/* Copyright (C) Boris Nikolaus, Germany, 1996-1997. All rights reserved. */ /* Copyright (C) Microsoft Corporation 1997-1998, All rights reserved. */ #ifndef __MS_ASN1_H__ #define __MS_ASN1_H__ #include /* Assume 8 byte packing throughout */ #ifdef __cplusplus extern "C" { #endif /* ------ Basic integer types ------ */ typedef unsigned char ASN1uint8_t; typedef signed char ASN1int8_t; typedef unsigned short ASN1uint16_t; typedef signed short ASN1int16_t; typedef unsigned long ASN1uint32_t; typedef signed long ASN1int32_t; /* ------ Function modifiers ------ */ #ifdef ASN1LIB #define ASN1_PUBLIC #elif defined(ASN1C) #define ASN1_PUBLIC #else #define ASN1_PUBLIC __declspec(dllimport) #endif #define ASN1API __stdcall #define ASN1CALL __stdcall /* ------ Basic ASN.1 types ------ */ typedef ASN1uint8_t ASN1octet_t; typedef ASN1uint8_t ASN1bool_t; typedef struct tagASN1intx_t { ASN1uint32_t length; ASN1octet_t *value; } ASN1intx_t; typedef struct tagASN1octetstring_t { ASN1uint32_t length; ASN1octet_t *value; } ASN1octetstring_t; typedef struct tagASN1octetstring2_t { ASN1uint32_t length; ASN1octet_t value[1]; } ASN1octetstring2_t; typedef struct ASN1iterator_s { struct ASN1iterator_s *next; void *value; } ASN1iterator_t; typedef struct tagASN1bitstring_t { ASN1uint32_t length; ASN1octet_t *value; } ASN1bitstring_t; typedef char ASN1char_t; typedef struct tagASN1charstring_t { ASN1uint32_t length; ASN1char_t *value; } ASN1charstring_t; typedef ASN1uint16_t ASN1char16_t; typedef struct tagASN1char16string_t { ASN1uint32_t length; ASN1char16_t *value; } ASN1char16string_t; typedef ASN1uint32_t ASN1char32_t; typedef struct tagASN1char32string_t { ASN1uint32_t length; ASN1char32_t *value; } ASN1char32string_t; typedef ASN1char_t *ASN1ztcharstring_t; typedef ASN1char16_t *ASN1ztchar16string_t; typedef ASN1char32_t *ASN1ztchar32string_t; typedef struct tagASN1wstring_t { ASN1uint32_t length; WCHAR *value; } ASN1wstring_t; typedef struct ASN1objectidentifier_s { struct ASN1objectidentifier_s *next; ASN1uint32_t value; } *ASN1objectidentifier_t; typedef struct tagASN1objectidentifier2_t { ASN1uint16_t count; ASN1uint32_t value[16]; } ASN1objectidentifier2_t; typedef struct tagASN1encodedOID_t { ASN1uint16_t length; ASN1octet_t *value; } ASN1encodedOID_t; typedef struct tagASN1stringtableentry_t { ASN1char32_t lower; ASN1char32_t upper; ASN1uint32_t value; } ASN1stringtableentry_t; typedef struct tagASN1stringtable_t { ASN1uint32_t length; ASN1stringtableentry_t *values; } ASN1stringtable_t; typedef ASN1ztcharstring_t ASN1objectdescriptor_t; typedef struct tagASN1generalizedtime_t { ASN1uint16_t year; ASN1uint8_t month; ASN1uint8_t day; ASN1uint8_t hour; ASN1uint8_t minute; ASN1uint8_t second; ASN1uint16_t millisecond; ASN1bool_t universal; ASN1int16_t diff; } ASN1generalizedtime_t; typedef struct tagASN1utctime_t { ASN1uint8_t year; ASN1uint8_t month; ASN1uint8_t day; ASN1uint8_t hour; ASN1uint8_t minute; ASN1uint8_t second; ASN1bool_t universal; ASN1int16_t diff; } ASN1utctime_t; typedef struct tagASN1open_t { // encoded ASN1uint32_t length; union { void *encoded; void *value; }; } ASN1open_t; typedef enum tagASN1blocktype_e { ASN1_DER_SET_OF_BLOCK, } ASN1blocktype_e; typedef ASN1int32_t ASN1enum_t; // enumerated type typedef ASN1uint16_t ASN1choice_t; // choice typedef