/* * Copyright (c) 2007, Cameron Rich * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of the axTLS project nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * The testing of the crypto and ssl stuff goes here. Keeps the individual code * modules from being uncluttered with test code. * * This is test code - I make no apologies for the quality! */ #include #include #include #include #include #include #include #ifndef WIN32 #include #endif #include "ssl.h" #define DEFAULT_CERT "../ssl/test/axTLS.x509_512.cer" #define DEFAULT_KEY "../ssl/test/axTLS.key_512" //#define DEFAULT_SVR_OPTION SSL_DISPLAY_BYTES|SSL_DISPLAY_STATES #define DEFAULT_SVR_OPTION 0 #define DEFAULT_CLNT_OPTION 0 //#define DEFAULT_CLNT_OPTION SSL_DISPLAY_BYTES|SSL_DISPLAY_STATES static int g_port = 19001; /************************************************************************** * AES tests * * Run through a couple of the RFC3602 tests to verify that AES is correct. **************************************************************************/ #define TEST1_SIZE 16 #define TEST2_SIZE 32 static int AES_test(BI_CTX *bi_ctx) { AES_CTX aes_key; int res = 1; uint8_t key[TEST1_SIZE]; uint8_t iv[TEST1_SIZE]; { /* Case #1: Encrypting 16 bytes (1 block) using AES-CBC Key : 0x06a9214036b8a15b512e03d534120006 IV : 0x3dafba429d9eb430b422da802c9fac41 Plaintext : "Single block msg" Ciphertext: 0xe353779c1079aeb82708942dbe77181a */ char *in_str = "Single block msg"; uint8_t ct[TEST1_SIZE]; uint8_t enc_data[TEST1_SIZE]; uint8_t dec_data[TEST1_SIZE]; bigint *key_bi = bi_str_import( bi_ctx, "06A9214036B8A15B512E03D534120006"); bigint *iv_bi = bi_str_import( bi_ctx, "3DAFBA429D9EB430B422DA802C9FAC41"); bigint *ct_bi = bi_str_import( bi_ctx, "E353779C1079AEB82708942DBE77181A"); bi_export(bi_ctx, key_bi, key, TEST1_SIZE); bi_export(bi_ctx, iv_bi, iv, TEST1_SIZE); bi_export(bi_ctx, ct_bi, ct, TEST1_SIZE); AES_set_key(&aes_key, key, iv, AES_MODE_128); AES_cbc_encrypt(&aes_key, (const uint8_t *)in_str, enc_data, sizeof(enc_data)); if (memcmp(enc_data, ct, sizeof(ct))) { printf("Error: AES ENCRYPT #1 failed\n"); goto end; } AES_set_key(&aes_key, key, iv, AES_MODE_128); AES_convert_key(&aes_key); AES_cbc_decrypt(&aes_key, enc_data, dec_data, sizeof(enc_data)); if (memcmp(dec_data, in_str, sizeof(dec_data))) { printf("Error: AES DECRYPT #1 failed\n"); goto end; } } { /* Case #2: Encrypting 32 bytes (2 blocks) using AES-CBC Key : 0xc286696d887c9aa0611bbb3e2025a45a IV : 0x562e17996d093d28ddb3ba695a2e6f58 Plaintext : 0x000102030405060708090a0b0c0d0e0f 101112131415161718191a1b1c1d1e1f Ciphertext: 0xd296cd94c2cccf8a3a863028b5e1dc0a 7586602d253cfff91b8266bea6d61ab1 */ uint8_t in_data[TEST2_SIZE]; uint8_t ct[TEST2_SIZE]; uint8_t enc_data[TEST2_SIZE]; uint8_t dec_data[TEST2_SIZE]; bigint *in_bi = bi_str_import(bi_ctx, "000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F"); bigint *key_bi = bi_str_import( bi_ctx, "C286696D887C9AA0611BBB3E2025A45A"); bigint *iv_bi = bi_str_import( bi_ctx, "562E17996D093D28DDB3BA695A2E6F58"); bigint *ct_bi = bi_str_import(bi_ctx, "D296CD94C2CCCF8A3A863028B5E1DC0A7586602D253CFFF91B8266BEA6D61AB1"); bi_export(bi_ctx, in_bi, in_data, TEST2_SIZE); bi_export(bi_ctx, key_bi, key, TEST1_SIZE); bi_export(bi_ctx, iv_bi, iv, TEST1_SIZE); bi_export(bi_ctx, ct_bi, ct, TEST2_SIZE); AES_set_key(&aes_key, key, iv, AES_MODE_128); AES_cbc_encrypt(&aes_key, (const uint8_t *)in_data, enc_data, sizeof(enc_data)); if (memcmp(enc_data, ct, sizeof(ct))) { printf("Error: ENCRYPT #2 failed\n"); goto end; } AES_set_key(&aes_key, key, iv, AES_MODE_128); AES_convert_key(&aes_key); AES_cbc_decrypt(&aes_key, enc_data, dec_data, sizeof(enc_data)); if (memcmp(dec_data, in_data, sizeof(dec_data))) { printf("Error: DECRYPT #2 failed\n"); goto end; } } res = 0; printf("All AES tests passed\n"); end: return res; } /************************************************************************** * RC4 tests * * ARC4 tests vectors from OpenSSL (crypto/rc4/rc4test.c) **************************************************************************/ static const uint8_t keys[7][30]= { {8,0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef}, {8,0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef}, {8,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00}, {4,0xef,0x01,0x23,0x45}, {8,0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef}, {4,0xef,0x01,0x23,0x45}, }; static const uint8_t data_len[7]={8,8,8,20,28,10}; static uint8_t data[7][30]= { {0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef,0xff}, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xff}, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xff}, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0xff}, {0x12,0x34,0x56,0x78,0x9A,0xBC,0xDE,0xF0, 0x12,0x34,0x56,0x78,0x9A,0xBC,0xDE,0xF0, 0x12,0x34,0x56,0x78,0x9A,0xBC,0xDE,0xF0, 0x12,0x34,0x56,0x78,0xff}, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xff}, {0}, }; static const uint8_t output[7][30]= { {0x75,0xb7,0x87,0x80,0x99,0xe0,0xc5,0x96,0x00}, {0x74,0x94,0xc2,0xe7,0x10,0x4b,0x08,0x79,0x00}, {0xde,0x18,0x89,0x41,0xa3,0x37,0x5d,0x3a,0x00}, {0xd6,0xa1,0x41,0xa7,0xec,0x3c,0x38,0xdf, 0xbd,0x61,0x5a,0x11,0x62,0xe1,0xc7,0xba, 0x36,0xb6,0x78,0x58,0x00}, {0x66,0xa0,0x94,0x9f,0x8a,0xf7,0xd6,0x89, 0x1f,0x7f,0x83,0x2b,0xa8,0x33,0xc0,0x0c, 0x89,0x2e,0xbe,0x30,0x14,0x3c,0xe2,0x87, 