/* Generated from /home/biorn/src/lib/libkrb5/../../kerberosV/src/lib/asn1/k5.asn1 */ /* Do not edit */ #ifndef __krb5_asn1_h__ #define __krb5_asn1_h__ #include #include time_t timegm (struct tm*); #ifndef __asn1_common_definitions__ #define __asn1_common_definitions__ typedef struct heim_octet_string { size_t length; void *data; } heim_octet_string; typedef char *heim_general_string; typedef char *heim_utf8_string; typedef struct heim_oid { size_t length; unsigned *components; } heim_oid; #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) #endif /* NAME-TYPE ::= INTEGER */ typedef enum NAME_TYPE { KRB5_NT_UNKNOWN = 0, KRB5_NT_PRINCIPAL = 1, KRB5_NT_SRV_INST = 2, KRB5_NT_SRV_HST = 3, KRB5_NT_SRV_XHST = 4, KRB5_NT_UID = 5, KRB5_NT_X500_PRINCIPAL = 6, KRB5_NT_ENTERPRISE = 10 } NAME_TYPE; int encode_NAME_TYPE(unsigned char *, size_t, const NAME_TYPE *, size_t *); int decode_NAME_TYPE(const unsigned char *, size_t, NAME_TYPE *, size_t *); void free_NAME_TYPE (NAME_TYPE *); size_t length_NAME_TYPE(const NAME_TYPE *); int copy_NAME_TYPE (const NAME_TYPE *, NAME_TYPE *); /* MESSAGE-TYPE ::= INTEGER */ typedef enum MESSAGE_TYPE { krb_as_req = 10, krb_as_rep = 11, krb_tgs_req = 12, krb_tgs_rep = 13, krb_ap_req = 14, krb_ap_rep = 15, krb_safe = 20, krb_priv = 21, krb_cred = 22, krb_error = 30 } MESSAGE_TYPE; int encode_MESSAGE_TYPE(unsigned char *, size_t, const MESSAGE_TYPE *, size_t *); int decode_MESSAGE_TYPE(const unsigned char *, size_t, MESSAGE_TYPE *, size_t *); void free_MESSAGE_TYPE (MESSAGE_TYPE *); size_t length_MESSAGE_TYPE(const MESSAGE_TYPE *); int copy_MESSAGE_TYPE (const MESSAGE_TYPE *, MESSAGE_TYPE *); /* PADATA-TYPE ::= INTEGER */ typedef enum PADATA_TYPE { KRB5_PADATA_NONE = 0, KRB5_PADATA_TGS_REQ = 1, KRB5_PADATA_AP_REQ = 1, KRB5_PADATA_ENC_TIMESTAMP = 2, KRB5_PADATA_PW_SALT = 3, KRB5_PADATA_ENC_UNIX_TIME = 5, KRB5_PADATA_SANDIA_SECUREID = 6, KRB5_PADATA_SESAME = 7, KRB5_PADATA_OSF_DCE = 8, KRB5_PADATA_CYBERSAFE_SECUREID = 9, KRB5_PADATA_AFS3_SALT = 10, KRB5_PADATA_ETYPE_INFO = 11, KRB5_PADATA_SAM_CHALLENGE = 12, KRB5_PADATA_SAM_RESPONSE = 13, KRB5_PADATA_PK_AS_REQ_19 = 14, KRB5_PADATA_PK_AS_REP_19 = 15, KRB5_PADATA_PK_AS_REQ = 16, KRB5_PADATA_PK_AS_REP = 17, KRB5_PADATA_ETYPE_INFO2 = 19, KRB5_PADATA_USE_SPECIFIED_KVNO = 20, KRB5_PADATA_SAM_REDIRECT = 21, KRB5_PADATA_GET_FROM_TYPED_DATA = 22, KRB5_PADATA_SAM_ETYPE_INFO = 23, KRB5_PADATA_SERVER_REFERRAL = 25, KRB5_PADATA_TD_KRB_PRINCIPAL = 102, KRB5_PADATA_TD_KRB_REALM = 103, KRB5_PADATA_PK_TD_TRUSTED_CERTIFIERS = 104, KRB5_PADATA_PK_TD_CERTIFICATE_INDEX = 105, KRB5_PADATA_TD_APP_DEFINED_ERROR = 106, KRB5_PADATA_TD_REQ_NONCE = 107, KRB5_PADATA_TD_REQ_SEQ = 108, KRB5_PADATA_PA_PAC_REQUEST = 128 } PADATA_TYPE; int encode_PADATA_TYPE(unsigned char *, size_t, const PADATA_TYPE *, size_t *); int decode_PADATA_TYPE(const unsigned char *, size_t, PADATA_TYPE *, size_t *); void free_PADATA_TYPE (PADATA_TYPE *); size_t length_PADATA_TYPE(const PADATA_TYPE *); int copy_PADATA_TYPE (const PADATA_TYPE *, PADATA_TYPE *); /* AUTHDATA-TYPE ::= INTEGER */ typedef enum AUTHDATA_TYPE { KRB5_AUTHDATA_IF_RELEVANT = 1, KRB5_AUTHDATA_INTENDED_FOR_SERVER = 2, KRB5_AUTHDATA_INTENDED_FOR_APPLICATION_CLASS = 3, KRB5_AUTHDATA_KDC_ISSUED = 4, KRB5_AUTHDATA_AND_OR = 5, KRB5_AUTHDATA_MANDATORY_TICKET_EXTENSIONS = 6, KRB5_AUTHDATA_IN_TICKET_EXTENSIONS = 7, KRB5_AUTHDATA_MANDATORY_FOR_KDC = 8, KRB5_AUTHDATA_OSF_DCE = 64, KRB5_AUTHDATA_SESAME = 65, KRB5_AUTHDATA_OSF_DCE_PKI_CERTID = 66, KRB5_AUTHDATA_WIN2K_PAC = 128, KRB5_AUTHDATA_GSS_API_ETYPE_NEGOTIATION = 129 } AUTHDATA_TYPE; int encode_AUTHDATA_TYPE(unsigned char *, size_t, const AUTHDATA_TYPE *, size_t *); int decode_AUTHDATA_TYPE(const unsigned char *, size_t, AUTHDATA_TYPE *, size_t *); void free_AUTHDATA_TYPE (AUTHDATA_TYPE *); size_t length_AUTHDATA_TYPE(const AUTHDATA_TYPE *); int copy_AUTHDATA_TYPE (const AUTHDATA_TYPE *, AUTHDATA_TYPE *); /* CKSUMTYPE ::= INTEGER */ typedef enum CKSUMTYPE { CKSUMTYPE_NONE = 0, CKSUMTYPE_CRC32 = 1, CKSUMTYPE_RSA_MD4 = 2, CKSUMTYPE_RSA_MD4_DES = 3, CKSUMTYPE_DES_MAC = 4, CKSUMTYPE_DES_MAC_K = 5, CKSUMTYPE_RSA_MD4_DES_K = 6, CKSUMTYPE_RSA_MD5 = 7, CKSUMTYPE_RSA_MD5_DES = 8, CKSUMTYPE_RSA_MD5_DES3 = 9, CKSUMTYPE_SHA1_OTHER = 10, CKSUMTYPE_HMAC_SHA1_DES3 = 12, CKSUMTYPE_SHA1 = 14, CKSUMTYPE_HMAC_SHA1_96_AES_128 = 15, CKSUMTYPE_HMAC_SHA1_96_AES_256 = 16, CKSUMTYPE_GSSAPI = 32771, CKSUMTYPE_HMAC_MD5 = -138, CKSUMTYPE_HMAC_MD5_ENC = -1138 } CKSUMTYPE; int encode_CKSUMTYPE(unsigned char *, size_t, const CKSUMTYPE *, size_t *); int decode_CKSUMTYPE(const unsigned char *, size_t, CKSUMTYPE *, size_t *); void free_CKSUMTYPE (CKSUMTYPE *); size_t length_CKSUMTYPE(const CKSUMTYPE *); int copy_CKSUMTYPE (const CKSUMTYPE *, CKSUMTYPE *); /* ENCTYPE ::= INTEGER */ typedef enum ENCTYPE { ETYPE_NULL = 0, ETYPE_DES_CBC_CRC = 1, ETYPE_DES_CBC_MD4 = 2, ETYPE_DES_CBC_MD5 = 3, ETYPE_DES3_CBC_MD5 = 5, ETYPE_OLD_DES3_CBC_SHA1 = 7, ETYPE_SIGN_DSA_GENERATE = 8, ETYPE_ENCRYPT_RSA_PRIV = 9, ETYPE_ENCRYPT_RSA_PUB = 10, ETYPE_DES3_CBC_SHA1 = 16, ETYPE_AES128_CTS_HMAC_SHA1_96 = 17, ETYPE_AES256_CTS_HMAC_SHA1_96 = 18, ETYPE_ARCFOUR_HMAC_MD5 = 23, ETYPE_ARCFOUR_HMAC_MD5_56 = 24, ETYPE_ENCTYPE_PK_CROSS = 48, ETYPE_DES_CBC_NONE = -4096, ETYPE_DES3_CBC_NONE = -4097, ETYPE_DES_CFB64_NONE = -4098, ETYPE_DES_PCBC_NONE = -4099, ETYPE_DIGEST_MD5_NONE = -4100, ETYPE_CRAM_MD5_NONE = -4101, ETYPE_RC2_CBC_NONE = -4102, ETYPE_AES128_CBC_NONE = -4103, ETYPE_AES192_CBC_NONE = -4104, ETYPE_AES256_CBC_NONE = -4105, ETYPE_DES3_CBC_NONE_CMS = -4106 } ENCTYPE; int encode_ENCTYPE(unsigned char *, size_t, const ENCTYPE *, size_t *); int decode_ENCTYPE(const unsigned char *, size_t, ENCTYPE *, size_t *); void free_ENCTYPE (ENCTYPE *); size_t length_ENCTYPE(const ENCTYPE *); int copy_ENCTYPE (const ENCTYPE *, ENCTYPE *); /* UNSIGNED ::= UNSIGNED INTEGER */ typedef unsigned int UNSIGNED; int encode_UNSIGNED(unsigned char *, size_t, const UNSIGNED *, size_t *); int decode_UNSIGNED(const unsigned char *, size_t, UNSIGNED *, size_t *); void free_UNSIGNED (UNSIGNED *); size_t length_UNSIGNED(const UNSIGNED *); int copy_UNSIGNED (const UNSIGNED *, UNSIGNED *); /* KerberosString ::= GeneralString */ typedef heim_general_string KerberosString; int encode_KerberosString(unsigned char *, size_t, const KerberosString *, size_t *); int decode_KerberosString(const unsigned char *, size_t, KerberosString *, size_t *); void free_KerberosString (KerberosString *); size_t length_KerberosString(const KerberosString *); int copy_KerberosString (const KerberosString *, KerberosString *); /* Realm ::= GeneralString */ typedef heim_general_string Realm; int encode_Realm(unsigned char *, size_t, const Realm *, size_t *); int decode_Realm(const unsigned char *, size_t, Realm *, size_t *); void free_Realm (Realm *); size_t length_Realm(const Realm *); int copy_Realm (const Realm *, Realm *); /* PrincipalName ::= SEQUENCE { name-type[0] NAME-TYPE, name-string[1] SEQUENCE OF GeneralString } */ typedef struct PrincipalName { NAME_TYPE name_type; struct { unsigned int len; heim_general_string *val; } name_string; } PrincipalName; int encode_PrincipalName(unsigned char *, size_t, const PrincipalName *, size_t *); int decode_PrincipalName(const unsigned char *, size_t, PrincipalName *, size_t *); void free_PrincipalName (PrincipalName *); size_t length_PrincipalName(const PrincipalName *); int copy_PrincipalName (const PrincipalName *, PrincipalName *); /* Principal ::= SEQUENCE { name[0] PrincipalName, realm[1] Realm } */ typedef struct Principal { PrincipalName name; Realm realm; } Principal; int encode_Principal(unsigned char *, size_t, const Principal *, size_t *); int decode_Principal(const unsigned char *, size_t, Principal *, size_t *); void free_Principal (Principal *); size_t length_Principal(const Principal *); int copy_Principal (const Principal *, Principal *); /* HostAddress ::= SEQUENCE { addr-type[0] INTEGER, address[1] OCTET STRING } */ typedef struct HostAddress { int addr_type; heim_octet_string address; } HostAddress; int encode_HostAddress(unsigned char *, size_t, const HostAddress *, size_t *); int decode_HostAddress(const unsigned char *, size_t, HostAddress *, size_t *); void free_HostAddress (HostAddress *); size_t length_HostAddress(const HostAddress *); int copy_HostAddress (const HostAddress *, HostAddress *); /* HostAddresses ::= SEQUENCE OF HostAddress */ typedef struct HostAddresses { unsigned int len; HostAddress *val; } HostAddresses; int encode_HostAddresses(unsigned char *, size_t, const HostAddresses *, size_t *); int decode_HostAddresses(const unsigned char *, size_t, HostAddresses *, size_t *); void free_HostAddresses (HostAddresses *); size_t length_HostAddresses(const HostAddresses *); int copy_HostAddresses (const HostAddresses *, HostAddresses *); /* KerberosTime ::= GeneralizedTime */ typedef time_t KerberosTime; int encode_KerberosTime(unsigned char *, size_t, const KerberosTime *, size_t *); int decode_KerberosTime(const unsigned char *, size_t, KerberosTime *, size_t *); void free_KerberosTime (KerberosTime *); size_t length_KerberosTime(const KerberosTime *); int copy_KerberosTime (const KerberosTime *, KerberosTime *); /* AuthorizationData ::= SEQUENCE OF SEQUENCE { ad-type[0] INTEGER, ad-data[1] OCTET STRING } */ typedef struct AuthorizationData { unsigned int len; struct { int ad_type; heim_octet_string ad_data; } *val; } AuthorizationData; int encode_AuthorizationData(unsigned char *, size_t, const AuthorizationData *, size_t *); int decode_AuthorizationData(const unsigned char *, size_t, AuthorizationData *, size_t *); void free_AuthorizationData (AuthorizationData *); size_t length_AuthorizationData(const AuthorizationData *); int copy_AuthorizationData (const AuthorizationData *, AuthorizationData *); /* APOptions ::= BIT STRING { reserved(0), use-session-key(1), mutual-required(2) } */ typedef struct APOptions { unsigned int reserved:1; unsigned int use_session_key:1; unsigned int mutual_required:1; } APOptions; int encode_APOptions(unsigned char *, size_t, const APOptions *, size_t *); int decode_APOptions(const unsigned char *, size_t, APOptions *, size_t *); void free_APOptions (APOptions *); size_t length_APOptions(const APOptions *); int copy_APOptions (const APOptions *, APOptions *); unsigned APOptions2int(APOptions); APOptions int2APOptions(unsigned); const struct units * asn1_APOptions_units(void); /* TicketFlags ::= BIT STRING { reserved(0), forwardable(1), forwarded(2), proxiable(3), proxy(4), may-postdate(5), postdated(6), invalid(7), renewable(8), initial(9), pre-authent(10), hw-authent(11), transited-policy-checked(12), ok-as-delegate(13), anonymous(14) } */ typedef struct TicketFlags { unsigned int reserved:1; unsigned int forwardable:1; unsigned int forwarded:1; unsigned int proxiable:1; unsigned int proxy:1; unsigned int may_postdate:1; unsigned int postdated:1; unsigned int