Changeset 30:bca243c65b56 in freeDiameter
- Timestamp:
- Oct 28, 2009, 4:32:25 PM (15 years ago)
- Branch:
- default
- Phase:
- public
- Location:
- freeDiameter
- Files:
-
- 2 edited
Legend:
- Unmodified
- Added
- Removed
-
freeDiameter/cnxctx.c
r29 r30 931 931 } 932 932 933 /* Wrapper around gnutls_record_recv to handle some error codes */ 934 static ssize_t fd_tls_send_handle_error(struct cnxctx * conn, gnutls_session_t session, void * data, size_t sz) 935 { 936 ssize_t ret; 937 again: 938 CHECK_GNUTLS_DO( ret = gnutls_record_send(session, data, sz), 939 { 940 switch (ret) { 941 case GNUTLS_E_REHANDSHAKE: 942 CHECK_GNUTLS_DO( ret = gnutls_handshake(session), 943 { 944 if (TRACE_BOOL(INFO)) { 945 fd_log_debug("TLS re-handshake failed on socket %d (%s) : %s\n", conn->cc_socket, conn->cc_id, gnutls_strerror(ret)); 946 } 947 goto end; 948 } ); 949 950 case GNUTLS_E_AGAIN: 951 case GNUTLS_E_INTERRUPTED: 952 goto again; 953 954 default: 955 TRACE_DEBUG(INFO, "This TLS error is not handled, assume unrecoverable error"); 956 } 957 } ); 958 end: 959 return ret; 960 } 961 962 963 933 964 /* Send function when no multi-stream is involved, or sending on stream #0 (send() always use stream 0)*/ 934 965 static int send_simple(struct cnxctx * conn, unsigned char * buf, size_t len) … … 939 970 do { 940 971 if (conn->cc_tls) { 941 CHECK_GNUTLS_DO( ret = gnutls_record_send (conn->cc_tls_para.session, buf + sent, len - sent), return ENOTCONN );972 CHECK_GNUTLS_DO( ret = fd_tls_send_handle_error(conn, conn->cc_tls_para.session, buf + sent, len - sent), return ENOTCONN ); 942 973 } else { 943 974 CHECK_SYS( ret = send(conn->cc_socket, buf + sent, len - sent, 0) ); /* better to replace with sendmsg for atomic sending? */ … … 984 1015 ASSERT(conn->cc_sctps_data.array != NULL); 985 1016 do { 986 CHECK_GNUTLS_DO( ret = gnutls_record_send (conn->cc_sctps_data.array[conn->cc_sctp_para.next - 1].session, buf + sent, len - sent), { TODO("Handle error (re-handshake, etc.."); return ENOTCONN; });1017 CHECK_GNUTLS_DO( ret = fd_tls_send_handle_error(conn, conn->cc_sctps_data.array[conn->cc_sctp_para.next].session, buf + sent, len - sent), return ENOTCONN ); 987 1018 sent += ret; 988 1019 } while ( sent < len ); -
freeDiameter/tests/testcnx.c
r29 r30 78 78 "-----END CERTIFICATE-----\n"; 79 79 80 80 /* Client: 81 Certificate: 82 Data: 83 Version: 3 (0x2) 84 Serial Number: 5 (0x5) 85 Signature Algorithm: sha1WithRSAEncryption 86 Issuer: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=chavroux.cowaddict.org/emailAddress=sdecugis@nict.go.jp 87 Validity 88 Not Before: Oct 27 04:04:05 2009 GMT 89 Not After : Oct 25 04:04:05 2019 GMT 90 Subject: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=client.test/emailAddress=client@test 91 Subject Public Key Info: 92 Public Key Algorithm: rsaEncryption 93 RSA Public Key: (1024 bit) 94 Modulus (1024 bit): 95 00:bd:eb:50:1e:9d:7a:cd:9d:bb:e7:bc:4e:38:4a: 96 b2:cc:9e:b4:89:77:01:ef:d1:c6:19:29:00:fe:ce: 97 3c:62:05:13:b1:8c:ff:31:7a:0f:c1:2e:4b:3c:0c: 98 40:1e:36:4e:76:da:0a:64:43:fc:1e:ea:0c:97:b2: 99 57:9c:9c:8c:90:bd:eb:23:7b:b8:b7:5c:03:ed:6f: 100 48:55:8a:88:08:38:c5:cd:33:b7:ab:a8:3a:6f:7f: 