ASN1uint32_t ASN1magic_t; /* ------ Current version of this ASN.1 software ------ */ #define ASN1_MAKE_VERSION(major,minor) (((major) << 16) | (minor)) #define ASN1_THIS_VERSION ASN1_MAKE_VERSION(1,0) enum { ASN1_CHOICE_BASE = 1, ASN1_CHOICE_INVALID = -1, // invalid choice ASN1_CHOICE_EXTENSION = 0, // extension choice }; /* Error codes for decoding functions: - err == 0: data has been successfully decoded - err < 0: fatal error has occured, no data has been generated err contains the error number - err > 0: non-fatal event has occured, data has been generated err is a bit set of occured events */ typedef enum tagASN1error_e { ASN1_SUCCESS = 0, /* success */ // Teles specific error codes ASN1_ERR_INTERNAL = (-1001), /* internal error */ ASN1_ERR_EOD = (-1002), /* unexpected end of data */ ASN1_ERR_CORRUPT = (-1003), /* corrupted data */ ASN1_ERR_LARGE = (-1004), /* value too large */ ASN1_ERR_CONSTRAINT = (-1005), /* constraint violated */ ASN1_ERR_MEMORY = (-1006), /* out of memory */ ASN1_ERR_OVERFLOW = (-1007), /* buffer overflow */ ASN1_ERR_BADPDU = (-1008), /* function not supported for this pdu*/ ASN1_ERR_BADARGS = (-1009), /* bad arguments to function call */ ASN1_ERR_BADREAL = (-1010), /* bad real value */ ASN1_ERR_BADTAG = (-1011), /* bad tag value met */ ASN1_ERR_CHOICE = (-1012), /* bad choice value */ ASN1_ERR_RULE = (-1013), /* bad encoding rule */ ASN1_ERR_UTF8 = (-1014), /* bad unicode (utf8) */ // New error codes ASN1_ERR_PDU_TYPE = (-1051), /* bad pdu type */ ASN1_ERR_NYI = (-1052), /* not yet implemented */ // Teles specific warning codes ASN1_WRN_EXTENDED = 1001, /* skipped unknown extension(s) */ ASN1_WRN_NOEOD = 1002, /* end of data expected */ } ASN1error_e; #define ASN1_SUCCEEDED(ret) (((int) (ret)) >= 0) #define ASN1_FAILED(ret) (((int) (ret)) < 0) /* ------ Encoding rules ------ */ typedef enum { ASN1_PER_RULE_ALIGNED = 0x0001, ASN1_PER_RULE_UNALIGNED = 0x0002, // not supported ASN1_PER_RULE = ASN1_PER_RULE_ALIGNED | ASN1_PER_RULE_UNALIGNED, ASN1_BER_RULE_BER = 0x0100, ASN1_BER_RULE_CER = 0x0200, ASN1_BER_RULE_DER = 0x0400, ASN1_BER_RULE = ASN1_BER_RULE_BER | ASN1_BER_RULE_CER | ASN1_BER_RULE_DER, } ASN1encodingrule_e; /* ------ public structures ------ */ typedef struct ASN1encoding_s *ASN1encoding_t; typedef struct ASN1decoding_s *ASN1decoding_t; typedef ASN1int32_t (ASN1CALL *ASN1PerEncFun_t)(ASN1encoding_t enc, void *data); typedef ASN1int32_t (ASN1CALL *ASN1PerDecFun_t)(ASN1decoding_t enc, void *data); typedef struct tagASN1PerFunArr_t { const ASN1PerEncFun_t *apfnEncoder; const ASN1PerDecFun_t *apfnDecoder; } ASN1PerFunArr_t; typedef ASN1int32_t (ASN1CALL *ASN1BerEncFun_t)(ASN1encoding_t enc, ASN1uint32_t tag, void *data); typedef ASN1int32_t (ASN1CALL *ASN1BerDecFun_t)(ASN1decoding_t enc, ASN1uint32_t tag, void *data); typedef struct tagASN1BerFunArr_t { const ASN1BerEncFun_t *apfnEncoder; const ASN1BerDecFun_t *apfnDecoder; } ASN1BerFunArr_t; typedef void (ASN1CALL *ASN1GenericFun_t)(void); typedef void (ASN1CALL *ASN1FreeFun_t)(void *data); typedef struct tagASN1module_t { ASN1magic_t nModuleName; ASN1encodingrule_e eRule; ASN1uint32_t dwFlags; ASN1uint32_t cPDUs; const ASN1FreeFun_t *apfnFreeMemory; const ASN1uint32_t *acbStructSize; union { ASN1PerFunArr_t PER; ASN1BerFunArr_t BER; }; } *ASN1module_t; struct ASN1encoding_s { ASN1magic_t magic; /* magic for this structure */ ASN1uint32_t version;/* version number of this library */ ASN1module_t module; /* module this encoding_t depends to */ ASN1octet_t *buf; /* buffer to encode into */ ASN1uint32_t size; /* current size of buffer */ ASN1uint32_t len; /* len of encoded data in buffer */ ASN1error_e err; /* error code for last encoding */ ASN1uint32_t bit; ASN1octet_t *pos; ASN1uint32_t cbExtraHeader; ASN1encodingrule_e eRule; ASN1uint32_t dwFlags; }; struct ASN1decoding_s { ASN1magic_t magic; /* magic for this structure */ ASN1uint32_t version;/* version number of this library */ ASN1module_t module; /* module this decoding_t depends to */ ASN1octet_t *buf; /* buffer to decode from */ ASN1uint32_t size; /* size of buffer */ ASN1uint32_t len; /* len of decoded data in buffer */ ASN1error_e err; /* error code for last decoding */ ASN1uint32_t bit; ASN1octet_t *pos; ASN1encodingrule_e eRule; ASN1uint32_t dwFlags; }; /* --- flags for functions --- */ #define ASN1DECFREE_NON_PDU_ID ((ASN1uint32_t) -1) enum { ASN1FLAGS_NONE = 0x00000000L, /* no flags */ ASN1FLAGS_NOASSERT = 0x00001000L, /* no asertion */ }; enum { ASN1ENCODE_APPEND = 0x00000001L, /* append to current buffer*/ ASN1ENCODE_REUSEBUFFER = 0x00000004L, /* empty destination buffer */ ASN1ENCODE_SETBUFFER = 0x00000008L, /* use a user-given destination buffer */ ASN1ENCODE_ALLOCATEBUFFER = 0x00000010L, /* do not free/reuse buffer */ ASN1ENCODE_NOASSERT = ASN1FLAGS_NOASSERT, /* no asertion */ }; enum { ASN1DECODE_APPENDED = 0x00000001L, /* continue behind last pdu*/ ASN1DECODE_REWINDBUFFER = 0x00000004L, /* rescan from buffer start*/ ASN1DECODE_SETBUFFER = 0x00000008L, /* use a user-given src buffer */ ASN1DECODE_AUTOFREEBUFFER = 0x00000010L, /* Assume responsibility for allocated buffer */ ASN1DECODE_NOASSERT = ASN1FLAGS_NOASSERT, /* no asertion */ }; /* ------ public basic ASN.1 API ------ */ extern ASN1_PUBLIC ASN1module_t ASN1API ASN1_CreateModule ( ASN1uint32_t nVersion, ASN1encodingrule_e eRule, ASN1uint32_t dwFlags, /* ASN1FLAGS_NONE or ASN1FLAGS_NOASSERT */ ASN1uint32_t cPDU, const ASN1GenericFun_t apfnEncoder[], const ASN1GenericFun_t apfnDecoder[], const ASN1FreeFun_t apfnFreeMemory[], const ASN1uint32_t acbStructSize[], ASN1magic_t nModuleName ); extern ASN1_PUBLIC void ASN1API ASN1_CloseModule ( ASN1module_t pModule ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_CreateEncoder ( ASN1module_t pModule, ASN1encoding_t *ppEncoderInfo, ASN1octet_t *pbBuf, ASN1uint32_t cbBufSize, ASN1encoding_t pParent ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_Encode ( ASN1encoding_t pEncoderInfo, void *pDataStruct, ASN1uint32_t nPduNum, ASN1uint32_t dwFlags, ASN1octet_t *pbBuf, ASN1uint32_t cbBufSize ); extern ASN1_PUBLIC void ASN1API ASN1_CloseEncoder ( ASN1encoding_t pEncoderInfo ); extern ASN1_PUBLIC void ASN1API ASN1_CloseEncoder2 ( ASN1encoding_t pEncoderInfo ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_CreateDecoder ( ASN1module_t pModule, ASN1decoding_t *ppDecoderInfo, ASN1octet_t *pbBuf, ASN1uint32_t cbBufSize, ASN1decoding_t pParent ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_CreateDecoderEx ( ASN1module_t pModule, ASN1decoding_t *ppDecoderInfo, ASN1octet_t *pbBuf, ASN1uint32_t cbBufSize, ASN1decoding_t pParent, ASN1uint32_t dwFlags ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_Decode ( ASN1decoding_t pDecoderInfo, void **ppDataStruct, ASN1uint32_t nPduNum, ASN1uint32_t dwFlags, ASN1octet_t *pbBuf, ASN1uint32_t cbBufSize ); extern ASN1_PUBLIC void ASN1API ASN1_CloseDecoder ( ASN1decoding_t pDecoderInfo ); extern ASN1_PUBLIC void ASN1API ASN1_FreeEncoded ( ASN1encoding_t pEncoderInfo, void *pBuf ); extern ASN1_PUBLIC void ASN1API ASN1_FreeDecoded ( ASN1decoding_t pDecoderInfo, void *pDataStruct, ASN1uint32_t nPduNum ); /* ------ public advanced ASN.1 API ------ */ typedef enum { // common set option ASN1OPT_CHANGE_RULE = 0x101, // common get option ASN1OPT_GET_RULE = 0x201, // set encoder option ASN1OPT_NOT_REUSE_BUFFER = 0x301, ASN1OPT_REWIND_BUFFER = 0x302, // get encoder option // set decoder option ASN1OPT_SET_DECODED_BUFFER = 0x501, ASN1OPT_DEL_DECODED_BUFFER = 0x502, // get decoder option ASN1OPT_GET_DECODED_BUFFER_SIZE = 0x601, } ASN1option_e; typedef struct tagASN1optionparam_t { ASN1option_e eOption; union { ASN1encodingrule_e eRule; ASN1uint32_t cbRequiredDecodedBufSize; struct { ASN1octet_t *pbBuf; ASN1uint32_t cbBufSize; } Buffer; }; } ASN1optionparam_t, ASN1optionparam_s; extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_SetEncoderOption ( ASN1encoding_t pEncoderInfo, ASN1optionparam_t *pOptParam ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_GetEncoderOption ( ASN1encoding_t pEncoderInfo, ASN1optionparam_t *pOptParam ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_SetDecoderOption ( ASN1decoding_t pDecoderInfo, ASN1optionparam_t *pOptParam ); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1_GetDecoderOption ( ASN1decoding_t pDecoderInfo, ASN1optionparam_t *pOptParam ); /* ------ internal ASN.1 API ------ */ extern ASN1_PUBLIC void ASN1API ASN1bitstring_free(ASN1bitstring_t *); extern ASN1_PUBLIC void ASN1API ASN1octetstring_free(ASN1octetstring_t *); extern ASN1_PUBLIC void ASN1API ASN1objectidentifier_free(ASN1objectidentifier_t *); extern ASN1_PUBLIC void ASN1API ASN1charstring_free(ASN1charstring_t *); extern ASN1_PUBLIC void ASN1API ASN1char16string_free(ASN1char16string_t *); extern ASN1_PUBLIC void ASN1API ASN1char32string_free(ASN1char32string_t *); extern ASN1_PUBLIC void ASN1API ASN1ztcharstring_free(ASN1ztcharstring_t); extern ASN1_PUBLIC void ASN1API ASN1ztchar16string_free(ASN1ztchar16string_t); extern ASN1_PUBLIC void ASN1API ASN1ztchar32string_free(ASN1ztchar32string_t); extern ASN1_PUBLIC void ASN1API ASN1open_free(ASN1open_t *); extern ASN1_PUBLIC void ASN1API ASN1utf8string_free(ASN1wstring_t *); extern ASN1_PUBLIC void * ASN1API ASN1DecAlloc(ASN1decoding_t dec, ASN1uint32_t size); extern ASN1_PUBLIC void * ASN1API ASN1DecRealloc(ASN1decoding_t dec, void *ptr, ASN1uint32_t size); extern ASN1_PUBLIC void ASN1API ASN1Free(void *ptr); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1EncSetError(ASN1encoding_t enc, ASN1error_e err); extern ASN1_PUBLIC ASN1error_e ASN1API ASN1DecSetError(ASN1decoding_t dec, ASN1error_e err); extern ASN1_PUBLIC void ASN1API ASN1intx_sub(ASN1intx_t *, ASN1intx_t *, ASN1intx_t *); extern ASN1_PUBLIC ASN1uint32_t ASN1API ASN1intx_uoctets(ASN1intx_t *); extern ASN1_PUBLIC void ASN1API ASN1intx_free(ASN1intx_t *); extern ASN1_PUBLIC void ASN1API ASN1intx_add(ASN1intx_t *, ASN1intx_t *, ASN1intx_t *); extern ASN1_PUBLIC