/* Copyright (C) Microsoft Corporation, 1996 - 1999 All rights reserved. */ /* ASN.1 definitions for PFXPKCS */ #include #include "pfxpkcs.h" ASN1module_t PFXPKCS_Module = NULL; static int ASN1CALL ASN1Enc_ObjectIdentifierType(ASN1encoding_t enc, ASN1uint32_t tag, ObjectIdentifierType *val); static int ASN1CALL ASN1Enc_OctetStringType(ASN1encoding_t enc, ASN1uint32_t tag, OctetStringType *val); static int ASN1CALL ASN1Enc_IntegerType(ASN1encoding_t enc, ASN1uint32_t tag, IntegerType *val); static int ASN1CALL ASN1Enc_RSAPublicKey(ASN1encoding_t enc, ASN1uint32_t tag, RSAPublicKey *val); static int ASN1CALL ASN1Enc_RSAPrivateKey(ASN1encoding_t enc, ASN1uint32_t tag, RSAPrivateKey *val); static int ASN1CALL ASN1Enc_AlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, AlgorithmIdentifier *val); static int ASN1CALL ASN1Enc_PBEParameter(ASN1encoding_t enc, ASN1uint32_t tag, PBEParameter *val); static int ASN1CALL ASN1Enc_DigestAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, DigestAlgorithmIdentifier *val); static int ASN1CALL ASN1Enc_AttributeSetValue(ASN1encoding_t enc, ASN1uint32_t tag, AttributeSetValue *val); static int ASN1CALL ASN1Enc_Attribute(ASN1encoding_t enc, ASN1uint32_t tag, Attribute *val); static int ASN1CALL ASN1Enc_Attributes(ASN1encoding_t enc, ASN1uint32_t tag, Attributes *val); static int ASN1CALL ASN1Enc_ContentInfo(ASN1encoding_t enc, ASN1uint32_t tag, ContentInfo *val); static int ASN1CALL ASN1Enc_AuthenticatedSafes(ASN1encoding_t enc, ASN1uint32_t tag, AuthenticatedSafes *val); static int ASN1CALL ASN1Enc_SafeContents(ASN1encoding_t enc, ASN1uint32_t tag, SafeContents *val); static int ASN1CALL ASN1Enc_SafeBag(ASN1encoding_t enc, ASN1uint32_t tag, SafeBag *val); static int ASN1CALL ASN1Enc_CertBag(ASN1encoding_t enc, ASN1uint32_t tag, CertBag *val); static int ASN1CALL ASN1Enc_CRLBag(ASN1encoding_t enc, ASN1uint32_t tag, CRLBag *val); static int ASN1CALL ASN1Enc_SecretBag(ASN1encoding_t enc, ASN1uint32_t tag, SecretBag *val); static int ASN1CALL ASN1Enc_PrivateKeyAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, PrivateKeyAlgorithmIdentifier *val); static int ASN1CALL ASN1Enc_EncryptionAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, EncryptionAlgorithmIdentifier *val); static int ASN1CALL ASN1Enc_ContentEncryptionAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, ContentEncryptionAlgorithmIdentifier *val); static int ASN1CALL ASN1Enc_DigestInfo(ASN1encoding_t enc, ASN1uint32_t tag, DigestInfo *val); static int ASN1CALL ASN1Enc_MacData(ASN1encoding_t enc, ASN1uint32_t tag, MacData *val); static int ASN1CALL ASN1Enc_PrivateKeyInfo(ASN1encoding_t enc, ASN1uint32_t tag, PrivateKeyInfo *val); static int ASN1CALL ASN1Enc_EncryptedContentInfo(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedContentInfo *val); static int ASN1CALL ASN1Enc_PFX(ASN1encoding_t enc, ASN1uint32_t tag, PFX *val); static int ASN1CALL ASN1Enc_KeyBag(ASN1encoding_t enc, ASN1uint32_t tag, KeyBag *val); static int ASN1CALL ASN1Enc_EncryptedData(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedData *val); static int ASN1CALL ASN1Enc_EncryptedPrivateKeyInfo(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedPrivateKeyInfo *val); static int ASN1CALL ASN1Enc_Pkcs_8ShroudedKeyBag(ASN1encoding_t enc, ASN1uint32_t tag, Pkcs_8ShroudedKeyBag *val); static int ASN1CALL ASN1Dec_ObjectIdentifierType(ASN1decoding_t dec, ASN1uint32_t tag, ObjectIdentifierType *val); static int ASN1CALL ASN1Dec_OctetStringType(ASN1decoding_t dec, ASN1uint32_t tag, OctetStringType *val); static int ASN1CALL ASN1Dec_IntegerType(ASN1decoding_t dec, ASN1uint32_t tag, IntegerType *val); static int ASN1CALL ASN1Dec_RSAPublicKey(ASN1decoding_t dec, ASN1uint32_t tag, RSAPublicKey *val); static int ASN1CALL ASN1Dec_RSAPrivateKey(ASN1decoding_t dec, ASN1uint32_t tag, RSAPrivateKey *val); static int ASN1CALL ASN1Dec_AlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, AlgorithmIdentifier *val); static int ASN1CALL ASN1Dec_PBEParameter(ASN1decoding_t dec, ASN1uint32_t tag, PBEParameter *val); static int ASN1CALL ASN1Dec_DigestAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, DigestAlgorithmIdentifier *val); static int ASN1CALL ASN1Dec_AttributeSetValue(ASN1decoding_t dec, ASN1uint32_t tag, AttributeSetValue *val); static int ASN1CALL ASN1Dec_Attribute(ASN1decoding_t dec, ASN1uint32_t tag, Attribute *val); static int ASN1CALL ASN1Dec_Attributes(ASN1decoding_t dec, ASN1uint32_t tag, Attributes *val); static int ASN1CALL ASN1Dec_ContentInfo(ASN1decoding_t dec, ASN1uint32_t tag, ContentInfo *val); static int ASN1CALL ASN1Dec_AuthenticatedSafes(ASN1decoding_t dec, ASN1uint32_t tag, AuthenticatedSafes *val); static int ASN1CALL ASN1Dec_SafeContents(ASN1decoding_t dec, ASN1uint32_t tag, SafeContents *val); static int ASN1CALL ASN1Dec_SafeBag(ASN1decoding_t dec, ASN1uint32_t tag, SafeBag *val); static int