%%
%% %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(pubkey_cert_records).
-include("public_key.hrl").
-export([decode_cert/1, transform/2, supportedPublicKeyAlgorithms/1,
supportedCurvesTypes/1, namedCurves/1]).
%%====================================================================
%% Internal application API
%%====================================================================
%%--------------------------------------------------------------------
-spec decode_cert(DerCert::binary()) -> {ok, #'OTPCertificate'{}}.
%%
%% Description: Recursively decodes a Certificate.
%%--------------------------------------------------------------------
decode_cert(DerCert) ->
{ok, Cert} = 'OTP-PUB-KEY':decode('OTPCertificate', DerCert),
#'OTPCertificate'{tbsCertificate = TBS} = Cert,
{ok, Cert#'OTPCertificate'{tbsCertificate = decode_tbs(TBS)}}.
%%--------------------------------------------------------------------
-spec transform(term(), encode | decode) ->term().
%%
%% Description: Transforms between encoded and decode otp formated
%% certificate parts.
%%--------------------------------------------------------------------
transform(#'OTPCertificate'{tbsCertificate = TBS} = Cert, encode) ->
Cert#'OTPCertificate'{tbsCertificate=encode_tbs(TBS)};
transform(#'OTPCertificate'{tbsCertificate = TBS} = Cert, decode) ->
Cert#'OTPCertificate'{tbsCertificate=decode_tbs(TBS)};
transform(#'OTPTBSCertificate'{}= TBS, encode) ->
encode_tbs(TBS);
transform(#'OTPTBSCertificate'{}= TBS, decode) ->
decode_tbs(TBS);
transform(#'AttributeTypeAndValue'{type=Id,value=Value0} = ATAV, Func) ->
{ok, Value} =
case attribute_type(Id) of
'X520countryName'when Func == decode ->
%% Workaround that some certificates break the ASN-1 spec
%% and encode countryname as utf8
case 'OTP-PUB-KEY':Func('OTP-X520countryname', Value0) of
{ok, {utf8String, Utf8Value}} ->
{ok, unicode:characters_to_list(Utf8Value)};
{ok, {printableString, ASCCI}} ->
{ok, ASCCI}
end;
Type when is_atom(Type) -> 'OTP-PUB-KEY':Func(Type, Value0);
_UnknownType -> {ok, Value0}
end,
ATAV#'AttributeTypeAndValue'{value=Value};
transform(AKI = #'AuthorityKeyIdentifier'{authorityCertIssuer=ACI},Func) ->
AKI#'AuthorityKeyIdentifier'{authorityCertIssuer=transform(ACI,Func)};
transform(List = [{directoryName, _}],Func) ->
[{directoryName, transform(Value,Func)} || {directoryName, Value} <- List];
transform({directoryName, Value},Func) ->
{directoryName, transform(Value,Func)};
transform({rdnSequence, SeqList},Func) when is_list(SeqList) ->
{rdnSequence,
lists:map(fun(Seq) ->
lists:map(fun(Element) -> transform(Element,Func) end, Seq)
end, SeqList)};
transform(#'NameConstraints'{permittedSubtrees=Permitted, excludedSubtrees=Excluded}, Func) ->
#'NameConstraints'{permittedSubtrees=transform_sub_tree(Permitted,Func),
excludedSubtrees=transform_sub_tree(Excluded,Func)};
transform(Other,_) ->
Other.
%%--------------------------------------------------------------------
-spec supportedPublicKeyAlgorithms(Oid::tuple()) -> asn1_type().
%%
%% Description: Returns the public key type for an algorithm
%% identifier tuple as found in SubjectPublicKeyInfo.
