMIME-CAPS cap-RC2CBC + } + + kt-rsa KEY-TRANSPORT ::= { + IDENTIFIER rsaEncryption + PARAMS TYPE NULL ARE required + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS {IDENTIFIED BY rsaEncryption} + } + + -- S/MIME Capabilities - most have no label. + + cap-3DESwrap SMIME-CAPS ::= { IDENTIFIED BY id-alg-CMS3DESwrap } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DOR-definition.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DOR-definition.asn1 index cd3330dc56..cd3330dc56 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DOR-definition.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DOR-definition.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DSAOperationalAttributeTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DSAOperationalAttributeTypes.asn1 index df5e8489ea..df5e8489ea 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DSAOperationalAttributeTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DSAOperationalAttributeTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Default-Value-Lists.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Default-Value-Lists.asn1 index ef1187ba8c..ef1187ba8c 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Default-Value-Lists.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Default-Value-Lists.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryAbstractService.asn1 index 5a5d310729..5a5d310729 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryAccessProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryAccessProtocol.asn1 index 10d6979f6d..10d6979f6d 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryAccessProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryAccessProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryInformationShadowProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryInformationShadowProtocol.asn1 index 91c0a865f7..91c0a865f7 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryInformationShadowProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryInformationShadowProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryOperationalBindingManagementProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryOperationalBindingManagementProtocol.asn1 index e3e1f95621..e3e1f95621 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryOperationalBindingManagementProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryOperationalBindingManagementProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryOperationalBindingTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryOperationalBindingTypes.asn1 index 9df5d2783a..9df5d2783a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryOperationalBindingTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryOperationalBindingTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryProtectionMappings.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryProtectionMappings.asn1 index 37c6cac261..37c6cac261 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryProtectionMappings.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryProtectionMappings.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryShadowAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryShadowAbstractService.asn1 index acbb692b6f..acbb692b6f 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectoryShadowAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectoryShadowAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DirectorySystemProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectorySystemProtocol.asn1 index cace79d109..cace79d109 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DirectorySystemProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DirectorySystemProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/DistributedOperations.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/DistributedOperations.asn1 index 72e791f10c..72e791f10c 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/DistributedOperations.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/DistributedOperations.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Document-Profile-Descriptor.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Document-Profile-Descriptor.asn1 index d8c15b7afa..d8c15b7afa 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Document-Profile-Descriptor.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Document-Profile-Descriptor.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/EnhancedSecurity.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/EnhancedSecurity.asn1 index 9991a59454..9991a59454 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/EnhancedSecurity.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/EnhancedSecurity.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/EnrollmentMessageSyntax-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/EnrollmentMessageSyntax-2009.asn1 new file mode 100644 index 0000000000..17a45a0a6b --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/EnrollmentMessageSyntax-2009.asn1 @@ -0,0 +1,543 @@ + EnrollmentMessageSyntax-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) id-mod-cmc2002-02(53)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + EXPORTS ALL; + IMPORTS + + AttributeSet{}, Extension{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + AlgorithmIdentifier{}, DIGEST-ALGORITHM, KEY-WRAP, KEY-DERIVATION, + MAC-ALGORITHM, SIGNATURE-ALGORITHM, PUBLIC-KEY + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + CertificateSerialNumber, GeneralName, CRLReason, ReasonFlags, + CertExtensions + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + + Name, id-pkix, PublicKeyAlgorithms, SignatureAlgorithms + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)} + + ContentInfo, IssuerAndSerialNumber, CONTENT-TYPE + FROM CryptographicMessageSyntax-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cms-2004-02(41)} + + CertReqMsg, PKIPublicationInfo, CertTemplate + FROM PKIXCRMF-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-crmf2005-02(55)} + + mda-sha1 + FROM PKIXAlgs-2009 + { iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56)} + + kda-PBKDF2, maca-hMAC-SHA1 + FROM CryptographicMessageSyntaxAlgorithms-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cmsalg-2001-02(37) } + + mda-sha256 + FROM PKIX1-PSS-OAEP-Algorithms-2009 + { iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-rsa-pkalgs-02(54) } ; + + -- CMS Content types defined in this document + CMC-ContentTypes CONTENT-TYPE ::= { ct-PKIData | ct-PKIResponse, ... } + + -- Signature Algorithms defined in this document + + SignatureAlgs SIGNATURE-ALGORITHM ::= { sa-noSignature } + + -- CMS Unsigned Attributes + + CMC-UnsignedAtts ATTRIBUTE ::= { aa-cmc-unsignedData } + + -- + -- + + id-cmc OBJECT IDENTIFIER ::= {id-pkix 7} -- CMC controls + id-cct OBJECT IDENTIFIER ::= {id-pkix 12} -- CMC content types + + -- This is the content type for a request message in the protocol + + ct-PKIData CONTENT-TYPE ::= + { PKIData IDENTIFIED BY id-cct-PKIData } + id-cct-PKIData OBJECT IDENTIFIER ::= { id-cct 2 } + + PKIData ::= SEQUENCE { + controlSequence SEQUENCE SIZE(0..MAX) OF TaggedAttribute, + reqSequence SEQUENCE SIZE(0..MAX) OF TaggedRequest, + cmsSequence SEQUENCE SIZE(0..MAX) OF TaggedContentInfo, + otherMsgSequence SEQUENCE SIZE(0..MAX) OF OtherMsg + } + + BodyPartID ::= INTEGER(0..4294967295) + + TaggedAttribute ::= SEQUENCE { + bodyPartID BodyPartID, + attrType CMC-CONTROL.&id({Cmc-Control-Set}), + attrValues SET OF CMC-CONTROL. + &Type({Cmc-Control-Set}{@attrType}) + } + + Cmc-Control-Set CMC-CONTROL ::= { + cmc-identityProof | cmc-dataReturn | cmc-regInfo | + cmc-responseInfo | cmc-queryPending | cmc-popLinkRandom | + cmc-popLinkWitness | cmc-identification | cmc-transactionId | + cmc-senderNonce | cmc-recipientNonce | cmc-statusInfo | + cmc-addExtensions | cmc-encryptedPOP | cmc-decryptedPOP | + cmc-lraPOPWitness | cmc-getCert | cmc-getCRL | + cmc-revokeRequest | cmc-confirmCertAcceptance | + cmc-statusInfoV2 | cmc-trustedAnchors | cmc-authData | + cmc-batchRequests | cmc-batchResponses | cmc-publishCert | + cmc-modCertTemplate | cmc-controlProcessed | + cmc-identityProofV2 | cmc-popLinkWitnessV2, ... } + + OTHER-REQUEST ::= TYPE-IDENTIFIER + + -- We do not define any other requests in this document; + -- examples might be attribute certification requests + + OtherRequests OTHER-REQUEST ::= {...} + + TaggedRequest ::= CHOICE { + tcr [0] TaggedCertificationRequest, + crm [1] CertReqMsg, + orm [2] SEQUENCE { + bodyPartID BodyPartID, + requestMessageType OTHER-REQUEST.&id({OtherRequests}), + requestMessageValue OTHER-REQUEST.&Type({OtherRequests} + {@.requestMessageType}) + } + } + + TaggedCertificationRequest ::= SEQUENCE { + bodyPartID BodyPartID, + certificationRequest CertificationRequest + } + + AttributeList ATTRIBUTE ::= {at-extension-req, ...} + + CertificationRequest ::= SEQUENCE { + certificationRequestInfo SEQUENCE { + version INTEGER, + subject Name, + subjectPublicKeyInfo SEQUENCE { + algorithm AlgorithmIdentifier{PUBLIC-KEY, + {PublicKeyAlgorithms}}, + subjectPublicKey BIT STRING + }, + attributes [0] IMPLICIT SET OF + AttributeSet{{AttributeList}} + }, + signatureAlgorithm AlgorithmIdentifier + {SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + signature BIT STRING + } + + TaggedContentInfo ::= SEQUENCE { + bodyPartID BodyPartID, + contentInfo ContentInfo + } + + OTHER-MSG ::= TYPE-IDENTIFIER + + -- No other messages currently defined + + OtherMsgSet OTHER-MSG ::= {...} + + OtherMsg ::= SEQUENCE { + bodyPartID BodyPartID, + otherMsgType OTHER-MSG.&id({OtherMsgSet}), + otherMsgValue OTHER-MSG.&Type({OtherMsgSet}{@otherMsgType}) } + + -- This defines the response message in the protocol + + ct-PKIResponse CONTENT-TYPE ::= + { PKIResponse IDENTIFIED BY id-cct-PKIResponse } + id-cct-PKIResponse OBJECT IDENTIFIER ::= { id-cct 3 } + + ResponseBody ::= PKIResponse + + PKIResponse ::= SEQUENCE { + controlSequence SEQUENCE SIZE(0..MAX) OF TaggedAttribute, + cmsSequence SEQUENCE SIZE(0..MAX) OF TaggedContentInfo, + otherMsgSequence SEQUENCE SIZE(0..MAX) OF OtherMsg + } + + CMC-CONTROL ::= TYPE-IDENTIFIER + + -- The following controls have the type OCTET STRING + + cmc-identityProof CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-identityProof } + id-cmc-identityProof OBJECT IDENTIFIER ::= {id-cmc 3} + + cmc-dataReturn CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-dataReturn } + id-cmc-dataReturn OBJECT IDENTIFIER ::= {id-cmc 4} + + cmc-regInfo CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-regInfo } + id-cmc-regInfo OBJECT IDENTIFIER ::= {id-cmc 18} + + cmc-responseInfo CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-responseInfo } + id-cmc-responseInfo OBJECT IDENTIFIER ::= {id-cmc 19} + + cmc-queryPending CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-queryPending } + id-cmc-queryPending OBJECT IDENTIFIER ::= {id-cmc 21} + + cmc-popLinkRandom CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-popLinkRandom } + id-cmc-popLinkRandom OBJECT IDENTIFIER ::= {id-cmc 22} + + cmc-popLinkWitness CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-popLinkWitness } + id-cmc-popLinkWitness OBJECT IDENTIFIER ::= {id-cmc 23} + + -- The following controls have the type UTF8String + + cmc-identification CMC-CONTROL ::= + { UTF8String IDENTIFIED BY id-cmc-identification } + id-cmc-identification OBJECT IDENTIFIER ::= {id-cmc 2} + + -- The following controls have the type INTEGER + + cmc-transactionId CMC-CONTROL ::= + { INTEGER IDENTIFIED BY id-cmc-transactionId } + id-cmc-transactionId OBJECT IDENTIFIER ::= {id-cmc 5} + + -- The following controls have the type OCTET STRING + + cmc-senderNonce CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-senderNonce } + + id-cmc-senderNonce OBJECT IDENTIFIER ::= {id-cmc 6} + + cmc-recipientNonce CMC-CONTROL ::= + { OCTET STRING IDENTIFIED BY id-cmc-recipientNonce } + id-cmc-recipientNonce OBJECT IDENTIFIER ::= {id-cmc 7} + + -- Used to return status in a response + + cmc-statusInfo CMC-CONTROL ::= + { CMCStatusInfo IDENTIFIED BY id-cmc-statusInfo } + id-cmc-statusInfo OBJECT IDENTIFIER ::= {id-cmc 1} + + CMCStatusInfo ::= SEQUENCE { + cMCStatus CMCStatus, + bodyList SEQUENCE SIZE (1..MAX) OF BodyPartID, + statusString UTF8String OPTIONAL, + otherInfo CHOICE { + failInfo CMCFailInfo, + pendInfo PendInfo + } OPTIONAL + } + + PendInfo ::= SEQUENCE { + pendToken OCTET STRING, + pendTime GeneralizedTime + } + + CMCStatus ::= INTEGER { + success (0), + failed (2), + pending (3), + noSupport (4), + confirmRequired (5), + popRequired (6), + partial (7) + } + + -- Note: + -- The spelling of unsupportedExt is corrected in this version. + -- In RFC 2797, it was unsuportedExt. + + CMCFailInfo ::= INTEGER { + badAlg (0), + badMessageCheck (1), + badRequest (2), + badTime (3), + badCertId (4), + unsuportedExt (5), + mustArchiveKeys (6), + badIdentity (7), + popRequired (8), + popFailed (9), + noKeyReuse (10), + internalCAError (11), + tryLater (12), + authDataFail (13) + } + + -- Used for RAs to add extensions to certification requests + + cmc-addExtensions CMC-CONTROL ::= + { AddExtensions IDENTIFIED BY id-cmc-addExtensions } + id-cmc-addExtensions OBJECT IDENTIFIER ::= {id-cmc 8} + + AddExtensions ::= SEQUENCE { + pkiDataReference BodyPartID, + certReferences SEQUENCE OF BodyPartID, + extensions SEQUENCE OF Extension{{CertExtensions}} + } + + cmc-encryptedPOP CMC-CONTROL ::= + { EncryptedPOP IDENTIFIED BY id-cmc-encryptedPOP } + cmc-decryptedPOP CMC-CONTROL ::= + { DecryptedPOP IDENTIFIED BY id-cmc-decryptedPOP } + id-cmc-encryptedPOP OBJECT IDENTIFIER ::= {id-cmc 9} + id-cmc-decryptedPOP OBJECT IDENTIFIER ::= {id-cmc 10} + + EncryptedPOP ::= SEQUENCE { + request TaggedRequest, + cms ContentInfo, + thePOPAlgID AlgorithmIdentifier{MAC-ALGORITHM, {POPAlgs}}, + witnessAlgID AlgorithmIdentifier{DIGEST-ALGORITHM, + {WitnessAlgs}}, + witness OCTET STRING + } + + POPAlgs MAC-ALGORITHM ::= {maca-hMAC-SHA1, ...} + WitnessAlgs DIGEST-ALGORITHM ::= {mda-sha1, ...} + + DecryptedPOP ::= SEQUENCE { + bodyPartID BodyPartID, + thePOPAlgID AlgorithmIdentifier{MAC-ALGORITHM, {POPAlgs}}, + thePOP OCTET STRING + } + + cmc-lraPOPWitness CMC-CONTROL ::= + { LraPopWitness IDENTIFIED BY id-cmc-lraPOPWitness } + + id-cmc-lraPOPWitness OBJECT IDENTIFIER ::= {id-cmc 11} + + LraPopWitness ::= SEQUENCE { + pkiDataBodyid BodyPartID, + bodyIds SEQUENCE OF BodyPartID + } + + -- + + cmc-getCert CMC-CONTROL ::= + { GetCert IDENTIFIED BY id-cmc-getCert } + id-cmc-getCert OBJECT IDENTIFIER ::= {id-cmc 15} + + GetCert ::= SEQUENCE { + issuerName GeneralName, + serialNumber INTEGER } + + cmc-getCRL CMC-CONTROL ::= + { GetCRL IDENTIFIED BY id-cmc-getCRL } + id-cmc-getCRL OBJECT IDENTIFIER ::= {id-cmc 16} + GetCRL ::= SEQUENCE { + issuerName Name, + cRLName GeneralName OPTIONAL, + time GeneralizedTime OPTIONAL, + reasons ReasonFlags OPTIONAL } + + cmc-revokeRequest CMC-CONTROL ::= + { RevokeRequest IDENTIFIED BY id-cmc-revokeRequest} + id-cmc-revokeRequest OBJECT IDENTIFIER ::= {id-cmc 17} + + RevokeRequest ::= SEQUENCE { + issuerName Name, + serialNumber INTEGER, + reason CRLReason, + invalidityDate GeneralizedTime OPTIONAL, + passphrase OCTET STRING OPTIONAL, + comment UTF8String OPTIONAL } + + cmc-confirmCertAcceptance CMC-CONTROL ::= + { CMCCertId IDENTIFIED BY id-cmc-confirmCertAcceptance } + id-cmc-confirmCertAcceptance OBJECT IDENTIFIER ::= {id-cmc 24} + + CMCCertId ::= IssuerAndSerialNumber + + -- The following is used to request v3 extensions be added + -- to a certificate + + at-extension-req ATTRIBUTE ::= + { TYPE ExtensionReq IDENTIFIED BY id-ExtensionReq } + id-ExtensionReq OBJECT IDENTIFIER ::= {iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-9(9) 14} + + ExtensionReq ::= SEQUENCE SIZE (1..MAX) OF + Extension{{CertExtensions}} + + -- The following allows Diffie-Hellman Certification Request + -- Messages to be well-formed + + sa-noSignature SIGNATURE-ALGORITHM ::= { + IDENTIFIER id-alg-noSignature + VALUE NoSignatureValue + PARAMS TYPE NULL ARE required + HASHES { mda-sha1 } + } + id-alg-noSignature OBJECT IDENTIFIER ::= {id-pkix id-alg(6) 2} + + NoSignatureValue ::= OCTET STRING + -- Unauthenticated attribute to carry removable data. + + id-aa OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) id-aa(2)} + + aa-cmc-unsignedData ATTRIBUTE ::= + { TYPE CMCUnsignedData IDENTIFIED BY id-aa-cmc-unsignedData } + id-aa-cmc-unsignedData OBJECT IDENTIFIER ::= {id-aa 34} + + CMCUnsignedData ::= SEQUENCE { + bodyPartPath BodyPartPath, + identifier TYPE-IDENTIFIER.&id, + content TYPE-IDENTIFIER.&Type + } + + -- Replaces CMC Status Info + -- + + cmc-statusInfoV2 CMC-CONTROL ::= + { CMCStatusInfoV2 IDENTIFIED BY id-cmc-statusInfoV2 } + id-cmc-statusInfoV2 OBJECT IDENTIFIER ::= {id-cmc 25} + + EXTENDED-FAILURE-INFO ::= TYPE-IDENTIFIER + + ExtendedFailures EXTENDED-FAILURE-INFO ::= {...} + + CMCStatusInfoV2 ::= SEQUENCE { + cMCStatus CMCStatus, + bodyList SEQUENCE SIZE (1..MAX) OF + BodyPartReference, + statusString UTF8String OPTIONAL, + otherInfo CHOICE { + failInfo CMCFailInfo, + pendInfo PendInfo, + extendedFailInfo [1] SEQUENCE { + failInfoOID TYPE-IDENTIFIER.&id + ({ExtendedFailures}), + failInfoValue TYPE-IDENTIFIER.&Type + ({ExtendedFailures} + {@.failInfoOID}) + } + } OPTIONAL + } + + BodyPartReference ::= CHOICE { + bodyPartID BodyPartID, + bodyPartPath BodyPartPath + } + + BodyPartPath ::= SEQUENCE SIZE (1..MAX) OF BodyPartID + + -- Allow for distribution of trust anchors + -- + + cmc-trustedAnchors CMC-CONTROL ::= + { PublishTrustAnchors IDENTIFIED BY id-cmc-trustedAnchors } + id-cmc-trustedAnchors OBJECT IDENTIFIER ::= {id-cmc 26} + + PublishTrustAnchors ::= SEQUENCE { + seqNumber INTEGER, + hashAlgorithm AlgorithmIdentifier{DIGEST-ALGORITHM, + {HashAlgorithms}}, + anchorHashes SEQUENCE OF OCTET STRING + } + + HashAlgorithms DIGEST-ALGORITHM ::= { + mda-sha1 | mda-sha256, ... + } + + cmc-authData CMC-CONTROL ::= + { AuthPublish IDENTIFIED BY id-cmc-authData } + id-cmc-authData OBJECT IDENTIFIER ::= {id-cmc 27} + + AuthPublish ::= BodyPartID + + -- These two items use BodyPartList + + cmc-batchRequests CMC-CONTROL ::= + { BodyPartList IDENTIFIED BY id-cmc-batchRequests } + id-cmc-batchRequests OBJECT IDENTIFIER ::= {id-cmc 28} + + cmc-batchResponses CMC-CONTROL ::= + { BodyPartList IDENTIFIED BY id-cmc-batchResponses } + id-cmc-batchResponses OBJECT IDENTIFIER ::= {id-cmc 29} + + BodyPartList ::= SEQUENCE SIZE (1..MAX) OF BodyPartID + + cmc-publishCert CMC-CONTROL ::= + { CMCPublicationInfo IDENTIFIED BY id-cmc-publishCert } + id-cmc-publishCert OBJECT IDENTIFIER ::= {id-cmc 30} + + CMCPublicationInfo ::= SEQUENCE { + hashAlg AlgorithmIdentifier{DIGEST-ALGORITHM, + {HashAlgorithms}}, + certHashes SEQUENCE OF OCTET STRING, + pubInfo PKIPublicationInfo + } + + cmc-modCertTemplate CMC-CONTROL ::= + { ModCertTemplate IDENTIFIED BY id-cmc-modCertTemplate } + id-cmc-modCertTemplate OBJECT IDENTIFIER ::= {id-cmc 31} + + ModCertTemplate ::= SEQUENCE { + pkiDataReference BodyPartPath, + certReferences BodyPartList, + replace BOOLEAN DEFAULT TRUE, + certTemplate CertTemplate + } + + -- Inform follow-on servers that one or more controls have + -- already been processed + + cmc-controlProcessed CMC-CONTROL ::= + { ControlsProcessed IDENTIFIED BY id-cmc-controlProcessed } + id-cmc-controlProcessed OBJECT IDENTIFIER ::= {id-cmc 32} + + ControlsProcessed ::= SEQUENCE { + bodyList SEQUENCE SIZE(1..MAX) OF BodyPartReference + } + + -- Identity Proof control w/ algorithm agility + + cmc-identityProofV2 CMC-CONTROL ::= + { IdentityProofV2 IDENTIFIED BY id-cmc-identityProofV2 } + id-cmc-identityProofV2 OBJECT IDENTIFIER ::= { id-cmc 33 } + + IdentityProofV2 ::= SEQUENCE { + proofAlgID AlgorithmIdentifier{DIGEST-ALGORITHM, + {WitnessAlgs}}, + macAlgId AlgorithmIdentifier{MAC-ALGORITHM, {POPAlgs}}, + witness OCTET STRING + } + + cmc-popLinkWitnessV2 CMC-CONTROL ::= + { PopLinkWitnessV2 IDENTIFIED BY id-cmc-popLinkWitnessV2 } + id-cmc-popLinkWitnessV2 OBJECT IDENTIFIER ::= { id-cmc 34 } + + PopLinkWitnessV2 ::= SEQUENCE { + keyGenAlgorithm AlgorithmIdentifier{KEY-DERIVATION, + {KeyDevAlgs}}, + macAlgorithm AlgorithmIdentifier{MAC-ALGORITHM, {POPAlgs}}, + witness OCTET STRING + } + + KeyDevAlgs KEY-DERIVATION ::= {kda-PBKDF2, ...} + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/External-References.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/External-References.asn1 index 9a7d4936a6..9a7d4936a6 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/External-References.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/External-References.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/GULSProtectionMappings.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/GULSProtectionMappings.asn1 index 9b6a426ca2..9b6a426ca2 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/GULSProtectionMappings.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/GULSProtectionMappings.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/GenericProtectingTransferSyntax.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/GenericProtectingTransferSyntax.asn1 index c59451dcdb..c59451dcdb 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/GenericProtectingTransferSyntax.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/GenericProtectingTransferSyntax.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Coding-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Coding-Attributes.asn1 index 60acbb3b5c..60acbb3b5c 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Coding-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Coding-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Presentation-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Presentation-Attributes.asn1 index 84c1ee9851..84c1ee9851 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Presentation-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Presentation-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Profile-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Profile-Attributes.asn1 index 28daa467e1..28daa467e1 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Geo-Gr-Profile-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Geo-Gr-Profile-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/GulsSecurityExchanges.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/GulsSecurityExchanges.asn1 index 336b824174..336b824174 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/GulsSecurityExchanges.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/GulsSecurityExchanges.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/GulsSecurityTransformations.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/GulsSecurityTransformations.asn1 index db2725c37d..db2725c37d 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/GulsSecurityTransformations.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/GulsSecurityTransformations.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/HierarchicalOperationalBindings.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/HierarchicalOperationalBindings.asn1 index 4e0084b079..4e0084b079 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/HierarchicalOperationalBindings.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/HierarchicalOperationalBindings.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSAbstractService.asn1 index 3fec8ae64a..3fec8ae64a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSAutoActionTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSAutoActionTypes.asn1 index 8c0c8138e2..8c0c8138e2 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSAutoActionTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSAutoActionTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedBodyPartTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedBodyPartTypes.asn1 index 9805a6189d..9805a6189d 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedBodyPartTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedBodyPartTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedBodyPartTypes2.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedBodyPartTypes2.asn1 index b39e03c3b6..b39e03c3b6 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedBodyPartTypes2.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedBodyPartTypes2.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedVoiceBodyPartType.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedVoiceBodyPartType.asn1 index 171f4b4223..171f4b4223 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSExtendedVoiceBodyPartType.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSExtendedVoiceBodyPartType.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSFileTransferBodyPartType.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSFileTransferBodyPartType.asn1 index 59de6d1b04..59de6d1b04 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSFileTransferBodyPartType.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSFileTransferBodyPartType.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSForwardedContentBodyPartType.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSForwardedContentBodyPartType.asn1 index 57faac6587..57faac6587 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSForwardedContentBodyPartType.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSForwardedContentBodyPartType.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSForwardedReportBodyPartType.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSForwardedReportBodyPartType.asn1 index 4e46c7679b..4e46c7679b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSForwardedReportBodyPartType.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSForwardedReportBodyPartType.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSFunctionalObjects.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSFunctionalObjects.asn1 index 09ef4de282..09ef4de282 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSFunctionalObjects.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSFunctionalObjects.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSHeadingExtensions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSHeadingExtensions.asn1 index 752e8d05e1..752e8d05e1 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSHeadingExtensions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSHeadingExtensions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSInformationObjects.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSInformationObjects.asn1 index 3fb0463ee7..3fb0463ee7 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSInformationObjects.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSInformationObjects.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSMessageStoreAttributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSMessageStoreAttributes.asn1 index 719bca4987..719bca4987 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSMessageStoreAttributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSMessageStoreAttributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSObjectIdentifiers.asn1 index 6e5c01ab40..6e5c01ab40 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSObjectIdentifiers2.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSObjectIdentifiers2.asn1 index 2b46b27b3e..2b46b27b3e 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSObjectIdentifiers2.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSObjectIdentifiers2.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSSecurityExtensions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSSecurityExtensions.asn1 index 8c692ccb31..8c692ccb31 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSSecurityExtensions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSSecurityExtensions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/IPMSUpperBounds.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSUpperBounds.asn1 index 27324f614f..27324f614f 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/IPMSUpperBounds.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/IPMSUpperBounds.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ISO-STANDARD-9541-FONT-ATTRIBUTE-SET.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO-STANDARD-9541-FONT-ATTRIBUTE-SET.asn1 index b7efd7417e..b7efd7417e 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ISO-STANDARD-9541-FONT-ATTRIBUTE-SET.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO-STANDARD-9541-FONT-ATTRIBUTE-SET.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ISO8571-FTAM.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO8571-FTAM.asn1 index a57a276704..a57a276704 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ISO8571-FTAM.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO8571-FTAM.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ISO9541-SN.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO9541-SN.asn1 index 0149602040..0149602040 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ISO9541-SN.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ISO9541-SN.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Identifiers-and-Expressions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Identifiers-and-Expressions.asn1 index bd1d8d3c48..bd1d8d3c48 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Identifiers-and-Expressions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Identifiers-and-Expressions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/InformationFramework.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/InformationFramework.asn1 index 813ac9c6a0..813ac9c6a0 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/InformationFramework.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/InformationFramework.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Interchange-Data-Elements.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Interchange-Data-Elements.asn1 index 2c78360b7b..2c78360b7b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Interchange-Data-Elements.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Interchange-Data-Elements.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Layout-Descriptors.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Layout-Descriptors.asn1 index 92c887bb06..92c887bb06 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Layout-Descriptors.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Layout-Descriptors.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Link-Descriptors.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Link-Descriptors.asn1 index 64fc4436e4..64fc4436e4 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Link-Descriptors.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Link-Descriptors.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Location-Expressions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Location-Expressions.asn1 index 5de6491621..5de6491621 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Location-Expressions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Location-Expressions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Logical-Descriptors.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Logical-Descriptors.asn1 index fab36bf12a..fab36bf12a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Logical-Descriptors.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Logical-Descriptors.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MHSObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MHSObjectIdentifiers.asn1 index 187c3c8ad4..187c3c8ad4 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MHSObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MHSObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MHSProtocolObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MHSProtocolObjectIdentifiers.asn1 index 40f53b9458..40f53b9458 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MHSProtocolObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MHSProtocolObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSAbstractService.asn1 index 052b3b2041..052b3b2041 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSAccessProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSAccessProtocol.asn1 index b69d72b3ed..b69d72b3ed 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSAccessProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSAccessProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSGeneralAttributeTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSGeneralAttributeTypes.asn1 index 99d34b2883..99d34b2883 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSGeneralAttributeTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSGeneralAttributeTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSGeneralAutoActionTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSGeneralAutoActionTypes.asn1 index eceae4ab44..eceae4ab44 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSGeneralAutoActionTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSGeneralAutoActionTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSMatchingRules.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSMatchingRules.asn1 index 37c894da86..37c894da86 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSMatchingRules.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSMatchingRules.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSObjectIdentifiers.asn1 index df194f838c..df194f838c 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MSUpperBounds.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MSUpperBounds.asn1 index 6494fbd3ef..6494fbd3ef 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MSUpperBounds.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MSUpperBounds.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTAAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTAAbstractService.asn1 index 38035c77ae..38035c77ae 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTAAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTAAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTSAbstractService.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAbstractService.asn1 index 68a5118bc8..68a5118bc8 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTSAbstractService.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAbstractService.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTSAbstractService88.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAbstractService88.asn1 index f66d117f35..f66d117f35 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTSAbstractService88.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAbstractService88.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTSAccessProtocol.