/* server.c * * Copyright (C) 2006-2024 wolfSSL Inc. * * This file is part of wolfSSL. * * wolfSSL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * wolfSSL is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA */ /* For simpler wolfSSL TLS server examples, visit * https://github.com/wolfSSL/wolfssl-examples/tree/master/tls */ #ifdef HAVE_CONFIG_H #include #endif #ifndef WOLFSSL_USER_SETTINGS #include #endif #include #undef TEST_OPENSSL_COEXIST /* can't use this option with this example */ #undef OPENSSL_COEXIST /* can't use this option with this example */ /* Force enable the compatibility macros for this example */ #ifndef OPENSSL_EXTRA_X509_SMALL #define OPENSSL_EXTRA_X509_SMALL #endif #include #undef OPENSSL_EXTRA_X509_SMALL #include /* name change portability layer */ #ifdef HAVE_ECC #include /* wc_ecc_fp_free */ #endif #ifdef WOLFSSL_WOLFSENTRY_HOOKS #include #if !defined(NO_FILESYSTEM) && !defined(WOLFSENTRY_NO_JSON) static const char *wolfsentry_config_path = NULL; #endif #endif /* WOLFSSL_WOLFSENTRY_HOOKS */ #if defined(WOLFSSL_MDK_ARM) || defined(WOLFSSL_KEIL_TCP_NET) #include #include #include "rl_fs.h" #include "rl_net.h" #endif #ifdef NO_FILESYSTEM #ifdef NO_RSA #error currently the example only tries to load in a RSA buffer #endif #undef USE_CERT_BUFFERS_2048 #define USE_CERT_BUFFERS_2048 #include #endif #include #include #include "examples/server/server.h" #ifndef NO_WOLFSSL_SERVER #if defined(WOLFSSL_TLS13) && ( \ defined(HAVE_ECC) \ || defined(HAVE_CURVE25519) \ || defined(HAVE_CURVE448) \ || defined(HAVE_FFDHE_2048)) #define CAN_FORCE_CURVE #endif #if defined(CAN_FORCE_CURVE) && defined(HAVE_ECC) struct group_info { word16 group; const char *name; }; static struct group_info group_id_to_text[] = { { WOLFSSL_ECC_SECP160K1, "SECP160K1" }, { WOLFSSL_ECC_SECP160R1, "SECP160R1" }, { WOLFSSL_ECC_SECP160R2, "SECP160R2" }, { WOLFSSL_ECC_SECP192K1, "SECP192K1" }, { WOLFSSL_ECC_SECP192R1, "SECP192R1" }, { WOLFSSL_ECC_SECP224K1, "SECP224K1" }, { WOLFSSL_ECC_SECP224R1, "SECP224R1" }, { WOLFSSL_ECC_SECP256K1, "SECP256K1" }, { WOLFSSL_ECC_SECP256R1, "SECP256R1" }, { WOLFSSL_ECC_SECP384R1, "SECP384R1" }, { WOLFSSL_ECC_SECP521R1, "SECP521R1" }, { WOLFSSL_ECC_BRAINPOOLP256R1, "BRAINPOOLP256R1" }, { WOLFSSL_ECC_BRAINPOOLP384R1, "BRAINPOOLP384R1" }, { WOLFSSL_ECC_BRAINPOOLP512R1, "BRAINPOOLP512R1" }, { 0, NULL } }; #endif /* CAN_FORCE_CURVE && HAVE_ECC */ #ifdef WOLFSSL_ASYNC_CRYPT static int devId = INVALID_DEVID; #endif #define DEFAULT_TIMEOUT_SEC 2 /* Note on using port 0: if the server uses port 0 to bind an ephemeral port * number and is using the ready file for scripted testing, the code in * test.h will write the actual port number into the ready file for use * by the client. */ #ifndef WOLFSSL_ALT_TEST_STRINGS static const char kReplyMsg[] = "I hear you fa shizzle!"; #else static const char kReplyMsg[] = "I hear you fa shizzle!\n"; #endif static const char kHttpServerMsg[] = "HTTP/1.1 200 OK\r\n" "Content-Type: text/html\r\n" "Connection: close\r\n" "Content-Length: 141\r\n" "\r\n" "\r\n" "\r\n" "Welcome to wolfSSL!\r\n" "\r\n" "\r\n" "

wolfSSL has successfully performed handshake!

\r\n" "\r\n" "\r\n"; /* Read needs to be largest of the client.c message strings (29) */ #define SRV_READ_SZ 32 int runWithErrors = 0; /* Used with -x flag to run err_sys vs. print errors */ int catastrophic = 0; /* Use with -x flag to still exit when an error is * considered catastrophic EG the servers own cert failing * to load would be catastrophic since there would be no * cert to send to clients attempting to connect. The * server should error out completely in that case */ static int quieter = 0; /* Print fewer messages. This is helpful with overly * ambitious log parsers. */ static int lng_index = 0; #define LOG_ERROR(...) \ do { \ if (!quieter) \ fprintf(stderr, __VA_ARGS__); \ } while(0) #ifdef WOLFSSL_CALLBACKS #if !defined(NO_OLD_TIMEVAL_NAME) Timeval srvTo; #else WOLFSSL_TIMEVAL srvTo; #endif static int srvHandShakeCB(HandShakeInfo* info) { (void)info; return 0; } static int srvTimeoutCB(TimeoutInfo* info) { (void)info; return 0; } #endif #ifndef NO_HANDSHAKE_DONE_CB static int myHsDoneCb(WOLFSSL* ssl, void* user_ctx) { (void)user_ctx; (void)ssl; /* printf("Notified HandShake done\n"); */ /* return negative number to end TLS connection now */ return 0; } #endif static void err_sys_ex(int out, const char* msg) { if (out == 1) { /* if server is running w/ -x flag, print error w/o exit */ LOG_ERROR("wolfSSL error: %s\n", msg); LOG_ERROR("Continuing server execution...\n\n"); } else { err_sys(msg); } } #if defined(WOLFSSL_DTLS) && defined(USE_WOLFSSL_IO) /* Translates return codes returned from * send() and recv() if need be. */ static WC_INLINE int TranslateReturnCode(int old, int sd) { (void)sd; #if defined(FREESCALE_MQX) || defined(FREESCALE_KSDK_MQX) if (old == 0) { errno = SOCKET_EWOULDBLOCK; return -1; /* convert to BSD style wouldblock as error */ } if (old < 0) { errno = RTCS_geterror(sd); if (errno == RTCSERR_TCP_CONN_CLOSING) return 0; /* convert to BSD style closing */ if (errno == RTCSERR_TCP_CONN_RLSD) errno = SOCKET_ECONNRESET; if (errno == RTCSERR_TCP_TIMED_OUT) errno = SOCKET_EAGAIN; } #endif return old; } static WC_INLINE int wolfSSL_LastError(void) { #ifdef USE_WINDOWS_API return WSAGetLastError(); #elif defined(EBSNET) return xn_getlasterror(); #else return errno; #endif } /* wolfSSL Sock Addr */ struct WOLFSSL_TEST_SOCKADDR { unsigned int sz; /* sockaddr size */ SOCKADDR_IN_T sa; /* pointer to the sockaddr_in or sockaddr_in6 */ }; typedef struct WOLFSSL_TEST_DTLS_CTX { struct WOLFSSL_TEST_SOCKADDR peer; int rfd; int wfd; int failOnce; word32 blockSeq; } WOLFSSL_TEST_DTLS_CTX; static WC_INLINE int PeekSeq(const char* buf, word32* seq) { const char* c = buf + 3; if ((c[0] | c[1] | c[2] | c[3]) == 0) { *seq = ((word32)c[4] << 24) | ((word32)c[5] << 16) | ((word32)c[6] << 8) | (word32)c[7]; return 1; } return 0; } /* The send embedded callback * return : nb bytes sent, or error */ static int TestEmbedSendTo(WOLFSSL* ssl, char *buf, int sz, void *ctx) { WOLFSSL_TEST_DTLS_CTX* dtlsCtx = (WOLFSSL_TEST_DTLS_CTX*)ctx; int sd = dtlsCtx->wfd; int sent; (void)ssl; WOLFSSL_ENTER("TestEmbedSendTo"); if (dtlsCtx->failOnce) { word32 seq = 0; if (PeekSeq(buf, &seq) && seq == dtlsCtx->blockSeq) { dtlsCtx->failOnce = 0; WOLFSSL_MSG("Forcing WANT_WRITE"); return WOLFSSL_CBIO_ERR_WANT_WRITE; } } sent = (int)sendto(sd, buf, (size_t)sz, 0, (const SOCKADDR*)&dtlsCtx->peer.sa, dtlsCtx->peer.sz); sent = TranslateReturnCode(sent, sd); if (sent < 0) { int err = wolfSSL_LastError(); WOLFSSL_MSG("Embed Send To error"); if (err == SOCKET_EWOULDBLOCK || err == SOCKET_EAGAIN) { WOLFSSL_MSG("\tWould Block"); return WOLFSSL_CBIO_ERR_WANT_WRITE; } else if (err == SOCKET_ECONNRESET) { WOLFSSL_MSG("\tConnection reset"); return WOLFSSL_CBIO_ERR_CONN_RST; } else if (err == SOCKET_EINTR) { WOLFSSL_MSG("\tSocket interrupted"); return WOLFSSL_CBIO_ERR_ISR; } else if (err == SOCKET_EPIPE) { WOLFSSL_MSG("\tSocket EPIPE"); return WOLFSSL_CBIO_ERR_CONN_CLOSE; } else { WOLFSSL_MSG("\tGeneral error"); return WOLFSSL_CBIO_ERR_GENERAL; } } return sent; } #endif /* WOLFSSL_DTLS && USE_WOLFSSL_IO */ static int NonBlockingSSL_Accept(SSL* ssl) { #ifndef WOLFSSL_CALLBACKS int ret = SSL_accept(ssl); #else int ret = wolfSSL_accept_ex(ssl, srvHandShakeCB, srvTimeoutCB, srvTo); #endif int error = SSL_get_error(ssl, 0); SOCKET_T sockfd = (SOCKET_T)SSL_get_fd(ssl); int select_ret = 0; while (ret != WOLFSSL_SUCCESS && (error == WOLFSSL_ERROR_WANT_READ || error == WOLFSSL_ERROR_WANT_WRITE #ifdef WOLFSSL_ASYNC_CRYPT || error == WC_NO_ERR_TRACE(WC_PENDING_E) #endif )) { if (error == WOLFSSL_ERROR_WANT_READ) { /* printf("... server would read block\n"); */ } else if (error == WOLFSSL_ERROR_WANT_WRITE) { /* printf("... server would write block\n"); */ } #ifdef WOLFSSL_ASYNC_CRYPT if (error == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } else #endif { int currTimeout = 1; if (error == WOLFSSL_ERROR_WANT_WRITE) { select_ret = tcp_select_tx(sockfd, currTimeout); } else { #ifdef WOLFSSL_DTLS if (wolfSSL_dtls(ssl)) currTimeout = wolfSSL_dtls_get_current_timeout(ssl); #endif select_ret = tcp_select(sockfd, currTimeout); } } if ((select_ret == TEST_RECV_READY) || (select_ret == TEST_SEND_READY) || (select_ret == TEST_ERROR_READY) #ifdef WOLFSSL_ASYNC_CRYPT || error == WC_NO_ERR_TRACE(WC_PENDING_E) #endif ) { #ifndef WOLFSSL_CALLBACKS ret = SSL_accept(ssl); #else ret = wolfSSL_accept_ex(ssl, srvHandShakeCB, srvTimeoutCB, srvTo); #endif error = SSL_get_error(ssl, 0); } else if (select_ret == TEST_TIMEOUT && !wolfSSL_dtls(ssl)) { error = WOLFSSL_ERROR_WANT_READ; } #ifdef WOLFSSL_DTLS else if (select_ret == TEST_TIMEOUT && wolfSSL_dtls(ssl)) { ret = wolfSSL_dtls_got_timeout(ssl); if (ret != WOLFSSL_SUCCESS) error = wolfSSL_get_error(ssl, ret); else error = WOLFSSL_ERROR_WANT_READ; ret = WOLFSSL_FAILURE; /* Reset error so we loop */ } #endif else { error = WOLFSSL_FATAL_ERROR; } } return ret; } /* Echo number of bytes specified by -B arg */ int ServerEchoData(SSL* ssl, int clientfd, int echoData, int block, size_t throughput) { int ret = 0, err; double start = 0, rx_time = 0, tx_time = 0; int len, rx_pos; size_t xfer_bytes = 0; char* buffer; buffer = (char*)XMALLOC((size_t)block, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (!buffer) { err_sys_ex(runWithErrors, "Server buffer malloc failed"); } while ((echoData && throughput == 0) || (!echoData && xfer_bytes < throughput)) { int select_ret = tcp_select(clientfd, 1); /* Timeout=1 second */ if (select_ret == TEST_RECV_READY) { if (throughput) len = (int)min((word32)block, (word32)(throughput - xfer_bytes)); else len = block; rx_pos = 0; if (throughput) { start = current_time(1); } /* Read data */ while (rx_pos < len) { ret = SSL_read(ssl, &buffer[rx_pos], len - rx_pos); if (ret <= 0) { err = SSL_get_error(ssl, 0); #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } else #endif if (err != WOLFSSL_ERROR_WANT_READ && err != WOLFSSL_ERROR_WANT_WRITE && err != WOLFSSL_ERROR_ZERO_RETURN && err != WC_NO_ERR_TRACE(APP_DATA_READY)) { LOG_ERROR("SSL_read echo error %d\n", err); err_sys_ex(runWithErrors, "SSL_read failed"); break; } if (err == WOLFSSL_ERROR_ZERO_RETURN) { XFREE(buffer, NULL, DYNAMIC_TYPE_TMP_BUFFER); return WOLFSSL_ERROR_ZERO_RETURN; } } else { rx_pos += ret; if (!throughput) break; } } if (throughput) { rx_time += current_time(0) - start; start = current_time(1); } /* Write