%%
%%--------------------------------------------------------------------
supportedPublicKeyAlgorithms(?'rsaEncryption') -> 'RSAPublicKey';
supportedPublicKeyAlgorithms(?'id-dsa') -> 'DSAPublicKey';
supportedPublicKeyAlgorithms(?'dhpublicnumber') -> 'DHPublicKey';
supportedPublicKeyAlgorithms(?'id-keyExchangeAlgorithm') -> 'KEA-PublicKey';
supportedPublicKeyAlgorithms(?'id-ecPublicKey') -> 'ECPoint'.
supportedCurvesTypes(?'characteristic-two-field') -> characteristic_two_field;
supportedCurvesTypes(?'prime-field') -> prime_field.
namedCurves(?'sect571r1') -> sect571r1;
namedCurves(?'sect571k1') -> sect571k1;
namedCurves(?'sect409r1') -> sect409r1;
namedCurves(?'sect409k1') -> sect409k1;
namedCurves(?'secp521r1') -> secp521r1;
namedCurves(?'secp384r1') -> secp384r1;
namedCurves(?'secp224r1') -> secp224r1;
namedCurves(?'secp224k1') -> secp224k1;
namedCurves(?'secp192k1') -> secp192k1;
namedCurves(?'secp160r2') -> secp160r2;
namedCurves(?'secp128r2') -> secp128r2;
namedCurves(?'secp128r1') -> secp128r1;
namedCurves(?'sect233r1') -> sect233r1;
namedCurves(?'sect233k1') -> sect233k1;
namedCurves(?'sect193r2') -> sect193r2;
namedCurves(?'sect193r1') -> sect193r1;
namedCurves(?'sect131r2') -> sect131r2;
namedCurves(?'sect131r1') -> sect131r1;
namedCurves(?'sect283r1') -> sect283r1;
namedCurves(?'sect283k1') -> sect283k1;
namedCurves(?'sect163r2') -> sect163r2;
namedCurves(?'secp256k1') -> secp256k1;
namedCurves(?'secp160k1') -> secp160k1;
namedCurves(?'secp160r1') -> secp160r1;
namedCurves(?'secp112r2') -> secp112r2;
namedCurves(?'secp112r1') -> secp112r1;
namedCurves(?'sect113r2') -> sect113r2;
namedCurves(?'sect113r1') -> sect113r1;
namedCurves(?'sect239k1') -> sect239k1;
namedCurves(?'sect163r1') -> sect163r1;
namedCurves(?'sect163k1') -> sect163k1;
namedCurves(?'secp256r1') -> secp256r1;
namedCurves(?'secp192r1') -> secp192r1;
namedCurves(sect571r1) -> ?'sect571r1';
namedCurves(sect571k1) -> ?'sect571k1';
namedCurves(sect409r1) -> ?'sect409r1';
namedCurves(sect409k1) -> ?'sect409k1';
namedCurves(secp521r1) -> ?'secp521r1';
namedCurves(secp384r1) -> ?'secp384r1';
namedCurves(secp224r1) -> ?'secp224r1';
namedCurves(secp224k1) -> ?'secp224k1';
namedCurves(secp192k1) -> ?'secp192k1';
namedCurves(secp160r2) -> ?'secp160r2';
namedCurves(secp128r2) -> ?'secp128r2';
namedCurves(secp128r1) -> ?'secp128r1';
namedCurves(sect233r1) -> ?'sect233r1';
namedCurves(sect233k1) -> ?'sect233k1';
namedCurves(sect193r2) -> ?'sect193r2';
namedCurves(sect193r1) -> ?'sect193r1';
namedCurves(sect131r2) -> ?'sect131r2';
namedCurves(sect131r1) -> ?'sect131r1';
namedCurves(sect283r1) -> ?'sect283r1';
namedCurves(sect283k1) -> ?'sect283k1';
namedCurves(sect163r2) -> ?'sect163r2';
namedCurves(secp256k1) -> ?'secp256k1';
namedCurves(secp160k1) -> ?'secp160k1';
namedCurves(secp160r1) -> ?'secp160r1';
namedCurves(secp112r2) -> ?'secp112r2';
namedCurves(secp112r1) -> ?'secp112r1';
namedCurves(sect113r2) -> ?'sect113r2';
namedCurves(sect113r1) -> ?'sect113r1';
namedCurves(sect239k1) -> ?'sect239k1';
namedCurves(sect163r1) -> ?'sect163r1';
namedCurves(sect163k1) -> ?'sect163k1';
namedCurves(secp256r1) -> ?'secp256r1';
namedCurves(secp192r1) -> ?'secp192r1'.