ASN1CALL ASN1Dec_CertBag(ASN1decoding_t dec, ASN1uint32_t tag, CertBag *val); static int ASN1CALL ASN1Dec_CRLBag(ASN1decoding_t dec, ASN1uint32_t tag, CRLBag *val); static int ASN1CALL ASN1Dec_SecretBag(ASN1decoding_t dec, ASN1uint32_t tag, SecretBag *val); static int ASN1CALL ASN1Dec_PrivateKeyAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, PrivateKeyAlgorithmIdentifier *val); static int ASN1CALL ASN1Dec_EncryptionAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, EncryptionAlgorithmIdentifier *val); static int ASN1CALL ASN1Dec_ContentEncryptionAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, ContentEncryptionAlgorithmIdentifier *val); static int ASN1CALL ASN1Dec_DigestInfo(ASN1decoding_t dec, ASN1uint32_t tag, DigestInfo *val); static int ASN1CALL ASN1Dec_MacData(ASN1decoding_t dec, ASN1uint32_t tag, MacData *val); static int ASN1CALL ASN1Dec_PrivateKeyInfo(ASN1decoding_t dec, ASN1uint32_t tag, PrivateKeyInfo *val); static int ASN1CALL ASN1Dec_EncryptedContentInfo(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedContentInfo *val); static int ASN1CALL ASN1Dec_PFX(ASN1decoding_t dec, ASN1uint32_t tag, PFX *val); static int ASN1CALL ASN1Dec_KeyBag(ASN1decoding_t dec, ASN1uint32_t tag, KeyBag *val); static int ASN1CALL ASN1Dec_EncryptedData(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedData *val); static int ASN1CALL ASN1Dec_EncryptedPrivateKeyInfo(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedPrivateKeyInfo *val); static int ASN1CALL ASN1Dec_Pkcs_8ShroudedKeyBag(ASN1decoding_t dec, ASN1uint32_t tag, Pkcs_8ShroudedKeyBag *val); static void ASN1CALL ASN1Free_ObjectIdentifierType(ObjectIdentifierType *val); static void ASN1CALL ASN1Free_OctetStringType(OctetStringType *val); static void ASN1CALL ASN1Free_IntegerType(IntegerType *val); static void ASN1CALL ASN1Free_RSAPublicKey(RSAPublicKey *val); static void ASN1CALL ASN1Free_RSAPrivateKey(RSAPrivateKey *val); static void ASN1CALL ASN1Free_AlgorithmIdentifier(AlgorithmIdentifier *val); static void ASN1CALL ASN1Free_PBEParameter(PBEParameter *val); static void ASN1CALL ASN1Free_DigestAlgorithmIdentifier(DigestAlgorithmIdentifier *val); static void ASN1CALL ASN1Free_AttributeSetValue(AttributeSetValue *val); static void ASN1CALL ASN1Free_Attribute(Attribute *val); static void ASN1CALL ASN1Free_Attributes(Attributes *val); static void ASN1CALL ASN1Free_ContentInfo(ContentInfo *val); static void ASN1CALL ASN1Free_AuthenticatedSafes(AuthenticatedSafes *val); static void ASN1CALL ASN1Free_SafeContents(SafeContents *val); static void ASN1CALL ASN1Free_SafeBag(SafeBag *val); static void ASN1CALL ASN1Free_CertBag(CertBag *val); static void ASN1CALL ASN1Free_CRLBag(CRLBag *val); static void ASN1CALL ASN1Free_SecretBag(SecretBag *val); static void ASN1CALL ASN1Free_PrivateKeyAlgorithmIdentifier(PrivateKeyAlgorithmIdentifier *val); static void ASN1CALL ASN1Free_EncryptionAlgorithmIdentifier(EncryptionAlgorithmIdentifier *val); static void ASN1CALL ASN1Free_ContentEncryptionAlgorithmIdentifier(ContentEncryptionAlgorithmIdentifier *val); static void ASN1CALL ASN1Free_DigestInfo(DigestInfo *val); static void ASN1CALL ASN1Free_MacData(MacData *val); static void ASN1CALL ASN1Free_PrivateKeyInfo(PrivateKeyInfo *val); static void ASN1CALL ASN1Free_EncryptedContentInfo(EncryptedContentInfo *val); static void ASN1CALL ASN1Free_PFX(PFX *val); static void ASN1CALL ASN1Free_KeyBag(KeyBag *val); static void ASN1CALL ASN1Free_EncryptedData(EncryptedData *val); static void ASN1CALL ASN1Free_EncryptedPrivateKeyInfo(EncryptedPrivateKeyInfo *val); static void ASN1CALL ASN1Free_Pkcs_8ShroudedKeyBag(Pkcs_8ShroudedKeyBag *val); typedef ASN1BerEncFun_t ASN1EncFun_t; static const ASN1EncFun_t encfntab[22] = { (ASN1EncFun_t) ASN1Enc_ObjectIdentifierType, (ASN1EncFun_t) ASN1Enc_OctetStringType, (ASN1EncFun_t) ASN1Enc_IntegerType, (ASN1EncFun_t) ASN1Enc_RSAPublicKey, (ASN1EncFun_t) ASN1Enc_RSAPrivateKey, (ASN1EncFun_t) ASN1Enc_PBEParameter, (ASN1EncFun_t) ASN1Enc_AttributeSetValue, (ASN1EncFun_t) ASN1Enc_Attributes, (ASN1EncFun_t) ASN1Enc_AuthenticatedSafes, (ASN1EncFun_t) ASN1Enc_SafeContents, (ASN1EncFun_t) ASN1Enc_SafeBag, (ASN1EncFun_t) ASN1Enc_CertBag, (ASN1EncFun_t) ASN1Enc_CRLBag, (ASN1EncFun_t) ASN1Enc_SecretBag, (ASN1EncFun_t) ASN1Enc_DigestInfo, (ASN1EncFun_t) ASN1Enc_MacData, (ASN1EncFun_t) ASN1Enc_PrivateKeyInfo, (ASN1EncFun_t) ASN1Enc_PFX, (ASN1EncFun_t) ASN1Enc_KeyBag, (ASN1EncFun_t) ASN1Enc_EncryptedData, (ASN1EncFun_t) ASN1Enc_EncryptedPrivateKeyInfo, (ASN1EncFun_t) ASN1Enc_Pkcs_8ShroudedKeyBag, }; typedef ASN1BerDecFun_t ASN1DecFun_t; static const ASN1DecFun_t