invalid:1; unsigned int renewable:1; unsigned int initial:1; unsigned int pre_authent:1; unsigned int hw_authent:1; unsigned int transited_policy_checked:1; unsigned int ok_as_delegate:1; unsigned int anonymous:1; } TicketFlags; int encode_TicketFlags(unsigned char *, size_t, const TicketFlags *, size_t *); int decode_TicketFlags(const unsigned char *, size_t, TicketFlags *, size_t *); void free_TicketFlags (TicketFlags *); size_t length_TicketFlags(const TicketFlags *); int copy_TicketFlags (const TicketFlags *, TicketFlags *); unsigned TicketFlags2int(TicketFlags); TicketFlags int2TicketFlags(unsigned); const struct units * asn1_TicketFlags_units(void); /* KDCOptions ::= BIT STRING { reserved(0), forwardable(1), forwarded(2), proxiable(3), proxy(4), allow-postdate(5), postdated(6), unused7(7), renewable(8), unused9(9), unused10(10), unused11(11), request-anonymous(14), canonicalize(15), disable-transited-check(26), renewable-ok(27), enc-tkt-in-skey(28), renew(30), validate(31) } */ typedef struct KDCOptions { unsigned int reserved:1; unsigned int forwardable:1; unsigned int forwarded:1; unsigned int proxiable:1; unsigned int proxy:1; unsigned int allow_postdate:1; unsigned int postdated:1; unsigned int unused7:1; unsigned int renewable:1; unsigned int unused9:1; unsigned int unused10:1; unsigned int unused11:1; unsigned int request_anonymous:1; unsigned int canonicalize:1; unsigned int disable_transited_check:1; unsigned int renewable_ok:1; unsigned int enc_tkt_in_skey:1; unsigned int renew:1; unsigned int validate:1; } KDCOptions; int encode_KDCOptions(unsigned char *, size_t, const KDCOptions *, size_t *); int decode_KDCOptions(const unsigned char *, size_t, KDCOptions *, size_t *); void free_KDCOptions (KDCOptions *); size_t length_KDCOptions(const KDCOptions *); int copy_KDCOptions (const KDCOptions *, KDCOptions *); unsigned KDCOptions2int(KDCOptions); KDCOptions int2KDCOptions(unsigned); const struct units * asn1_KDCOptions_units(void); /* LR-TYPE ::= INTEGER */ typedef enum LR_TYPE { LR_NONE = 0, LR_INITIAL_TGT = 1, LR_INITIAL = 2, LR_ISSUE_USE_TGT = 3, LR_RENEWAL = 4, LR_REQUEST = 5, LR_PW_EXPTIME = 6, LR_ACCT_EXPTIME = 7 } LR_TYPE; int encode_LR_TYPE(unsigned char *, size_t, const LR_TYPE *, size_t *); int decode_LR_TYPE(const unsigned char *, size_t, LR_TYPE *, size_t *); void free_LR_TYPE (LR_TYPE *); size_t length_LR_TYPE(const LR_TYPE *); int copy_LR_TYPE (const LR_TYPE *, LR_TYPE *); /* LastReq ::= SEQUENCE OF SEQUENCE { lr-type[0] LR-TYPE, lr-value[1] KerberosTime } */ typedef struct LastReq { unsigned int len; struct { LR_TYPE lr_type; KerberosTime lr_value; } *val; } LastReq; int encode_LastReq(unsigned char *, size_t, const LastReq *, size_t *); int decode_LastReq(const unsigned char *, size_t, LastReq *, size_t *); void free_LastReq (LastReq *); size_t length_LastReq(const LastReq *); int copy_LastReq (const LastReq *, LastReq *); /* EncryptedData ::= SEQUENCE { etype[0] ENCTYPE, kvno[1] INTEGER OPTIONAL, cipher[2] OCTET STRING } */ typedef struct EncryptedData { ENCTYPE etype; int *kvno; heim_octet_string cipher; } EncryptedData; int encode_EncryptedData(unsigned char *, size_t, const EncryptedData *, size_t *); int decode_EncryptedData(const unsigned char *, size_t, EncryptedData *, size_t *); void free_EncryptedData (EncryptedData *); size_t length_EncryptedData(const EncryptedData *); int copy_EncryptedData (const EncryptedData *, EncryptedData *); /* EncryptionKey ::= SEQUENCE { keytype[0] INTEGER, keyvalue[1] OCTET STRING } */ typedef struct EncryptionKey { int keytype; heim_octet_string keyvalue; } EncryptionKey; int encode_EncryptionKey(unsigned char *, size_t, const EncryptionKey *, size_t *); int decode_EncryptionKey(const unsigned char *, size_t, EncryptionKey *, size_t *); void free_EncryptionKey (EncryptionKey *); size_t length_EncryptionKey(const EncryptionKey *); int copy_EncryptionKey (const EncryptionKey *, EncryptionKey *); /* TransitedEncoding ::= SEQUENCE { tr-type[0] INTEGER, contents[1] OCTET STRING } */ typedef struct TransitedEncoding { int tr_type; heim_octet_string contents; } TransitedEncoding; int encode_TransitedEncoding(unsigned char *, size_t, const TransitedEncoding *, size_t *); int decode_TransitedEncoding(const unsigned char *, size_t, TransitedEncoding *, size_t *); void free_TransitedEncoding (TransitedEncoding *); size_t length_TransitedEncoding(const TransitedEncoding *); int copy_TransitedEncoding (const TransitedEncoding *, TransitedEncoding *); /* Ticket ::= [APPLICATION 1] SEQUENCE { tkt-vno[0] INTEGER, realm[1] Realm, sname[2] PrincipalName, enc-part[3] EncryptedData } */ typedef struct { int tkt_vno; Realm realm; PrincipalName sname; EncryptedData enc_part; } Ticket; int encode_Ticket(unsigned char *, size_t, const Ticket *, size_t *); int decode_Ticket(const unsigned char *, size_t, Ticket *, size_t *); void free_Ticket (Ticket *); size_t length_Ticket(const Ticket *); int copy_Ticket (const Ticket *, Ticket *); /* EncTicketPart ::= [APPLICATION 3] SEQUENCE { flags[0] TicketFlags, key[1] EncryptionKey, crealm[2] Realm, cname[3] PrincipalName, transited[4] TransitedEncoding, authtime[5] KerberosTime, starttime[6] KerberosTime OPTIONAL, endtime[7] KerberosTime, renew-till[8] KerberosTime OPTIONAL, caddr[9] HostAddresses OPTIONAL, authorization-data[10] AuthorizationData OPTIONAL } */ typedef struct { TicketFlags flags; EncryptionKey key; Realm crealm; PrincipalName cname; TransitedEncoding