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAccessProtocol.asn1 index 03181c5951..03181c5951 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTSAccessProtocol.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSAccessProtocol.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTSObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSObjectIdentifiers.asn1 index 1615b241ee..1615b241ee 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTSObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/MTSUpperBounds.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSUpperBounds.asn1 index 10eac962cb..10eac962cb 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/MTSUpperBounds.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/MTSUpperBounds.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Notation.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Notation.asn1 index 96dfc39b6a..96dfc39b6a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Notation.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Notation.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/OCSP-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/OCSP-2009.asn1 new file mode 100644 index 0000000000..db500fe9a1 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/OCSP-2009.asn1 @@ -0,0 +1,183 @@ + OCSP-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-ocsp-02(48)} + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + IMPORTS + + Extensions{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + + AlgorithmIdentifier{}, DIGEST-ALGORITHM, SIGNATURE-ALGORITHM + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + AuthorityInfoAccessSyntax, GeneralName, CrlEntryExtensions + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + + Name, CertificateSerialNumber, id-kp, id-ad-ocsp, Certificate + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)} + + sa-dsaWithSHA1, sa-rsaWithMD2, sa-rsaWithMD5, sa-rsaWithSHA1 + FROM PKIXAlgs-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56)}; + + OCSPRequest ::= SEQUENCE { + tbsRequest TBSRequest, + optionalSignature [0] EXPLICIT Signature OPTIONAL } + + TBSRequest ::= SEQUENCE { + version [0] EXPLICIT Version DEFAULT v1, + requestorName [1] EXPLICIT GeneralName OPTIONAL, + requestList SEQUENCE OF Request, + requestExtensions [2] EXPLICIT Extensions {{re-ocsp-nonce | + re-ocsp-response, ...}} OPTIONAL } + + Signature ::= SEQUENCE { + signatureAlgorithm AlgorithmIdentifier + { SIGNATURE-ALGORITHM, {...}}, + signature BIT STRING, + certs [0] EXPLICIT SEQUENCE OF Certificate OPTIONAL } + + Version ::= INTEGER { v1(0) } + + Request ::= SEQUENCE { + reqCert CertID, + singleRequestExtensions [0] EXPLICIT Extensions + { {re-ocsp-service-locator, + ...}} OPTIONAL } + + CertID ::= SEQUENCE { + hashAlgorithm AlgorithmIdentifier + {DIGEST-ALGORITHM, {...}}, + issuerNameHash OCTET STRING, -- Hash of Issuer's DN + issuerKeyHash OCTET STRING, -- Hash of Issuer's public key + serialNumber CertificateSerialNumber } + + OCSPResponse ::= SEQUENCE { + responseStatus OCSPResponseStatus, + responseBytes [0] EXPLICIT ResponseBytes OPTIONAL } + + OCSPResponseStatus ::= ENUMERATED { + successful (0), --Response has valid confirmations + malformedRequest (1), --Illegal confirmation request + internalError (2), --Internal error in issuer + tryLater (3), --Try again later + -- (4) is not used + sigRequired (5), --Must sign the request + unauthorized (6) --Request unauthorized + } + + RESPONSE ::= TYPE-IDENTIFIER + + ResponseSet RESPONSE ::= {basicResponse, ...} + + ResponseBytes ::= SEQUENCE { + responseType RESPONSE. + &id ({ResponseSet}), + response OCTET STRING (CONTAINING RESPONSE. + &Type({ResponseSet}{@responseType}))} + + basicResponse RESPONSE ::= + { BasicOCSPResponse IDENTIFIED BY id-pkix-ocsp-basic } + + BasicOCSPResponse ::= SEQUENCE { + tbsResponseData ResponseData, + signatureAlgorithm AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {sa-dsaWithSHA1 | sa-rsaWithSHA1 | + sa-rsaWithMD5 | sa-rsaWithMD2, ...}}, + signature BIT STRING, + certs [0] EXPLICIT SEQUENCE OF Certificate OPTIONAL } + + ResponseData ::= SEQUENCE { + version [0] EXPLICIT Version DEFAULT v1, + responderID ResponderID, + producedAt GeneralizedTime, + responses SEQUENCE OF SingleResponse, + responseExtensions [1] EXPLICIT Extensions + {{re-ocsp-nonce, ...}} OPTIONAL } + + ResponderID ::= CHOICE { + byName [1] Name, + byKey [2] KeyHash } + + KeyHash ::= OCTET STRING --SHA-1 hash of responder's public key + -- (excluding the tag and length fields) + + SingleResponse ::= SEQUENCE { + certID CertID, + certStatus CertStatus, + thisUpdate GeneralizedTime, + nextUpdate [0] EXPLICIT GeneralizedTime OPTIONAL, + singleExtensions [1] EXPLICIT Extensions{{re-ocsp-crl | + re-ocsp-archive-cutoff | + CrlEntryExtensions, ...} + } OPTIONAL } + + CertStatus ::= CHOICE { + good [0] IMPLICIT NULL, + revoked [1] IMPLICIT RevokedInfo, + unknown [2] IMPLICIT UnknownInfo } + + RevokedInfo ::= SEQUENCE { + revocationTime GeneralizedTime, + revocationReason [0] EXPLICIT CRLReason OPTIONAL } + + UnknownInfo ::= NULL + + CRLReason ::= INTEGER + + ArchiveCutoff ::= GeneralizedTime + + AcceptableResponses ::= SEQUENCE OF RESPONSE.&id({ResponseSet}) + + ServiceLocator ::= SEQUENCE { + issuer Name, + locator AuthorityInfoAccessSyntax } + + CrlID ::= SEQUENCE { + crlUrl [0] EXPLICIT IA5String OPTIONAL, + crlNum [1] EXPLICIT INTEGER OPTIONAL, + crlTime [2] EXPLICIT GeneralizedTime OPTIONAL } + + -- Request Extensions + + re-ocsp-nonce EXTENSION ::= { SYNTAX OCTET STRING IDENTIFIED + BY id-pkix-ocsp-nonce } + re-ocsp-response EXTENSION ::= { SYNTAX AcceptableResponses IDENTIFIED + BY id-pkix-ocsp-response } + re-ocsp-service-locator EXTENSION ::= { SYNTAX ServiceLocator + IDENTIFIED BY + id-pkix-ocsp-service-locator } + + -- Response Extensions + + re-ocsp-crl EXTENSION ::= { SYNTAX CrlID IDENTIFIED BY + id-pkix-ocsp-crl } + re-ocsp-archive-cutoff EXTENSION ::= { SYNTAX ArchiveCutoff + IDENTIFIED BY + id-pkix-ocsp-archive-cutoff } + + -- Object Identifiers + + id-kp-OCSPSigning OBJECT IDENTIFIER ::= { id-kp 9 } + id-pkix-ocsp OBJECT IDENTIFIER ::= id-ad-ocsp + id-pkix-ocsp-basic OBJECT IDENTIFIER ::= { id-pkix-ocsp 1 } + id-pkix-ocsp-nonce OBJECT IDENTIFIER ::= { id-pkix-ocsp 2 } + id-pkix-ocsp-crl OBJECT IDENTIFIER ::= { id-pkix-ocsp 3 } + id-pkix-ocsp-response OBJECT IDENTIFIER ::= { id-pkix-ocsp 4 } + id-pkix-ocsp-nocheck OBJECT IDENTIFIER ::= { id-pkix-ocsp 5 } + id-pkix-ocsp-archive-cutoff OBJECT IDENTIFIER ::= { id-pkix-ocsp 6 } + id-pkix-ocsp-service-locator OBJECT IDENTIFIER ::= { id-pkix-ocsp 7 } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/PKCS7.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/OLD-PKCS7.asn1 index ac449b59c7..ab555200bb 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/PKCS7.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/OLD-PKCS7.asn1 @@ -3,7 +3,7 @@ -- This Annex contains a module of PKCS#7 ASN.1 definitions conforming to current ASN.1 standards rather than the obsolescent (and now deprecated) 1988/90 version of ASN.1 used in version 1.5 of PKCS#7. -- Extensions to PKCS#7 defined in RFC 2630 are included. -- If differences are found between the ASN.1 in the following module and that in PKCS#7, the latter is definitive. -PKCS7 {iso member-body usa(840) rsadsi(113549) pkcs(1) 7 +OLD-PKCS7 {iso member-body usa(840) rsadsi(113549) pkcs(1) 7 module(0) -- module not currently defined in PKCS#7 --} DEFINITIONS IMPLICIT TAGS ::= BEGIN diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ObjectIdentifiers.asn1 index b4f91f50c5..b4f91f50c5 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/OperationalBindingManagement.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/OperationalBindingManagement.asn1 index 2044feb155..2044feb155 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/OperationalBindingManagement.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/OperationalBindingManagement.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-10.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-10.asn1 new file mode 100644 index 0000000000..a5fd0fefb9 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-10.asn1 @@ -0,0 +1,56 @@ + PKCS-10 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkcs10-2009(69)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + AlgorithmIdentifier{}, DIGEST-ALGORITHM, SIGNATURE-ALGORITHM, + PUBLIC-KEY + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + ATTRIBUTE, Name + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)}; + + -- Certificate requests + CertificationRequestInfo ::= SEQUENCE { + version INTEGER { v1(0) } (v1, ... ), + subject Name, + subjectPKInfo SubjectPublicKeyInfo{{ PKInfoAlgorithms }}, + attributes [0] Attributes{{ CRIAttributes }} + } + + SubjectPublicKeyInfo {PUBLIC-KEY: IOSet} ::= SEQUENCE { + algorithm AlgorithmIdentifier {PUBLIC-KEY, {IOSet}}, + subjectPublicKey BIT STRING + } + + PKInfoAlgorithms PUBLIC-KEY ::= { + ... -- add any locally defined algorithms here -- } + + Attributes { ATTRIBUTE:IOSet } ::= SET OF Attribute{{ IOSet }} + + CRIAttributes ATTRIBUTE ::= { + ... -- add any locally defined attributes here -- } + + Attribute { ATTRIBUTE:IOSet } ::= SEQUENCE { + type ATTRIBUTE.&id({IOSet}), + values SET SIZE(1..MAX) OF ATTRIBUTE.&Type({IOSet}{@type}) + } + + CertificationRequest ::= SEQUENCE { + certificationRequestInfo CertificationRequestInfo, + signatureAlgorithm AlgorithmIdentifier{SIGNATURE-ALGORITHM, + { SignatureAlgorithms }}, + signature BIT STRING + } + + SignatureAlgorithms SIGNATURE-ALGORITHM ::= { + ... -- add any locally defined algorithms here -- } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-12.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-12.asn1 new file mode 100644 index 0000000000..5b37a552f9 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-12.asn1 @@ -0,0 +1,174 @@ +PKCS-12 {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-12(12) modules(0) pkcs-12(1)} + +-- $Revision$ + +DEFINITIONS IMPLICIT TAGS ::= + +BEGIN + +-- EXPORTS ALL +-- All types and values defined in this module is exported for use in +-- other ASN.1 modules. + +IMPORTS + +informationFramework + FROM UsefulDefinitions {joint-iso-itu-t(2) ds(5) module(1) + usefulDefinitions(0) 3} + +ATTRIBUTE + FROM InformationFramework informationFramework + +ContentInfo, DigestInfo + FROM PKCS-7 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-7(7) modules(0) pkcs-7(1)} + +PrivateKeyInfo, EncryptedPrivateKeyInfo + FROM PKCS-8 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-8(8) modules(1) pkcs-8(1)} + +pkcs-9, friendlyName, localKeyId, certTypes, crlTypes + FROM PKCS-9 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-9(9) modules(0) pkcs-9(1)}; + +-- Object identifiers + +rsadsi OBJECT IDENTIFIER ::= {iso(1) member-body(2) us(840) rsadsi(113549)} +pkcs OBJECT IDENTIFIER ::= {rsadsi pkcs(1)} +pkcs-12 OBJECT IDENTIFIER ::= {pkcs 12} +pkcs-12PbeIds OBJECT IDENTIFIER ::= {pkcs-12 1} +pbeWithSHAAnd128BitRC4 OBJECT IDENTIFIER ::= {pkcs-12PbeIds 1} +pbeWithSHAAnd40BitRC4 OBJECT IDENTIFIER ::= {pkcs-12PbeIds 2} +pbeWithSHAAnd3-KeyTripleDES-CBC OBJECT IDENTIFIER ::= {pkcs-12PbeIds 3} +pbeWithSHAAnd2-KeyTripleDES-CBC OBJECT IDENTIFIER ::= {pkcs-12PbeIds 4} +pbeWithSHAAnd128BitRC2-CBC OBJECT IDENTIFIER ::= {pkcs-12PbeIds 5} +pbewithSHAAnd40BitRC2-CBC OBJECT IDENTIFIER ::= {pkcs-12PbeIds 6} + +bagtypes OBJECT IDENTIFIER ::= {pkcs-12 10 1} + +-- The PFX PDU + +PFX ::= SEQUENCE { + version INTEGER {v3(3)}(v3,...), + authSafe ContentInfo, + macData MacData OPTIONAL +} + +MacData ::= SEQUENCE { + mac DigestInfo, + macSalt OCTET STRING, + iterations INTEGER DEFAULT 1 +-- Note: The default is for historical reasons and its use is +-- deprecated. A higher value, like 1024 is recommended. +} + +AuthenticatedSafe ::= SEQUENCE OF ContentInfo + -- Data if unencrypted + -- EncryptedData if password-encrypted + -- EnvelopedData if public key-encrypted + +SafeContents ::= SEQUENCE OF SafeBag + +SafeBag ::= SEQUENCE { + bagId BAG-TYPE.&id ({PKCS12BagSet}), + bagValue [0] EXPLICIT BAG-TYPE.&Type({PKCS12BagSet}{@bagId}), + bagAttributes SET OF PKCS12Attribute OPTIONAL +} + +-- Bag types + +keyBag BAG-TYPE ::= + {KeyBag IDENTIFIED BY {bagtypes 1}} +pkcs8ShroudedKeyBag BAG-TYPE ::= + {PKCS8ShroudedKeyBag IDENTIFIED BY {bagtypes 2}} +certBag BAG-TYPE ::= + {CertBag IDENTIFIED BY {bagtypes 3}} +crlBag BAG-TYPE ::= + {CRLBag IDENTIFIED BY {bagtypes 4}} +secretBag BAG-TYPE ::= + {SecretBag IDENTIFIED BY {bagtypes 5}} +safeContentsBag BAG-TYPE ::= + {SafeContents IDENTIFIED BY {bagtypes 6}} + +PKCS12BagSet BAG-TYPE ::= { + keyBag | + pkcs8ShroudedKeyBag | + certBag | + crlBag | + secretBag | + safeContentsBag, + ... -- For future extensions +} + +BAG-TYPE ::= TYPE-IDENTIFIER + +-- KeyBag + +KeyBag ::= PrivateKeyInfo + +-- Shrouded KeyBag + +PKCS8ShroudedKeyBag ::= EncryptedPrivateKeyInfo + +-- CertBag + +CertBag ::= SEQUENCE { + certId BAG-TYPE.&id ({CertTypes}), + certValue [0] EXPLICIT BAG-TYPE.&Type ({CertTypes}{@certId}) +} + +x509Certificate BAG-TYPE ::= + {OCTET STRING IDENTIFIED BY {certTypes 1}} + -- DER-encoded X.509 certificate stored in OCTET STRING +sdsiCertificate BAG-TYPE ::= + {IA5String IDENTIFIED BY {certTypes 2}} + -- Base64-encoded SDSI certificate stored in IA5String + +CertTypes BAG-TYPE ::= { + x509Certificate | + sdsiCertificate, + ... -- For future extensions +} + +-- CRLBag + +CRLBag ::= SEQUENCE { + crlId BAG-TYPE.&id ({CRLTypes}), + crlValue [0] EXPLICIT BAG-TYPE.&Type ({CRLTypes}{@crlId}) +} + +x509CRL BAG-TYPE ::= + {OCTET STRING IDENTIFIED BY {crlTypes 1}} + -- DER-encoded X.509 CRL stored in OCTET STRING + +CRLTypes BAG-TYPE ::= { + x509CRL, + ... -- For future extensions +} + +-- Secret Bag + +SecretBag ::= SEQUENCE { + secretTypeId BAG-TYPE.&id ({SecretTypes}), + secretValue [0] EXPLICIT BAG-TYPE.&Type ({SecretTypes}{@secretTypeId}) +} + +SecretTypes BAG-TYPE ::= { + ... -- For future extensions +} + +-- Attributes + +PKCS12Attribute ::= SEQUENCE { + attrId ATTRIBUTE.&id ({PKCS12AttrSet}), + attrValues SET OF ATTRIBUTE.&Type ({PKCS12AttrSet}{@attrId}) +} -- This type is compatible with the X.500 type 'Attribute' + +PKCS12AttrSet ATTRIBUTE ::= { + friendlyName | + localKeyId, + ... -- Other attributes are allowed +} + +END
\ No newline at end of file diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-5.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-5.asn1 new file mode 100644 index 0000000000..91b0dc36bf --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-5.asn1 @@ -0,0 +1,202 @@ +-- PKCS #5 v2.1 ASN.1 Module +-- Revised October 27, 2012 + +-- This module has been checked for conformance with the +-- ASN.1 standard by the OSS ASN.1 Tools + +PKCS-5 { + iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-5(5) modules(16) + pkcs5v2-1(2)} + +DEFINITIONS EXPLICIT TAGS ::= + +BEGIN + +-- ============================ +-- Basic object identifiers +-- ============================ + +nistAlgorithms OBJECT IDENTIFIER ::= + {joint-iso-itu-t(2) country(16) us(840) organization(1) gov(101) csor(3) 4} +oiw OBJECT IDENTIFIER ::= {iso(1) identified-organization(3) 14} +rsadsi OBJECT IDENTIFIER ::= {iso(1) member-body(2) us(840) 113549} +pkcs OBJECT IDENTIFIER ::= {rsadsi 1} +pkcs-5 OBJECT IDENTIFIER ::= {pkcs 5} + + +-- ============================ +-- Basic types and classes +-- ============================ + +AlgorithmIdentifier { ALGORITHM-IDENTIFIER:InfoObjectSet } ::= SEQUENCE { + algorithm ALGORITHM-IDENTIFIER.&id({InfoObjectSet}), + parameters ALGORITHM-IDENTIFIER.&Type({InfoObjectSet} {@algorithm}) OPTIONAL +} + +ALGORITHM-IDENTIFIER ::= TYPE-IDENTIFIER + + +-- ============================ +-- PBKDF2 +-- ============================ + +PBKDF2Algorithms ALGORITHM-IDENTIFIER ::= + { {PBKDF2-params IDENTIFIED BY id-PBKDF2}, ...} + +id-PBKDF2 OBJECT IDENTIFIER ::= {pkcs-5 12} + +algid-hmacWithSHA1 AlgorithmIdentifier {{PBKDF2-PRFs}} ::= + {algorithm id-hmacWithSHA1, parameters NULL : NULL} + +PBKDF2-params ::= SEQUENCE { + salt CHOICE { + specified OCTET STRING, + otherSource AlgorithmIdentifier {{PBKDF2-SaltSources}} + }, + iterationCount INTEGER (1..MAX), + keyLength INTEGER (1..MAX) OPTIONAL, + prf AlgorithmIdentifier {{PBKDF2-PRFs}} DEFAULT algid-hmacWithSHA1 +} + +PBKDF2-SaltSources ALGORITHM-IDENTIFIER ::= { ... } + +PBKDF2-PRFs ALGORITHM-IDENTIFIER ::= { + {NULL IDENTIFIED BY id-hmacWithSHA1} | + {NULL IDENTIFIED BY id-hmacWithSHA224} | + {NULL IDENTIFIED BY id-hmacWithSHA256} | + {NULL IDENTIFIED BY id-hmacWithSHA384} | + {NULL IDENTIFIED BY id-hmacWithSHA512} | + {NULL IDENTIFIED BY id-hmacWithSHA512-224} | + {NULL IDENTIFIED BY id-hmacWithSHA512-256}, + ... +} + + +-- ============================ + -- PBES1 +-- ============================ + +PBES1Algorithms ALGORITHM-IDENTIFIER ::= { + {PBEParameter IDENTIFIED BY pbeWithMD2AndDES-CBC} | + {PBEParameter IDENTIFIED BY pbeWithMD2AndRC2-CBC} | + {PBEParameter IDENTIFIED BY pbeWithMD5AndDES-CBC} | + {PBEParameter IDENTIFIED BY pbeWithMD5AndRC2-CBC} | + {PBEParameter IDENTIFIED BY pbeWithSHA1AndDES-CBC} | + {PBEParameter IDENTIFIED BY pbeWithSHA1AndRC2-CBC}, + ... +} + +pbeWithMD2AndDES-CBC OBJECT IDENTIFIER ::= {pkcs-5 1} +pbeWithMD2AndRC2-CBC OBJECT IDENTIFIER ::= {pkcs-5 4} +pbeWithMD5AndDES-CBC OBJECT IDENTIFIER ::= {pkcs-5 3} +pbeWithMD5AndRC2-CBC OBJECT IDENTIFIER ::= {pkcs-5 6} +pbeWithSHA1AndDES-CBC OBJECT IDENTIFIER ::= {pkcs-5 10} +pbeWithSHA1AndRC2-CBC OBJECT IDENTIFIER ::= {pkcs-5 11} + +PBEParameter ::= SEQUENCE { + salt OCTET STRING (SIZE(8)), + iterationCount INTEGER +} + + +-- ============================ +-- PBES2 +-- ============================ + +PBES2Algorithms ALGORITHM-IDENTIFIER ::= { + {PBES2-params IDENTIFIED BY id-PBES2}, + ... +} + +id-PBES2 OBJECT IDENTIFIER ::= {pkcs-5 13} + +PBES2-params ::= SEQUENCE { + keyDerivationFunc AlgorithmIdentifier {{PBES2-KDFs}}, + encryptionScheme AlgorithmIdentifier {{PBES2-Encs}} +} + +PBES2-KDFs ALGORITHM-IDENTIFIER ::= { + {PBKDF2-params IDENTIFIED BY id-PBKDF2}, + ... +} + +PBES2-Encs ALGORITHM-IDENTIFIER ::= { ... } + + +-- ============================ +-- PBMAC1 +-- ============================ + +PBMAC1Algorithms ALGORITHM-IDENTIFIER ::= { + {PBMAC1-params IDENTIFIED BY id-PBMAC1}, + ... +} + +id-PBMAC1 OBJECT IDENTIFIER ::= {pkcs-5 14} + +PBMAC1-params ::= SEQUENCE { + keyDerivationFunc AlgorithmIdentifier {{PBMAC1-KDFs}}, + messageAuthScheme AlgorithmIdentifier {{PBMAC1-MACs}} +} + +PBMAC1-KDFs ALGORITHM-IDENTIFIER ::= { + {PBKDF2-params IDENTIFIED BY id-PBKDF2}, + ... +} + +PBMAC1-MACs ALGORITHM-IDENTIFIER ::= { ... } + +-- ============================ +-- Supporting techniques +-- ============================ + +digestAlgorithm OBJECT IDENTIFIER ::= {rsadsi 2} +encryptionAlgorithm OBJECT IDENTIFIER ::= {rsadsi 3} + +SupportingAlgorithms ALGORITHM-IDENTIFIER ::= { + {NULL IDENTIFIED BY id-hmacWithSHA1} | + {OCTET STRING (SIZE(8)) IDENTIFIED BY desCBC} | + {OCTET STRING (SIZE(8)) IDENTIFIED BY des-EDE3-CBC} | + {RC2-CBC-Parameter IDENTIFIED BY rc2CBC} | + {RC5-CBC-Parameters IDENTIFIED BY rc5-CBC-PAD} | + {OCTET STRING (SIZE(16)) IDENTIFIED BY aes128-CBC-PAD} | + {OCTET STRING (SIZE(16)) IDENTIFIED BY aes192-CBC-PAD} | + {OCTET STRING (SIZE(16)) IDENTIFIED BY aes256-CBC-PAD}, + ... +} + +id-hmacWithSHA1 OBJECT IDENTIFIER ::= {digestAlgorithm 7} +id-hmacWithSHA224 OBJECT IDENTIFIER ::= {digestAlgorithm 8} +id-hmacWithSHA256 OBJECT IDENTIFIER ::= {digestAlgorithm 9} +id-hmacWithSHA384 OBJECT IDENTIFIER ::= {digestAlgorithm 10} +id-hmacWithSHA512 OBJECT IDENTIFIER ::= {digestAlgorithm 11} +id-hmacWithSHA512-224 OBJECT IDENTIFIER ::= {digestAlgorithm 12} +id-hmacWithSHA512-256 OBJECT IDENTIFIER ::= {digestAlgorithm 13} + +-- from OIW +desCBC OBJECT IDENTIFIER ::= {oiw secsig(3) algorithms(2) 7} + +des-EDE3-CBC OBJECT IDENTIFIER ::= {encryptionAlgorithm 7} + +rc2CBC OBJECT IDENTIFIER ::= {encryptionAlgorithm 2} + +RC2-CBC-Parameter ::= SEQUENCE { + rc2ParameterVersion INTEGER OPTIONAL, + iv OCTET STRING (SIZE(8)) +} + +rc5-CBC-PAD OBJECT IDENTIFIER ::= {encryptionAlgorithm 9} + +RC5-CBC-Parameters ::= SEQUENCE { + version INTEGER {v1-0(16)} (v1-0), + rounds INTEGER (8..127), + blockSizeInBits INTEGER (64 | 128), + iv OCTET STRING OPTIONAL +} + +aes OBJECT IDENTIFIER ::= { nistAlgorithms 1 } +aes128-CBC-PAD OBJECT IDENTIFIER ::= { aes 2 } +aes192-CBC-PAD OBJECT IDENTIFIER ::= { aes 22 } +aes256-CBC-PAD OBJECT IDENTIFIER ::= { aes 42 } + +END
\ No newline at end of file diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-7.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-7.asn1 new file mode 100644 index 0000000000..4cea8db240 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-7.asn1 @@ -0,0 +1,326 @@ +PKCS-7 {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-7(7) + modules(0) pkcs-7(1)} + +DEFINITIONS EXPLICIT TAGS ::= +BEGIN + +-- +-- 3. Definitions +-- + +-- EXPORTS All; + +IMPORTS + +informationFramework, authenticationFramework + FROM UsefulDefinitions {joint-iso-itu-t ds(5) module(1) + usefulDefinitions(0) 3} + + Name, ATTRIBUTE + FROM InformationFramework informationFramework + + ALGORITHM, Certificate, CertificateSerialNumber, + CertificateList + FROM AuthenticationFramework authenticationFramework + + contentType, messageDigest, signingTime, counterSignature + FROM PKCS-9 {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-9(9) modules(0) pkcs-9(1)}; +-- +-- 6. Useful types +-- + +-- Also defined in X.509 +-- Redeclared here as a parameterized type +AlgorithmIdentifier {ALGORITHM:IOSet} ::= SEQUENCE { + algorithm ALGORITHM.&id({IOSet}), + parameters ALGORITHM.&Type({IOSet}{@algorithm}) OPTIONAL +} + +-- Also defined in X.501 +-- Redeclared here as a parameterized type +Attribute { ATTRIBUTE:IOSet } ::= SEQUENCE { + type ATTRIBUTE.&id({IOSet}), + values SET SIZE (1..MAX) OF ATTRIBUTE.&Type({IOSet}{@type}) +} + +CertificateRevocationLists ::= + SET OF CertificateList + +Certificates ::= + SEQUENCE OF Certificate + +CRLSequence ::= + SEQUENCE OF CertificateList + +ContentEncryptionAlgorithmIdentifier ::= + AlgorithmIdentifier {{ContentEncryptionAlgorithms}} + +ContentEncryptionAlgorithms ALGORITHM ::= { + ... -- add any application-specific algorithms here +} + +DigestAlgorithmIdentifier ::= + AlgorithmIdentifier {{DigestAlgorithms}} + +DigestAlgorithms ALGORITHM ::= { + ... -- add any application-specific algorithms here +} + +DigestEncryptionAlgorithmIdentifier ::= + AlgorithmIdentifier {{DigestEncryptionAlgorithms}} + +DigestEncryptionAlgorithms ALGORITHM ::= { + ... -- add any application-specific algorithms here +} + +ExtendedCertificateOrCertificate ::= CHOICE { + certificate Certificate, -- X.509 + extendedCertificate [0] IMPLICIT ExtendedCertificate -- PKCS#6 +} + +ExtendedCertificate ::= Certificate -- cheating + +ExtendedCertificatesAndCertificates ::= + SET OF ExtendedCertificateOrCertificate + +IssuerAndSerialNumber ::= SEQUENCE { + issuer Name, + serialNumber CertificateSerialNumber +} + +KeyEncryptionAlgorithmIdentifier ::= + AlgorithmIdentifier {{KeyEncryptionAlgorithms}} + +KeyEncryptionAlgorithms ALGORITHM ::= { + ... -- add any application-specific algorithms here +} + +-- +-- 7. General syntax +-- + +ContentInfo ::= SEQUENCE { + contentType ContentType, + content [0] EXPLICIT CONTENTS.&Type({Contents}{@contentType}) +OPTIONAL +} + +CONTENTS ::= TYPE-IDENTIFIER + +Contents CONTENTS ::= { + {Data IDENTIFIED BY data} | + {SignedData IDENTIFIED BY signedData} | + {EnvelopedData IDENTIFIED BY envelopedData} | + {SignedAndEnvelopedData IDENTIFIED BY signedAndEnvelopedData} | + {DigestedData IDENTIFIED BY digestedData} | + {EncryptedData IDENTIFIED BY encryptedData}, + ... -- add any application-specific types/contents here +} + +ContentType ::= CONTENTS.&id({Contents}) + +-- +-- 8. Data content type +-- + +Data ::= OCTET STRING + +-- +-- 9. Signed-data content type +-- + +SignedData ::= SEQUENCE { + version INTEGER {sdVer1(1), sdVer2(2)} (sdVer1 | sdVer2), + digestAlgorithms + DigestAlgorithmIdentifiers, + contentInfo ContentInfo, + certificates CHOICE { + certSet [0] IMPLICIT ExtendedCertificatesAndCertificates, + certSequence [2] IMPLICIT Certificates + } OPTIONAL, + crls CHOICE { + crlSet [1] IMPLICIT CertificateRevocationLists, + crlSequence [3] IMPLICIT CRLSequence + } OPTIONAL, + signerInfos SignerInfos +} (WITH COMPONENTS { ..., version (sdVer1), + digestAlgorithms (WITH COMPONENTS { ..., daSet PRESENT }), + certificates (WITH COMPONENTS { ..., certSequence ABSENT }), + crls (WITH COMPONENTS { ..., crlSequence ABSENT }), + signerInfos (WITH COMPONENTS { ..., siSet PRESENT }) + } | + WITH COMPONENTS { ..., version (sdVer2), + digestAlgorithms (WITH COMPONENTS { ..., daSequence PRESENT }), + certificates (WITH COMPONENTS { ..., certSet ABSENT }), + crls (WITH COMPONENTS { ..., crlSet ABSENT }), + signerInfos (WITH COMPONENTS { ..., siSequence PRESENT }) +}) + +SignerInfos ::= CHOICE { + siSet SET OF SignerInfo, + siSequence SEQUENCE OF SignerInfo +} + +DigestAlgorithmIdentifiers ::= CHOICE { + daSet SET OF DigestAlgorithmIdentifier, + daSequence SEQUENCE OF DigestAlgorithmIdentifier +} + +SignerInfo ::= SEQUENCE { + version INTEGER {siVer1(1), siVer2(2)} (siVer1 | siVer2), + issuerAndSerialNumber + IssuerAndSerialNumber, + digestAlgorithm DigestAlgorithmIdentifier, + authenticatedAttributes CHOICE { + aaSet [0] IMPLICIT SET OF Attribute {{Authenticated}}, + aaSequence [2] EXPLICIT SEQUENCE OF Attribute {{Authenticated}} + -- Explicit because easier to compute digest on sequence of attributes and then reuse + -- encoded sequence in aaSequence. + } OPTIONAL, + digestEncryptionAlgorithm + DigestEncryptionAlgorithmIdentifier, + encryptedDigest EncryptedDigest, + unauthenticatedAttributes CHOICE { + uaSet [1] IMPLICIT SET OF Attribute {{Unauthenticated}}, + uaSequence [3] IMPLICIT SEQUENCE OF Attribute {{Unauthenticated}} + } OPTIONAL +} (WITH COMPONENTS { ..., version (siVer1), + authenticatedAttributes (WITH COMPONENTS { ..., aaSequence ABSENT }), + unauthenticatedAttributes (WITH COMPONENTS { ..., uaSequence ABSENT }) +} | WITH COMPONENTS { ..., version (siVer2), + authenticatedAttributes (WITH COMPONENTS { ..., aaSet ABSENT }), + unauthenticatedAttributes (WITH COMPONENTS { ..., uaSet ABSENT }) +}) + +Authenticated ATTRIBUTE ::= { + contentType | + messageDigest, + ..., -- add application-specific attributes here + signingTime +} + +Unauthenticated ATTRIBUTE ::= { + ..., -- add application-specific attributes here + counterSignature +} + +EncryptedDigest ::= OCTET STRING + +DigestInfo ::= SEQUENCE { + digestAlgorithm DigestAlgorithmIdentifier, + digest Digest +} + +Digest ::= OCTET STRING + +-- +-- 10. Enveloped-data content type +-- + +EnvelopedData ::= SEQUENCE { + version INTEGER {edVer0(0), edVer1(1)} (edVer0 | edVer1), + recipientInfos RecipientInfos, + encryptedContentInfo + EncryptedContentInfo +} (WITH COMPONENTS { ..., version (edVer0), + recipientInfos (WITH COMPONENTS { ..., riSet PRESENT }) +} | WITH COMPONENTS { ..., version (edVer1), + recipientInfos (WITH COMPONENTS { ..., riSequence PRESENT }) +}) + +RecipientInfos ::= CHOICE { + riSet SET OF RecipientInfo, + riSequence SEQUENCE OF RecipientInfo +} + +EncryptedContentInfo ::= SEQUENCE { + contentType ContentType, + contentEncryptionAlgorithm + ContentEncryptionAlgorithmIdentifier, + encryptedContent + [0] IMPLICIT EncryptedContent OPTIONAL +} + +EncryptedContent ::= OCTET STRING + +RecipientInfo ::= SEQUENCE { + version INTEGER {riVer0(0)} (riVer0), + issuerAndSerialNumber + IssuerAndSerialNumber, + keyEncryptionAlgorithm + KeyEncryptionAlgorithmIdentifier, + encryptedKey EncryptedKey +} + +EncryptedKey ::= OCTET STRING + +-- +-- 11. Signed-and-enveloped-data content type +-- + +SignedAndEnvelopedData ::= SEQUENCE { + version INTEGER {seVer1(1), seVer2(2)} (seVer1 | seVer2), + recipientInfos RecipientInfos, + digestAlgorithms + DigestAlgorithmIdentifiers, + encryptedContentInfo + EncryptedContentInfo, + certificates CHOICE { + certSet [0] IMPLICIT ExtendedCertificatesAndCertificates, + certSequence [2] IMPLICIT Certificates + } OPTIONAL, + crls CHOICE { + crlSet [1] IMPLICIT CertificateRevocationLists, + crlSequence [3] IMPLICIT CRLSequence + } OPTIONAL, + signerInfos SignerInfos +} (WITH COMPONENTS { ..., version (seVer1), + recipientInfos (WITH COMPONENTS { ..., riSet PRESENT }), + digestAlgorithms (WITH COMPONENTS { ..., daSet PRESENT }), + certificates (WITH COMPONENTS { ..., certSequence ABSENT }), + crls (WITH COMPONENTS { ..., crlSequence ABSENT }), + signerInfos (WITH COMPONENTS { ..., siSet PRESENT }) +} | + WITH COMPONENTS { ..., version (seVer2), + recipientInfos (WITH COMPONENTS { ..., riSequence PRESENT }), + digestAlgorithms (WITH COMPONENTS { ..., daSequence PRESENT }), + certificates (WITH COMPONENTS { ..., certSet ABSENT }), + crls (WITH COMPONENTS { ..., crlSet ABSENT }), + signerInfos (WITH COMPONENTS { ..., siSequence PRESENT }) +}) + +-- +-- 12. Digested-data content type +-- + +DigestedData ::= SEQUENCE { + version INTEGER {ddVer0(0)} (ddVer0), + digestAlgorithm DigestAlgorithmIdentifier, + contentInfo ContentInfo, + digest Digest +} + +-- +-- 13. Encrypted-data content type +-- + +EncryptedData ::= SEQUENCE { + version INTEGER {edVer0(0)} (edVer0), + encryptedContentInfo EncryptedContentInfo +} + +-- +-- 14. Object Identifiers +-- + +pkcs-7 OBJECT IDENTIFIER ::= + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) 7 } +data OBJECT IDENTIFIER ::= { pkcs-7 1 } +signedData OBJECT IDENTIFIER ::= { pkcs-7 2 } +envelopedData OBJECT IDENTIFIER ::= { pkcs-7 3 } +signedAndEnvelopedData OBJECT IDENTIFIER ::= { pkcs-7 4 } +digestedData OBJECT IDENTIFIER ::= { pkcs-7 5 } +encryptedData OBJECT IDENTIFIER ::= { pkcs-7 6 } + +END