decfntab[22] = { (ASN1DecFun_t) ASN1Dec_ObjectIdentifierType, (ASN1DecFun_t) ASN1Dec_OctetStringType, (ASN1DecFun_t) ASN1Dec_IntegerType, (ASN1DecFun_t) ASN1Dec_RSAPublicKey, (ASN1DecFun_t) ASN1Dec_RSAPrivateKey, (ASN1DecFun_t) ASN1Dec_PBEParameter, (ASN1DecFun_t) ASN1Dec_AttributeSetValue, (ASN1DecFun_t) ASN1Dec_Attributes, (ASN1DecFun_t) ASN1Dec_AuthenticatedSafes, (ASN1DecFun_t) ASN1Dec_SafeContents, (ASN1DecFun_t) ASN1Dec_SafeBag, (ASN1DecFun_t) ASN1Dec_CertBag, (ASN1DecFun_t) ASN1Dec_CRLBag, (ASN1DecFun_t) ASN1Dec_SecretBag, (ASN1DecFun_t) ASN1Dec_DigestInfo, (ASN1DecFun_t) ASN1Dec_MacData, (ASN1DecFun_t) ASN1Dec_PrivateKeyInfo, (ASN1DecFun_t) ASN1Dec_PFX, (ASN1DecFun_t) ASN1Dec_KeyBag, (ASN1DecFun_t) ASN1Dec_EncryptedData, (ASN1DecFun_t) ASN1Dec_EncryptedPrivateKeyInfo, (ASN1DecFun_t) ASN1Dec_Pkcs_8ShroudedKeyBag, }; static const ASN1FreeFun_t freefntab[22] = { (ASN1FreeFun_t) ASN1Free_ObjectIdentifierType, (ASN1FreeFun_t) ASN1Free_OctetStringType, (ASN1FreeFun_t) ASN1Free_IntegerType, (ASN1FreeFun_t) ASN1Free_RSAPublicKey, (ASN1FreeFun_t) ASN1Free_RSAPrivateKey, (ASN1FreeFun_t) ASN1Free_PBEParameter, (ASN1FreeFun_t) ASN1Free_AttributeSetValue, (ASN1FreeFun_t) ASN1Free_Attributes, (ASN1FreeFun_t) ASN1Free_AuthenticatedSafes, (ASN1FreeFun_t) ASN1Free_SafeContents, (ASN1FreeFun_t) ASN1Free_SafeBag, (ASN1FreeFun_t) ASN1Free_CertBag, (ASN1FreeFun_t) ASN1Free_CRLBag, (ASN1FreeFun_t) ASN1Free_SecretBag, (ASN1FreeFun_t) ASN1Free_DigestInfo, (ASN1FreeFun_t) ASN1Free_MacData, (ASN1FreeFun_t) ASN1Free_PrivateKeyInfo, (ASN1FreeFun_t) ASN1Free_PFX, (ASN1FreeFun_t) ASN1Free_KeyBag, (ASN1FreeFun_t) ASN1Free_EncryptedData, (ASN1FreeFun_t) ASN1Free_EncryptedPrivateKeyInfo, (ASN1FreeFun_t) ASN1Free_Pkcs_8ShroudedKeyBag, }; static const ULONG sizetab[22] = { SIZE_PFXPKCS_Module_PDU_0, SIZE_PFXPKCS_Module_PDU_1, SIZE_PFXPKCS_Module_PDU_2, SIZE_PFXPKCS_Module_PDU_3, SIZE_PFXPKCS_Module_PDU_4, SIZE_PFXPKCS_Module_PDU_5, SIZE_PFXPKCS_Module_PDU_6, SIZE_PFXPKCS_Module_PDU_7, SIZE_PFXPKCS_Module_PDU_8, SIZE_PFXPKCS_Module_PDU_9, SIZE_PFXPKCS_Module_PDU_10, SIZE_PFXPKCS_Module_PDU_11, SIZE_PFXPKCS_Module_PDU_12, SIZE_PFXPKCS_Module_PDU_13, SIZE_PFXPKCS_Module_PDU_14, SIZE_PFXPKCS_Module_PDU_15, SIZE_PFXPKCS_Module_PDU_16, SIZE_PFXPKCS_Module_PDU_17, SIZE_PFXPKCS_Module_PDU_18, SIZE_PFXPKCS_Module_PDU_19, SIZE_PFXPKCS_Module_PDU_20, SIZE_PFXPKCS_Module_PDU_21, }; /* forward declarations of values: */ /* definitions of value components: */ /* definitions of values: */ ASN1int32_t MacData_macIterationCount_default = 1; void ASN1CALL PFXPKCS_Module_Startup(void) { PFXPKCS_Module = ASN1_CreateModule(0x10000, ASN1_BER_RULE_DER, ASN1FLAGS_NOASSERT, 22, (const ASN1GenericFun_t *) encfntab, (const ASN1GenericFun_t *) decfntab, freefntab, sizetab, 0x70786670); } void ASN1CALL PFXPKCS_Module_Cleanup(void) { ASN1_CloseModule(PFXPKCS_Module); PFXPKCS_Module = NULL; } static int ASN1CALL ASN1Enc_ObjectIdentifierType(ASN1encoding_t enc, ASN1uint32_t tag, ObjectIdentifierType *val) { if (!ASN1BEREncObjectIdentifier2(enc, tag ? tag : 0x6, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_ObjectIdentifierType(ASN1decoding_t dec, ASN1uint32_t tag, ObjectIdentifierType *val) { if (!ASN1BERDecObjectIdentifier2(dec, tag ? tag : 0x6, val)) return 0; return 1; } static void ASN1CALL ASN1Free_ObjectIdentifierType(ObjectIdentifierType *val) { if (val) { } } static int ASN1CALL ASN1Enc_OctetStringType(ASN1encoding_t enc, ASN1uint32_t tag, OctetStringType *val) { if (!ASN1DEREncOctetString(enc, tag ? tag : 0x4, (val)->length, (val)->value)) return 0; return 1; } static int ASN1CALL ASN1Dec_OctetStringType(ASN1decoding_t dec, ASN1uint32_t tag, OctetStringType *val) { if (!ASN1BERDecOctetString(dec, tag ? tag : 0x4, val)) return 0; return 1; } static void ASN1CALL ASN1Free_OctetStringType(OctetStringType *val) { if (val) { ASN1octetstring_free(val); } } static int ASN1CALL ASN1Enc_IntegerType(ASN1encoding_t enc, ASN1uint32_t tag, IntegerType *val) { if (!ASN1BEREncSX(enc, tag ? tag : 0x2, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_IntegerType(ASN1decoding_t dec, ASN1uint32_t tag, IntegerType *val) { if (!ASN1BERDecSXVal(dec, tag ? tag : 0x2, val)) return 0; return 1; } static void ASN1CALL ASN1Free_IntegerType(IntegerType *val) { if (val) { ASN1intx_free(val); } } static int ASN1CALL ASN1Enc_RSAPublicKey(ASN1encoding_t enc, ASN1uint32_t tag, RSAPublicKey *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->modulus)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->publicExponent)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_RSAPublicKey(ASN1decoding_t dec, ASN1uint32_t tag, RSAPublicKey *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->modulus)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->publicExponent)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_RSAPublicKey(RSAPublicKey *val) { if (val) { ASN1intx_free(&(val)->modulus); ASN1intx_free(&(val)->publicExponent); } } static int ASN1CALL ASN1Enc_RSAPrivateKey(ASN1encoding_t enc, ASN1uint32_t tag, RSAPrivateKey *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->version)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->modulus)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->publicExponent)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->privateExponent)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->prime1)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->prime2)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->exponent1)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->exponent2)) return 0; if (!ASN1BEREncSX(enc, 0x2, &(val)->coefficient)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_RSAPrivateKey(ASN1decoding_t dec, ASN1uint32_t tag, RSAPrivateKey *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecS32Val(dd, 0x2, &(val)->version)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->modulus)) return 0; if (!ASN1BERDecS32Val(dd, 0x2, &(val)->publicExponent)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->privateExponent)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->prime1)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->prime2)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->exponent1)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->exponent2)) return 0; if (!ASN1BERDecSXVal(dd, 0x2, &(val)->coefficient)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_RSAPrivateKey(RSAPrivateKey *val) { if (val) { ASN1intx_free(&(val)->modulus); ASN1intx_free(&(val)->privateExponent); ASN1intx_free(&(val)->prime1); ASN1intx_free(&(val)->prime2); ASN1intx_free(&(val)->exponent1); ASN1intx_free(&(val)->exponent2); ASN1intx_free(&(val)->coefficient); } } static int ASN1CALL ASN1Enc_AlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, AlgorithmIdentifier *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->algorithm)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1BEREncOpenType(enc, &(val)->parameters)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_AlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, AlgorithmIdentifier *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->algorithm)) return 0; if (ASN1BERDecPeekTag(dd, &t)) { (val)->o[0] |= 0x80; if (!ASN1BERDecOpenType(dd, &(val)->parameters)) return 0; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_AlgorithmIdentifier(AlgorithmIdentifier *val) { if (val) { if ((val)->o[0] & 0x80) { ASN1open_free(&(val)->parameters); } } } static int ASN1CALL ASN1Enc_PBEParameter(ASN1encoding_t enc, ASN1uint32_t tag, PBEParameter *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1DEREncOctetString(enc, 0x4, ((val)->salt).length, ((val)->salt).value)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->iterationCount)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_PBEParameter(ASN1decoding_t dec, ASN1uint32_t tag, PBEParameter *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecOctetString(dd, 0x4, &(val)->salt)) return 0; if (!ASN1BERDecS32Val(dd, 0x2, &(val)->iterationCount)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_PBEParameter(PBEParameter *val) { if (val) { ASN1octetstring_free(&(val)->salt); } } static int ASN1CALL ASN1Enc_DigestAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, DigestAlgorithmIdentifier *val) { if (!ASN1Enc_AlgorithmIdentifier(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_DigestAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, DigestAlgorithmIdentifier *val) { if (!ASN1Dec_AlgorithmIdentifier(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_DigestAlgorithmIdentifier(DigestAlgorithmIdentifier *val) { if (val) { ASN1Free_AlgorithmIdentifier(val); } } static int ASN1CALL ASN1Enc_AttributeSetValue(ASN1encoding_t enc, ASN1uint32_t tag, AttributeSetValue *val) { ASN1uint32_t nLenOff; void *pBlk; ASN1uint32_t i; ASN1encoding_t enc2; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x11, &nLenOff)) return 0; if (!ASN1DEREncBeginBlk(enc, ASN1_DER_SET_OF_BLOCK, &pBlk)) return 0; for (i = 0; i < (val)->count; i++) { if (!ASN1DEREncNewBlkElement(pBlk, &enc2)) return 0; if (!ASN1BEREncOpenType(enc2, &((val)->value)[i])) return 0; if (!ASN1DEREncFlushBlkElement(pBlk)) return 0; } if (!ASN1DEREncEndBlk(pBlk)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_AttributeSetValue(ASN1decoding_t dec, ASN1uint32_t tag, AttributeSetValue *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; ASN1uint32_t n; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x11, &dd, &di)) return 0; (val)->count = n = 0; (val)->value = NULL; while (ASN1BERDecNotEndOfContents(dd, di)) { if (!ASN1BERDecPeekTag(dd, &t)) return 0; if ((val)->count >= n) { n = n ? (n << 1) : 16; if (!