/* Generated from /home/biorn/src/lib/libkrb5/../../kerberosV/src/lib/asn1/k5.asn1 */ /* Do not edit */ #include #include #include #include #include #include #include #include #include #define BACK if (e) return e; p -= l; len -= l; ret += l int encode_EncAPRepPart(unsigned char *p, size_t len, const EncAPRepPart *data, size_t *size) { size_t ret = 0; size_t l; int i, e; i = 0; if((data)->seq_number) { int oldret = ret; ret = 0; e = encode_UNSIGNED(p, len, (data)->seq_number, &l); BACK; e = der_put_length_and_tag (p, len, ret, ASN1_C_CONTEXT, CONS, 3, &l); BACK; ret += oldret; } if((data)->subkey) { int oldret = ret; ret = 0; e = encode_EncryptionKey(p, len, (data)->subkey, &l); BACK; e = der_put_length_and_tag (p, len, ret, ASN1_C_CONTEXT, CONS, 2, &l); BACK; ret += oldret; } { int oldret = ret; ret = 0; e = encode_integer(p, len, &(data)->cusec, &l); BACK; e = der_put_length_and_tag (p, len, ret, ASN1_C_CONTEXT, CONS, 1, &l); BACK; ret += oldret; } { int oldret = ret; ret = 0; e = encode_KerberosTime(p, len, &(data)->ctime, &l); BACK; e = der_put_length_and_tag (p, len, ret, ASN1_C_CONTEXT, CONS, 0, &l); BACK; ret += oldret; } e = der_put_length_and_tag (p, len, ret, ASN1_C_UNIV, CONS, UT_Sequence, &l); BACK; e = der_put_length_and_tag (p, len, ret, ASN1_C_APPL, CONS, 27, &l); BACK; *size = ret; return 0; } #define FORW if(e) goto fail; p += l; len -= l; ret += l int decode_EncAPRepPart(const unsigned char *p, size_t len, EncAPRepPart *data, size_t *size) { size_t ret = 0, reallen; size_t l; int e; memset(data, 0, sizeof(*data)); reallen = 0; e = der_match_tag_and_length (p, len, ASN1_C_APPL, CONS, 27, &reallen, &l); FORW; { int dce_fix; if((dce_fix = fix_dce(reallen, &len)) < 0) return ASN1_BAD_FORMAT; e = der_match_tag_and_length (p, len, ASN1_C_UNIV, CONS, UT_Sequence,&reallen, &l); FORW; { int dce_fix; if((dce_fix = fix_dce(reallen, &len)) < 0) return ASN1_BAD_FORMAT; { size_t newlen, oldlen; e = der_match_tag (p, len, ASN1_C_CONTEXT, CONS, 0, &l); if (e) return e; else { p += l; len -= l; ret += l; e = der_get_length (p, len, &newlen, &l); FORW; { int dce_fix; oldlen = len; if((dce_fix = fix_dce(newlen, &len)) < 0)return ASN1_BAD_FORMAT; e = decode_KerberosTime(p, len, &(data)->ctime, &l); FORW; if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; }else len = oldlen - newlen; } } } { size_t newlen, oldlen; e = der_match_tag (p, len, ASN1_C_CONTEXT, CONS, 1, &l); if (e) return e; else { p += l; len -= l; ret += l; e = der_get_length (p, len, &newlen, &l); FORW; { int dce_fix; oldlen = len; if((dce_fix = fix_dce(newlen, &len)) < 0)return ASN1_BAD_FORMAT; e = decode_integer(p, len, &(data)->cusec, &l); FORW; if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; }else len = oldlen - newlen; } } } { size_t newlen, oldlen; e = der_match_tag (p, len, ASN1_C_CONTEXT, CONS, 2, &l); if (e) (data)->subkey = NULL; else { p += l; len -= l; ret += l; e = der_get_length (p, len, &newlen, &l); FORW; { int dce_fix; oldlen = len; if((dce_fix = fix_dce(newlen, &len)) < 0)return ASN1_BAD_FORMAT; (data)->subkey = malloc(sizeof(*(data)->subkey)); if((data)->subkey == NULL) return ENOMEM; e = decode_EncryptionKey(p, len, (data)->subkey, &l); FORW; if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; }else len = oldlen - newlen; } } } { size_t newlen, oldlen; e = der_match_tag (p, len, ASN1_C_CONTEXT, CONS, 3, &l); if (e) (data)->seq_number = NULL; else { p += l; len -= l; ret += l; e = der_get_length (p, len, &newlen, &l); FORW; { int dce_fix; oldlen = len; if((dce_fix = fix_dce(newlen, &len)) < 0)return ASN1_BAD_FORMAT; (data)->seq_number = malloc(sizeof(*(data)->seq_number)); if((data)->seq_number == NULL) return ENOMEM; e = decode_UNSIGNED(p, len, (data)->seq_number, &l); FORW; if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; }else len = oldlen - newlen; } } } if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; } } if(dce_fix){ e = der_match_tag_and_length (p, len, (Der_class)0, (Der_type)0, 0, &reallen, &l); FORW; } } if(size) *size = ret; return 0; fail: free_EncAPRepPart(data); return e; } void free_EncAPRepPart(EncAPRepPart *data) { free_KerberosTime(&(data)->ctime); if((data)->subkey) { free_EncryptionKey((data)->subkey); free((data)->subkey); (data)->subkey = NULL; } if((data)->seq_number) { free_UNSIGNED((data)->seq_number); free((data)->seq_number); (data)->seq_number = NULL; } } size_t length_EncAPRepPart(const EncAPRepPart *data) { size_t ret = 0; { int oldret = ret; ret = 0; ret += length_KerberosTime(&(data)->ctime); ret += 1 + length_len(ret) + oldret; } { int oldret = ret; ret = 0; ret += length_integer(&(data)->cusec); ret += 1 + length_len(ret) + oldret; } if((data)->subkey){ int oldret = ret; ret = 0; ret += length_EncryptionKey((data)->subkey); ret += 1 + length_len(ret) + oldret; } if((data)->seq_number){ int oldret = ret; ret = 0; ret += length_UNSIGNED((data)->seq_number); ret += 1 + length_len(ret) + oldret; } ret += 1 + length_len(ret); ret += 1 + length_len (ret); return ret; } int copy_EncAPRepPart(const EncAPRepPart *from, EncAPRepPart *to) { if(copy_KerberosTime(&(from)->ctime, &(to)->ctime)) return ENOMEM; *(&(to)->cusec) = *(&(from)->cusec); if((from)->subkey) { (to)->subkey = malloc(sizeof(*(to)->subkey)); if((to)->subkey == NULL) return ENOMEM; if(copy_EncryptionKey((from)->subkey, (to)->subkey)) return ENOMEM; }else (to)->subkey = NULL; if((from)->seq_number) { (to)->seq_number = malloc(sizeof(*(to)->seq_number)); if((to)->seq_number == NULL) return ENOMEM; if(copy_UNSIGNED((from)->seq_number, (to)->seq_number)) return ENOMEM; }else (to)->seq_number = NULL; return 0; }