101 13:10:65:a5:50:b9:f4:8b:cc:2e:e9:79:58:a6:11: 102 f0:58:45:41:ef:36:b3:35:cb:14:ec:82:0c:ad:11: 103 6a:ea:64:ef:28:a2:6e:47:45 104 Exponent: 65537 (0x10001) 105 X509v3 extensions: 106 X509v3 Basic Constraints: 107 CA:FALSE 108 Netscape Comment: 109 OpenSSL Generated Certificate 110 X509v3 Subject Key Identifier: 111 BE:B3:89:4F:9D:8F:6C:20:C4:D0:3E:6A:05:11:82:50:54:49:70:A2 112 X509v3 Authority Key Identifier: 113 keyid:92:AA:55:9F:B3:77:82:68:89:ED:7E:73:43:66:E4:8B:EE:EA:BF:85 114 115 Signature Algorithm: sha1WithRSAEncryption 116 a3:88:f5:15:b5:ad:20:60:a1:85:19:3f:b9:5e:1e:be:31:7f: 117 84:7a:c2:18:3a:63:6a:67:1f:46:86:4d:10:d6:1d:ad:a2:c8: 118 0b:95:33:fa:e4:05:f4:b8:70:34:77:f7:85:6e:70:46:ac:39: 119 54:a9:5f:ea:5e:d1:33:bb:c9:a3:42:81:41:90:25:b5:92:8b: 120 e8:6e:3e:97:06:dd:9a:cc:29:61:34:5a:d3:1c:5d:ad:d1:a3: 121 eb:6a:47:b4:d0:c2:17:89:e1:e2:2d:36:18:50:1a:e7:d4:fc: 122 38:2e:47:0b:39:50:87:2f:aa:07:64:f8:9a:4d:47:01:da:10: 123 d8:97:c7:a6:13:bc:0e:ca:63:c1:f2:09:fb:f8:6a:a4:5f:08: 124 b5:ad:ed:4f:71:b9:89:7f:43:27:85:72:e7:8d:a8:4a:cc:f6: 125 36:ca:8a:ae:82:b5:a8:42:41:99:87:84:7c:f0:90:fd:ca:96: 126 37:a2:e0:d9:fa:dd:a4:c9:f1:50:b7:e5:e6:8f:af:83:8c:23: 127 b6:20:cc:66:e3:08:60:13:02:8f:42:3a:07:91:a7:38:b2:72: 128 16:fd:bd:a9:60:f0:e2:9f:23:f3:c0:99:e3:17:bc:00:7c:b3: 129 89:9c:ea:fa:3e:f6:69:a1:98:c2:ec:46:da:70:b6:f9:c3:93: 130 a7:fc:36:dd 131 */ 81 132 static char client_cert_data[] ="-----BEGIN CERTIFICATE-----\n" 82 133 "MIIDiTCCAnGgAwIBAgIBBTANBgkqhkiG9w0BAQUFADCBlDELMAkGA1UEBhMCSlAx\n" … … 116 167 "-----END RSA PRIVATE KEY-----\n"; 117 168 169 /* Server: 170 Certificate: 171 Data: 172 Version: 3 (0x2) 173 Serial Number: 4 (0x4) 174 Signature Algorithm: sha1WithRSAEncryption 175 Issuer: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=chavroux.cowaddict.org/emailAddress=sdecugis@nict.go.jp 176 Validity 177 Not Before: Oct 27 04:03:39 2009 GMT 178 Not After : Oct 25 04:03:39 2019 GMT 179 Subject: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=serv.test/emailAddress=serv@test 180 Subject Public Key Info: 181 Public Key Algorithm: rsaEncryption 182 RSA Public Key: (1024 bit) 183 Modulus (1024 bit): 184 00:a6:f7:1c:a9:90:5b:fa:c8:f6:a3:04:0c:d0:8b: 185 45:c3:90:f7:2d:c2:c9:d7:bd:66:8a:7c:1c:51:89: 186 40:9e:cd:70:57:cb:00:47:a3:e8:76:8b:00:b3:c9: 187 c3:0d:b1:b9:2a:08:9f:52:92:82:d3:18:c1:d8:d1: 188 b8:1e:fd:71:fe:23:ec:19:e9:6d:9d:fd:ae:88:bc: 189 39:44:7a:37:ad:c6:88:d1:64:7c:b1:d4:3c:a9:30: 190 c4:de:51:02:c4:48:4f:25:3e:2f:93:ae:25:32:66: 191 9a:dc:f4:44:45:ff:7f:12:49:97:0d:01:8d:13:9a: 192 d3:8f:9e:2d:62:95:02:0a:c7 193 Exponent: 65537 (0x10001) 194 X509v3 extensions: 195 X509v3 Basic Constraints: 196 CA:FALSE 197 Netscape Comment: 198 OpenSSL Generated Certificate 199 X509v3 Subject Key Identifier: 200 0C:33:C4:7F:39:D0:34:FF:F8:61:A1:46:8B:49:1D:A3:57:B3:4D:58 201 X509v3 Authority Key Identifier: 202 keyid:92:AA:55:9F:B3:77:82:68:89:ED:7E:73:43:66:E4:8B:EE:EA:BF:85 203 204 Signature Algorithm: sha1WithRSAEncryption 205 87:f5:49:a6:04:f9:98:9a:f1:1a:68:ce:06:ae:4c:0c:08:eb: 206 ba:98:e7:3f:df:22:7f:35:88:1d:b7:8a:f3:89:a3:68:0d:53: 