\ No newline at end of file diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-8.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-8.asn1 new file mode 100644 index 0000000000..266f90170a --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-8.asn1 @@ -0,0 +1,61 @@ +PKCS-8 {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-8(8) + modules(1) pkcs-8(1)} + +-- $Revision: 1.5 $ + +-- This module has been checked for conformance with the ASN.1 +-- standard by the OSS ASN.1 Tools + +DEFINITIONS IMPLICIT TAGS ::= + +BEGIN + +-- EXPORTS All -- +-- All types and values defined in this module is exported for use in other +-- ASN.1 modules. + +IMPORTS + +informationFramework + FROM UsefulDefinitions {joint-iso-itu-t(2) ds(5) module(1) + usefulDefinitions(0) 3} + +Attribute + FROM InformationFramework informationFramework + +AlgorithmIdentifier, ALGORITHM-IDENTIFIER + FROM PKCS-5 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-5(5) modules(16) pkcs-5(1)}; + +-- Private-key information syntax + +PrivateKeyInfo ::= SEQUENCE { + version Version, + privateKeyAlgorithm AlgorithmIdentifier {{PrivateKeyAlgorithms}}, + privateKey PrivateKey, + attributes [0] Attributes OPTIONAL } + +Version ::= INTEGER {v1(0)} (v1,...) + +PrivateKey ::= OCTET STRING + +Attributes ::= SET OF Attribute + +-- Encrypted private-key information syntax + +EncryptedPrivateKeyInfo ::= SEQUENCE { + encryptionAlgorithm AlgorithmIdentifier {{KeyEncryptionAlgorithms}}, + encryptedData EncryptedData +} + +EncryptedData ::= OCTET STRING + +PrivateKeyAlgorithms ALGORITHM-IDENTIFIER ::= { + ... -- For local profiles +} + +KeyEncryptionAlgorithms ALGORITHM-IDENTIFIER ::= { + ... -- For local profiles +} + +END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-9.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-9.asn1 new file mode 100644 index 0000000000..cd561f4d7e --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS-9.asn1 @@ -0,0 +1,391 @@ +PKCS-9 {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) +pkcs-9(9) modules(0) pkcs-9(1)} + +-- $Revision$ + +DEFINITIONS IMPLICIT TAGS ::= + +BEGIN + +-- EXPORTS All -- +-- All types and values defined in this module is exported for use in +-- other ASN.1 modules. + +IMPORTS + +informationFramework, authenticationFramework, selectedAttributeTypes, + upperBounds , id-at + FROM UsefulDefinitions {joint-iso-itu-t ds(5) module(1) + usefulDefinitions(0) 3} + +ub-name + FROM UpperBounds upperBounds + +OBJECT-CLASS, ATTRIBUTE, MATCHING-RULE, Attribute, top, objectIdentifierMatch + FROM InformationFramework informationFramework + +ALGORITHM, Extensions, Time + FROM AuthenticationFramework authenticationFramework + +DirectoryString, octetStringMatch, caseIgnoreMatch, caseExactMatch, + generalizedTimeMatch, integerMatch, serialNumber + FROM SelectedAttributeTypes selectedAttributeTypes + +ContentInfo, SignerInfo + FROM CryptographicMessageSyntax-2009 {iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) modules(0) cms(1)} + +EncryptedPrivateKeyInfo + FROM PKCS-8 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-8(8) modules(1) pkcs-8(1)} + +PFX + FROM PKCS-12 {iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-12(12) modules(0) pkcs-12(1)} + +-- PKCS15Token +-- FROM PKCS-15 {iso(1) member-body(2) us(840) rsadsi(113549) +-- pkcs(1) pkcs-15(15) modules(1) pkcs-15(1)} +; + +-- Upper bounds +pkcs-9-ub-pkcs9String INTEGER ::= 255 +pkcs-9-ub-emailAddress INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-unstructuredName INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-unstructuredAddress INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-challengePassword INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-friendlyName INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-signingDescription INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-match INTEGER ::= pkcs-9-ub-pkcs9String +pkcs-9-ub-pseudonym INTEGER ::= ub-name +pkcs-9-ub-placeOfBirth INTEGER ::= ub-name + +-- Object Identifiers + +pkcs-9 OBJECT IDENTIFIER ::= {iso(1) member-body(2) us(840) + rsadsi(113549) pkcs(1) 9} + + -- Main arcs +pkcs-9-mo OBJECT IDENTIFIER ::= {pkcs-9 0} -- Modules branch +pkcs-9-oc OBJECT IDENTIFIER ::= {pkcs-9 24} -- Object class branch +pkcs-9-at OBJECT IDENTIFIER ::= {pkcs-9 25} -- Attribute branch, for new attributes +pkcs-9-sx OBJECT IDENTIFIER ::= {pkcs-9 26} -- For syntaxes (RFC 2252) +pkcs-9-mr OBJECT IDENTIFIER ::= {pkcs-9 27} -- Matching rules + + -- Object classes +pkcs-9-oc-pkcsEntity OBJECT IDENTIFIER ::= {pkcs-9-oc 1} +pkcs-9-oc-naturalPerson OBJECT IDENTIFIER ::= {pkcs-9-oc 2} + + -- Attributes +pkcs-9-at-emailAddress OBJECT IDENTIFIER ::= {pkcs-9 1} +pkcs-9-at-unstructuredName OBJECT IDENTIFIER ::= {pkcs-9 2} +pkcs-9-at-contentType OBJECT IDENTIFIER ::= {pkcs-9 3} +pkcs-9-at-messageDigest OBJECT IDENTIFIER ::= {pkcs-9 4} +pkcs-9-at-signingTime OBJECT IDENTIFIER ::= {pkcs-9 5} +pkcs-9-at-counterSignature OBJECT IDENTIFIER ::= {pkcs-9 6} +pkcs-9-at-challengePassword OBJECT IDENTIFIER ::= {pkcs-9 7} +pkcs-9-at-unstructuredAddress OBJECT IDENTIFIER ::= {pkcs-9 8} +pkcs-9-at-extendedCertificateAttributes OBJECT IDENTIFIER ::= {pkcs-9 9} + +-- Obsolete (?) attribute identifiers, purportedly from "tentative +-- PKCS #9 draft" +-- pkcs-9-at-issuerAndSerialNumber OBJECT IDENTIFIER ::= {pkcs-9 10} +-- pkcs-9-at-passwordCheck OBJECT IDENTIFIER ::= {pkcs-9 11} +-- pkcs-9-at-publicKey OBJECT IDENTIFIER ::= {pkcs-9 12} + +pkcs-9-at-signingDescription OBJECT IDENTIFIER ::= {pkcs-9 13} +pkcs-9-at-extensionRequest OBJECT IDENTIFIER ::= {pkcs-9 14} +pkcs-9-at-smimeCapabilities OBJECT IDENTIFIER ::= {pkcs-9 15} + +-- Unused (?) +-- pkcs-9-at-? OBJECT IDENTIFIER ::= {pkcs-9 17} +-- pkcs-9-at-? OBJECT IDENTIFIER ::= {pkcs-9 18} +-- pkcs-9-at-? OBJECT IDENTIFIER ::= {pkcs-9 19} + +pkcs-9-at-friendlyName OBJECT IDENTIFIER ::= {pkcs-9 20} +pkcs-9-at-localKeyId OBJECT IDENTIFIER ::= {pkcs-9 21} +pkcs-9-at-userPKCS12 OBJECT IDENTIFIER ::= {2 16 840 1 113730 3 1 216} +pkcs-9-at-pkcs15Token OBJECT IDENTIFIER ::= {pkcs-9-at 1} +pkcs-9-at-encryptedPrivateKeyInfo OBJECT IDENTIFIER ::= {pkcs-9-at 2} +pkcs-9-at-randomNonce OBJECT IDENTIFIER ::= {pkcs-9-at 3} +pkcs-9-at-sequenceNumber OBJECT IDENTIFIER ::= {pkcs-9-at 4} +pkcs-9-at-pkcs7PDU OBJECT IDENTIFIER ::= {pkcs-9-at 5} + + -- IETF PKIX Attribute branch +ietf-at OBJECT IDENTIFIER ::= {1 3 6 1 5 5 7 9} + +pkcs-9-at-dateOfBirth OBJECT IDENTIFIER ::= {ietf-at 1} +pkcs-9-at-placeOfBirth OBJECT IDENTIFIER ::= {ietf-at 2} +pkcs-9-at-gender OBJECT IDENTIFIER ::= {ietf-at 3} +pkcs-9-at-countryOfCitizenship OBJECT IDENTIFIER ::= {ietf-at 4} +pkcs-9-at-countryOfResidence OBJECT IDENTIFIER ::= {ietf-at 5} + + -- Syntaxes (for use with LDAP accessible directories) +pkcs-9-sx-pkcs9String OBJECT IDENTIFIER ::= {pkcs-9-sx 1} +pkcs-9-sx-signingTime OBJECT IDENTIFIER ::= {pkcs-9-sx 2} + + -- Matching rules +pkcs-9-mr-caseIgnoreMatch OBJECT IDENTIFIER ::= {pkcs-9-mr 1} +pkcs-9-mr-signingTimeMatch OBJECT IDENTIFIER ::= {pkcs-9-mr 2} + + -- Arcs with attributes defined elsewhere +smime OBJECT IDENTIFIER ::= {pkcs-9 16} + -- Main arc for S/MIME (RFC 2633) +certTypes OBJECT IDENTIFIER ::= {pkcs-9 22} + -- Main arc for certificate types defined in PKCS #12 +crlTypes OBJECT IDENTIFIER ::= {pkcs-9 23} + -- Main arc for crl types defined in PKCS #12 + + -- Other object identifiers +id-at-pseudonym OBJECT IDENTIFIER ::= {id-at 65} + +-- Useful types + +PKCS9String {INTEGER : maxSize} ::= CHOICE { + ia5String IA5String (SIZE(1..maxSize)), + directoryString DirectoryString {maxSize} +} + +-- Object classes + +pkcsEntity OBJECT-CLASS ::= { + SUBCLASS OF { top } + KIND auxiliary + MAY CONTAIN { PKCSEntityAttributeSet } + ID pkcs-9-oc-pkcsEntity +} + +naturalPerson OBJECT-CLASS ::= { + SUBCLASS OF { top } + KIND auxiliary + MAY CONTAIN { NaturalPersonAttributeSet } + ID pkcs-9-oc-naturalPerson +} + +-- Attribute sets + +PKCSEntityAttributeSet ATTRIBUTE ::= { + pKCS7PDU | + userPKCS12 | +-- pKCS15Token | + encryptedPrivateKeyInfo, + ... -- For future extensions +} + +NaturalPersonAttributeSet ATTRIBUTE ::= { + emailAddress | + unstructuredName | + unstructuredAddress | + dateOfBirth | + placeOfBirth | + gender | + countryOfCitizenship | + countryOfResidence | + pseudonym | + serialNumber, + ... -- For future extensions +} + +-- Attributes + +pKCS7PDU ATTRIBUTE ::= { + WITH SYNTAX ContentInfo + ID pkcs-9-at-pkcs7PDU +} + +userPKCS12 ATTRIBUTE ::= { + WITH SYNTAX PFX + ID pkcs-9-at-userPKCS12 +} + +-- pKCS15Token ATTRIBUTE ::= { +-- WITH SYNTAX PKCS15Token +-- ID pkcs-9-at-pkcs15Token +-- } + +encryptedPrivateKeyInfo ATTRIBUTE ::= { + WITH SYNTAX EncryptedPrivateKeyInfo + ID pkcs-9-at-encryptedPrivateKeyInfo +} + +emailAddress ATTRIBUTE ::= { + WITH SYNTAX IA5String (SIZE(1..pkcs-9-ub-emailAddress)) + EQUALITY MATCHING RULE pkcs9CaseIgnoreMatch + ID pkcs-9-at-emailAddress +} + +unstructuredName ATTRIBUTE ::= { + WITH SYNTAX PKCS9String {pkcs-9-ub-unstructuredName} + EQUALITY MATCHING RULE pkcs9CaseIgnoreMatch + ID pkcs-9-at-unstructuredName +} + +unstructuredAddress ATTRIBUTE ::= { + WITH SYNTAX DirectoryString {pkcs-9-ub-unstructuredAddress} + EQUALITY MATCHING RULE caseIgnoreMatch + ID pkcs-9-at-unstructuredAddress +} + +dateOfBirth ATTRIBUTE ::= { + WITH SYNTAX GeneralizedTime + EQUALITY MATCHING RULE generalizedTimeMatch + SINGLE VALUE TRUE + ID pkcs-9-at-dateOfBirth +} + +placeOfBirth ATTRIBUTE ::= { + WITH SYNTAX DirectoryString {pkcs-9-ub-placeOfBirth} + EQUALITY MATCHING RULE caseExactMatch + SINGLE VALUE TRUE + ID pkcs-9-at-placeOfBirth +} + +gender ATTRIBUTE ::= { + WITH SYNTAX PrintableString (SIZE(1) ^ FROM ("M" | "F" | "m" | "f")) + EQUALITY MATCHING RULE caseIgnoreMatch + SINGLE VALUE TRUE + ID pkcs-9-at-gender +} + +countryOfCitizenship ATTRIBUTE ::= { + WITH SYNTAX PrintableString (SIZE(2))(CONSTRAINED BY { + -- Must be a two-letter country acronym in accordance with + -- ISO/IEC 3166 --}) + EQUALITY MATCHING RULE caseIgnoreMatch + ID pkcs-9-at-countryOfCitizenship +} + +countryOfResidence ATTRIBUTE ::= { + WITH SYNTAX PrintableString (SIZE(2))(CONSTRAINED BY { + -- Must be a two-letter country acronym in accordance with + -- ISO/IEC 3166 --}) + EQUALITY MATCHING RULE caseIgnoreMatch + ID pkcs-9-at-countryOfResidence +} + +pseudonym ATTRIBUTE ::= { + WITH SYNTAX DirectoryString {pkcs-9-ub-pseudonym} + EQUALITY MATCHING RULE caseExactMatch + ID id-at-pseudonym +} + +contentType ATTRIBUTE ::= { + WITH SYNTAX ContentType + EQUALITY MATCHING RULE objectIdentifierMatch + SINGLE VALUE TRUE + ID pkcs-9-at-contentType +} + +ContentType ::= OBJECT IDENTIFIER + +messageDigest ATTRIBUTE ::= { + WITH SYNTAX MessageDigest + EQUALITY MATCHING RULE octetStringMatch + SINGLE VALUE TRUE + ID pkcs-9-at-messageDigest +} + +MessageDigest ::= OCTET STRING + +signingTime ATTRIBUTE ::= { + WITH SYNTAX SigningTime + EQUALITY MATCHING RULE signingTimeMatch + SINGLE VALUE TRUE + ID pkcs-9-at-signingTime +} + +SigningTime ::= Time -- imported from ISO/IEC 9594-8 + +randomNonce ATTRIBUTE ::= { + WITH SYNTAX RandomNonce + EQUALITY MATCHING RULE octetStringMatch + SINGLE VALUE TRUE + ID pkcs-9-at-randomNonce +} + +RandomNonce ::= OCTET STRING (SIZE(4..MAX)) -- At least four bytes long + +sequenceNumber ATTRIBUTE ::= { + WITH SYNTAX SequenceNumber + EQUALITY MATCHING RULE integerMatch + SINGLE VALUE TRUE + ID pkcs-9-at-sequenceNumber +} + +SequenceNumber ::= INTEGER (1..MAX) + +counterSignature ATTRIBUTE ::= { + WITH SYNTAX SignerInfo + ID pkcs-9-at-counterSignature +} + +challengePassword ATTRIBUTE ::= { + WITH SYNTAX DirectoryString {pkcs-9-ub-challengePassword} + EQUALITY MATCHING RULE caseExactMatch + SINGLE VALUE TRUE + ID pkcs-9-at-challengePassword +} + +extensionRequest ATTRIBUTE ::= { + WITH SYNTAX ExtensionRequest + SINGLE VALUE TRUE + ID pkcs-9-at-extensionRequest +} + +ExtensionRequest ::= Extensions + +extendedCertificateAttributes ATTRIBUTE ::= { + WITH SYNTAX SET OF Attribute + SINGLE VALUE TRUE + ID pkcs-9-at-extendedCertificateAttributes +} + +friendlyName ATTRIBUTE ::= { + WITH SYNTAX BMPString (SIZE(1..pkcs-9-ub-friendlyName)) + EQUALITY MATCHING RULE caseIgnoreMatch + SINGLE VALUE TRUE + ID pkcs-9-at-friendlyName +} + +localKeyId ATTRIBUTE ::= { + WITH SYNTAX OCTET STRING + EQUALITY MATCHING RULE octetStringMatch + SINGLE VALUE TRUE + ID pkcs-9-at-localKeyId +} + +signingDescription ATTRIBUTE ::= { + WITH SYNTAX DirectoryString {pkcs-9-ub-signingDescription} + EQUALITY MATCHING RULE caseIgnoreMatch + SINGLE VALUE TRUE + ID pkcs-9-at-signingDescription +} + +smimeCapabilities ATTRIBUTE ::= { + WITH SYNTAX SMIMECapabilities + SINGLE VALUE TRUE + ID pkcs-9-at-smimeCapabilities +} + +SMIMECapabilities ::= SEQUENCE OF SMIMECapability + +SMIMECapability ::= SEQUENCE { + algorithm ALGORITHM.&id ({SMIMEv3Algorithms}), + parameters ALGORITHM.&Type ({SMIMEv3Algorithms}{@algorithm}) +} + +SMIMEv3Algorithms ALGORITHM ::= {...-- See RFC 2633 --} + + -- Matching rules + +pkcs9CaseIgnoreMatch MATCHING-RULE ::= { + SYNTAX PKCS9String {pkcs-9-ub-match} + ID pkcs-9-mr-caseIgnoreMatch +} + +signingTimeMatch MATCHING-RULE ::= { + SYNTAX SigningTime + ID pkcs-9-mr-signingTimeMatch +} + +END
\ No newline at end of file diff --git a/lib/asn1/test/asn1_SUITE_data/x420/PKCS7BodyPartType.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS7BodyPartType.asn1 index 525ee3c5ec..1bcc2281a1 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/PKCS7BodyPartType.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKCS7BodyPartType.asn1 @@ -6,7 +6,7 @@ BEGIN IMPORTS -- PKCS#7 ContentInfo - FROM PKCS7 {iso(1) member-body(2) usa(840) rsadsi(113549) pkcs(1) + FROM PKCS-7 {iso(1) member-body(2) usa(840) rsadsi(113549) pkcs(1) 7 module(0)} -- module not formally defined in the PKCS#7document, therefore defined in Annex O -- IPMS Information Objects diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-CommonTypes-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-CommonTypes-2009.asn1 new file mode 100644 index 0000000000..fde5bddbf3 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-CommonTypes-2009.asn1 @@ -0,0 +1,166 @@ + PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + + -- ATTRIBUTE + -- + -- Describe the set of data associated with an attribute of some type + -- + -- &id is an OID identifying the attribute + -- &Type is the ASN.1 type structure for the attribute; not all + -- attributes have a data structure, so this field is optional + -- &minCount contains the minimum number of times the attribute can + -- occur in an AttributeSet + -- &maxCount contains the maximum number of times the attribute can + -- appear in an AttributeSet + -- Note: this cannot be automatically enforced as the field + -- cannot be defaulted to MAX. + -- &equality-match contains information about how matching should be + -- done + -- + -- Currently we are using two different prefixes for attributes. + -- + -- at- for certificate attributes + -- aa- for CMS attributes + -- + + ATTRIBUTE ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &Type OPTIONAL, + &equality-match MATCHING-RULE OPTIONAL, + &minCount INTEGER DEFAULT 1, + &maxCount INTEGER OPTIONAL + } WITH SYNTAX { + [TYPE &Type] + [EQUALITY MATCHING RULE &equality-match] + [COUNTS [MIN &minCount] [MAX &maxCount]] + IDENTIFIED BY &id + } + + -- Specification of MATCHING-RULE information object class + -- + + MATCHING-RULE ::= CLASS { + &ParentMatchingRules MATCHING-RULE OPTIONAL, + &AssertionType OPTIONAL, + &uniqueMatchIndicator ATTRIBUTE OPTIONAL, + &id OBJECT IDENTIFIER UNIQUE + } + WITH SYNTAX { + [PARENT &ParentMatchingRules] + [SYNTAX &AssertionType] + [UNIQUE-MATCH-INDICATOR &uniqueMatchIndicator] + ID &id + } + + -- AttributeSet + -- + -- Used when a set of attributes is to occur. + -- + -- type contains the identifier of the attribute + -- values contains a set of values where the structure of the ASN.1 + -- is defined by the attribute + -- + -- The parameter contains the set of objects describing + -- those attributes that can occur in this location. + -- + + AttributeSet{ATTRIBUTE:AttrSet} ::= SEQUENCE { + type ATTRIBUTE.&id({AttrSet}), + values SET SIZE (1..MAX) OF ATTRIBUTE. + &Type({AttrSet}{@type}) + } + + -- SingleAttribute + -- + -- Used for a single valued attribute + -- + -- The parameter contains the set of objects describing the + -- attributes that can occur in this location + -- + + SingleAttribute{ATTRIBUTE:AttrSet} ::= SEQUENCE { + type ATTRIBUTE.&id({AttrSet}), + value ATTRIBUTE.&Type({AttrSet}{@type}) + } + + -- EXTENSION + -- + -- This class definition is used to describe the association of + -- object identifier and ASN.1 type structure for extensions + -- + -- All extensions are prefixed with ext- + -- + -- &id contains the object identifier for the extension + -- &ExtnType specifies the ASN.1 type structure for the extension + -- &Critical contains the set of legal values for the critical field. + -- This is normally {TRUE|FALSE} but in some instances may be + -- restricted to just one of these values. + -- + + EXTENSION ::= CLASS { + &id OBJECT IDENTIFIER UNIQUE, + &ExtnType, + &Critical BOOLEAN DEFAULT {TRUE | FALSE } + } WITH SYNTAX { + SYNTAX &ExtnType IDENTIFIED BY &id + [CRITICALITY &Critical] + } + + -- Extensions + -- + -- Used for a sequence of extensions. + -- + -- The parameter contains the set of legal extensions that can + -- occur in this sequence. + -- + + Extensions{EXTENSION:ExtensionSet} ::= + SEQUENCE SIZE (1..MAX) OF Extension{{ExtensionSet}} + + -- Extension + -- + -- Used for a single extension + -- + -- The parameter contains the set of legal extensions that can + -- occur in this extension. + -- + -- The restriction on the critical field has been commented out + -- the authors are not completely sure it is correct. + -- The restriction could be done using custom code rather than + -- compiler-generated code, however. + -- + + Extension{EXTENSION:ExtensionSet} ::= SEQUENCE { + extnID EXTENSION.&id({ExtensionSet}), + critical BOOLEAN + -- (EXTENSION.&Critical({ExtensionSet}{@extnID})) + DEFAULT FALSE, + extnValue OCTET STRING (CONTAINING + EXTENSION.&ExtnType({ExtensionSet}{@extnID})) + -- contains the DER encoding of the ASN.1 value + -- corresponding to the extension type identified + -- by extnID + } + + -- Security Category + -- + -- Security categories are used both for specifying clearances and + -- for labeling objects. We move this here from RFC 3281 so that + -- they will use a common single object class to express this + -- information. + -- + + SECURITY-CATEGORY ::= TYPE-IDENTIFIER + + SecurityCategory{SECURITY-CATEGORY:Supported} ::= SEQUENCE { + type [0] IMPLICIT SECURITY-CATEGORY. + &id({Supported}), + value [1] EXPLICIT SECURITY-CATEGORY. + &Type({Supported}{@type}) + } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-X400Address-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-X400Address-2009.asn1 new file mode 100644 index 0000000000..41cbaea67e --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX-X400Address-2009.asn1 @@ -0,0 +1,300 @@ + -- + -- This module is used to isolate all the X.400 naming information. + -- There is no reason to expect this to occur in a PKIX certificate. + -- + + PKIX-X400Address-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-x400address-02(60) } + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + + -- X.400 address syntax starts here + + ORAddress ::= SEQUENCE { + built-in-standard-attributes BuiltInStandardAttributes, + built-in-domain-defined-attributes + BuiltInDomainDefinedAttributes OPTIONAL, + + -- see also teletex-domain-defined-attributes + extension-attributes ExtensionAttributes OPTIONAL } + + -- Built-in Standard Attributes + + BuiltInStandardAttributes ::= SEQUENCE { + country-name CountryName OPTIONAL, + administration-domain-name AdministrationDomainName OPTIONAL, + network-address [0] IMPLICIT NetworkAddress OPTIONAL, + -- see also extended-network-address + terminal-identifier [1] IMPLICIT TerminalIdentifier OPTIONAL, + private-domain-name [2] PrivateDomainName OPTIONAL, + organization-name [3] IMPLICIT OrganizationName OPTIONAL, + -- see also teletex-organization-name + numeric-user-identifier [4] IMPLICIT NumericUserIdentifier + OPTIONAL, + personal-name [5] IMPLICIT PersonalName OPTIONAL, + -- see also teletex-personal-name + organizational-unit-names [6] IMPLICIT OrganizationalUnitNames + OPTIONAL } + -- see also teletex-organizational-unit-names + + CountryName ::= [APPLICATION 1] CHOICE { + x121-dcc-code NumericString + (SIZE (ub-country-name-numeric-length)), + iso-3166-alpha2-code PrintableString + (SIZE (ub-country-name-alpha-length)) } + + AdministrationDomainName ::= [APPLICATION 2] CHOICE { + numeric NumericString (SIZE (0..ub-domain-name-length)), + printable PrintableString (SIZE (0..ub-domain-name-length)) } + + NetworkAddress ::= X121Address -- see also extended-network-address + + X121Address ::= NumericString (SIZE (1..ub-x121-address-length)) + + TerminalIdentifier ::= PrintableString (SIZE + (1..ub-terminal-id-length)) + + PrivateDomainName ::= CHOICE { + numeric NumericString (SIZE (1..ub-domain-name-length)), + printable PrintableString (SIZE (1..ub-domain-name-length)) } + + OrganizationName ::= PrintableString + (SIZE (1..ub-organization-name-length)) + -- see also teletex-organization-name + + NumericUserIdentifier ::= NumericString + (SIZE (1..ub-numeric-user-id-length)) + + PersonalName ::= SET { + surname [0] IMPLICIT PrintableString + (SIZE (1..ub-surname-length)), + given-name [1] IMPLICIT PrintableString + (SIZE (1..ub-given-name-length)) OPTIONAL, + initials [2] IMPLICIT PrintableString + (SIZE (1..ub-initials-length)) OPTIONAL, + generation-qualifier [3] IMPLICIT PrintableString + (SIZE (1..ub-generation-qualifier-length)) + OPTIONAL } + -- see also teletex-personal-name + + OrganizationalUnitNames ::= SEQUENCE SIZE (1..ub-organizational-units) + OF OrganizationalUnitName + -- see also teletex-organizational-unit-names + + OrganizationalUnitName ::= PrintableString (SIZE + (1..ub-organizational-unit-name-length)) + + -- Built-in Domain-defined Attributes + + BuiltInDomainDefinedAttributes ::= SEQUENCE SIZE + (1..ub-domain-defined-attributes) OF + BuiltInDomainDefinedAttribute + + BuiltInDomainDefinedAttribute ::= SEQUENCE { + type PrintableString (SIZE + (1..ub-domain-defined-attribute-type-length)), + value PrintableString (SIZE + (1..ub-domain-defined-attribute-value-length)) } + + -- Extension Attributes + + ExtensionAttributes ::= SET SIZE (1..ub-extension-attributes) OF + ExtensionAttribute + + EXTENSION-ATTRIBUTE ::= CLASS { + &id INTEGER (0..ub-extension-attributes) UNIQUE, + &Type + } WITH SYNTAX { &Type IDENTIFIED BY &id } + + ExtensionAttribute ::= SEQUENCE { + extension-attribute-type [0] IMPLICIT EXTENSION-ATTRIBUTE. + &id({SupportedExtensionAttributes}), + extension-attribute-value [1] EXTENSION-ATTRIBUTE. + &Type({SupportedExtensionAttributes} + {@extension-attribute-type})} + + SupportedExtensionAttributes EXTENSION-ATTRIBUTE ::= { + ea-commonName | ea-teletexCommonName | ea-teletexOrganizationName + | ea-teletexPersonalName | ea-teletexOrganizationalUnitNames | + ea-pDSName | ea-physicalDeliveryCountryName | ea-postalCode | + ea-physicalDeliveryOfficeName | ea-physicalDeliveryOfficeNumber | + ea-extensionORAddressComponents | ea-physicalDeliveryPersonalName + | ea-physicalDeliveryOrganizationName | + ea-extensionPhysicalDeliveryAddressComponents | + ea-unformattedPostalAddress | ea-streetAddress | + ea-postOfficeBoxAddress | ea-posteRestanteAddress | + ea-uniquePostalName | ea-localPostalAttributes | + ea-extendedNetworkAddress | ea-terminalType | + ea-teletexDomainDefinedAttributes, ... } + + -- Extension types and attribute values + + ea-commonName EXTENSION-ATTRIBUTE ::= { PrintableString + (SIZE (1..ub-common-name-length)) IDENTIFIED BY 1 } + + ea-teletexCommonName EXTENSION-ATTRIBUTE ::= {TeletexString + (SIZE (1..ub-common-name-length)) IDENTIFIED BY 2 } + + ea-teletexOrganizationName EXTENSION-ATTRIBUTE::= { TeletexString + (SIZE (1..ub-organization-name-length)) IDENTIFIED BY 3 } + + ea-teletexPersonalName EXTENSION-ATTRIBUTE ::= {SET { + surname [0] IMPLICIT TeletexString + (SIZE (1..ub-surname-length)), + given-name [1] IMPLICIT TeletexString + (SIZE (1..ub-given-name-length)) OPTIONAL, + initials [2] IMPLICIT TeletexString + (SIZE (1..ub-initials-length)) OPTIONAL, + generation-qualifier [3] IMPLICIT TeletexString + (SIZE (1..ub-generation-qualifier-length)) + OPTIONAL } IDENTIFIED BY 4 } + + ea-teletexOrganizationalUnitNames EXTENSION-ATTRIBUTE ::= + { SEQUENCE SIZE (1..ub-organizational-units) OF + TeletexOrganizationalUnitName IDENTIFIED BY 5 } + + TeletexOrganizationalUnitName ::= TeletexString + (SIZE (1..ub-organizational-unit-name-length)) + + ea-pDSName EXTENSION-ATTRIBUTE ::= {PrintableString + (SIZE (1..ub-pds-name-length)) IDENTIFIED BY 7 } + + ea-physicalDeliveryCountryName EXTENSION-ATTRIBUTE ::= { CHOICE { + x121-dcc-code NumericString (SIZE + (ub-country-name-numeric-length)), + iso-3166-alpha2-code PrintableString + (SIZE (ub-country-name-alpha-length)) } + IDENTIFIED BY 8 } + + ea-postalCode EXTENSION-ATTRIBUTE ::= { CHOICE { + numeric-code NumericString (SIZE (1..ub-postal-code-length)), + printable-code PrintableString (SIZE (1..ub-postal-code-length)) } + IDENTIFIED BY 9 } + + ea-physicalDeliveryOfficeName EXTENSION-ATTRIBUTE ::= + { PDSParameter IDENTIFIED BY 10 } + + ea-physicalDeliveryOfficeNumber EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 11 } + + ea-extensionORAddressComponents EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 12 } + + ea-physicalDeliveryPersonalName EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 13} + + ea-physicalDeliveryOrganizationName EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 14 } + + ea-extensionPhysicalDeliveryAddressComponents EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 15 } + + ea-unformattedPostalAddress EXTENSION-ATTRIBUTE ::= { SET { + printable-address SEQUENCE SIZE (1..ub-pds-physical-address-lines) + OF PrintableString (SIZE (1..ub-pds-parameter-length)) + OPTIONAL, + teletex-string TeletexString + (SIZE (1..ub-unformatted-address-length)) OPTIONAL } + IDENTIFIED BY 16 } + + ea-streetAddress EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 17 } + + ea-postOfficeBoxAddress EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 18 } + + ea-posteRestanteAddress EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 19 } + + ea-uniquePostalName EXTENSION-ATTRIBUTE ::= + { PDSParameter IDENTIFIED BY 20 } + + ea-localPostalAttributes EXTENSION-ATTRIBUTE ::= + {PDSParameter IDENTIFIED BY 21 } + PDSParameter ::= SET { + printable-string PrintableString + (SIZE(1..ub-pds-parameter-length)) OPTIONAL, + teletex-string TeletexString + (SIZE(1..ub-pds-parameter-length)) OPTIONAL } + + ea-extendedNetworkAddress EXTENSION-ATTRIBUTE ::= { + CHOICE { + e163-4-address SEQUENCE { + number [0] IMPLICIT NumericString + (SIZE (1..ub-e163-4-number-length)), + sub-address [1] IMPLICIT NumericString + (SIZE (1..ub-e163-4-sub-address-length)) OPTIONAL + }, + psap-address [0] IMPLICIT PresentationAddress + } IDENTIFIED BY 22 + } + + PresentationAddress ::= SEQUENCE { + pSelector [0] EXPLICIT OCTET STRING OPTIONAL, + sSelector [1] EXPLICIT OCTET STRING OPTIONAL, + tSelector [2] EXPLICIT OCTET STRING OPTIONAL, + nAddresses [3] EXPLICIT SET SIZE (1..MAX) OF OCTET STRING } + + ea-terminalType EXTENSION-ATTRIBUTE ::= {INTEGER { + telex (3), + teletex (4), + g3-facsimile (5), + g4-facsimile (6), + ia5-terminal (7), + videotex (8) } (0..ub-integer-options) + IDENTIFIED BY 23 } + + -- Extension Domain-defined Attributes + + ea-teletexDomainDefinedAttributes EXTENSION-ATTRIBUTE ::= + { SEQUENCE SIZE (1..ub-domain-defined-attributes) OF + TeletexDomainDefinedAttribute IDENTIFIED BY 6 } + + TeletexDomainDefinedAttribute ::= SEQUENCE { + type TeletexString + (SIZE (1..ub-domain-defined-attribute-type-length)), + value TeletexString + (SIZE (1..ub-domain-defined-attribute-value-length)) } + + -- specifications of Upper Bounds MUST be regarded as mandatory + -- from Annex B of ITU-T X.411 Reference Definition of MTS Parameter + -- Upper Bounds + -- Upper Bounds + ub-match INTEGER ::= 128 + ub-common-name-length INTEGER ::= 64 + ub-country-name-alpha-length INTEGER ::= 2 + ub-country-name-numeric-length INTEGER ::= 3 + ub-domain-defined-attributes INTEGER ::= 4 + ub-domain-defined-attribute-type-length INTEGER ::= 8 + ub-domain-defined-attribute-value-length INTEGER ::= 128 + ub-domain-name-length INTEGER ::= 16 + ub-extension-attributes INTEGER ::= 256 + ub-e163-4-number-length INTEGER ::= 15 + ub-e163-4-sub-address-length INTEGER ::= 40 + ub-generation-qualifier-length INTEGER ::= 3 + ub-given-name-length INTEGER ::= 16 + ub-initials-length INTEGER ::= 5 + ub-integer-options INTEGER ::= 256 + ub-numeric-user-id-length INTEGER ::= 32 + ub-organization-name-length INTEGER ::= 64 + ub-organizational-unit-name-length INTEGER ::= 32 + ub-organizational-units INTEGER ::= 4 + ub-pds-name-length INTEGER ::= 16 + ub-pds-parameter-length INTEGER ::= 30 + ub-pds-physical-address-lines INTEGER ::= 6 + ub-postal-code-length INTEGER ::= 16 + ub-surname-length INTEGER ::= 40 + ub-terminal-id-length INTEGER ::= 24 + ub-unformatted-address-length INTEGER ::= 180 + ub-x121-address-length INTEGER ::= 16 + + -- Note - upper bounds on string types, such as TeletexString, are + -- measured in characters. Excepting PrintableString or IA5String, a + -- significantly greater number of octets will be required to hold + -- such a value. As a minimum, 16 octets or twice the specified + -- upper bound, whichever is the larger, should be allowed for + -- TeletexString. For UTF8String or UniversalString, at least four + -- times the upper bound should be allowed. + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1-PSS-OAEP-Algorithms-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1-PSS-OAEP-Algorithms-2009.asn1 new file mode 100644 index 0000000000..b1232fb8f2 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1-PSS-OAEP-Algorithms-2009.asn1 @@ -0,0 +1,308 @@ + PKIX1-PSS-OAEP-Algorithms-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-rsa-pkalgs-02(54)} + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + IMPORTS + + AlgorithmIdentifier{}, ALGORITHM, DIGEST-ALGORITHM, KEY-TRANSPORT, + SIGNATURE-ALGORITHM, PUBLIC-KEY, SMIME-CAPS + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + id-sha1, mda-sha1, pk-rsa, RSAPublicKey + FROM PKIXAlgs-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56)}; + + -- ============================ + -- Object Set exports + -- ============================ + -- + -- Define top-level symbols with all of the objects defined for + -- export to other modules. These objects would be included as part + -- of an Object Set to restrict the set of legal values. + -- + + PublicKeys PUBLIC-KEY ::= { pk-rsaSSA-PSS | pk-rsaES-OAEP, ... } + SignatureAlgs SIGNATURE-ALGORITHM ::= { sa-rsaSSA-PSS, ...} + KeyTransportAlgs KEY-TRANSPORT ::= { kta-rsaES-OAEP, ... } + HashAlgs DIGEST-ALGORITHM ::= { mda-sha224 | mda-sha256 | mda-sha384 + | mda-sha512, ... } + SMimeCaps SMIME-CAPS ::= { + sa-rsaSSA-PSS.&smimeCaps | + kta-rsaES-OAEP.&smimeCaps, + ... + } + + -- ============================= + -- Algorithm Objects + -- ============================= + + -- + -- Public key object for PSS signatures + -- + + pk-rsaSSA-PSS PUBLIC-KEY ::= { + IDENTIFIER id-RSASSA-PSS + KEY RSAPublicKey + PARAMS TYPE RSASSA-PSS-params ARE optional + -- Private key format not in this module -- + CERT-KEY-USAGE { nonRepudiation, digitalSignature, + keyCertSign, cRLSign } + } + + -- + -- Signature algorithm definition for PSS signatures + -- + + sa-rsaSSA-PSS SIGNATURE-ALGORITHM ::= { + IDENTIFIER id-RSASSA-PSS + PARAMS TYPE RSASSA-PSS-params ARE required + HASHES { mda-sha1 | mda-sha224 | mda-sha256 | mda-sha384 + | mda-sha512 } + PUBLIC-KEYS { pk-rsa | pk-rsaSSA-PSS } + SMIME-CAPS { IDENTIFIED BY id-RSASSA-PSS } + } + + -- + -- Signature algorithm definitions for PKCS v1.5 signatures + -- + + sa-sha224WithRSAEncryption SIGNATURE-ALGORITHM ::= { + IDENTIFIER sha224WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-sha224 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY sha224WithRSAEncryption } + } + sha224WithRSAEncryption OBJECT IDENTIFIER ::= { pkcs-1 14 } + + sa-sha256WithRSAEncryption SIGNATURE-ALGORITHM ::= { + IDENTIFIER sha256WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-sha256 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY sha256WithRSAEncryption } + } + sha256WithRSAEncryption OBJECT IDENTIFIER ::= { pkcs-1 11 } + + sa-sha384WithRSAEncryption SIGNATURE-ALGORITHM ::= { + IDENTIFIER sha384WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-sha384 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY sha384WithRSAEncryption } + } + sha384WithRSAEncryption OBJECT IDENTIFIER ::= { pkcs-1 12 } + + sa-sha512WithRSAEncryption SIGNATURE-ALGORITHM ::= { + IDENTIFIER sha512WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-sha512 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY sha512WithRSAEncryption } + } + sha512WithRSAEncryption OBJECT IDENTIFIER ::= { pkcs-1 13 } + + -- + -- Public key definition for OAEP encryption + -- + + pk-rsaES-OAEP PUBLIC-KEY ::= { + IDENTIFIER id-RSAES-OAEP + KEY RSAPublicKey + PARAMS TYPE RSAES-OAEP-params ARE optional + -- Private key format not in this module -- + CERT-KEY-USAGE {keyEncipherment, dataEncipherment} + } + + -- + -- Key transport key lock definition for OAEP encryption + -- + + kta-rsaES-OAEP KEY-TRANSPORT ::= { + IDENTIFIER id-RSAES-OAEP + PARAMS TYPE RSAES-OAEP-params ARE required + PUBLIC-KEYS { pk-rsa | pk-rsaES-OAEP } + SMIME-CAPS { TYPE RSAES-OAEP-params IDENTIFIED BY id-RSAES-OAEP} + } + -- ============================ + -- Basic object identifiers + -- ============================ + + pkcs-1 OBJECT IDENTIFIER ::= + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) 1 } + + -- When rsaEncryption is used in an AlgorithmIdentifier, the + -- parameters MUST be present and MUST be NULL. + -- rsaEncryption OBJECT IDENTIFIER ::= { pkcs-1 1 } + + -- When id-RSAES-OAEP is used in an AlgorithmIdentifier, + -- and the parameters field is present, it MUST be + -- RSAES-OAEP-params. + + id-RSAES-OAEP OBJECT IDENTIFIER ::= { pkcs-1 7 } + + -- When id-mgf1 is used in an AlgorithmIdentifier, the parameters + -- MUST be present and MUST be a HashAlgorithm. + + id-mgf1 OBJECT IDENTIFIER ::= { pkcs-1 8 } + + -- When id-pSpecified is used in an AlgorithmIdentifier, the + -- parameters MUST be an OCTET STRING. + + id-pSpecified OBJECT IDENTIFIER ::= { pkcs-1 9 } + + -- When id-RSASSA-PSS is used in an AlgorithmIdentifier, and the + -- parameters field is present, it MUST be RSASSA-PSS-params. + + id-RSASSA-PSS OBJECT IDENTIFIER ::= { pkcs-1 10 } + + -- When the following OIDs are used in an AlgorithmIdentifier, the + -- parameters SHOULD be absent, but if the parameters are present, + -- they MUST be NULL. + + -- + -- id-sha1 is imported from RFC 3279. Additionally, the v1.5 + -- signature algorithms (i.e., rsaWithSHA256) are now solely placed + -- in that module. + -- + + id-sha224 OBJECT IDENTIFIER ::= + { joint-iso-itu-t(2) country(16) us(840) organization(1) gov(101) + csor(3) nistAlgorithms(4) hashalgs(2) 4 } + + mda-sha224 DIGEST-ALGORITHM ::= { + IDENTIFIER id-sha224 + PARAMS TYPE NULL ARE preferredAbsent + } + + id-sha256 OBJECT IDENTIFIER ::= + { joint-iso-itu-t(2) country(16) us(840) organization(1) gov(101) + csor(3) nistAlgorithms(4) hashalgs(2) 1 } + + mda-sha256 DIGEST-ALGORITHM ::= { + IDENTIFIER id-sha256 + PARAMS TYPE NULL ARE preferredAbsent + } + id-sha384 OBJECT IDENTIFIER ::= + { joint-iso-itu-t(2) country(16) us(840) organization(1) gov(101) + csor(3) nistAlgorithms(4) hashalgs(2) 2 } + + mda-sha384 DIGEST-ALGORITHM ::= { + IDENTIFIER id-sha384 + PARAMS TYPE NULL ARE preferredAbsent + } + id-sha512 OBJECT IDENTIFIER ::= + { joint-iso-itu-t(2) country(16) us(840) organization(1) gov(101) + csor(3) nistAlgorithms(4) hashalgs(2) 3 } + + mda-sha512 DIGEST-ALGORITHM ::= { + IDENTIFIER id-sha512 + PARAMS TYPE NULL ARE preferredAbsent + } + + -- ============= + -- Constants + -- ============= + + EncodingParameters ::= OCTET STRING(SIZE(0..MAX)) + + nullOctetString EncodingParameters ::= ''H + + nullParameters NULL ::= NULL + + -- ========================= + -- Algorithm Identifiers + -- ========================= + + HashAlgorithm ::= AlgorithmIdentifier{DIGEST-ALGORITHM, + {HashAlgorithms}} + + HashAlgorithms DIGEST-ALGORITHM ::= { + { IDENTIFIER id-sha1 PARAMS TYPE NULL ARE preferredPresent } | + { IDENTIFIER id-sha224 PARAMS TYPE NULL ARE preferredPresent } | + { IDENTIFIER id-sha256 PARAMS TYPE NULL ARE preferredPresent } | + { IDENTIFIER id-sha384 PARAMS TYPE NULL ARE preferredPresent } | + { IDENTIFIER id-sha512 PARAMS TYPE NULL ARE preferredPresent } + } + + sha1Identifier HashAlgorithm ::= { + algorithm id-sha1, + parameters NULL : NULL + } + + -- + -- We have a default algorithm - create the value here + -- + + MaskGenAlgorithm ::= AlgorithmIdentifier{ALGORITHM, + {PKCS1MGFAlgorithms}} + + mgf1SHA1 MaskGenAlgorithm ::= { + algorithm id-mgf1, + parameters HashAlgorithm : sha1Identifier + } + + -- + -- Define the set of mask generation functions + -- + -- If the identifier is id-mgf1, any of the listed hash + -- algorithms may be used. + -- + + PKCS1MGFAlgorithms ALGORITHM ::= { + { IDENTIFIER id-mgf1 PARAMS TYPE HashAlgorithm ARE required }, + ... + } + + -- + -- Define the set of known source algorithms for PSS + -- + + PSourceAlgorithm ::= AlgorithmIdentifier{ALGORITHM, + {PSS-SourceAlgorithms}} + + PSS-SourceAlgorithms ALGORITHM ::= { + { IDENTIFIER id-pSpecified PARAMS TYPE EncodingParameters + ARE required }, + ... + } + pSpecifiedEmpty PSourceAlgorithm ::= { + algorithm id-pSpecified, + parameters EncodingParameters : nullOctetString + } + + -- =================== + -- Main structures + -- =================== + + -- AlgorithmIdentifier parameters for id-RSASSA-PSS. + -- Note that the tags in this Sequence are explicit. + -- Note: The hash algorithm in hashAlgorithm and in + -- maskGenAlgorithm should be the same. + + RSASSA-PSS-params ::= SEQUENCE { + hashAlgorithm [0] HashAlgorithm DEFAULT sha1Identifier, + maskGenAlgorithm [1] MaskGenAlgorithm DEFAULT mgf1SHA1, + saltLength [2] INTEGER DEFAULT 20, + trailerField [3] INTEGER DEFAULT 1 + } + + -- AlgorithmIdentifier parameters for id-RSAES-OAEP. + -- Note that the tags in this Sequence are explicit. + -- Note: The hash algorithm in hashFunc and in + -- maskGenFunc should be the same. + + RSAES-OAEP-params ::= SEQUENCE { + hashFunc [0] HashAlgorithm DEFAULT sha1Identifier, + maskGenFunc [1] MaskGenAlgorithm DEFAULT mgf1SHA1, + pSourceFunc [2] PSourceAlgorithm DEFAULT + pSpecifiedEmpty + } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Explicit-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Explicit-2009.asn1 new file mode 100644 index 0000000000..613e0e9d2c --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Explicit-2009.asn1 @@ -0,0 +1,415 @@ + PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-explicit-02(51)} + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + + IMPORTS + + Extensions{}, EXTENSION, ATTRIBUTE, SingleAttribute{} + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + + AlgorithmIdentifier{}, PUBLIC-KEY, SIGNATURE-ALGORITHM + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + CertExtensions, CrlExtensions, CrlEntryExtensions + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + SignatureAlgs, PublicKeys + FROM PKIXAlgs-2009 + {iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) 56} + + SignatureAlgs, PublicKeys + FROM PKIX1-PSS-OAEP-Algorithms-2009 + {iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-rsa-pkalgs-02(54)} + + ORAddress + FROM PKIX-X400Address-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-x400address-02(60)}; + + id-pkix OBJECT IDENTIFIER ::= + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7)} + + -- PKIX arcs + + id-pe OBJECT IDENTIFIER ::= { id-pkix 1 } + -- arc for private certificate extensions + id-qt OBJECT IDENTIFIER ::= { id-pkix 2 } + -- arc for policy qualifier types + id-kp OBJECT IDENTIFIER ::= { id-pkix 3 } + -- arc for extended key purpose OIDs + id-ad OBJECT IDENTIFIER ::= { id-pkix 48 } + -- arc for access descriptors + + -- policyQualifierIds for Internet policy qualifiers + + id-qt-cps OBJECT IDENTIFIER ::= { id-qt 1 } + -- OID for CPS qualifier + id-qt-unotice OBJECT IDENTIFIER ::= { id-qt 2 } + -- OID for user notice qualifier + + -- access descriptor definitions + + id-ad-ocsp OBJECT IDENTIFIER ::= { id-ad 1 } + id-ad-caIssuers OBJECT IDENTIFIER ::= { id-ad 2 } + id-ad-timeStamping OBJECT IDENTIFIER ::= { id-ad 3 } + id-ad-caRepository OBJECT IDENTIFIER ::= { id-ad 5 } + + -- attribute data types + AttributeType ::= ATTRIBUTE.