ASN1int32_t ASN1intx2int32(ASN1intx_t *val); extern ASN1_PUBLIC ASN1uint32_t ASN1intx2uint32(ASN1intx_t *val); extern ASN1_PUBLIC int ASN1intxisuint32(ASN1intx_t *val); extern ASN1_PUBLIC void ASN1intx_setuint32(ASN1intx_t *dst, ASN1uint32_t val); extern ASN1_PUBLIC void ASN1API ASN1DbgMemTrackDumpCurrent ( ASN1uint32_t nModuleName ); extern ASN1_PUBLIC ASN1uint32_t ASN1API ASN1uint32_uoctets(ASN1uint32_t); extern ASN1_PUBLIC int ASN1API ASN1objectidentifier_cmp(ASN1objectidentifier_t *v1, ASN1objectidentifier_t *v2); extern ASN1_PUBLIC int ASN1API ASN1objectidentifier2_cmp(ASN1objectidentifier2_t *v1, ASN1objectidentifier2_t *v2); extern ASN1_PUBLIC int ASN1API ASN1bitstring_cmp(ASN1bitstring_t *, ASN1bitstring_t *, int); extern ASN1_PUBLIC int ASN1API ASN1octetstring_cmp(ASN1octetstring_t *, ASN1octetstring_t *); extern ASN1_PUBLIC int ASN1API ASN1objectidentifier_cmp(ASN1objectidentifier_t *, ASN1objectidentifier_t *); extern ASN1_PUBLIC int ASN1API ASN1charstring_cmp(ASN1charstring_t *, ASN1charstring_t *); extern ASN1_PUBLIC int ASN1API ASN1char16string_cmp(ASN1char16string_t *, ASN1char16string_t *); extern ASN1_PUBLIC int ASN1API ASN1char32string_cmp(ASN1char32string_t *, ASN1char32string_t *); extern ASN1_PUBLIC int ASN1API ASN1ztcharstring_cmp(ASN1ztcharstring_t, ASN1ztcharstring_t); extern ASN1_PUBLIC int ASN1API ASN1ztchar16string_cmp(ASN1ztchar16string_t, ASN1ztchar16string_t); extern ASN1_PUBLIC int ASN1API ASN1open_cmp(ASN1open_t *, ASN1open_t *); extern ASN1_PUBLIC int ASN1API ASN1generalizedtime_cmp(ASN1generalizedtime_t *, ASN1generalizedtime_t *); extern ASN1_PUBLIC int ASN1API ASN1utctime_cmp(ASN1utctime_t *, ASN1utctime_t *); /* --------------------------------------------------------- */ /* The following is not supported. */ /* --------------------------------------------------------- */ typedef enum tagASN1real_e { eReal_Normal, eReal_PlusInfinity, eReal_MinusInfinity } ASN1real_e; typedef struct tagASN1real_t { ASN1real_e type; ASN1intx_t mantissa; ASN1uint32_t base; ASN1intx_t exponent; } ASN1real_t; typedef struct tagASN1external_t { # define ASN1external_data_value_descriptor_o 0 ASN1octet_t o[1]; struct ASN1external_identification_s { ASN1uint8_t o; union { # define ASN1external_identification_syntax_o 1 ASN1objectidentifier_t syntax; # define ASN1external_identification_presentation_context_id_o 2 ASN1uint32_t presentation_context_id; # define ASN1external_identification_context_negotiation_o 3 struct ASN1external_identification_context_negotiation_s { ASN1uint32_t presentation_context_id; ASN1objectidentifier_t transfer_syntax; } context_negotiation; } u; } identification; ASN1objectdescriptor_t data_value_descriptor; struct ASN1external_data_value_s { ASN1uint8_t o; union { # define ASN1external_data_value_notation_o 0 ASN1open_t notation; # define ASN1external_data_value_encoded_o 1 ASN1bitstring_t encoded; } u; } data_value; } ASN1external_t; typedef struct ASN1external_identification_s ASN1external_identification_t; typedef struct ASN1external_identification_context_negotiation_s ASN1external_identification_context_negotiation_t; typedef struct ASN1external_data_value_s ASN1external_data_value_t; typedef struct tagASN1embeddedpdv_t { struct ASN1embeddedpdv_identification_s { ASN1uint8_t o; union { # define