transited; KerberosTime authtime; KerberosTime *starttime; KerberosTime endtime; KerberosTime *renew_till; HostAddresses *caddr; AuthorizationData *authorization_data; } EncTicketPart; int encode_EncTicketPart(unsigned char *, size_t, const EncTicketPart *, size_t *); int decode_EncTicketPart(const unsigned char *, size_t, EncTicketPart *, size_t *); void free_EncTicketPart (EncTicketPart *); size_t length_EncTicketPart(const EncTicketPart *); int copy_EncTicketPart (const EncTicketPart *, EncTicketPart *); /* Checksum ::= SEQUENCE { cksumtype[0] CKSUMTYPE, checksum[1] OCTET STRING } */ typedef struct Checksum { CKSUMTYPE cksumtype; heim_octet_string checksum; } Checksum; int encode_Checksum(unsigned char *, size_t, const Checksum *, size_t *); int decode_Checksum(const unsigned char *, size_t, Checksum *, size_t *); void free_Checksum (Checksum *); size_t length_Checksum(const Checksum *); int copy_Checksum (const Checksum *, Checksum *); /* Authenticator ::= [APPLICATION 2] SEQUENCE { authenticator-vno[0] INTEGER, crealm[1] Realm, cname[2] PrincipalName, cksum[3] Checksum OPTIONAL, cusec[4] INTEGER, ctime[5] KerberosTime, subkey[6] EncryptionKey OPTIONAL, seq-number[7] UNSIGNED OPTIONAL, authorization-data[8] AuthorizationData OPTIONAL } */ typedef struct { int authenticator_vno; Realm crealm; PrincipalName cname; Checksum *cksum; int cusec; KerberosTime ctime; EncryptionKey *subkey; UNSIGNED *seq_number; AuthorizationData *authorization_data; } Authenticator; int encode_Authenticator(unsigned char *, size_t, const Authenticator *, size_t *); int decode_Authenticator(const unsigned char *, size_t, Authenticator *, size_t *); void free_Authenticator (Authenticator *); size_t length_Authenticator(const Authenticator *); int copy_Authenticator (const Authenticator *, Authenticator *); /* PA-DATA ::= SEQUENCE { padata-type[1] PADATA-TYPE, padata-value[2] OCTET STRING } */ typedef struct PA_DATA { PADATA_TYPE padata_type; heim_octet_string padata_value; } PA_DATA; int encode_PA_DATA(unsigned char *, size_t, const PA_DATA *, size_t *); int decode_PA_DATA(const unsigned char *, size_t, PA_DATA *, size_t *); void free_PA_DATA (PA_DATA *); size_t length_PA_DATA(const PA_DATA *); int copy_PA_DATA (const PA_DATA *, PA_DATA *); /* ETYPE-INFO-ENTRY ::= SEQUENCE { etype[0] ENCTYPE, salt[1] OCTET STRING OPTIONAL, salttype[2] INTEGER OPTIONAL } */ typedef struct ETYPE_INFO_ENTRY { ENCTYPE etype; heim_octet_string *salt; int *salttype; } ETYPE_INFO_ENTRY; int encode_ETYPE_INFO_ENTRY(unsigned char *, size_t, const ETYPE_INFO_ENTRY *, size_t *); int decode_ETYPE_INFO_ENTRY(const unsigned char *, size_t, ETYPE_INFO_ENTRY *, size_t *); void free_ETYPE_INFO_ENTRY (ETYPE_INFO_ENTRY *); size_t length_ETYPE_INFO_ENTRY(const ETYPE_INFO_ENTRY *); int copy_ETYPE_INFO_ENTRY (const ETYPE_INFO_ENTRY *, ETYPE_INFO_ENTRY *); /* ETYPE-INFO ::= SEQUENCE OF ETYPE-INFO-ENTRY */ typedef struct ETYPE_INFO { unsigned int len; ETYPE_INFO_ENTRY *val; } ETYPE_INFO; int encode_ETYPE_INFO(unsigned char *, size_t, const ETYPE_INFO *, size_t *); int decode_ETYPE_INFO(const unsigned char *, size_t, ETYPE_INFO *, size_t *); void free_ETYPE_INFO (ETYPE_INFO *); size_t length_ETYPE_INFO(const ETYPE_INFO *); int copy_ETYPE_INFO (const ETYPE_INFO *, ETYPE_INFO *); /* ETYPE-INFO2-ENTRY ::= SEQUENCE { etype[0] ENCTYPE, salt[1] KerberosString OPTIONAL, s2kparams[2] OCTET STRING OPTIONAL } */ typedef struct ETYPE_INFO2_ENTRY { ENCTYPE etype; KerberosString *salt; heim_octet_string *s2kparams; } ETYPE_INFO2_ENTRY; int encode_ETYPE_INFO2_ENTRY(unsigned char *, size_t, const ETYPE_INFO2_ENTRY *, size_t *); int decode_ETYPE_INFO2_ENTRY(const unsigned char *, size_t, ETYPE_INFO2_ENTRY *, size_t *); void free_ETYPE_INFO2_ENTRY (ETYPE_INFO2_ENTRY *); size_t length_ETYPE_INFO2_ENTRY(const ETYPE_INFO2_ENTRY *); int copy_ETYPE_INFO2_ENTRY (const ETYPE_INFO2_ENTRY *, ETYPE_INFO2_ENTRY *); /* ETYPE-INFO2 ::= SEQUENCE OF ETYPE-INFO2-ENTRY */ typedef struct ETYPE_INFO2 { unsigned int len; ETYPE_INFO2_ENTRY *val; } ETYPE_INFO2; int encode_ETYPE_INFO2(unsigned char *, size_t, const ETYPE_INFO2 *, size_t *); int decode_ETYPE_INFO2(const unsigned char *, size_t, ETYPE_INFO2 *, size_t *); void free_ETYPE_INFO2 (ETYPE_INFO2 *); size_t length_ETYPE_INFO2(const ETYPE_INFO2 *); int copy_ETYPE_INFO2 (const ETYPE_INFO2 *, ETYPE_INFO2 *); /* METHOD-DATA ::= SEQUENCE OF PA-DATA */ typedef struct METHOD_DATA { unsigned int len; PA_DATA *val; } METHOD_DATA; int encode_METHOD_DATA(unsigned char *, size_t, const METHOD_DATA *, size_t *); int decode_METHOD_DATA(const unsigned char *, size_t, METHOD_DATA *, size_t *); void free_METHOD_DATA (METHOD_DATA *); size_t length_METHOD_DATA(const METHOD_DATA *); int copy_METHOD_DATA (const METHOD_DATA *, METHOD_DATA *); /* KDC-REQ-BODY ::= SEQUENCE { kdc-options[0] KDCOptions, cname[1] PrincipalName OPTIONAL, realm[2] Realm, sname[3] PrincipalName OPTIONAL, from[4] KerberosTime OPTIONAL, till[5] KerberosTime OPTIONAL, rtime[6] KerberosTime OPTIONAL, nonce[7] INTEGER, etype[8] SEQUENCE OF ENCTYPE, addresses[9] HostAddresses OPTIONAL, enc-authorization-data[10] EncryptedData OPTIONAL, additional-tickets[11] SEQUENCE OF Ticket OPTIONAL } */ typedef struct KDC_REQ_BODY { KDCOptions kdc_options; PrincipalName *cname; Realm realm; PrincipalName *sname; KerberosTime *from; KerberosTime *till; KerberosTime *rtime; int nonce; struct { unsigned int len; ENCTYPE *val; } etype; HostAddresses *addresses; EncryptedData *enc_authorization_data; struct { unsigned int len; Ticket *val; } *additional_tickets; } KDC_REQ_BODY; int encode_KDC_REQ_BODY(unsigned char *, size_t, const KDC_REQ_BODY *, size_t *); int decode_KDC_REQ_BODY(const unsigned char *, size_t, KDC_REQ_BODY *, size_t *); void free_KDC_REQ_BODY (KDC_REQ_BODY *); size_t length_KDC_REQ_BODY(const KDC_REQ_BODY *); int copy_KDC_REQ_BODY (const KDC_REQ_BODY *, KDC_REQ_BODY *); /* KDC-REQ ::= SEQUENCE { pvno[1] INTEGER, msg-type[2] MESSAGE-TYPE, padata[3] METHOD-DATA OPTIONAL, req-body[4] KDC-REQ-BODY } */ typedef struct KDC_REQ { int pvno; MESSAGE_TYPE msg_type; METHOD_DATA *padata; KDC_REQ_BODY req_body; } KDC_REQ; int encode_KDC_REQ(unsigned char *, size_t, const KDC_REQ *, size_t *); int decode_KDC_REQ(const unsigned char *, size_t, KDC_REQ *, size_t *); void free_KDC_REQ (KDC_REQ *); size_t length_KDC_REQ(const KDC_REQ *); int copy_KDC_REQ (const KDC_REQ *, KDC_REQ *); /* AS-REQ ::= [APPLICATION 10] KDC-REQ */ typedef KDC_REQ AS_REQ; int encode_AS_REQ(unsigned char *, size_t, const AS_REQ *, size_t *); int decode_AS_REQ(const unsigned char *, size_t, AS_REQ *, size_t *); void free_AS_REQ (AS_REQ *); size_t length_AS_REQ(const AS_REQ *); int copy_AS_REQ (const AS_REQ *, AS_REQ *); /* TGS-REQ ::= [APPLICATION 12] KDC-REQ */ typedef KDC_REQ TGS_REQ; int encode_TGS_REQ(unsigned char *, size_t, const TGS_REQ *, size_t *); int decode_TGS_REQ(const unsigned char *, size_t, TGS_REQ *, size_t *); void free_TGS_REQ (TGS_REQ *); size_t length_TGS_REQ(const TGS_REQ *); int copy_TGS_REQ (const TGS_REQ *, TGS_REQ *); /* PA-ENC-TS-ENC ::= SEQUENCE { patimestamp[0] KerberosTime, pausec[1] INTEGER OPTIONAL } */ typedef struct PA_ENC_TS_ENC { KerberosTime patimestamp; int *pausec; } PA_ENC_TS_ENC; int encode_PA_ENC_TS_ENC(unsigned char *, size_t, const PA_ENC_TS_ENC *, size_t *); int decode_PA_ENC_TS_ENC(const unsigned char *, size_t, PA_ENC_TS_ENC *, size_t *); void free_PA_ENC_TS_ENC (PA_ENC_TS_ENC *); size_t length_PA_ENC_TS_ENC(const PA_ENC_TS_ENC *); int copy_PA_ENC_TS_ENC (const PA_ENC_TS_ENC *, PA_ENC_TS_ENC *); /* PA-PAC-REQUEST ::= SEQUENCE { include-pac[0] BOOLEAN } */ typedef struct PA_PAC_REQUEST { int include_pac; } PA_PAC_REQUEST; int encode_PA_PAC_REQUEST(unsigned char *, size_t, const PA_PAC_REQUEST *, size_t *); int decode_PA_PAC_REQUEST(const unsigned char *, size_t, PA_PAC_REQUEST *, size_t *); void free_PA_PAC_REQUEST (PA_PAC_REQUEST *); size_t length_PA_PAC_REQUEST(const PA_PAC_REQUEST *); int copy_PA_PAC_REQUEST (const PA_PAC_REQUEST *, PA_PAC_REQUEST *); /* KDC-REP ::= SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, padata[2] METHOD-DATA OPTIONAL, crealm[3] Realm, cname[4] PrincipalName, ticket[5] Ticket, enc-part[6] EncryptedData } */ typedef struct KDC_REP { int pvno; MESSAGE_TYPE msg_type; METHOD_DATA *padata; Realm crealm; PrincipalName cname; Ticket ticket; EncryptedData enc_part; } KDC_REP; int encode_KDC_REP(unsigned char *, size_t, const KDC_REP *, size_t *); int decode_KDC_REP(const unsigned char *, size_t, KDC_REP *, size_t *); void free_KDC_REP (KDC_REP *); size_t length_KDC_REP(const KDC_REP *); int copy_KDC_REP (const KDC_REP *, KDC_REP *); /* AS-REP ::= [APPLICATION 11] KDC-REP */ typedef KDC_REP AS_REP; int encode_AS_REP(unsigned char *, size_t, const AS_REP *, size_t *); int decode_AS_REP(const unsigned char *, size_t, AS_REP *, size_t *); void free_AS_REP (AS_REP *); size_t length_AS_REP(const AS_REP *); int copy_AS_REP (const AS_REP *, AS_REP *); /* TGS-REP ::= [APPLICATION 13] KDC-REP */ typedef KDC_REP TGS_REP; int encode_TGS_REP(unsigned char *, size_t, const TGS_REP *, size_t *); int decode_TGS_REP(const unsigned char *, size_t, TGS_REP *, size_t *); void free_TGS_REP (TGS_REP *); size_t length_TGS_REP(const TGS_REP *); int copy_TGS_REP (const TGS_REP *, TGS_REP *); /* EncKDCRepPart ::= SEQUENCE { key[0] EncryptionKey, last-req[1] LastReq, nonce[2] INTEGER, key-expiration[3] KerberosTime OPTIONAL, flags[4] TicketFlags, authtime[5] KerberosTime, starttime[6] KerberosTime OPTIONAL, endtime[7] KerberosTime, renew-till[8] KerberosTime OPTIONAL, srealm[9] Realm, sname[10] PrincipalName, caddr[11] HostAddresses OPTIONAL } */ typedef struct EncKDCRepPart { EncryptionKey key; LastReq last_req; int nonce; KerberosTime *key_expiration; TicketFlags flags; KerberosTime authtime; KerberosTime *starttime; KerberosTime endtime; KerberosTime *renew_till; Realm srealm; PrincipalName sname; HostAddresses *caddr; } EncKDCRepPart; int encode_EncKDCRepPart(unsigned char *, size_t, const EncKDCRepPart *, size_t *); int decode_EncKDCRepPart(const unsigned char *, size_t, EncKDCRepPart *, size_t *); void free_EncKDCRepPart (EncKDCRepPart *); size_t length_EncKDCRepPart(const EncKDCRepPart *); int copy_EncKDCRepPart (const EncKDCRepPart *, EncKDCRepPart *); /* EncASRepPart ::= [APPLICATION 25] EncKDCRepPart */ typedef EncKDCRepPart EncASRepPart; int encode_EncASRepPart(unsigned char *, size_t, const EncASRepPart *, size_t *); int decode_EncASRepPart(const unsigned char *, size_t, EncASRepPart *, size_t *); void free_EncASRepPart (EncASRepPart *); size_t length_EncASRepPart(const EncASRepPart *); int copy_EncASRepPart (const EncASRepPart *, EncASRepPart *); /* EncTGSRepPart ::= [APPLICATION 26] EncKDCRepPart */ typedef EncKDCRepPart EncTGSRepPart; int encode_EncTGSRepPart(unsigned char *, size_t, const EncTGSRepPart *, size_t *); int decode_EncTGSRepPart(const unsigned char *, size_t, EncTGSRepPart *, size_t *); void free_EncTGSRepPart (EncTGSRepPart *); size_t length_EncTGSRepPart(const EncTGSRepPart *); int copy_EncTGSRepPart (const EncTGSRepPart *, EncTGSRepPart *); /* AP-REQ ::= [APPLICATION 14] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, ap-options[2] APOptions, ticket[3] Ticket, authenticator[4] EncryptedData } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; APOptions ap_options; Ticket ticket; EncryptedData authenticator; } AP_REQ; int encode_AP_REQ(unsigned char *, size_t, const AP_REQ *, size_t *); int decode_AP_REQ(const unsigned char *, size_t, AP_REQ *, size_t *); void free_AP_REQ (AP_REQ *); size_t length_AP_REQ(const AP_REQ *); int copy_AP_REQ (const AP_REQ *, AP_REQ *); /* AP-REP ::= [APPLICATION 15] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, enc-part[2] EncryptedData } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; EncryptedData enc_part; } AP_REP; int encode_AP_REP(unsigned char *, size_t, const AP_REP *, size_t *); int decode_AP_REP(const unsigned char *, size_t, AP_REP *, size_t *); void free_AP_REP (AP_REP *); size_t length_AP_REP(const AP_REP *); int copy_AP_REP (const AP_REP *, AP_REP *); /* EncAPRepPart ::= [APPLICATION 27] SEQUENCE { ctime[0] KerberosTime, cusec[1] INTEGER, subkey[2] EncryptionKey OPTIONAL, seq-number[3] UNSIGNED OPTIONAL } */ typedef struct { KerberosTime ctime; int cusec; EncryptionKey *subkey; UNSIGNED *seq_number; } EncAPRepPart; int encode_EncAPRepPart(unsigned char *, size_t, const EncAPRepPart *, size_t *); int decode_EncAPRepPart(const unsigned char *, size_t, EncAPRepPart *, size_t *); void free_EncAPRepPart (EncAPRepPart *); size_t length_EncAPRepPart(const EncAPRepPart *); int copy_EncAPRepPart (const EncAPRepPart *, EncAPRepPart *); /* KRB-SAFE-BODY ::= SEQUENCE { user-data[0] OCTET STRING, timestamp[1] KerberosTime OPTIONAL, usec[2] INTEGER OPTIONAL, seq-number[3] UNSIGNED OPTIONAL, s-address[4] HostAddress OPTIONAL, r-address[5] HostAddress OPTIONAL } */ typedef struct KRB_SAFE_BODY { heim_octet_string user_data; KerberosTime *timestamp; int *usec; UNSIGNED *seq_number; HostAddress *s_address; HostAddress *r_address; } KRB_SAFE_BODY; int encode_KRB_SAFE_BODY(unsigned char *, size_t, const KRB_SAFE_BODY *, size_t *); int decode_KRB_SAFE_BODY(const unsigned char *, size_t, KRB_SAFE_BODY *, size_t *); void free_KRB_SAFE_BODY (KRB_SAFE_BODY *); size_t length_KRB_SAFE_BODY(const KRB_SAFE_BODY *); int copy_KRB_SAFE_BODY (const KRB_SAFE_BODY *, KRB_SAFE_BODY *); /* KRB-SAFE ::= [APPLICATION 20] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, safe-body[2] KRB-SAFE-BODY, cksum[3] Checksum } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; KRB_SAFE_BODY safe_body; Checksum cksum; } KRB_SAFE; int encode_KRB_SAFE(unsigned char *, size_t, const KRB_SAFE *, size_t *); int decode_KRB_SAFE(const unsigned char *, size_t, KRB_SAFE *, size_t *); void free_KRB_SAFE (KRB_SAFE *); size_t length_KRB_SAFE(const KRB_SAFE *); int copy_KRB_SAFE (const KRB_SAFE *, KRB_SAFE *); /* KRB-PRIV ::= [APPLICATION 21] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, enc-part[3] EncryptedData } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; EncryptedData enc_part; } KRB_PRIV; int encode_KRB_PRIV(unsigned char *, size_t, const KRB_PRIV *, size_t *); int decode_KRB_PRIV(const unsigned char *, size_t, KRB_PRIV *, size_t *); void free_KRB_PRIV (KRB_PRIV *); size_t length_KRB_PRIV(const KRB_PRIV *); int copy_KRB_PRIV (const KRB_PRIV *, KRB_PRIV *); /* EncKrbPrivPart ::= [APPLICATION 28] SEQUENCE { user-data[0] OCTET STRING, timestamp[1] KerberosTime OPTIONAL, usec[2] INTEGER OPTIONAL, seq-number[3] UNSIGNED OPTIONAL, s-address[4] HostAddress OPTIONAL, r-address[5] HostAddress OPTIONAL } */ typedef struct { heim_octet_string user_data; KerberosTime *timestamp; int *usec; UNSIGNED *seq_number; HostAddress *s_address; HostAddress *r_address; } EncKrbPrivPart; int encode_EncKrbPrivPart(unsigned char *, size_t, const EncKrbPrivPart *, size_t *); int decode_EncKrbPrivPart(const unsigned char *, size_t, EncKrbPrivPart *, size_t *); void free_EncKrbPrivPart (EncKrbPrivPart *); size_t length_EncKrbPrivPart(const EncKrbPrivPart *); int copy_EncKrbPrivPart (const EncKrbPrivPart *, EncKrbPrivPart *); /* KRB-CRED ::= [APPLICATION 22] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, tickets[2] SEQUENCE OF Ticket, enc-part[3] EncryptedData } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; struct { unsigned int len; Ticket *val; } tickets; EncryptedData enc_part; } KRB_CRED; int encode_KRB_CRED(unsigned char *, size_t, const KRB_CRED *, size_t *); int decode_KRB_CRED(const unsigned char *, size_t, KRB_CRED *, size_t *); void free_KRB_CRED (KRB_CRED *); size_t length_KRB_CRED(const KRB_CRED *); int copy_KRB_CRED (const KRB_CRED *, KRB_CRED *); /* KrbCredInfo ::= SEQUENCE { key[0] EncryptionKey, prealm[1] Realm OPTIONAL, pname[2] PrincipalName OPTIONAL, flags[3] TicketFlags OPTIONAL, authtime[4] KerberosTime OPTIONAL, starttime[5] KerberosTime OPTIONAL, endtime[6] KerberosTime OPTIONAL, renew-till[7] KerberosTime OPTIONAL, srealm[8] Realm OPTIONAL, sname[9] PrincipalName OPTIONAL, caddr[10] HostAddresses OPTIONAL } */ typedef struct KrbCredInfo { EncryptionKey key; Realm *prealm; PrincipalName *pname; TicketFlags *flags; KerberosTime *authtime; KerberosTime *starttime; KerberosTime *endtime; KerberosTime *renew_till; Realm *srealm; PrincipalName *sname; HostAddresses *caddr; } KrbCredInfo; int encode_KrbCredInfo(unsigned char *, size_t, const KrbCredInfo *, size_t *); int decode_KrbCredInfo(const unsigned char *, size_t, KrbCredInfo *, size_t *); void free_KrbCredInfo (KrbCredInfo *); size_t length_KrbCredInfo(const KrbCredInfo *); int copy_KrbCredInfo (const KrbCredInfo *, KrbCredInfo *); /* EncKrbCredPart ::= [APPLICATION 29] SEQUENCE { ticket-info[0] SEQUENCE OF KrbCredInfo, nonce[1] INTEGER OPTIONAL, timestamp[2] KerberosTime OPTIONAL, usec[3] INTEGER OPTIONAL, s-address[4] HostAddress OPTIONAL, r-address[5] HostAddress OPTIONAL } */ typedef struct { struct { unsigned int len; KrbCredInfo *val; } ticket_info; int *nonce; KerberosTime *timestamp; int *usec; HostAddress *s_address; HostAddress *r_address; } EncKrbCredPart; int encode_EncKrbCredPart(unsigned char *, size_t, const EncKrbCredPart *, size_t *); int decode_EncKrbCredPart(const unsigned char *, size_t, EncKrbCredPart *, size_t *); void free_EncKrbCredPart (EncKrbCredPart *); size_t length_EncKrbCredPart(const EncKrbCredPart *); int copy_EncKrbCredPart (const EncKrbCredPart *, EncKrbCredPart *); /* KRB-ERROR ::= [APPLICATION 30] SEQUENCE { pvno[0] INTEGER, msg-type[1] MESSAGE-TYPE, ctime[2] KerberosTime OPTIONAL, cusec[3] INTEGER OPTIONAL, stime[4] KerberosTime, susec[5] INTEGER, error-code[6] INTEGER, crealm[7] Realm OPTIONAL, cname[8] PrincipalName OPTIONAL, realm[9] Realm, sname[10] PrincipalName, e-text[11] GeneralString OPTIONAL, e-data[12] OCTET STRING OPTIONAL } */ typedef struct { int pvno; MESSAGE_TYPE msg_type; KerberosTime *ctime; int *cusec; KerberosTime stime; int susec; int error_code; Realm *crealm; PrincipalName *cname; Realm realm; PrincipalName sname; heim_general_string *e_text; heim_octet_string *e_data; } KRB_ERROR; int encode_KRB_ERROR(unsigned char *, size_t, const KRB_ERROR *, size_t *); int decode_KRB_ERROR(const unsigned char *, size_t, KRB_ERROR *, size_t *); void free_KRB_ERROR (KRB_ERROR *); size_t length_KRB_ERROR(const KRB_ERROR *); int copy_KRB_ERROR (const KRB_ERROR *, KRB_ERROR *); /* ChangePasswdDataMS ::= SEQUENCE { newpasswd[0] OCTET STRING, targname[1] PrincipalName OPTIONAL, targrealm[2] Realm OPTIONAL } */ typedef struct ChangePasswdDataMS { heim_octet_string newpasswd; PrincipalName *targname; Realm *targrealm; } ChangePasswdDataMS; int encode_ChangePasswdDataMS(unsigned char *, size_t, const ChangePasswdDataMS *, size_t *); int decode_ChangePasswdDataMS(const unsigned char *, size_t, ChangePasswdDataMS *, size_t *); void free_ChangePasswdDataMS (ChangePasswdDataMS *); size_t length_ChangePasswdDataMS(const ChangePasswdDataMS *); int copy_ChangePasswdDataMS (const ChangePasswdDataMS *, ChangePasswdDataMS *); /* EtypeList ::= SEQUENCE OF INTEGER */ typedef struct EtypeList { unsigned int len; int *val; } EtypeList; int encode_EtypeList(unsigned char *, size_t, const EtypeList *, size_t *); int decode_EtypeList(const unsigned char *, size_t, EtypeList *, size_t *); void free_EtypeList (EtypeList *); size_t length_EtypeList(const EtypeList *); int copy_EtypeList (const EtypeList *, EtypeList *); enum { pvno = 5 }; enum { DOMAIN_X500_COMPRESS = 1 }; /* AD-IF-RELEVANT ::= AuthorizationData */ typedef AuthorizationData AD_IF_RELEVANT; int encode_AD_IF_RELEVANT(unsigned char *, size_t, const AD_IF_RELEVANT *, size_t *); int decode_AD_IF_RELEVANT(const unsigned char *, size_t, AD_IF_RELEVANT *, size_t *); void free_AD_IF_RELEVANT (AD_IF_RELEVANT *); size_t length_AD_IF_RELEVANT(const AD_IF_RELEVANT *); int copy_AD_IF_RELEVANT (const AD_IF_RELEVANT *, AD_IF_RELEVANT *); /* AD-KDCIssued ::= SEQUENCE { ad-checksum[0] Checksum, i-realm[1] Realm OPTIONAL, i-sname[2] PrincipalName OPTIONAL, elements[3] AuthorizationData } */ typedef struct AD_KDCIssued { Checksum ad_checksum; Realm *i_realm; PrincipalName *i_sname; AuthorizationData elements; } AD_KDCIssued; int encode_AD_KDCIssued(unsigned char *, size_t, const AD_KDCIssued *, size_t *); int decode_AD_KDCIssued(const unsigned char *, size_t, AD_KDCIssued *, size_t *); void free_AD_KDCIssued (AD_KDCIssued *); size_t length_AD_KDCIssued(const AD_KDCIssued *); int copy_AD_KDCIssued (const AD_KDCIssued *, AD_KDCIssued *); /* AD-AND-OR ::= SEQUENCE { condition-count[0] INTEGER, elements[1] AuthorizationData } */ typedef struct AD_AND_OR { int condition_count; AuthorizationData elements; } AD_AND_OR; int encode_AD_AND_OR(unsigned char *, size_t, const AD_AND_OR *, size_t *); int decode_AD_AND_OR(const unsigned char *, size_t, AD_AND_OR *, size_t *); void free_AD_AND_OR (AD_AND_OR *); size_t length_AD_AND_OR(const AD_AND_OR *); int copy_AD_AND_OR (const AD_AND_OR *, AD_AND_OR *); /* AD-MANDATORY-FOR-KDC ::= AuthorizationData */ typedef AuthorizationData AD_MANDATORY_FOR_KDC; int encode_AD_MANDATORY_FOR_KDC(unsigned char *, size_t, const AD_MANDATORY_FOR_KDC *, size_t *); int decode_AD_MANDATORY_FOR_KDC(const unsigned char *, size_t, AD_MANDATORY_FOR_KDC *, size_t *); void free_AD_MANDATORY_FOR_KDC (AD_MANDATORY_FOR_KDC *); size_t length_AD_MANDATORY_FOR_KDC(const AD_MANDATORY_FOR_KDC *); int copy_AD_MANDATORY_FOR_KDC (const AD_MANDATORY_FOR_KDC *, AD_MANDATORY_FOR_KDC *); /* PA-SAM-TYPE ::= INTEGER */ typedef enum PA_SAM_TYPE { PA_SAM_TYPE_ENIGMA = 1, PA_SAM_TYPE_DIGI_PATH = 2, PA_SAM_TYPE_SKEY_K0 = 3, PA_SAM_TYPE_SKEY = 4, PA_SAM_TYPE_SECURID = 5, PA_SAM_TYPE_CRYPTOCARD = 6 } PA_SAM_TYPE; int encode_PA_SAM_TYPE(unsigned char *, size_t, const PA_SAM_TYPE *, size_t *); int