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/* Generated from /usr/src/kerberos5/lib/libasn1/../../../crypto/heimdal/lib/asn1/digest.asn1 */ /* Do not edit */ #ifndef __digest_asn1_h__ #define __digest_asn1_h__ #include <stddef.h> #include <time.h> #ifndef __asn1_common_definitions__ #define __asn1_common_definitions__ typedef struct heim_integer { size_t length; void *data; int negative; } heim_integer; typedef struct heim_octet_string { size_t length; void *data; } heim_octet_string; typedef char *heim_general_string; typedef char *heim_utf8_string; typedef char *heim_printable_string; typedef char *heim_ia5_string; typedef struct heim_bmp_string { size_t length; uint16_t *data; } heim_bmp_string; typedef struct heim_universal_string { size_t length; uint32_t *data; } heim_universal_string; typedef char *heim_visible_string; typedef struct heim_oid { size_t length; unsigned *components; } heim_oid; typedef struct heim_bit_string { size_t length; void *data; } heim_bit_string; typedef struct heim_octet_string heim_any; typedef struct heim_octet_string heim_any_set; #define ASN1_MALLOC_ENCODE(T, B, BL, S, L, R) \ do { \ (BL) = length_##T((S)); \ (B) = malloc((BL)); \ if((B) == NULL) { \ (R) = ENOMEM; \ } else { \ (R) = encode_##T(((unsigned char*)(B)) + (BL) - 1, (BL), \ (S), (L)); \ if((R) != 0) { \ free((B)); \ (B) = NULL; \ } \ } \ } while (0) struct units; #endif #include <krb5_asn1.h> /* DigestTypes ::= BIT STRING { ntlm-v1(0), ntlm-v1-session(1), ntlm-v2(2), digest-md5(3), chap-md5(4), ms-chap-v2(5) } */ typedef struct DigestTypes { unsigned int ntlm_v1:1; unsigned int ntlm_v1_session:1; unsigned int ntlm_v2:1; unsigned int digest_md5:1; unsigned int chap_md5:1; unsigned int ms_chap_v2:1; } DigestTypes; int encode_DigestTypes(unsigned char *, size_t, const DigestTypes *, size_t *); int decode_DigestTypes(const unsigned char *, size_t, DigestTypes *, size_t *); void free_DigestTypes (DigestTypes *); size_t length_DigestTypes(const DigestTypes *); int copy_DigestTypes (const DigestTypes *, DigestTypes *); unsigned DigestTypes2int(DigestTypes); DigestTypes int2DigestTypes(unsigned); #ifdef __PARSE_UNITS_H__ const struct units * asn1_DigestTypes_units(void); #endif /* DigestInit ::= SEQUENCE { type UTF8String, channel [0] SEQUENCE { cb-type UTF8String, cb-binding UTF8String, } OPTIONAL, hostname [1] UTF8String OPTIONAL, } */ typedef struct DigestInit { heim_utf8_string type; struct { heim_utf8_string cb_type; heim_utf8_string cb_binding; } *channel; heim_utf8_string *hostname; } DigestInit; int encode_DigestInit(unsigned char *, size_t, const DigestInit *, size_t *); int decode_DigestInit(const unsigned char *, size_t, DigestInit *, size_t *); void free_DigestInit (DigestInit *); size_t length_DigestInit(const DigestInit *); int copy_DigestInit (const DigestInit *, DigestInit *); /* DigestInitReply ::= SEQUENCE { nonce UTF8String, opaque UTF8String, identifier [0] UTF8String OPTIONAL, } */ typedef struct DigestInitReply { heim_utf8_string nonce; heim_utf8_string opaque; heim_utf8_string *identifier; } DigestInitReply; int encode_DigestInitReply(unsigned char *, size_t, const DigestInitReply *, size_t *); int decode_DigestInitReply(const unsigned char *, size_t, DigestInitReply *, size_t *); void free_DigestInitReply (DigestInitReply *); size_t length_DigestInitReply(const DigestInitReply *); int copy_DigestInitReply (const DigestInitReply *, DigestInitReply *); /* DigestRequest ::= SEQUENCE { type UTF8String, digest UTF8String, username UTF8String, responseData UTF8String, authid [0] UTF8String OPTIONAL, authentication-user [1] Principal OPTIONAL, realm [2] UTF8String OPTIONAL, method [3] UTF8String OPTIONAL, uri [4] UTF8String OPTIONAL, serverNonce UTF8String, clientNonce [5] UTF8String OPTIONAL, nonceCount [6] UTF8String OPTIONAL, qop [7] UTF8String OPTIONAL, identifier [8] UTF8String OPTIONAL, hostname [9] UTF8String