data */ do { err = 0; /* reset error */ ret = SSL_write(ssl, buffer, (int)min((word32)len, (word32)rx_pos)); if (ret <= 0) { err = SSL_get_error(ssl, 0); #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif } } while (err == WC_NO_ERR_TRACE(WC_PENDING_E)); if (ret != (int)min((word32)len, (word32)rx_pos)) { LOG_ERROR("SSL_write echo error %d\n", err); err_sys_ex(runWithErrors, "SSL_write failed"); } if (throughput) { tx_time += current_time(0) - start; } xfer_bytes += (size_t)len; } } XFREE(buffer, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (throughput) { #ifdef __MINGW32__ #define SIZE_FMT "%d" #define SIZE_TYPE int #else #define SIZE_FMT "%zu" #define SIZE_TYPE size_t #endif if (rx_time > 0.0 && tx_time > 0.0) { printf( "wolfSSL Server Benchmark " SIZE_FMT " bytes\n" "\tRX %8.3f ms (%8.3f MBps)\n" "\tTX %8.3f ms (%8.3f MBps)\n", (SIZE_TYPE)throughput, (double)rx_time * 1000, (double)throughput / rx_time / 1024 / 1024, (double)tx_time * 1000, (double)throughput / tx_time / 1024 / 1024 ); } else { printf("Invalid rx_time: %f or tx_time: %f\n", rx_time, tx_time); } } return 0; } static void ServerRead(WOLFSSL* ssl, char* input, int inputLen) { int ret, err; char buffer[WOLFSSL_MAX_ERROR_SZ]; /* Read data */ do { err = 0; /* reset error */ ret = SSL_read(ssl, input, inputLen); if (ret < 0) { err = SSL_get_error(ssl, ret); #ifdef HAVE_SECURE_RENEGOTIATION if (err == WC_NO_ERR_TRACE(APP_DATA_READY)) { /* If we receive a message during renegotiation * then just print it. We return the message sent * after the renegotiation. */ ret = SSL_read(ssl, input, inputLen); if (ret >= 0) { /* null terminate message */ input[ret] = '\0'; printf("Client message received during " "secure renegotiation: %s\n", input); err = WOLFSSL_ERROR_WANT_READ; } else { err = SSL_get_error(ssl, ret); } } #endif #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } else #endif #ifdef WOLFSSL_DTLS if (wolfSSL_dtls(ssl) && err == WC_NO_ERR_TRACE(DECRYPT_ERROR)) { LOG_ERROR("Dropped client's message due to a bad MAC\n"); } else #endif if (err != WOLFSSL_ERROR_WANT_READ && err != WOLFSSL_ERROR_WANT_WRITE /* Can happen during * handshake */ #ifdef HAVE_SECURE_RENEGOTIATION && err != WC_NO_ERR_TRACE(APP_DATA_READY) #endif ) { LOG_ERROR("SSL_read input error %d, %s\n", err, ERR_error_string((unsigned long)err, buffer)); err_sys_ex(runWithErrors, "SSL_read failed"); } } else if (SSL_get_error(ssl, 0) == 0 && tcp_select(SSL_get_fd(ssl), 0) == TEST_RECV_READY) { /* do a peek and check for "pending" */ #ifdef WOLFSSL_ASYNC_CRYPT err = 0; #endif do { #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif ret = wolfSSL_peek(ssl, buffer, 0); err = SSL_get_error(ssl, ret); } while (err == WC_NO_ERR_TRACE(WC_PENDING_E) || err == WOLFSSL_ERROR_WANT_READ || err == WOLFSSL_ERROR_WANT_WRITE); if (err < 0) { err_sys_ex(runWithErrors, "wolfSSL_peek failed"); } if (wolfSSL_pending(ssl)) err = WOLFSSL_ERROR_WANT_READ; } } while (err == WC_NO_ERR_TRACE(WC_PENDING_E) || err == WOLFSSL_ERROR_WANT_READ || err == WOLFSSL_ERROR_WANT_WRITE); if (ret > 0) { /* null terminate message */ input[ret] = '\0'; printf("Client message: %s\n", input); } } static void ServerWrite(WOLFSSL* ssl, const char* output, int outputLen) { int ret, err; int len; #ifdef OPENSSL_ALL /* Fuzz testing expects reply split over two msgs when TLSv1.0 or below */ if (wolfSSL_GetVersion(ssl) <= WOLFSSL_TLSV1) len = outputLen / 2; else #endif len = outputLen; do { err = 0; /* reset error */ ret = SSL_write(ssl, output, len); if (ret <= 0) { err = SSL_get_error(ssl, 0); #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif } else if (ret != outputLen) { output += ret; len = (outputLen -= ret); err = WOLFSSL_ERROR_WANT_WRITE; } } while (err == WC_NO_ERR_TRACE(WC_PENDING_E) || err == WOLFSSL_ERROR_WANT_WRITE); if (ret != outputLen) { char buffer[WOLFSSL_MAX_ERROR_SZ]; LOG_ERROR("SSL_write msg error %d, %s\n", err, ERR_error_string((unsigned long)err, buffer)); err_sys_ex(runWithErrors, "SSL_write failed"); } } #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) #define MAX_GROUP_NUMBER 4 static void SetKeyShare(WOLFSSL* ssl, int onlyKeyShare, int useX25519, int useX448, int usePqc, char* pqcAlg) { int ret; int groups[MAX_GROUP_NUMBER] = {0}; int count = 0; (void)useX25519; (void)useX448; (void)usePqc; (void)pqcAlg; WOLFSSL_START(WC_FUNC_CLIENT_KEY_EXCHANGE_SEND); if (onlyKeyShare == 2) { if (useX25519) { #ifdef HAVE_CURVE25519 do { ret = wolfSSL_UseKeyShare(ssl, WOLFSSL_ECC_X25519); if (ret == WOLFSSL_SUCCESS) groups[count++] = WOLFSSL_ECC_X25519; #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); #endif else err_sys("unable to use curve x25519"); } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); #endif } else if (useX448) { #ifdef HAVE_CURVE448 do { ret = wolfSSL_UseKeyShare(ssl, WOLFSSL_ECC_X448); if (ret == WOLFSSL_SUCCESS) groups[count++] = WOLFSSL_ECC_X448; #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); #endif else err_sys("unable to use curve x448"); } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); #endif } else if (usePqc == 1) { #ifdef HAVE_PQC groups[count] = 0; #ifndef WOLFSSL_NO_ML_KEM #ifndef WOLFSSL_NO_ML_KEM_512 if (XSTRCMP(pqcAlg, "ML_KEM_512") == 0) { groups[count] = WOLFSSL_ML_KEM_512; } else #endif #ifndef WOLFSSL_NO_ML_KEM_768 if (XSTRCMP(pqcAlg, "ML_KEM_768") == 0) { groups[count] = WOLFSSL_ML_KEM_768; } else #endif #ifndef WOLFSSL_NO_ML_KEM_1024 if (XSTRCMP(pqcAlg, "ML_KEM_1024") == 0) { groups[count] = WOLFSSL_ML_KEM_1024; } else #endif #ifndef WOLFSSL_NO_ML_KEM_512 if (XSTRCMP(pqcAlg, "P256_ML_KEM_512") == 0) { groups[count] = WOLFSSL_P256_ML_KEM_512; } else #endif #ifndef WOLFSSL_NO_ML_KEM_768 if (XSTRCMP(pqcAlg, "P384_ML_KEM_768") == 0) { groups[count] = WOLFSSL_P384_ML_KEM_768; } else #endif #ifndef WOLFSSL_NO_ML_KEM_1024 if (XSTRCMP(pqcAlg, "P521_ML_KEM_1024") == 0) { groups[count] = WOLFSSL_P521_ML_KEM_1024; } else #endif #endif /* WOLFSSL_NO_ML_KEM */ #ifdef WOLFSSL_KYBER_ORIGINAL #ifndef WOLFSSL_NO_KYBER512 if (XSTRCMP(pqcAlg, "KYBER_LEVEL1") == 0) { groups[count] = WOLFSSL_KYBER_LEVEL1; } else #endif #ifndef WOLFSSL_NO_KYBER768 if (XSTRCMP(pqcAlg, "KYBER_LEVEL3") == 0) { groups[count] = WOLFSSL_KYBER_LEVEL3; } else #endif #ifndef WOLFSSL_NO_KYBER1024 if (XSTRCMP(pqcAlg, "KYBER_LEVEL5") == 0) { groups[count] = WOLFSSL_KYBER_LEVEL5; } else #endif #ifndef WOLFSSL_NO_KYBER512 if (XSTRCMP(pqcAlg, "P256_KYBER_LEVEL1") == 0) { groups[count] = WOLFSSL_P256_KYBER_LEVEL1; } else #endif #ifndef WOLFSSL_NO_KYBER768 if (XSTRCMP(pqcAlg, "P384_KYBER_LEVEL3") == 0) { groups[count] = WOLFSSL_P384_KYBER_LEVEL3; } else #endif #ifndef WOLFSSL_NO_KYBER1024 if (XSTRCMP(pqcAlg, "P521_KYBER_LEVEL5") == 0) { groups[count] = WOLFSSL_P521_KYBER_LEVEL5; } else #endif #endif { err_sys("invalid post-quantum KEM specified"); } if (groups[count] == 0) { err_sys("invalid post-quantum KEM specified"); } else { if (wolfSSL_UseKeyShare(ssl, groups[count]) == WOLFSSL_SUCCESS) { printf("Using Post-Quantum KEM: %s\n", pqcAlg); count++; } else { groups[count] = 0; err_sys("unable to use post-quantum algorithm"); } } #endif } else { #ifdef HAVE_ECC #if !defined(NO_ECC256) || defined(HAVE_ALL_CURVES) do { ret = wolfSSL_UseKeyShare(ssl, WOLFSSL_ECC_SECP256R1); if (ret == WOLFSSL_SUCCESS) groups[count++] = WOLFSSL_ECC_SECP256R1; #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); #endif else err_sys("unable to use curve secp256r1"); } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); #elif defined(WOLFSSL_SM2) do { ret = wolfSSL_UseKeyShare(ssl, WOLFSSL_ECC_SM2P256V1); if (ret == WOLFSSL_SUCCESS) groups[count++] = WOLFSSL_ECC_SM2P256V1; #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); #endif else err_sys("unable to use curve sm2p256r1"); } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); #endif #endif } } if (onlyKeyShare == 1) { #ifdef HAVE_FFDHE_2048 do { ret = wolfSSL_UseKeyShare(ssl, WOLFSSL_FFDHE_2048); if (ret == WOLFSSL_SUCCESS) groups[count++] = WOLFSSL_FFDHE_2048; #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); #endif else err_sys("unable to use DH 2048-bit parameters"); } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); #endif } if (count >= MAX_GROUP_NUMBER) err_sys("example group array size error"); if (count > 0) { if (wolfSSL_set_groups(ssl, groups, count) != WOLFSSL_SUCCESS) err_sys("unable to set groups"); } WOLFSSL_END(WC_FUNC_CLIENT_KEY_EXCHANGE_SEND); } #endif /* WOLFSSL_TLS13 && HAVE_SUPPORTED_CURVES */ /* when adding new option, please follow the steps below: */ /* 1. add new option message in English section */ /* 2. increase the number of the second column */ /* 3. increase the array dimension */ /* 4. add the same message into Japanese section */ /* (will be translated later) */ /* 5. add printf() into suitable position of Usage() */ static const char* server_usage_msg[][65] = { /* English */ { " NOTE: All files relative to wolfSSL home dir\n", /* 0 */ "-? Help, print this usage\n" " 0: English, 1: Japanese\n" "--help Help, in English\n", /* 1 */ "-p Port to listen on, not 0, default", /* 2 */ #ifndef WOLFSSL_TLS13 "-v SSL version [0-3], SSLv3(0) - TLS1.2(3)), default", /* 3 */ #else "-v SSL version [0-4], SSLv3(0) - TLS1.3(4)), default", /* 3 */ #endif "-l Cipher suite list (: delimited)\n", /* 4 */ "-c Certificate file, default", /* 5 */ "-k Key file, default", /* 6 */ "-A Certificate Authority file, default", /* 7 */ "-R Create Ready file for external monitor" " default none\n", /* 8 */ #ifndef NO_DH "-D Diffie-Hellman Params file, default", /* 9 */ "-Z Minimum DH key bits, default", /* 10 */ #endif #ifdef HAVE_ALPN "-L Application-Layer Protocol Negotiation" " ({C,F}:)\n", /* 11 */ #endif "-d Disable client cert check\n", /* 12 */ "-b Bind to any interface instead of localhost only\n",/* 13 */ "-s Use pre Shared keys\n", /* 14 */ #ifndef WOLFSSL_DTLS13 "-u Use UDP DTLS, add -v 2 for DTLSv1, -v 3 for DTLSv1.2" " (default)\n", /* 15 */ #else "-u Use UDP DTLS, add -v 2 for DTLSv1, -v 3 for DTLSv1.2" " (default), -v 4 for DTLSv1.3\n", /* 15 */ #endif /* !WOLFSSL_DTLS13 */ #ifdef WOLFSSL_SCTP "-G Use SCTP DTLS," " add -v 2 for DTLSv1, -v 3 for DTLSv1.2 (default)\n", /* 16 */ #endif "-f Fewer packets/group messages\n", /* 17 */ "-r Allow one client Resumption\n", /* 18 */ "-N Use Non-blocking sockets\n", /* 19 */ "-S Use Host Name Indication\n", /* 20 */ "-w Wait for bidirectional shutdown\n", /* 21 */ #ifdef HAVE_OCSP "-o Perform OCSP lookup on peer certificate\n", /* 