((val)->value = (AttributeSetValue_Set *)ASN1DecRealloc(dd, (val)->value, n * sizeof(*(val)->value)))) return 0; } if (!ASN1BERDecOpenType(dd, &((val)->value)[(val)->count])) return 0; ((val)->count)++; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_AttributeSetValue(AttributeSetValue *val) { ASN1uint32_t i; if (val) { ASN1open_free(&(val)->value[0]); for (i = 1; i < (val)->count; i++) { ASN1open_free(&(val)->value[i]); } ASN1Free((val)->value); } } static int ASN1CALL ASN1Enc_Attribute(ASN1encoding_t enc, ASN1uint32_t tag, Attribute *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->attributeType)) return 0; if (!ASN1Enc_AttributeSetValue(enc, 0, &(val)->attributeValue)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_Attribute(ASN1decoding_t dec, ASN1uint32_t tag, Attribute *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->attributeType)) return 0; if (!ASN1Dec_AttributeSetValue(dd, 0, &(val)->attributeValue)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_Attribute(Attribute *val) { if (val) { ASN1Free_AttributeSetValue(&(val)->attributeValue); } } static int ASN1CALL ASN1Enc_Attributes(ASN1encoding_t enc, ASN1uint32_t tag, Attributes *val) { ASN1uint32_t nLenOff; void *pBlk; ASN1uint32_t i; ASN1encoding_t enc2; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x11, &nLenOff)) return 0; if (!ASN1DEREncBeginBlk(enc, ASN1_DER_SET_OF_BLOCK, &pBlk)) return 0; for (i = 0; i < (val)->count; i++) { if (!ASN1DEREncNewBlkElement(pBlk, &enc2)) return 0; if (!ASN1Enc_Attribute(enc2, 0, &((val)->value)[i])) return 0; if (!ASN1DEREncFlushBlkElement(pBlk)) return 0; } if (!ASN1DEREncEndBlk(pBlk)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_Attributes(ASN1decoding_t dec, ASN1uint32_t tag, Attributes *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; ASN1uint32_t n; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x11, &dd, &di)) return 0; (val)->count = n = 0; (val)->value = NULL; while (ASN1BERDecNotEndOfContents(dd, di)) { if (!ASN1BERDecPeekTag(dd, &t)) return 0; if ((val)->count >= n) { n = n ? (n << 1) : 16; if (!((val)->value = (Attribute *)ASN1DecRealloc(dd, (val)->value, n * sizeof(*(val)->value)))) return 0; } if (!ASN1Dec_Attribute(dd, 0, &((val)->value)[(val)->count])) return 0; ((val)->count)++; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_Attributes(Attributes *val) { ASN1uint32_t i; if (val) { ASN1Free_Attribute(&(val)->value[0]); for (i = 1; i < (val)->count; i++) { ASN1Free_Attribute(&(val)->value[i]); } ASN1Free((val)->value); } } static int ASN1CALL ASN1Enc_ContentInfo(ASN1encoding_t enc, ASN1uint32_t tag, ContentInfo *val) { ASN1uint32_t nLenOff; ASN1uint32_t nLenOff0; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->contentType)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1BEREncExplicitTag(enc, 0x80000000, &nLenOff0)) return 0; if (!ASN1BEREncOpenType(enc, &(val)->content)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff0)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_ContentInfo(ASN1decoding_t dec, ASN1uint32_t tag, ContentInfo *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; ASN1decoding_t dd0; ASN1octet_t *di0; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->contentType)) return 0; if (ASN1BERDecPeekTag(dd, &t)) { if (t == 0x80000000) { (val)->o[0] |= 0x80; if (!ASN1BERDecExplicitTag(dd, 0x80000000, &dd0, &di0)) return 0; if (!ASN1BERDecOpenType(dd0, &(val)->content)) return 0; if (!ASN1BERDecEndOfContents(dd, dd0, di0)) return 0; } } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_ContentInfo(ContentInfo *val) { if (val) { if ((val)->o[0] & 0x80) { ASN1open_free(&(val)->content); } } } static int ASN1CALL ASN1Enc_AuthenticatedSafes(ASN1encoding_t enc, ASN1uint32_t tag, AuthenticatedSafes *val) { ASN1uint32_t nLenOff; ASN1uint32_t i; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; for (i = 0; i < (val)->count; i++) { if (!ASN1Enc_ContentInfo(enc, 0, &((val)->value)[i])) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_AuthenticatedSafes(ASN1decoding_t dec, ASN1uint32_t tag, AuthenticatedSafes *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; ASN1uint32_t n; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; (val)->count = n = 0; (val)->value = NULL; while (ASN1BERDecNotEndOfContents(dd, di)) { if (!ASN1BERDecPeekTag(dd, &t)) return 0; if ((val)->count >= n) { n = n ? (n << 1) : 16; if (!((val)->value = (ContentInfo *)ASN1DecRealloc(dd, (val)->value, n * sizeof(*(val)->value)))) return 0; } if (!ASN1Dec_ContentInfo(dd, 0, &((val)->value)[(val)->count])) return 0; ((val)->count)++; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_AuthenticatedSafes(AuthenticatedSafes *val) { ASN1uint32_t i; if (val) { ASN1Free_ContentInfo(&(val)->value[0]); for (i = 1; i < (val)->count; i++) { ASN1Free_ContentInfo(&(val)->value[i]); } ASN1Free((val)->value); } } static int ASN1CALL ASN1Enc_SafeContents(ASN1encoding_t enc, ASN1uint32_t tag, SafeContents *val) { ASN1uint32_t nLenOff; ASN1uint32_t i; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; for (i = 0; i < (val)->count; i++) { if (!ASN1Enc_SafeBag(enc, 0, &((val)->value)[i])) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_SafeContents(ASN1decoding_t dec, ASN1uint32_t tag, SafeContents *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; ASN1uint32_t n; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; (val)->count = n = 0; (val)->value = NULL; while (ASN1BERDecNotEndOfContents(dd, di)) { if (!ASN1BERDecPeekTag(dd, &t)) return 0; if ((val)->count >= n) { n = n ? (n << 1) : 16; if (!