&id + + -- Replaced by SingleAttribute{} + -- + -- AttributeTypeAndValue ::= SEQUENCE { + -- type ATTRIBUTE.&id({SupportedAttributes}), + -- value ATTRIBUTE.&Type({SupportedAttributes}{@type}) } + -- + + -- Suggested naming attributes: Definition of the following + -- information object set may be augmented to meet local + -- requirements. Note that deleting members of the set may + -- prevent interoperability with conforming implementations. + -- All attributes are presented in pairs: the AttributeType + -- followed by the type definition for the corresponding + -- AttributeValue. + + -- Arc for standard naming attributes + + id-at OBJECT IDENTIFIER ::= { joint-iso-ccitt(2) ds(5) 4 } + + -- Naming attributes of type X520name + + id-at-name AttributeType ::= { id-at 41 } + at-name ATTRIBUTE ::= { TYPE X520name IDENTIFIED BY id-at-name } + + id-at-surname AttributeType ::= { id-at 4 } + at-surname ATTRIBUTE ::= { TYPE X520name IDENTIFIED BY id-at-surname } + + id-at-givenName AttributeType ::= { id-at 42 } + at-givenName ATTRIBUTE ::= + { TYPE X520name IDENTIFIED BY id-at-givenName } + + id-at-initials AttributeType ::= { id-at 43 } + at-initials ATTRIBUTE ::= + { TYPE X520name IDENTIFIED BY id-at-initials } + + id-at-generationQualifier AttributeType ::= { id-at 44 } + at-generationQualifier ATTRIBUTE ::= + { TYPE X520name IDENTIFIED BY id-at-generationQualifier } + + -- Directory string type -- + + DirectoryString{INTEGER:maxSize} ::= CHOICE { + teletexString TeletexString(SIZE (1..maxSize)), + printableString PrintableString(SIZE (1..maxSize)), + bmpString BMPString(SIZE (1..maxSize)), + universalString UniversalString(SIZE (1..maxSize)), + uTF8String UTF8String(SIZE (1..maxSize)) + } + + X520name ::= DirectoryString {ub-name} + + -- Naming attributes of type X520CommonName + + id-at-commonName AttributeType ::= { id-at 3 } + + at-x520CommonName ATTRIBUTE ::= + {TYPE X520CommonName IDENTIFIED BY id-at-commonName } + + X520CommonName ::= DirectoryString {ub-common-name} + + -- Naming attributes of type X520LocalityName + + id-at-localityName AttributeType ::= { id-at 7 } + + at-x520LocalityName ATTRIBUTE ::= + { TYPE X520LocalityName IDENTIFIED BY id-at-localityName } + X520LocalityName ::= DirectoryString {ub-locality-name} + + -- Naming attributes of type X520StateOrProvinceName + + id-at-stateOrProvinceName AttributeType ::= { id-at 8 } + + at-x520StateOrProvinceName ATTRIBUTE ::= + { TYPE DirectoryString {ub-state-name} + IDENTIFIED BY id-at-stateOrProvinceName } + X520StateOrProvinceName ::= DirectoryString {ub-state-name} + + -- Naming attributes of type X520OrganizationName + + id-at-organizationName AttributeType ::= { id-at 10 } + + at-x520OrganizationName ATTRIBUTE ::= + { TYPE DirectoryString {ub-organization-name} + IDENTIFIED BY id-at-organizationName } + X520OrganizationName ::= DirectoryString {ub-organization-name} + + -- Naming attributes of type X520OrganizationalUnitName + + id-at-organizationalUnitName AttributeType ::= { id-at 11 } + + at-x520OrganizationalUnitName ATTRIBUTE ::= + { TYPE DirectoryString {ub-organizational-unit-name} + IDENTIFIED BY id-at-organizationalUnitName } + X520OrganizationalUnitName ::= DirectoryString + {ub-organizational-unit-name} + + -- Naming attributes of type X520Title + + id-at-title AttributeType ::= { id-at 12 } + + at-x520Title ATTRIBUTE ::= { TYPE DirectoryString { ub-title } + IDENTIFIED BY id-at-title } + + -- Naming attributes of type X520dnQualifier + + id-at-dnQualifier AttributeType ::= { id-at 46 } + + at-x520dnQualifier ATTRIBUTE ::= { TYPE PrintableString + IDENTIFIED BY id-at-dnQualifier } + + -- Naming attributes of type X520countryName (digraph from IS 3166) + + id-at-countryName AttributeType ::= { id-at 6 } + + at-x520countryName ATTRIBUTE ::= { TYPE PrintableString (SIZE (2)) + IDENTIFIED BY id-at-countryName } + + -- Naming attributes of type X520SerialNumber + + id-at-serialNumber AttributeType ::= { id-at 5 } + + at-x520SerialNumber ATTRIBUTE ::= {TYPE PrintableString + (SIZE (1..ub-serial-number)) IDENTIFIED BY id-at-serialNumber } + + -- Naming attributes of type X520Pseudonym + + id-at-pseudonym AttributeType ::= { id-at 65 } + + at-x520Pseudonym ATTRIBUTE ::= { TYPE DirectoryString {ub-pseudonym} + IDENTIFIED BY id-at-pseudonym } + + -- Naming attributes of type DomainComponent (from RFC 2247) + + id-domainComponent AttributeType ::= + { itu-t(0) data(9) pss(2342) ucl(19200300) pilot(100) + pilotAttributeType(1) 25 } + + at-domainComponent ATTRIBUTE ::= {TYPE IA5String + IDENTIFIED BY id-domainComponent } + + -- Legacy attributes + + pkcs-9 OBJECT IDENTIFIER ::= + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) 9 } + id-emailAddress AttributeType ::= { pkcs-9 1 } + + at-emailAddress ATTRIBUTE ::= {TYPE IA5String + (SIZE (1..ub-emailaddress-length)) IDENTIFIED BY + id-emailAddress } + + -- naming data types -- + + Name ::= CHOICE { -- only one possibility for now -- + rdnSequence RDNSequence } + + RDNSequence ::= SEQUENCE OF RelativeDistinguishedName + + DistinguishedName ::= RDNSequence + + RelativeDistinguishedName ::= + SET SIZE (1 .. MAX) OF SingleAttribute { {SupportedAttributes} } + + -- These are the known name elements for a DN + + SupportedAttributes ATTRIBUTE ::= { + at-name | at-surname | at-givenName | at-initials | + at-generationQualifier | at-x520CommonName | + at-x520LocalityName | at-x520StateOrProvinceName | + at-x520OrganizationName | at-x520OrganizationalUnitName | + at-x520Title | at-x520dnQualifier | at-x520countryName | + at-x520SerialNumber | at-x520Pseudonym | at-domainComponent | + at-emailAddress, ... } + + -- + -- Certificate- and CRL-specific structures begin here + -- + + Certificate ::= SIGNED{TBSCertificate} + + TBSCertificate ::= SEQUENCE { + version [0] Version DEFAULT v1, + serialNumber CertificateSerialNumber, + signature AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + issuer Name, + validity Validity, + subject Name, + subjectPublicKeyInfo SubjectPublicKeyInfo, + ... , + [[2: -- If present, version MUST be v2 + issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONAL, + subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONAL + ]], + [[3: -- If present, version MUST be v3 -- + extensions [3] Extensions{{CertExtensions}} OPTIONAL + ]], ... } + + Version ::= INTEGER { v1(0), v2(1), v3(2) } + + CertificateSerialNumber ::= INTEGER + + Validity ::= SEQUENCE { + notBefore Time, + notAfter Time } + + Time ::= CHOICE { + utcTime UTCTime, + generalTime GeneralizedTime } + + UniqueIdentifier ::= BIT STRING + + SubjectPublicKeyInfo ::= SEQUENCE { + algorithm AlgorithmIdentifier{PUBLIC-KEY, + {PublicKeyAlgorithms}}, + subjectPublicKey BIT STRING } + + -- CRL structures + + CertificateList ::= SIGNED{TBSCertList} + + TBSCertList ::= SEQUENCE { + version Version OPTIONAL, + -- if present, MUST be v2 + signature AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + issuer Name, + thisUpdate Time, + nextUpdate Time OPTIONAL, + revokedCertificates SEQUENCE SIZE (1..MAX) OF SEQUENCE { + userCertificate CertificateSerialNumber, + revocationDate Time, + ... , + [[2: -- if present, version MUST be v2 + crlEntryExtensions Extensions{{CrlEntryExtensions}} + OPTIONAL + ]], ... + } OPTIONAL, + ... , + [[2: -- if present, version MUST be v2 + crlExtensions [0] Extensions{{CrlExtensions}} + OPTIONAL + ]], ... } + + -- Version, Time, CertificateSerialNumber, and Extensions were + -- defined earlier for use in the certificate structure + + -- + -- The two object sets below should be expanded to include + -- those algorithms which are supported by the system. + -- + -- For example: + -- SignatureAlgorithms SIGNATURE-ALGORITHM ::= { + -- PKIXAlgs-2008.SignatureAlgs, ..., + -- - - RFC 3279 provides the base set + -- PKIX1-PSS-OAEP-ALGORITHMS.SignatureAlgs | + -- - - RFC 4055 provides extension algs + -- OtherModule.SignatureAlgs + -- - - RFC XXXX provides additional extension algs + -- } + + SignatureAlgorithms SIGNATURE-ALGORITHM ::= { + PKIXAlgs-2009.SignatureAlgs, ..., + PKIX1-PSS-OAEP-Algorithms-2009.SignatureAlgs } + + PublicKeyAlgorithms PUBLIC-KEY ::= { + PKIXAlgs-2009.PublicKeys, ..., + PKIX1-PSS-OAEP-Algorithms-2009.PublicKeys} + + -- Upper Bounds + + ub-state-name INTEGER ::= 128 + ub-organization-name INTEGER ::= 64 + ub-organizational-unit-name INTEGER ::= 64 + ub-title INTEGER ::= 64 + ub-serial-number INTEGER ::= 64 + ub-pseudonym INTEGER ::= 128 + ub-emailaddress-length INTEGER ::= 255 + ub-locality-name INTEGER ::= 128 + ub-common-name INTEGER ::= 64 + ub-name INTEGER ::= 32768 + + -- Note - upper bounds on string types, such as TeletexString, are + -- measured in characters. Excepting PrintableString or IA5String, a + -- significantly greater number of octets will be required to hold + -- such a value. As a minimum, 16 octets or twice the specified + -- upper bound, whichever is the larger, should be allowed for + -- TeletexString. For UTF8String or UniversalString, at least four + -- times the upper bound should be allowed. + + -- Information object classes used in the definition + -- of certificates and CRLs + + -- Parameterized Type SIGNED + -- + -- Three different versions of doing SIGNED: + -- 1. Simple and close to the previous version + -- + -- SIGNED{ToBeSigned} ::= SEQUENCE { + -- toBeSigned ToBeSigned, + -- algorithm AlgorithmIdentifier{SIGNATURE-ALGORITHM, + -- {SignatureAlgorithms}}, + -- signature BIT STRING + -- } + + -- 2. From Authenticated Framework + -- + -- SIGNED{ToBeSigned} ::= SEQUENCE { + -- toBeSigned ToBeSigned, + -- COMPONENTS OF SIGNATURE{ToBeSigned} + -- } + -- SIGNATURE{ToBeSigned} ::= SEQUENCE { + -- algorithmIdentifier AlgorithmIdentifier, + -- encrypted ENCRYPTED-HASH{ToBeSigned} + -- } + -- ENCRYPTED-HASH{ToBeSigned} ::= + -- BIT STRING + -- (CONSTRAINED BY { + -- shall be the result of applying a hashing procedure to + -- the DER-encoded (see 4.1) octets of a value of + -- ToBeSigned and then applying an encipherment procedure + -- to those octets + -- }) + -- + -- + -- 3. A more complex version, but one that automatically ties + -- together both the signature algorithm and the + -- signature value for automatic decoding. + -- + SIGNED{ToBeSigned} ::= SEQUENCE { + toBeSigned ToBeSigned, + algorithmIdentifier SEQUENCE { + algorithm SIGNATURE-ALGORITHM. + &id({SignatureAlgorithms}), + parameters SIGNATURE-ALGORITHM. + &Params({SignatureAlgorithms} + {@algorithmIdentifier.algorithm}) OPTIONAL + }, + signature BIT STRING (CONTAINING SIGNATURE-ALGORITHM.&Value( + {SignatureAlgorithms} + {@algorithmIdentifier.algorithm})) + } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Implicit-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Implicit-2009.asn1 new file mode 100644 index 0000000000..3651a5249b --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIX1Implicit-2009.asn1 @@ -0,0 +1,447 @@ + PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + AttributeSet{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57) } + + id-pe, id-kp, id-qt-unotice, id-qt-cps, ORAddress, Name, + RelativeDistinguishedName, CertificateSerialNumber, + DirectoryString{}, SupportedAttributes + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51) }; + + CertExtensions EXTENSION ::= { + ext-AuthorityKeyIdentifier | ext-SubjectKeyIdentifier | + ext-KeyUsage | ext-PrivateKeyUsagePeriod | + ext-CertificatePolicies | ext-PolicyMappings | + ext-SubjectAltName | ext-IssuerAltName | + ext-SubjectDirectoryAttributes | + ext-BasicConstraints | ext-NameConstraints | + ext-PolicyConstraints | ext-ExtKeyUsage | + ext-CRLDistributionPoints | ext-InhibitAnyPolicy | + ext-FreshestCRL | ext-AuthorityInfoAccess | + ext-SubjectInfoAccessSyntax, ... } + + CrlExtensions EXTENSION ::= { + ext-AuthorityKeyIdentifier | ext-IssuerAltName | + ext-CRLNumber | ext-DeltaCRLIndicator | + ext-IssuingDistributionPoint | ext-FreshestCRL, ... } + + CrlEntryExtensions EXTENSION ::= { + ext-CRLReason | ext-CertificateIssuer | + ext-HoldInstructionCode | ext-InvalidityDate, ... } + -- Shared arc for standard certificate and CRL extensions + + id-ce OBJECT IDENTIFIER ::= { joint-iso-ccitt(2) ds(5) 29 } + + -- authority key identifier OID and syntax + + ext-AuthorityKeyIdentifier EXTENSION ::= { SYNTAX + AuthorityKeyIdentifier IDENTIFIED BY + id-ce-authorityKeyIdentifier } + id-ce-authorityKeyIdentifier OBJECT IDENTIFIER ::= { id-ce 35 } + + AuthorityKeyIdentifier ::= SEQUENCE { + keyIdentifier [0] KeyIdentifier OPTIONAL, + authorityCertIssuer [1] GeneralNames OPTIONAL, + authorityCertSerialNumber [2] CertificateSerialNumber OPTIONAL } + (WITH COMPONENTS { + ..., + authorityCertIssuer PRESENT, + authorityCertSerialNumber PRESENT + } | + WITH COMPONENTS { + ..., + authorityCertIssuer ABSENT, + authorityCertSerialNumber ABSENT + }) + + KeyIdentifier ::= OCTET STRING + + -- subject key identifier OID and syntax + + ext-SubjectKeyIdentifier EXTENSION ::= { SYNTAX + KeyIdentifier IDENTIFIED BY id-ce-subjectKeyIdentifier } + id-ce-subjectKeyIdentifier OBJECT IDENTIFIER ::= { id-ce 14 } + + -- key usage extension OID and syntax + + ext-KeyUsage EXTENSION ::= { SYNTAX + KeyUsage IDENTIFIED BY id-ce-keyUsage } + id-ce-keyUsage OBJECT IDENTIFIER ::= { id-ce 15 } + + KeyUsage ::= BIT STRING { + digitalSignature (0), + nonRepudiation (1), -- recent editions of X.509 have + -- renamed this bit to + -- contentCommitment + keyEncipherment (2), + dataEncipherment (3), + keyAgreement (4), + keyCertSign (5), + cRLSign (6), + encipherOnly (7), + decipherOnly (8) + } + + -- private key usage period extension OID and syntax + + ext-PrivateKeyUsagePeriod EXTENSION ::= { SYNTAX + PrivateKeyUsagePeriod IDENTIFIED BY id-ce-privateKeyUsagePeriod } + id-ce-privateKeyUsagePeriod OBJECT IDENTIFIER ::= { id-ce 16 } + + PrivateKeyUsagePeriod ::= SEQUENCE { + notBefore [0] GeneralizedTime OPTIONAL, + notAfter [1] GeneralizedTime OPTIONAL } + (WITH COMPONENTS {..., notBefore PRESENT } | + WITH COMPONENTS {..., notAfter PRESENT }) + + -- certificate policies extension OID and syntax + + ext-CertificatePolicies EXTENSION ::= { SYNTAX + CertificatePolicies IDENTIFIED BY id-ce-certificatePolicies} + id-ce-certificatePolicies OBJECT IDENTIFIER ::= { id-ce 32 } + + CertificatePolicies ::= SEQUENCE SIZE (1..MAX) OF PolicyInformation + + PolicyInformation ::= SEQUENCE { + policyIdentifier CertPolicyId, + policyQualifiers SEQUENCE SIZE (1..MAX) OF + PolicyQualifierInfo OPTIONAL } + + CertPolicyId ::= OBJECT IDENTIFIER + + CERT-POLICY-QUALIFIER ::= TYPE-IDENTIFIER + + PolicyQualifierInfo ::= SEQUENCE { + policyQualifierId CERT-POLICY-QUALIFIER. + &id({PolicyQualifierId}), + qualifier CERT-POLICY-QUALIFIER. + &Type({PolicyQualifierId}{@policyQualifierId})} + + -- Implementations that recognize additional policy qualifiers MUST + -- augment the following definition for PolicyQualifierId + + PolicyQualifierId CERT-POLICY-QUALIFIER ::= + { pqid-cps | pqid-unotice, ... } + + pqid-cps CERT-POLICY-QUALIFIER ::= { CPSuri IDENTIFIED BY id-qt-cps } + pqid-unotice CERT-POLICY-QUALIFIER ::= { UserNotice + IDENTIFIED BY id-qt-unotice } + + -- CPS pointer qualifier + + CPSuri ::= IA5String + + -- user notice qualifier + + UserNotice ::= SEQUENCE { + noticeRef NoticeReference OPTIONAL, + explicitText DisplayText OPTIONAL} + + -- + -- This is not made explicit in the text + -- + -- {WITH COMPONENTS {..., noticeRef PRESENT} | + -- WITH COMPONENTS {..., DisplayText PRESENT }} + + NoticeReference ::= SEQUENCE { + organization DisplayText, + noticeNumbers SEQUENCE OF INTEGER } + + DisplayText ::= CHOICE { + ia5String IA5String (SIZE (1..200)), + visibleString VisibleString (SIZE (1..200)), + bmpString BMPString (SIZE (1..200)), + utf8String UTF8String (SIZE (1..200)) } + + -- policy mapping extension OID and syntax + + ext-PolicyMappings EXTENSION ::= { SYNTAX + PolicyMappings IDENTIFIED BY id-ce-policyMappings } + id-ce-policyMappings OBJECT IDENTIFIER ::= { id-ce 33 } + + PolicyMappings ::= SEQUENCE SIZE (1..MAX) OF SEQUENCE { + issuerDomainPolicy CertPolicyId, + subjectDomainPolicy CertPolicyId + } + + -- subject alternative name extension OID and syntax + + ext-SubjectAltName EXTENSION ::= { SYNTAX + GeneralNames IDENTIFIED BY id-ce-subjectAltName } + id-ce-subjectAltName OBJECT IDENTIFIER ::= { id-ce 17 } + + GeneralNames ::= SEQUENCE SIZE (1..MAX) OF GeneralName + + GeneralName ::= CHOICE { + otherName [0] INSTANCE OF OTHER-NAME, + rfc822Name [1] IA5String, + dNSName [2] IA5String, + x400Address [3] ORAddress, + directoryName [4] Name, + ediPartyName [5] EDIPartyName, + uniformResourceIdentifier [6] IA5String, + iPAddress [7] OCTET STRING, + registeredID [8] OBJECT IDENTIFIER + } + + -- AnotherName replaces OTHER-NAME ::= TYPE-IDENTIFIER, as + -- TYPE-IDENTIFIER is not supported in the '88 ASN.1 syntax + + OTHER-NAME ::= TYPE-IDENTIFIER + + EDIPartyName ::= SEQUENCE { + nameAssigner [0] DirectoryString {ubMax} OPTIONAL, + partyName [1] DirectoryString {ubMax} + } + + -- issuer alternative name extension OID and syntax + + ext-IssuerAltName EXTENSION ::= { SYNTAX + GeneralNames IDENTIFIED BY id-ce-issuerAltName } + id-ce-issuerAltName OBJECT IDENTIFIER ::= { id-ce 18 } + + ext-SubjectDirectoryAttributes EXTENSION ::= { SYNTAX + SubjectDirectoryAttributes IDENTIFIED BY + id-ce-subjectDirectoryAttributes } + id-ce-subjectDirectoryAttributes OBJECT IDENTIFIER ::= { id-ce 9 } + + SubjectDirectoryAttributes ::= SEQUENCE SIZE (1..MAX) OF + AttributeSet{{SupportedAttributes}} + + -- basic constraints extension OID and syntax + + ext-BasicConstraints EXTENSION ::= { SYNTAX + BasicConstraints IDENTIFIED BY id-ce-basicConstraints } + id-ce-basicConstraints OBJECT IDENTIFIER ::= { id-ce 19 } + + BasicConstraints ::= SEQUENCE { + cA BOOLEAN DEFAULT FALSE, + pathLenConstraint INTEGER (0..MAX) OPTIONAL + } + + -- name constraints extension OID and syntax + ext-NameConstraints EXTENSION ::= { SYNTAX + NameConstraints IDENTIFIED BY id-ce-nameConstraints } + id-ce-nameConstraints OBJECT IDENTIFIER ::= { id-ce 30 } + + NameConstraints ::= SEQUENCE { + permittedSubtrees [0] GeneralSubtrees OPTIONAL, + excludedSubtrees [1] GeneralSubtrees OPTIONAL + } + -- + -- This is a constraint in the issued certificates by CAs, but is + -- not a requirement on EEs. + -- + -- (WITH COMPONENTS { ..., permittedSubtrees PRESENT} | + -- WITH COMPONENTS { ..., excludedSubtrees PRESENT }} + + GeneralSubtrees ::= SEQUENCE SIZE (1..MAX) OF GeneralSubtree + + GeneralSubtree ::= SEQUENCE { + base GeneralName, + minimum [0] BaseDistance DEFAULT 0, + maximum [1] BaseDistance OPTIONAL + } + + BaseDistance ::= INTEGER (0..MAX) + + -- policy constraints extension OID and syntax + + ext-PolicyConstraints EXTENSION ::= { SYNTAX + PolicyConstraints IDENTIFIED BY id-ce-policyConstraints } + id-ce-policyConstraints OBJECT IDENTIFIER ::= { id-ce 36 } + + PolicyConstraints ::= SEQUENCE { + requireExplicitPolicy [0] SkipCerts OPTIONAL, + inhibitPolicyMapping [1] SkipCerts OPTIONAL } + -- + -- This is a constraint in the issued certificates by CAs, + -- but is not a requirement for EEs + -- + -- (WITH COMPONENTS { ..., requireExplicitPolicy PRESENT} | + -- WITH COMPONENTS { ..., inhibitPolicyMapping PRESENT}) + + SkipCerts ::= INTEGER (0..MAX) + + -- CRL distribution points extension OID and syntax + + ext-CRLDistributionPoints EXTENSION ::= { SYNTAX + CRLDistributionPoints IDENTIFIED BY id-ce-cRLDistributionPoints} + id-ce-cRLDistributionPoints OBJECT IDENTIFIER ::= {id-ce 31} + CRLDistributionPoints ::= SEQUENCE SIZE (1..MAX) OF DistributionPoint + + DistributionPoint ::= SEQUENCE { + distributionPoint [0] DistributionPointName OPTIONAL, + reasons [1] ReasonFlags OPTIONAL, + cRLIssuer [2] GeneralNames OPTIONAL + } + -- + -- This is not a requirement in the text, but it seems as if it + -- should be + -- + --(WITH COMPONENTS {..., distributionPoint PRESENT} | + -- WITH COMPONENTS {..., cRLIssuer PRESENT}) + + DistributionPointName ::= CHOICE { + fullName [0] GeneralNames, + nameRelativeToCRLIssuer [1] RelativeDistinguishedName + } + + ReasonFlags ::= BIT STRING { + unused (0), + keyCompromise (1), + cACompromise (2), + affiliationChanged (3), + superseded (4), + cessationOfOperation (5), + certificateHold (6), + privilegeWithdrawn (7), + aACompromise (8) + } + + -- extended key usage extension OID and syntax + + ext-ExtKeyUsage EXTENSION ::= { SYNTAX + ExtKeyUsageSyntax IDENTIFIED BY id-ce-extKeyUsage } + id-ce-extKeyUsage OBJECT IDENTIFIER ::= {id-ce 37} + + ExtKeyUsageSyntax ::= SEQUENCE SIZE (1..MAX) OF KeyPurposeId + + KeyPurposeId ::= OBJECT IDENTIFIER + + -- permit unspecified key uses + + anyExtendedKeyUsage OBJECT IDENTIFIER ::= { id-ce-extKeyUsage 0 } + + -- extended key purpose OIDs + + id-kp-serverAuth OBJECT IDENTIFIER ::= { id-kp 1 } + id-kp-clientAuth OBJECT IDENTIFIER ::= { id-kp 2 } + id-kp-codeSigning OBJECT IDENTIFIER ::= { id-kp 3 } + id-kp-emailProtection OBJECT IDENTIFIER ::= { id-kp 4 } + id-kp-timeStamping OBJECT IDENTIFIER ::= { id-kp 8 } + id-kp-OCSPSigning OBJECT IDENTIFIER ::= { id-kp 9 } + + -- inhibit any policy OID and syntax + + ext-InhibitAnyPolicy EXTENSION ::= {SYNTAX + SkipCerts IDENTIFIED BY id-ce-inhibitAnyPolicy } + id-ce-inhibitAnyPolicy OBJECT IDENTIFIER ::= { id-ce 54 } + + -- freshest (delta)CRL extension OID and syntax + + ext-FreshestCRL EXTENSION ::= {SYNTAX + CRLDistributionPoints IDENTIFIED BY id-ce-freshestCRL } + id-ce-freshestCRL OBJECT IDENTIFIER ::= { id-ce 46 } + + -- authority info access + + ext-AuthorityInfoAccess EXTENSION ::= { SYNTAX + AuthorityInfoAccessSyntax IDENTIFIED BY + id-pe-authorityInfoAccess } + id-pe-authorityInfoAccess OBJECT IDENTIFIER ::= { id-pe 1 } + + AuthorityInfoAccessSyntax ::= + SEQUENCE SIZE (1..MAX) OF AccessDescription + + AccessDescription ::= SEQUENCE { + accessMethod OBJECT IDENTIFIER, + accessLocation GeneralName } + + -- subject info access + + ext-SubjectInfoAccessSyntax EXTENSION ::= { SYNTAX + SubjectInfoAccessSyntax IDENTIFIED BY id-pe-subjectInfoAccess } + id-pe-subjectInfoAccess OBJECT IDENTIFIER ::= { id-pe 11 } + + SubjectInfoAccessSyntax ::= + SEQUENCE SIZE (1..MAX) OF AccessDescription + + -- CRL number extension OID and syntax + + ext-CRLNumber EXTENSION ::= {SYNTAX + INTEGER (0..MAX) IDENTIFIED BY id-ce-cRLNumber } + id-ce-cRLNumber OBJECT IDENTIFIER ::= { id-ce 20 } + + CRLNumber ::= INTEGER (0..MAX) + -- issuing distribution point extension OID and syntax + + ext-IssuingDistributionPoint EXTENSION ::= { SYNTAX + IssuingDistributionPoint IDENTIFIED BY + id-ce-issuingDistributionPoint } + id-ce-issuingDistributionPoint OBJECT IDENTIFIER ::= { id-ce 28 } + + IssuingDistributionPoint ::= SEQUENCE { + distributionPoint [0] DistributionPointName OPTIONAL, + onlyContainsUserCerts [1] BOOLEAN DEFAULT FALSE, + onlyContainsCACerts [2] BOOLEAN DEFAULT FALSE, + onlySomeReasons [3] ReasonFlags OPTIONAL, + indirectCRL [4] BOOLEAN DEFAULT FALSE, + onlyContainsAttributeCerts [5] BOOLEAN DEFAULT FALSE + } + -- at most one of onlyContainsUserCerts, onlyContainsCACerts, + -- or onlyContainsAttributeCerts may be set to TRUE. + + ext-DeltaCRLIndicator EXTENSION ::= { SYNTAX + CRLNumber IDENTIFIED BY id-ce-deltaCRLIndicator } + id-ce-deltaCRLIndicator OBJECT IDENTIFIER ::= { id-ce 27 } + + -- CRL reasons extension OID and syntax + + ext-CRLReason EXTENSION ::= { SYNTAX + CRLReason IDENTIFIED BY id-ce-cRLReasons } + id-ce-cRLReasons OBJECT IDENTIFIER ::= { id-ce 21 } + + CRLReason ::= ENUMERATED { + unspecified (0), + keyCompromise (1), + cACompromise (2), + affiliationChanged (3), + superseded (4), + cessationOfOperation (5), + certificateHold (6), + removeFromCRL (8), + privilegeWithdrawn (9), + aACompromise (10) + } + + -- certificate issuer CRL entry extension OID and syntax + + ext-CertificateIssuer EXTENSION ::= { SYNTAX + GeneralNames IDENTIFIED BY id-ce-certificateIssuer } + id-ce-certificateIssuer OBJECT IDENTIFIER ::= { id-ce 29 } + + -- hold instruction extension OID and syntax + ext-HoldInstructionCode EXTENSION ::= { SYNTAX + OBJECT IDENTIFIER IDENTIFIED BY id-ce-holdInstructionCode } + id-ce-holdInstructionCode OBJECT IDENTIFIER ::= { id-ce 23 } + + -- ANSI x9 holdinstructions + + holdInstruction OBJECT IDENTIFIER ::= + {joint-iso-itu-t(2) member-body(2) us(840) x9cm(10040) 2} + id-holdinstruction-none OBJECT IDENTIFIER ::= + {holdInstruction 1} -- deprecated + id-holdinstruction-callissuer OBJECT IDENTIFIER ::= + {holdInstruction 2} + id-holdinstruction-reject OBJECT IDENTIFIER ::= + {holdInstruction 3} + + -- invalidity date CRL entry extension OID and syntax + + ext-InvalidityDate EXTENSION ::= { SYNTAX + GeneralizedTime IDENTIFIED BY id-ce-invalidityDate } + id-ce-invalidityDate OBJECT IDENTIFIER ::= { id-ce 24 } + -- Upper bounds + ubMax INTEGER ::= 32768 + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAlgs-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAlgs-2009.asn1 new file mode 100644 index 0000000000..d58bcb5b19 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAlgs-2009.asn1 @@ -0,0 +1,528 @@ + PKIXAlgs-2009 { iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56) } + + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + IMPORTS + + PUBLIC-KEY, SIGNATURE-ALGORITHM, DIGEST-ALGORITHM, SMIME-CAPS + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + mda-sha224, mda-sha256, mda-sha384, mda-sha512 + FROM PKIX1-PSS-OAEP-Algorithms-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-rsa-pkalgs-02(54)} ; + + -- + -- Public Key (pk-) Algorithms + -- + + PublicKeys PUBLIC-KEY ::= { + pk-rsa | + pk-dsa | + pk-dh | + pk-kea, + ..., + pk-ec | + pk-ecDH | + pk-ecMQV + } + + -- + -- Signature Algorithms (sa-) + -- + + SignatureAlgs SIGNATURE-ALGORITHM ::= { + sa-rsaWithMD2 | + sa-rsaWithMD5 | + sa-rsaWithSHA1 | + sa-dsaWithSHA1 | + sa-ecdsaWithSHA1, + ..., -- Extensible + sa-dsaWithSHA224 | + sa-dsaWithSHA256 | + sa-ecdsaWithSHA224 | + sa-ecdsaWithSHA256 | + sa-ecdsaWithSHA384 | + sa-ecdsaWithSHA512 + } + + -- + -- S/MIME CAPS for algorithms in this document + -- + -- For all of the algorithms laid out in this document, the + -- parameters field for the S/MIME capabilities is defined as + -- ABSENT as there are no specific values that need to be known + -- by the receiver for negotiation. + + -- + + SMimeCaps SMIME-CAPS ::= { + sa-rsaWithMD2.&smimeCaps | + sa-rsaWithMD5.&smimeCaps | + sa-rsaWithSHA1.&smimeCaps | + sa-dsaWithSHA1.&smimeCaps | + sa-dsaWithSHA224.&smimeCaps | + sa-dsaWithSHA256.&smimeCaps | + sa-ecdsaWithSHA1.&smimeCaps | + sa-ecdsaWithSHA224.&smimeCaps | + sa-ecdsaWithSHA256.&smimeCaps | + sa-ecdsaWithSHA384.&smimeCaps | + sa-ecdsaWithSHA512.&smimeCaps, + ... } + + -- RSA PK Algorithm, Parameters, and Keys + + pk-rsa PUBLIC-KEY ::= { + IDENTIFIER rsaEncryption + KEY RSAPublicKey + PARAMS TYPE NULL ARE absent + -- Private key format not in this module -- + CERT-KEY-USAGE {digitalSignature, nonRepudiation, + keyEncipherment, dataEncipherment, keyCertSign, cRLSign} + } + + rsaEncryption OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-1(1) 1 } + + RSAPublicKey ::= SEQUENCE { + modulus INTEGER, -- n + publicExponent INTEGER -- e + } + + -- DSA PK Algorithm, Parameters, and Keys + + pk-dsa PUBLIC-KEY ::= { + IDENTIFIER id-dsa + KEY DSAPublicKey + PARAMS TYPE DSA-Params ARE inheritable + -- Private key format not in this module -- + CERT-KEY-USAGE { digitalSignature, nonRepudiation, keyCertSign, + cRLSign } + } + + id-dsa OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) x9-57(10040) x9algorithm(4) 1 } + + DSA-Params ::= SEQUENCE { + p INTEGER, + q INTEGER, + g INTEGER + } + + DSAPublicKey ::= INTEGER -- public key, y + + -- Diffie-Hellman PK Algorithm, Parameters, and Keys + + pk-dh PUBLIC-KEY ::= { + IDENTIFIER dhpublicnumber + KEY DHPublicKey + PARAMS TYPE DomainParameters ARE inheritable + -- Private key format not in this module -- + CERT-KEY-USAGE {keyAgreement, encipherOnly, decipherOnly } + } + + dhpublicnumber OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-x942(10046) + number-type(2) 1 } + + DomainParameters ::= SEQUENCE { + p INTEGER, -- odd prime, p=jq +1 + g INTEGER, -- generator, g + q INTEGER, -- factor of p-1 + j INTEGER OPTIONAL, -- subgroup factor, j>= 2 + validationParams ValidationParams OPTIONAL + } + + ValidationParams ::= SEQUENCE { + seed BIT STRING, + pgenCounter INTEGER + } + + DiffieHellmanPublicNumber ::= INTEGER -- according to http://wikisec.free.fr/crypto/crypto.html + + DHPublicKey ::= INTEGER -- public key, y = g^x mod p + + -- KEA PK Algorithm and Parameters + + pk-kea PUBLIC-KEY ::= { + IDENTIFIER id-keyExchangeAlgorithm + -- key is not encoded -- + PARAMS TYPE KEA-Params-Id ARE required + -- Private key format not in this module -- + CERT-KEY-USAGE {keyAgreement, encipherOnly, decipherOnly } + } + id-keyExchangeAlgorithm OBJECT IDENTIFIER ::= { + joint-iso-itu-t(2) country(16) us(840) organization(1) + gov(101) dod(2) infosec(1) algorithms(1) 22 } + + KEA-Params-Id ::= OCTET STRING + + -- Elliptic Curve (EC) Signatures: Unrestricted Algorithms + -- (Section 2.1.1 of RFC 5480) + -- + -- EC Unrestricted Algorithm ID -- -- this is used for ECDSA + + pk-ec PUBLIC-KEY ::= { + IDENTIFIER id-ecPublicKey + KEY ECPoint + PARAMS TYPE ECParameters ARE required + -- Private key format not in this module -- + CERT-KEY-USAGE { digitalSignature, nonRepudiation, keyAgreement, + keyCertSign, cRLSign } + } + + ECPoint ::= OCTET STRING -- see RFC 5480 for syntax and restrictions + + id-ecPublicKey OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) keyType(2) 1 } + + -- Elliptic Curve (EC) Signatures: Restricted Algorithms + -- (Section 2.1.2 of RFC 5480) + -- + -- EC Diffie-Hellman Algorithm ID + + pk-ecDH PUBLIC-KEY ::= { + IDENTIFIER id-ecDH + KEY ECPoint + PARAMS TYPE ECParameters ARE required + -- Private key format not in this module -- + CERT-KEY-USAGE { keyAgreement, encipherOnly, decipherOnly } + } + + id-ecDH OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) schemes(1) + ecdh(12) } + + -- EC Menezes-Qu-Vanstone Algorithm ID + + pk-ecMQV PUBLIC-KEY ::= { + IDENTIFIER id-ecMQV + KEY ECPoint + PARAMS TYPE ECParameters ARE required + -- Private key format not in this module -- + CERT-KEY-USAGE { keyAgreement, encipherOnly, decipherOnly } + } + + id-ecMQV OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) schemes(1) + ecmqv(13) } + + -- Parameters and Keys for both Restricted and Unrestricted EC + + ECParameters ::= CHOICE { + namedCurve CURVE.