207 45:eb:23:a1:dd:6b:dc:b0:80:58:0c:10:0b:49:74:ea:a8:b6: 208 8c:2e:c6:73:dc:7a:74:c7:59:3e:79:5a:d2:5c:15:0b:f1:d8: 209 19:37:2a:c0:22:75:10:3f:4c:e9:a1:e0:eb:b2:9e:09:70:3d: 210 2a:4c:fe:9c:99:36:4b:aa:6c:e1:8b:9c:aa:e1:29:1f:49:6b: 211 14:db:12:ae:cf:68:4a:dd:03:e1:3b:ad:79:b4:54:84:1d:bb: 212 ac:45:c4:85:f1:03:65:65:96:23:ae:e7:97:3c:5c:db:ce:55: 213 34:5d:c3:73:ec:cd:f6:0f:a5:81:5f:c2:ab:a3:42:fa:36:7f: 214 83:ef:db:0f:cd:62:0b:ea:d9:4f:73:35:68:5f:23:d5:0a:be: 215 ff:7f:23:9a:af:0d:a5:f8:3e:3a:f0:63:1c:e1:d2:96:81:cf: 216 7b:5a:6b:d0:9b:67:56:9e:aa:a9:e8:f1:6c:fb:54:2b:1a:f4: 217 ef:16:5a:be:1d:a9:c8:d6:cc:f7:42:8c:fe:83:2c:84:8c:80: 218 fb:1c:88:f6:35:1c:ae:43:72:fa:68:30:9c:25:8b:db:2c:84: 219 87:76:9d:b9 220 */ 118 221 static char server_cert_data[] ="-----BEGIN CERTIFICATE-----\n" 119 222 "MIIDhDCCAmygAwIBAgIBBDANBgkqhkiG9w0BAQUFADCBlDELMAkGA1UEBhMCSlAx\n" … … 153 256 "-----END RSA PRIVATE KEY-----\n"; 154 257 155 258 /* Expired: 259 Certificate: 260 Data: 261 Version: 3 (0x2) 262 Serial Number: 6 (0x6) 263 Signature Algorithm: sha1WithRSAEncryption 264 Issuer: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=chavroux.cowaddict.org/emailAddress=sdecugis@nict.go.jp 265 Validity 266 Not Before: Oct 27 04:06:35 2009 GMT 267 Not After : Oct 28 04:06:35 2009 GMT 268 Subject: C=JP, ST=Tokyo, L=Koganei, O=WIDE, OU=AAA WG, CN=expired.test/emailAddress=expired@test 269 Subject Public Key Info: 270 Public Key Algorithm: rsaEncryption 271 RSA Public Key: (1024 bit) 272 Modulus (1024 bit): 273 00:e3:17:15:54:85:dc:cf:c7:a0:32:4a:49:7d:55: 274 75:9b:29:15:db:7e:87:17:d9:0e:65:44:53:d7:19: 275 37:27:c7:c6:fe:c6:dc:72:2b:dc:86:1a:ff:24:6c: 276 63:3f:75:9c:0a:14:e1:70:06:79:d4:b9:26:d4:68: 277 4c:28:38:ba:34:60:56:02:3d:94:55:4a:1f:4e:5a: 278 f0:a5:71:4c:3e:71:69:39:ad:bc:aa:55:35:fb:73: 279 5b:5f:6c:30:71:8e:8a:b6:a5:06:cc:ee:dd:29:c7: 280 52:0d:a7:9c:0f:a1:ba:52:11:e2:1b:b9:74:6b:08: 281 87:11:d2:ec:a9:ac:63:63:4f 282 Exponent: 65537 (0x10001) 283 X509v3 extensions: 284 X509v3 Basic Constraints: 285 CA:FALSE 286 Netscape Comment: 287 OpenSSL Generated Certificate 288 X509v3 Subject Key Identifier: 289 1C:AF:66:42:5B:AD:AA:A5:9B:D9:AE:3A:C1:5A:AC:2F:CC:CE:22:6C 290 X509v3 Authority Key Identifier: 291 keyid:92:AA:55:9F:B3:77:82:68:89:ED:7E:73:43:66:E4:8B:EE:EA:BF:85 292 293 Signature Algorithm: sha1WithRSAEncryption 294 60:8f:55:55:59:82:0f:64:cb:b8:11:c8:44:ce:bf:69:07:0d: 295 be:c2:34:be:42:6a:78:15:39:9f:be:8a:17:d6:43:42:c9:7c: 296 f1:6d:5d:aa:c3:1b:4d:b0:f0:b6:73:46:2a:87:cd:55:56:a3: 297 6d:cc:de:a8:28:6a:53:85:9e:e5:68:b7:3c:f5:72:13:7b:d0: 298 21:f2:91:49:35:e0:37:1e:28:19:d5:1b:cc:e1:32:1e:7f:b0: 299 86:df:43:a4:47:0f:29:0b:eb:51:60:9a:f5:ca:50:f4:2d:59: 300 cd:fc:50:9d:29:ed:45:98:de:a2:5c:d1:b5:7a:34:ad:7a:73: 301 48:8b:a2:9b:89:8e:4a:2e:2a:04:19:d6:62:6a:0d:f0:96:f2: 302 f0:d0:22:77:3b:7f:b1:2a:f4:3b:17:47:5e:38:07:09:65:ad: 303 1d:ea:46:69:6a:96:b6:6b:3b:5c:cc:6e:30:d7:cb:53:69:59: 304 c2:63:78:2b:03:d4:d4:f7:17:29:99:9a:43:ff:78:0a:af:42: 305 c5:b3:8d:09:38:5b:30:70:28:c1:97:ab:fd:7f:87:9a:ec:f2: 306 97:44:ff:f5:b9:41:30:d1:c6:32:98:69:34:c4:39:30:6f:e2: 307 