22 */ "-O Perform OCSP lookup using as responder\n", /* 23 */ #endif #ifdef HAVE_PK_CALLBACKS "-P Public Key Callbacks\n", /* 24 */ #endif #ifdef HAVE_ANON "-a Anonymous server\n", /* 25 */ #endif #ifndef NO_PSK "-I Do not send PSK identity hint\n", /* 26 */ #endif "-x Print server errors but do not close connection\n",/* 27 */ "-i Loop indefinitely (allow repeated connections)\n", /* 28 */ "-e Echo data mode (return raw bytes received)\n", /* 29 */ "-B Benchmark throughput" " using bytes and print stats\n", /* 31 */ #ifdef HAVE_CRL "-V Disable CRL\n", /* 32 */ #endif #ifdef WOLFSSL_TRUST_PEER_CERT "-E Path to load trusted peer cert\n", /* 33 */ #endif #ifdef HAVE_WNR "-q Whitewood config file, default", /* 34 */ #endif "-g Return basic HTML web page\n", /* 35 */ "-C The number of connections to accept, default: 1\n",/* 36 */ "-H Internal tests" " [defCipherList, exitWithRet, verifyFail, useSupCurve,\n", /* 37 */ " loadSSL, disallowETM]\n", /* 38 */ #ifdef WOLFSSL_TLS13 "-U Update keys and IVs before sending\n", /* 39 */ "-K Key Exchange for PSK not using (EC)DHE\n", /* 40 */ #ifndef NO_DH "-y Pre-generate Key Share using FFDHE_2048 only\n", /* 41 */ #endif #ifdef HAVE_ECC "-Y Pre-generate Key Share using P-256 only \n", /* 42 */ #endif #ifdef HAVE_CURVE25519 "-t Pre-generate Key share using Curve25519 only\n", /* 43 */ #endif #endif /* WOLFSSL_TLS13 */ #ifdef HAVE_SESSION_TICKET #if defined(WOLFSSL_NO_TLS12) && defined(NO_OLD_TLS) "-T Do not generate session ticket\n", /* 44 */ #else "-T [aon] Do not generate session ticket\n", /* 44 */ " No option affects TLS 1.3 only, 'a' affects all" " protocol versions,\n", /* 45 */ " 'o' affects TLS 1.2 and below only\n", /* 46 */ " 'n' affects TLS 1.3 only\n", /* 47 */ #endif #endif #ifdef WOLFSSL_TLS13 "-F Send alert if no mutual authentication\n", /* 48 */ #ifdef WOLFSSL_POST_HANDSHAKE_AUTH "-Q Request certificate from client post-handshake\n", /* 49 */ #endif #ifdef WOLFSSL_SEND_HRR_COOKIE "-J [n] Server sends Cookie Extension containing state (n to " "disable)\n", /* 50 */ #endif #endif /* WOLFSSL_TLS13 */ #ifdef WOLFSSL_EARLY_DATA "-0 Early data read from client (0-RTT handshake)\n", /* 51 */ #endif #ifdef WOLFSSL_MULTICAST "-3 Multicast, grpid < 256\n", /* 52 */ #endif "-1 Display a result by specified language." "\n 0: English, 1: Japanese\n", /* 53 */ #ifdef HAVE_TRUSTED_CA "-5 Use Trusted CA Key Indication\n", /* 54 */ #endif "-6 Simulate WANT_WRITE errors on every other IO send\n", /* 55 */ #ifdef HAVE_CURVE448 "-8 Pre-generate Key share using Curve448 only\n", /* 56 */ #endif #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) "-9 Use hash dir look up for certificate loading\n" " loading from /certs folder\n" " files in the folder would have the form \"hash.N\" file name\n" " e.g symbolic link to the file at certs folder\n" " ln -s client-ca.pem `openssl x509 -in client-ca.pem -hash -noout`.0\n", /* 57 */ #endif #if defined(WOLFSSL_WOLFSENTRY_HOOKS) && !defined(NO_FILESYSTEM) && !defined(WOLFSENTRY_NO_JSON) "--wolfsentry-config Path for JSON wolfSentry config\n", /* 58 */ #endif #ifndef WOLFSSL_TLS13 "-7 Set minimum downgrade protocol version [0-3] " " SSLv3(0) - TLS1.2(3)\n", #else "-7 Set minimum downgrade protocol version [0-4] " " SSLv3(0) - TLS1.3(4)\n", /* 59 */ #endif #ifdef HAVE_PQC "--pqc Key Share with specified post-quantum algorithm only:\n" #ifndef WOLFSSL_NO_ML_KEM " ML_KEM_512, ML_KEM_768, ML_KEM_1024, P256_ML_KEM_512," "\n" " P384_ML_KEM_768, P521_ML_KEM_1024\n" #endif #ifdef WOLFSSL_KYBER_ORIGINAL " KYBER_LEVEL1, KYBER_LEVEL3, KYBER_LEVEL5, " "P256_KYBER_LEVEL1,\n" " P384_KYBER_LEVEL3, P521_KYBER_LEVEL5\n" #endif "", /* 60 */ #endif #ifdef WOLFSSL_SRTP "--srtp (default is SRTP_AES128_CM_SHA1_80)\n", /* 61 */ #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) "--send-ticket Send a new session ticket during application data\n", /* 62 */ #endif #ifdef CAN_FORCE_CURVE "--force-curve [] Pre-generate a Key Share using .\n" " Leave blank to list all curves.\n" " Note: requires TLS1.3\n", /* 63 */ #endif #ifdef HAVE_SUPPORTED_CURVES "--onlyPskDheKe Must use DHE key exchange with PSK\n", /* 64 */ #endif #ifdef WOLFSSL_DUAL_ALG_CERTS "--altPrivKey Generate alternative signature with this key.\n", /* 65 */ #endif "\n" "For simpler wolfSSL TLS server examples, visit\n" "https://github.com/wolfSSL/wolfssl-examples/tree/master/tls\n", /* 66 */ NULL, }, #ifndef NO_MULTIBYTE_PRINT /* Japanese */ { " 注意 : 全てのファイルは" " wolfSSL ホーム・ディレクトリからの相対です。\n", /* 0 */ "-? ヘルプ, 使い方を表示\n" " 0: 英語、 1: 日本語\n" "--ヘルプ 日本語で使い方を表示\n", /* 1 */ "-p 接続先ポート, 0は無効, 既定値", /* 2 */ #ifndef WOLFSSL_TLS13 "-v SSL バージョン [0-3], SSLv3(0) - TLS1.2(3))," " 既定値", /* 3 */ #else "-v SSL バージョン [0-4], SSLv3(0) - TLS1.3(4))," " 既定値", /* 3 */ #endif "-l 暗号スイートリスト (区切り文字 :)\n", /* 4 */ "-c 証明書ファイル, 既定値", /* 5 */ "-k 鍵ファイル, 既定値", /* 6 */ "-A 認証局ファイル, 既定値", /* 7 */ "-R 外部モニタ用の準備完了ファイルを作成する。" "既定値 なし\n", /* 8 */ #ifndef NO_DH "-D ディフィー・ヘルマンのパラメータファイル," " 既定値", /* 9 */ "-Z 最小 DH 鍵 ビット, 既定値", /* 10 */ #endif #ifdef HAVE_ALPN "-L アプリケーション層プロトコルネゴシエーションを行う" " ({C,F}:)\n", /* 11 */ #endif "-d クライアント認証を無効とする\n", /* 12 */ "-b ローカルホスト以外のインターフェースへも" "バインドする\n", /* 13 */ "-s 事前共有鍵を使用する\n", /* 14 */ "-u UDP DTLSを使用する。\n" #ifndef WOLFSSL_DTLS13 " -v 2 を追加指定するとDTLSv1, " "-v 3 を追加指定すると DTLSv1.2 (既定値)\n", /* 15 */ #else " -v 2 を追加指定するとDTLSv1, " "-v 3 を追加指定すると DTLSv1.2 (既定値),\n" " -v 4 を追加指定すると DTLSv1.3\n", /* 15 */ #endif /* !WOLFSSL_DTLS13 */ #ifdef WOLFSSL_SCTP "-G SCTP DTLSを使用する。-v 2 を追加指定すると" " DTLSv1, -v 3 を追加指定すると DTLSv1.2 (既定値)\n", /* 16 */ #endif "-f より少ないパケット/グループメッセージを使用する\n",/* 17 */ "-r クライアントの再開を許可する\n", /* 18 */ "-N ノンブロッキング・ソケットを使用する\n", /* 19 */ "-S ホスト名表示を使用する\n", /* 20 */ "-w 双方向シャットダウンを待つ\n", /* 21 */ #ifdef HAVE_OCSP "-o OCSPルックアップをピア証明書で実施する\n", /* 22 */ "-O OCSPルックアップを、" "を使用し応答者として実施する\n", /* 23 */ #endif #ifdef HAVE_PK_CALLBACKS "-P 公開鍵コールバック\n", /* 24 */ #endif #ifdef HAVE_ANON "-a 匿名サーバー\n", /* 25 */ #endif #ifndef NO_PSK "-I PSKアイデンティティのヒントを送信しない\n", /* 26 */ #endif "-x サーバーエラーを出力するが接続を切断しない\n", /* 27 */ "-i 無期限にループする(繰り返し接続を許可)\n", /* 28 */ "-e エコー・データモード" "(受け取ったバイトデータを返す)\n", /* 29 */ "-B バイトを用いてのベンチマーク・スループット" "測定と結果を出力する\n", /* 31 */ #ifdef HAVE_CRL "-V CRLを無効とする\n", /* 32 */ #endif #ifdef WOLFSSL_TRUST_PEER_CERT "-E 信頼出来るピアの証明書ロードの為のパス\n\n", /* 33 */ #endif #ifdef HAVE_WNR "-q Whitewood コンフィグファイル, 既定値", /* 34 */ #endif "-g 基本的な Web ページを返す\n", /* 35 */ "-C アクセプト可能な接続数を指定する。既定値: 1\n", /* 36 */ "-H 内部テスト" " [defCipherList, exitWithRet, verifyFail, useSupCurve,\n", /* 37 */ " loadSSL, disallowETM]\n", /* 38 */ #ifdef WOLFSSL_TLS13 "-U データ送信前に、鍵とIVを更新する\n", /* 39 */ "-K 鍵交換にPSKを使用、(EC)DHEは使用しない\n", /* 40 */ #ifndef NO_DH "-y FFDHE_2048のみを使用して鍵共有を事前生成する\n", /* 41 */ #endif #ifdef HAVE_ECC "-Y P-256のみを使用したキー共有の事前生成\n", /* 42 */ #endif #ifdef HAVE_CURVE25519 "-t Curve25519のみを使用して鍵共有を事前生成する\n", /* 43 */ #endif #endif /* WOLFSSL_TLS13 */ #if defined(WOLFSSL_NO_TLS12) && defined(NO_OLD_TLS) "-T セッションチケットを生成しない\n", /* 44 */ #else "-T [aon] セッションチケットを生成しない\n", /* 44 */ " オプション指定なしの場合、TLS 1.3 にだけ有効\n" " 'a' を指定した場合、" "全てのプロトコルバージョンに有効\n" /* 45 */ " 'o' を指定した場合、TLS 1.2 及び" "それ以下のプロトコルバージョンに有効\n" /* 46 */ " 'n' を指定した場合、TLS 1.3 にのみ有効\n", /* 47 */ #endif #ifdef WOLFSSL_TLS13 "-F 相互認証が無い場合にalert を送信\n", /* 48 */ #ifdef WOLFSSL_POST_HANDSHAKE_AUTH "-Q クライアントのポストハンドシェイクから" "証明書を要求する\n", /* 49 */ #endif #ifdef WOLFSSL_SEND_HRR_COOKIE "-J サーバーの状態を含むTLS Cookie 拡張を送信する\n", /* 50 */ #endif #endif /* WOLFSSL_TLS13 */ #ifdef WOLFSSL_EARLY_DATA "-0 クライアントからの Early Data 読み取り" "(0-RTTハンドシェイク)\n", /* 51 */ #endif #ifdef WOLFSSL_MULTICAST "-3 マルチキャスト, grpid < 256\n", /* 52 */ #endif "-1 指定された言語で結果を表示します。" "\n 0: 英語、 1: 日本語\n", /* 53 */ #ifdef HAVE_TRUSTED_CA "-5 信頼できる認証局の鍵表示を使用する\n", /* 54 */ #endif "-6 交互の IO 送信で WANT_WRITE エラー" "をシュミレート\n", /* 55 */ #ifdef HAVE_CURVE448 "-8 Curve448のみを使用して鍵共有を事前生成する\n", /* 56 */ #endif #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) "-9 証明書の読み込みに hash dir 機能を使用する\n" " /certs フォルダーからロードします\n" " フォルダー中のファイルは、\"hash.N\"[N:0-9]名である必要があります\n" " 以下の例ではca-cert.pemにシンボリックリンクを設定します\n" " ln -s client-ca.pem `openssl x509 -in client-ca.pem -hash -noout`.0\n", /* 57 */ #endif #if defined(WOLFSSL_WOLFSENTRY_HOOKS) && !defined(NO_FILESYSTEM) && !defined(WOLFSENTRY_NO_JSON) "--wolfsentry-config wolfSentry コンフィグファイル\n", /* 58 */ #endif #ifndef WOLFSSL_TLS13 "-7 最小ダウングレード可能なプロトコルバージョンを設定します [0-3] " " SSLv3(0) - TLS1.2(3)\n", #else "-7 最小ダウングレード可能なプロトコルバージョンを設定します [0-4] " " SSLv3(0) - TLS1.3(4)\n", /* 59 */ #endif #ifdef HAVE_PQC "--pqc post-quantum 名前付きグループとの鍵共有のみ:\n" #ifndef WOLFSSL_NO_ML_KEM " ML_KEM_512, ML_KEM_768, ML_KEM_1024, P256_ML_KEM_512," "\n" " P384_ML_KEM_768, P521_ML_KEM_1024\n" #endif #ifdef WOLFSSL_KYBER_ORIGINAL " KYBER_LEVEL1, KYBER_LEVEL3, KYBER_LEVEL5, " "P256_KYBER_LEVEL1,\n" " P384_KYBER_LEVEL3, P521_KYBER_LEVEL5\n" #endif "", /* 60 */ #endif #ifdef WOLFSSL_SRTP "--srtp (デフォルトはSRTP_AES128_CM_SHA1_80)\n", /* 61 */ #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) "--send-ticket Application data 中に新しい" "セッションチケットを送信します\n", /* 62 */ #endif #ifdef CAN_FORCE_CURVE /* TODO: Need Japanese translation */ "--force-curve [] Pre-generate a Key Share using .\n" " Leave blank to list all curves.\n" " Note: requires TLS1.3\n", /* 63 */ #endif #ifdef HAVE_SUPPORTED_CURVES "--onlyPskDheKe Must use DHE key exchange with PSK\n", /* 64 */ #endif #ifdef WOLFSSL_DUAL_ALG_CERTS "--altPrivKey Generate alternative signature with this key.