0x40,0x01,0x1e,0xcf,0x00}, {0xd6,0xa1,0x41,0xa7,0xec,0x3c,0x38,0xdf,0xbd,0x61,0x00}, {0}, }; static int RC4_test(BI_CTX *bi_ctx) { int i, res = 1; RC4_CTX s; for (i = 0; i < 6; i++) { RC4_setup(&s, &keys[i][1], keys[i][0]); RC4_crypt(&s, data[i], data[i], data_len[i]); if (memcmp(data[i], output[i], data_len[i])) { printf("Error: RC4 CRYPT #%d failed\n", i); goto end; } } res = 0; printf("All RC4 tests passed\n"); end: return res; } /************************************************************************** * SHA1 tests * * Run through a couple of the RFC3174 tests to verify that SHA1 is correct. **************************************************************************/ static int SHA1_test(BI_CTX *bi_ctx) { SHA1_CTX ctx; uint8_t ct[SHA1_SIZE]; uint8_t digest[SHA1_SIZE]; int res = 1; { const char *in_str = "abc"; bigint *ct_bi = bi_str_import(bi_ctx, "A9993E364706816ABA3E25717850C26C9CD0D89D"); bi_export(bi_ctx, ct_bi, ct, SHA1_SIZE); SHA1_Init(&ctx); SHA1_Update(&ctx, (const uint8_t *)in_str, strlen(in_str)); SHA1_Final(digest, &ctx); if (memcmp(digest, ct, sizeof(ct))) { printf("Error: SHA1 #1 failed\n"); goto end; } } { const char *in_str = "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq"; bigint *ct_bi = bi_str_import(bi_ctx, "84983E441C3BD26EBAAE4AA1F95129E5E54670F1"); bi_export(bi_ctx, ct_bi, ct, SHA1_SIZE); SHA1_Init(&ctx); SHA1_Update(&ctx, (const uint8_t *)in_str, strlen(in_str)); SHA1_Final(digest, &ctx); if (memcmp(digest, ct, sizeof(ct))) { printf("Error: SHA1 #2 failed\n"); goto end; } } res = 0; printf("All SHA1 tests passed\n"); end: return res; } /************************************************************************** * MD5 tests * * Run through a couple of the RFC1321 tests to verify that MD5 is correct. **************************************************************************/ static int MD5_test(BI_CTX *bi_ctx) { MD5_CTX ctx; uint8_t ct[MD5_SIZE]; uint8_t digest[MD5_SIZE]; int res = 1; { const char *in_str = "abc"; bigint *ct_bi = bi_str_import(bi_ctx, "900150983CD24FB0D6963F7D28E17F72"); bi_export(bi_ctx, ct_bi, ct, MD5_SIZE); MD5_Init(&ctx); MD5_Update(&ctx, (const uint8_t *)in_str, strlen(in_str)); MD5_Final(digest, &ctx); if (memcmp(digest, ct, sizeof(ct))) { printf("Error: MD5 #1 failed\n"); goto end; } } { const char *in_str = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"; bigint *ct_bi = bi_str_import( bi_ctx, "D174AB98D277D9F5A5611C2C9F419D9F"); bi_export(bi_ctx, ct_bi, ct, MD5_SIZE); MD5_Init(&ctx); MD5_Update(&ctx, (const uint8_t *)in_str, strlen(in_str)); MD5_Final(digest, &ctx); if (memcmp(digest, ct, sizeof(ct))) { printf("Error: MD5 #2 failed\n"); goto end; } } res = 0; printf("All MD5 tests passed\n"); end: return res; } /************************************************************************** * HMAC tests * * Run through a couple of the RFC2202 tests to verify that HMAC is correct. **************************************************************************/ static int HMAC_test(BI_CTX *bi_ctx) { uint8_t key[SHA1_SIZE]; uint8_t ct[SHA1_SIZE]; uint8_t dgst[SHA1_SIZE]; int res = 1; const char *key_str; const char *data_str = "Hi There"; bigint *key_bi = bi_str_import(bi_ctx, "0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B"); bigint *ct_bi = bi_str_import(bi_ctx, "9294727A3638BB1C13F48EF8158BFC9D"); bi_export(bi_ctx, key_bi, key, MD5_SIZE); bi_export(bi_ctx, ct_bi, ct, MD5_SIZE); hmac_md5((const uint8_t *)data_str, 8, key, MD5_SIZE, dgst); if (memcmp(dgst, ct, MD5_SIZE)) { printf("HMAC MD5 #1 failed\n"); goto end; } data_str = "what do ya want for nothing?"; key_str = "Jefe"; ct_bi = bi_str_import(bi_ctx, "750C783E6AB0B503EAA86E310A5DB738"); bi_export(bi_ctx, ct_bi, ct, MD5_SIZE); hmac_md5((const uint8_t *)data_str, 28, (const uint8_t *)key_str, 4, dgst); if (memcmp(dgst, ct, MD5_SIZE)) { printf("HMAC MD5 #2 failed\n"); goto end; } data_str = "Hi There"; key_bi = bi_str_import(bi_ctx, "0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B"); bi_export(bi_ctx, key_bi, key, SHA1_SIZE); ct_bi = bi_str_import(bi_ctx, "B617318655057264E28BC0B6FB378C8EF146BE00"); bi_export(bi_ctx, ct_bi, ct, SHA1_SIZE); hmac_sha1((const uint8_t *)data_str, 8, (const uint8_t *)key, SHA1_SIZE, dgst); if (memcmp(dgst, ct, SHA1_SIZE)) { printf("HMAC SHA1 #1 failed\n"); goto end; } data_str = "what do ya want for nothing?"; key_str = "Jefe"; ct_bi = bi_str_import(bi_ctx, "EFFCDF6AE5EB2FA2D27416D5F184DF9C259A7C79"); bi_export(bi_ctx, ct_bi, ct, SHA1_SIZE); hmac_sha1((const uint8_t *)data_str, 28, (const uint8_t *)key_str, 5, dgst); if (memcmp(dgst, ct, SHA1_SIZE)) { printf("HMAC SHA1 failed\n"); exit(1); } res = 0; printf("All HMAC tests passed\n"); end: return res; } /************************************************************************** * BIGINT tests * **************************************************************************/ static int BIGINT_test(BI_CTX *ctx) { int res = 1; bigint *bi_data, *bi_exp, *bi_res; const char *expnt, *plaintext, *mod; uint8_t compare[MAX_KEY_BYTE_SIZE]; /** * 512 bit key */ plaintext = /* 64 byte number */ "01aaaaaaaaaabbbbbbbbbbbbbbbccccccccccccccdddddddddddddeeeeeeeeee"; mod = "C30773C8ABE09FCC279EE0E5343370DE" "8B2FFDB6059271E3005A7CEEF0D35E0A" "1F9915D95E63560836CC2EB2C289270D" "BCAE8CAF6F5E907FC2759EE220071E1B"; expnt = "A1E556CD1738E10DF539E35101334E97" "BE8D391C57A5C89A7AD9A2EA2ACA1B3D" "F3140F5091CC535CBAA47CEC4159EE1F" "B6A3661AFF1AB758426EAB158452A9B9"; bi_data = bi_import(ctx, (uint8_t *)plaintext, strlen(plaintext)); bi_exp = int_to_bi(ctx, 0x10001); bi_set_mod(ctx, bi_str_import(ctx, mod), 0); bi_res = bi_mod_power(ctx, bi_data, bi_exp); bi_data = bi_res; /* resuse again - see if we get the original */ bi_exp = bi_str_import(ctx, expnt); bi_res = bi_mod_power(ctx, bi_data, bi_exp); bi_free_mod(ctx, 0); bi_export(ctx, bi_res, compare, 64); if (memcmp(plaintext, compare, 64) != 0) goto end; printf("All BIGINT tests passed\n"); res = 0; end: return res; } /************************************************************************** * RSA tests * * Use the results from openssl to verify PKCS1 etc **************************************************************************/ static int RSA_test(void) { int res = 1; const char *plaintext = /* 128 byte hex number */ "1aaaaaaaaaabbbbbbbbbbbbbbbccccccccccccccdddddddddddddeeeeeeeeee2" "1aaaaaaaaaabbbbbbbbbbbbbbbccccccccccccccdddddddddddddeeeeeeeee2\012"; uint8_t enc_data[128], dec_data[128]; RSA_CTX *rsa_ctx = NULL; BI_CTX *bi_ctx; bigint *plaintext_bi; bigint *enc_data_bi, *dec_data_bi; uint8_t enc_data2[128], dec_data2[128]; int size; int len; uint8_t *buf; /* extract the private key elements */ len = get_file("../ssl/test/axTLS.key_1024", &buf); if (asn1_get_private_key(buf, len, &rsa_ctx) < 0) { goto end; } free(buf); bi_ctx = rsa_ctx->bi_ctx; plaintext_bi = bi_import(bi_ctx, (const uint8_t *)plaintext, strlen(plaintext)); /* basic rsa encrypt */ enc_data_bi = RSA_public(rsa_ctx, plaintext_bi); bi_export(bi_ctx, bi_copy(enc_data_bi), enc_data, sizeof(enc_data)); /* basic rsa decrypt */ dec_data_bi = RSA_private(rsa_ctx, enc_data_bi); bi_export(bi_ctx, dec_data_bi, dec_data, sizeof(dec_data)); if (memcmp(dec_data, plaintext, strlen(plaintext))) { printf("Error: DECRYPT #1 failed\n"); goto end; } RSA_encrypt(rsa_ctx, (const uint8_t *)"abc", 3, enc_data2, 0); size = RSA_decrypt(rsa_ctx, enc_data2, dec_data2, 1); if (memcmp("abc", dec_data2, 3)) { printf("Error: ENCRYPT/DECRYPT #2 failed\n"); goto end; } RSA_free(rsa_ctx); res = 0; printf("All RSA tests passed\n"); end: return res; } /************************************************************************** * Cert Testing * **************************************************************************/ static int cert_tests(void) { int res = -1, len; X509_CTX *x509_ctx; SSL_CTX *ssl_ctx; uint8_t *buf; /* check a bunch of 3rd party certificates */ ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/microsoft.x509_ca", &buf); if ((res = add_cert_auth(ssl_ctx, buf, len)) < 0) { printf("Cert #1\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/thawte.x509_ca", &buf); if ((res = add_cert_auth(ssl_ctx, buf, len)) < 0) { printf("Cert #2\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/deutsche_telecom.x509_ca", &buf); if ((res = add_cert_auth(ssl_ctx, buf, len)) < 0) { printf("Cert #3\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/equifax.x509_ca", &buf); if ((res = add_cert_auth(ssl_ctx, buf, len)) < 0) { printf("Cert #4\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/gnutls.cer", &buf); if ((res = add_cert(ssl_ctx, buf, len)) < 0) { printf("Cert #5\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/socgen.cer", &buf); if ((res = add_cert(ssl_ctx, buf, len)) < 0) { printf("Cert #6\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); len = get_file("../ssl/test/verisign.x509_ca", &buf); if ((res = add_cert_auth(ssl_ctx, buf, len)) <0) { printf("Cert #7\n"); ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); free(buf); if (get_file("../ssl/test/verisign.x509_my_cert", &buf) < 0 || x509_new(buf, &len, &x509_ctx)) { printf("Cert #8\n"); ssl_display_error(res); goto bad_cert; } x509_free(x509_ctx); free(buf); ssl_ctx = ssl_ctx_new(0, 0); if ((res = ssl_obj_load(ssl_ctx, SSL_OBJ_X509_CERT, "../ssl/test/ms_iis.cer", NULL)) != SSL_OK) { ssl_display_error(res); goto bad_cert; } ssl_ctx_free(ssl_ctx); res = 0; /* all ok */ printf("All Certificate tests passed\n"); bad_cert: if (res) printf("Error: A certificate test failed\n"); return res; } /** * init a server socket. */ static int server_socket_init(int *port) { struct sockaddr_in serv_addr; int server_fd; char yes = 1; /* Create socket for incoming connections */ if ((server_fd = socket(AF_INET, SOCK_STREAM, 0)) < 0) { return -1; } setsockopt(server_fd, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof(yes)); go_again: /* Construct local address structure */ memset(&serv_addr, 0, sizeof(serv_addr)); /* Zero out structure */ serv_addr.sin_family = AF_INET; /* Internet address family */ serv_addr.sin_addr.s_addr = htonl(INADDR_ANY); /* Any incoming interface */ serv_addr.sin_port = htons(*port); /* Local port */ /* Bind to the local address */ if (bind(server_fd, (struct sockaddr *) &serv_addr, sizeof(serv_addr)) < 0) { (*port)++; goto go_again; } /* Mark the socket so it will listen for incoming connections */ if (listen(server_fd, 3000) < 0) { return -1; } return server_fd; } /** * init a client socket. */ static int client_socket_init(uint16_t port) { struct sockaddr_in address; int client_fd; address.sin_family = AF_INET; address.sin_port = htons(port); address.sin_addr.s_addr = inet_addr("127.0.0.1"); client_fd = socket(AF_INET, SOCK_STREAM, 0); if (connect(client_fd, (struct sockaddr *)&address, sizeof(address)) < 