d3:b2:70:97:66:ee:41:f5:ae:0f:09:f0:ed:60:96:67:a9:8a: 308 cd:d6:95:f2 309 */ 156 310 static char expired_cert_data[]="-----BEGIN CERTIFICATE-----\n" 157 311 "MIIDizCCAnOgAwIBAgIBBjANBgkqhkiG9w0BAQUFADCBlDELMAkGA1UEBhMCSlAx\n" … … 269 423 struct cnxctx * client_side; 270 424 pthread_t thr; 271 int ret ;425 int ret, i; 272 426 uint8_t * cer_buf; 273 427 size_t cer_sz; … … 508 662 CHECK( 0, hf.ret ); 509 663 510 /* Send a TLS protected message, and a reply */ 511 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 512 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 513 CHECK( cer_sz, rcv_sz ); 514 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 515 516 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 517 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 518 CHECK( cer_sz, rcv_sz ); 519 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 664 /* Send a few TLS protected message, and replies */ 665 for (i = 0; i < 10; i++) { 666 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 667 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 668 CHECK( cer_sz, rcv_sz ); 669 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 670 671 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 672 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 673 CHECK( cer_sz, rcv_sz ); 674 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 675 } 676 520 677 521 678 /* Now close the connection */ … … 523 680 fd_cnx_destroy(server_side); 524 681 CHECK( 0, pthread_join(thr, NULL) ); 682 683 /* Free the credentials */ 684 gnutls_certificate_free_keys(hf.creds); 685 gnutls_certificate_free_cas(hf.creds); 686 gnutls_certificate_free_credentials(hf.creds); 525 687 } 526 688 … … 581 743 CHECK( 0, hf.ret ); 582 744 583 /* Send a few TLS protected message, and a reply */ 584 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 585 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 586 CHECK( cer_sz, rcv_sz ); 587 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 588 589 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 590 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 591 CHECK( cer_sz, rcv_sz ); 592 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 593 594 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 595 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 596 CHECK( cer_sz, rcv_sz ); 597 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 598 599 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 600 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 601 CHECK( cer_sz, rcv_sz ); 602 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 603 604 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 605 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 606 CHECK( cer_sz, rcv_sz ); 607 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 608 609 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 610 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 611 CHECK( cer_sz, rcv_sz ); 612 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 745 /* Send a few TLS protected message, and replies */ 746 for (i = 0; i < 100; i++) { 747 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 