%%--------------------------------------------------------------------
%%% Internal functions
%%--------------------------------------------------------------------
%%% SubjectPublicKey
decode_supportedPublicKey(#'OTPSubjectPublicKeyInfo'{algorithm= PA =
#'PublicKeyAlgorithm'{algorithm=Algo},
subjectPublicKey = {0,SPK0}}) ->
Type = supportedPublicKeyAlgorithms(Algo),
SPK = case Type of
'ECPoint' -> #'ECPoint'{point = SPK0};
_ -> {ok, SPK1} = 'OTP-PUB-KEY':decode(Type, SPK0),
SPK1
end,
#'OTPSubjectPublicKeyInfo'{subjectPublicKey = SPK, algorithm=PA}.
encode_supportedPublicKey(#'OTPSubjectPublicKeyInfo'{algorithm= PA =
#'PublicKeyAlgorithm'{algorithm=Algo},
subjectPublicKey = SPK0}) ->
Type = supportedPublicKeyAlgorithms(Algo),
SPK = case Type of
'ECPoint' ->
SPK0#'ECPoint'.point;
_ ->
{ok, SPK1} = 'OTP-PUB-KEY':encode(Type, SPK0),
SPK1
end,
#'OTPSubjectPublicKeyInfo'{subjectPublicKey = {0,SPK}, algorithm=PA}.
%%% Extensions
extension_id(?'id-ce-authorityKeyIdentifier') -> 'AuthorityKeyIdentifier';
extension_id(?'id-ce-subjectKeyIdentifier') -> 'SubjectKeyIdentifier';
extension_id(?'id-ce-keyUsage') -> 'KeyUsage';
extension_id(?'id-ce-privateKeyUsagePeriod') -> 'PrivateKeyUsagePeriod';
extension_id(?'id-ce-certificatePolicies') -> 'CertificatePolicies';
extension_id(?'id-ce-policyMappings') -> 'PolicyMappings';
extension_id(?'id-ce-subjectAltName') -> 'SubjectAltName';
extension_id(?'id-ce-issuerAltName') -> 'IssuerAltName';
extension_id(?'id-ce-subjectDirectoryAttributes') -> 'SubjectDirectoryAttributes';
extension_id(?'id-ce-basicConstraints' ) -> 'BasicConstraints';
extension_id(?'id-ce-nameConstraints') -> 'NameConstraints';
extension_id(?'id-ce-policyConstraints') -> 'PolicyConstraints';
extension_id(?'id-ce-cRLDistributionPoints') -> 'CRLDistributionPoints';
extension_id(?'id-ce-extKeyUsage') -> 'ExtKeyUsageSyntax';
extension_id(?'id-ce-inhibitAnyPolicy') -> 'InhibitAnyPolicy';
extension_id(?'id-ce-freshestCRL') -> 'FreshestCRL';
%% Missing in public_key doc
extension_id(?'id-pe-authorityInfoAccess') -> 'AuthorityInfoAccessSyntax';
extension_id(?'id-pe-subjectInfoAccess') -> 'SubjectInfoAccessSyntax';
extension_id(?'id-ce-cRLNumber') -> 'CRLNumber';
extension_id(?'id-ce-issuingDistributionPoint') -> 'IssuingDistributionPoint';
extension_id(?'id-ce-deltaCRLIndicator') -> 'BaseCRLNumber';
extension_id(?'id-ce-cRLReasons') -> 'CRLReason';
extension_id(?'id-ce-certificateIssuer') -> 'CertificateIssuer';
extension_id(?'id-ce-holdInstructionCode') -> 'HoldInstructionCode';
extension_id(?'id-ce-invalidityDate') -> 'InvalidityDate';
extension_id(_) ->
undefined.