0) { perror("socket"); SOCKET_CLOSE(client_fd); client_fd = -1; } return client_fd; } /************************************************************************** * SSL Server Testing * **************************************************************************/ typedef struct { /* not used as yet */ int dummy; } SVR_CTX; typedef struct { const char *testname; const char *openssl_option; } client_t; static void do_client(client_t *clnt) { char openssl_buf[2048]; /* make sure the main thread goes first */ sleep(0); /* show the session ids in the reconnect test */ if (strcmp(clnt->testname, "Session Reuse") == 0) { sprintf(openssl_buf, "echo \"hello client\" | openssl s_client " "-connect localhost:%d %s 2>&1 | grep \"Session-ID:\"", g_port, clnt->openssl_option); } else { sprintf(openssl_buf, "echo \"hello client\" | openssl s_client " #ifdef WIN32 "-connect localhost:%d -quiet %s", #else "-connect localhost:%d -quiet %s > /dev/null 2>&1", #endif g_port, clnt->openssl_option); } system(openssl_buf); } static int SSL_server_test( const char *testname, const char *openssl_option, const char *device_cert, const char *product_cert, const char *private_key, const char *ca_cert, const char *password, int axtls_option) { int server_fd, ret = 0; SSL_CTX *ssl_ctx = NULL; struct sockaddr_in client_addr; uint8_t *read_buf; socklen_t clnt_len = sizeof(client_addr); client_t client_data; #ifndef WIN32 pthread_t thread; #endif g_port++; client_data.testname = testname; client_data.openssl_option = openssl_option; if ((server_fd = server_socket_init(&g_port)) < 0) goto error; if (private_key) { axtls_option |= SSL_NO_DEFAULT_KEY; } if ((ssl_ctx = ssl_ctx_new(axtls_option, SSL_DEFAULT_SVR_SESS)) == NULL) { ret = SSL_ERROR_INVALID_KEY; goto error; } if (private_key) { int obj_type = SSL_OBJ_RSA_KEY; if (strstr(private_key, ".p8")) obj_type = SSL_OBJ_PKCS8; else if (strstr(private_key, ".p12")) obj_type = SSL_OBJ_PKCS12; if (ssl_obj_load(ssl_ctx, obj_type, private_key, password)) { ret = SSL_ERROR_INVALID_KEY; goto error; } } if (device_cert) /* test chaining */ { if ((ret = ssl_obj_load(ssl_ctx, SSL_OBJ_X509_CERT, device_cert, NULL)) != SSL_OK) goto error; } if (product_cert) /* test chaining */ { if ((ret = ssl_obj_load(ssl_ctx, SSL_OBJ_X509_CERT, product_cert, NULL)) != SSL_OK) goto error; } if (ca_cert) /* test adding certificate authorities */ { if ((ret = ssl_obj_load(ssl_ctx, SSL_OBJ_X509_CACERT, ca_cert, NULL)) != SSL_OK) goto error; } #ifndef WIN32 pthread_create(&thread, NULL, (void *(*)(void *))do_client, (void *)&client_data); pthread_detach(thread); #else CreateThread(NULL, 1024, (LPTHREAD_START_ROUTINE)do_client, (LPVOID)&client_data, 0, NULL); #endif for (;;) { int client_fd, size = 0; SSL *ssl; /* Wait for a client to connect */ if ((client_fd = accept(server_fd, (struct sockaddr *)&client_addr, &clnt_len)) < 0) { ret = SSL_ERROR_SOCK_SETUP_FAILURE; goto error; } /* we are ready to go */ ssl = ssl_server_new(ssl_ctx, client_fd); while ((size = ssl_read(ssl, &read_buf)) == SSL_OK); SOCKET_CLOSE(client_fd); if (size < SSL_OK) /* got some alert or something nasty */ { ret = size; if (ret == SSL_ERROR_CONN_LOST) { ret = SSL_OK; continue; } break; /* we've got a problem */ } else /* looks more promising */ { if (strstr("hello client", (char *)read_buf) == NULL) { printf("SSL server test \"%s\" passed\n", testname); TTY_FLUSH(); ret = 0; break; } } ssl_free(ssl); } SOCKET_CLOSE(server_fd); error: ssl_ctx_free(ssl_ctx); return ret; } int SSL_server_tests(void) { int ret = -1; struct stat stat_buf; SVR_CTX svr_test_ctx; memset(&svr_test_ctx, 0, sizeof(SVR_CTX)); printf("### starting server tests\n"); TTY_FLUSH(); /* Go through the algorithms */ /* * TLS1 client hello */ if ((ret = SSL_server_test("TLSv1", "-cipher RC4-SHA -tls1", NULL, NULL, NULL, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * AES128-SHA */ if ((ret = SSL_server_test("AES256-SHA", "-cipher AES128-SHA", DEFAULT_CERT, NULL, DEFAULT_KEY, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * AES256-SHA */ if ((ret = SSL_server_test("AES256-SHA", "-cipher AES128-SHA", DEFAULT_CERT, NULL, DEFAULT_KEY, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * RC4-SHA */ if ((ret = SSL_server_test("RC4-SHA", "-cipher RC4-SHA", DEFAULT_CERT, NULL, DEFAULT_KEY, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * RC4-MD5 */ if ((ret = SSL_server_test("RC4-MD5", "-cipher RC4-MD5", DEFAULT_CERT, NULL, DEFAULT_KEY, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * Session Reuse * all the session id's should match for session resumption. */ if ((ret = SSL_server_test("Session Reuse", "-cipher RC4-SHA -reconnect", DEFAULT_CERT, NULL, DEFAULT_KEY, NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * 512 bit RSA key */ if ((ret = SSL_server_test("512 bit key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_512.cer", NULL, "../ssl/test/axTLS.key_512", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * 1024 bit RSA key (check certificate chaining) */ if ((ret = SSL_server_test("1024 bit key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_device.cer", "../ssl/test/axTLS.x509_512.cer", "../ssl/test/axTLS.device_key", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * 2048 bit RSA key */ if ((ret = SSL_server_test("2048 bit key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_2048.cer", NULL, "../ssl/test/axTLS.key_2048", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * 4096 bit RSA key */ if ((ret = SSL_server_test("4096 bit key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_4096.cer", NULL, "../ssl/test/axTLS.key_4096", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * Client Verification */ if ((ret = SSL_server_test("Client Verification", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_2048.pem " "-key ../ssl/test/axTLS.key_2048.pem ", NULL, NULL, NULL, "../ssl/test/axTLS.ca_x509.cer", NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION))) goto cleanup; /* this test should fail */ if (stat("../ssl/test/axTLS.x509_bad_before.pem", &stat_buf) >= 0) { if ((ret = SSL_server_test("Error: Bad Before Cert", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_bad_before.pem " "-key ../ssl/test/axTLS.key_512.pem ", NULL, NULL, NULL, "../ssl/test/axTLS.ca_x509.cer", NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION)) != SSL_X509_ERROR(X509_VFY_ERROR_NOT_YET_VALID)) goto cleanup; printf("SSL server test \"%s\" passed\n", "Bad Before Cert"); TTY_FLUSH(); ret = 0; /* is ok */ } /* this test should fail */ if ((ret = SSL_server_test("Error: Bad After Cert", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_bad_after.pem " "-key ../ssl/test/axTLS.key_512.pem ", NULL, NULL, NULL, "../ssl/test/axTLS.ca_x509.cer", NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION)) != SSL_X509_ERROR(X509_VFY_ERROR_EXPIRED)) goto cleanup; printf("SSL server test \"%s\" passed\n", "Bad After Cert"); TTY_FLUSH(); /* * No trusted cert */ if ((ret = SSL_server_test("Error: No trusted certificate", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_512.pem " "-key ../ssl/test/axTLS.key_512.pem ", NULL, NULL, NULL, NULL, NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION)) != SSL_X509_ERROR(X509_VFY_ERROR_NO_TRUSTED_CERT)) goto cleanup; printf("SSL server test \"%s\" passed\n", "No trusted certificate"); TTY_FLUSH(); /* * Self-signed (from the server) */ if ((ret = SSL_server_test("Error: Self-signed certificate (from server)", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_512.pem " "-key ../ssl/test/axTLS.key_512.pem " "-CAfile ../ssl/test/axTLS.ca_x509.pem ", NULL, NULL, NULL, NULL, NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION)) != SSL_X509_ERROR(X509_VFY_ERROR_SELF_SIGNED)) goto cleanup; printf("SSL server test \"%s\" passed\n", "Self-signed certificate (from server)"); TTY_FLUSH(); /* * Self-signed (from the client) */ if ((ret = SSL_server_test("Self-signed certificate (from client)", "-cipher RC4-SHA -tls1 " "-cert ../ssl/test/axTLS.x509_512.pem " "-key ../ssl/test/axTLS.key_512.pem ", NULL, NULL, NULL, "../ssl/test/axTLS.ca_x509.cer", NULL, DEFAULT_SVR_OPTION|SSL_CLIENT_AUTHENTICATION))) goto cleanup; /* * Key in PEM format */ if ((ret = SSL_server_test("Key in PEM format", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_512.cer", NULL, "../ssl/test/axTLS.key_512.pem", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * Cert in PEM format */ if ((ret = SSL_server_test("Cert in PEM format", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_512.pem", NULL, "../ssl/test/axTLS.key_512.pem", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * Cert chain in PEM format */ if ((ret = SSL_server_test("Cert chain in PEM format", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_device.pem", NULL, "../ssl/test/axTLS.device_key.pem", "../ssl/test/axTLS.ca_x509.pem", NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * AES128 Encrypted key */ if ((ret = SSL_server_test("AES128 encrypted key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_aes128.pem", NULL, "../ssl/test/axTLS.key_aes128.pem", NULL, "abcd", DEFAULT_SVR_OPTION))) goto cleanup; /* * AES256 Encrypted key */ if ((ret = SSL_server_test("AES256 encrypted key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_aes256.pem", NULL, "../ssl/test/axTLS.key_aes256.pem", NULL, "abcd", DEFAULT_SVR_OPTION))) goto cleanup; /* * AES128 Encrypted invalid key */ if ((ret = SSL_server_test("AES128 encrypted invalid key", "-cipher RC4-SHA", "../ssl/test/axTLS.x509_aes128.pem", NULL, "../ssl/test/axTLS.key_aes128.pem", NULL, "xyz", DEFAULT_SVR_OPTION)) != SSL_ERROR_INVALID_KEY) goto cleanup; printf("SSL server test \"%s\" passed\n", "AES128 encrypted invalid key"); TTY_FLUSH(); /* * PKCS#8 key (encrypted) */ if ((ret = SSL_server_test("pkcs#8 encrypted", "-cipher RC4-SHA", DEFAULT_CERT, NULL, "../ssl/test/axTLS.encrypted.p8", NULL, "abcd", DEFAULT_SVR_OPTION))) goto cleanup; /* * PKCS#8 key (unencrypted) */ if ((ret = SSL_server_test("pkcs#8 unencrypted", "-cipher RC4-SHA", DEFAULT_CERT, NULL, "../ssl/test/axTLS.unencrypted.p8", NULL, NULL, DEFAULT_SVR_OPTION))) goto cleanup; /* * PKCS#12 key/certificate */ if ((ret = SSL_server_test("pkcs#12 with CA", "-cipher RC4-SHA", NULL, NULL, "../ssl/test/axTLS.withCA.p12", NULL, "abcd", DEFAULT_SVR_OPTION))) goto cleanup; if ((ret = SSL_server_test("pkcs#12 no CA", "-cipher RC4-SHA", DEFAULT_CERT, NULL, "../ssl/test/axTLS.withoutCA.p12", NULL, "abcd", DEFAULT_SVR_OPTION))) goto cleanup; ret = 0; cleanup: if (ret) { printf("Error: A server test failed\n"); ssl_display_error(ret); exit(1); } else { printf("All server tests passed\n"); TTY_FLUSH(); } return ret; } /************************************************************************** * SSL