\n", /* 65 */ #endif "\n" "より簡単なwolfSSL TSL クライアントの例については" "下記にアクセスしてください\n" "https://github.com/wolfSSL/wolfssl-examples/tree/master/tls\n", /* 66 */ NULL, }, #endif }; static void Usage(void) { int msgId = 0; const char** msg = server_usage_msg[lng_index]; printf("%s%s%s", "server ", LIBWOLFSSL_VERSION_STRING, msg[msgId]); printf("%s", msg[++msgId]); /* ? */ printf("%s %d\n", msg[++msgId], wolfSSLPort); /* -p */ #ifndef WOLFSSL_TLS13 printf("%s %d\n", msg[++msgId], SERVER_DEFAULT_VERSION); /* -v */ #else printf("%s %d\n", msg[++msgId], SERVER_DEFAULT_VERSION); /* -v */ #endif printf("%s", msg[++msgId]); /* -l */ printf("%s %s\n", msg[++msgId], svrCertFile); /* -c */ printf("%s %s\n", msg[++msgId], svrKeyFile); /* -k */ printf("%s %s\n", msg[++msgId], cliCertFile); /* -A */ printf("%s", msg[++msgId]); /* -R */ #ifndef NO_DH printf("%s %s\n", msg[++msgId], dhParamFile); /* -D */ printf("%s %d\n", msg[++msgId], DEFAULT_MIN_DHKEY_BITS);/* -Z */ #endif #ifdef HAVE_ALPN printf("%s", msg[++msgId]); /* -L */ #endif printf("%s", msg[++msgId]); /* -d */ printf("%s", msg[++msgId]); /* -b */ printf("%s", msg[++msgId]); /* -s */ printf("%s", msg[++msgId]); /* -u */ #ifdef WOLFSSL_SCTP printf("%s", msg[++msgId]); /* -G */ #endif printf("%s", msg[++msgId]); /* -f */ printf("%s", msg[++msgId]); /* -r */ printf("%s", msg[++msgId]); /* -N */ printf("%s", msg[++msgId]); /* -S */ printf("%s", msg[++msgId]); /* -w */ #ifdef HAVE_SECURE_RENEGOTIATION printf("-M Allow Secure Renegotiation\n"); printf("-m Force Server Initiated Secure Renegotiation\n"); #endif /* HAVE_SECURE_RENEGOTIATION */ #ifdef HAVE_OCSP printf("%s", msg[++msgId]); /* -o */ printf("%s", msg[++msgId]); /* -O */ #endif #ifdef HAVE_PK_CALLBACKS printf("%s", msg[++msgId]); /* -P */ #endif #ifdef HAVE_ANON printf("%s", msg[++msgId]); /* -a */ #endif #ifndef NO_PSK printf("%s", msg[++msgId]); /* -I */ #endif printf("%s", msg[++msgId]); /* -x */ printf("%s", msg[++msgId]); /* -i */ printf("%s", msg[++msgId]); /* -e */ printf("%s", msg[++msgId]); /* -B */ #ifdef HAVE_CRL printf("%s", msg[++msgId]); /* -V */ #endif #ifdef WOLFSSL_TRUST_PEER_CERT printf("%s", msg[++msgId]); /* -E */ #endif #ifdef HAVE_WNR printf("%s %s\n", msg[++msgId], wnrConfig); /* -q */ #endif printf("%s", msg[++msgId]); /* -g */ printf("%s", msg[++msgId]); /* -C */ printf("%s", msg[++msgId]); /* -H */ printf("%s", msg[++msgId]); /* more -H options */ #ifdef WOLFSSL_TLS13 printf("%s", msg[++msgId]); /* -U */ printf("%s", msg[++msgId]); /* -K */ #ifndef NO_DH printf("%s", msg[++msgId]); /* -y */ #endif #ifdef HAVE_ECC printf("%s", msg[++msgId]); /* -Y */ #endif #ifdef HAVE_CURVE25519 printf("%s", msg[++msgId]); /* -t */ #endif #endif /* WOLFSSL_TLS13 */ #ifdef HAVE_SESSION_TICKET printf("%s", msg[++msgId]); /* -T */ #if !defined(WOLFSSL_NO_TLS12) || !defined(NO_OLD_TLS) printf("%s", msg[++msgId]); /* -T */ printf("%s", msg[++msgId]); /* -T */ printf("%s", msg[++msgId]); /* -T */ #endif #endif #ifdef WOLFSSL_TLS13 printf("%s", msg[++msgId]); /* -F */ #ifdef WOLFSSL_POST_HANDSHAKE_AUTH printf("%s", msg[++msgId]); /* -Q */ #endif #ifdef WOLFSSL_SEND_HRR_COOKIE printf("%s", msg[++msgId]); /* -J */ #endif #endif /* WOLFSSL_TLS13 */ #ifdef WOLFSSL_EARLY_DATA printf("%s", msg[++msgId]); /* -0 */ #endif #if !defined(NO_DH) && !defined(HAVE_FIPS) && \ !defined(HAVE_SELFTEST) && !defined(WOLFSSL_OLD_PRIME_CHECK) printf("-2 Disable DH Prime check\n"); #endif #ifdef WOLFSSL_DTLS printf("-4 DTLS fake would-block for message seq\n"); #endif #ifdef WOLFSSL_MULTICAST printf("%s", msg[++msgId]); /* -3 */ #endif printf("%s", msg[++msgId]); /* -1 */ #ifdef HAVE_TRUSTED_CA printf("%s", msg[++msgId]); /* -5 */ #endif /* HAVE_TRUSTED_CA */ printf("%s", msg[++msgId]); /* -6 */ #ifdef HAVE_CURVE448 printf("%s", msg[++msgId]); /* -8 */ #endif #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) printf("%s", msg[++msgId]); /* -9 */ #endif #if defined(WOLFSSL_WOLFSENTRY_HOOKS) && !defined(NO_FILESYSTEM) && \ !defined(WOLFSENTRY_NO_JSON) printf("%s", msg[++msgId]); /* --wolfsentry-config */ #endif printf("%s", msg[++msgId]); /* -7 */ #ifdef HAVE_PQC printf("%s", msg[++msgId]); /* --pqc */ printf("%s", msg[++msgId]); /* --pqc options */ printf("%s", msg[++msgId]); /* more --pqc options */ printf("%s", msg[++msgId]); /* more --pqc options */ #endif #ifdef WOLFSSL_SRTP printf("%s", msg[++msgId]); /* dtls-srtp */ #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) printf("%s", msg[++msgId]); /* send-ticket */ #endif #ifdef CAN_FORCE_CURVE printf("%s", msg[++msgId]); /* force-curve */ #endif #ifdef HAVE_SUPPORTED_CURVES printf("%s", msg[++msgId]); /* --onlyPskDheKe */ #endif #ifdef WOLFSSL_DUAL_ALG_CERTS printf("%s", msg[++msgId]); /* --altPrivKey */ #endif printf("%s", msg[++msgId]); /* Examples repo link */ } #ifdef WOLFSSL_SRTP /** * server_srtp_test() - print the ekm and share it with the client * @ssl: ssl context * @srtp_helper: srtp_test_helper shared struct with the client * * if @srtp_helper is NULL the ekm isn't shared, but it is still printed. * * calls srtp_helper_set_ekm() to wake the client and share the ekm with * him. The client will check that the ekm matches the one computed by itself. */ static int server_srtp_test(WOLFSSL *ssl, func_args *args) { size_t srtp_secret_length; byte *srtp_secret, *p; int ret; #ifdef WOLFSSL_COND srtp_test_helper *srtp_helper = args->srtp_helper; #else (void)args; #endif ret = wolfSSL_export_dtls_srtp_keying_material(ssl, NULL, &srtp_secret_length); if (ret != WC_NO_ERR_TRACE(LENGTH_ONLY_E)) { LOG_ERROR("DTLS SRTP: Error getting key material length\n"); return ret; } srtp_secret = (byte*)XMALLOC(srtp_secret_length, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (srtp_secret == NULL) { err_sys("DTLS SRTP: Memory error"); } ret = wolfSSL_export_dtls_srtp_keying_material(ssl, srtp_secret, &srtp_secret_length); if (ret != WOLFSSL_SUCCESS) { XFREE(srtp_secret, NULL, DYNAMIC_TYPE_TMP_BUFFER); LOG_ERROR("DTLS SRTP: Error getting key material\n"); return ret; } printf("DTLS SRTP: Exported key material: "); for (p = srtp_secret; p < srtp_secret + srtp_secret_length; p++) printf("%02X", *p); printf("\n"); #ifdef WOLFSSL_COND if (srtp_helper != NULL) { srtp_helper_set_ekm(srtp_helper, srtp_secret, srtp_secret_length); /* client code will free srtp_secret buffer after checking for correctness */ return 0; } #endif /* WOLFSSL_COND */ XFREE(srtp_secret, NULL, DYNAMIC_TYPE_TMP_BUFFER); return 0; } #endif THREAD_RETURN WOLFSSL_THREAD server_test(void* args) { SOCKET_T sockfd = WOLFSSL_SOCKET_INVALID; SOCKET_T clientfd = WOLFSSL_SOCKET_INVALID; SOCKADDR_IN_T client_addr; socklen_t client_len; wolfSSL_method_func method = NULL; SSL_CTX* ctx = 0; SSL* ssl = 0; #ifdef WOLFSSL_WOLFSENTRY_HOOKS wolfsentry_errcode_t wolfsentry_ret; #endif int minVersion = SERVER_INVALID_VERSION; int useWebServerMsg = 0; char input[SRV_READ_SZ]; #ifndef WOLFSSL_VXWORKS int ch; static const struct mygetopt_long_config long_options[] = { #if defined(WOLFSSL_WOLFSENTRY_HOOKS) && !defined(NO_FILESYSTEM) && \ !defined(WOLFSENTRY_NO_JSON) { "wolfsentry-config", 1, 256 }, #endif { "help", 0, 257 }, #ifndef NO_MULTIBYTE_PRINT { "ヘルプ", 0, 258 }, #endif #if defined(HAVE_PQC) { "pqc", 1, 259 }, #endif #ifdef WOLFSSL_SRTP { "srtp", 2, 260 }, /* optional argument */ #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) { "send-ticket", 0, 261 }, #endif #ifdef CAN_FORCE_CURVE { "force-curve", 2, 262}, #endif #ifdef WOLFSSL_DTLS_CID {"cid", 2, 263}, #endif /* WOLFSSL_DTLS_CID */ #ifdef HAVE_SUPPORTED_CURVES {"onlyPskDheKe", 2, 264}, #endif /* HAVE_SUPPORTED_CURVES */ #ifdef HAVE_CRL {"crl-dir", 1, 265}, #endif {"quieter", 0, 266}, #ifdef WOLFSSL_DUAL_ALG_CERTS { "altPrivKey", 1, 267}, #endif { 0, 0, 0 } }; #endif int version = SERVER_DEFAULT_VERSION; #ifndef WOLFSSL_NO_CLIENT_AUTH int doCliCertCheck = 1; #else int doCliCertCheck = 0; #endif #if defined(HAVE_CRL) && !defined(NO_FILESYSTEM) int disableCRL = 0; #endif int useAnyAddr = 0; word16 port = wolfSSLPort; int usePsk = 0; int usePskPlus = 0; int useAnon = 0; int doDTLS = 0; int dtlsUDP = 0; #if (defined(WOLFSSL_SCTP) || defined(WOLFSSL_DTLS_MTU)) && \ defined(WOLFSSL_DTLS) int dtlsMTU = 0; #endif int dtlsSCTP = 0; int doMcast = 0; #if defined(WOLFSSL_DTLS) && defined(USE_WOLFSSL_IO) int doBlockSeq = 0; WOLFSSL_TEST_DTLS_CTX dtlsCtx; #endif int needDH = 0; int nonBlocking = 0; int simulateWantWrite = 0; int fewerPackets = 0; #ifdef HAVE_PK_CALLBACKS int pkCallbacks = 0; PkCbInfo pkCbInfo; #endif int wc_shutdown = 0; int resume = 0; int resumeCount = 0; int loops = 1; int cnt = 0; int echoData = 0; int block = TEST_BUFFER_SIZE; size_t throughput = 0; int minDhKeyBits = DEFAULT_MIN_DHKEY_BITS; short minRsaKeyBits = DEFAULT_MIN_RSAKEY_BITS; short minEccKeyBits = DEFAULT_MIN_ECCKEY_BITS; int doListen = 1; int crlFlags = 0; int ret; int err = 0; char* serverReadyFile = NULL; char* alpnList = NULL; unsigned char alpn_opt = 0; char* cipherList = NULL; int useDefCipherList = 0; const char* verifyCert; const char* ourCert; const char* ourKey; const char* ourDhParam = dhParamFile; tcp_ready* readySignal = NULL; int argc = ((func_args*)args)->argc; char** argv = ((func_args*)args)->argv; #ifdef WOLFSSL_TRUST_PEER_CERT const char* trustCert = NULL; #endif #ifndef NO_PSK int sendPskIdentityHint = 1; #endif #ifdef HAVE_SNI char* sniHostName = NULL; #endif #ifdef HAVE_TRUSTED_CA int trustedCaKeyId = 0; #endif /* HAVE_TRUSTED_CA */ #ifdef HAVE_OCSP int useOcsp = 0; char* ocspUrl = NULL; #endif #ifdef HAVE_WNR const char* wnrConfigFile = wnrConfig; #endif char buffer[WOLFSSL_MAX_ERROR_SZ]; #ifdef WOLFSSL_TLS13 int noPskDheKe = 0; #ifdef HAVE_SUPPORTED_CURVES int onlyPskDheKe = 0; #endif #endif int updateKeysIVs = 0; #ifndef NO_CERTS int mutualAuth = 0; #endif int postHandAuth = 0; int sendTicket = 0; #ifdef WOLFSSL_EARLY_DATA int earlyData = 0; #endif #ifdef HAVE_SECURE_RENEGOTIATION int scr = 0; int forceScr = 0; #endif /* HAVE_SECURE_RENEGOTIATION */ #ifdef WOLFSSL_SEND_HRR_COOKIE int hrrCookie = 0; #endif byte mcastID = 0; #if !defined(NO_DH) && !defined(HAVE_FIPS) && \ !defined(HAVE_SELFTEST) && !defined(WOLFSSL_OLD_PRIME_CHECK) int doDhKeyCheck = 1; #endif #ifdef WOLFSSL_DTLS_CID int useDtlsCID = 0; char dtlsCID[DTLS_CID_BUFFER_SIZE] = { 0 }; #endif /* WOLFSSL_DTLS_CID */ #if defined(HAVE_CRL) && !defined(NO_FILESYSTEM) char* crlDir = NULL; #endif #ifdef WOLFSSL_STATIC_MEMORY /* Note: Actual memory used is much less, this is the entire buffer buckets, * which is partitioned into pools of common sizes. To adjust the buckets * sizes see WOLFMEM_BUCKETS in memory.h */ #if (defined(HAVE_ECC) && !defined(ALT_ECC_SIZE)) \ || defined(SESSION_CERTS) /* big enough to handle most cases including session certs */ #if !defined(WOLFSSL_NO_CLIENT_AUTH) && \ ((defined(HAVE_ED25519) && !defined(NO_ED25519_CLIENT_AUTH)) || \ (defined(HAVE_ED448) && !defined(NO_ED448_CLIENT_AUTH))) /* increase is due to EdDSA_Update */ byte memory[440000]; #else byte memory[320000]; #endif #else byte memory[80000]; #endif byte memoryIO[34500]; /* max for IO buffer (TLS packet can be 16k) */ #if !defined(WOLFSSL_STATIC_MEMORY_LEAN) WOLFSSL_MEM_CONN_STATS ssl_stats; #if defined(DEBUG_WOLFSSL) WOLFSSL_MEM_STATS mem_stats; #endif #endif #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) int onlyKeyShare = 0; #endif #if defined(HAVE_SESSION_TICKET) #ifdef WOLFSSL_TLS13 int noTicketTls13 = 0; #endif #if !defined(WOLFSSL_NO_TLS12) || !defined(NO_OLD_TLS) int noTicketTls12 = 0; #endif #endif int