ASN1embeddedpdv_identification_syntaxes_o 0 struct ASN1embeddedpdv_identification_syntaxes_s { ASN1objectidentifier_t abstract; ASN1objectidentifier_t transfer; } syntaxes; # define ASN1embeddedpdv_identification_syntax_o 1 ASN1objectidentifier_t syntax; # define ASN1embeddedpdv_identification_presentation_context_id_o 2 ASN1uint32_t presentation_context_id; # define ASN1embeddedpdv_identification_context_negotiation_o 3 struct ASN1embeddedpdv_identification_context_negotiation_s { ASN1uint32_t presentation_context_id; ASN1objectidentifier_t transfer_syntax; } context_negotiation; # define ASN1embeddedpdv_identification_transfer_syntax_o 4 ASN1objectidentifier_t transfer_syntax; # define ASN1embeddedpdv_identification_fixed_o 5 } u; } identification; struct ASN1embeddedpdv_data_value_s { ASN1uint8_t o; union { # define ASN1embeddedpdv_data_value_notation_o 0 ASN1open_t notation; # define ASN1embeddedpdv_data_value_encoded_o 1 ASN1bitstring_t encoded; } u; } data_value; } ASN1embeddedpdv_t; typedef struct ASN1embeddedpdv_identification_s ASN1embeddedpdv_identification_t; typedef struct ASN1embeddedpdv_identification_syntaxes_s ASN1embeddedpdv_identification_syntaxes_t; typedef struct ASN1embeddedpdv_identification_context_negotiation_s ASN1embeddedpdv_identification_context_negotiation_t; typedef struct ASN1embeddedpdv_data_value_s ASN1embeddedpdv_data_value_t; typedef struct tagASN1characterstring_t { struct ASN1characterstring_identification_s { ASN1uint8_t o; union { # define ASN1characterstring_identification_syntaxes_o 0 struct ASN1characterstring_identification_syntaxes_s { ASN1objectidentifier_t abstract; ASN1objectidentifier_t transfer; } syntaxes; # define ASN1characterstring_identification_syntax_o 1 ASN1objectidentifier_t syntax; # define ASN1characterstring_identification_presentation_context_id_o 2 ASN1uint32_t presentation_context_id; # define ASN1characterstring_identification_context_negotiation_o 3 struct ASN1characterstring_identification_context_negotiation_s { ASN1uint32_t presentation_context_id; ASN1objectidentifier_t transfer_syntax; } context_negotiation; # define ASN1characterstring_identification_transfer_syntax_o 4 ASN1objectidentifier_t transfer_syntax; # define ASN1characterstring_identification_fixed_o 5 } u; } identification; struct ASN1characterstring_data_value_s { ASN1uint8_t o; union { # define ASN1characterstring_data_value_notation_o 0 ASN1open_t notation; # define ASN1characterstring_data_value_encoded_o 1 ASN1octetstring_t encoded; } u; } data_value; } ASN1characterstring_t; typedef struct ASN1characterstring_identification_s ASN1characterstring_identification_t; typedef struct ASN1characterstring_identification_syntaxes_s ASN1characterstring_identification_syntaxes_t; typedef struct ASN1characterstring_identification_context_negotiation_s ASN1characterstring_identification_context_negotiation_t; typedef struct ASN1characterstring_data_value_s ASN1characterstring_data_value_t; extern ASN1_PUBLIC void ASN1API ASN1real_free(ASN1real_t *); extern ASN1_PUBLIC void ASN1API ASN1external_free(ASN1external_t *); extern ASN1_PUBLIC void ASN1API ASN1embeddedpdv_free(ASN1embeddedpdv_t *); extern ASN1_PUBLIC void ASN1API ASN1characterstring_free(ASN1characterstring_t *); #ifdef __cplusplus } #endif #include /* End 8-byte packing */ #endif // __MS_ASN1_H__