748 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 749 CHECK( cer_sz, rcv_sz ); 750 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 751 752 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 753 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 754 CHECK( cer_sz, rcv_sz ); 755 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 756 } 757 613 758 614 759 /* Now close the connection */ … … 616 761 fd_cnx_destroy(server_side); 617 762 CHECK( 0, pthread_join(thr, NULL) ); 763 764 /* Free the credentials */ 765 gnutls_certificate_free_keys(hf.creds); 766 gnutls_certificate_free_cas(hf.creds); 767 gnutls_certificate_free_credentials(hf.creds); 618 768 } 619 769 #endif /* DISABLE_SCTP */ 620 770 771 /* TCP Client / server emulating new Diameter behavior (handshake at connection directly) */ 772 { 773 struct connect_flags cf; 774 struct handshake_flags hf; 775 int i; 776 777 memset(&cf, 0, sizeof(cf)); 778 cf.proto = IPPROTO_TCP; 779 780 memset(&hf, 0, sizeof(hf)); 781 782 /* Initialize remote certificate */ 783 CHECK_GNUTLS_DO( ret = gnutls_certificate_allocate_credentials (&hf.creds), ); 784 CHECK( GNUTLS_E_SUCCESS, ret ); 785 /* Set the CA */ 786 CHECK_GNUTLS_DO( ret = gnutls_certificate_set_x509_trust_mem( hf.creds, &ca, GNUTLS_X509_FMT_PEM), ); 787 CHECK( 1, ret ); 788 /* Set the key */ 789 CHECK_GNUTLS_DO( ret = gnutls_certificate_set_x509_key_mem( hf.creds, &client_cert, &client_priv, GNUTLS_X509_FMT_PEM), ); 790 CHECK( GNUTLS_E_SUCCESS, ret ); 791 792 /* Start the client thread */ 793 CHECK( 0, pthread_create(&thr, 0, connect_thr, &cf) ); 794 795 /* Accept the connection of the client */ 796 server_side = fd_cnx_serv_accept(listener); 797 CHECK( 1, server_side ? 1 : 0 ); 798 799 /* Retrieve the client connection object */ 800 CHECK( 0, pthread_join( thr, (void *)&client_side ) ); 801 CHECK( 1, client_side ? 1 : 0 ); 802 hf.cnx = client_side; 803 804 /* Start the handshake directly */ 805 CHECK( 0, pthread_create(&thr, 0, handshake_thr, &hf) ); 806 CHECK( 0, fd_cnx_handshake(server_side, GNUTLS_SERVER, NULL, NULL) ); 807 CHECK( 0, pthread_join(thr, NULL) ); 808 CHECK( 0, hf.ret ); 809 810 /* Send a few TLS protected message, and replies */ 811 for (i = 0; i < 10; i++) { 812 CHECK( 0, fd_cnx_send(server_side, cer_buf, cer_sz)); 813 CHECK( 0, fd_cnx_receive(client_side, NULL, &rcv_buf, &rcv_sz)); 814 CHECK( cer_sz, rcv_sz ); 815 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 816 817 CHECK( 0, fd_cnx_send(client_side, cer_buf, cer_sz)); 818 CHECK( 0, fd_cnx_receive(server_side, NULL, &rcv_buf, &rcv_sz)); 819 CHECK( cer_sz, rcv_sz ); 820 CHECK( 0, memcmp( rcv_buf, cer_buf, cer_sz ) ); 821 } 822 823 /* Now close the connection */ 824 CHECK( 0, pthread_create(&thr, 0, destroy_thr, client_side) ); 825 fd_cnx_destroy(server_side); 826 CHECK( 0, pthread_join(thr, NULL) ); 827 828 /* Free the credentials */ 829 gnutls_certificate_free_keys(hf.creds); 830 gnutls_certificate_free_cas(hf.creds); 831 gnutls_certificate_free_credentials(hf.creds); 832 } 621 833 622 834 /* That's all for the tests yet */
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