useX25519 = 0; int useX448 = 0; int usePqc = 0; char* pqcAlg = NULL; char* altPrivKey = NULL; int exitWithRet = 0; int loadCertKeyIntoSSLObj = 0; #ifdef HAVE_ENCRYPT_THEN_MAC int disallowETM = 0; #endif #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) int useCertFolder = 0; #endif #ifdef WOLFSSL_SRTP const char* dtlsSrtpProfiles = NULL; #endif #ifdef HAVE_TEST_SESSION_TICKET MyTicketCtx myTicketCtx; #endif #ifdef CAN_FORCE_CURVE int force_curve_group_id = 0; #endif ((func_args*)args)->return_code = -1; /* error state */ #ifndef NO_RSA verifyCert = cliCertFile; ourCert = svrCertFile; ourKey = svrKeyFile; #else #ifdef HAVE_ECC verifyCert = cliEccCertFile; ourCert = eccCertFile; ourKey = eccKeyFile; #elif defined(HAVE_ED25519) verifyCert = cliEdCertFile; ourCert = edCertFile; ourKey = edKeyFile; #elif defined(HAVE_ED448) verifyCert = cliEd448CertFile; ourCert = ed448CertFile; ourKey = ed448KeyFile; #else verifyCert = NULL; ourCert = NULL; ourKey = NULL; #endif #endif (void)needDH; (void)ourKey; (void)ourCert; (void)ourDhParam; (void)verifyCert; (void)doCliCertCheck; (void)minDhKeyBits; (void)minRsaKeyBits; (void)minEccKeyBits; (void)alpnList; (void)alpn_opt; (void)crlFlags; (void)readySignal; (void)updateKeysIVs; #ifndef NO_CERTS (void)mutualAuth; #endif (void)postHandAuth; (void)sendTicket; (void)mcastID; (void)loadCertKeyIntoSSLObj; (void)nonBlocking; (void)pqcAlg; (void)usePqc; (void)altPrivKey; #ifdef WOLFSSL_TIRTOS fdOpenSession(Task_self()); #endif #ifdef WOLFSSL_VXWORKS useAnyAddr = 1; #else /* Reinitialize the global myVerifyAction. */ myVerifyAction = VERIFY_OVERRIDE_ERROR; /* Not Used: h, z, W, X */ while ((ch = mygetopt_long(argc, argv, "?:" "abc:defgijk:l:mop:q:rstu;v:wxy" "A:B:C:D:E:FGH:IJ;KL:MNO:PQR:S:T;UVYZ:" "01:23:4:567:89" "@#", long_options, 0)) != -1) { switch (ch) { case '?' : if(myoptarg!=NULL) { lng_index = atoi(myoptarg); if(lng_index<0||lng_index>1){ lng_index = 0; } } Usage(); XEXIT_T(EXIT_SUCCESS); case 257 : lng_index = 0; Usage(); XEXIT_T(EXIT_SUCCESS); case 258 : lng_index = 1; Usage(); XEXIT_T(EXIT_SUCCESS); case 'x' : runWithErrors = 1; break; case 'd' : doCliCertCheck = 0; break; case 'V' : #if defined(HAVE_CRL) && !defined(NO_FILESYSTEM) disableCRL = 1; #endif break; case 'b' : useAnyAddr = 1; break; case 's' : usePsk = 1; break; case 'j' : usePskPlus = 1; break; case 'u' : doDTLS = 1; dtlsUDP = 1; #if (defined(WOLFSSL_SCTP) || defined(WOLFSSL_DTLS_MTU)) && \ defined(WOLFSSL_DTLS) dtlsMTU = atoi(myoptarg); #endif break; #ifdef WOLFSSL_SRTP case 260: doDTLS = 1; dtlsUDP = 1; dtlsSrtpProfiles = myoptarg != NULL ? myoptarg : "SRTP_AES128_CM_SHA1_80"; printf("Using SRTP Profile(s): %s\n", dtlsSrtpProfiles); break; #endif case 'G' : #ifdef WOLFSSL_SCTP doDTLS = 1; dtlsUDP = 1; dtlsSCTP = 1; #endif break; case 'f' : fewerPackets = 1; break; case 'R' : serverReadyFile = myoptarg; break; case 'r' : #ifndef NO_SESSION_CACHE resume = 1; #endif break; case 'P' : #ifdef HAVE_PK_CALLBACKS pkCallbacks = 1; #endif break; case 'p' : port = (word16)atoi(myoptarg); break; case 'w' : wc_shutdown = 1; break; case 'v' : if (myoptarg[0] == 'd') { version = SERVER_DOWNGRADE_VERSION; break; } #if defined(OPENSSL_EXTRA) || defined(WOLFSSL_EITHER_SIDE) else if (myoptarg[0] == 'e') { version = EITHER_DOWNGRADE_VERSION; #ifndef NO_CERTS loadCertKeyIntoSSLObj = 1; #endif break; } #endif version = atoi(myoptarg); if (version < 0 || version > 4) { Usage(); XEXIT_T(MY_EX_USAGE); } break; case 'l' : cipherList = myoptarg; break; case 'H' : if (XSTRCMP(myoptarg, "defCipherList") == 0) { printf("Using default cipher list for testing\n"); useDefCipherList = 1; } else if (XSTRCMP(myoptarg, "exitWithRet") == 0) { printf("Skip exit() for testing\n"); exitWithRet = 1; } else if (XSTRCMP(myoptarg, "verifyFail") == 0) { printf("Verify should fail\n"); myVerifyAction = VERIFY_FORCE_FAIL; } else if (XSTRCMP(myoptarg, "verifyInfo") == 0) { printf("Verify should use preverify (just show info)\n"); myVerifyAction = VERIFY_USE_PREVERIFY; } else if (XSTRCMP(myoptarg, "loadSSL") == 0) { printf("Also load cert/key into wolfSSL object\n"); #ifndef NO_CERTS loadCertKeyIntoSSLObj = 2; #endif } else if (XSTRCMP(myoptarg, "loadSSLOnly") == 0) { printf("Only load cert/key into wolfSSL object\n"); #ifndef NO_CERTS loadCertKeyIntoSSLObj = 1; #endif } else if (XSTRCMP(myoptarg, "disallowETM") == 0) { printf("Disallow Encrypt-Then-MAC\n"); #ifdef HAVE_ENCRYPT_THEN_MAC disallowETM = 1; #endif } else if (XSTRCMP(myoptarg, "overrideDateErr") == 0) { #if !defined(NO_FILESYSTEM) && !defined(NO_CERTS) myVerifyAction = VERIFY_OVERRIDE_DATE_ERR; #endif } else { Usage(); XEXIT_T(MY_EX_USAGE); } break; case 'A' : verifyCert = myoptarg; break; case 'c' : ourCert = myoptarg; break; case 'k' : ourKey = myoptarg; break; case 'D' : #ifndef NO_DH ourDhParam = myoptarg; #endif break; case 'Z' : #ifndef NO_DH minDhKeyBits = atoi(myoptarg); if (minDhKeyBits <= 0 || minDhKeyBits > 16000) { Usage(); XEXIT_T(MY_EX_USAGE); } #endif break; case 'N': nonBlocking = 1; break; case 'S' : #ifdef HAVE_SNI sniHostName = myoptarg; #endif break; case 'o' : #ifdef HAVE_OCSP useOcsp = 1; #endif break; case 'O' : #ifdef HAVE_OCSP useOcsp = 1; ocspUrl = myoptarg; #endif break; case 'a' : #ifdef HAVE_ANON useAnon = 1; #endif break; case 'I': #ifndef NO_PSK sendPskIdentityHint = 0; #endif break; case 'L' : #ifdef HAVE_ALPN alpnList = myoptarg; if (alpnList[0] == 'C' && alpnList[1] == ':') alpn_opt = WOLFSSL_ALPN_CONTINUE_ON_MISMATCH; else if (alpnList[0] == 'F' && alpnList[1] == ':') alpn_opt = WOLFSSL_ALPN_FAILED_ON_MISMATCH; else { Usage(); XEXIT_T(MY_EX_USAGE); } alpnList += 2; #endif break; case 'i' : loops = -1; break; case 'C' : loops = atoi(myoptarg); if (loops <= 0) { Usage(); XEXIT_T(MY_EX_USAGE); } break; case 'e' : echoData = 1; break; case 'B': throughput = (size_t)atol(myoptarg); for (; *myoptarg != '\0'; myoptarg++) { if (*myoptarg == ',') { block = atoi(myoptarg + 1); break; } } if (throughput == 0 || block <= 0) { Usage(); XEXIT_T(MY_EX_USAGE); } break; #ifdef WOLFSSL_TRUST_PEER_CERT case 'E' : trustCert = myoptarg; break; #endif case 'q' : #ifdef HAVE_WNR wnrConfigFile = myoptarg; #endif break; case 'g' : useWebServerMsg = 1; break; case 'y' : #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) \ && !defined(NO_DH) onlyKeyShare = 1; #endif break; case 'Y' : #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) \ && defined(HAVE_ECC) onlyKeyShare = 2; #endif break; case 't' : #ifdef HAVE_CURVE25519 useX25519 = 1; #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) onlyKeyShare = 2; #endif #endif break; case 'K' : #ifdef WOLFSSL_TLS13 noPskDheKe = 1; #endif break; case 'T' : #if defined(HAVE_SESSION_TICKET) if (XSTRLEN(myoptarg) == 0) { #if defined(WOLFSSL_TLS13) noTicketTls13 = 1; #endif } #if !defined(WOLFSSL_NO_TLS12) || !defined(NO_OLD_TLS) else if (XSTRCMP(myoptarg, "a") == 0) { noTicketTls12 = 1; #if defined(WOLFSSL_TLS13) noTicketTls13 = 1; #endif } else if (XSTRCMP(myoptarg, "o") == 0) { noTicketTls12 = 1; } else if (XSTRCMP(myoptarg, "n") == 0) { #if defined(WOLFSSL_TLS13) noTicketTls13 = 1; #endif } #endif else { Usage(); XEXIT_T(MY_EX_USAGE); } #endif break; case 'U' : #ifdef WOLFSSL_TLS13 updateKeysIVs = 1; #endif break; #ifndef NO_CERTS case 'F' : mutualAuth = 1; break; #endif case 'Q' : #if defined(WOLFSSL_TLS13) && defined(WOLFSSL_POST_HANDSHAKE_AUTH) postHandAuth = 1; doCliCertCheck = 0; #endif break; case 'J' : #ifdef WOLFSSL_SEND_HRR_COOKIE hrrCookie = 1; if (XSTRCMP(myoptarg, "n") == 0) hrrCookie = -1; #endif break; case 'M' : #ifdef HAVE_SECURE_RENEGOTIATION scr = 1; #endif /* HAVE_SECURE_RENEGOTIATION */ break; case 'm' : #ifdef HAVE_SECURE_RENEGOTIATION scr = 1; forceScr = 1; #endif /* HAVE_SECURE_RENEGOTIATION */ break; case '0' : #ifdef WOLFSSL_EARLY_DATA earlyData = 1; #endif break; case '1' : lng_index = atoi(myoptarg); if(lng_index<0||lng_index>1){ lng_index = 0; } break; case '2' : #if !defined(NO_DH) && !defined(HAVE_FIPS) && \ !defined(HAVE_SELFTEST) && !defined(WOLFSSL_OLD_PRIME_CHECK) doDhKeyCheck = 0; #endif break; case '3' : #ifdef WOLFSSL_MULTICAST doMcast = 1; mcastID = (byte)(atoi(myoptarg) & 0xFF); #endif break; case '4' : #if defined(WOLFSSL_DTLS) && defined(USE_WOLFSSL_IO) XMEMSET(&dtlsCtx, 0, sizeof(dtlsCtx)); doBlockSeq = 1; dtlsCtx.blockSeq = (word32)atoi(myoptarg); #endif break; case '5' : #ifdef HAVE_TRUSTED_CA trustedCaKeyId = 1; #endif /* HAVE_TRUSTED_CA */ break; case '6' : #ifdef WOLFSSL_ASYNC_IO nonBlocking = 1; simulateWantWrite = 1; #else LOG_ERROR("Ignoring -6 since async I/O support not " "compiled in.\n"); #endif break; case '7' : minVersion = atoi(myoptarg); if (minVersion < 0 || minVersion > 4) { Usage(); XEXIT_T(MY_EX_USAGE); } break; case '8' : #ifdef HAVE_CURVE448 useX448 = 1; #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) onlyKeyShare = 2; #endif #endif break; case '9' : #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) useCertFolder = 1; break; #endif case '@' : { #ifdef HAVE_WC_INTROSPECTION const char *conf_args = wolfSSL_configure_args(); if (conf_args) { puts(conf_args); XEXIT_T(EXIT_SUCCESS); } else { fputs("configure args not compiled in.\n",stderr); XEXIT_T(MY_EX_USAGE); } #else fputs("compiled without BUILD_INTROSPECTION.\n",stderr); XEXIT_T(MY_EX_USAGE); #endif } case '#' : { #ifdef HAVE_WC_INTROSPECTION const char *cflags = wolfSSL_global_cflags(); if (cflags) { puts(cflags); XEXIT_T(EXIT_SUCCESS); } else { fputs("CFLAGS not compiled in.\n",stderr); XEXIT_T(MY_EX_USAGE); } #else fputs("compiled without BUILD_INTROSPECTION.