decode_PA_SAM_TYPE(const unsigned char *, size_t, PA_SAM_TYPE *, size_t *); void free_PA_SAM_TYPE (PA_SAM_TYPE *); size_t length_PA_SAM_TYPE(const PA_SAM_TYPE *); int copy_PA_SAM_TYPE (const PA_SAM_TYPE *, PA_SAM_TYPE *); /* PA-SAM-REDIRECT ::= HostAddresses */ typedef HostAddresses PA_SAM_REDIRECT; int encode_PA_SAM_REDIRECT(unsigned char *, size_t, const PA_SAM_REDIRECT *, size_t *); int decode_PA_SAM_REDIRECT(const unsigned char *, size_t, PA_SAM_REDIRECT *, size_t *); void free_PA_SAM_REDIRECT (PA_SAM_REDIRECT *); size_t length_PA_SAM_REDIRECT(const PA_SAM_REDIRECT *); int copy_PA_SAM_REDIRECT (const PA_SAM_REDIRECT *, PA_SAM_REDIRECT *); /* SAMFlags ::= BIT STRING { use-sad-as-key(0), send-encrypted-sad(1), must-pk-encrypt-sad(2) } */ typedef struct SAMFlags { unsigned int use_sad_as_key:1; unsigned int send_encrypted_sad:1; unsigned int must_pk_encrypt_sad:1; } SAMFlags; int encode_SAMFlags(unsigned char *, size_t, const SAMFlags *, size_t *); int decode_SAMFlags(const unsigned char *, size_t, SAMFlags *, size_t *); void free_SAMFlags (SAMFlags *); size_t length_SAMFlags(const SAMFlags *); int copy_SAMFlags (const SAMFlags *, SAMFlags *); unsigned SAMFlags2int(SAMFlags); SAMFlags int2SAMFlags(unsigned); const struct units * asn1_SAMFlags_units(void); /* PA-SAM-CHALLENGE-2-BODY ::= SEQUENCE { sam-type[0] INTEGER, sam-flags[1] SAMFlags, sam-type-name[2] GeneralString OPTIONAL, sam-track-id[3] GeneralString OPTIONAL, sam-challenge-label[4] GeneralString OPTIONAL, sam-challenge[5] GeneralString OPTIONAL, sam-response-prompt[6] GeneralString OPTIONAL, sam-pk-for-sad[7] EncryptionKey OPTIONAL, sam-nonce[8] INTEGER, sam-etype[9] INTEGER } */ typedef struct PA_SAM_CHALLENGE_2_BODY { int sam_type; SAMFlags sam_flags; heim_general_string *sam_type_name; heim_general_string *sam_track_id; heim_general_string *sam_challenge_label; heim_general_string *sam_challenge; heim_general_string *sam_response_prompt; EncryptionKey *sam_pk_for_sad; int sam_nonce; int sam_etype; } PA_SAM_CHALLENGE_2_BODY; int encode_PA_SAM_CHALLENGE_2_BODY(unsigned char *, size_t, const PA_SAM_CHALLENGE_2_BODY *, size_t *); int decode_PA_SAM_CHALLENGE_2_BODY(const unsigned char *, size_t, PA_SAM_CHALLENGE_2_BODY *, size_t *); void free_PA_SAM_CHALLENGE_2_BODY (PA_SAM_CHALLENGE_2_BODY *); size_t length_PA_SAM_CHALLENGE_2_BODY(const PA_SAM_CHALLENGE_2_BODY *); int copy_PA_SAM_CHALLENGE_2_BODY (const PA_SAM_CHALLENGE_2_BODY *, PA_SAM_CHALLENGE_2_BODY *); /* PA-SAM-CHALLENGE-2 ::= SEQUENCE { sam-body[0] PA-SAM-CHALLENGE-2-BODY, sam-cksum[1] SEQUENCE OF Checksum } */ typedef struct PA_SAM_CHALLENGE_2 { PA_SAM_CHALLENGE_2_BODY sam_body; struct { unsigned int len; Checksum *val; } sam_cksum; } PA_SAM_CHALLENGE_2; int encode_PA_SAM_CHALLENGE_2(unsigned char *, size_t, const PA_SAM_CHALLENGE_2 *, size_t *); int decode_PA_SAM_CHALLENGE_2(const unsigned char *, size_t, PA_SAM_CHALLENGE_2 *, size_t *); void free_PA_SAM_CHALLENGE_2 (PA_SAM_CHALLENGE_2 *); size_t length_PA_SAM_CHALLENGE_2(const PA_SAM_CHALLENGE_2 *); int copy_PA_SAM_CHALLENGE_2 (const PA_SAM_CHALLENGE_2 *, PA_SAM_CHALLENGE_2 *); /* PA-SAM-RESPONSE-2 ::= SEQUENCE { sam-type[0] INTEGER, sam-flags[1] SAMFlags, sam-track-id[2] GeneralString OPTIONAL, sam-enc-nonce-or-sad[3] EncryptedData, sam-nonce[4] INTEGER } */ typedef struct PA_SAM_RESPONSE_2 { int sam_type; SAMFlags sam_flags; heim_general_string *sam_track_id; EncryptedData sam_enc_nonce_or_sad; int sam_nonce; } PA_SAM_RESPONSE_2; int encode_PA_SAM_RESPONSE_2(unsigned char *, size_t, const PA_SAM_RESPONSE_2 *, size_t *); int decode_PA_SAM_RESPONSE_2(const unsigned char *, size_t, PA_SAM_RESPONSE_2 *, size_t *); void free_PA_SAM_RESPONSE_2 (PA_SAM_RESPONSE_2 *); size_t length_PA_SAM_RESPONSE_2(const PA_SAM_RESPONSE_2 *); int copy_PA_SAM_RESPONSE_2 (const PA_SAM_RESPONSE_2 *, PA_SAM_RESPONSE_2 *); /* PA-ENC-SAM-RESPONSE-ENC ::= SEQUENCE { sam-nonce[0] INTEGER, sam-sad[1] GeneralString OPTIONAL } */ typedef struct PA_ENC_SAM_RESPONSE_ENC { int sam_nonce; heim_general_string *sam_sad; } PA_ENC_SAM_RESPONSE_ENC; int encode_PA_ENC_SAM_RESPONSE_ENC(unsigned char *, size_t, const PA_ENC_SAM_RESPONSE_ENC *, size_t *); int decode_PA_ENC_SAM_RESPONSE_ENC(const unsigned char *, size_t, PA_ENC_SAM_RESPONSE_ENC *, size_t *); void free_PA_ENC_SAM_RESPONSE_ENC (PA_ENC_SAM_RESPONSE_ENC *); size_t length_PA_ENC_SAM_RESPONSE_ENC(const PA_ENC_SAM_RESPONSE_ENC *); int copy_PA_ENC_SAM_RESPONSE_ENC (const PA_ENC_SAM_RESPONSE_ENC *, PA_ENC_SAM_RESPONSE_ENC *); /* RC2CBCParameter ::= SEQUENCE { rc2ParameterVersion[0] INTEGER, iv[1] OCTET STRING } */ typedef struct RC2CBCParameter { int rc2ParameterVersion; heim_octet_string iv; } RC2CBCParameter; int encode_RC2CBCParameter(unsigned char *, size_t, const RC2CBCParameter *, size_t *); int decode_RC2CBCParameter(const unsigned char *, size_t, RC2CBCParameter *, size_t *); void free_RC2CBCParameter (RC2CBCParameter *); size_t length_RC2CBCParameter(const RC2CBCParameter *); int copy_RC2CBCParameter (const RC2CBCParameter *, RC2CBCParameter *); /* CBCParameter ::= OCTET STRING */ typedef heim_octet_string CBCParameter; int encode_CBCParameter(unsigned char *, size_t, const CBCParameter *, size_t *); int decode_CBCParameter(const unsigned char *, size_t, CBCParameter *, size_t *); void free_CBCParameter (CBCParameter *); size_t length_CBCParameter(const CBCParameter *); int copy_CBCParameter (const CBCParameter *, CBCParameter *); #endif /* __krb5_asn1_h__ */