&id({NamedCurve}) + -- implicitCurve NULL + -- implicitCurve MUST NOT be used in PKIX + -- specifiedCurve SpecifiedCurve + -- specifiedCurve MUST NOT be used in PKIX + -- Details for specifiedCurve can be found in [X9.62] + -- Any future additions to this CHOICE should be coordinated + -- with ANSI X.9. + } + -- If you need to be able to decode ANSI X.9 parameter structures, + -- uncomment the implicitCurve and specifiedCurve above, and also + -- uncomment the following: + --(WITH COMPONENTS {namedCurve PRESENT}) + + -- Sec 2.1.1.1 Named Curve + + CURVE ::= CLASS { &id OBJECT IDENTIFIER UNIQUE } + WITH SYNTAX { ID &id } + + NamedCurve CURVE ::= { + { ID secp192r1 } | { ID sect163k1 } | { ID sect163r2 } | + { ID secp224r1 } | { ID sect233k1 } | { ID sect233r1 } | + { ID secp256r1 } | { ID sect283k1 } | { ID sect283r1 } | + { ID secp384r1 } | { ID sect409k1 } | { ID sect409r1 } | + { ID secp521r1 } | { ID sect571k1 } | { ID sect571r1 }, + ... -- Extensible + } + + -- Note in [X9.62] the curves are referred to as 'ansiX9' as + -- opposed to 'sec'. For example, secp192r1 is the same curve as + -- ansix9p192r1. + + -- Note that in [PKI-ALG] the secp192r1 curve was referred to as + -- prime192v1 and the secp256r1 curve was referred to as + -- prime256v1. + + -- Note that [FIPS186-3] refers to secp192r1 as P-192, + -- secp224r1 as P-224, secp256r1 as P-256, secp384r1 as P-384, + -- and secp521r1 as P-521. + + secp192r1 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) curves(3) + prime(1) 1 } + + sect163k1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 1 } + + sect163r2 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 15 } + + secp224r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 33 } + + sect233k1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 26 } + + sect233r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 27 } + + secp256r1 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) curves(3) + prime(1) 7 } + + sect283k1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 16 } + + sect283r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 17 } + + secp384r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 34 } + + sect409k1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 36 } + + sect409r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 37 } + + secp521r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 35 } + + sect571k1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 38 } + + sect571r1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) certicom(132) curve(0) 39 } + + -- RSA with MD-2 + + sa-rsaWithMD2 SIGNATURE-ALGORITHM ::= { + IDENTIFIER md2WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-md2 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY md2WithRSAEncryption } + } + + md2WithRSAEncryption OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-1(1) 2 } + + -- RSA with MD-5 + + sa-rsaWithMD5 SIGNATURE-ALGORITHM ::= { + IDENTIFIER md5WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-md5 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS { IDENTIFIED BY md5WithRSAEncryption } + } + + md5WithRSAEncryption OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-1(1) 4 } + + -- RSA with SHA-1 + + sa-rsaWithSHA1 SIGNATURE-ALGORITHM ::= { + IDENTIFIER sha1WithRSAEncryption + PARAMS TYPE NULL ARE required + HASHES { mda-sha1 } + PUBLIC-KEYS { pk-rsa } + SMIME-CAPS {IDENTIFIED BY sha1WithRSAEncryption } + } + + sha1WithRSAEncryption OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) + pkcs-1(1) 5 } + + -- DSA with SHA-1 + + sa-dsaWithSHA1 SIGNATURE-ALGORITHM ::= { + IDENTIFIER dsa-with-sha1 + VALUE DSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha1 } + PUBLIC-KEYS { pk-dsa } + SMIME-CAPS { IDENTIFIED BY dsa-with-sha1 } + } + + dsa-with-sha1 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) x9-57(10040) x9algorithm(4) 3 } + + -- DSA with SHA-224 + + sa-dsaWithSHA224 SIGNATURE-ALGORITHM ::= { + IDENTIFIER dsa-with-sha224 + VALUE DSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha224 } + PUBLIC-KEYS { pk-dsa } + SMIME-CAPS { IDENTIFIED BY dsa-with-sha224 } + } + + dsa-with-sha224 OBJECT IDENTIFIER ::= { + joint-iso-ccitt(2) country(16) us(840) organization(1) gov(101) + csor(3) algorithms(4) id-dsa-with-sha2(3) 1 } + + -- DSA with SHA-256 + + sa-dsaWithSHA256 SIGNATURE-ALGORITHM ::= { + IDENTIFIER dsa-with-sha256 + VALUE DSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha256 } + PUBLIC-KEYS { pk-dsa } + SMIME-CAPS { IDENTIFIED BY dsa-with-sha256 } + } + + dsa-with-sha256 OBJECT IDENTIFIER ::= { + joint-iso-ccitt(2) country(16) us(840) organization(1) gov(101) + csor(3) algorithms(4) id-dsa-with-sha2(3) 2 } + + -- ECDSA with SHA-1 + + sa-ecdsaWithSHA1 SIGNATURE-ALGORITHM ::= { + IDENTIFIER ecdsa-with-SHA1 + VALUE ECDSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha1 } + PUBLIC-KEYS { pk-ec } + SMIME-CAPS {IDENTIFIED BY ecdsa-with-SHA1 } + } + + ecdsa-with-SHA1 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) + signatures(4) 1 } + + -- ECDSA with SHA-224 + + sa-ecdsaWithSHA224 SIGNATURE-ALGORITHM ::= { + IDENTIFIER ecdsa-with-SHA224 + VALUE ECDSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha224 } + PUBLIC-KEYS { pk-ec } + SMIME-CAPS { IDENTIFIED BY ecdsa-with-SHA224 } + } + + ecdsa-with-SHA224 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) signatures(4) + ecdsa-with-SHA2(3) 1 } + + -- ECDSA with SHA-256 + + sa-ecdsaWithSHA256 SIGNATURE-ALGORITHM ::= { + IDENTIFIER ecdsa-with-SHA256 + VALUE ECDSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha256 } + PUBLIC-KEYS { pk-ec } + SMIME-CAPS { IDENTIFIED BY ecdsa-with-SHA256 } + } + + ecdsa-with-SHA256 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) signatures(4) + ecdsa-with-SHA2(3) 2 } + + -- ECDSA with SHA-384 + + sa-ecdsaWithSHA384 SIGNATURE-ALGORITHM ::= { + IDENTIFIER ecdsa-with-SHA384 + VALUE ECDSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha384 } + PUBLIC-KEYS { pk-ec } + SMIME-CAPS { IDENTIFIED BY ecdsa-with-SHA384 } + } + ecdsa-with-SHA384 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) signatures(4) + ecdsa-with-SHA2(3) 3 } + + -- ECDSA with SHA-512 + + sa-ecdsaWithSHA512 SIGNATURE-ALGORITHM ::= { + IDENTIFIER ecdsa-with-SHA512 + VALUE ECDSA-Sig-Value + PARAMS TYPE NULL ARE absent + HASHES { mda-sha512 } + PUBLIC-KEYS { pk-ec } + SMIME-CAPS { IDENTIFIED BY ecdsa-with-SHA512 } + } + + ecdsa-with-SHA512 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) ansi-X9-62(10045) signatures(4) + ecdsa-with-SHA2(3) 4 } + + -- + -- Signature Values + -- + + -- DSA + + DSA-Sig-Value ::= SEQUENCE { + r INTEGER, + s INTEGER + } + + -- ECDSA + + ECDSA-Sig-Value ::= SEQUENCE { + r INTEGER, + s INTEGER + } + + -- + -- Message Digest Algorithms (mda-) + -- + + HashAlgs DIGEST-ALGORITHM ::= { + mda-md2 | + mda-md5 | + mda-sha1, + ... -- Extensible + } + -- MD-2 + + mda-md2 DIGEST-ALGORITHM ::= { + IDENTIFIER id-md2 + PARAMS TYPE NULL ARE preferredAbsent + } + + id-md2 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) + digestAlgorithm(2) 2 } + + -- MD-5 + + mda-md5 DIGEST-ALGORITHM ::= { + IDENTIFIER id-md5 + PARAMS TYPE NULL ARE preferredAbsent + } + + id-md5 OBJECT IDENTIFIER ::= { + iso(1) member-body(2) us(840) rsadsi(113549) + digestAlgorithm(2) 5 } + + -- SHA-1 + + mda-sha1 DIGEST-ALGORITHM ::= { + IDENTIFIER id-sha1 + PARAMS TYPE NULL ARE preferredAbsent + } + + id-sha1 OBJECT IDENTIFIER ::= { + iso(1) identified-organization(3) oiw(14) secsig(3) + algorithm(2) 26 } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAttributeCertificate-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAttributeCertificate-2009.asn1 new file mode 100644 index 0000000000..3ab074643f --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXAttributeCertificate-2009.asn1 @@ -0,0 +1,292 @@ + PKIXAttributeCertificate-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-attribute-cert-02(47)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + AttributeSet{}, Extensions{}, SecurityCategory{}, + EXTENSION, ATTRIBUTE, SECURITY-CATEGORY + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57) } + + AlgorithmIdentifier{}, SIGNATURE-ALGORITHM, DIGEST-ALGORITHM + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + -- IMPORTed module OIDs MAY change if [PKIXPROF] changes + -- PKIX Certificate Extensions + + CertificateSerialNumber, UniqueIdentifier, id-pkix, id-pe, id-kp, + id-ad, id-at, SIGNED{}, SignatureAlgorithms + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)} + + GeneralName, GeneralNames, id-ce, ext-AuthorityKeyIdentifier, + ext-AuthorityInfoAccess, ext-CRLDistributionPoints + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + + ContentInfo + FROM CryptographicMessageSyntax-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) + pkcs(1) pkcs-9(9) smime(16) modules(0) id-mod-cms-2004-02(41) }; + -- Define the set of extensions that can appear. + -- Some of these are imported from PKIX Cert + + AttributeCertExtensions EXTENSION ::= { + ext-auditIdentity | ext-targetInformation | + ext-AuthorityKeyIdentifier | ext-AuthorityInfoAccess | + ext-CRLDistributionPoints | ext-noRevAvail | ext-ac-proxying | + ext-aaControls, ... } + + ext-auditIdentity EXTENSION ::= { SYNTAX + OCTET STRING IDENTIFIED BY id-pe-ac-auditIdentity} + + ext-targetInformation EXTENSION ::= { SYNTAX + Targets IDENTIFIED BY id-ce-targetInformation } + + ext-noRevAvail EXTENSION ::= { SYNTAX + NULL IDENTIFIED BY id-ce-noRevAvail} + + ext-ac-proxying EXTENSION ::= { SYNTAX + ProxyInfo IDENTIFIED BY id-pe-ac-proxying} + + ext-aaControls EXTENSION ::= { SYNTAX + AAControls IDENTIFIED BY id-pe-aaControls} + + -- Define the set of attributes used here + + AttributesDefined ATTRIBUTE ::= { at-authenticationInfo | + at-accesIdentity | at-chargingIdentity | at-group | + at-role | at-clearance | at-encAttrs, ...} + + at-authenticationInfo ATTRIBUTE ::= { TYPE SvceAuthInfo + IDENTIFIED BY id-aca-authenticationInfo} + + at-accesIdentity ATTRIBUTE ::= { TYPE SvceAuthInfo + IDENTIFIED BY id-aca-accessIdentity} + + at-chargingIdentity ATTRIBUTE ::= { TYPE IetfAttrSyntax + IDENTIFIED BY id-aca-chargingIdentity} + + at-group ATTRIBUTE ::= { TYPE IetfAttrSyntax + IDENTIFIED BY id-aca-group} + + at-role ATTRIBUTE ::= { TYPE RoleSyntax + IDENTIFIED BY id-at-role} + + at-clearance ATTRIBUTE ::= { TYPE Clearance + IDENTIFIED BY id-at-clearance} + at-clearance-RFC3281 ATTRIBUTE ::= {TYPE Clearance-rfc3281 + IDENTIFIED BY id-at-clearance-rfc3281 } + + at-encAttrs ATTRIBUTE ::= { TYPE ContentInfo + IDENTIFIED BY id-aca-encAttrs} + + -- + -- OIDs used by Attribute Certificate Extensions + -- + + id-pe-ac-auditIdentity OBJECT IDENTIFIER ::= { id-pe 4 } + id-pe-aaControls OBJECT IDENTIFIER ::= { id-pe 6 } + id-pe-ac-proxying OBJECT IDENTIFIER ::= { id-pe 10 } + id-ce-targetInformation OBJECT IDENTIFIER ::= { id-ce 55 } + id-ce-noRevAvail OBJECT IDENTIFIER ::= { id-ce 56 } + + -- + -- OIDs used by Attribute Certificate Attributes + -- + + id-aca OBJECT IDENTIFIER ::= { id-pkix 10 } + + id-aca-authenticationInfo OBJECT IDENTIFIER ::= { id-aca 1 } + id-aca-accessIdentity OBJECT IDENTIFIER ::= { id-aca 2 } + id-aca-chargingIdentity OBJECT IDENTIFIER ::= { id-aca 3 } + id-aca-group OBJECT IDENTIFIER ::= { id-aca 4 } + -- { id-aca 5 } is reserved + id-aca-encAttrs OBJECT IDENTIFIER ::= { id-aca 6 } + + id-at-role OBJECT IDENTIFIER ::= { id-at 72} + id-at-clearance OBJECT IDENTIFIER ::= { + joint-iso-ccitt(2) ds(5) attributeType(4) clearance (55) } + + -- Uncomment the following declaration and comment the above line if + -- using the id-at-clearance attribute as defined in [RFC3281] + -- id-at-clearance ::= id-at-clearance-3281 + + id-at-clearance-rfc3281 OBJECT IDENTIFIER ::= { + joint-iso-ccitt(2) ds(5) module(1) selected-attribute-types(5) + clearance (55) } + + -- + -- The syntax of an Attribute Certificate + -- + + AttributeCertificate ::= SIGNED{AttributeCertificateInfo} + + AttributeCertificateInfo ::= SEQUENCE { + version AttCertVersion, -- version is v2 + holder Holder, + issuer AttCertIssuer, + signature AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + serialNumber CertificateSerialNumber, + attrCertValidityPeriod AttCertValidityPeriod, + attributes SEQUENCE OF + AttributeSet{{AttributesDefined}}, + issuerUniqueID UniqueIdentifier OPTIONAL, + extensions Extensions{{AttributeCertExtensions}} OPTIONAL + } + + AttCertVersion ::= INTEGER { v2(1) } + + Holder ::= SEQUENCE { + baseCertificateID [0] IssuerSerial OPTIONAL, + -- the issuer and serial number of + -- the holder's Public Key Certificate + entityName [1] GeneralNames OPTIONAL, + -- the name of the claimant or role + objectDigestInfo [2] ObjectDigestInfo OPTIONAL + -- used to directly authenticate the + -- holder, for example, an executable + } + + ObjectDigestInfo ::= SEQUENCE { + digestedObjectType ENUMERATED { + publicKey (0), + publicKeyCert (1), + otherObjectTypes (2) }, + -- otherObjectTypes MUST NOT + -- be used in this profile + otherObjectTypeID OBJECT IDENTIFIER OPTIONAL, + digestAlgorithm AlgorithmIdentifier{DIGEST-ALGORITHM, {...}}, + objectDigest BIT STRING + } + + AttCertIssuer ::= CHOICE { + v1Form GeneralNames, -- MUST NOT be used in this + -- profile + v2Form [0] V2Form -- v2 only + } + + V2Form ::= SEQUENCE { + issuerName GeneralNames OPTIONAL, + baseCertificateID [0] IssuerSerial OPTIONAL, + objectDigestInfo [1] ObjectDigestInfo OPTIONAL + -- issuerName MUST be present in this profile + -- baseCertificateID and objectDigestInfo MUST + -- NOT be present in this profile + } + + IssuerSerial ::= SEQUENCE { + issuer GeneralNames, + serial CertificateSerialNumber, + issuerUID UniqueIdentifier OPTIONAL + } + + AttCertValidityPeriod ::= SEQUENCE { + notBeforeTime GeneralizedTime, + notAfterTime GeneralizedTime + } + + -- + -- Syntax used by Attribute Certificate Extensions + -- + + Targets ::= SEQUENCE OF Target + + Target ::= CHOICE { + targetName [0] GeneralName, + targetGroup [1] GeneralName, + targetCert [2] TargetCert + } + + TargetCert ::= SEQUENCE { + targetCertificate IssuerSerial, + targetName GeneralName OPTIONAL, + certDigestInfo ObjectDigestInfo OPTIONAL + } + + AAControls ::= SEQUENCE { + pathLenConstraint INTEGER (0..MAX) OPTIONAL, + permittedAttrs [0] AttrSpec OPTIONAL, + excludedAttrs [1] AttrSpec OPTIONAL, + permitUnSpecified BOOLEAN DEFAULT TRUE + } + + AttrSpec::= SEQUENCE OF OBJECT IDENTIFIER + + ProxyInfo ::= SEQUENCE OF Targets + + -- + -- Syntax used by Attribute Certificate Attributes + -- + IetfAttrSyntax ::= SEQUENCE { + policyAuthority[0] GeneralNames OPTIONAL, + values SEQUENCE OF CHOICE { + octets OCTET STRING, + oid OBJECT IDENTIFIER, + string UTF8String + } + } + + SvceAuthInfo ::= SEQUENCE { + service GeneralName, + ident GeneralName, + authInfo OCTET STRING OPTIONAL + } + + RoleSyntax ::= SEQUENCE { + roleAuthority [0] GeneralNames OPTIONAL, + roleName [1] GeneralName + } + + Clearance ::= SEQUENCE { + policyId OBJECT IDENTIFIER, + classList ClassList DEFAULT {unclassified}, + securityCategories SET OF SecurityCategory + {{SupportedSecurityCategories}} OPTIONAL + } + + -- Uncomment the following lines to support deprecated clearance + -- syntax and comment out previous Clearance. + + -- Clearance ::= Clearance-rfc3281 + + Clearance-rfc3281 ::= SEQUENCE { + policyId [0] OBJECT IDENTIFIER, + classList [1] ClassList DEFAULT {unclassified}, + securityCategories [2] SET OF SecurityCategory-rfc3281 + {{SupportedSecurityCategories}} OPTIONAL + } + + ClassList ::= BIT STRING { + unmarked (0), + unclassified (1), + restricted (2), + confidential (3), + secret (4), + topSecret (5) + } + SupportedSecurityCategories SECURITY-CATEGORY ::= { ... } + + SecurityCategory-rfc3281{SECURITY-CATEGORY:Supported} ::= SEQUENCE { + type [0] IMPLICIT SECURITY-CATEGORY. + &id({Supported}), + value [1] EXPLICIT SECURITY-CATEGORY. + &Type({Supported}{@type}) + } + + ACClearAttrs ::= SEQUENCE { + acIssuer GeneralName, + acSerial INTEGER, + attrs SEQUENCE OF AttributeSet{{AttributesDefined}} + } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCMP-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCMP-2009.asn1 new file mode 100644 index 0000000000..968a142f28 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCMP-2009.asn1 @@ -0,0 +1,495 @@ + PKIXCMP-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-cmp2000-02(50) } + DEFINITIONS EXPLICIT TAGS ::= + BEGIN + IMPORTS + + AttributeSet{}, Extensions{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + + AlgorithmIdentifier{}, SIGNATURE-ALGORITHM, ALGORITHM, + DIGEST-ALGORITHM, MAC-ALGORITHM + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + Certificate, CertificateList + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)} + + GeneralName, KeyIdentifier + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + + CertTemplate, PKIPublicationInfo, EncryptedValue, CertId, + CertReqMessages + FROM PKIXCRMF-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-crmf2005-02(55) } + -- see also the behavioral clarifications to CRMF codified in + -- Appendix C of this specification + + CertificationRequest + FROM PKCS-10 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkcs10-2009(69)} + -- (specified in RFC 2986 with 1993 ASN.1 syntax and IMPLICIT + -- tags). Alternatively, implementers may directly include + -- the [PKCS10] syntax in this module + ; + + -- the rest of the module contains locally defined OIDs and + -- constructs + + CMPCertificate ::= CHOICE { x509v3PKCert Certificate, ... } + -- This syntax, while bits-on-the-wire compatible with the + -- standard X.509 definition of "Certificate", allows the + -- possibility of future certificate types (such as X.509 + -- attribute certificates, WAP WTLS certificates, or other kinds + -- of certificates) within this certificate management protocol, + -- should a need ever arise to support such generality. Those + -- implementations that do not foresee a need to ever support + -- other certificate types MAY, if they wish, comment out the + -- above structure and "uncomment" the following one prior to + -- compiling this ASN.1 module. (Note that interoperability + -- with implementations that don't do this will be unaffected by + -- this change.) + + -- CMPCertificate ::= Certificate + + PKIMessage ::= SEQUENCE { + header PKIHeader, + body PKIBody, + protection [0] PKIProtection OPTIONAL, + extraCerts [1] SEQUENCE SIZE (1..MAX) OF CMPCertificate + OPTIONAL } + + PKIMessages ::= SEQUENCE SIZE (1..MAX) OF PKIMessage + + PKIHeader ::= SEQUENCE { + pvno INTEGER { cmp1999(1), cmp2000(2) }, + sender GeneralName, + -- identifies the sender + recipient GeneralName, + -- identifies the intended recipient + messageTime [0] GeneralizedTime OPTIONAL, + -- time of production of this message (used when sender + -- believes that the transport will be "suitable"; i.e., + -- that the time will still be meaningful upon receipt) + protectionAlg [1] AlgorithmIdentifier{ALGORITHM, {...}} + OPTIONAL, + -- algorithm used for calculation of protection bits + senderKID [2] KeyIdentifier OPTIONAL, + recipKID [3] KeyIdentifier OPTIONAL, + -- to identify specific keys used for protection + transactionID [4] OCTET STRING OPTIONAL, + -- identifies the transaction; i.e., this will be the same in + -- corresponding request, response, certConf, and PKIConf + -- messages + senderNonce [5] OCTET STRING OPTIONAL, + recipNonce [6] OCTET STRING OPTIONAL, + -- nonces used to provide replay protection, senderNonce + -- is inserted by the creator of this message; recipNonce + -- is a nonce previously inserted in a related message by + -- the intended recipient of this message + freeText [7] PKIFreeText OPTIONAL, + -- this may be used to indicate context-specific instructions + -- (this field is intended for human consumption) + generalInfo [8] SEQUENCE SIZE (1..MAX) OF + InfoTypeAndValue OPTIONAL + -- this may be used to convey context-specific information + -- (this field not primarily intended for human consumption) + } + + PKIFreeText ::= SEQUENCE SIZE (1..MAX) OF UTF8String + -- text encoded as UTF-8 String [RFC3629] (note: each + -- UTF8String MAY include an [RFC3066] language tag + -- to indicate the language of the contained text; + -- see [RFC2482] for details) + + PKIBody ::= CHOICE { -- message-specific body elements + ir [0] CertReqMessages, --Initialization Request + ip [1] CertRepMessage, --Initialization Response + cr [2] CertReqMessages, --Certification Request + cp [3] CertRepMessage, --Certification Response + p10cr [4] CertificationRequest, --imported from [PKCS10] + popdecc [5] POPODecKeyChallContent, --pop Challenge + popdecr [6] POPODecKeyRespContent, --pop Response + kur [7] CertReqMessages, --Key Update Request + kup [8] CertRepMessage, --Key Update Response + krr [9] CertReqMessages, --Key Recovery Request + krp [10] KeyRecRepContent, --Key Recovery Response + rr [11] RevReqContent, --Revocation Request + rp [12] RevRepContent, --Revocation Response + ccr [13] CertReqMessages, --Cross-Cert. Request + ccp [14] CertRepMessage, --Cross-Cert. Response + ckuann [15] CAKeyUpdAnnContent, --CA Key Update Ann. + cann [16] CertAnnContent, --Certificate Ann. + rann [17] RevAnnContent, --Revocation Ann. + crlann [18] CRLAnnContent, --CRL Announcement + pkiconf [19] PKIConfirmContent, --Confirmation + nested [20] NestedMessageContent, --Nested Message + genm [21] GenMsgContent, --General Message + genp [22] GenRepContent, --General Response + error [23] ErrorMsgContent, --Error Message + certConf [24] CertConfirmContent, --Certificate confirm + pollReq [25] PollReqContent, --Polling request + pollRep [26] PollRepContent --Polling response + } + + PKIProtection ::= BIT STRING + + ProtectedPart ::= SEQUENCE { + header PKIHeader, + body PKIBody } + + id-PasswordBasedMac OBJECT IDENTIFIER ::= { iso(1) member-body(2) + usa(840) nt(113533) nsn(7) algorithms(66) 13 } + PBMParameter ::= SEQUENCE { + salt OCTET STRING, + -- note: implementations MAY wish to limit acceptable sizes + -- of this string to values appropriate for their environment + -- in order to reduce the risk of denial-of-service attacks + owf AlgorithmIdentifier{DIGEST-ALGORITHM, {...}}, + -- AlgId for a One-Way Function (SHA-1 recommended) + iterationCount INTEGER, + -- number of times the OWF is applied + -- note: implementations MAY wish to limit acceptable sizes + -- of this integer to values appropriate for their environment + -- in order to reduce the risk of denial-of-service attacks + mac AlgorithmIdentifier{MAC-ALGORITHM, {...}} + -- the MAC AlgId (e.g., DES-MAC, Triple-DES-MAC [PKCS11], + -- or HMAC [RFC2104, RFC2202]) + } + + id-DHBasedMac OBJECT IDENTIFIER ::= { iso(1) member-body(2) + usa(840) nt(113533) nsn(7) algorithms(66) 30 } + DHBMParameter ::= SEQUENCE { + owf AlgorithmIdentifier{DIGEST-ALGORITHM, {...}}, + -- AlgId for a One-Way Function (SHA-1 recommended) + mac AlgorithmIdentifier{MAC-ALGORITHM, {...}} + -- the MAC AlgId (e.g., DES-MAC, Triple-DES-MAC [PKCS11], + -- or HMAC [RFC2104, RFC2202]) + } + + PKIStatus ::= INTEGER { + accepted (0), + -- you got exactly what you asked for + grantedWithMods (1), + -- you got something like what you asked for; the + -- requester is responsible for ascertaining the differences + rejection (2), + -- you don't get it, more information elsewhere in the message + waiting (3), + -- the request body part has not yet been processed; expect to + -- hear more later (note: proper handling of this status + -- response MAY use the polling req/rep PKIMessages specified + -- in Section 5.3.22; alternatively, polling in the underlying + -- transport layer MAY have some utility in this regard) + revocationWarning (4), + -- this message contains a warning that a revocation is + -- imminent + revocationNotification (5), + -- notification that a revocation has occurred + keyUpdateWarning (6) + -- update already done for the oldCertId specified in + -- CertReqMsg + } + + PKIFailureInfo ::= BIT STRING { + -- since we can fail in more than one way! + -- More codes may be added in the future if/when required. + badAlg (0), + -- unrecognized or unsupported Algorithm Identifier + badMessageCheck (1), + -- integrity check failed (e.g., signature did not verify) + badRequest (2), + -- transaction not permitted or supported + badTime (3), + -- messageTime was not sufficiently close to the system time, + -- as defined by local policy + badCertId (4), + -- no certificate could be found matching the provided criteria + badDataFormat (5), + -- the data submitted has the wrong format + wrongAuthority (6), + -- the authority indicated in the request is different from the + -- one creating the response token + incorrectData (7), + -- the requester's data is incorrect (for notary services) + missingTimeStamp (8), + -- when the timestamp is missing but should be there + -- (by policy) + badPOP (9), + -- the proof-of-possession failed + certRevoked (10), + -- the certificate has already been revoked + certConfirmed (11), + -- the certificate has already been confirmed + wrongIntegrity (12), + -- invalid integrity, password based instead of signature or + -- vice versa + badRecipientNonce (13), + -- invalid recipient nonce, either missing or wrong value + timeNotAvailable (14), + -- the TSA's time source is not available + unacceptedPolicy (15), + -- the requested TSA policy is not supported by the TSA + unacceptedExtension (16), + -- the requested extension is not supported by the TSA + addInfoNotAvailable (17), + -- the additional information requested could not be + -- understood or is not available + badSenderNonce (18), + -- invalid sender nonce, either missing or wrong size + badCertTemplate (19), + -- invalid cert. template or missing mandatory information + signerNotTrusted (20), + -- signer of the message unknown or not trusted + transactionIdInUse (21), + -- the transaction identifier is already in use + unsupportedVersion (22), + -- the version of the message is not supported + notAuthorized (23), + -- the sender was not authorized to make the preceding + -- request or perform the preceding action + systemUnavail (24), + -- the request cannot be handled due to system unavailability + systemFailure (25), + -- the request cannot be handled due to system failure + duplicateCertReq (26) + -- certificate cannot be issued because a duplicate + -- certificate already exists + } + + PKIStatusInfo ::= SEQUENCE { + status PKIStatus, + statusString PKIFreeText OPTIONAL, + failInfo PKIFailureInfo OPTIONAL } + + OOBCert ::= CMPCertificate + + OOBCertHash ::= SEQUENCE { + hashAlg [0] AlgorithmIdentifier{DIGEST-ALGORITHM, {...}} + OPTIONAL, + certId [1] CertId OPTIONAL, + hashVal BIT STRING + -- hashVal is calculated over the DER encoding of the + -- self-signed certificate with the identifier certID. + } + + POPODecKeyChallContent ::= SEQUENCE OF Challenge + -- One Challenge per encryption key certification request (in the + -- same order as these requests appear in CertReqMessages). + + Challenge ::= SEQUENCE { + owf AlgorithmIdentifier{DIGEST-ALGORITHM, {...}} + OPTIONAL, + -- MUST be present in the first Challenge; MAY be omitted in + -- any subsequent Challenge in POPODecKeyChallContent (if + -- omitted, then the owf used in the immediately preceding + -- Challenge is to be used). + witness OCTET STRING, + -- the result of applying the one-way function (owf) to a + -- randomly-generated INTEGER, A. [Note that a different + -- INTEGER MUST be used for each Challenge.] + challenge OCTET STRING + -- the encryption (under the public key for which the cert. + -- request is being made) of Rand, where Rand is specified as + -- Rand ::= SEQUENCE { + -- int INTEGER, + -- - the randomly-generated INTEGER A (above) + -- sender GeneralName + -- - the sender's name (as included in PKIHeader) + -- } + } + + POPODecKeyRespContent ::= SEQUENCE OF INTEGER + -- One INTEGER per encryption key certification request (in the + -- same order as these requests appear in CertReqMessages). The + -- retrieved INTEGER A (above) is returned to the sender of the + -- corresponding Challenge. + + CertRepMessage ::= SEQUENCE { + caPubs [1] SEQUENCE SIZE (1..MAX) OF CMPCertificate + OPTIONAL, + response SEQUENCE OF CertResponse } + + CertResponse ::= SEQUENCE { + certReqId INTEGER, + -- to match this response with the corresponding request (a value + -- of -1 is to be used if certReqId is not specified in the + -- corresponding request) + status PKIStatusInfo, + certifiedKeyPair CertifiedKeyPair OPTIONAL, + rspInfo OCTET STRING OPTIONAL + -- analogous to the id-regInfo-utf8Pairs string defined + -- for regInfo in CertReqMsg [RFC4211] + } + + CertifiedKeyPair ::= SEQUENCE { + certOrEncCert CertOrEncCert, + privateKey [0] EncryptedValue OPTIONAL, + -- see [RFC4211] for comment on encoding + publicationInfo [1] PKIPublicationInfo OPTIONAL } + + CertOrEncCert ::= CHOICE { + certificate [0] CMPCertificate, + encryptedCert [1] EncryptedValue } + KeyRecRepContent ::= SEQUENCE { + status PKIStatusInfo, + newSigCert [0] CMPCertificate OPTIONAL, + caCerts [1] SEQUENCE SIZE (1..MAX) OF + CMPCertificate OPTIONAL, + keyPairHist [2] SEQUENCE SIZE (1..MAX) OF + CertifiedKeyPair OPTIONAL } + + RevReqContent ::= SEQUENCE OF RevDetails + + RevDetails ::= SEQUENCE { + certDetails CertTemplate, + -- allows requester to specify as much as they can about + -- the cert. for which revocation is requested + -- (e.g., for cases in which serialNumber is not available) + crlEntryDetails Extensions{{...}} OPTIONAL + -- requested crlEntryExtensions + } + + RevRepContent ::= SEQUENCE { + status SEQUENCE SIZE (1..MAX) OF PKIStatusInfo, + -- in same order as was sent in RevReqContent + revCerts [0] SEQUENCE SIZE (1..MAX) OF CertId OPTIONAL, + -- IDs for which revocation was requested + -- (same order as status) + crls [1] SEQUENCE SIZE (1..MAX) OF CertificateList OPTIONAL + -- the resulting CRLs (there may be more than one) + } + + CAKeyUpdAnnContent ::= SEQUENCE { + oldWithNew CMPCertificate, -- old pub signed with new priv + newWithOld CMPCertificate, -- new pub signed with old priv + newWithNew CMPCertificate -- new pub signed with new priv + } + + CertAnnContent ::= CMPCertificate + + RevAnnContent ::= SEQUENCE { + status PKIStatus, + certId CertId, + willBeRevokedAt GeneralizedTime, + badSinceDate GeneralizedTime, + crlDetails Extensions{{...}} OPTIONAL + -- extra CRL details (e.g., crl number, reason, location, etc.) + } + + CRLAnnContent ::= SEQUENCE OF CertificateList + PKIConfirmContent ::= NULL + + NestedMessageContent ::= PKIMessages + + INFO-TYPE-AND-VALUE ::= TYPE-IDENTIFIER + + InfoTypeAndValue ::= SEQUENCE { + infoType INFO-TYPE-AND-VALUE. + &id({SupportedInfoSet}), + infoValue INFO-TYPE-AND-VALUE. + &Type({SupportedInfoSet}{@infoType}) } + + SupportedInfoSet INFO-TYPE-AND-VALUE ::= { ... } + + -- Example InfoTypeAndValue contents include, but are not limited + -- to, the following (uncomment in this ASN.1 module and use as + -- appropriate for a given environment): + -- + -- id-it-caProtEncCert OBJECT IDENTIFIER ::= {id-it 1} + -- CAProtEncCertValue ::= CMPCertificate + -- id-it-signKeyPairTypes OBJECT IDENTIFIER ::= {id-it 2} + -- SignKeyPairTypesValue ::= SEQUENCE OF + -- AlgorithmIdentifier{{...}} + -- id-it-encKeyPairTypes OBJECT IDENTIFIER ::= {id-it 3} + -- EncKeyPairTypesValue ::= SEQUENCE OF + -- AlgorithmIdentifier{{...}} + -- id-it-preferredSymmAlg OBJECT IDENTIFIER ::= {id-it 4} + -- PreferredSymmAlgValue ::= AlgorithmIdentifier{{...}} + -- id-it-caKeyUpdateInfo OBJECT IDENTIFIER ::= {id-it 5} + -- CAKeyUpdateInfoValue ::= CAKeyUpdAnnContent + -- id-it-currentCRL OBJECT IDENTIFIER ::= {id-it 6} + -- CurrentCRLValue ::= CertificateList + -- id-it-unsupportedOIDs OBJECT IDENTIFIER ::= {id-it 7} + -- UnsupportedOIDsValue ::= SEQUENCE OF OBJECT IDENTIFIER + -- id-it-keyPairParamReq OBJECT IDENTIFIER ::= {id-it 10} + -- KeyPairParamReqValue ::= OBJECT IDENTIFIER + -- id-it-keyPairParamRep OBJECT IDENTIFIER ::= {id-it 11} + -- KeyPairParamRepValue ::= AlgorithmIdentifer + -- id-it-revPassphrase OBJECT IDENTIFIER ::= {id-it 12} + -- RevPassphraseValue ::= EncryptedValue + -- id-it-implicitConfirm OBJECT IDENTIFIER ::= {id-it 13} + -- ImplicitConfirmValue ::= NULL + -- id-it-confirmWaitTime OBJECT IDENTIFIER ::= {id-it 14} + -- ConfirmWaitTimeValue ::= GeneralizedTime + -- id-it-origPKIMessage OBJECT IDENTIFIER ::= {id-it 15} + -- OrigPKIMessageValue ::= PKIMessages + -- id-it-suppLangTags OBJECT IDENTIFIER ::= {id-it 16} + -- SuppLangTagsValue ::= SEQUENCE OF UTF8String + -- + -- where + -- + -- id-pkix OBJECT IDENTIFIER ::= { + -- iso(1) identified-organization(3) + -- dod(6) internet(1) security(5) mechanisms(5) pkix(7)} + -- and + -- id-it OBJECT IDENTIFIER ::= {id-pkix 4} + -- + -- + -- This construct MAY also be used to define new PKIX Certificate + -- Management Protocol request and response messages, or general- + -- purpose (e.g., announcement) messages for future needs or for + -- specific environments. + + GenMsgContent ::= SEQUENCE OF InfoTypeAndValue + + -- May be sent by EE, RA, or CA (depending on message content). + -- The OPTIONAL infoValue parameter of InfoTypeAndValue will + -- typically be omitted for some of the examples given above. + -- The receiver is free to ignore any contained OBJECT IDs that it + -- does not recognize. If sent from EE to CA, the empty set + -- indicates that the CA may send + -- any/all information that it wishes. + + GenRepContent ::= SEQUENCE OF InfoTypeAndValue + -- Receiver MAY ignore any contained OIDs that it does not + -- recognize. + + ErrorMsgContent ::= SEQUENCE { + pKIStatusInfo PKIStatusInfo, + errorCode INTEGER OPTIONAL, + -- implementation-specific error codes + errorDetails PKIFreeText OPTIONAL + -- implementation-specific error details + } + + CertConfirmContent ::= SEQUENCE OF CertStatus + + CertStatus ::= SEQUENCE { + certHash OCTET STRING, + -- the hash of the certificate, using the same hash algorithm + -- as is used to create and verify the certificate signature + certReqId INTEGER, + -- to match this confirmation with the corresponding req/rep + statusInfo PKIStatusInfo OPTIONAL } + + PollReqContent ::= SEQUENCE OF SEQUENCE { + certReqId INTEGER } + + PollRepContent ::= SEQUENCE OF SEQUENCE { + certReqId INTEGER, + checkAfter INTEGER, -- time in seconds + reason PKIFreeText OPTIONAL } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCRMF-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCRMF-2009.asn1 new file mode 100644 index 0000000000..1c0b780499 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/PKIXCRMF-2009.asn1 @@ -0,0 +1,409 @@ + PKIXCRMF-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-crmf2005-02(55)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + AttributeSet{}, Extensions{}, EXTENSION, ATTRIBUTE, + SingleAttribute{} + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkixCommon-02(57) } + + AlgorithmIdentifier{}, SIGNATURE-ALGORITHM, ALGORITHM, + DIGEST-ALGORITHM, MAC-ALGORITHM, PUBLIC-KEY + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + Version, Name, Time, SubjectPublicKeyInfo, UniqueIdentifier, id-pkix, + SignatureAlgorithms + FROM PKIX1Explicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51)} + + GeneralName, CertExtensions + FROM PKIX1Implicit-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59)} + + EnvelopedData, CONTENT-TYPE + FROM CryptographicMessageSyntax-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cms-2004-02(41)} + maca-hMAC-SHA1 + FROM CryptographicMessageSyntaxAlgorithms-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cmsalg-2001-02(37) } + + mda-sha1 + FROM PKIXAlgs-2009 + { iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56) } ; + + -- arc for Internet X.509 PKI protocols and their components + + id-pkip OBJECT IDENTIFIER ::= { id-pkix 5 } + + id-smime OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 16 } + + id-ct OBJECT IDENTIFIER ::= { id-smime 1 } -- content types + + -- Core definitions for this module + + CertReqMessages ::= SEQUENCE SIZE (1..MAX) OF CertReqMsg + + CertReqMsg ::= SEQUENCE { + certReq CertRequest, + popo ProofOfPossession OPTIONAL, + -- content depends upon key type + regInfo SEQUENCE SIZE(1..MAX) OF + SingleAttribute{{RegInfoSet}} OPTIONAL } + + CertRequest ::= SEQUENCE { + certReqId INTEGER, + -- ID for matching request and reply + certTemplate CertTemplate, + -- Selected fields of cert to be issued + controls Controls OPTIONAL } + -- Attributes affecting issuance + + CertTemplate ::= SEQUENCE { + version [0] Version OPTIONAL, + serialNumber [1] INTEGER OPTIONAL, + signingAlg [2] AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {SignatureAlgorithms}} OPTIONAL, + issuer [3] Name OPTIONAL, + validity [4] OptionalValidity OPTIONAL, + subject [5] Name OPTIONAL, + publicKey [6] SubjectPublicKeyInfo OPTIONAL, + issuerUID [7] UniqueIdentifier OPTIONAL, + subjectUID [8] UniqueIdentifier OPTIONAL, + extensions [9] Extensions{{CertExtensions}} OPTIONAL } + + OptionalValidity ::= SEQUENCE { + notBefore [0] Time OPTIONAL, + notAfter [1] Time OPTIONAL } -- at least one MUST be present + + Controls ::= SEQUENCE SIZE(1..MAX) OF SingleAttribute + {{RegControlSet}} + + ProofOfPossession ::= CHOICE { + raVerified [0] NULL, + -- used if the RA has already verified that the requester is in + -- possession of the private key + signature [1] POPOSigningKey, + keyEncipherment [2] POPOPrivKey, + keyAgreement [3] POPOPrivKey } + + POPOSigningKey ::= SEQUENCE { + poposkInput [0] POPOSigningKeyInput OPTIONAL, + algorithmIdentifier AlgorithmIdentifier{SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + signature BIT STRING } + -- The signature (using "algorithmIdentifier") is on the + -- DER-encoded value of poposkInput. NOTE: If the CertReqMsg + -- certReq CertTemplate contains the subject and publicKey values, + -- then poposkInput MUST be omitted and the signature MUST be + -- computed over the DER-encoded value of CertReqMsg certReq. If + -- the CertReqMsg certReq CertTemplate does not contain both the + -- public key and subject values (i.e., if it contains only one + -- of these, or neither), then poposkInput MUST be present and + -- MUST be signed. + + POPOSigningKeyInput ::= SEQUENCE { + authInfo CHOICE { + sender [0] GeneralName, + -- used only if an authenticated identity has been + -- established for the sender (e.g., a DN from a + -- previously-issued and currently-valid certificate) + publicKeyMAC PKMACValue }, + -- used if no authenticated GeneralName currently exists for + -- the sender; publicKeyMAC contains a password-based MAC + -- on the DER-encoded value of publicKey + publicKey SubjectPublicKeyInfo } -- from CertTemplate + + PKMACValue ::= SEQUENCE { + algId AlgorithmIdentifier{MAC-ALGORITHM, + {Password-MACAlgorithms}}, + value BIT STRING } + + -- + -- Define the currently only acceptable MAC algorithm to be used + -- for the PKMACValue structure + -- + + id-PasswordBasedMac OBJECT IDENTIFIER ::= { iso(1) member-body(2) + usa(840) nt(113533) nsn(7) algorithms(66) 13 } + + Password-MACAlgorithms MAC-ALGORITHM ::= { + {IDENTIFIER id-PasswordBasedMac + PARAMS TYPE PBMParameter ARE required + IS-KEYED-MAC TRUE + }, ... + } + + PBMParameter ::= SEQUENCE { + salt OCTET STRING, + owf AlgorithmIdentifier{DIGEST-ALGORITHM, + {DigestAlgorithms}}, + -- AlgId for a One-Way Function (SHA-1 recommended) + iterationCount INTEGER, + -- number of times the OWF is applied + mac AlgorithmIdentifier{MAC-ALGORITHM, + {MACAlgorithms}} + -- the MAC AlgId (e.g., DES-MAC, Triple-DES-MAC, or HMAC + } + + DigestAlgorithms DIGEST-ALGORITHM ::= { + mda-sha1, ... + } + + MACAlgorithms MAC-ALGORITHM ::= { + -- The modules containing the ASN.1 for the DES and 3DES MAC + -- algorithms have not been updated at the time that this is + -- being published. Users of this module should define the + -- appropriate MAC-ALGORITHM objects and uncomment the + -- following lines if they support these MAC algorithms. + -- maca-des-mac | maca-3des-mac -- + maca-hMAC-SHA1, + ... + } + + POPOPrivKey ::= CHOICE { + thisMessage [0] BIT STRING, -- Deprecated + -- possession is proven in this message (which contains + -- the private key itself (encrypted for the CA)) + subsequentMessage [1] SubsequentMessage, + -- possession will be proven in a subsequent message + dhMAC [2] BIT STRING, -- Deprecated + agreeMAC [3] PKMACValue, + encryptedKey [4] EnvelopedData } + -- for keyAgreement (only), possession is proven in this message + -- (which contains a MAC (over the DER-encoded value of the + -- certReq parameter in CertReqMsg, which MUST include both + -- subject and publicKey) based on a key derived from the end + -- entity's private DH key and the CA's public DH key); + + SubsequentMessage ::= INTEGER { + encrCert (0), + -- requests that resulting certificate be encrypted for the + -- end entity (following which, POP will be proven in a + -- confirmation message) + challengeResp (1) } + -- requests that CA engage in challenge-response exchange with + -- end entity in order to prove private key possession + + -- + -- id-ct-encKeyWithID content type used as the content type for the + -- EnvelopedData in POPOPrivKey. + -- It contains both a private key and an identifier for key escrow + -- agents to check against recovery requestors. + -- + + ct-encKeyWithID CONTENT-TYPE ::= + { EncKeyWithID IDENTIFIED BY id-ct-encKeyWithID } + + id-ct-encKeyWithID OBJECT IDENTIFIER ::= {id-ct 21} + + EncKeyWithID ::= SEQUENCE { + privateKey PrivateKeyInfo, + identifier CHOICE { + string UTF8String, + generalName GeneralName + } OPTIONAL + } + + PrivateKeyInfo ::= SEQUENCE { + version INTEGER, + privateKeyAlgorithm AlgorithmIdentifier{PUBLIC-KEY, {...