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<chapter>
<header>
<copyright>
<year>2003</year><year>2013</year>
<holder>Ericsson AB. All Rights Reserved.</holder>
</copyright>
<legalnotice>
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
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<title>Specialized Decodes</title>
<prepared>EAB/UAB/UKH/KD Bertil Karlsson</prepared>
<docno></docno>
<date>2003-04-24</date>
<rev>D</rev>
<file>asn1_spec.xml</file>
</header>
<marker id="SpecializedDecodes"></marker>
<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 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 can be decoded
in turn by passing them to a certain <c>decode_part/2</c>
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>Procedure</title>
<p>To perform an exclusive decode:
</p>
<list type="bulleted">
<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 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> 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 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 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>
</section>
<section>
<marker id="Exclusive Instruction"></marker>
<title>Writing an Exclusive Decode Instruction</title>
<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()
Decode_Instructions = [Decode_Instruction]+
Decode_Instruction = {Exclusive_Decode_Function_Name,Type_List}
Exclusive_Decode_Function_Name = atom()
Type_List = [Top_Type,Element_List]
Element_List = [Element]+
Element = {Name,parts} |
{Name,undecoded} |
{Name,Element_List}
Top_Type = atom()
Name = atom()</pre>
<p>The instruction must be a valid Erlang term ended by a dot.
</p>
<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 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 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><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 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 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>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>Bytes of a Window:status Message</icaption>
</image>
<p></p>
<p>Compiling <c>GUI.asn</c> including the configuration file is done
as follows:</p>
<pre>
unix> erlc -bber +asn1config GUI.asn
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).
{ok,[<<48>>,
[6],
[<<128>>,
[1],
123],
[<<129>>,
[1],
255]]}
3> {ok,Exclusive_Msg_Button} = 'GUI':decode_Button_exclusive(list_to_binary(Button_Bytes)).
{ok,{'Button',{'Button_number',<<28,1,123>>},
true}}
4> 'GUI':decode_part('Button_number',<<128,1,123>>).
{ok,123}
5> Window_Msg =
{'Window',{status,{'Status',35,
[{'Button',3,true},
{'Button',4,false},
{'Button',5,true},
{'Button',6,true},
{'Button',7,false},
{'Button',8,true},
{'Button',9,true},
{'Button',10,false},
{'Button',11,true},
{'Button',12,true},
{'Button',13,false},
{'Button',14,true}],
false,
{possibleActions,[{'Action',16,{'Button',17,true}}]}}}}.
{'Window',{status,{'Status',35,
[{'Button',3,true},
{'Button',4,false},
{'Button',5,true},
{'Button',6,true},
{'Button',7,false},
{'Button',8,true},
{'Button',9,true},
{'Button',10,false},
{'Button',11,true},
{'Button',12,true},
{'Button',13,false},
{'Button',14,true}],
false,
{possibleActions,[{'Action',16,{'Button',17,true}}]}}}}
6> {ok,Window_Bytes}='GUI':encode('Window',Window_Msg).
{ok,[<<161>>,
[127],
[<<128>>, ...
8> {ok,{status,{'Status',Int,{Type_Key_SeqOf,Val_SEQOF},
BoolOpt,{Type_Key_Choice,Val_Choice}}}}=
'GUI':decode_Window_status_exclusive(list_to_binary(Window_Bytes)).
{ok,{status,{'Status',35,
{'Status_buttonList',[<<48,6,128,1,3,129,1,255>>,
<<48,6,128,1,4,129,1,0>>,
<<48,6,128,1,5,129,1,255>>,
<<48,6,128,1,6,129,1,255>>,
<<48,6,128,1,7,129,1,0>>,
<<48,6,128,1,8,129,1,255>>,
<<48,6,128,1,9,129,1,255>>,
<<48,6,128,1,10,129,1,0>>,
<<48,6,128,1,11,129,1,255>>,
<<48,6,128,1,12,129,1,255>>,
<<48,6,128,1,13,129,1,0>>,
<<48,6,128,1,14,129,1,255>>]},
false,
{'Status_actions',
<<163,21,160,19,48,17,2,1,16,160,12,172,10,171,8,48,6,128,1,...>>}}}}
10> 'GUI':decode_part(Type_Key_SeqOf,Val_SEQOF).