((val)->value = (SafeBag *)ASN1DecRealloc(dd, (val)->value, n * sizeof(*(val)->value)))) return 0; } if (!ASN1Dec_SafeBag(dd, 0, &((val)->value)[(val)->count])) return 0; ((val)->count)++; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_SafeContents(SafeContents *val) { ASN1uint32_t i; if (val) { ASN1Free_SafeBag(&(val)->value[0]); for (i = 1; i < (val)->count; i++) { ASN1Free_SafeBag(&(val)->value[i]); } ASN1Free((val)->value); } } static int ASN1CALL ASN1Enc_SafeBag(ASN1encoding_t enc, ASN1uint32_t tag, SafeBag *val) { ASN1uint32_t nLenOff; ASN1uint32_t nLenOff0; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->safeBagType)) return 0; if (!ASN1BEREncExplicitTag(enc, 0x80000000, &nLenOff0)) return 0; if (!ASN1BEREncOpenType(enc, &(val)->safeBagContent)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff0)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1Enc_Attributes(enc, 0, &(val)->safeBagAttribs)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_SafeBag(ASN1decoding_t dec, ASN1uint32_t tag, SafeBag *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1decoding_t dd0; ASN1octet_t *di0; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->safeBagType)) return 0; if (!ASN1BERDecExplicitTag(dd, 0x80000000, &dd0, &di0)) return 0; if (!ASN1BERDecOpenType(dd0, &(val)->safeBagContent)) return 0; if (!ASN1BERDecEndOfContents(dd, dd0, di0)) return 0; ASN1BERDecPeekTag(dd, &t); if (t == 0x11) { (val)->o[0] |= 0x80; if (!ASN1Dec_Attributes(dd, 0, &(val)->safeBagAttribs)) return 0; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_SafeBag(SafeBag *val) { if (val) { ASN1open_free(&(val)->safeBagContent); if ((val)->o[0] & 0x80) { ASN1Free_Attributes(&(val)->safeBagAttribs); } } } static int ASN1CALL ASN1Enc_CertBag(ASN1encoding_t enc, ASN1uint32_t tag, CertBag *val) { ASN1uint32_t nLenOff; ASN1uint32_t nLenOff0; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->certType)) return 0; if (!ASN1BEREncExplicitTag(enc, 0x80000000, &nLenOff0)) return 0; if (!ASN1BEREncOpenType(enc, &(val)->value)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff0)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_CertBag(ASN1decoding_t dec, ASN1uint32_t tag, CertBag *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1decoding_t dd0; ASN1octet_t *di0; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->certType)) return 0; if (!ASN1BERDecExplicitTag(dd, 0x80000000, &dd0, &di0)) return 0; if (!ASN1BERDecOpenType(dd0, &(val)->value)) return 0; if (!ASN1BERDecEndOfContents(dd, dd0, di0)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_CertBag(CertBag *val) { if (val) { ASN1open_free(&(val)->value); } } static int ASN1CALL ASN1Enc_CRLBag(ASN1encoding_t enc, ASN1uint32_t tag, CRLBag *val) { ASN1uint32_t nLenOff; ASN1uint32_t nLenOff0; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->crlType)) return 0; if (!ASN1BEREncExplicitTag(enc, 0x80000000, &nLenOff0)) return 0; if (!ASN1BEREncOpenType(enc, &(val)->value)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff0)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_CRLBag(ASN1decoding_t dec, ASN1uint32_t tag, CRLBag *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1decoding_t dd0; ASN1octet_t *di0; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->crlType)) return 0; if (!ASN1BERDecExplicitTag(dd, 0x80000000, &dd0, &di0)) return 0; if (!ASN1BERDecOpenType(dd0, &(val)->value)) return 0; if (!ASN1BERDecEndOfContents(dd, dd0, di0)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_CRLBag(CRLBag *val) { if (val) { ASN1open_free(&(val)->value); } } static int ASN1CALL ASN1Enc_SecretBag(ASN1encoding_t enc, ASN1uint32_t tag, SecretBag *val) { ASN1uint32_t nLenOff; ASN1uint32_t nLenOff0; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->secretType)) return 0; if (!ASN1BEREncExplicitTag(enc, 0x80000000, &nLenOff0)) return 0; if (!ASN1BEREncOpenType(enc, &(val)->secretContent)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff0)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_SecretBag(ASN1decoding_t dec, ASN1uint32_t tag, SecretBag *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1decoding_t dd0; ASN1octet_t *di0; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->secretType)) return 0; if (!ASN1BERDecExplicitTag(dd, 0x80000000, &dd0, &di0)) return 0; if (!ASN1BERDecOpenType(dd0, &(val)->secretContent)) return 0; if (!ASN1BERDecEndOfContents(dd, dd0, di0)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_SecretBag(SecretBag *val) { if (val) { ASN1open_free(&(val)->secretContent); } } static int