}}, + privateKey OCTET STRING, + -- Structure of public key is in PUBLIC-KEY.&PrivateKey + attributes [0] IMPLICIT Attributes OPTIONAL + } + + Attributes ::= SET OF AttributeSet{{PrivateKeyAttributes}} + PrivateKeyAttributes ATTRIBUTE ::= {...} + + -- + -- 6. Registration Controls in CRMF + -- + + id-regCtrl OBJECT IDENTIFIER ::= { id-pkip 1 } + + RegControlSet ATTRIBUTE ::= { + regCtrl-regToken | regCtrl-authenticator | + regCtrl-pkiPublicationInfo | regCtrl-pkiArchiveOptions | + regCtrl-oldCertID | regCtrl-protocolEncrKey, ... } + + -- + -- 6.1. Registration Token Control + -- + + regCtrl-regToken ATTRIBUTE ::= + { TYPE RegToken IDENTIFIED BY id-regCtrl-regToken } + + id-regCtrl-regToken OBJECT IDENTIFIER ::= { id-regCtrl 1 } + + RegToken ::= UTF8String + + -- + -- 6.2. Authenticator Control + -- + + regCtrl-authenticator ATTRIBUTE ::= + { TYPE Authenticator IDENTIFIED BY id-regCtrl-authenticator } + + id-regCtrl-authenticator OBJECT IDENTIFIER ::= { id-regCtrl 2 } + + Authenticator ::= UTF8String + + -- + -- 6.3. Publication Information Control + -- + + regCtrl-pkiPublicationInfo ATTRIBUTE ::= + { TYPE PKIPublicationInfo IDENTIFIED BY + id-regCtrl-pkiPublicationInfo } + + id-regCtrl-pkiPublicationInfo OBJECT IDENTIFIER ::= { id-regCtrl 3 } + + PKIPublicationInfo ::= SEQUENCE { + action INTEGER { + dontPublish (0), + pleasePublish (1) }, + pubInfos SEQUENCE SIZE (1..MAX) OF SinglePubInfo OPTIONAL } + -- pubInfos MUST NOT be present if action is "dontPublish" + -- (if action is "pleasePublish" and pubInfos is omitted, + -- "dontCare" is assumed) + + SinglePubInfo ::= SEQUENCE { + pubMethod INTEGER { + dontCare (0), + x500 (1), + web (2), + ldap (3) }, + pubLocation GeneralName OPTIONAL } + + -- + -- 6.4. Archive Options Control + -- + + regCtrl-pkiArchiveOptions ATTRIBUTE ::= + { TYPE PKIArchiveOptions IDENTIFIED BY + id-regCtrl-pkiArchiveOptions } + + id-regCtrl-pkiArchiveOptions OBJECT IDENTIFIER ::= { id-regCtrl 4 } + + PKIArchiveOptions ::= CHOICE { + encryptedPrivKey [0] EncryptedKey, + -- the actual value of the private key + keyGenParameters [1] KeyGenParameters, + -- parameters that allow the private key to be re-generated + archiveRemGenPrivKey [2] BOOLEAN } + -- set to TRUE if sender wishes receiver to archive the private + -- key of a key pair that the receiver generates in response to + -- this request; set to FALSE if no archive is desired. + + EncryptedKey ::= CHOICE { + encryptedValue EncryptedValue, -- Deprecated + envelopedData [0] EnvelopedData } + -- The encrypted private key MUST be placed in the envelopedData + -- encryptedContentInfo encryptedContent OCTET STRING. + + -- + -- We skipped doing the full constraints here since this structure + -- has been deprecated in favor of EnvelopedData + -- + + EncryptedValue ::= SEQUENCE { + intendedAlg [0] AlgorithmIdentifier{ALGORITHM, {...}} OPTIONAL, + -- the intended algorithm for which the value will be used + symmAlg [1] AlgorithmIdentifier{ALGORITHM, {...}} OPTIONAL, + -- the symmetric algorithm used to encrypt the value + encSymmKey [2] BIT STRING OPTIONAL, + -- the (encrypted) symmetric key used to encrypt the value + keyAlg [3] AlgorithmIdentifier{ALGORITHM, {...}} OPTIONAL, + -- algorithm used to encrypt the symmetric key + valueHint [4] OCTET STRING OPTIONAL, + -- a brief description or identifier of the encValue content + -- (may be meaningful only to the sending entity, and used only + -- if EncryptedValue might be re-examined by the sending entity + -- in the future) + encValue BIT STRING } + -- the encrypted value itself + -- When EncryptedValue is used to carry a private key (as opposed to + -- a certificate), implementations MUST support the encValue field + -- containing an encrypted PrivateKeyInfo as defined in [PKCS11], + -- section 12.11. If encValue contains some other format/encoding + -- for the private key, the first octet of valueHint MAY be used + -- to indicate the format/encoding (but note that the possible values + -- of this octet are not specified at this time). In all cases, the + -- intendedAlg field MUST be used to indicate at least the OID of + -- the intended algorithm of the private key, unless this information + -- is known a priori to both sender and receiver by some other means. + + KeyGenParameters ::= OCTET STRING + + -- + -- 6.5. OldCert ID Control + -- + + regCtrl-oldCertID ATTRIBUTE ::= + { TYPE OldCertId IDENTIFIED BY id-regCtrl-oldCertID } + + id-regCtrl-oldCertID OBJECT IDENTIFIER ::= { id-regCtrl 5 } + + OldCertId ::= CertId + + CertId ::= SEQUENCE { + issuer GeneralName, + serialNumber INTEGER } + + -- + -- 6.6. Protocol Encryption Key Control + -- + + regCtrl-protocolEncrKey ATTRIBUTE ::= + { TYPE ProtocolEncrKey IDENTIFIED BY id-regCtrl-protocolEncrKey } + id-regCtrl-protocolEncrKey OBJECT IDENTIFIER ::= { id-regCtrl 6 } + + ProtocolEncrKey ::= SubjectPublicKeyInfo + + -- + -- 7. Registration Info in CRMF + -- + + id-regInfo OBJECT IDENTIFIER ::= { id-pkip 2 } + + RegInfoSet ATTRIBUTE ::= + { regInfo-utf8Pairs | regInfo-certReq } + + -- + -- 7.1. utf8Pairs RegInfo Control + -- + + regInfo-utf8Pairs ATTRIBUTE ::= + { TYPE UTF8Pairs IDENTIFIED BY id-regInfo-utf8Pairs } + + id-regInfo-utf8Pairs OBJECT IDENTIFIER ::= { id-regInfo 1 } + --with syntax + UTF8Pairs ::= UTF8String + + -- + -- 7.2. certReq RegInfo Control + -- + + regInfo-certReq ATTRIBUTE ::= + { TYPE CertReq IDENTIFIED BY id-regInfo-certReq } + + id-regInfo-certReq OBJECT IDENTIFIER ::= { id-regInfo 2 } + --with syntax + CertReq ::= CertRequest + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Protected-Part-Descriptors.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Protected-Part-Descriptors.asn1 index 5512f1590b..5512f1590b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Protected-Part-Descriptors.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Protected-Part-Descriptors.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/ProtocolObjectIdentifiers.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/ProtocolObjectIdentifiers.asn1 index d6e88a2e47..d6e88a2e47 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/ProtocolObjectIdentifiers.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/ProtocolObjectIdentifiers.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Coding-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Coding-Attributes.asn1 index 258c5f0b23..258c5f0b23 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Coding-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Coding-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Presentation-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Presentation-Attributes.asn1 index c8f3a2ff33..c8f3a2ff33 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Presentation-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Presentation-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Profile-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Profile-Attributes.asn1 index 365144ff35..365144ff35 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Raster-Gr-Profile-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Raster-Gr-Profile-Attributes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Reliable-Transfer-APDU.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Reliable-Transfer-APDU.asn1 index d00570b7e7..d00570b7e7 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Reliable-Transfer-APDU.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Reliable-Transfer-APDU.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Abstract-Syntaxes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Abstract-Syntaxes.asn1 index 4a59cc403b..4a59cc403b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Abstract-Syntaxes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Abstract-Syntaxes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Generic-ROS-PDUs.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Generic-ROS-PDUs.asn1 index e55ea3c05e..e55ea3c05e 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Generic-ROS-PDUs.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Generic-ROS-PDUs.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Information-Objects-extensions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Information-Objects-extensions.asn1 index 671cf0e780..671cf0e780 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Information-Objects-extensions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Information-Objects-extensions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Information-Objects.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Information-Objects.asn1 index b497e4126b..b497e4126b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Information-Objects.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Information-Objects.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Realizations.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Realizations.asn1 index 73b49c8d7a..73b49c8d7a 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Realizations.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Realizations.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Useful-Definitions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Useful-Definitions.asn1 index e526ff4600..e526ff4600 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Remote-Operations-Useful-Definitions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Remote-Operations-Useful-Definitions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/SCVP-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/SCVP-2009.asn1 new file mode 100644 index 0000000000..f74f76ff7c --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/SCVP-2009.asn1 @@ -0,0 +1,608 @@ + SCVP-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-scvp-02(52) } + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + Extensions{}, EXTENSION, ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57) } + + AlgorithmIdentifier{}, SIGNATURE-ALGORITHM, PUBLIC-KEY, KEY-AGREE, + DIGEST-ALGORITHM, KEY-DERIVATION, MAC-ALGORITHM + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + Certificate, CertificateList, CertificateSerialNumber, + SignatureAlgorithms, SubjectPublicKeyInfo + FROM PKIX1Explicit-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-explicit-02(51) } + + GeneralNames, GeneralName, KeyUsage, KeyPurposeId + FROM PKIX1Implicit-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkix1-implicit-02(59) } + + AttributeCertificate + FROM PKIXAttributeCertificate-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-attribute-cert-02(47) } + + OCSPResponse + FROM OCSP-2009 + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-ocsp-02(48) } + + ContentInfo, CONTENT-TYPE + FROM CryptographicMessageSyntax-2009 + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cms-2004-02(41) } + + mda-sha1 + FROM PKIXAlgs-2009 + { iso(1) identified-organization(3) dod(6) + internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56) } ; + + ContentTypes CONTENT-TYPE ::= {ct-scvp-certValRequest | + ct-scvp-certValResponse | ct-scvp-valPolRequest | + ct-scvp-valPolResponse, ... } + + id-ct OBJECT IDENTIFIER ::= + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs9(9) + id-smime(16) 1 } + + ct-scvp-certValRequest CONTENT-TYPE ::= + { CVRequest IDENTIFIED BY id-ct-scvp-certValRequest } + + id-ct-scvp-certValRequest OBJECT IDENTIFIER ::= { id-ct 10 } + + -- SCVP Certificate Validation Request + + CVRequest ::= SEQUENCE { + cvRequestVersion INTEGER DEFAULT 1, + query Query, + requestorRef [0] GeneralNames OPTIONAL, + requestNonce [1] OCTET STRING OPTIONAL, + requestorName [2] GeneralName OPTIONAL, + responderName [3] GeneralName OPTIONAL, + requestExtensions [4] Extensions{{RequestExtensions}} + OPTIONAL, + signatureAlg [5] AlgorithmIdentifier + {SIGNATURE-ALGORITHM, + {SignatureAlgorithms}} + OPTIONAL, + hashAlg [6] OBJECT IDENTIFIER OPTIONAL, + requestorText [7] UTF8String (SIZE (1..256)) OPTIONAL + } + + -- Set of signature algorithms is coming from RFC 5280 + -- SignatureAlgorithms SIGNATURE-ALGORITHM ::= {...} + + -- Add supported request extensions here; all new items should + -- be added after the extension marker + + RequestExtensions EXTENSION ::= {...} + + Query ::= SEQUENCE { + queriedCerts CertReferences, + checks CertChecks, + wantBack [1] WantBack OPTIONAL, + validationPolicy ValidationPolicy, + responseFlags ResponseFlags OPTIONAL, + serverContextInfo [2] OCTET STRING OPTIONAL, + validationTime [3] GeneralizedTime OPTIONAL, + intermediateCerts [4] CertBundle OPTIONAL, + revInfos [5] RevocationInfos OPTIONAL, + producedAt [6] GeneralizedTime OPTIONAL, + queryExtensions [7] Extensions{{QueryExtensions}} OPTIONAL + } + + -- Add supported query extensions here; all new items should be added + -- after the extension marker + + QueryExtensions EXTENSION ::= {...} + + CertReferences ::= CHOICE { + pkcRefs [0] SEQUENCE SIZE (1..MAX) OF PKCReference, + acRefs [1] SEQUENCE SIZE (1..MAX) OF ACReference + } + + CertReference::= CHOICE { + pkc PKCReference, + ac ACReference + } + + PKCReference ::= CHOICE { + cert [0] Certificate, + pkcRef [1] SCVPCertID + } + + ACReference ::= CHOICE { + attrCert [2] AttributeCertificate, + acRef [3] SCVPCertID + } + + HashAlgorithm ::= AlgorithmIdentifier{DIGEST-ALGORITHM, + {mda-sha1, ...}} + + SCVPCertID ::= SEQUENCE { + certHash OCTET STRING, + issuerSerial SCVPIssuerSerial, + hashAlgorithm HashAlgorithm + DEFAULT { algorithm mda-sha1.&id } + } + + SCVPIssuerSerial ::= SEQUENCE { + issuer GeneralNames, + serialNumber CertificateSerialNumber + } + + ValidationPolicy ::= SEQUENCE { + validationPolRef ValidationPolRef, + validationAlg [0] ValidationAlg OPTIONAL, + userPolicySet [1] SEQUENCE SIZE (1..MAX) OF OBJECT + IDENTIFIER OPTIONAL, + inhibitPolicyMapping [2] BOOLEAN OPTIONAL, + requireExplicitPolicy [3] BOOLEAN OPTIONAL, + inhibitAnyPolicy [4] BOOLEAN OPTIONAL, + trustAnchors [5] TrustAnchors OPTIONAL, + keyUsages [6] SEQUENCE OF KeyUsage OPTIONAL, + extendedKeyUsages [7] SEQUENCE OF KeyPurposeId OPTIONAL, + specifiedKeyUsages [8] SEQUENCE OF KeyPurposeId OPTIONAL + } + + CertChecks ::= SEQUENCE SIZE (1..MAX) OF + OBJECT IDENTIFIER (CertCheckSet | ACertCheckSet, ... ) + + WantBack ::= SEQUENCE SIZE (1..MAX) OF + WANT-BACK.&id ({AllWantBacks}) + + POLICY ::= ATTRIBUTE + + ValidationPolRefSet POLICY ::= { + svp-defaultValPolicy, ... + } + + ValidationPolRef ::= SEQUENCE { + valPolId POLICY.&id, + valPolParams POLICY.&Type OPTIONAL + } + + ValidationAlgSet POLICY ::= { + svp-basicValAlg, ... + } + + ValidationAlg ::= SEQUENCE { + valAlgId POLICY.&id, + parameters POLICY.&Type OPTIONAL + } + + NameValidationAlgSet POLICY ::= { + svp-nameValAlg, ... + } + + NameValidationAlgParams ::= SEQUENCE { + nameCompAlgId OBJECT IDENTIFIER (NameCompAlgSet, ... ), + validationNames GeneralNames + } + + TrustAnchors ::= SEQUENCE SIZE (1..MAX) OF PKCReference + KeyAgreePublicKey ::= SEQUENCE { + algorithm AlgorithmIdentifier{KEY-AGREE, + {SupportedKeyAgreePublicKeys}}, + publicKey BIT STRING, + macAlgorithm AlgorithmIdentifier{MAC-ALGORITHM, + {SupportedMACAlgorithms}}, + kDF AlgorithmIdentifier{KEY-DERIVATION, + {SupportedKeyDerivationFunctions}} + OPTIONAL + } + + SupportedKeyAgreePublicKeys KEY-AGREE ::= {...} + SupportedMACAlgorithms MAC-ALGORITHM ::= {...} + SupportedKeyDerivationFunctions KEY-DERIVATION ::= {...} + + ResponseFlags ::= SEQUENCE { + fullRequestInResponse [0] BOOLEAN DEFAULT FALSE, + responseValidationPolByRef [1] BOOLEAN DEFAULT TRUE, + protectResponse [2] BOOLEAN DEFAULT TRUE, + cachedResponse [3] BOOLEAN DEFAULT TRUE + } + + CertBundle ::= SEQUENCE SIZE (1..MAX) OF Certificate + + RevocationInfos ::= SEQUENCE SIZE (1..MAX) OF RevocationInfo + + RevocationInfo ::= CHOICE { + crl [0] CertificateList, + delta-crl [1] CertificateList, + ocsp [2] OCSPResponse, + other [3] OtherRevInfo + } + + REV-INFO ::= TYPE-IDENTIFIER + + OtherRevInfo ::= SEQUENCE { + riType REV-INFO.&id, + riValue REV-INFO.&Type + } + + -- SCVP Certificate Validation Response + + ct-scvp-certValResponse CONTENT-TYPE ::= + { CVResponse IDENTIFIED BY id-ct-scvp-certValResponse } + + id-ct-scvp-certValResponse OBJECT IDENTIFIER ::= { id-ct 11 } + + CVResponse ::= SEQUENCE { + cvResponseVersion INTEGER, + serverConfigurationID INTEGER, + producedAt GeneralizedTime, + responseStatus ResponseStatus, + respValidationPolicy [0] RespValidationPolicy OPTIONAL, + requestRef [1] RequestReference OPTIONAL, + requestorRef [2] GeneralNames OPTIONAL, + requestorName [3] GeneralNames OPTIONAL, + replyObjects [4] ReplyObjects OPTIONAL, + respNonce [5] OCTET STRING OPTIONAL, + serverContextInfo [6] OCTET STRING OPTIONAL, + cvResponseExtensions [7] Extensions{{CVResponseExtensions}} + OPTIONAL, + requestorText [8] UTF8String (SIZE (1..256)) OPTIONAL + } + + -- This document defines no extensions + CVResponseExtensions EXTENSION ::= {...} + + ResponseStatus ::= SEQUENCE { + statusCode CVStatusCode DEFAULT okay, + errorMessage UTF8String OPTIONAL + } + + CVStatusCode ::= ENUMERATED { + okay (0), + skipUnrecognizedItems (1), + tooBusy (10), + invalidRequest (11), + internalError (12), + badStructure (20), + unsupportedVersion (21), + abortUnrecognizedItems (22), + unrecognizedSigKey (23), + badSignatureOrMAC (24), + unableToDecode (25), + notAuthorized (26), + unsupportedChecks (27), + unsupportedWantBacks (28), + unsupportedSignatureOrMAC (29), + invalidSignatureOrMAC (30), + protectedResponseUnsupported (31), + unrecognizedResponderName (32), + relayingLoop (40), + unrecognizedValPol (50), + unrecognizedValAlg (51), + fullRequestInResponseUnsupported (52), + fullPolResponseUnsupported (53), + inhibitPolicyMappingUnsupported (54), + requireExplicitPolicyUnsupported (55), + inhibitAnyPolicyUnsupported (56), + validationTimeUnsupported (57), + unrecognizedCritQueryExt (63), + unrecognizedCritRequestExt (64), + ... + } + + RespValidationPolicy ::= ValidationPolicy + + RequestReference ::= CHOICE { + requestHash [0] HashValue, -- hash of CVRequest + fullRequest [1] CVRequest } + + HashValue ::= SEQUENCE { + algorithm HashAlgorithm + DEFAULT { algorithm mda-sha1.&id }, + value OCTET STRING } + + ReplyObjects ::= SEQUENCE SIZE (1..MAX) OF CertReply + + CertReply ::= SEQUENCE { + cert CertReference, + replyStatus ReplyStatus DEFAULT success, + replyValTime GeneralizedTime, + replyChecks ReplyChecks, + replyWantBacks ReplyWantBacks, + validationErrors [0] SEQUENCE SIZE (1..MAX) OF + OBJECT IDENTIFIER ( BasicValidationErrorSet | + NameValidationErrorSet, + ... ) OPTIONAL, + nextUpdate [1] GeneralizedTime OPTIONAL, + certReplyExtensions [2] Extensions{{...}} OPTIONAL + } + + ReplyStatus ::= ENUMERATED { + success (0), + malformedPKC (1), + malformedAC (2), + unavailableValidationTime (3), + referenceCertHashFail (4), + certPathConstructFail (5), + certPathNotValid (6), + certPathNotValidNow (7), + wantBackUnsatisfied (8) + } + ReplyChecks ::= SEQUENCE OF ReplyCheck + + ReplyCheck ::= SEQUENCE { + check OBJECT IDENTIFIER (CertCheckSet | ACertCheckSet, ... ), + status INTEGER DEFAULT 0 + } + + ReplyWantBacks ::= SEQUENCE OF ReplyWantBack + + ReplyWantBack::= SEQUENCE { + wb WANT-BACK.&id({AllWantBacks}), + value OCTET STRING + (CONTAINING WANT-BACK.&Type({AllWantBacks}{@wb})) + } + + WANT-BACK ::= TYPE-IDENTIFIER + + AllWantBacks WANT-BACK ::= { + WantBackSet | ACertWantBackSet | AnyWantBackSet, ... + } + + CertBundles ::= SEQUENCE SIZE (1..MAX) OF CertBundle + + RevInfoWantBack ::= SEQUENCE { + revocationInfo RevocationInfos, + extraCerts CertBundle OPTIONAL + } + + SCVPResponses ::= SEQUENCE OF ContentInfo + + -- SCVP Validation Policies Request + + ct-scvp-valPolRequest CONTENT-TYPE ::= + { ValPolRequest IDENTIFIED BY id-ct-scvp-valPolRequest } + + id-ct-scvp-valPolRequest OBJECT IDENTIFIER ::= { id-ct 12 } + + ValPolRequest ::= SEQUENCE { + vpRequestVersion INTEGER DEFAULT 1, + requestNonce OCTET STRING + } + + -- SCVP Validation Policies Response + + ct-scvp-valPolResponse CONTENT-TYPE ::= + { ValPolResponse IDENTIFIED BY id-ct-scvp-valPolResponse } + + id-ct-scvp-valPolResponse OBJECT IDENTIFIER ::= { id-ct 13 } + ValPolResponse ::= SEQUENCE { + vpResponseVersion INTEGER, + maxCVRequestVersion INTEGER, + maxVPRequestVersion INTEGER, + serverConfigurationID INTEGER, + thisUpdate GeneralizedTime, + nextUpdate GeneralizedTime OPTIONAL, + supportedChecks CertChecks, + supportedWantBacks WantBack, + validationPolicies SEQUENCE OF OBJECT IDENTIFIER, + validationAlgs SEQUENCE OF OBJECT IDENTIFIER, + authPolicies SEQUENCE OF AuthPolicy, + responseTypes ResponseTypes, + defaultPolicyValues RespValidationPolicy, + revocationInfoTypes RevocationInfoTypes, + signatureGeneration SEQUENCE OF AlgorithmIdentifier + {SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + signatureVerification SEQUENCE OF AlgorithmIdentifier + {SIGNATURE-ALGORITHM, + {SignatureAlgorithms}}, + hashAlgorithms SEQUENCE SIZE (1..MAX) OF + OBJECT IDENTIFIER, + serverPublicKeys SEQUENCE OF KeyAgreePublicKey + OPTIONAL, + clockSkew INTEGER DEFAULT 10, + requestNonce OCTET STRING OPTIONAL + } + + ResponseTypes ::= ENUMERATED { + cached-only (0), + non-cached-only (1), + cached-and-non-cached (2) + } + + RevocationInfoTypes ::= BIT STRING { + fullCRLs (0), + deltaCRLs (1), + indirectCRLs (2), + oCSPResponses (3) + } + + AuthPolicy ::= OBJECT IDENTIFIER + + -- SCVP Check Identifiers + + id-stc OBJECT IDENTIFIER ::= + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) 17 } + + CertCheckSet OBJECT IDENTIFIER ::= { + id-stc-build-pkc-path | id-stc-build-valid-pkc-path | + id-stc-build-status-checked-pkc-path, ... } + + id-stc-build-pkc-path OBJECT IDENTIFIER ::= { id-stc 1 } + id-stc-build-valid-pkc-path OBJECT IDENTIFIER ::= { id-stc 2 } + id-stc-build-status-checked-pkc-path + OBJECT IDENTIFIER ::= { id-stc 3 } + + ACertCheckSet OBJECT IDENTIFIER ::= { + id-stc-build-aa-path | id-stc-build-valid-aa-path | + id-stc-build-status-checked-aa-path | + id-stc-status-check-ac-and-build-status-checked-aa-path + } + + id-stc-build-aa-path OBJECT IDENTIFIER ::= { id-stc 4 } + id-stc-build-valid-aa-path OBJECT IDENTIFIER ::= { id-stc 5 } + id-stc-build-status-checked-aa-path + OBJECT IDENTIFIER ::= { id-stc 6 } + id-stc-status-check-ac-and-build-status-checked-aa-path + OBJECT IDENTIFIER ::= { id-stc 7 } + + -- SCVP WantBack Identifiers + + id-swb OBJECT IDENTIFIER ::= + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) 18 } + + WantBackSet WANT-BACK ::= { + swb-pkc-cert | swb-pkc-best-cert-path | + swb-pkc-revocation-info | swb-pkc-public-key-info | + swb-pkc-all-cert-paths | swb-pkc-ee-revocation-info | + swb-pkc-CAs-revocation-info + } + + ACertWantBackSet WANT-BACK ::= { + swb-ac-cert | swb-aa-cert-path | + swb-aa-revocation-info | swb-ac-revocation-info + } + + AnyWantBackSet WANT-BACK ::= { swb-relayed-responses } + + swb-pkc-best-cert-path WANT-BACK ::= + { CertBundle IDENTIFIED BY id-swb-pkc-best-cert-path } + id-swb-pkc-best-cert-path OBJECT IDENTIFIER ::= { id-swb 1 } + swb-pkc-revocation-info WANT-BACK ::= + { RevInfoWantBack IDENTIFIED BY id-swb-pkc-revocation-info } + id-swb-pkc-revocation-info OBJECT IDENTIFIER ::= { id-swb 2 } + + swb-pkc-public-key-info WANT-BACK ::= + { SubjectPublicKeyInfo IDENTIFIED BY id-swb-pkc-public-key-info } + id-swb-pkc-public-key-info OBJECT IDENTIFIER ::= { id-swb 4 } + + swb-aa-cert-path WANT-BACK ::= + {CertBundle IDENTIFIED BY id-swb-aa-cert-path } + id-swb-aa-cert-path OBJECT IDENTIFIER ::= { id-swb 5 } + + swb-aa-revocation-info WANT-BACK ::= + { RevInfoWantBack IDENTIFIED BY id-swb-aa-revocation-info } + id-swb-aa-revocation-info OBJECT IDENTIFIER ::= { id-swb 6 } + + swb-ac-revocation-info WANT-BACK ::= + { RevInfoWantBack IDENTIFIED BY id-swb-ac-revocation-info } + id-swb-ac-revocation-info OBJECT IDENTIFIER ::= { id-swb 7 } + + swb-relayed-responses WANT-BACK ::= + {SCVPResponses IDENTIFIED BY id-swb-relayed-responses } + + id-swb-relayed-responses OBJECT IDENTIFIER ::= { id-swb 9 } + + swb-pkc-all-cert-paths WANT-BACK ::= + {CertBundles IDENTIFIED BY id-swb-pkc-all-cert-paths } + id-swb-pkc-all-cert-paths OBJECT IDENTIFIER ::= { id-swb 12} + + swb-pkc-ee-revocation-info WANT-BACK ::= + { RevInfoWantBack IDENTIFIED BY id-swb-pkc-ee-revocation-info } + id-swb-pkc-ee-revocation-info OBJECT IDENTIFIER ::= { id-swb 13} + + swb-pkc-CAs-revocation-info WANT-BACK ::= + { RevInfoWantBack IDENTIFIED BY id-swb-pkc-CAs-revocation-info } + id-swb-pkc-CAs-revocation-info OBJECT IDENTIFIER ::= { id-swb 14} + + swb-pkc-cert WANT-BACK ::= + { Certificate IDENTIFIED BY id-swb-pkc-cert } + id-swb-pkc-cert OBJECT IDENTIFIER ::= { id-swb 10} + + swb-ac-cert WANT-BACK ::= + { AttributeCertificate IDENTIFIED BY id-swb-ac-cert } + id-swb-ac-cert OBJECT IDENTIFIER ::= { id-swb 11} + + -- SCVP Validation Policy and Algorithm Identifiers + + id-svp OBJECT IDENTIFIER ::= + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) 19 } + + svp-defaultValPolicy POLICY ::= + { IDENTIFIED BY id-svp-defaultValPolicy } + + id-svp-defaultValPolicy OBJECT IDENTIFIER ::= { id-svp 1 } + + -- SCVP Basic Validation Algorithm Identifier + + svp-basicValAlg POLICY ::= {IDENTIFIED BY id-svp-basicValAlg } + + id-svp-basicValAlg OBJECT IDENTIFIER ::= { id-svp 3 } + + -- SCVP Basic Validation Algorithm Errors + + id-bvae OBJECT IDENTIFIER ::= id-svp-basicValAlg + + BasicValidationErrorSet OBJECT IDENTIFIER ::= { + id-bvae-expired | id-bvae-not-yet-valid | + id-bvae-wrongTrustAnchor | id-bvae-noValidCertPath | + id-bvae-revoked | id-bvae-invalidKeyPurpose | + id-bvae-invalidKeyUsage | id-bvae-invalidCertPolicy + } + + id-bvae-expired OBJECT IDENTIFIER ::= { id-bvae 1 } + id-bvae-not-yet-valid OBJECT IDENTIFIER ::= { id-bvae 2 } + id-bvae-wrongTrustAnchor OBJECT IDENTIFIER ::= { id-bvae 3 } + id-bvae-noValidCertPath OBJECT IDENTIFIER ::= { id-bvae 4 } + id-bvae-revoked OBJECT IDENTIFIER ::= { id-bvae 5 } + id-bvae-invalidKeyPurpose OBJECT IDENTIFIER ::= { id-bvae 9 } + id-bvae-invalidKeyUsage OBJECT IDENTIFIER ::= { id-bvae 10 } + id-bvae-invalidCertPolicy OBJECT IDENTIFIER ::= { id-bvae 11 } + + -- SCVP Name Validation Algorithm Identifier + + svp-nameValAlg POLICY ::= + {TYPE NameValidationAlgParams IDENTIFIED BY id-svp-nameValAlg } + + id-svp-nameValAlg OBJECT IDENTIFIER ::= { id-svp 2 } + + -- SCVP Name Validation Algorithm DN comparison algorithm + + NameCompAlgSet OBJECT IDENTIFIER ::= { + id-nva-dnCompAlg + } + + id-nva-dnCompAlg OBJECT IDENTIFIER ::= { id-svp 4 } + -- SCVP Name Validation Algorithm Errors + + id-nvae OBJECT IDENTIFIER ::= id-svp-nameValAlg + + NameValidationErrorSet OBJECT IDENTIFIER ::= { + id-nvae-name-mismatch | id-nvae-no-name | id-nvae-unknown-alg | + id-nvae-bad-name | id-nvae-bad-name-type | id-nvae-mixed-names + } + + id-nvae-name-mismatch OBJECT IDENTIFIER ::= { id-nvae 1 } + id-nvae-no-name OBJECT IDENTIFIER ::= { id-nvae 2 } + id-nvae-unknown-alg OBJECT IDENTIFIER ::= { id-nvae 3 } + id-nvae-bad-name OBJECT IDENTIFIER ::= { id-nvae 4 } + id-nvae-bad-name-type OBJECT IDENTIFIER ::= { id-nvae 5 } + id-nvae-mixed-names OBJECT IDENTIFIER ::= { id-nvae 6 } + + -- SCVP Extended Key Usage Key Purpose Identifiers + + id-kp OBJECT IDENTIFIER ::= + { iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) 3 } + + SvcpExtKeyUsageSet OBJECT IDENTIFIER ::= { + id-kp-scvpServer | id-kp-scvpClient + } + + id-kp-scvpServer OBJECT IDENTIFIER ::= { id-kp 15 } + + id-kp-scvpClient OBJECT IDENTIFIER ::= { id-kp 16 } + + END diff --git a/lib/asn1/test/asn1_SUITE_data/rfcs/SecureMimeMessageV3dot1-2009.asn1 b/lib/asn1/test/asn1_SUITE_data/rfcs/SecureMimeMessageV3dot1-2009.asn1 new file mode 100644 index 0000000000..2bd2aaa435 --- /dev/null +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/SecureMimeMessageV3dot1-2009.asn1 @@ -0,0 +1,122 @@ + SecureMimeMessageV3dot1-2009 + {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-msg-v3dot1-02(39)} + DEFINITIONS IMPLICIT TAGS ::= + BEGIN + IMPORTS + + SMIME-CAPS, SMIMECapabilities{} + FROM AlgorithmInformation-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-algorithmInformation-02(58)} + + ATTRIBUTE + FROM PKIX-CommonTypes-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon-02(57)} + + SubjectKeyIdentifier, IssuerAndSerialNumber, RecipientKeyIdentifier + FROM CryptographicMessageSyntax-2009 + {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cms-2004-02(41)} + + rc2-cbc, SMimeCaps + FROM CryptographicMessageSyntaxAlgorithms-2009 + {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) modules(0) id-mod-cmsalg-2001-02(37)} + + SMimeCaps + FROM PKIXAlgs-2009 + {iso(1) identified-organization(3) dod(6) internet(1) security(5) + mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-algorithms2008-02(56)} + + SMimeCaps + FROM PKIX1-PSS-OAEP-Algorithms-2009 + {iso(1) identified-organization(3) dod(6) internet(1) + security(5) mechanisms(5) pkix(7) id-mod(0) + id-mod-pkix1-rsa-pkalgs-02(54)}; + + SMimeAttributeSet ATTRIBUTE ::= + { aa-smimeCapabilities | aa-encrypKeyPref, ... } + + -- id-aa is the arc with all new authenticated and unauthenticated + -- attributes produced by the S/MIME Working Group + + id-aa OBJECT IDENTIFIER ::= + { iso(1) member-body(2) usa(840) rsadsi(113549) pkcs(1) pkcs-9(9) + smime(16) attributes(2)} + + -- The S/MIME Capabilities attribute provides a method of broadcasting + -- the symmetric capabilities understood. Algorithms SHOULD be ordered + -- by preference and grouped by type + + aa-smimeCapabilities ATTRIBUTE ::= + { TYPE SMIMECapabilities{{SMimeCapsSet}} IDENTIFIED BY + smimeCapabilities } + smimeCapabilities OBJECT IDENTIFIER ::= + { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + 15 } + + SMimeCapsSet SMIME-CAPS ::= + { cap-preferBinaryInside | cap-RC2CBC | + PKIXAlgs-2009.SMimeCaps | + CryptographicMessageSyntaxAlgorithms-2009.SMimeCaps | + PKIX1-PSS-OAEP-Algorithms-2009.SMimeCaps, ... } + + -- Encryption Key Preference provides a method of broadcasting the + -- preferred encryption certificate. + + aa-encrypKeyPref ATTRIBUTE ::= + { TYPE SMIMEEncryptionKeyPreference + IDENTIFIED BY id-aa-encrypKeyPref } + + id-aa-encrypKeyPref OBJECT IDENTIFIER ::= {id-aa 11} + + SMIMEEncryptionKeyPreference ::= CHOICE { + issuerAndSerialNumber [0] IssuerAndSerialNumber, + receipentKeyId [1] RecipientKeyIdentifier, + subjectAltKeyIdentifier [2] SubjectKeyIdentifier + } + + -- receipentKeyId is spelt incorrectly, but kept for historical + -- reasons. + + id-smime OBJECT IDENTIFIER ::= { iso(1) member-body(2) + us(840) rsadsi(113549) pkcs(1) pkcs9(9) 16 } + + id-cap OBJECT IDENTIFIER ::= { id-smime 11 } + + -- The preferBinaryInside indicates an ability to receive messages + -- with binary encoding inside the CMS wrapper + + cap-preferBinaryInside SMIME-CAPS ::= + { -- No value -- IDENTIFIED BY id-cap-preferBinaryInside } + + id-cap-preferBinaryInside OBJECT IDENTIFIER ::= { id-cap 1 } + + -- The following list OIDs to be used with S/MIME V3 + + -- Signature Algorithms Not Found in [RFC3370] + -- + -- md2WithRSAEncryption OBJECT IDENTIFIER ::= + -- {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-1(1) + -- 2} + -- + -- Other Signed Attributes + -- + -- signingTime OBJECT IDENTIFIER ::= + -- {iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) + -- 5} + -- See [RFC5652] for a description of how to encode the attribute + -- value. + + cap-RC2CBC SMIME-CAPS ::= + { TYPE SMIMECapabilitiesParametersForRC2CBC + IDENTIFIED BY rc2-cbc} + + SMIMECapabilitiesParametersForRC2CBC ::= INTEGER (40 | 128, ...) + -- (RC2 Key Length (number of bits)) + + END diff --git a/lib/asn1/test/asn1_SUITE_data/x420/SelectedAttributeTypes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/SelectedAttributeTypes.asn1 index 07bba30690..07bba30690 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/SelectedAttributeTypes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/SelectedAttributeTypes.