\n",stderr); XEXIT_T(MY_EX_USAGE); #endif } #ifdef WOLFSSL_WOLFSENTRY_HOOKS case 256: #if !defined(NO_FILESYSTEM) && !defined(WOLFSENTRY_NO_JSON) wolfsentry_config_path = myoptarg; #endif break; #endif #ifdef HAVE_PQC case 259: usePqc = 1; onlyKeyShare = 2; pqcAlg = myoptarg; break; #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) case 261: sendTicket = 1; break; #endif #ifdef CAN_FORCE_CURVE case 262: { /* Note: this requires TSL1.3 (version >= 4) */ #ifdef HAVE_ECC int j = 0; /* our group index */ #endif if (NULL == myoptarg) { #ifdef HAVE_ECC int idx = 0; /* ecc curve index */ #endif Usage(); if (lng_index == 1) { /* TODO: Need Japanese translation */ printf("\nAvailable choices for --force-curve:\n"); } else { printf("\nAvailable choices for --force-curve:\n"); } #ifdef HAVE_ECC for (idx=0; ; ++idx) { int id = wc_ecc_get_curve_id(idx); if (ECC_CURVE_INVALID == id) { break; } for (j=0; group_id_to_text[j].group != 0; ++j) { if (XSTRCMP(group_id_to_text[j].name, wc_ecc_get_curve_name_from_id(id)) == 0) { printf("\t%s\n", group_id_to_text[j].name); } } } #endif #ifdef HAVE_CURVE25519 printf("\tCURVE25519\n"); #endif #ifdef HAVE_CURVE448 printf("\tCURVE448\n"); #endif printf("\n"); XEXIT_T(EXIT_SUCCESS); } #ifdef HAVE_ECC for (j=0; group_id_to_text[j].group != 0; ++j) { if (XSTRCMP(group_id_to_text[j].name, myoptarg) == 0) { force_curve_group_id = group_id_to_text[j].group; } } #endif #ifdef HAVE_CURVE25519 if (force_curve_group_id <= 0) { if (XSTRCMP(myoptarg, "CURVE25519") == 0) { force_curve_group_id = WOLFSSL_ECC_X25519; } } #endif #ifdef HAVE_CURVE448 if (force_curve_group_id <= 0) { if (XSTRCMP(myoptarg, "CURVE448") == 0) { force_curve_group_id = WOLFSSL_ECC_X448; } } #endif if (force_curve_group_id <= 0) { if (lng_index == 1) { /* TODO: Need Japanese translation */ LOG_ERROR("Invalid curve '%s'\n", myoptarg); } else { LOG_ERROR("Invalid curve '%s'\n", myoptarg); } XEXIT_T(EXIT_FAILURE); } } break; #endif /* CAN_FORCE_CURVE */ #ifdef WOLFSSL_DTLS_CID case 263: useDtlsCID = 1; if (myoptarg != NULL) { if (XSTRLEN(myoptarg) >= DTLS_CID_BUFFER_SIZE) { err_sys("provided connection ID is too big"); } else { strcpy(dtlsCID, myoptarg); } } break; #endif /* WOLFSSL_CID */ case 264: #ifdef HAVE_SUPPORTED_CURVES #ifdef WOLFSSL_TLS13 onlyPskDheKe = 1; #endif #endif break; case 265: #if defined(HAVE_CRL) && !defined(NO_FILESYSTEM) crlDir = myoptarg; #endif break; case 266: quieter = 1; break; #ifdef WOLFSSL_DUAL_ALG_CERTS case 267: altPrivKey = myoptarg; break; #endif case -1: default: Usage(); XEXIT_T(MY_EX_USAGE); } } myoptind = 0; /* reset for test cases */ #endif /* !WOLFSSL_VXWORKS */ /* Can only use DTLS over UDP or SCTP, can't do both. */ if (dtlsUDP && dtlsSCTP) { err_sys_ex(runWithErrors, "Cannot use DTLS with both UDP and SCTP."); } /* sort out DTLS versus TLS versions */ if (version == CLIENT_INVALID_VERSION) { if (doDTLS) version = CLIENT_DTLS_DEFAULT_VERSION; else version = CLIENT_DEFAULT_VERSION; } else { if (doDTLS) { if (version == 3) { version = -2; } else if (version == 4) { #ifdef WOLFSSL_DTLS13 version = -4; #else err_sys_ex(runWithErrors, "Bad DTLS version"); #endif /* WOLFSSL_DTLS13 */ } #if defined(OPENSSL_EXTRA) || defined(WOLFSSL_EITHER_SIDE) else if (version == EITHER_DOWNGRADE_VERSION) { version = -3; } #endif else if (version == 2) version = -1; } } #ifndef HAVE_SESSION_TICKET if ((version >= 4) && resume) { LOG_ERROR("Can't do TLS 1.3 resumption; need session tickets!\n"); } #endif #ifdef HAVE_WNR if (wc_InitNetRandom(wnrConfigFile, NULL, 5000) != 0) err_sys_ex(runWithErrors, "can't load whitewood net random config " "file"); #endif #ifdef HAVE_PQC if (usePqc) { if (version == SERVER_DOWNGRADE_VERSION || version == EITHER_DOWNGRADE_VERSION) { LOG_ERROR( "WARNING: If a TLS 1.3 connection is not negotiated, you " "will not be using a post-quantum group.\n"); } else if (version != 4 && version != -4) { err_sys("can only use post-quantum groups with TLS 1.3 or DTLS 1.3"); } } #endif switch (version) { #ifndef NO_OLD_TLS #ifdef WOLFSSL_ALLOW_SSLV3 case 0: method = wolfSSLv3_server_method_ex; break; #endif #ifndef NO_TLS #ifdef WOLFSSL_ALLOW_TLSV10 case 1: method = wolfTLSv1_server_method_ex; break; #endif case 2: method = wolfTLSv1_1_server_method_ex; break; #endif /* !NO_TLS */ #endif /* !NO_OLD_TLS */ #ifndef NO_TLS #ifndef WOLFSSL_NO_TLS12 case 3: method = wolfTLSv1_2_server_method_ex; break; #endif #ifdef WOLFSSL_TLS13 case 4: method = wolfTLSv1_3_server_method_ex; break; #endif case SERVER_DOWNGRADE_VERSION: if (!doDTLS) { method = wolfSSLv23_server_method_ex; } else { #ifdef WOLFSSL_DTLS method = wolfDTLS_server_method_ex; #else err_sys_ex(runWithErrors, "version not supported"); #endif /* WOLFSSL_DTLS */ } break; #if defined(OPENSSL_EXTRA) || defined(WOLFSSL_EITHER_SIDE) case EITHER_DOWNGRADE_VERSION: method = wolfSSLv23_method_ex; break; #endif #endif /* NO_TLS */ #ifdef WOLFSSL_DTLS #ifndef NO_OLD_TLS case -1: method = wolfDTLSv1_server_method_ex; break; #endif #ifndef WOLFSSL_NO_TLS12 case -2: method = wolfDTLSv1_2_server_method_ex; break; #endif #ifdef WOLFSSL_DTLS13 case -4: method = wolfDTLSv1_3_server_method_ex; break; #endif #if defined(OPENSSL_EXTRA) || defined(WOLFSSL_EITHER_SIDE) case -3: method = wolfDTLSv1_2_method_ex; break; #endif #endif default: err_sys_ex(runWithErrors, "Bad SSL version"); } if (method == NULL) err_sys_ex(runWithErrors, "unable to get method"); #ifdef WOLFSSL_STATIC_MEMORY #if defined(DEBUG_WOLFSSL) && !defined(WOLFSSL_STATIC_MEMORY_LEAN) /* print off helper buffer sizes for use with static memory * printing to stderr in case of debug mode turned on */ LOG_ERROR("static memory management size = %d\n", wolfSSL_MemoryPaddingSz()); LOG_ERROR("calculated optimum general buffer size = %d\n", wolfSSL_StaticBufferSz(memory, sizeof(memory), 0)); LOG_ERROR("calculated optimum IO buffer size = %d\n", wolfSSL_StaticBufferSz(memoryIO, sizeof(memoryIO), WOLFMEM_IO_POOL_FIXED)); #endif /* DEBUG_WOLFSSL */ if (wolfSSL_CTX_load_static_memory(&ctx, method, memory, sizeof(memory),0,1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "unable to load static memory and create ctx"); /* load in a buffer for IO */ if (wolfSSL_CTX_load_static_memory(&ctx, NULL, memoryIO, sizeof(memoryIO), WOLFMEM_IO_POOL_FIXED | WOLFMEM_TRACK_STATS, 1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "unable to load static memory and create ctx"); #else if (method != NULL) { ctx = SSL_CTX_new(method(NULL)); } #ifdef WOLFSSL_CALLBACKS wolfSSL_CTX_set_msg_callback(ctx, msgDebugCb); #endif #endif /* WOLFSSL_STATIC_MEMORY */ if (ctx == NULL) err_sys_ex(catastrophic, "unable to get ctx"); if (minVersion != SERVER_INVALID_VERSION) { #ifdef WOLFSSL_DTLS if (doDTLS) { switch (minVersion) { #ifdef WOLFSSL_DTLS13 case 4: minVersion = WOLFSSL_DTLSV1_3; break; #endif /* WOLFSSL_DTLS13 */ case 3: minVersion = WOLFSSL_DTLSV1_2; break; case 2: minVersion = WOLFSSL_DTLSV1; break; } } #endif /* WOLFSSL_DTLS13 */ if (wolfSSL_CTX_SetMinVersion(ctx, minVersion) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't set minimum downgrade version"); } #ifdef OPENSSL_COMPATIBLE_DEFAULTS /* Restore wolfSSL verify defaults */ wolfSSL_CTX_set_verify(ctx, WOLFSSL_VERIFY_DEFAULT, NULL); #endif #ifdef WOLFSSL_SRTP if (dtlsSrtpProfiles != NULL) { if (wolfSSL_CTX_set_tlsext_use_srtp(ctx, dtlsSrtpProfiles) != WOLFSSL_SUCCESS) { err_sys_ex(catastrophic, "unable to set DTLS SRTP profile"); } } #endif #ifdef WOLFSSL_WOLFSENTRY_HOOKS if (wolfsentry_setup(&wolfsentry, wolfsentry_config_path, WOLFSENTRY_ROUTE_FLAG_DIRECTION_IN) < 0) { err_sys("unable to initialize wolfSentry"); } if (wolfSSL_CTX_set_AcceptFilter( ctx, (NetworkFilterCallback_t)wolfSentry_NetworkFilterCallback, wolfsentry) < 0) { err_sys_ex(catastrophic, "unable to install wolfSentry_NetworkFilterCallback"); } #endif if (simulateWantWrite) { #ifdef USE_WOLFSSL_IO wolfSSL_CTX_SetIOSend(ctx, SimulateWantWriteIOSendCb); #endif } #ifdef HAVE_TEST_SESSION_TICKET if (TicketInit() != 0) err_sys_ex(catastrophic, "unable to setup Session Ticket Key context"); wolfSSL_CTX_set_TicketEncCb(ctx, myTicketEncCb); XMEMSET(&myTicketCtx, 0, sizeof(myTicketCtx)); wolfSSL_CTX_set_TicketEncCtx(ctx, &myTicketCtx); #endif #if defined(WOLFSSL_SNIFFER) && defined(WOLFSSL_STATIC_EPHEMERAL) /* used for testing only to set a static/fixed ephemeral key for use with the sniffer */ #if defined(HAVE_ECC) && !defined(NO_ECC_SECP) && \ (!defined(NO_ECC256) || defined(HAVE_ALL_CURVES)) ret = wolfSSL_CTX_set_ephemeral_key(ctx, WC_PK_TYPE_ECDH, "./certs/statickeys/ecc-secp256r1.pem", 0, WOLFSSL_FILETYPE_PEM); if (ret != 0) { err_sys_ex(runWithErrors, "error loading static ECDH key"); } { const byte* key = NULL; word32 keySz = 0; /* example for getting pointer to loaded static ephemeral key */ wolfSSL_CTX_get_ephemeral_key(ctx, WC_PK_TYPE_ECDH, &key, &keySz); (void)key; (void)keySz; } #endif #ifndef NO_DH ret = wolfSSL_CTX_set_ephemeral_key(ctx, WC_PK_TYPE_DH, "./certs/statickeys/dh-ffdhe2048.pem", 0, WOLFSSL_FILETYPE_PEM); if (ret != 0) { err_sys_ex(runWithErrors, "error loading static DH key"); } #endif #ifdef HAVE_CURVE25519 ret = wolfSSL_CTX_set_ephemeral_key(ctx, WC_PK_TYPE_CURVE25519, "./certs/statickeys/x25519.pem", 0, WOLFSSL_FILETYPE_PEM); if (ret != 0) { err_sys_ex(runWithErrors, "error loading static X25519 key"); } #endif #endif /* WOLFSSL_SNIFFER && WOLFSSL_STATIC_EPHEMERAL */ if (cipherList && !useDefCipherList) { if (SSL_CTX_set_cipher_list(ctx, cipherList) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "server can't set custom cipher list"); } #ifdef WOLFSSL_LEANPSK if (!usePsk) { usePsk = 1; } #endif #if defined(NO_RSA) && !defined(HAVE_ECC) && !defined(HAVE_ED25519) && \ !defined(HAVE_ED448) if (!usePsk) { usePsk = 1; } #endif if (fewerPackets) wolfSSL_CTX_set_group_messages(ctx); #if (defined(WOLFSSL_SCTP) || defined(WOLFSSL_DTLS_MTU)) && \ defined(WOLFSSL_DTLS) if (dtlsMTU) wolfSSL_CTX_dtls_set_mtu(ctx, (unsigned short)dtlsMTU); #endif #ifdef WOLFSSL_SCTP if (dtlsSCTP) wolfSSL_CTX_dtls_set_sctp(ctx); #endif #ifdef WOLFSSL_ENCRYPTED_KEYS SSL_CTX_set_default_passwd_cb(ctx, PasswordCallBack); #endif #if !defined(NO_CERTS) if ((!usePsk || usePskPlus) && !useAnon && !(loadCertKeyIntoSSLObj == 1)) { #if defined(NO_FILESYSTEM) && defined(USE_CERT_BUFFERS_2048) if (wolfSSL_CTX_use_certificate_chain_buffer_format(ctx, server_cert_der_2048, sizeof_server_cert_der_2048, WOLFSSL_FILETYPE_ASN1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server cert buffer"); #elif !defined(TEST_LOAD_BUFFER) if (SSL_CTX_use_certificate_chain_file(ctx, ourCert) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server cert file, check file " "and run from wolfSSL home dir"); #else /* loads cert chain file using buffer API */ load_buffer(ctx, ourCert, WOLFSSL_CERT_CHAIN); #endif } #endif #ifndef NO_DH if (wolfSSL_CTX_SetMinDhKey_Sz(ctx, (word16)minDhKeyBits) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "Error setting minimum DH key size"); } #endif #ifndef NO_RSA if (wolfSSL_CTX_SetMinRsaKey_Sz(ctx, minRsaKeyBits) != WOLFSSL_SUCCESS){ err_sys_ex(runWithErrors, "Error setting minimum RSA key size"); } #endif #ifdef HAVE_ECC if (wolfSSL_CTX_SetMinEccKey_Sz(ctx, minEccKeyBits) != WOLFSSL_SUCCESS){ err_sys_ex(runWithErrors, "Error setting minimum ECC key size"); } #endif #if !defined(NO_CERTS) #ifdef HAVE_PK_CALLBACKS pkCbInfo.ourKey = ourKey; #endif if ((!usePsk || usePskPlus) && !useAnon && !