decode_extensions(asn1_NOVALUE) ->
asn1_NOVALUE;
decode_extensions(Exts) ->
lists:map(fun(Ext = #'Extension'{extnID=Id, extnValue=Value0}) ->
case extension_id(Id) of
undefined -> Ext;
Type ->
{ok, Value} = 'OTP-PUB-KEY':decode(Type, iolist_to_binary(Value0)),
Ext#'Extension'{extnValue=transform(Value,decode)}
end
end, Exts).
encode_extensions(asn1_NOVALUE) ->
asn1_NOVALUE;
encode_extensions(Exts) ->
lists:map(fun(Ext = #'Extension'{extnID=Id, extnValue=Value0}) ->
case extension_id(Id) of
undefined -> Ext;
Type ->
Value1 = transform(Value0,encode),
{ok, Value} = 'OTP-PUB-KEY':encode(Type, Value1),
Ext#'Extension'{extnValue=Value}
end
end, Exts).
encode_tbs(TBS=#'OTPTBSCertificate'{issuer=Issuer0,
subject=Subject0,
subjectPublicKeyInfo=Spki0,
extensions=Exts0}) ->
Issuer = transform(Issuer0,encode),
Subject = transform(Subject0,encode),
Spki = encode_supportedPublicKey(Spki0),
Exts = encode_extensions(Exts0),
TBS#'OTPTBSCertificate'{issuer=Issuer, subject=Subject,
subjectPublicKeyInfo=Spki,extensions=Exts}.
decode_tbs(TBS = #'OTPTBSCertificate'{issuer=Issuer0,
subject=Subject0,
subjectPublicKeyInfo=Spki0,
extensions=Exts0}) ->
Issuer = transform(Issuer0,decode),
Subject = transform(Subject0,decode),
Spki = decode_supportedPublicKey(Spki0),
Exts = decode_extensions(Exts0),
TBS#'OTPTBSCertificate'{issuer=Issuer, subject=Subject,
subjectPublicKeyInfo=Spki,extensions=Exts}.
transform_sub_tree(asn1_NOVALUE,_) -> asn1_NOVALUE;
transform_sub_tree(TreeList,Func) ->
[Tree#'GeneralSubtree'{base=transform(Name,Func)} ||
Tree = #'GeneralSubtree'{base=Name} <- TreeList].
attribute_type(?'id-at-name') -> 'X520name';
attribute_type(?'id-at-surname') -> 'X520name';
attribute_type(?'id-at-givenName') -> 'X520name';
attribute_type(?'id-at-initials') -> 'X520name';
attribute_type(?'id-at-generationQualifier') -> 'X520name';
attribute_type(?'id-at-commonName') -> 'X520CommonName';
attribute_type(?'id-at-localityName') -> 'X520LocalityName';
attribute_type(?'id-at-stateOrProvinceName') -> 'X520StateOrProvinceName';
attribute_type(?'id-at-organizationName') -> 'X520OrganizationName';
attribute_type(?'id-at-organizationalUnitName') -> 'X520OrganizationalUnitName';
attribute_type(?'id-at-title') -> 'X520Title';
attribute_type(?'id-at-dnQualifier') -> 'X520dnQualifier';
attribute_type(?'id-at-countryName') -> 'X520countryName';
attribute_type(?'id-at-serialNumber') -> 'X520SerialNumber';
attribute_type(?'id-at-pseudonym') -> 'X520Pseudonym';
attribute_type(?'id-domainComponent') -> 'DomainComponent';
attribute_type(?'id-emailAddress') -> 'EmailAddress';
attribute_type(Type) -> Type.