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/SeseAPDUs.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/SeseAPDUs.asn1 index 2917122e94..2917122e94 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/SeseAPDUs.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/SeseAPDUs.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/SpkmGssTokens.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/SpkmGssTokens.asn1 index 02205bd64c..02205bd64c 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/SpkmGssTokens.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/SpkmGssTokens.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Style-Descriptors.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Style-Descriptors.asn1 index 8f033eab6f..8f033eab6f 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Style-Descriptors.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Style-Descriptors.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Subprofiles.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Subprofiles.asn1 index bfcd0b5dbc..bfcd0b5dbc 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Subprofiles.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Subprofiles.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Temporal-Relationships.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Temporal-Relationships.asn1 index 9633995e3b..9633995e3b 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Temporal-Relationships.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Temporal-Relationships.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Text-Units.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Text-Units.asn1 index ccc64a52f5..ccc64a52f5 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Text-Units.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Text-Units.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/UpperBounds.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/UpperBounds.asn1 index c97c83a569..c97c83a569 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/UpperBounds.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/UpperBounds.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/UsefulDefinitions.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/UsefulDefinitions.asn1 index d9601bb7d0..d9601bb7d0 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/UsefulDefinitions.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/UsefulDefinitions.asn1 diff --git a/lib/asn1/test/asn1_SUITE_data/x420/Videotex-Coding-Attributes.asn b/lib/asn1/test/asn1_SUITE_data/rfcs/Videotex-Coding-Attributes.asn1 index 18e51cbc0d..18e51cbc0d 100644 --- a/lib/asn1/test/asn1_SUITE_data/x420/Videotex-Coding-Attributes.asn +++ b/lib/asn1/test/asn1_SUITE_data/rfcs/Videotex-Coding-Attributes.asn1 diff --git a/lib/asn1/test/asn1_test_lib.erl b/lib/asn1/test/asn1_test_lib.erl index da07cd1118..a5f46046ff 100644 --- a/lib/asn1/test/asn1_test_lib.erl +++ b/lib/asn1/test/asn1_test_lib.erl @@ -21,6 +21,7 @@ -export([compile/3,compile_all/3,compile_erlang/3, hex_to_bin/1, + match_value/2, parallel/0, roundtrip/3,roundtrip/4,roundtrip_enc/3,roundtrip_enc/4]). @@ -106,6 +107,24 @@ compile_erlang(Mod, Config, Options) -> hex_to_bin(S) -> << <<(hex2num(C)):4>> || C <- S, C =/= $\s >>. +%% match_value(Pattern, Value) -> ok. +%% Match Pattern against Value. If the Pattern contains in any +%% position, the corresponding position in the Value can be +%% anything. Generate an exception if the Pattern and Value don't +%% match. + +match_value('_', _) -> + ok; +match_value([H1|T1], [H2|T2]) -> + match_value(H1, H2), + match_value(T1, T2); +match_value(T1, T2) when tuple_size(T1) =:= tuple_size(T2) -> + match_value_tuple(1, T1, T2); +match_value(Same, Same) -> + ok; +match_value(V1, V2) -> + error({nomatch,V1,V2}). + roundtrip(Mod, Type, Value) -> roundtrip(Mod, Type, Value, Value). @@ -132,6 +151,12 @@ hex2num(C) when $0 =< C, C =< $9 -> C - $0; hex2num(C) when $A =< C, C =< $F -> C - $A + 10; hex2num(C) when $a =< C, C =< $f -> C - $a + 10. +match_value_tuple(I, T1, T2) when I =< tuple_size(T1) -> + match_value(element(I, T1), element(I, T2)), + match_value_tuple(I+1, T1, T2); +match_value_tuple(_, _, _) -> + ok. + test_ber_indefinite(Mod, Type, Encoded, ExpectedValue) -> case Mod:encoding_rule() of ber -> diff --git a/lib/asn1/test/error_SUITE.erl b/lib/asn1/test/error_SUITE.erl index 1edd60f7c8..a9893b91cc 100644 --- a/lib/asn1/test/error_SUITE.erl +++ b/lib/asn1/test/error_SUITE.erl @@ -19,9 +19,12 @@ -module(error_SUITE). -export([suite/0,all/0,groups/0, - already_defined/1,bitstrings/1,enumerated/1, - imports/1,instance_of/1,integers/1,objects/1, - parameterization/1,values/1]). + already_defined/1,bitstrings/1, + classes/1,constraints/1,constructed/1,enumerated/1, + imports_exports/1,instance_of/1,integers/1,objects/1, + object_field_extraction/1,oids/1,rel_oids/1, + object_sets/1,parameterization/1, + syntax/1,table_constraints/1,tags/1,values/1]). -include_lib("test_server/include/test_server.hrl"). @@ -34,12 +37,22 @@ groups() -> [{p,parallel(), [already_defined, bitstrings, + classes, + constraints, + constructed, enumerated, - imports, + imports_exports, instance_of, integers, objects, + object_field_extraction, + object_sets, + oids, + rel_oids, parameterization, + syntax, + table_constraints, + tags, values]}]. parallel() -> @@ -94,6 +107,46 @@ bitstrings(Config) -> ]} = run(P, Config), ok. +classes(Config) -> + M = 'Classes', + P = {M, + <<"Classes DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + " LowerCase ::= CLASS { &id INTEGER UNIQUE }\n" + " CL ::= CLASS { &id INTEGER UNIQUE DEFAULT 42}\n" + "END\n">>}, + {error, + [{structured_error,{M,2},asn1ct_check, + {illegal_class_name,'LowerCase'}}, + {structured_error,{M,3},asn1ct_check, + {unique_and_default,id}} + ]} = run(P, Config), + ok. + +constraints(Config) -> + M = 'Constraints', + P = {M, + <<"Constraints DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + " II-1 ::= INTEGER (holder-1.&obj)\n" + " II-2 ::= INTEGER ('1234'H<..20)\n" + " II-3 ::= INTEGER (1..<\"abc\")\n" + " II-4 ::= INTEGER (10..1)\n" + + " HOLDER ::= CLASS {\n" + " &obj HOLDER OPTIONAL\n" + " }\n" + + " holder-1 HOLDER ::= { &obj holder-2 }\n" + " holder-2 HOLDER ::= { }\n" + "END\n">>}, + {error, + [ + {structured_error,{M,2},asn1ct_check,illegal_value}, + {structured_error,{M,3},asn1ct_check,illegal_integer_value}, + {structured_error,{M,4},asn1ct_check,illegal_integer_value}, + {structured_error,{M,5},asn1ct_check,reversed_range} + ]} = run(P, Config), + ok. + enumerated(Config) -> M = 'Enumerated', P = {M, @@ -111,38 +164,77 @@ enumerated(Config) -> " S2 ::= SEQUENCE {\n" " e2 EnumExt DEFAULT xyz\n" " }\n" + + " BadEnum1 ::= ENUMERATED {a, b, c, b }\n" + " BadEnum2 ::= ENUMERATED {a(1), b(2), b(3) }\n" + " BadEnum3 ::= ENUMERATED {a(1), b(1) }\n" + " BadEnum4 ::= ENUMERATED {a, b, ..., c(0) }\n" + " BadEnum5 ::= ENUMERATED {a, b, ..., c(10), d(5) }\n" "END\n">>}, {error, [ - {structured_error,{'Enumerated',3},asn1ct_check,{undefined,d}}, - {structured_error,{'Enumerated',5},asn1ct_check,{undefined,z}}, - {structured_error,{'Enumerated',10},asn1ct_check,{undefined,aa}}, - {structured_error,{'Enumerated',13},asn1ct_check,{undefined,xyz}} + {structured_error,{M,3},asn1ct_check,{undefined,d}}, + {structured_error,{M,5},asn1ct_check,{undefined,z}}, + {structured_error,{M,6},asn1ct_check,{undefined,aa}}, + {structured_error,{M,12},asn1ct_check,{undefined,xyz}}, + {structured_error,{M,15},asn1ct_check, + {enum_illegal_redefinition,b}}, + {structured_error,{M,16},asn1ct_check, + {enum_illegal_redefinition,b}}, + {structured_error,{M,17},asn1ct_check, + {enum_reused_value,b,1}}, + {structured_error,{M,18},asn1ct_check, + {enum_reused_value,c,0}}, + {structured_error,{M,19},asn1ct_check, + {enum_not_ascending,d,5,10}} ] } = run(P, Config), ok. -imports(Config) -> +imports_exports(Config) -> Ext = 'ExternalModule', ExtP = {Ext, <<"ExternalModule DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + "IMPORTS\n" + " Int, NonExistingImport FROM ImportsFrom;\n" + + " Existing ::= INTEGER\n" "END\n">>}, - ok = run(ExtP, Config), + {error, + [{structured_error, + {Ext,3}, + asn1ct_check, + {undefined_import,'NonExistingImport', + 'ImportsFrom'}}]} = run(ExtP, Config), M = 'Imports', P = {M, <<"Imports DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" - "IMPORTS NotDefined FROM ExternalModule\n" - "X FROM UndefinedModule objid\n" - "Y, Z FROM UndefinedModule2;\n" + "EXPORTS\n" + " T, UndefinedType;\n" + + "IMPORTS\n" + " NotDefined, Existing, Int, NonExistingImport\n" + " FROM ExternalModule\n" + " X FROM UndefinedModule objid\n" + " Y, Z FROM UndefinedModule2;\n" + "objid OBJECT IDENTIFIER ::= {joint-iso-ccitt(2) remote-operations(4)\n" " notation(0)}\n" + "T ::= INTEGER\n" "END\n">>}, - {error,[{structured_error,{M,2},asn1ct_check, - {undefined_import,'NotDefined','ExternalModule'}}, - {structured_error,{M,3},asn1ct_check,{undefined_import,'X','UndefinedModule'}}, - {structured_error,{M,4},asn1ct_check,{undefined_import,'Y','UndefinedModule2'}}, - {structured_error,{M,4},asn1ct_check,{undefined_import,'Z','UndefinedModule2'}} + {error,[{structured_error,{M,3},asn1ct_check, + {undefined_export, 'UndefinedType'}}, + {structured_error,{M,5},asn1ct_check, + {undefined_import,'NonExistingImport',Ext}}, + {structured_error,{M,5},asn1ct_check, + {undefined_import,'NotDefined',Ext}}, + {structured_error,{M,7},asn1ct_check, + {undefined_import,'X','UndefinedModule'}}, + {structured_error,{M,8},asn1ct_check, + {undefined_import,'Y','UndefinedModule2'}}, + {structured_error,{M,8},asn1ct_check, + {undefined_import,'Z','UndefinedModule2'}} ]} = run(P, Config), ok. @@ -170,11 +262,14 @@ integers(Config) -> " Int1 ::= INTEGER {a(1), a(1)}\n" " Int2 ::= INTEGER {a(1), b(2), a(3)}\n" " Int3 ::= INTEGER {x(1), y(1)}\n" + " i0 INTEGER ::= 1\n" + " Int4 ::= INTEGER {x(i0), y(undef) }\n" "END\n">>}, {error, [{structured_error,{M,2},asn1ct_check,{namelist_redefinition,a}}, {structured_error,{M,3},asn1ct_check,{namelist_redefinition,a}}, - {structured_error,{M,4},asn1ct_check,{value_reused,1}} + {structured_error,{M,4},asn1ct_check,{value_reused,1}}, + {structured_error,{M,6},asn1ct_check,{undefined,undef}} ]} = run(P, Config), ok. @@ -188,6 +283,11 @@ objects(Config) -> " obj3 CL ::= { &Data OCTET STRING }\n" " obj4 SMALL ::= { &code 42 }\n" " InvalidSet CL ::= { obj1 }\n" + " obj5 CL ::= {}\n" + " ErrSet ::= PT{ {PT{inst}}}\n" + " obj6 CL ::= 7\n" + " obj7 CL ::= int\n" + " obj8 NON-CLASS ::= { &id 1 }\n" " CL ::= CLASS {\n" " &code INTEGER UNIQUE,\n" @@ -203,6 +303,12 @@ objects(Config) -> " &code INTEGER UNIQUE,\n" " &i INTEGER\n" " }\n" + + " PT{SMALL:Small} ::= SEQUENCE { a SMALL.&code ({Small}) }\n" + " inst SMALL ::= {&code 42, &i 4711}\n" + + " int INTEGER ::= 42\n" + " NON-CLASS ::= SEQUENCE { a BOOLEAN }\n" "END\n">>}, {error, [ @@ -216,24 +322,490 @@ objects(Config) -> {structured_error,{M,5},asn1ct_check, {missing_mandatory_fields,[i],obj4}}, {structured_error,{M,6},asn1ct_check, - {invalid_fields,[wrong],'InvalidSet'}} + {invalid_fields,[wrong],'InvalidSet'}}, + {structured_error,{M,7},asn1ct_check, + {missing_mandatory_fields, + ['Data','Set','VarTypeValue',code,enum,object, + vartypevalue],obj5}}, + {structured_error,{M,8},asn1ct_check,invalid_objectset}, + {structured_error,{M,9},asn1ct_check,illegal_object}, + {structured_error,{M,10},asn1ct_check,illegal_object}, + {structured_error,{M,11},asn1ct_check,illegal_object} + ] + } = run(P, Config), + ok. + +object_field_extraction(Config) -> + M = 'ObjectFieldExtraction', + P = {M, + <<"ObjectFieldExtraction DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + + " DataObjSet DATA-CLASS ::= {\n" + " holder-object-1.&int,\n" + " ...\n" + " }\n" + + " DataObjSetNoExt DATA-CLASS ::= {\n" + " holder-object-1.&int\n" + " }\n" + + " holder-object-1 HOLDER-CLASS ::= {\n" + " &int 42\n" + " }\n" + + " HOLDER-CLASS ::= CLASS {\n" + " &int INTEGER\n" + " }\n" + + " DATA-CLASS ::= CLASS {\n" + " &id INTEGER\n" + " }\n" + + "END\n">>}, + {error, + [ + {structured_error,{M,2},asn1ct_check,illegal_object}, + {structured_error,{M,6},asn1ct_check,illegal_object} + ] + } = run(P, Config), + ok. + +object_sets(Config) -> + M = 'ObjectSets', + P = {M, <<"ObjectSets DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + "TEST-UNIQ ::= CLASS { &id INTEGER UNIQUE, &test INTEGER }\n" + "UniqSet TEST-UNIQ ::= { { &id 1, &test 1 } | {&id 1, &test 2} }\n" + + "DOUBLE-UNIQ ::= CLASS { &id1 INTEGER UNIQUE," + " &id INTEGER UNIQUE }\n" + "DoubleSet DOUBLE-UNIQ ::= { {&id1 1, &id2 2} }\n" + "END\n">>}, + {error, + [{structured_error,{M,3},asn1ct_check,{non_unique_object,1}}, + {structured_error,{M,5},asn1ct_check,multiple_uniqs} + ] + } = run(P, Config), + ok. + +oids(Config) -> + M = 'OIDS', + P = {M,<<"OIDS DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + "CONTAINER ::= CLASS { &id OBJECT IDENTIFIER UNIQUE,\n" + " &int INTEGER OPTIONAL,\n" + " &seq SEQUENCE { a INTEGER } OPTIONAL\n" + "}\n" + + "-- This is line 6.\n" + "object-1 CONTAINER ::= { &id {1 2 3}, &int 42 }\n" + "object-2 CONTAINER ::= { &id {1 999}, &int 0 }\n" + "object-3 CONTAINER ::= { &id {1 2}, &seq { a 42 } }\n" + "oid-1 OBJECT IDENTIFIER ::= object-1.&int\n" + "oid-2 OBJECT IDENTIFIER ::= object-2.&id\n" + "oid-3 OBJECT IDENTIFIER ::= object-3.&seq\n" + "-- This is line 13.\n" + + "oid-5 OBJECT IDENTIFIER ::= { a 42, b 19 }\n" + + "oid-6 OBJECT IDENTIFIER ::= int\n" + "int INTEGER ::= 42\n" + + "oid-7 OBJECT IDENTIFIER ::= seq\n" + "seq SEQUENCE { x INTEGER } ::= { x 11 }\n" + + "oid-8 OBJECT IDENTIFIER ::= os\n" + "os OCTET STRING ::= '1234'H\n" + + "oid-9 OBJECT IDENTIFIER ::= { 1 os }\n" + + "oid-10 OBJECT IDENTIFIER ::= { 1 invalid }\n" + + "-- This is line 23.\n" + "oid-11 OBJECT IDENTIFIER ::= { 0 legal-oid }\n" + "legal-oid OBJECT IDENTIFIER ::= {1 2 3}\n" + + "bad-root-1 OBJECT IDENTIFIER ::= {99}\n" + "bad-root-2 OBJECT IDENTIFIER ::= {0 42}\n" + + "oid-object-ref-1 OBJECT IDENTIFIER ::= object-1\n" + "oid-object-ref-2 OBJECT IDENTIFIER ::= { object-1 19 } \n" + + "oid-int OBJECT IDENTIFIER ::= 42\n" + "oid-sequence OBJECT IDENTIFIER ::= {a 42, b 35}\n" + + "END\n">>}, + {error, + [ + {structured_error,{M,8},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,10},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,11},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,12},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,14},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,15},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,17},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,19},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,21},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,22},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,24},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,26},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,27},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,28},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,29},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,30},asn1ct_check,{illegal_oid,o_id}}, + {structured_error,{M,31},asn1ct_check,{illegal_oid,o_id}} ] } = run(P, Config), ok. +rel_oids(Config) -> + M = 'REL-OIDS', + P = {M,<<"REL-OIDS DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + "legal-oid OBJECT IDENTIFIER ::= {1 2}\n" + "legal-roid RELATIVE-OID ::= {1 2}\n" + "CONTAINER ::= CLASS { &oid OBJECT IDENTIFIER OPTIONAL,\n" + " &int INTEGER OPTIONAL,\n" + " &seq SEQUENCE { a INTEGER } OPTIONAL\n" + "}\n" + "object-1 CONTAINER ::= { &oid {1 2 3},\n" + " &int 42,\n", + " &seq {a 42}\n" + " }\n" + + "wrong-type-rel-oid-1 RELATIVE-OID ::= legal-oid\n" + "wrong-type-rel-oid-2 RELATIVE-OID ::= object-1.&oid\n" + "wrong-type-rel-oid-3 RELATIVE-OID ::= object-1.&int\n" + "wrong-type-rel-oid-4 RELATIVE-OID ::= object-1.&seq\n" + "wrong-type-rel-oid-5 RELATIVE-OID ::= object-1.&undef\n" + + "oid-bad-first OBJECT IDENTIFIER ::= {legal-roid 3}\n" + "END\n">>}, + {error, + [ + {structured_error,{M,12},asn1ct_check,{illegal_oid,rel_oid}}, + {structured_error,{M,13},asn1ct_check,{illegal_oid,rel_oid}}, + {structured_error,{M,14},asn1ct_check,{illegal_oid,rel_oid}}, + {structured_error,{M,15},asn1ct_check,{illegal_oid,rel_oid}}, + {structured_error,{M,16},asn1ct_check,{undefined_field,undef}}, + {structured_error,{M,17},asn1ct_check,{illegal_oid,o_id}} + ] + } = run(P, Config), + ok. + + parameterization(Config) -> M = 'Parameterization', P = {M, <<"Parameterization DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" " NotUppercase{lowercase} ::= INTEGER (lowercase)\n" + + " P{T1,T2} ::= SEQUENCE { a T1, b T2 }\n" + " S ::= P{OCTET STRING}\n" + + " Seq ::= SEQUENCE { a INTEGER }\n" + " Sbad ::= Seq{INTEGER}\n" + + "END\n">>}, + {error, + [{structured_error,{M,2},asn1ct_check, + {illegal_typereference,lowercase}}, + {structured_error,{M,4},asn1ct_check, + param_wrong_number_of_arguments}, + {structured_error,{M,6},asn1ct_check, + {param_bad_type, 'Seq'}} + ] + } = run(P, Config), + ok. + + +constructed(Config) -> + M = 'Const', + P = {M, + <<"Const DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + " Seq1 ::= SEQUENCE {a INTEGER, b BIT STRING, a BOOLEAN}\n" + " Ch ::= CHOICE {a INTEGER, b BIT STRING, a BOOLEAN}\n" + " Seq2 ::= SEQUENCE {COMPONENTS OF Ch}\n" + " CL ::= CLASS { &id INTEGER UNIQUE, &Type }\n" + " Seq3 ::= SEQUENCE { id CL.&id, d CL.&foo }\n" + + " Seq4 ::= SEQUENCE { a INTEGER, z INTEGER OPTIONAL, b Set1 }\n" + " Set1 ::= SET { c BOOLEAN, d INTEGER }\n" + " s1 Seq4 ::= {a 42, b {c TRUE, zz 4711}}\n" + " s2 Seq4 ::= {a 42, b {c TRUE, d FALSE}}\n" + " s3 Seq4 ::= {a 42, b {c TRUE}}\n" + " s4 Seq4 ::= {a 42, b {c TRUE, d 4711}, zz 4712}\n" + " s5 Seq4 ::= {a 42}\n" + " s6 Seq4 ::= {a 42, zz 4712, b {c TRUE, d 4711}}\n" "END\n">>}, {error, - [{structured_error,{'Parameterization',2},asn1ct_check, - {illegal_typereference,lowercase}} - ] - } = run(P, Config), + [{structured_error,{M,2},asn1ct_check,{duplicate_identifier,a}}, + {structured_error,{M,3},asn1ct_check,{duplicate_identifier,a}}, + {structured_error,{M,4},asn1ct_check,{illegal_COMPONENTS_OF,'Ch'}}, + {structured_error,{M,6},asn1ct_check,{illegal_object_field,foo}}, + + {structured_error,{M,9},asn1ct_check,{illegal_id,zz}}, + {structured_error,{M,10},asn1ct_check,illegal_integer_value}, + {structured_error,{M,11},asn1ct_check,{missing_id,d}}, + {structured_error,{M,12},asn1ct_check,{illegal_id,zz}}, + {structured_error,{M,13},asn1ct_check,{missing_id,b}}, + {structured_error,{M,14},asn1ct_check,{illegal_id,zz}} + ] + } = run(P, Config), + ok. + +syntax(Config) -> + M = 'Syntax', + P = {M, + <<"Syntax DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + " obj1 CL ::= { WRONG }\n" + " obj2 CL ::= { CODE 42 AGAIN WRONG }\n" + " obj3 CL ::= { INTEGER }\n" + " obj4 CL ::= { BIT STRING }\n" + " obj5 CL ::= { , }\n" + " obj6 CL ::= { CODE , }\n" + " obj7 CL ::= { CODE \"abc\" }\n" + " obj8 CL ::= { CODE }\n" + " obj9 CL ::= { CODE 42 ENUM}\n" + " obj10 CL ::= { CODE 42 ENUM BIT STRING}\n" + + " obj11 CL ::= { CODE 42 TYPE 13}\n" + " obj12 CL ::= { CODE 42 TYPE d}\n" + " obj13 CL ::= { CODE 42 TYPE bs-value}\n" + + " bad-syntax-1 BAD-SYNTAX-1 ::= { BAD 42 }\n" + + " obj14 CL ::= { CODE 42 OBJ-SET integer }\n" + " obj15 CL ::= { CODE 42 OBJ-SET { A B } }\n" + " obj16 CL ::= { CODE 42 OBJ-SET SEQUENCE { an INTEGER } }\n" + + " obj17 CL ::= { CODE 42 OID {seqtag 42} }\n" + " obj18 CL ::= { CODE 42 OID {seqtag 42, seqtag-again 43} }\n" + " obj19 CL ::= { CODE 42 OID {one 1 two 2} }\n" + + " BAD-SYNTAX-1 ::= CLASS {\n" + " &code INTEGER UNIQUE\n" + " } WITH SYNTAX {\n" + " BAD &bad\n" + " }\n" + + " BAD-SYNTAX-2 ::= CLASS {\n" + " &code INTEGER UNIQUE\n" + " } WITH SYNTAX {\n" + " BAD &Bad\n" + " }\n" + + " BAD-SYNTAX-3 ::= CLASS {\n" + " &code INTEGER UNIQUE\n" + " } WITH SYNTAX {\n" + " [ID &code]\n" + " }\n" + + " BAD-SYNTAX-4 ::= CLASS {\n" + " &code INTEGER UNIQUE\n" + " } WITH SYNTAX {\n" + " ID\n" + " }\n" + + " BAD-SYNTAX-5 ::= CLASS {\n" + " &code INTEGER UNIQUE,\n" + " &Type\n" + " } WITH SYNTAX {\n" + " ID\n" + " }\n" + + " BAD-SYNTAX-6 ::= CLASS {\n" + " &code INTEGER UNIQUE\n" + " } WITH SYNTAX {\n" + " ID &code, &code\n" + " }\n" + + " BAD-SYNTAX-7 ::= CLASS {\n" + " &code INTEGER UNIQUE,\n" + " &Type\n" + " } WITH SYNTAX {\n" + " ID &Type, &code, &code, &Type\n" + " }\n" + + " CL ::= CLASS {\n" + " &code INTEGER UNIQUE,\n" + " &enum ENUMERATED { a, b, c} OPTIONAL,\n" + " &Type OPTIONAL,\n" + " &ObjSet CL OPTIONAL,\n" + " &oid OBJECT IDENTIFIER OPTIONAL\n" + " } WITH SYNTAX {\n" + " CODE &code [ENUM &enum] [TYPE &Type] [OBJ-SET &ObjSet]\n" + " [OID &oid]\n" + " }\n" + + " bs-value BIT STRING ::= '1011'B\n" + + " integer INTEGER ::= 42\n" + "END\n">>}, + {error, + [ + {structured_error,{M,2},asn1ct_check, + {syntax_nomatch,"WRONG"}}, + {structured_error,{M,3},asn1ct_check, + {syntax_nomatch,"AGAIN"}}, + {structured_error,{M,4},asn1ct_check, + {syntax_nomatch,"INTEGER"}}, + {structured_error,{M,5},asn1ct_check, + {syntax_nomatch,"BIT STRING"}}, + {structured_error,{M,6},asn1ct_check, + {syntax_nomatch,"\",\""}}, + {structured_error,{M,7},asn1ct_check, + {syntax_nomatch,"\",\""}}, + {structured_error,{M,8},asn1ct_check, + {syntax_nomatch,"\"abc\""}}, + {structured_error,{M,9},asn1ct_check, + syntax_nomatch}, + {structured_error,{M,10},asn1ct_check, + syntax_nomatch}, + {structured_error,{M,11},asn1ct_check, + {syntax_nomatch,"BIT STRING"}}, + {structured_error,{M,12},asn1ct_check, + {syntax_nomatch,"13"}}, + {structured_error,{M,13},asn1ct_check, + {syntax_nomatch,"d"}}, + {structured_error,{M,14},asn1ct_check, + {syntax_nomatch,"bs-value"}}, + {structured_error,{M,15},asn1ct_check, + {syntax_undefined_field,bad}}, + {structured_error,{M,16},asn1ct_check, + {syntax_nomatch,"integer"}}, + {structured_error,{M,17},asn1ct_check, + {syntax_nomatch,"\"A B\""}}, + {structured_error,{M,18},asn1ct_check, + {syntax_nomatch,"SEQUENCE"}}, + {structured_error,{M,19},asn1ct_check, + {syntax_nomatch,"\"seqtag 42\""}}, + {structured_error,{M,20},asn1ct_check, + {syntax_nomatch,"\"seqtag 42 seqtag-again 43\""}}, + {structured_error,{M,21},asn1ct_check, + {syntax_nomatch,"\"one 1 two 2\""}}, + {structured_error,{M,22},asn1ct_check, + {syntax_undefined_field,bad}}, + {structured_error,{M,27},asn1ct_check, + {syntax_undefined_field,'Bad'}}, + {structured_error,{M,32},asn1ct_check, + {syntax_mandatory_in_optional_group,code}}, + {structured_error,{M,37},asn1ct_check, + {syntax_missing_mandatory_fields,[code]}}, + {structured_error,{M,42},asn1ct_check, + {syntax_missing_mandatory_fields,['Type',code]}}, + {structured_error,{M,48},asn1ct_check, + {syntax_duplicated_fields,[code]}}, + {structured_error,{M,53},asn1ct_check, + {syntax_duplicated_fields,['Type',code]}} + ] + } = run(P, Config), + ok. + +table_constraints(Config) -> + M = 'TableConstraints', + P = {M, + <<"TableConstraints DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + " Seq-1 ::= SEQUENCE {\n" + " contentType CONTENTS.&id,\n" + " content CONTENTS.&Type({Contents}{@contentType})\n" + " }\n" + + " Seq-2 ::= SEQUENCE {\n" + " contentType INTEGER,\n" + " content CONTENTS.&Type({Contents}{@contentType})\n" + " }\n" + + " Int ::= INTEGER ({1})\n" + + " Seq-3 ::= SEQUENCE {\n" + " contentType CONTENTS.&id({1})\n" + " }\n" + + "Contents CONTENTS ::= {\n" + " {OCTET STRING IDENTIFIED BY {2 1 1}}\n" + "}\n" + + "CONTENTS ::= TYPE-IDENTIFIER\n" + "END\n">>}, + {error, + [{structured_error, + {M,2},asn1ct_check, + {missing_table_constraint,contentType}}, + {structured_error, + {M,6},asn1ct_check, + {missing_ocft,contentType}}, + {structured_error, + {M,10},asn1ct_check, + illegal_table_constraint}, + {structured_error, + {M,11},asn1ct_check, + invalid_table_constraint} + ]} = run(P, Config), + ok. + +tags(Config) -> + M = 'Tags', + P = {M, + <<"Tags DEFINITIONS AUTOMATIC TAGS ::= BEGIN\n" + "SeqOpt1 ::= SEQUENCE\n" + "{\n" + "bool1 BOOLEAN OPTIONAL,\n" + "int1 INTEGER,\n" + "seq1 SeqIn OPTIONAL\n" + "}\n" + + "SeqOpt1Imp ::= SEQUENCE \n" + "{\n" + "bool1 [1] BOOLEAN OPTIONAL,\n" + "int1 INTEGER,\n" + "seq1 [2] SeqIn OPTIONAL,\n" + "seq2 [2] SeqIn OPTIONAL,\n" + "...,\n" + "int2 [3] SeqIn,\n" + "int3 [3] SeqIn\n" + "}\n" + + "SeqIn ::= SEQUENCE \n" + "{\n" + "boolIn BOOLEAN,\n" + "intIn INTEGER\n" + "}\n" + "\n" + + + "Set1 ::= SET {\n" + " os [0] OCTET STRING,\n" + " bool [0] BOOLEAN\n" + "}\n" + + "Seq1 ::= SEQUENCE {\n" + "a [0] IMPLICIT Choice OPTIONAL\n" + "}\n" + "Seq2 ::= SEQUENCE {\n" + "a [0] IMPLICIT ANY OPTIONAL\n" + "}\n" + "Choice ::=\n" + "CHOICE {\n" + "a [0] BOOLEAN,\n" + "b [1] INTEGER\n" + "}\n" + + "END\n">>}, + {error, + [{structured_error, + {M,8},asn1ct_check, + {duplicate_tags,[seq1,seq2]}}, + {structured_error, + {M,24},asn1ct_check, + {duplicate_tags,[bool,os]}}, + {structured_error, + {M,28},asn1ct_check, + {implicit_tag_before,choice}}, + {structured_error, + {M,31},asn1ct_check, + {implicit_tag_before,open_type}} + ]} = run(P, Config), ok. + values(Config) -> M = 'Values', P = {M, @@ -241,6 +813,53 @@ values(Config) -> " os1 OCTET STRING ::= \"abc\"\n" " os2 OCTET STRING ::= 42\n" " os3 OCTET STRING ::= { 1, 3 }\n" + " os4 OCTET STRING ::= '1234'H\n" + " Seq ::= SEQUENCE {\n" + " an OCTET STRING\n" + " }\n" + " seq Seq ::= { an int }\n" + " os5 OCTET STRING ::= holder-1.&str\n" + " os6 OCTET STRING ::= int\n" + + " int1 INTEGER ::= \"string\"\n" + " int2 INTEGER ::= os4\n" + " int3 INTEGER ::= not-defined\n" + " int4 INTEGER ::= holder-1.&str\n" + " int5 INTEGER ::= holder-2.&obj\n" + " int6 INTEGER ::= holder-2.&undefined-field\n" + " int7 INTEGER ::= holder-2.&UndefinedField.&id\n" + + " bs1 BIT STRING ::= 42\n" + " bs2 BIT STRING ::= {a,b}\n" + " bs3 BIT STRING {a(0),z(25)} ::= {a,b}\n" + " bs4 BIT STRING {a(0),z(25)} ::= int\n" + " bs5 BIT STRING ::= holder-2.&str\n" + " bs6 BIT STRING ::= holder-2.&obj\n" + + " b1 BOOLEAN ::= 42\n" + " b2 BOOLEAN ::= {a,b}\n" + + " HOLDER ::= CLASS {\n" + " &str IA5String,\n" + " &obj HOLDER OPTIONAL\n" + " }\n" + + " holder-1 HOLDER ::= { &str \"xyz\" }\n" + " holder-2 HOLDER ::= { &str \"xyz\", &obj holder-1 }\n" + + " ext-1 EXTERNAL ::= {identification bad:{1 2 3}, data-value '123'H}\n" + " ext-2 EXTERNAL ::= {identification syntax:{1 2 3}, data '123'H}\n" + + " CH ::= CHOICE { a INTEGER, b BOOLEAN }\n" + " ch1 CH ::= 2344\n" + " ch2 CH ::= zz:34\n" + + " st1 an < Seq ::= 42\n" + " st2 zz < CH ::= 42\n" + " st3 a < HOLDER ::= 42\n" + " st4 a < INTEGER ::= 42\n" + + " int INTEGER ::= 42\n" "END\n">>}, {error, [ @@ -249,7 +868,59 @@ values(Config) -> {structured_error,{M,3},asn1ct_check, illegal_octet_string_value}, {structured_error,{M,4},asn1ct_check, - illegal_octet_string_value} + illegal_octet_string_value}, + {structured_error,{M,9},asn1ct_check, + illegal_octet_string_value}, + {structured_error,{M,10},asn1ct_check, + illegal_octet_string_value}, + {structured_error,{M,11},asn1ct_check, + illegal_octet_string_value}, + {structured_error,{M,12},asn1ct_check, + illegal_integer_value}, + {structured_error,{M,13},asn1ct_check, + illegal_integer_value}, + {structured_error,{M,14},asn1ct_check, + illegal_integer_value}, + {structured_error,{M,15},asn1ct_check, + illegal_integer_value}, + {structured_error,{M,16},asn1ct_check, + illegal_integer_value}, + {structured_error,{M,17},asn1ct_check, + {undefined_field,'undefined-field'}}, + {structured_error,{M,18},asn1ct_check, + {undefined_field,'UndefinedField'}}, + {structured_error,{M,19},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,20},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,21},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,22},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,23},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,24},asn1ct_check, + {illegal_value, "BIT STRING"}}, + {structured_error,{M,25},asn1ct_check, + {illegal_value, "BOOLEAN"}}, + {structured_error,{M,26},asn1ct_check, + {illegal_value, "BOOLEAN"}}, + {structured_error,{M,33},asn1ct_check, + illegal_external_value}, + {structured_error,{M,34},asn1ct_check, + illegal_external_value}, + {structured_error,{M,36},asn1ct_check, + {illegal_id, 2344}}, + {structured_error,{M,37},asn1ct_check, + {illegal_id, zz}}, + {structured_error,{M,38},asn1ct_check, + {illegal_choice_type, 'Seq'}}, + {structured_error,{M,39},asn1ct_check, + {illegal_id, zz}}, + {structured_error,{M,40},asn1ct_check, + {illegal_choice_type, 'HOLDER'}}, + {structured_error,{M,41},asn1ct_check, + {illegal_choice_type, 'INTEGER'}} ] } = run(P, Config), ok. @@ -258,5 +929,7 @@ values(Config) -> run({Mod,Spec}, Config) -> Base = atom_to_list(Mod) ++ ".asn1", File = filename:join(?config(priv_dir, Config), Base), + Include0 = filename:dirname(?config(data_dir, Config)), + Include = filename:join(filename:dirname(Include0), "asn1_SUITE_data"), ok = file:write_file(File, Spec), - asn1ct:compile(File). + asn1ct:compile(File, [{i, Include}]). diff --git a/lib/asn1/test/syntax_SUITE.erl b/lib/asn1/test/syntax_SUITE.erl new file mode 100644 index 0000000000..1a2c938fe5 --- /dev/null +++ b/lib/asn1/test/syntax_SUITE.erl @@ -0,0 +1,340 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +-module(syntax_SUITE). +-export([suite/0,all/0,groups/0, + assignment/1, + class/1, + constraints/1, + exports/1, + header/1, + imports/1, + objects/1, + sequence/1, + syntax/1, + tokenizer/1, + types/1, + values/1]). + +-include_lib("test_server/include/test_server.hrl"). + +suite() -> [{ct_hooks, [ts_install_cth]}]. + +all() -> + [{group,p}]. + +groups() -> + [{p,parallel(), + [assignment, + class, + constraints, + exports, + header, + imports, + objects, + sequence, + syntax, + tokenizer, + types, + values]}]. + +parallel() -> + case erlang:system_info(schedulers) > 1 of + true -> [parallel]; + false -> [] + end. + +assignment(Config) -> + Head = "Assignment DEFINITIONS AUTOMATIC TAGS ::=\nBEGIN\n", + End = "\nEND\n", + L0 = [{"42",3,{syntax_error,42}}, + {"i",4,{syntax_error,'END'}}, + {"i ::=",3,{syntax_error,'::='}}, + {"i type",4,{syntax_error,'END'}}, + {"i type ::=",3,{syntax_error,'::='}}, + {"i TYPE",4,{syntax_error,'END'}}, + {"i TYPE ::= ",4,{syntax_error,'END'}}, + {"i INTEGER ::= 42 garbage",4,{syntax_error,'END'}}, + {"i{T} Type",4,{syntax_error,'END'}}, + {"TYPE",4,{syntax_error,'END'}}, + {"TYPE ::=",4,{syntax_error,'END'}}, + {"TYPE{ ::=",3,{syntax_error,'::='}}, + {"TYPE{P, ::=",3,{syntax_error,'::='}}, + {"TYPE{P,} ::=",3,{syntax_error,'}'}}, + {"TYPE{Gov:} ::=",3,{syntax_error,':'}}, + {"TYPE{A} CL ",4,{syntax_error,'END'}}, + {"ObjSet CL",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Assignment", Config), + ok. + +class(Config) -> + Head = "Class DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " CL ::= CLASS {", + End = "\nEND\n", + L0 = [{"id",3,{syntax_error,'id'}}, + {"&id INTEGER",4,{syntax_error,'END'}}, + {"&id INTEGER,",4,{syntax_error,'END'}}, + {"&id,",3,{syntax_error,','}}, + {"&id OPTIONAL",3,{syntax_error,'OPTIONAL'}}, + {"&id INTEGER OPTIONAL",4,{syntax_error,'END'}}, + {"&var &Field",4,{syntax_error,'END'}}, + {"&Type,",4,{syntax_error,'END'}}, + {"&Type OPTIONAL",4,{syntax_error,'END'}}, + {"&ValueSet INTEGER OPTIONAL",4,{syntax_error,'END'}}, + {"&ValueSet INTEGER DEFAULT",4,{syntax_error,'END'}}, + {"&ValueSet INTEGER DEFAULT {",4,{syntax_error,'END'}}, + {"&ValueSet INTEGER DEFAULT {a",4,{syntax_error,'END'}}, + {"&Var &Field",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Class", Config), + ok. + +constraints(Config) -> + Head = "Constraints DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " Type ::= ", + End = "\nEND\n", + L0 = [{"INTEGER (",4,{syntax_error,'END'}}, + {"INTEGER (10x",3,{syntax_error,x}}, + {"INTEGER (10|(10y",3,{syntax_error,y}}, + {"INTEGER (CONSTRAINED BY {}",4,{syntax_error,'END'}}, + {"INTEGER (CONSTRAINED BY {INTEGER garbage",3, + {syntax_error,garbage}}, + {"INTEGER ({ObjSet",4,{syntax_error,'END'}}, + {"INTEGER ({ObjSet}{",3,{syntax_error,'{'}}, + {"INTEGER ({ObjSet}{@",3,{syntax_error,'{'}}, + {"INTEGER ({ObjSet}{@x",3,{syntax_error,'{'}}, + {"INTEGER ({ObjSet}{@x}",4,{syntax_error,'END'}}, + {"INTEGER (10 !BOOLEAN",4,{syntax_error,'END'}}, + {"INTEGER (10 !BOOLEAN:",4,{syntax_error,'END'}}, + {"INTEGER (10 !BOOLEAN:FALSE",4,{syntax_error,'END'}}, + {"SEQUENCE {} (WITH COMPONENTS { Type })", + 3,{syntax_error,'Type'}}, + {"SEQUENCE {} (WITH COMPONENTS { x (10)", + 4,{syntax_error,'END'}}, + {"SEQUENCE {} (WITH COMPONENTS { ..., x (10)", + 4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Constraints", Config), + ok. + +exports(Config) -> + Head = "Exports DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " EXPORTS ", + End = "\nEND\n", + L0 = [{"Type",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Exports", Config), + ok. + +header(Config) -> + L = [{"lowercase",1,{syntax_error,lowercase}}, + {"H ",2,{syntax_error,'END-OF-FILE'}}, + {"H-",1,{syntax_error,'-'}}, + {"42",1,{syntax_error,42}}, + {"H definitions",1,{syntax_error,definitions}}, + {"H DEFINITIONS STUPID TAGS",1,{syntax_error,'STUPID'}}, + {"H DEFINITIONS WHATEVER",1,{syntax_error,'WHATEVER'}}, + {"H DEFINITIONS ::= BEGIN",2,{syntax_error,'END-OF-FILE'}}, + {"BOOLEAN",1,{syntax_error,'BOOLEAN'}} + ], + run(L, "H", Config), + ok. + +imports(Config) -> + Head = "Imports DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " IMPORTS ", + End = "\nEND\n", + L0 = [{"Type FROM X",4,{syntax_error,'END'}}, + {"Symbols TO Y",3,{syntax_error,'TO'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Imports", Config), + ok. + +objects(Config) -> + Head = "Objects DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " object CLASS-NAME ::= ", + End = "\nEND\n", + L0 = [{"{",4,{syntax_error,'END'}}, + {"{&min 1, max 10}",3,{syntax_error,max}}, + {"{&min 1, Max 10}",3,{syntax_error,'Max'}}, + {"{min 1, &max 10}",3,{syntax_error,'&max'}}, + {"{min 1, &Max 10}",3,{syntax_error,'&Max'}}, + {"{RESERVERD WORD BIT}",3,{syntax_error,'BIT'}}, + {"{&min 1",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Objects", Config), + ok. + +sequence(Config) -> + Head = "Sequence DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " Type ::= SEQUENCE {", + End = "\nEND\n", + L0 = [{"",4,{syntax_error,'END'}}, + {" UpperCase",3,{syntax_error,'UpperCase'}}, + {" a b",4,{syntax_error,'END'}}, + {" i INTEGER",4,{syntax_error,'END'}}, + {" ...",4,{syntax_error,'END'}}, + {" ..., [[",4,{syntax_error,'END'}}, + {" ..., [[ a INTEGER ]",3,{syntax_error,']'}}, + {" ..., [[ a INTEGER,",3,{syntax_error,','}}, + {" ..., [[ a INTEGER, ... ]]",3,{syntax_error,','}}, + {" ... !42 xxx",3,{syntax_error,'xxx'}}, + {" ... !42, a INTEGER,",3,{syntax_error,','}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Sequence", Config), + ok. + +syntax(Config) -> + Head = "Syntax DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " CL ::= CLASS { &id INTEGER UNIQUE } WITH SYNTAX ", + End = "\nEND\n", + L0 = [{"{}",3,{syntax_error,'}'}}, + {"WORD",3,{syntax_error,'WORD'}}, + {"{ Word }",3,{syntax_error,'Word'}}, + {"{ [ Word ] }",3,{syntax_error,'Word'}}, + {"{ [ WORD }",3,{syntax_error,'}'}}, + {"{ WORD;",3,{syntax_error,';'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Syntax", Config), + ok. + +tokenizer(Config) -> + Head = "Tokenize DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n", + End = "\nEND\n", + L0 = [{"'",3,eol_in_token}, + {"'42'B",3,{invalid_binary_number,"42"}}, + {"'ZZZ'H",3,{invalid_hex_number,"ZZZ"}}, + {"\"abc",3,missing_quote_at_eof}, + {"/*",3,eof_in_comment} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Tokenizer", Config, asn1ct_tok), + ok. + +types(Config) -> + Head = "Types DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " Type ::= ", + End = "\nEND\n", + L0 = [{"BIT STRING garbage",4,{syntax_error,'END'}}, + {"BIT STRING {",4,{syntax_error,'END'}}, + {"BIT STRING { a(42",3,{syntax_error,42}}, + {"BIT STRING { a(0)",4,{syntax_error,'END'}}, + {"CHOICE {",4,{syntax_error,'END'}}, + {"CHOICE { ..., a}",3,{syntax_error,'...'