ASN1CALL ASN1Enc_PrivateKeyAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, PrivateKeyAlgorithmIdentifier *val) { if (!ASN1Enc_AlgorithmIdentifier(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_PrivateKeyAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, PrivateKeyAlgorithmIdentifier *val) { if (!ASN1Dec_AlgorithmIdentifier(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_PrivateKeyAlgorithmIdentifier(PrivateKeyAlgorithmIdentifier *val) { if (val) { ASN1Free_AlgorithmIdentifier(val); } } static int ASN1CALL ASN1Enc_EncryptionAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, EncryptionAlgorithmIdentifier *val) { if (!ASN1Enc_AlgorithmIdentifier(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_EncryptionAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, EncryptionAlgorithmIdentifier *val) { if (!ASN1Dec_AlgorithmIdentifier(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_EncryptionAlgorithmIdentifier(EncryptionAlgorithmIdentifier *val) { if (val) { ASN1Free_AlgorithmIdentifier(val); } } static int ASN1CALL ASN1Enc_ContentEncryptionAlgorithmIdentifier(ASN1encoding_t enc, ASN1uint32_t tag, ContentEncryptionAlgorithmIdentifier *val) { if (!ASN1Enc_AlgorithmIdentifier(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_ContentEncryptionAlgorithmIdentifier(ASN1decoding_t dec, ASN1uint32_t tag, ContentEncryptionAlgorithmIdentifier *val) { if (!ASN1Dec_AlgorithmIdentifier(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_ContentEncryptionAlgorithmIdentifier(ContentEncryptionAlgorithmIdentifier *val) { if (val) { ASN1Free_AlgorithmIdentifier(val); } } static int ASN1CALL ASN1Enc_DigestInfo(ASN1encoding_t enc, ASN1uint32_t tag, DigestInfo *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1Enc_DigestAlgorithmIdentifier(enc, 0, &(val)->digestAlgorithm)) return 0; if (!ASN1DEREncOctetString(enc, 0x4, ((val)->digest).length, ((val)->digest).value)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_DigestInfo(ASN1decoding_t dec, ASN1uint32_t tag, DigestInfo *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1Dec_DigestAlgorithmIdentifier(dd, 0, &(val)->digestAlgorithm)) return 0; if (!ASN1BERDecOctetString(dd, 0x4, &(val)->digest)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_DigestInfo(DigestInfo *val) { if (val) { ASN1Free_DigestAlgorithmIdentifier(&(val)->digestAlgorithm); ASN1octetstring_free(&(val)->digest); } } static int ASN1CALL ASN1Enc_MacData(ASN1encoding_t enc, ASN1uint32_t tag, MacData *val) { ASN1uint32_t nLenOff; ASN1octet_t o[1]; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; CopyMemory(o, (val)->o, 1); if ((val)->macIterationCount == 1) o[0] &= ~0x80; if (!ASN1Enc_DigestInfo(enc, 0, &(val)->safeMac)) return 0; if (!ASN1DEREncOctetString(enc, 0x4, ((val)->macSalt).length, ((val)->macSalt).value)) return 0; if (o[0] & 0x80) { if (!ASN1BEREncS32(enc, 0x2, (val)->macIterationCount)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_MacData(ASN1decoding_t dec, ASN1uint32_t tag, MacData *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1Dec_DigestInfo(dd, 0, &(val)->safeMac)) return 0; if (!ASN1BERDecOctetString(dd, 0x4, &(val)->macSalt)) return 0; ASN1BERDecPeekTag(dd, &t); if (t == 0x2) { (val)->o[0] |= 0x80; if (!ASN1BERDecS32Val(dd, 0x2, &(val)->macIterationCount)) return 0; } if (!((val)->o[0] & 0x80)) (val)->macIterationCount = 1; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_MacData(MacData *val) { if (val) { ASN1Free_DigestInfo(&(val)->safeMac); ASN1octetstring_free(&(val)->macSalt); } } static int ASN1CALL ASN1Enc_PrivateKeyInfo(ASN1encoding_t enc, ASN1uint32_t tag, PrivateKeyInfo *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->version)) return 0; if (!ASN1Enc_PrivateKeyAlgorithmIdentifier(enc, 0, &(val)->privateKeyAlgorithm)) return 0; if (!ASN1DEREncOctetString(enc, 0x4, ((val)->privateKey).length, ((val)->privateKey).value)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1Enc_Attributes(enc, 0x80000000, &(val)->attributes)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_PrivateKeyInfo(ASN1decoding_t dec, ASN1uint32_t tag, PrivateKeyInfo *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecS32Val(dd, 0x2, &(val)->version)) return 0; if (!ASN1Dec_PrivateKeyAlgorithmIdentifier(dd, 0, &(val)->privateKeyAlgorithm)) return 0; if (!ASN1BERDecOctetString(dd, 0x4, &(val)->privateKey)) return 0; ASN1BERDecPeekTag(dd, &t); if (t == 0x80000000) { (val)->o[0] |= 0x80; if (!ASN1Dec_Attributes(dd, 0x80000000, &(val)->attributes)) return 0; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_PrivateKeyInfo(PrivateKeyInfo *val) { if (val) { ASN1Free_PrivateKeyAlgorithmIdentifier(&(val)->privateKeyAlgorithm); ASN1octetstring_free(&(val)->privateKey); if ((val)->o[0] & 0x80) { ASN1Free_Attributes(&(val)->attributes); } } } static int ASN1CALL ASN1Enc_EncryptedContentInfo(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedContentInfo *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncObjectIdentifier2(enc, 0x6, &(val)->contentType)) return 0; if (!ASN1Enc_ContentEncryptionAlgorithmIdentifier(enc, 0, &(val)->contentEncryptionAlg)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1DEREncOctetString(enc, 0x80000000, ((val)->encryptedContent).length, ((val)->encryptedContent).value)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_EncryptedContentInfo(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedContentInfo *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecObjectIdentifier2(dd, 0x6, &(val)->contentType)) return 0; if (!ASN1Dec_ContentEncryptionAlgorithmIdentifier(dd, 0, &(val)->contentEncryptionAlg)) return 0; ASN1BERDecPeekTag(dd, &t); if (t == 0x80000000) { (val)->o[0] |= 0x80; if (!ASN1BERDecOctetString(dd, 0x80000000, &(val)->encryptedContent)) return 0; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_EncryptedContentInfo(EncryptedContentInfo *val) { if (val) { ASN1Free_ContentEncryptionAlgorithmIdentifier(&(val)->contentEncryptionAlg); if ((val)->o[0] & 0x80) { ASN1octetstring_free(&(val)->encryptedContent); } } } static int ASN1CALL ASN1Enc_PFX(ASN1encoding_t enc, ASN1uint32_t tag, PFX *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->version)) return 0; if (!ASN1Enc_ContentInfo(enc, 0, &(val)->authSafes)) return 0; if ((val)->o[0] & 0x80) { if (!ASN1Enc_MacData(enc, 0, &(val)->macData)) return 0; } if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_PFX(ASN1decoding_t dec, ASN1uint32_t tag, PFX *val) { ASN1decoding_t dd; ASN1octet_t *di; ASN1uint32_t t; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; ZeroMemory((val)->o, 1); if (!ASN1BERDecS32Val(dd, 0x2, &(val)->version)) return 0; if (!ASN1Dec_ContentInfo(dd, 0, &(val)->authSafes)) return 0; ASN1BERDecPeekTag(dd, &t); if (t == 0x10) { (val)->o[0] |= 0x80; if (!ASN1Dec_MacData(dd, 0, &(val)->macData)) return 0; } if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_PFX(PFX *val) { if (val) { ASN1Free_ContentInfo(&(val)->authSafes); if ((val)->o[0] & 0x80) { ASN1Free_MacData(&(val)->macData); } } } static int ASN1CALL ASN1Enc_KeyBag(ASN1encoding_t enc, ASN1uint32_t tag, KeyBag *val) { if (!ASN1Enc_PrivateKeyInfo(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_KeyBag(ASN1decoding_t dec, ASN1uint32_t tag, KeyBag *val) { if (!ASN1Dec_PrivateKeyInfo(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_KeyBag(KeyBag *val) { if (val) { ASN1Free_PrivateKeyInfo(val); } } static int ASN1CALL ASN1Enc_EncryptedData(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedData *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1BEREncS32(enc, 0x2, (val)->version)) return 0; if (!ASN1Enc_EncryptedContentInfo(enc, 0, &(val)->encryptedContentInfo)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_EncryptedData(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedData *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1BERDecS32Val(dd, 0x2, &(val)->version)) return 0; if (!ASN1Dec_EncryptedContentInfo(dd, 0, &(val)->encryptedContentInfo)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_EncryptedData(EncryptedData *val) { if (val) { ASN1Free_EncryptedContentInfo(&(val)->encryptedContentInfo); } } static int ASN1CALL ASN1Enc_EncryptedPrivateKeyInfo(ASN1encoding_t enc, ASN1uint32_t tag, EncryptedPrivateKeyInfo *val) { ASN1uint32_t nLenOff; if (!ASN1BEREncExplicitTag(enc, tag ? tag : 0x10, &nLenOff)) return 0; if (!ASN1Enc_EncryptionAlgorithmIdentifier(enc, 0, &(val)->encryptionAlgorithm)) return 0; if (!ASN1Enc_EncryptedData(enc, 0, &(val)->encryptedData)) return 0; if (!ASN1BEREncEndOfContents(enc, nLenOff)) return 0; return 1; } static int ASN1CALL ASN1Dec_EncryptedPrivateKeyInfo(ASN1decoding_t dec, ASN1uint32_t tag, EncryptedPrivateKeyInfo *val) { ASN1decoding_t dd; ASN1octet_t *di; if (!ASN1BERDecExplicitTag(dec, tag ? tag : 0x10, &dd, &di)) return 0; if (!ASN1Dec_EncryptionAlgorithmIdentifier(dd, 0, &(val)->encryptionAlgorithm)) return 0; if (!ASN1Dec_EncryptedData(dd, 0, &(val)->encryptedData)) return 0; if (!ASN1BERDecEndOfContents(dec, dd, di)) return 0; return 1; } static void ASN1CALL ASN1Free_EncryptedPrivateKeyInfo(EncryptedPrivateKeyInfo *val) { if (val) { ASN1Free_EncryptionAlgorithmIdentifier(&(val)->encryptionAlgorithm); ASN1Free_EncryptedData(&(val)->encryptedData); } } static int ASN1CALL ASN1Enc_Pkcs_8ShroudedKeyBag(ASN1encoding_t enc, ASN1uint32_t tag, Pkcs_8ShroudedKeyBag *val) { if (!ASN1Enc_EncryptedPrivateKeyInfo(enc, tag, val)) return 0; return 1; } static int ASN1CALL ASN1Dec_Pkcs_8ShroudedKeyBag(ASN1decoding_t dec, ASN1uint32_t tag, Pkcs_8ShroudedKeyBag *val) { if (!ASN1Dec_EncryptedPrivateKeyInfo(dec, tag, val)) return 0; return 1; } static void ASN1CALL ASN1Free_Pkcs_8ShroudedKeyBag(Pkcs_8ShroudedKeyBag *val) { if (val) { ASN1Free_EncryptedPrivateKeyInfo(val); } }