OPTIONAL, opaque UTF8String, } */ typedef struct DigestRequest { heim_utf8_string type; heim_utf8_string digest; heim_utf8_string username; heim_utf8_string responseData; heim_utf8_string *authid; Principal *authentication_user; heim_utf8_string *realm; heim_utf8_string *method; heim_utf8_string *uri; heim_utf8_string serverNonce; heim_utf8_string *clientNonce; heim_utf8_string *nonceCount; heim_utf8_string *qop; heim_utf8_string *identifier; heim_utf8_string *hostname; heim_utf8_string opaque; } DigestRequest; int encode_DigestRequest(unsigned char *, size_t, const DigestRequest *, size_t *); int decode_DigestRequest(const unsigned char *, size_t, DigestRequest *, size_t *); void free_DigestRequest (DigestRequest *); size_t length_DigestRequest(const DigestRequest *); int copy_DigestRequest (const DigestRequest *, DigestRequest *); /* DigestError ::= SEQUENCE { reason UTF8String, code INTEGER (-2147483648..2147483647), } */ typedef struct DigestError { heim_utf8_string reason; int code; } DigestError; int encode_DigestError(unsigned char *, size_t, const DigestError *, size_t *); int decode_DigestError(const unsigned char *, size_t, DigestError *, size_t *); void free_DigestError (DigestError *); size_t length_DigestError(const DigestError *); int copy_DigestError (const DigestError *, DigestError *); /* DigestResponse ::= SEQUENCE { success BOOLEAN, rsp [0] UTF8String OPTIONAL, tickets [1] SEQUENCE OF OCTET STRING OPTIONAL, channel [2] SEQUENCE { cb-type UTF8String, cb-binding UTF8String, } OPTIONAL, session-key [3] OCTET STRING OPTIONAL, } */ typedef struct DigestResponse { int success; heim_utf8_string *rsp; struct { unsigned int len; heim_octet_string *val; } *tickets; struct { heim_utf8_string cb_type; heim_utf8_string cb_binding; } *channel; heim_octet_string *session_key; } DigestResponse; int encode_DigestResponse(unsigned char *, size_t, const DigestResponse *, size_t *); int decode_DigestResponse(const unsigned char *, size_t, DigestResponse *, size_t *); void free_DigestResponse (DigestResponse *); size_t length_DigestResponse(const DigestResponse *); int copy_DigestResponse (const DigestResponse *, DigestResponse *); /* NTLMInit ::= SEQUENCE { flags [0] INTEGER (0..-1), hostname [1] UTF8String OPTIONAL, domain [1] UTF8String OPTIONAL, } */ typedef struct NTLMInit { unsigned int flags; heim_utf8_string *hostname; heim_utf8_string *domain; } NTLMInit; int encode_NTLMInit(unsigned char *, size_t, const NTLMInit *, size_t *); int decode_NTLMInit(const unsigned char *, size_t, NTLMInit *, size_t *); void free_NTLMInit (NTLMInit *); size_t length_NTLMInit(const NTLMInit *); int copy_NTLMInit (const NTLMInit *, NTLMInit *); /* NTLMInitReply ::= SEQUENCE { flags [0] INTEGER (0..-1), opaque [1] OCTET STRING, targetname [2] UTF8String, challange [3] OCTET STRING, targetinfo [4] OCTET STRING OPTIONAL, } */ typedef struct NTLMInitReply { unsigned int flags; heim_octet_string opaque; heim_utf8_string targetname; heim_octet_string challange; heim_octet_string *targetinfo; } NTLMInitReply; int encode_NTLMInitReply(unsigned char *, size_t, const NTLMInitReply *, size_t *); int decode_NTLMInitReply(const unsigned char *, size_t, NTLMInitReply *, size_t *); void free_NTLMInitReply (NTLMInitReply *); size_t length_NTLMInitReply(const NTLMInitReply *); int copy_NTLMInitReply (const NTLMInitReply *, NTLMInitReply *); /* NTLMRequest ::= SEQUENCE { flags [0] INTEGER (0..-1), opaque [1] OCTET STRING, username [2] UTF8String, targetname [3] UTF8String, targetinfo [4] OCTET STRING OPTIONAL, lm [5] OCTET STRING, ntlm [6] OCTET STRING, sessionkey [7] OCTET STRING OPTIONAL, } */ typedef struct NTLMRequest { unsigned int flags; heim_octet_string opaque; heim_utf8_string username; heim_utf8_string targetname; heim_octet_string *targetinfo; heim_octet_string lm; heim_octet_string ntlm; heim_octet_string *sessionkey; } NTLMRequest; int encode_NTLMRequest(unsigned char *, size_t, const NTLMRequest *, size_t *); int decode_NTLMRequest(const unsigned char *, size_t, NTLMRequest *, size_t *); void free_NTLMRequest (NTLMRequest *); size_t length_NTLMRequest(const NTLMRequest *); int copy_NTLMRequest (const NTLMRequest *, NTLMRequest *); /* NTLMResponse ::= SEQUENCE { success [0] BOOLEAN, flags [1] INTEGER (0..