Client Testing * **************************************************************************/ typedef struct { uint8_t session_id[SSL_SESSION_ID_SIZE]; #ifndef WIN32 pthread_t server_thread; #endif int start_server; int stop_server; int do_reneg; } CLNT_SESSION_RESUME_CTX; typedef struct { const char *testname; const char *openssl_option; } server_t; static void do_server(server_t *svr) { char openssl_buf[2048]; #ifndef WIN32 pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL); #endif sprintf(openssl_buf, "openssl s_server -tls1 " "-accept %d -quiet %s ", g_port, svr->openssl_option); system(openssl_buf); } static int SSL_client_test( const char *test, SSL_CTX **ssl_ctx, const char *openssl_option, CLNT_SESSION_RESUME_CTX *sess_resume, uint32_t client_options, const char *private_key, const char *password, const char *cert) { server_t server_data; SSL *ssl = NULL; int client_fd = -1; uint8_t *session_id = NULL; int ret = 1; #ifndef WIN32 pthread_t thread; #endif if (sess_resume == NULL || sess_resume->start_server) { g_port++; server_data.openssl_option = openssl_option; #ifndef WIN32 pthread_create(&thread, NULL, (void *(*)(void *))do_server, (void *)&server_data); pthread_detach(thread); #else CreateThread(NULL, 1024, (LPTHREAD_START_ROUTINE)do_server, (LPVOID)&server_data, 0, NULL); #endif } usleep(200000); /* allow server to start */ if (*ssl_ctx == NULL) { if (private_key) { client_options |= SSL_NO_DEFAULT_KEY; } if ((*ssl_ctx = ssl_ctx_new( client_options, SSL_DEFAULT_CLNT_SESS)) == NULL) { ret = SSL_ERROR_INVALID_KEY; goto client_test_exit; } if (private_key) { int obj_type = SSL_OBJ_RSA_KEY; if (strstr(private_key, ".p8")) obj_type = SSL_OBJ_PKCS8; else if (strstr(private_key, ".p12")) obj_type = SSL_OBJ_PKCS12; if (ssl_obj_load(*ssl_ctx, obj_type, private_key, password)) { ret = SSL_ERROR_INVALID_KEY; goto client_test_exit; } } if (cert) { if ((ret = ssl_obj_load(*ssl_ctx, SSL_OBJ_X509_CERT, cert, NULL)) != SSL_OK) { printf("could not add cert %s (%d)\n", cert, ret); TTY_FLUSH(); goto client_test_exit; } } if (ssl_obj_load(*ssl_ctx, SSL_OBJ_X509_CACERT, "../ssl/test/axTLS.ca_x509.cer", NULL)) { printf("could not add cert auth\n"); TTY_FLUSH(); goto client_test_exit; } } if (sess_resume && !sess_resume->start_server) { session_id = sess_resume->session_id; } if ((client_fd = client_socket_init(g_port)) < 0) { printf("could not start socket on %d\n", g_port); TTY_FLUSH(); goto client_test_exit; } ssl = ssl_client_new(*ssl_ctx, client_fd, session_id, sizeof(session_id)); /* check the return status */ if ((ret = ssl_handshake_status(ssl))) goto client_test_exit; /* renegotiate client */ if (sess_resume && sess_resume->do_reneg) { if (ssl_renegotiate(ssl) < 0) goto client_test_exit; } if (sess_resume) { memcpy(sess_resume->session_id, ssl_get_session_id(ssl), SSL_SESSION_ID_SIZE); } if (IS_SET_SSL_FLAG(SSL_SERVER_VERIFY_LATER) && (ret = ssl_verify_cert(ssl))) { goto client_test_exit; } ssl_write(ssl, (uint8_t *)"hello world\n", 13); if (sess_resume) { const uint8_t *sess_id = ssl_get_session_id(ssl); int i; printf(" Session-ID: "); for (i = 0; i < SSL_SESSION_ID_SIZE; i++) { printf("%02X", sess_id[i]); } printf("\n"); TTY_FLUSH(); } ret = 0; client_test_exit: ssl_free(ssl); SOCKET_CLOSE(client_fd); usleep(200000); /* allow openssl to say something */ if (sess_resume) { if (sess_resume->stop_server) { ssl_ctx_free(*ssl_ctx); *ssl_ctx = NULL; #ifndef WIN32 pthread_cancel(sess_resume->server_thread); #endif } else if (sess_resume->start_server) { #ifndef WIN32 sess_resume->server_thread = thread; #endif } } else { ssl_ctx_free(*ssl_ctx); *ssl_ctx = NULL; #ifndef WIN32 pthread_cancel(thread); #endif } if (ret == 0) { printf("SSL client test \"%s\" passed\n", test); TTY_FLUSH(); } return ret; } int SSL_client_tests(void) { int ret = -1; SSL_CTX *ssl_ctx = NULL; CLNT_SESSION_RESUME_CTX sess_resume; memset(&sess_resume, 0, sizeof(CLNT_SESSION_RESUME_CTX)); sess_resume.start_server = 1; printf("### starting client tests\n"); if ((ret = SSL_client_test("512 bit key", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_512.pem " "-key ../ssl/test/axTLS.key_512.pem", &sess_resume, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; /* all the session id's should match for session resumption */ sess_resume.start_server = 0; if ((ret = SSL_client_test("Client session resumption #1", &ssl_ctx, NULL, &sess_resume, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; sess_resume.do_reneg = 1; if ((ret = SSL_client_test("Client renegotiation", &ssl_ctx, NULL, &sess_resume, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; sess_resume.do_reneg = 0; sess_resume.stop_server = 1; if ((ret = SSL_client_test("Client session resumption #2", &ssl_ctx, NULL, &sess_resume, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; if ((ret = SSL_client_test("1024 bit key", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_1024.pem " "-key ../ssl/test/axTLS.key_1024.pem", NULL, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; if ((ret = SSL_client_test("2048 bit key", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_2048.pem " "-key ../ssl/test/axTLS.key_2048.pem", NULL, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; if ((ret = SSL_client_test("4096 bit key", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_4096.pem " "-key ../ssl/test/axTLS.key_4096.pem", NULL, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; if ((ret = SSL_client_test("Server cert chaining", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_device.pem " "-key ../ssl/test/axTLS.device_key.pem " "-CAfile ../ssl/test/axTLS.x509_512.pem ", NULL, DEFAULT_CLNT_OPTION, NULL, NULL, NULL))) goto cleanup; /* Check the server can verify the client */ if ((ret = SSL_client_test("Client peer authentication", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_2048.pem " "-key ../ssl/test/axTLS.key_2048.pem " "-CAfile ../ssl/test/axTLS.ca_x509.pem " "-verify 1 ", NULL, DEFAULT_CLNT_OPTION, "../ssl/test/axTLS.key_1024", NULL, "../ssl/test/axTLS.x509_1024.cer"))) goto cleanup; /* Should get an "ERROR" from openssl (as the handshake fails as soon as * the certificate verification fails) */ if ((ret = SSL_client_test("Error: Expired cert (verify now)", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_bad_after.pem " "-key ../ssl/test/axTLS.key_512.pem", NULL, DEFAULT_CLNT_OPTION, NULL, NULL, NULL)) != SSL_X509_ERROR(X509_VFY_ERROR_EXPIRED)) { printf("*** Error: %d\n", ret); goto cleanup; } printf("SSL client test \"Expired cert (verify now)\" passed\n"); /* There is no "ERROR" from openssl */ if ((ret = SSL_client_test("Error: Expired cert (verify later)", &ssl_ctx, "-cert ../ssl/test/axTLS.x509_bad_after.pem " "-key ../ssl/test/axTLS.key_512.pem", NULL, DEFAULT_CLNT_OPTION|SSL_SERVER_VERIFY_LATER, NULL, NULL, NULL)) != SSL_X509_ERROR(X509_VFY_ERROR_EXPIRED)) { printf("*** Error: %d\n", ret); goto cleanup; } printf("SSL client test \"Expired cert (verify later)\" passed\n"); ret = 0; cleanup: if (ret) { ssl_display_error(ret); printf("Error: A client test failed\n"); exit(1); } else { printf("All client tests passed\n"); TTY_FLUSH(); } return ret; } /************************************************************************** * SSL Basic Testing (test a big packet handshake) * **************************************************************************/ static uint8_t basic_buf[256*1024]; static void do_basic(void) { int client_fd; SSL *ssl_clnt; SSL_CTX *ssl_clnt_ctx = ssl_ctx_new( DEFAULT_CLNT_OPTION, SSL_DEFAULT_CLNT_SESS); usleep(200000); /* allow server to start */ if ((client_fd = client_socket_init(g_port)) < 0) goto error; if (ssl_obj_load(ssl_clnt_ctx, SSL_OBJ_X509_CACERT, "../ssl/test/axTLS.ca_x509.cer", NULL)) goto error; ssl_clnt = ssl_client_new(ssl_clnt_ctx, client_fd, NULL, 0); /* check the return status */ if (ssl_handshake_status(ssl_clnt) < 0) { printf("YA YA\n"); ssl_display_error(ssl_handshake_status(ssl_clnt)); goto error; } ssl_write(ssl_clnt, basic_buf, sizeof(basic_buf)); ssl_free(ssl_clnt); error: ssl_ctx_free(ssl_clnt_ctx); SOCKET_CLOSE(client_fd); /* exit this thread */ } static int SSL_basic_test(void) { int server_fd, client_fd, ret = 0, size = 0, offset = 0; SSL_CTX *ssl_svr_ctx = NULL; struct sockaddr_in client_addr; uint8_t *read_buf; socklen_t clnt_len = sizeof(client_addr); SSL *ssl_svr; #ifndef WIN32 pthread_t thread; #endif memset(basic_buf, 0xA5, sizeof(basic_buf)/2); memset(&basic_buf[sizeof(basic_buf)/2], 0x5A, sizeof(basic_buf)/2); if ((server_fd = server_socket_init(&g_port)) < 0) goto error; ssl_svr_ctx = ssl_ctx_new(DEFAULT_SVR_OPTION, SSL_DEFAULT_SVR_SESS); #ifndef WIN32 pthread_create(&thread, NULL, (void *(*)(void *))do_basic, NULL); pthread_detach(thread); #else CreateThread(NULL, 1024, (LPTHREAD_START_ROUTINE)do_basic, NULL, 0, NULL); #endif /* Wait for a client to connect */ if ((client_fd = accept(server_fd, (struct sockaddr *) &client_addr, &clnt_len)) < 0) { ret = SSL_ERROR_SOCK_SETUP_FAILURE; goto error; } /* we are ready to go */ ssl_svr = ssl_server_new(ssl_svr_ctx, client_fd); do { while ((size = ssl_read(ssl_svr, &read_buf)) == SSL_OK); if (size < SSL_OK) /* got some alert or something nasty */ { printf("Server "); ssl_display_error(size); ret = size; break; } else /* looks more promising */ { if (memcmp(read_buf, &basic_buf[offset], size) != 0) { ret = SSL_NOT_OK; break; } } offset += size; } while (offset < sizeof(basic_buf)); printf(ret == SSL_OK && offset == sizeof(basic_buf) ? "SSL basic test passed\n" : "SSL basic test failed\n"); TTY_FLUSH(); ssl_free(ssl_svr); SOCKET_CLOSE(server_fd); SOCKET_CLOSE(client_fd); error: ssl_ctx_free(ssl_svr_ctx); return ret; } #if !defined(WIN32) && defined(CONFIG_SSL_CTX_MUTEXING) /************************************************************************** * Multi-Threading Tests * **************************************************************************/ #define NUM_THREADS 100 typedef struct { SSL_CTX *ssl_clnt_ctx; int port; int thread_id; } multi_t; void do_multi_clnt(multi_t *multi_data) { int res = 1, client_fd, i; SSL *ssl = NULL; char tmp[5]; if ((client_fd = client_socket_init(multi_data->port)) < 0) goto client_test_exit; sleep(1); ssl = ssl_client_new(multi_data->ssl_clnt_ctx, client_fd, NULL, 0); if ((res = ssl_handshake_status(ssl))) { printf("Client "); ssl_display_error(res); goto client_test_exit; } sprintf(tmp, "%d\n", multi_data->thread_id); for (i = 0; i < 10; i++) ssl_write(ssl, (uint8_t *)tmp, strlen(tmp)+1); client_test_exit: ssl_free(ssl); SOCKET_CLOSE(client_fd); free(multi_data); } void do_multi_svr(SSL *ssl) { uint8_t *read_buf; int *res_ptr = malloc(sizeof(int)); int res; for (;;) { res = ssl_read(ssl, &read_buf); /* kill the client */ if (res != SSL_OK) { if (res == SSL_ERROR_CONN_LOST) { SOCKET_CLOSE(ssl->client_fd); ssl_free(ssl); break; } else if (res > 0) { /* do nothing */ } else /* some problem */ { printf("Server "); ssl_display_error(res); goto error; } } } res = SSL_OK; error: *res_ptr = res; pthread_exit(res_ptr); } int multi_thread_test(void) { int server_fd = -1; SSL_CTX *ssl_server_ctx; SSL_CTX *ssl_clnt_ctx; pthread_t clnt_threads[NUM_THREADS]; pthread_t svr_threads[NUM_THREADS]; int i, res = 0; struct sockaddr_in client_addr; socklen_t clnt_len = sizeof(client_addr); printf("Do multi-threading test (takes a minute)\n"); ssl_server_ctx = ssl_ctx_new(DEFAULT_SVR_OPTION, SSL_DEFAULT_SVR_SESS); ssl_clnt_ctx = ssl_ctx_new(DEFAULT_CLNT_OPTION, SSL_DEFAULT_CLNT_SESS); if (ssl_obj_load(ssl_clnt_ctx, SSL_OBJ_X509_CACERT, "../ssl/test/axTLS.ca_x509.cer", NULL)) goto error; if ((server_fd = server_socket_init(&g_port)) < 0) goto error; for (i = 0; i < NUM_THREADS; i++) { multi_t *multi_data = (multi_t *)malloc(sizeof(multi_t)); multi_data->ssl_clnt_ctx = ssl_clnt_ctx; multi_data->port = g_port; multi_data->thread_id = i+1; pthread_create(&clnt_threads[i], NULL, (void *(*)(void *))do_multi_clnt, (void *)multi_data); pthread_detach(clnt_threads[i]); } for (i = 0; i < NUM_THREADS; i++) { SSL *ssl_svr; int client_fd = accept(server_fd, (struct sockaddr *)&client_addr, &clnt_len); if (client_fd < 0) goto error; ssl_svr = ssl_server_new(ssl_server_ctx, client_fd); pthread_create(&svr_threads[i], NULL, (void *(*)(void *))do_multi_svr, (void *)ssl_svr); } /* make sure we've run all of the threads */ for (i = 0; i < NUM_THREADS; i++) { void *thread_res; pthread_join(svr_threads[i], &thread_res); if (*((int *)thread_res) != 0) res = 1; free(thread_res); } if (res) goto error; printf("Multi-thread test passed (%d)\n", NUM_THREADS); error: ssl_ctx_free(ssl_server_ctx); ssl_ctx_free(ssl_clnt_ctx); SOCKET_CLOSE(server_fd); return res; } #endif /* !defined(WIN32) && defined(CONFIG_SSL_CTX_MUTEXING) */ /************************************************************************** * Header issue * **************************************************************************/ static void do_header_issue(void) { char axtls_buf[2048]; #ifndef WIN32 pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL); #endif sprintf(axtls_buf, "./axssl s_client -connect localhost:%d", g_port); system(axtls_buf); } static int header_issue(void) { FILE *f = fopen("../ssl/test/header_issue.dat", "r"); int server_fd = -1, client_fd = -1, ret = 1; uint8_t buf[2048]; int size = 0; struct sockaddr_in client_addr; socklen_t clnt_len = sizeof(client_addr); #ifndef WIN32 pthread_t thread; #endif if (f == NULL || (server_fd = server_socket_init(&g_port)) < 0) goto error; #ifndef WIN32 pthread_create(&thread, NULL, (void *(*)(void *))do_header_issue, NULL); pthread_detach(thread); #else CreateThread(NULL, 1024, (LPTHREAD_START_ROUTINE)do_header_issue, NULL, 0, NULL); #endif if ((client_fd = accept(server_fd, (struct sockaddr *) &client_addr, &clnt_len)) < 0) { ret = SSL_ERROR_SOCK_SETUP_FAILURE; goto error; } size = fread(buf, 1, sizeof(buf), f); SOCKET_WRITE(client_fd, buf, size); usleep(200000); ret = 0; error: fclose(f); SOCKET_CLOSE(client_fd); SOCKET_CLOSE(server_fd); TTY_FLUSH(); system("killall axssl"); return ret; } /************************************************************************** * main() * **************************************************************************/ int main(int argc, char *argv[]) { int ret = 1; BI_CTX *bi_ctx; int fd; #ifdef WIN32 WSADATA wsaData; WORD wVersionRequested = MAKEWORD(2, 2); WSAStartup(wVersionRequested, &wsaData); fd = _open("test_result.txt", O_WRONLY|O_TEMPORARY|O_CREAT, _S_IWRITE); dup2(fd, 2); /* write stderr to this file */ #else fd = open("/dev/null", O_WRONLY); /* write stderr to /dev/null */ signal(SIGPIPE, SIG_IGN); /* ignore pipe errors */ dup2(fd, 2); #endif /* can't do testing in this mode */ #if defined CONFIG_SSL_GENERATE_X509_CERT printf("Error: Must compile with default key/certificates\n"); exit(1); #endif bi_ctx = bi_initialize(); if (AES_test(bi_ctx)) { printf("AES tests failed\n"); goto cleanup; } TTY_FLUSH(); if (RC4_test(bi_ctx)) { printf("RC4 tests failed\n"); goto cleanup; } TTY_FLUSH(); if (MD5_test(bi_ctx)) { printf("MD5 tests failed\n"); goto cleanup; } TTY_FLUSH(); if (SHA1_test(bi_ctx)) { printf("SHA1 tests failed\n"); goto cleanup; } TTY_FLUSH(); if (HMAC_test(bi_ctx)) { printf("HMAC tests failed\n"); goto cleanup; } TTY_FLUSH(); if (BIGINT_test(bi_ctx)) { printf("BigInt tests failed!\n"); goto cleanup; } TTY_FLUSH(); bi_terminate(bi_ctx); if (RSA_test()) { printf("RSA tests failed\n"); goto cleanup; } TTY_FLUSH(); if (cert_tests()) { printf("CERT tests failed\n"); goto cleanup; } TTY_FLUSH(); #if !defined(WIN32) && defined(CONFIG_SSL_CTX_MUTEXING) if (multi_thread_test()) goto cleanup; #endif if (SSL_basic_test()) goto cleanup; system("sh ../ssl/test/killopenssl.sh"); if (SSL_client_tests()) goto cleanup; system("sh ../ssl/test/killopenssl.sh"); if (SSL_server_tests()) goto cleanup; system("sh ../ssl/test/killopenssl.sh"); if (header_issue()) { printf("Header tests failed\n"); TTY_FLUSH(); goto cleanup; } ret = 0; /* all ok */ printf("**** ALL TESTS PASSED ****\n"); TTY_FLUSH(); cleanup: if (ret) printf("Error: Some tests failed!\n"); close(fd); return ret; }