(loadCertKeyIntoSSLObj == 1) #if defined(HAVE_PK_CALLBACKS) && defined(TEST_PK_PRIVKEY) && !pkCallbacks #endif /* HAVE_PK_CALLBACKS && TEST_PK_PRIVKEY */ ) { #ifdef NO_FILESYSTEM if (wolfSSL_CTX_use_PrivateKey_buffer(ctx, server_key_der_2048, sizeof_server_key_der_2048, SSL_FILETYPE_ASN1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server private key buffer"); #elif !defined(TEST_LOAD_BUFFER) if (SSL_CTX_use_PrivateKey_file(ctx, ourKey, WOLFSSL_FILETYPE_PEM) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server private key file, " "check file and run from wolfSSL home dir"); #ifdef WOLFSSL_DUAL_ALG_CERTS if ((altPrivKey != NULL) && wolfSSL_CTX_use_AltPrivateKey_file(ctx, altPrivKey, WOLFSSL_FILETYPE_PEM) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load alt private key file, " "check file and run from wolfSSL home dir"); #endif /* WOLFSSL_DUAL_ALG_CERTS */ #else /* loads private key file using buffer API */ load_buffer(ctx, ourKey, WOLFSSL_KEY); #endif } #endif if (usePsk || usePskPlus) { #ifndef NO_PSK const char *defaultCipherList = cipherList; SSL_CTX_set_psk_server_callback(ctx, my_psk_server_cb); #ifdef WOLFSSL_TLS13 wolfSSL_CTX_set_psk_server_tls13_callback(ctx, my_psk_server_tls13_cb); #endif if (sendPskIdentityHint == 1) SSL_CTX_use_psk_identity_hint(ctx, "cyassl server"); if (defaultCipherList == NULL && !usePskPlus) { #if defined(HAVE_AESGCM) && !defined(NO_DH) #ifdef WOLFSSL_TLS13 defaultCipherList = "TLS13-AES128-GCM-SHA256" #ifndef WOLFSSL_NO_TLS12 ":DHE-PSK-AES128-GCM-SHA256" #endif ; #else defaultCipherList = "DHE-PSK-AES128-GCM-SHA256"; #endif needDH = 1; #elif defined(HAVE_AESGCM) && defined(WOLFSSL_TLS13) defaultCipherList = "TLS13-AES128-GCM-SHA256" #ifndef WOLFSSL_NO_TLS12 ":PSK-AES128-GCM-SHA256" #endif ; #elif defined(HAVE_NULL_CIPHER) defaultCipherList = "PSK-NULL-SHA256"; #elif !defined(NO_AES_CBC) defaultCipherList = "PSK-AES128-CBC-SHA256"; #else defaultCipherList = "PSK-AES128-GCM-SHA256"; #endif if (SSL_CTX_set_cipher_list(ctx, defaultCipherList) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "server can't set cipher list 2"); } wolfSSL_CTX_set_psk_callback_ctx(ctx, (void*)defaultCipherList); #endif /* !NO_PSK */ } #ifndef NO_CERTS if (mutualAuth) wolfSSL_CTX_mutual_auth(ctx, 1); #endif #ifdef HAVE_ECC /* Use ECDHE key size that matches long term key. * Zero means use ctx->privateKeySz. * Default ECDHE_SIZE is 32 bytes */ if (wolfSSL_CTX_SetTmpEC_DHE_Sz(ctx, 0) != WOLFSSL_SUCCESS){ err_sys_ex(runWithErrors, "Error setting ECDHE size"); } #endif if (useAnon) { #ifdef HAVE_ANON wolfSSL_CTX_allow_anon_cipher(ctx); if (cipherList == NULL || (cipherList && useDefCipherList)) { const char* defaultCipherList; defaultCipherList = "ADH-AES256-GCM-SHA384:" "ADH-AES128-SHA"; if (SSL_CTX_set_cipher_list(ctx, defaultCipherList) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "server can't set cipher list 4"); } #endif } #if !defined(NO_FILESYSTEM) && !defined(NO_CERTS) /* if not using PSK, verify peer with certs if using PSK Plus then verify peer certs except PSK suites */ if (doCliCertCheck && (usePsk == 0 || usePskPlus) && useAnon == 0) { unsigned int verify_flags = 0; SSL_CTX_set_verify(ctx, WOLFSSL_VERIFY_PEER | (usePskPlus ? WOLFSSL_VERIFY_FAIL_EXCEPT_PSK : WOLFSSL_VERIFY_FAIL_IF_NO_PEER_CERT), (myVerifyAction == VERIFY_OVERRIDE_DATE_ERR || myVerifyAction == VERIFY_FORCE_FAIL) ? myVerify : NULL); #ifdef TEST_BEFORE_DATE verify_flags |= WOLFSSL_LOAD_FLAG_DATE_ERR_OKAY; #endif #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) if (useCertFolder) { WOLFSSL_X509_STORE *store; WOLFSSL_X509_LOOKUP *lookup; store = wolfSSL_CTX_get_cert_store(ctx); if (store == NULL) { wolfSSL_CTX_free(ctx); ctx = NULL; err_sys("can't get WOLFSSL_X509_STORE"); } lookup = wolfSSL_X509_STORE_add_lookup(store, X509_LOOKUP_hash_dir()); if (lookup == NULL) { wolfSSL_CTX_free(ctx); ctx = NULL; err_sys("can't add lookup"); } if (wolfSSL_X509_LOOKUP_ctrl(lookup, WOLFSSL_X509_L_ADD_DIR, caCertFolder, X509_FILETYPE_PEM, NULL) != WOLFSSL_SUCCESS) { err_sys("X509_LOOKUP_ctrl w/ L_ADD_DIR failed"); } } else { #endif if (wolfSSL_CTX_load_verify_locations_ex(ctx, verifyCert, 0, verify_flags) != WOLFSSL_SUCCESS) { err_sys_ex(catastrophic, "can't load ca file, Please run from wolfSSL home dir"); } #ifdef WOLFSSL_TRUST_PEER_CERT if (trustCert) { if (wolfSSL_CTX_trust_peer_cert(ctx, trustCert, WOLFSSL_FILETYPE_PEM) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "can't load trusted peer cert file"); } } #endif /* WOLFSSL_TRUST_PEER_CERT */ #if defined(OPENSSL_ALL) && defined(WOLFSSL_CERT_GEN) && \ (defined(WOLFSSL_CERT_REQ) || defined(WOLFSSL_CERT_EXT)) && \ !defined(NO_FILESYSTEM) && !defined(NO_WOLFSSL_DIR) } #endif } #endif #ifdef WOLFSSL_SNIFFER if (cipherList == NULL && version < 4) { /* static RSA or static ECC cipher suites */ const char* staticCipherList = "AES128-SHA:ECDH-ECDSA-AES128-SHA"; if (SSL_CTX_set_cipher_list(ctx, staticCipherList) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "server can't set cipher list 3"); } } #endif #ifdef HAVE_SNI if (sniHostName) if (wolfSSL_CTX_UseSNI(ctx, WOLFSSL_SNI_HOST_NAME, sniHostName, (word16) XSTRLEN(sniHostName)) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "UseSNI failed"); #endif #ifdef USE_WINDOWS_API if (port == 0) { /* Generate random port for testing */ port = GetRandomPort(); } #endif /* USE_WINDOWS_API */ #ifdef WOLFSSL_ASYNC_CRYPT ret = wolfAsync_DevOpen(&devId); if (ret < 0) { LOG_ERROR("Async device open failed\nRunning without async\n"); } wolfSSL_CTX_SetDevId(ctx, devId); #endif /* WOLFSSL_ASYNC_CRYPT */ #ifdef WOLFSSL_TLS13 if (noPskDheKe) wolfSSL_CTX_no_dhe_psk(ctx); #ifdef HAVE_SUPPORTED_CURVES if (onlyPskDheKe) wolfSSL_CTX_only_dhe_psk(ctx); #endif #endif #ifdef HAVE_SESSION_TICKET #ifdef WOLFSSL_TLS13 if (noTicketTls13) wolfSSL_CTX_no_ticket_TLSv13(ctx); #endif #if !defined(WOLFSSL_NO_TLS12) || !defined(NO_OLD_TLS) if (noTicketTls12) wolfSSL_CTX_NoTicketTLSv12(ctx); #endif #endif #if defined(HAVE_CRL) && !defined(NO_FILESYSTEM) if (!disableCRL) { /* Need to load CA's to confirm CRL signatures */ unsigned int verify_flags = 0; #ifdef TEST_BEFORE_DATE verify_flags |= WOLFSSL_LOAD_FLAG_DATE_ERR_OKAY; #endif if (wolfSSL_CTX_load_verify_locations_ex(ctx, verifyCert, 0, verify_flags) != WOLFSSL_SUCCESS) { err_sys_ex(catastrophic, "can't load ca file, Please run from wolfSSL home dir"); } #ifdef HAVE_CRL_MONITOR crlFlags = WOLFSSL_CRL_MONITOR | WOLFSSL_CRL_START_MON; #endif if (wolfSSL_CTX_EnableCRL(ctx, 0) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "unable to enable CRL"); if (wolfSSL_CTX_LoadCRL(ctx, crlDir != NULL ? crlDir : crlPemDir, WOLFSSL_FILETYPE_PEM, crlFlags) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "unable to load CRL"); if (wolfSSL_CTX_SetCRL_Cb(ctx, CRL_CallBack) != WOLFSSL_SUCCESS) err_sys_ex(runWithErrors, "unable to set CRL callback url"); } #endif while (1) { /* allow resume option */ if (resumeCount > 1) { if (dtlsUDP == 0) { client_len = sizeof client_addr; clientfd = accept(sockfd, (struct sockaddr*)&client_addr, (ACCEPT_THIRD_T)&client_len); } else { tcp_listen(&sockfd, &port, useAnyAddr, dtlsUDP, dtlsSCTP); clientfd = sockfd; } if (WOLFSSL_SOCKET_IS_INVALID(clientfd)) { err_sys_ex(runWithErrors, "tcp accept failed"); } } #if defined(WOLFSSL_STATIC_MEMORY) && defined(DEBUG_WOLFSSL) && \ !defined(WOLFSSL_STATIC_MEMORY_LEAN) LOG_ERROR("Before creating SSL\n"); if (wolfSSL_CTX_is_static_memory(ctx, &mem_stats) != 1) err_sys_ex(runWithErrors, "ctx not using static memory"); if (wolfSSL_PrintStats(&mem_stats) != 1) /* function in test.h */ err_sys_ex(runWithErrors, "error printing out memory stats"); #endif if (doMcast) { #ifdef WOLFSSL_MULTICAST wolfSSL_CTX_mcast_set_member_id(ctx, mcastID); if (wolfSSL_CTX_set_cipher_list(ctx, "WDM-NULL-SHA256") != WOLFSSL_SUCCESS) err_sys("Couldn't set multicast cipher list."); #endif } if (doDTLS && dtlsUDP) { #if defined(WOLFSSL_DTLS) && defined(USE_WOLFSSL_IO) if (doBlockSeq) { wolfSSL_CTX_SetIOSend(ctx, TestEmbedSendTo); } #endif } #ifdef HAVE_PK_CALLBACKS if (pkCallbacks) SetupPkCallbacks(ctx); #endif ssl = SSL_new(ctx); if (ssl == NULL) err_sys_ex(catastrophic, "unable to create an SSL object"); #if defined(OPENSSL_EXTRA) || defined(HAVE_SECRET_CALLBACK) wolfSSL_KeepArrays(ssl); #endif /* Support for loading private key and cert using WOLFSSL object */ #if !defined(NO_CERTS) if ((!usePsk || usePskPlus) && !useAnon && loadCertKeyIntoSSLObj) { #if defined(NO_FILESYSTEM) && defined(USE_CERT_BUFFERS_2048) if (wolfSSL_use_certificate_chain_buffer_format(ssl, server_cert_der_2048, sizeof_server_cert_der_2048, WOLFSSL_FILETYPE_ASN1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server cert buffer"); #elif !defined(TEST_LOAD_BUFFER) if (SSL_use_certificate_chain_file(ssl, ourCert) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server cert file, check file " "and run from wolfSSL home dir"); #else /* loads cert chain file using buffer API */ load_ssl_buffer(ssl, ourCert, WOLFSSL_CERT_CHAIN); #endif } if ((!usePsk || usePskPlus) && !useAnon && loadCertKeyIntoSSLObj #if defined(HAVE_PK_CALLBACKS) && defined(TEST_PK_PRIVKEY) && !pkCallbacks #endif /* HAVE_PK_CALLBACKS && TEST_PK_PRIVKEY */ ) { #if defined(NO_FILESYSTEM) if (wolfSSL_use_PrivateKey_buffer(ssl, server_key_der_2048, sizeof_server_key_der_2048, SSL_FILETYPE_ASN1) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server private key buffer"); #elif !defined(TEST_LOAD_BUFFER) if (SSL_use_PrivateKey_file(ssl, ourKey, WOLFSSL_FILETYPE_PEM) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "can't load server private key file, check" "file and run from wolfSSL home dir"); #else /* loads private key file using buffer API */ load_ssl_buffer(ssl, ourKey, WOLFSSL_KEY); #endif } #endif /* !NO_CERTS */ #ifdef WOLFSSL_SEND_HRR_COOKIE if (hrrCookie == 1 && wolfSSL_send_hrr_cookie(ssl, NULL, 0) != WOLFSSL_SUCCESS) { err_sys("unable to set use of cookie with HRR msg"); } else if (hrrCookie == -1) { wolfSSL_disable_hrr_cookie(ssl); } #endif #if defined(WOLFSSL_STATIC_MEMORY) && defined(DEBUG_WOLFSSL) && \ !defined(WOLFSSL_STATIC_MEMORY_LEAN) LOG_ERROR("After creating SSL\n"); if (wolfSSL_CTX_is_static_memory(ctx, &mem_stats) != 1) err_sys_ex(runWithErrors, "ctx not using static memory"); if (wolfSSL_PrintStats(&mem_stats) != 1) /* function in test.h */ err_sys_ex(runWithErrors, "error printing out memory stats"); #endif if (doMcast) { #ifdef