}}, + {"CHOICE { UpperCase",3,{syntax_error,'UpperCase'}}, + {"CHOICE { i INTEGER",4,{syntax_error,'END'}}, + {"CHOICE { ..., i INTEGER }",3,{syntax_error,'...'}}, + {"CHOICE { b BOOLEAN, ..., i INTEGER", + 4,{syntax_error,'END'}}, + {"CHOICE { b BOOLEAN, ..., [[ e BOOLEAN, ...]]}", + 3,{syntax_error,','}}, + {"CHOICE { b BOOLEAN, ..., i INTEGER, ..., x BIT STRING}", + 3,{syntax_error,','}}, + {"ENUMERATED {",4,{syntax_error,'END'}}, + {"ENUMERATED { 42 }",3,{syntax_error,42}}, + {"ENUMERATED { a, b",4,{syntax_error,'END'}}, + {"ENUMERATED { a, }",3,{syntax_error,','}}, + {"ENUMERATED { a, ...,\nb, ..., c }",4,{syntax_error,','}}, + {"INTEGER {",4,{syntax_error,'END'}}, + {"INTEGER { a(42)",4,{syntax_error,'END'}}, + {"SEQUENCE",3,{syntax_error,'SEQUENCE'}}, + %% More tests for SEQUENCE in sequence/1. + {"SEQUENCE SIZE (1..10)",4,{syntax_error,'END'}}, + {"SEQUENCE (SIZE (1..10))",4,{syntax_error,'END'}}, + {"SET { i INTEGER",4,{syntax_error,'END'}}, + {"SET { ...",4,{syntax_error,'END'}}, + {"SET SIZE (1..10)",4,{syntax_error,'END'}}, + {"SET (SIZE (1..10))",4,{syntax_error,'END'}}, + {"SET { ... !42 xxx",3,{syntax_error,'xxx'}}, + {"SET { ... !42, a INTEGER,",3,{syntax_error,','}}, + {"[",4,{syntax_error,'END'}}, + {"[42",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Types", Config), + ok. + +values(Config) -> + Head = "Values DEFINITIONS AUTOMATIC TAGS ::=\n" + "BEGIN\n" + " value Type ::= ", + End = "\nEND\n", + L0 = [{"",4,{syntax_error,'END'}} + ], + L = [{Head++S++End,Line,E} || {S,Line,E} <- L0], + run(L, "Values", Config), + ok. + +run(List, File, Config) -> + run(List, File, Config, asn1ct_parser2). + +run(List, File0, Config, Module) -> + Base = File0 ++ ".asn1", + File = filename:join(?config(priv_dir, Config), Base), + case run_1(List, Base, File, Module, 0) of + 0 -> ok; + Errors -> ?t:fail(Errors) + end. + +run_1([{Source,Line,Error}=Exp|T], Base, File, Module, N) -> + ok = file:write_file(File, Source), + io:format("~s", [Source]), + case asn1ct:compile(File) of + {error,[{structured_error,{Base,L},Module,E}]} -> + case {L,E} of + {Line,Error} -> + run_1(T, Base, File, Module, N); + {Line,OtherError} -> + io:format("*** Wrong error: ~p, expected ~p ***\n", + [OtherError,Error]), + run_1(T, Base, File, Module, N+1); + {OtherLine,Error} -> + io:format("*** Wrong line: ~p, expected ~p ***\n", + [OtherLine,Line]), + run_1(T, Base, File, Module, N+1); + {_,_} -> + io:format("*** Wrong line: ~p, expected ~p ***", + [L,Line]), + io:format("*** Wrong error: ~p, expected ~p ***\n", + [E,Error]), + run_1(T, Base, File, Module, N+1) + end; + Other -> + io:format("~p\nGOT: ~p", [Exp,Other]) + end; +run_1([], _, _, _, N) -> + N. diff --git a/lib/asn1/test/testChoExtension.erl b/lib/asn1/test/testChoExtension.erl index 09e19ceebb..f36d6c1cbf 100644 --- a/lib/asn1/test/testChoExtension.erl +++ b/lib/asn1/test/testChoExtension.erl @@ -39,11 +39,6 @@ extension(_Rules) -> roundtrip('ChoExt3', {int,33}), roundtrip('ChoExt4', {str,<<"abc">>}), - roundtrip('ChoEmptyRoot', {bool,false}), - roundtrip('ChoEmptyRoot', {bool,true}), - roundtrip('ChoEmptyRoot', {int,0}), - roundtrip('ChoEmptyRoot', {int,7}), - ok. diff --git a/lib/asn1/test/testConstraints.erl b/lib/asn1/test/testConstraints.erl index 3ccf883bd6..5d65cb8d73 100644 --- a/lib/asn1/test/testConstraints.erl +++ b/lib/asn1/test/testConstraints.erl @@ -231,6 +231,28 @@ int_constraints(Rules) -> seq_roundtrip(Rules, 'SeqOverlapping', 'SeqNonOverlapping', 19000), seq_roundtrip(Rules, 'SeqOverlapping', 'SeqNonOverlapping', 26900), + %%========================================================== + %% Constraints from object fields. + %%========================================================== + range_error(Rules, 'IntObjectConstr', 1), + roundtrip('IntObjectConstr', 2), + roundtrip('IntObjectConstr', 3), + roundtrip('IntObjectConstr', 4), + range_error(Rules, 'IntObjectConstr', 5), + + + %%========================================================== + %% INTEGER constraints defined using named INTEGERs. + %%========================================================== + 42 = 'Constraints':'constrainedNamedInt-1'(), + 100 = 'Constraints':'constrainedNamedInt-2'(), + range_error(Rules, 'ConstrainedNamedInt', 41), + roundtrip('ConstrainedNamedInt', v1), + range_error(Rules, 'ConstrainedNamedInt', 43), + + range_error(Rules, 'SeqWithNamedInt', {'SeqWithNamedInt',-100}), + roundtrip('SeqWithNamedInt', {'SeqWithNamedInt',v2}), + ok. %% PER: Ensure that if the lower bound is Lb, Lb+16#80 is encoded diff --git a/lib/asn1/test/testEnumExt.erl b/lib/asn1/test/testEnumExt.erl index 878518be11..29995d6340 100644 --- a/lib/asn1/test/testEnumExt.erl +++ b/lib/asn1/test/testEnumExt.erl @@ -78,6 +78,9 @@ common(Erule) -> v_roundtrip(Erule, 'SeqBig', {'SeqBig',true,e40,9357}), v_roundtrip(Erule, 'SeqBig', {'SeqBig',true,e80,9357}), + + v_roundtrip(Erule, 'EnumSkip', d), + ok. roundtrip(Type, Value) -> @@ -85,11 +88,20 @@ roundtrip(Type, Value) -> v_roundtrip(Erule, Type, Value) -> Encoded = roundtrip(Type, Value), - Encoded = asn1_test_lib:hex_to_bin(v(Erule, Value)). - -v(ber, {'SeqBig',true,e40,9357}) -> "300A8001 FF810141 8202248D"; -v(ber, {'SeqBig',true,e80,9357}) -> "300B8001 FF810200 81820224 8D"; -v(per, {'SeqBig',true,e40,9357}) -> "E0014002 248D"; -v(per, {'SeqBig',true,e80,9357}) -> "E0018002 248D"; -v(uper, {'SeqBig',true,e40,9357}) -> "E0280044 91A0"; -v(uper, {'SeqBig',true,e80,9357}) -> "E0300044 91A0". + Encoded = asn1_test_lib:hex_to_bin(v(Erule, Type, Value)). + +v(Erule, 'SeqBig', Value) -> + v_seq_big(Erule, Value); +v(Erule, 'EnumSkip', Value) -> + v_enum_skip(Erule, Value). + +v_seq_big(ber, {'SeqBig',true,e40,9357}) -> "300A8001 FF810141 8202248D"; +v_seq_big(ber, {'SeqBig',true,e80,9357}) -> "300B8001 FF810200 81820224 8D"; +v_seq_big(per, {'SeqBig',true,e40,9357}) -> "E0014002 248D"; +v_seq_big(per, {'SeqBig',true,e80,9357}) -> "E0018002 248D"; +v_seq_big(uper, {'SeqBig',true,e40,9357}) -> "E0280044 91A0"; +v_seq_big(uper, {'SeqBig',true,e80,9357}) -> "E0300044 91A0". + +v_enum_skip(per, d) -> "82"; +v_enum_skip(uper, d) -> "82"; +v_enum_skip(ber, d) -> "0A0103". diff --git a/lib/asn1/test/testExtensibilityImplied.erl b/lib/asn1/test/testExtensibilityImplied.erl new file mode 100644 index 0000000000..8049bb6e53 --- /dev/null +++ b/lib/asn1/test/testExtensibilityImplied.erl @@ -0,0 +1,29 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% + +-module(testExtensibilityImplied). +-export([main/0]). + +main() -> + M = 'ExtensibilityImplied', + {'Seq2',true} = M:decode('Seq2', M:encode('Seq1', {'Seq1',true,42})), + {'Set2',true} = M:decode('Set2', M:encode('Set1', {'Set1',true,42})), + {asn1_enum,_} = M:decode('Enum2', M:encode('Enum1', ext)), + ok. diff --git a/lib/asn1/test/testImporting.erl b/lib/asn1/test/testImporting.erl new file mode 100644 index 0000000000..de8beae38b --- /dev/null +++ b/lib/asn1/test/testImporting.erl @@ -0,0 +1,34 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% + +-module(testImporting). +-export([main/0]). + +main() -> + M = 'Importing', + roundtrip('Seq', {'Seq',5}), + roundtrip('OtherSeq', {'Seq',42,true}), + {'Seq',42,true} = M:seq(), + roundtrip('ObjSeq', {'ObjSeq',1,<<"XYZ">>}), + roundtrip('ObjSeq', {'ObjSeq',2,19}), + ok. + +roundtrip(Type, Value) -> + asn1_test_lib:roundtrip('Importing', Type, Value). diff --git a/lib/asn1/test/testInfObj.erl b/lib/asn1/test/testInfObj.erl index 37c134b1b9..3044d5cd2a 100644 --- a/lib/asn1/test/testInfObj.erl +++ b/lib/asn1/test/testInfObj.erl @@ -74,6 +74,12 @@ main(_Erule) -> {'ConstructedPdu',7,[]}), roundtrip('InfObj', 'ConstructedPdu', {'ConstructedPdu',7,[64,1,19,17,35]}), + {'ConstructedPdu',8,[{_,-15,35},{_,533,-70}]} = + enc_dec('InfObj', 'ConstructedPdu', + {'ConstructedPdu',8,[{'_',-15,35},{'_',533,-70}]}), + {'ConstructedPdu',9,[{RecTag9,-15,35},{RecTag9,533,-70}]} = + enc_dec('InfObj', 'ConstructedPdu', + {'ConstructedPdu',9,[{'_',-15,35},{'_',533,-70}]}), roundtrip('InfObj', 'ConstructedSet', {'ConstructedSet',1,{'CONSTRUCTED-DEFAULT_Type',-2001,true}}), @@ -96,6 +102,12 @@ main(_Erule) -> {'ConstructedSet',7,[]}), roundtrip('InfObj', 'ConstructedSet', {'ConstructedSet',7,[64,1,19,17,35]}), + {'ConstructedSet',8,[{_,-15,35},{_,533,-70}]} = + enc_dec('InfObj', 'ConstructedSet', + {'ConstructedSet',8,[{'_',-15,35},{'_',533,-70}]}), + {'ConstructedSet',9,[{_,-15,35},{_,533,-70}]} = + enc_dec('InfObj', 'ConstructedSet', + {'ConstructedSet',9,[{'_',-15,35},{'_',533,-70}]}), roundtrip('InfObj', 'Seq2', {'Seq2',42,[true,false,false,true], @@ -126,12 +138,37 @@ main(_Erule) -> test_objset('OstSeq45', [4,5]), test_objset('OstSeq12345', [1,2,3,4,5]), + test_objset('OstSeq12Except', [1,2]), + test_objset('OstSeq123Except', [1,2]), + test_objset('ExOstSeq12', [1,2]), test_objset('ExOstSeq123', [1,2,3]), - %%test_objset('ExOstSeq1234', [1,2,3,4]), + test_objset('ExOstSeq1234', [1,2,3,4]), test_objset('ExOstSeq45', [4,5]), test_objset('ExOstSeq12345', [1,2,3,4,5]), + test_objset('ExOstSeq12Except', [1,2]), + test_objset('ExOstSeq123Except', [1,2]), + + roundtrip('InfObj', 'ExtClassSeq', {'ExtClassSeq', 4}), + + {1,2,42} = 'InfObj':'value-1'(), + {1,2,42,25} = 'InfObj':'value-2'(), + {100,101} = 'InfObj':'value-3'(), + {1,2,100,101} = 'InfObj':'value-4'(), + + roundtrip('InfObj', 'Rdn', {'Rdn',{2,5,4,41},"abc"}), + + roundtrip('InfObj', 'TiAliasSeq', + {'TiAliasSeq',{'TiAliasSeq_prf',{2,1,2},'NULL'}}), + + roundtrip('InfObj', 'ContentInfo', + {'ContentInfo',{2,7,8,9},"string"}), + {2,7,8,9} = 'InfObj':'id-content-type'(), + + <<2#1011:4>> = 'InfObj':'tricky-bit-string'(), + <<16#CAFE:16>> = 'InfObj':'tricky-octet-string'(), + ok. test_objset(Type, Keys) -> diff --git a/lib/asn1/test/testInfObjExtract.erl b/lib/asn1/test/testInfObjExtract.erl new file mode 100644 index 0000000000..0ef967c1f6 --- /dev/null +++ b/lib/asn1/test/testInfObjExtract.erl @@ -0,0 +1,72 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% + +-module(testInfObjExtract). + +-export([main/0]). + +main() -> + roundtrip_data_object_13('DataSeq-1'), + + roundtrip_data_object_1('DataSeq-2'), + roundtrip_data_object_1('DataSeq-3'), + roundtrip_data_object_1('DataSeq-4'), + + roundtrip_data_object_13('DataSeq-5'), + roundtrip_data_object_13('DataSeq-6'), + + roundtrip_data_object_1('DataSeqSingleSet-1'), + roundtrip_data_object_1('DataSeqSingleSet-2'), + + roundtrip('ObjClassSeq-1', {'ObjClassSeq-1',1,true}), + roundtrip('ObjClassSeq-1', {'ObjClassSeq-1',2,true}), + + roundtrip_error('ObjClassSeq-1', {'ObjClassSeq-1',0,false}), + roundtrip_error('ObjClassSeq-1', {'ObjClassSeq-1',3,true}), + roundtrip_error('ObjClassSeq-1', {'ObjClassSeq-1',4,false}), + roundtrip_error('ObjClassSeq-1', {'ObjClassSeq-1',5,true}), + + ok. + +roundtrip_data_object_13(SeqType) -> + roundtrip(SeqType, {SeqType,1,true}), + roundtrip(SeqType, {SeqType,2,<<"abc">>}), + roundtrip(SeqType, {SeqType,3,<<42:5>>}), + roundtrip_error(SeqType, {SeqType,4,42}). + +roundtrip_data_object_1(SeqType) -> + roundtrip(SeqType, {SeqType,1,false}), + roundtrip(SeqType, {SeqType,1,true}), + roundtrip_error(SeqType, {SeqType,1,42}), + roundtrip_error(SeqType, {SeqType,2,<<"abc">>}), + roundtrip_error(SeqType, {SeqType,3,<<42:5>>}), + roundtrip_error(SeqType, {SeqType,999,42}). + +roundtrip(T, V) -> + asn1_test_lib:roundtrip('InfObjExtract', T, V). + +roundtrip_error(T, V) -> + try asn1_test_lib:roundtrip('InfObjExtract', T, V) of + ok -> + test_server:fail() + catch + _:_ -> + ok + end. diff --git a/lib/asn1/test/testParamBasic.erl b/lib/asn1/test/testParamBasic.erl index 39f7947e8d..5f6116bba4 100644 --- a/lib/asn1/test/testParamBasic.erl +++ b/lib/asn1/test/testParamBasic.erl @@ -46,6 +46,14 @@ main(Rules) -> roundtrip('AnAlgorithm', {'AnAlgorithm',1,42}), roundtrip('AnAlgorithm', {'AnAlgorithm',2,true}), roundtrip('AnAlgorithm', {'AnAlgorithm',2,false}), + {'AnAlgorithm',1,42} = 'ParamBasic':'alg-seq-1'(), + {'AnAlgorithm',2,true} = 'ParamBasic':'alg-seq-2'(), + + roundtrip('Seq', {'Seq', + {'Seq_c1',{2,1,1},42}, + {'Seq_c2',{2,1,1,1},asn1_NOVALUE}}), + + {_,{2,9,9,9,7},'NULL'} = 'ParamBasic':'algid-hmacWithSHA1'(), ok. roundtrip(Type, Value) -> diff --git a/lib/asn1/test/testPrim.erl b/lib/asn1/test/testPrim.erl index e07379e634..d7893a2d58 100644 --- a/lib/asn1/test/testPrim.erl +++ b/lib/asn1/test/testPrim.erl @@ -98,6 +98,11 @@ enum(Rules) -> ber -> ok end, + + roundtrip('NegEnumVal', neg), + roundtrip('NegEnumVal', zero), + roundtrip('EnumVal128', val), + ok. diff --git a/lib/asn1/test/testPrimStrings.erl b/lib/asn1/test/testPrimStrings.erl index 155d6f6ff5..43835728e8 100644 --- a/lib/asn1/test/testPrimStrings.erl +++ b/lib/asn1/test/testPrimStrings.erl @@ -232,7 +232,8 @@ bit_string(Rules, Opts) -> end. random_bits(N) -> - Seed = integer_to_list(erlang:phash2(erlang:now())), + Seed0 = {erlang:monotonic_time(),erlang:unique_integer()}, + Seed = integer_to_list(erlang:phash2(Seed0)), random_bits(<<>>, N, Seed). random_bits(Bin, N, Seed) -> diff --git a/lib/asn1/test/testRfcs.erl b/lib/asn1/test/testRfcs.erl new file mode 100644 index 0000000000..6281d09873 --- /dev/null +++ b/lib/asn1/test/testRfcs.erl @@ -0,0 +1,75 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% + +-module(testRfcs). + +-export([compile/3,test/0]). + +-include_lib("test_server/include/test_server.hrl"). + +compile(Config, Erules, Options0) -> + Options = [no_ok_wrapper|Options0], + DataDir = ?config(data_dir, Config), + Specs0 = filelib:wildcard("*.asn1", filename:join(DataDir, rfcs)), + Specs = [filename:join(rfcs, Spec) || Spec <- Specs0], + 122 = length(Specs), + CaseDir = ?config(case_dir, Config), + asn1_test_lib:compile_all(Specs, Config, [Erules,{i,CaseDir}|Options]). + +test() -> + {1,3,6,1,5,5,7,48,1,2} = + IdPkixOcspNonce = + 'OCSP-2009':'id-pkix-ocsp-nonce'(), + roundtrip('OCSP-2009', 'OCSPRequest', + {'OCSPRequest', + {'TBSRequest', + 0, + {rfc822Name,"name string"}, + [{'Request', + {'CertID',{'_',{2,9,3,4,5},asn1_NOVALUE}, + <<"POTATOHASH">>,<<"HASHBROWN">>,42}, + [{'_',IdPkixOcspNonce,true,<<34,159,16,57,199>>}]}], + asn1_NOVALUE}, + asn1_NOVALUE}), + otp_7759(), + ok. + +roundtrip(Module, Type, Value0) -> + Enc = Module:encode(Type, Value0), + Value1 = Module:decode(Type, Enc), + asn1_test_lib:match_value(Value0, Value1), + ok. + +otp_7759() -> + %% The release note for asn-1.6.6 says: + %% Decode of an open_type when the value was empty tagged + %% type encoded with indefinite length failed. + Mod = 'OLD-PKCS7', + Encoded = encoded_msg(), + ContentInfo = Mod:decode('ContentInfo', Encoded), + io:format("~p\n", [ContentInfo]), + {'ContentInfo',_Id,PKCS7_content} = ContentInfo, + X = Mod:decode('SignedData', PKCS7_content), + io:format("~p\n", [X]), + io:nl(), + ok. + +encoded_msg() -> + <<48,128,6,9,42,134,72,134,247,13,1,7,2,160,128,48,128,2,1,1,49,11,48,9,6,5,43,14,3,2,26,5,0,48,128,6,9,42,134,72,134,247,13,1,7,1,160,128,36,128,0,0,0,0,0,0, 49,130,1,192,48,130,1,188,2,1,1,48,50,48,38,49,17,48,15,6,3,85,4,3,12,8,65,100,109,105,110,67,65,49,49,17,48,15,6,3,85,4,10,12,8,69,82,73,67,83,83,79,78,2,8,15,151,245,186,21,23,240,96,48,9,6,5,43,14,3,2,26,5,0,160,129,229,48,17,6,10,96,134,72,1,134,248,69,1,9,2,49,3,19,1,51,48,17,6,10,96,134,72,1,134,248,69,1,9,3,49,3,19,1,51,48,24,6,9,42,134,72,134,247,13,1,9,3,49,11,6,9,42,134,72,134,247,13,1,7,1,48,28,6,9,42,134,72,134,247,13,1,9,5,49,15,23,13,48,56,49,50,49,48,48,57,53,52,50,51,90,48,28,6,10,96,134,72,1,134,248,69,1,9,7,49,14,19,12,49,53,50,56,49,52,50,52,48,57,53,53,48,32,6,10,96,134,72,1,134,248,69,1,9,5,49,18,4,16,165,115,177,71,78,88,239,113,78,56,98,98,18,202,217,235,48,32,6,10,96,134,72,1,134,248,69,1,9,6,49,18,4,16,227,174,230,251,43,153,252,65,11,93,231,83,34,18,55,46,48,35,6,9,42,134,72,134,247,13,1,9,4,49,22,4,20,218,57,163,238,94,107,75,13,50,85,191,239,149,96,24,144,175,216,7,9,48,13,6,9,42,134,72,134,247,13,1,1,1,5,0,4,129,128,106,233,116,125,140,51,133,173,63,41,54,138,214,211,89,215,169,125,98,77,16,222,216,240,211,79,125,111,87,186,73,63,253,204,107,102,177,63,174,197,224,212,231,172,149,246,33,68,223,67,102,93,64,152,152,5,216,102,247,134,36,197,150,236,57,77,56,138,95,71,204,31,23,149,241,213,78,172,165,249,100,187,12,45,19,57,67,120,54,63,15,239,41,217,127,61,254,60,201,104,68,3,135,214,206,93,253,255,192,94,56,107,68,210,57,61,41,249,47,156,130,244,52,12,163,216,236,69,0,0,0,0,0,0>>. diff --git a/lib/asn1/test/testSelectionTypes.erl b/lib/asn1/test/testSelectionTypes.erl index 6d060321da..7d273fe656 100644 --- a/lib/asn1/test/testSelectionTypes.erl +++ b/lib/asn1/test/testSelectionTypes.erl @@ -23,10 +23,34 @@ -include_lib("test_server/include/test_server.hrl"). test() -> - Val = ["PrintableString","PrintableString","PrintableString"], ["Es"] = Val2 = ['SelectionType':einsteinium()], - roundtrip('MendeleyevTable', Val), + roundtrip('MendeleyevTable', ["fox","tree","cat","stone"]), roundtrip('MendeleyevTable', Val2), + roundtrip('MendeleyevSet', [42,57,93,101]), + + M = 'SelectionType', + true = M:boolv(), + 4 = M:intv(), + <<2#1001:4>> = M:bsv(), + <<16#3130:16>> = M:osv(), + 'NULL' = M:nullv(), + {2,1,1} = M:oiv(), + "ObjectDesc" = M:odv(), + "utf8" = M:utfv(), + {5,32767,256} = M:rov(), + "089" = M:numsv(), + "telet" = M:teletv(), + "t61" = M:t61v(), + "video" = M:videov(), + "ia5" = M:ia5v(), + "9805281429Z" = M:utctimev(), + "19980528142905.1" = M:gTime(), + "graphic" = M:gsv(), + "visible" = M:vsv(), + "general" = M:gStringv(), + "Universal" = M:univv(), + "bmp" = M:bmov(), + ok. roundtrip(T, V) -> diff --git a/lib/asn1/test/testUniqueObjectSets.erl b/lib/asn1/test/testUniqueObjectSets.erl new file mode 100644 index 0000000000..1ef61a885a --- /dev/null +++ b/lib/asn1/test/testUniqueObjectSets.erl @@ -0,0 +1,175 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% + +-module(testUniqueObjectSets). +-export([main/3]). + +%% Run-time function called by the generated code. +seq_roundtrip(I, D0) -> + M = 'UniqueObjectSets', + try + {ok,Enc} = M:encode('Seq', {'Seq',I,D0}), + {ok,{'Seq',I,D}} = M:decode('Seq', Enc), + D + catch C:E -> + Stk = erlang:get_stacktrace(), + io:format("FAILED: ~p ~p\n", [I,D0]), + erlang:raise(C, E, Stk) + end. + +types() -> + [{"CHOICE { a INTEGER, b BIT STRING }", {b,<<42:3>>}}, + {"INTEGER",42}, + {"SEQUENCE {a OCTET STRING}",{'_',<<"abc">>}}, + {"SEQUENCE {b BOOLEAN, ...}",{'_',true}}, + {"SEQUENCE {b BOOLEAN, ..., s IA5String, ..., e ENUMERATED { x, y, z}}", + {'_',false,"string",y}}, + {"SET {a BIT STRING}",{'_',<<1:17>>}}, + {"SEQUENCE OF INTEGER",[-19,0,555,777]}, + {"SET OF BOOLEAN",[true,false,true]}, + {"SEQUENCE OF SEQUENCE {x INTEGER (0..7)}",[{'_',7},{'_',0}]}, + {"SET OF SEQUENCE {x INTEGER (0..7)}",[{'_',7},{'_',0}]} + ]. + +main(CaseDir, Rule, Opts) -> + D0 = types(), + {D1,_} = lists:mapfoldl(fun({T,S}, I) -> + {{I,T,S},I+1} + end, 1, D0), + Types = [gen_types(I, Type) || {I,Type,_} <- D1], + Set = [gen_set_items(I, T) || {I,T,_} <- D1], + Objs = [gen_obj(I) || {I,_,_} <- D1], + DupObjs = [gen_dup_obj(I, T) || {I,T,_} <- D1], + DupObjRefs0 = [gen_dup_obj_refs(I) || {I,_,_} <- D1], + DupObjRefs = string:join(DupObjRefs0, " |\n"), + Asn1Spec = 'UniqueObjectSets', + A = ["UniqueObjectSets DEFINITIONS AUTOMATIC TAGS ::=\n", + "BEGIN\n\n", + "TEST-UNIQUE ::= CLASS {\n" + " &id INTEGER UNIQUE,\n" + " &Type OPTIONAL\n" + "}\n" + "WITH SYNTAX {IDENTIFIED BY &id [TYPE &Type]}\n", + $\n, + "DUP-CONTAINER ::= CLASS {\n" + " &id INTEGER UNIQUE,\n" + " &data TEST-UNIQUE\n" + "} WITH SYNTAX {\n" + " ID &id, &data\n" + "}\n", + $\n, + Types,$\n, + "UniqSet TEST-UNIQUE ::= {\n", + Set, + " DupSet-1 |\n", + " DupSet-2, ...\n", + "}\n\n", + Objs,$\n, + DupObjs,$\n, + "DupSet-1 TEST-UNIQUE ::= {\n", + DupObjRefs,$\n, + "}\n\n", + "DupSet-2 TEST-UNIQUE ::= {\n", + DupObjRefs,",...\n", + "}\n\n", + "Seq ::= SEQUENCE {\n" + " id TEST-UNIQUE.&id ({UniqSet}),\n" + " type TEST-UNIQUE.&Type ({UniqSet}{@id})\n" + "}\n" + "END\n"], + Asn1File = filename:join(CaseDir, atom_to_list(Asn1Spec)++".asn1"), + ok = file:write_file(Asn1File, A), + + TestModule = 'unique_object_sets', + Test0 = [gen_test(I, Data) || {I,_,Data} <- D1], + Test = ["-module(",atom_to_list(TestModule),").\n" + "-export([main/1]).\n" + "\n" + "main(SeqRoundtrip) ->\n", + " ",atom_to_list(Rule)," = '",atom_to_list(Asn1Spec), + "':encoding_rule(),\n", + Test0, + " ok.\n" + ], + ErlFile = filename:join(CaseDir, atom_to_list(TestModule)++".erl"), + ok = file:write_file(ErlFile, Test), + + io:format("~s\n~s\n", [Asn1File,ErlFile]), + case Rule of + per -> + io:put_chars([A,$\n,Test,$\n]); + _ -> + ok + end, + + ok = asn1ct:compile(Asn1File, [Rule,{outdir,CaseDir}|Opts]), + {ok,TestModule} = c:c(ErlFile, [{outdir,CaseDir}]), + TestModule:main(fun seq_roundtrip/2), + ok. + +gen_types(I, Type) -> + io_lib:format("AType~p ::= ~s\n", [I,Type]). + +gen_set_items(I, T) -> + io_lib:format(" {IDENTIFIED BY ~p TYPE AType~p} |\n" + " {IDENTIFIED BY ~p TYPE AType~p} |\n" + " {IDENTIFIED BY ~p TYPE ~s} |\n" + " obj-~p |\n\n", + [I,I,I,I,I,T,I]). + +gen_obj(I) -> + io_lib:format("obj-~p TEST-UNIQUE ::= {IDENTIFIED BY ~p TYPE AType~p}\n", + [I,I,I]). + +gen_dup_obj(I, T) -> + io_lib:format("dup-obj-~p DUP-CONTAINER ::= " + "{ID ~p, {IDENTIFIED BY ~p TYPE ~s}}\n", + [I,I,I+1000,T]). + +gen_dup_obj_refs(I) -> + io_lib:format("dup-obj-~p.&data", [I]). + +gen_test(I, Data) -> + io_lib:format(" ~s = SeqRoundtrip(~p, ~p),\n", + [match_term(Data),I,Data]). + +match_term('_') -> + "_"; +match_term([H|T]=L) -> + case is_intlist(L) of + true -> + io_lib:format("~p", [L]); + false -> + ["[",match_term(H),"|",match_term(T),"]"] + end; +match_term(Tuple) when is_tuple(Tuple) -> + ["{",match_term_tuple(Tuple, 1),"}"]; +match_term(Other) -> + io_lib:format("~p", [Other]). + +match_term_tuple(T, I) when I =< tuple_size(T) -> + [match_term(element(I, T)), + if I < tuple_size(T) -> ","; + true -> "" end|match_term_tuple(T, I+1)]; +match_term_tuple(_, _) -> + []. + +is_intlist(L) -> + lists:all(fun is_integer/1, L). diff --git a/lib/asn1/test/testValueTest.erl b/lib/asn1/test/testValueTest.erl new file mode 100644 index 0000000000..8a8e973621 --- /dev/null +++ b/lib/asn1/test/testValueTest.erl @@ -0,0 +1,114 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2014. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% +%% +-module(testValueTest). + +-export([main/0]). + +main() -> + M = 'ValueTest', + + %% Basic types + 12 = M:'vANY'(), + true = M:'vBOOLEAN'(), + 12 = M:'vINTEGER'(), + 0 = M:'vINTEGERNNL'(), + button1 = M:'vENUMERATED'(), + [zero,two] = M:'vBS'(), + 'NULL' = M:'vNULL'(), + <<16#31,16#32,16#33>> = M:'vOS'(), + + %% OID + {2,1,1} = M:'vOD'(), + {1,2} = M:'integer-first'(), + {2,4,5} = M:'rel-oid-1'(), + {0,2,4,5} = M:'include-roid'(), + {1,2,1} = M:'include-oid'(), + {1,2,1,2,4,5,42} = M:'include-all'(), + + %% Character strings + "01234567" = M:'numericstring'(), + "PrintableString" = M:'printablestring'(), + "VisibleString" = M:'visiblestring'(), + [0,13] = M:'cr'(), + ["First line",[0,13],"Second line"] = M:'ia5string1'(), + [[5,5],[4,4],[6,6]] = M:'ia5string2'(), + "TeletexString" = M:'teletexstring'(), + "VideotexString" = M:'videotexstring'(), + "97100211-0500" = M:'utctime'(), + "19971002103130.5" = M:'generalizedtime'(), + "ObjectDescriptor" = M:'objectdescriptor'(), + "GraphicString" = M:'graphicstring'(), + "GeneralString" = M:'generalstring'(), + "BMPString" = M:'bmpstring1'(), + [0,0,0,65] = M:'latinCapitalLetterA'(), + [0,0,3,145] = M:'greekCapitalLetterSigma'(), + ["This is a capital A: ", + [0,0,0,65], + ", and a capital sigma: ", + [0,0,3,145], + "; try and spot the difference!"] = M:'my-universalstring'(), + + %% Integers + 42 = M:someInteger(), + 42 = M:otherInteger(), + {'IntegerSeq',42} = M:integerSeq1(), + + %% Value from object + 2 = M:'int-from-object-1'(), + 4 = M:'int-from-object-2'(), + roundtrip_error('II', 1), + roundtrip('II', 2), + roundtrip('II', 3), + roundtrip('II', 4), + roundtrip_error('II', 5), + + %% Recursive value definitions. + {'OctetStringSeq',<<16#40,16#41,16#42>>} = M:octetStringSeq1(), + <<16#40,16#41,16#42>> = M:otherOctetString(), + <<16#40,16#41,16#42>> = M:someOctetString(), + {'OctetStringSeq',<<16#40,16#41,16#42>>} = M:octetStringSeq2(), + {'OctetStringSeq',<<16#40,16#41,16#FF>>} = M:octetStringSeq3(), + <<16#40,16#41,16#FF>> = M:'os-1'(), + <<16#40,16#41,16#FF>> = M:'os-2'(), + + %% Recursive BIT STRING definitions. + {'BsSeq',<<2#101101:6>>,[c]} = M:bsSeq1(), + {'BsSeq',<<2#101101:6>>,[c]} = M:bsSeq2(), + {'BsSeq',<<2#101:3>>,[a,c]} = M:bsSeq3(), + <<2#101101:6>> = M:someBitString(), + <<2#101101:6>> = M:otherBitString(), + <<2#101:3>> = M:bsFromObject(), + <<2#101:3>> = M:bsFromObjectInd(), + [c] = M:someNamedBs(), + [c] = M:someOtherNamedBs(), + + ok. + + +roundtrip(T, V) -> + asn1_test_lib:roundtrip('ValueTest', T, V). + +roundtrip_error(T, V) -> + try asn1_test_lib:roundtrip('ValueTest', T, V) of + ok -> + test_server:fail() + catch _:_ -> + ok + end. diff --git a/lib/asn1/test/testX420.erl b/lib/asn1/test/testX420.erl deleted file mode 100644 index 4ddc55dc16..0000000000 --- a/lib/asn1/test/testX420.erl +++ /dev/null @@ -1,93 +0,0 @@ -%% -%% %CopyrightBegin% -%% -%% Copyright Ericsson AB 2008-2013. All Rights Reserved. -%% -%% The contents of this file are subject to the Erlang Public License, -%% Version 1.1, (the "License"); you may not use this file except in -%% compliance with the License. You should have received a copy of the -%% Erlang Public License along with this software. If not, it can be -%% retrieved online at http://www.erlang.org/. -%% -%% Software distributed under the License is distributed on an "AS IS" -%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See -%% the License for the specific language governing rights and limitations -%% under the License. -%% -%% %CopyrightEnd% -%% -%% -%%------------------------------------------------------------------- - --module(testX420). - --export([compile/3, ticket7759/2]). - --include_lib("test_server/include/test_server.hrl"). - - -compile(Erule, Options, Config) -> - Specs0 = specs(), - 99 = length(Specs0), - CaseDir = ?config(case_dir, Config), - Specs = [filename:join(x420, Spec) || Spec <- Specs0], - asn1_test_lib:compile_all(Specs, Config, [Erule,{i,CaseDir}|Options]). - -specs() -> - ["ACSE-1", "AuthenticationFramework", "BasicAccessControl", - "CertificateExtensions", "Character-Coding-Attributes", - "Character-Presentation-Attributes", "Character-Profile-Attributes", - "Colour-Attributes", "DOR-definition", "DSAOperationalAttributeTypes", - "Default-Value-Lists", "DirectoryAbstractService", - "DirectoryAccessProtocol", "DirectoryInformationShadowProtocol", - "DirectoryOperationalBindingManagementProtocol", - "DirectoryOperationalBindingTypes", "DirectoryProtectionMappings", - "DirectoryShadowAbstractService", "DirectorySystemProtocol", - "DistributedOperations", "Document-Profile-Descriptor", - "EnhancedSecurity", "External-References", "GULSProtectionMappings", - "GenericProtectingTransferSyntax", "Geo-Gr-Coding-Attributes", - "Geo-Gr-Presentation-Attributes", "Geo-Gr-Profile-Attributes", - "GulsSecurityExchanges", "GulsSecurityTransformations", - "HierarchicalOperationalBindings", "IPMSAbstractService", - "IPMSAutoActionTypes", "IPMSExtendedBodyPartTypes", - "IPMSExtendedBodyPartTypes2", "IPMSExtendedVoiceBodyPartType", - "IPMSFileTransferBodyPartType", "IPMSForwardedContentBodyPartType", - "IPMSForwardedReportBodyPartType", "IPMSFunctionalObjects", - "IPMSHeadingExtensions", "IPMSInformationObjects", - "IPMSMessageStoreAttributes", "IPMSObjectIdentifiers", - "IPMSObjectIdentifiers2", "IPMSSecurityExtensions", "IPMSUpperBounds", - "ISO-STANDARD-9541-FONT-ATTRIBUTE-SET", "ISO8571-FTAM", "ISO9541-SN", - "Identifiers-and-Expressions", "InformationFramework", - "Interchange-Data-Elements", "Layout-Descriptors", "Link-Descriptors", - "Location-Expressions", "Logical-Descriptors", "MHSObjectIdentifiers", - "MHSProtocolObjectIdentifiers", "MSAbstractService", - "MSAccessProtocol", "MSGeneralAttributeTypes", - "MSGeneralAutoActionTypes", "MSMatchingRules", "MSObjectIdentifiers", - "MSUpperBounds", "MTAAbstractService", "MTSAbstractService", - "MTSAbstractService88", "MTSAccessProtocol", "MTSObjectIdentifiers", - "MTSUpperBounds", "Notation", "ObjectIdentifiers", - "OperationalBindingManagement", "PKCS7", "PKCS7BodyPartType", - "Protected-Part-Descriptors", "ProtocolObjectIdentifiers", - "Raster-Gr-Coding-Attributes", "Raster-Gr-Presentation-Attributes", - "Raster-Gr-Profile-Attributes", "Reliable-Transfer-APDU", - "Remote-Operations-Abstract-Syntaxes", - "Remote-Operations-Generic-ROS-PDUs", - "Remote-Operations-Information-Objects-extensions", - "Remote-Operations-Information-Objects", - "Remote-Operations-Realizations", - "Remote-Operations-Useful-Definitions", "SelectedAttributeTypes", - "SeseAPDUs", "SpkmGssTokens", "Style-Descriptors", "Subprofiles", - "Temporal-Relationships", "Text-Units", "UpperBounds", - "UsefulDefinitions", "Videotex-Coding-Attributes"]. - -ticket7759(_Erule,_Config) -> - Encoded = encoded_msg(), - io:format("Testing ticket7759 ...~n",[]), - {ok, ContentInfo} = 'PKCS7':decode('ContentInfo',Encoded), - {'ContentInfo',_Id,PKCS7_content} = ContentInfo, - {ok,_} = 'PKCS7':decode('SignedData',PKCS7_content), - ok. - - -encoded_msg() -> - <<48,128,6,9,42,134,72,134,247,13,1,7,2,160,128,48,128,2,1,1,49,11,48,9,6,5,43,14,3,2,26,5,0,48,128,6,9,42,134,72,134,247,13,1,7,1,160,128,36,128,0,0,0,0,0,0, 49,130,1,192,48,130,1,188,2,1,1,48,50,48,38,49,17,48,15,6,3,85,4,3,12,8,65,100,109,105,110,67,65,49,49,17,48,15,6,3,85,4,10,12,8,69,82,73,67,83,83,79,78,2,8,15,151,245,186,21,23,240,96,48,9,6,5,43,14,3,2,26,5,0,160,129,229,48,17,6,10,96,134,72,1,134,248,69,1,9,2,49,3,19,1,51,48,17,6,10,96,134,72,1,134,248,69,1,9,3,49,3,19,1,51,48,24,6,9,42,134,72,134,247,13,1,9,3,49,11,6,9,42,134,72,134,247,13,1,7,1,48,28,6,9,42,134,72,134,247,13,1,9,5,49,15,23,13,48,56,49,50,49,48,48,57,53,52,50,51,90,48,28,6,10,96,134,72,1,134,248,69,1,9,7,49,14,19,12,49,53,50,56,49,52,50,52,48,57,53,53,48,32,6,10,96,134,72,1,134,248,69,1,9,5,49,18,4,16,165,115,177,71,78,88,239,113,78,56,98,98,18,202,217,235,48,32,6,10,96,134,72,1,134,248,69,1,9,6,49,18,4,16,227,174,230,251,43,153,252,65,11,93,231,83,34,18,55,46,48,35,6,9,42,134,72,134,247,13,1,9,4,49,22,4,20,218,57,163,238,94,107,75,13,50,85,191,239,149,96,24,144,175,216,7,9,48,13,6,9,42,134,72,134,247,13,1,1,1,5,0,4,129,128,106,233,116,125,140,51,133,173,63,41,54,138,214,211,89,215,169,125,98,77,16,222,216,240,211,79,125,111,87,186,73,63,253,204,107,102,177,63,174,197,224,212,231,172,149,246,33,68,223,67,102,93,64,152,152,5,216,102,247,134,36,197,150,236,57,77,56,138,95,71,204,31,23,149,241,213,78,172,165,249,100,187,12,45,19,57,67,120,54,63,15,239,41,217,127,61,254,60,201,104,68,3,135,214,206,93,253,255,192,94,56,107,68,210,57,61,41,249,47,156,130,244,52,12,163,216,236,69,0,0,0,0,0,0>>. diff --git a/lib/asn1/test/test_compile_options.erl b/lib/asn1/test/test_compile_options.erl index 7f358e863c..4b6357a395 100644 --- a/lib/asn1/test/test_compile_options.erl +++ b/lib/asn1/test/test_compile_options.erl @@ -24,7 +24,7 @@ -export([wrong_path/1,comp/2,path/1,ticket_6143/1,noobj/1, - record_name_prefix/1,verbose/1,warnings_as_errors/1]). + record_name_prefix/1,verbose/1]). %% OTP-5689 wrong_path(Config) -> @@ -132,43 +132,6 @@ verbose(Config) when is_list(Config) -> ?line [] = test_server:capture_get(), ok. -warnings_as_errors(Config) when is_list(Config) -> - PrivDir = ?config(priv_dir,Config), - Asn1File = filename:join([PrivDir,"WERROR.asn1"]), - OutFile = filename:join([PrivDir,"WERROR.erl"]), - Opts = [{outdir,PrivDir},noobj,verbose], - - %% Generate WERR.asn to emit warning - %% Warning: Wrong format of type/value - %% false/{'Externalvaluereference',_,'WERR',noInvokeId} - Warn = <<"WERROR DEFINITIONS IMPLICIT TAGS ::=\n" - "\n" - "BEGIN\n" - "\n" - "InvokeId ::= CHOICE\n" - "{\n" - " present INTEGER,\n" - " absent NULL\n" - "}\n" - "\n" - "noInvokeId InvokeId ::= absent:NULL\n" - "\n" - "NoInvokeId InvokeId ::= {noInvokeId}\n" - "\n" - "END -- end of useful definitions.\n">>, - ?line ok = file:write_file(Asn1File, Warn), - - %% Test warnings_as_errors compile - ?line false = filelib:is_regular(OutFile), - ?line {error, _} = asn1ct:compile(Asn1File, [warnings_as_errors|Opts]), - ?line false = filelib:is_regular(OutFile), - - %% Test normal compile - ?line ok = asn1ct:compile(Asn1File, Opts), - ?line true = filelib:is_regular(OutFile), - ?line ok = file:delete(OutFile), - ok. - outfiles_check(OutDir) -> outfiles_check(OutDir,outfiles1()). diff --git a/lib/asn1/vsn.mk b/lib/asn1/vsn.mk index d1c364c34a..d4c46863a3 100644 --- a/lib/asn1/vsn.mk +++ b/lib/asn1/vsn.mk @@ -1,2 +1 @@ -#next version number to use is 2.0 -ASN1_VSN = 3.0.4 +ASN1_VSN = 4.0 |