{ok,[{'Button',3,true},
{'Button',4,false},
{'Button',5,true},
{'Button',6,true},
{'Button',7,false},
{'Button',8,true},
{'Button',9,true},
{'Button',10,false},
{'Button',11,true},
{'Button',12,true},
{'Button',13,false},
{'Button',14,true}]}
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>
</section>
</section>
<section>
<title>Selective Decode</title>
<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>Procedure</title>
<p>To perform a selective decode:
</p>
<list type="bulleted">
<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>
</section>
<section>
<title>User Interface</title>
<p>The only new user interface function is the one provided by the
user in the configuration file. The function is started by
the <c>ModuleName:FunctionName</c> notation.
</p>
<p>For example, if the configuration file includes the specification
<c>{selective_decode,{'ModuleName',[{selected_decode_Window,TypeList}]}}</c>
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>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}}.
Module_Name = atom()
Decode_Instructions = [Decode_Instruction]+
Decode_Instruction = {Selective_Decode_Function_Name,Type_List}
Selective_Decode_Function_Name = atom()
Type_List = [Top_Type|Element_List]
Element_List = Name|List_Selector
Name = atom()
List_Selector = [integer()]</pre>
<p>The instruction must be a valid Erlang term ended by a dot.
</p>
<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, 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',
[{selected_decode_Window1,
['Window',status,buttonList,
[1],
number]},
{selected_decode_Action,
['Action',handle,number]},
{selected_decode_Window2,
['Window',
status,
actions,
possibleActions,
[1],
handle,number]}]}}.</pre>
<p>The first instruction,
<c>{selected_decode_Window1,['Window',status,buttonList,[1],number]}</c>
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}}
7> {ok,Bytes}='GUI':encode('Action',ValAction).
...
8> BinBytes = list_to_binary(Bytes).
<<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>
<p>The third instruction,
<c>['Window',status,actions,possibleActions,[1],handle,number]</c>,
works as follows:</p>
<list type="bulleted">
<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><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 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>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>Bytes of a Window:status Message</icaption>
</image>
<p>With the following example, you can examine that both
<c>selected_decode_Window2</c> and
<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},
{'Button',14,false},
{'Button',15,true},
{'Button',16,false}],
true,
{possibleActions,[{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}}]}}}}
2> {ok,Bytes}='GUI':encode('Window',Val).
...
3> Bin = list_to_binary(Bytes).
<<161,101,128,1,12,161,32,48,6,128,1,13,129,1,255,48,6,128,1,14,129,1,0,48,6,128,1,15,129,...>>
4> 'GUI':selected_decode_Window1(Bin).
{ok,13}
5> 'GUI':selected_decode_Window2(Bin).
{ok,18}</pre>
<p>Notice that the value fed into the selective decode
functions must be a binary.
</p>
</section>
</section>
<section>
<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) 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 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>
were used in the test.
</p>
<p>For the <c>GUI</c> specification the configuration was as follows:</p>
<pre>
{selective_decode,
{'GUI',
[{selected_decode_Window1,
['Window',
status,buttonList,
[1],
number]},
{selected_decode_Window2,
['Window',
status,
actions,
possibleActions,
[1],
handle,number]}]}}.
{exclusive_decode,
{'GUI',
[{decode_Window_status_exclusive,
['Window',
[{status,
[{buttonList,parts},
{actions,undecoded}]}]]}]}}.</pre>
<p>The <c>MEDIA-GATEWAY-CONTROL</c> configuration was as follows:</p>
<pre>
{exclusive_decode,
{'MEDIA-GATEWAY-CONTROL',
[{decode_MegacoMessage_exclusive,
['MegacoMessage',
[{authHeader,undecoded},
{mess,
[{mId,undecoded},
{messageBody,undecoded}]}]]}]}}.