-1), sessionkey [2] OCTET STRING OPTIONAL, tickets [3] SEQUENCE OF OCTET STRING OPTIONAL, } */ typedef struct NTLMResponse { int success; unsigned int flags; heim_octet_string *sessionkey; struct { unsigned int len; heim_octet_string *val; } *tickets; } NTLMResponse; int encode_NTLMResponse(unsigned char *, size_t, const NTLMResponse *, size_t *); int decode_NTLMResponse(const unsigned char *, size_t, NTLMResponse *, size_t *); void free_NTLMResponse (NTLMResponse *); size_t length_NTLMResponse(const NTLMResponse *); int copy_NTLMResponse (const NTLMResponse *, NTLMResponse *); /* DigestReqInner ::= CHOICE { init [0] DigestInit, digestRequest [1] DigestRequest, ntlmInit [2] NTLMInit, ntlmRequest [3] NTLMRequest, supportedMechs [4] NULL, } */ typedef struct DigestReqInner { enum { choice_DigestReqInner_init = 1, choice_DigestReqInner_digestRequest, choice_DigestReqInner_ntlmInit, choice_DigestReqInner_ntlmRequest, choice_DigestReqInner_supportedMechs } element; union { DigestInit init; DigestRequest digestRequest; NTLMInit ntlmInit; NTLMRequest ntlmRequest; int supportedMechs; } u; } DigestReqInner; int encode_DigestReqInner(unsigned char *, size_t, const DigestReqInner *, size_t *); int decode_DigestReqInner(const unsigned char *, size_t, DigestReqInner *, size_t *); void free_DigestReqInner (DigestReqInner *); size_t length_DigestReqInner(const DigestReqInner *); int copy_DigestReqInner (const DigestReqInner *, DigestReqInner *); /* DigestREQ ::= [APPLICATION 128] SEQUENCE { apReq [0] OCTET STRING, innerReq [1] EncryptedData, } */ typedef struct DigestREQ { heim_octet_string apReq; EncryptedData innerReq; } DigestREQ; int encode_DigestREQ(unsigned char *, size_t, const DigestREQ *, size_t *); int decode_DigestREQ(const unsigned char *, size_t, DigestREQ *, size_t *); void free_DigestREQ (DigestREQ *); size_t length_DigestREQ(const DigestREQ *); int copy_DigestREQ (const DigestREQ *, DigestREQ *); /* DigestRepInner ::= CHOICE { error [0] DigestError, initReply [1] DigestInitReply, response [2] DigestResponse, ntlmInitReply [3] NTLMInitReply, ntlmResponse [4] NTLMResponse, supportedMechs [5] DigestTypes, ..., } */ typedef struct DigestRepInner { enum { choice_DigestRepInner_asn1_ellipsis = 0, choice_DigestRepInner_error, choice_DigestRepInner_initReply, choice_DigestRepInner_response, choice_DigestRepInner_ntlmInitReply, choice_DigestRepInner_ntlmResponse, choice_DigestRepInner_supportedMechs /* ... */ } element; union { DigestError error; DigestInitReply initReply; DigestResponse response; NTLMInitReply ntlmInitReply; NTLMResponse ntlmResponse; DigestTypes supportedMechs; heim_octet_string asn1_ellipsis; } u; } DigestRepInner; int encode_DigestRepInner(unsigned char *, size_t, const DigestRepInner *, size_t *); int decode_DigestRepInner(const unsigned char *, size_t, DigestRepInner *, size_t *); void free_DigestRepInner (DigestRepInner *); size_t length_DigestRepInner(const DigestRepInner *); int copy_DigestRepInner (const DigestRepInner *, DigestRepInner *); /* DigestREP ::= [APPLICATION 129] SEQUENCE { apRep [0] OCTET STRING, innerRep [1] EncryptedData, } */ typedef struct DigestREP { heim_octet_string apRep; EncryptedData innerRep; } DigestREP; int encode_DigestREP(unsigned char *, size_t, const DigestREP *, size_t *); int decode_DigestREP(const unsigned char *, size_t, DigestREP *, size_t *); void free_DigestREP (DigestREP *); size_t length_DigestREP(const DigestREP *); int copy_DigestREP (const DigestREP *, DigestREP *); #endif /* __digest_asn1_h__ */