{selective_decode,
{'MEDIA-GATEWAY-CONTROL',
[{decode_MegacoMessage_selective,
['MegacoMessage',mess,version]}]}}.</pre>
<p>The corresponding values were as follows:</p>
<pre>
{'Window',{status,{'Status',12,
[{'Button',13,true},
{'Button',14,false},
{'Button',15,true},
{'Button',16,false},
{'Button',13,true},
{'Button',14,false},
{'Button',15,true},
{'Button',16,false},
{'Button',13,true},
{'Button',14,false},
{'Button',15,true},
{'Button',16,false}],
true,
{possibleActions,
[{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}},
{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}},
{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}},
{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}},
{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}},
{'Action',17,{'Button',18,false}},
{'Action',19,{'Button',20,true}},
{'Action',21,{'Button',22,false}}]}}}}
{'MegacoMessage',asn1_NOVALUE,
{'Message',1,
{ip4Address,
{'IP4Address',[125,125,125,111],55555}},
{transactions,
[{transactionReply,
{'TransactionReply',50007,asn1_NOVALUE,
{actionReplies,
[{'ActionReply',0,asn1_NOVALUE,asn1_NOVALUE,
[{auditValueReply,{auditResult,{'AuditResult',
{'TerminationID',[],[255,255,255]},
[{mediaDescriptor,
{'MediaDescriptor',asn1_NOVALUE,
{multiStream,
[{'StreamDescriptor',1,
{'StreamParms',
{'LocalControlDescriptor',
sendRecv,
asn1_NOVALUE,
asn1_NOVALUE,
[{'PropertyParm',
[0,11,0,7],
[[52,48]],
asn1_NOVALUE}]},
{'LocalRemoteDescriptor',
[[{'PropertyParm',
[0,0,176,1],
[[48]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,8],
[[73,78,32,73,80,52,32,49,50,53,46,49,
50,53,46,49,50,53,46,49,49,49]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,15],
[[97,117,100,105,111,32,49,49,49,49,32,
82,84,80,47,65,86,80,32,32,52]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,12],
[[112,116,105,109,101,58,51,48]],
asn1_NOVALUE}]]},
{'LocalRemoteDescriptor',
[[{'PropertyParm',
[0,0,176,1],
[[48]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,8],
[[73,78,32,73,80,52,32,49,50,52,46,49,50,
52,46,49,50,52,46,50,50,50]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,15],
[[97,117,100,105,111,32,50,50,50,50,32,82,
84,80,47,65,86,80,32,32,52]],
asn1_NOVALUE},
{'PropertyParm',
[0,0,176,12],
[[112,116,105,109,101,58,51,48]],
asn1_NOVALUE}]]}}}]}}},
{packagesDescriptor,
[{'PackagesItem',[0,11],1},
{'PackagesItem',[0,11],1}]},
{statisticsDescriptor,
[{'StatisticsParameter',[0,12,0,4],[[49,50,48,48]]},
{'StatisticsParameter',[0,11,0,2],[[54,50,51,48,48]]},
{'StatisticsParameter',[0,12,0,5],[[55,48,48]]},
{'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 <c>GUI</c> and 464
bytes for <c>MEDIA-GATEWAY-CONTROL</c>.
</p>
</section>
<section>
<title>Results</title>
<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 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 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>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>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>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>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>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>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>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>GUI</c></cell>
<cell align="left" valign="middle"><em>100</em></cell>
</row>
<tcaption>Results of Complete, Exclusive, and Selective Decode</tcaption>
</table>
<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 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 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 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>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>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>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>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>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>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>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>
</table>
<p>Other ASN.1 types and values can differ much from these
figures. It is therefore important that you, in every case where
you intend to use either of these decodes, perform some tests
that show if you will benefit your purpose.
</p>
</section>
<section>
<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. <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>