WOLFSSL_MULTICAST /* DTLS multicast secret for testing only */ #define CLI_SRV_RANDOM_SZ 32 /* RAN_LEN (see internal.h) */ #define PMS_SZ 512 /* ENCRYPT_LEN (see internal.h) */ byte pms[PMS_SZ]; /* pre master secret */ byte cr[CLI_SRV_RANDOM_SZ]; /* client random */ byte sr[CLI_SRV_RANDOM_SZ]; /* server random */ const byte suite[2] = {0, 0xfe}; /* WDM_WITH_NULL_SHA256 */ XMEMSET(pms, 0x23, sizeof(pms)); XMEMSET(cr, 0xA5, sizeof(cr)); XMEMSET(sr, 0x5A, sizeof(sr)); if (wolfSSL_set_secret(ssl, 1, pms, sizeof(pms), cr, sr, suite) != WOLFSSL_SUCCESS) { err_sys("unable to set mcast secret"); } #endif } #ifdef HAVE_SECURE_RENEGOTIATION if (scr) { if (wolfSSL_UseSecureRenegotiation(ssl) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "can't enable secure renegotiation"); } } #endif /* HAVE_SECURE_RENEGOTIATION */ #if !defined(NO_FILESYSTEM) && !defined(NO_CERTS) #if defined(WOLFSSL_TLS13) && defined(WOLFSSL_POST_HANDSHAKE_AUTH) if (postHandAuth) { unsigned int verify_flags = 0; #ifdef TEST_BEFORE_DATE verify_flags |= WOLFSSL_LOAD_FLAG_DATE_ERR_OKAY; #endif if (wolfSSL_CTX_load_verify_locations_ex(ctx, verifyCert, 0, verify_flags) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "can't load ca file, Please run from " "wolfSSL home dir"); } #ifdef WOLFSSL_TRUST_PEER_CERT if (trustCert) { if (wolfSSL_trust_peer_cert(ssl, trustCert, WOLFSSL_FILETYPE_PEM) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "can't load trusted peer cert " "file"); } } #endif /* WOLFSSL_TRUST_PEER_CERT */ } #endif #endif #ifndef NO_HANDSHAKE_DONE_CB wolfSSL_SetHsDoneCb(ssl, myHsDoneCb, NULL); #endif #ifdef HAVE_OCSP if (useOcsp) { if (ocspUrl != NULL) { wolfSSL_CTX_SetOCSP_OverrideURL(ctx, ocspUrl); wolfSSL_CTX_EnableOCSP(ctx, WOLFSSL_OCSP_NO_NONCE | WOLFSSL_OCSP_URL_OVERRIDE); } else wolfSSL_CTX_EnableOCSP(ctx, WOLFSSL_OCSP_NO_NONCE); } #ifndef NO_RSA /* All the OCSP Stapling test certs are RSA. */ #if !defined(NO_FILESYSTEM) && (\ defined(HAVE_CERTIFICATE_STATUS_REQUEST) \ || defined(HAVE_CERTIFICATE_STATUS_REQUEST_V2)) { /* scope start */ const char* ca1 = "certs/ocsp/intermediate1-ca-cert.pem"; const char* ca2 = "certs/ocsp/intermediate2-ca-cert.pem"; const char* ca3 = "certs/ocsp/intermediate3-ca-cert.pem"; int fails = 0; if (wolfSSL_CTX_EnableOCSPStapling(ctx) != WOLFSSL_SUCCESS) { err_sys_ex(catastrophic, "can't enable OCSP Stapling " "Certificate Manager"); } if (SSL_CTX_load_verify_locations(ctx, ca1, 0) != WOLFSSL_SUCCESS) { fails++; err_sys_ex(runWithErrors, "can't load ca file, Please run from " "wolfSSL home dir"); } if (SSL_CTX_load_verify_locations(ctx, ca2, 0) != WOLFSSL_SUCCESS) { fails++; err_sys_ex(runWithErrors, "can't load ca file, Please run from " "wolfSSL home dir"); } if (SSL_CTX_load_verify_locations(ctx, ca3, 0) != WOLFSSL_SUCCESS) { fails++; err_sys_ex(runWithErrors, "can't load ca file, Please run from " "wolfSSL home dir"); } if (fails > 2) { err_sys_ex(catastrophic, "Failed to load any intermediates for " "OCSP stapling test"); } } /* scope end */ #endif /* HAVE_CERTIFICATE_STATUS_REQUEST HAVE_CERTIFICATE_STATUS_REQUEST_V2 */ #endif /* NO_RSA */ #endif /* HAVE_OCSP */ #ifdef HAVE_PK_CALLBACKS /* This must be before SetKeyShare */ if (pkCallbacks) { SetupPkCallbackContexts(ssl, &pkCbInfo); } #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SUPPORTED_CURVES) if (version >= 4 || version == -4) { #ifdef CAN_FORCE_CURVE if (force_curve_group_id > 0) { do { ret = wolfSSL_UseKeyShare(ssl, (word16)force_curve_group_id); if (ret == WOLFSSL_SUCCESS) { } #ifdef WOLFSSL_ASYNC_CRYPT else if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) { wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); } #endif else { err_sys("Failed wolfSSL_UseKeyShare in force-curve"); } } while (ret == WC_NO_ERR_TRACE(WC_PENDING_E)); ret = wolfSSL_set_groups(ssl, &force_curve_group_id, 1); if (WOLFSSL_SUCCESS != ret) { err_sys("Failed wolfSSL_set_groups in force-curve"); } } else #endif SetKeyShare(ssl, onlyKeyShare, useX25519, useX448, usePqc, pqcAlg); } #endif #ifdef HAVE_ENCRYPT_THEN_MAC if (disallowETM) wolfSSL_AllowEncryptThenMac(ssl, 0); #endif /* do accept */ readySignal = ((func_args*)args)->signal; if (readySignal) { readySignal->srfName = serverReadyFile; } client_len = sizeof client_addr; tcp_accept(&sockfd, &clientfd, (func_args*)args, port, useAnyAddr, dtlsUDP, dtlsSCTP, serverReadyFile ? 1 : 0, doListen, &client_addr, &client_len); doListen = 0; /* Don't listen next time */ if (port == 0) { port = readySignal->port; } if (SSL_set_fd(ssl, clientfd) != WOLFSSL_SUCCESS) { err_sys_ex(catastrophic, "error in setting fd"); } #ifdef HAVE_TRUSTED_CA if (trustedCaKeyId) { if (wolfSSL_UseTrustedCA(ssl, WOLFSSL_TRUSTED_CA_PRE_AGREED, NULL, 0) != WOLFSSL_SUCCESS) { err_sys_ex(runWithErrors, "UseTrustedCA failed"); } } #endif /* HAVE_TRUSTED_CA */ #ifdef HAVE_ALPN if (alpnList != NULL) { printf("ALPN accepted protocols list : %s\n", alpnList); wolfSSL_UseALPN(ssl, alpnList, (word32)XSTRLEN(alpnList), alpn_opt); } #endif #if defined(WOLFSSL_DTLS) && defined(USE_WOLFSSL_IO) if (doDTLS && dtlsUDP) { byte b[1500]; int isClientHello = 0; while (!isClientHello) { int n; client_len = sizeof client_addr; /* For DTLS, peek at the next datagram so we can get the * client's address and set it into the ssl object later to * generate the cookie. */ n = (int)recvfrom(clientfd, (char*)b, sizeof(b), MSG_PEEK, (struct sockaddr*)&client_addr, &client_len); if (n <= 0) err_sys_ex(runWithErrors, "recvfrom failed"); /* when doing resumption, it may happen that we receive the alert used to shutdown the first connection as the first packet of the second accept: Client | Server | WolfSSL_Shutdown() | <- Alert | recvfrom(peek) WolfSSL_Shutdown() | Alert-> | | wolfSSL_set_dtls_peer() but this will set the wrong src port, making the test fail. Discard not-handshake message to avoid this. */ if (b[0] != 0x16) { /* discard the packet */ n = (int)recvfrom(clientfd, (char *)b, sizeof(b), 0, (struct sockaddr *)&client_addr, &client_len); if (n <= 0) err_sys_ex(runWithErrors, "recvfrom failed"); } else { isClientHello = 1; } } if (doBlockSeq) { XMEMCPY(&dtlsCtx.peer.sa, &client_addr, client_len); dtlsCtx.peer.sz = client_len; dtlsCtx.wfd = clientfd; dtlsCtx.failOnce = 1; wolfSSL_SetIOWriteCtx(ssl, &dtlsCtx); } else { wolfSSL_dtls_set_peer(ssl, &client_addr, client_len); } if (simulateWantWrite) { #ifdef USE_WOLFSSL_IO /* connect on a udp to associate peer with this fd to make it * simpler for SimulateWantWriteIOSendCb */ if (connect(clientfd, (struct sockaddr*)&client_addr, client_len) != 0) { err_sys_ex(catastrophic, "error in connecting to peer"); } wolfSSL_SetIOWriteCtx(ssl, (void*)&sockfd); #endif } } #endif #ifdef WOLFSSL_WOLFSENTRY_HOOKS { SOCKADDR_IN_T local_addr; socklen_t local_len = sizeof(local_addr); getsockname(clientfd, (struct sockaddr *)&local_addr, (socklen_t *)&local_len); if (((struct sockaddr *)&client_addr)->sa_family != ((struct sockaddr *)&local_addr)->sa_family) err_sys_ex(catastrophic, "client_addr.sa_family != local_addr.sa_family"); if (wolfsentry_store_endpoints( ssl, &client_addr, &local_addr, dtlsUDP ? IPPROTO_UDP : IPPROTO_TCP, WOLFSENTRY_ROUTE_FLAG_DIRECTION_IN, NULL) != WOLFSSL_SUCCESS) err_sys_ex(catastrophic, "error in wolfsentry_store_endpoints()"); } #endif /* WOLFSSL_WOLFSENTRY_HOOKS */ if ((usePsk == 0 || usePskPlus) || useAnon == 1 || cipherList != NULL || needDH == 1) { #if !defined(NO_FILESYSTEM) && !defined(NO_DH) && !defined(NO_ASN) wolfSSL_SetTmpDH_file(ssl, ourDhParam, WOLFSSL_FILETYPE_PEM); #elif !defined(NO_DH) SetDH(ssl); /* repick suites with DHE, higher priority than * PSK */ #endif #if !defined(NO_DH) && !defined(WOLFSSL_OLD_PRIME_CHECK) && \ !defined(HAVE_FIPS) && !defined(HAVE_SELFTEST) if (!doDhKeyCheck) wolfSSL_SetEnableDhKeyTest(ssl, 0); #endif } #ifdef WOLFSSL_DTLS_CID if (useDtlsCID) { ret = wolfSSL_dtls_cid_use(ssl); if (ret != WOLFSSL_SUCCESS) err_sys("Can't enable DTLS ConnectionID"); ret = wolfSSL_dtls_cid_set(ssl, (byte*)dtlsCID, (word32)XSTRLEN(dtlsCID)); if (ret != WOLFSSL_SUCCESS) err_sys("Can't set DTLS ConnectionID"); } #endif /* WOLFSSL_DTLS_CID */ #ifdef WOLFSSL_DTLS_CH_FRAG if (doDTLS) wolfSSL_dtls13_allow_ch_frag(ssl, 1); #endif #ifndef WOLFSSL_CALLBACKS if (nonBlocking) { #ifdef WOLFSSL_DTLS if (doDTLS) { wolfSSL_dtls_set_using_nonblock(ssl, 1); } #endif tcp_set_nonblocking(&clientfd); ret = NonBlockingSSL_Accept(ssl); } else { #ifdef WOLFSSL_EARLY_DATA if (earlyData) { do { int len; err = 0; /* reset error */ ret = wolfSSL_read_early_data(ssl, input, sizeof(input)-1, &len); if (ret <= 0) { err = SSL_get_error(ssl, 0); #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { /* returns the number of polled items or <0 for * error */ ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif } else if (ret > 0) { input[ret] = 0; /* null terminate message */ printf("Early Data Client message: %s\n", input); } } while (err == WC_NO_ERR_TRACE(WC_PENDING_E) || ret > 0); } #endif do { err = 0; /* reset error */ ret = SSL_accept(ssl); if (ret != WOLFSSL_SUCCESS) { err = SSL_get_error(ssl, 0); #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif } } while (err == WC_NO_ERR_TRACE(WC_PENDING_E)); } #else if (nonBlocking) { #ifdef WOLFSSL_DTLS if (doDTLS) { wolfSSL_dtls_set_using_nonblock(ssl, 1); } #endif tcp_set_nonblocking(&clientfd); } ret = NonBlockingSSL_Accept(ssl); #endif #ifdef WOLFSSL_EARLY_DATA EarlyDataStatus(ssl); #endif if (ret != WOLFSSL_SUCCESS) { err = SSL_get_error(ssl, 0); LOG_ERROR("SSL_accept error %d, %s\n", err, ERR_error_string((unsigned long)err, buffer)); if (!exitWithRet) { err_sys_ex(runWithErrors, "SSL_accept failed"); } else { /* cleanup */ SSL_free(ssl); ssl = NULL; SSL_CTX_free(ctx); ctx = NULL; CloseSocket(clientfd); CloseSocket(sockfd); ((func_args*)args)->return_code = err; goto exit; } } showPeerEx(ssl, lng_index); if (SSL_state(ssl) != 0) { err_sys_ex(runWithErrors, "SSL in error state"); } /* if the caller requested a particular cipher, check here that either * a canonical name of the established cipher matches the requested * cipher name, or the requested cipher name is marked as an alias * that matches the established cipher. */ if (cipherList && !useDefCipherList && (! XSTRSTR(cipherList, ":"))) { WOLFSSL_CIPHER* established_cipher = wolfSSL_get_current_cipher(ssl); byte requested_cipherSuite0, requested_cipherSuite; int requested_cipherFlags; if (established_cipher && /* don't test for pseudo-ciphers like "ALL" and "DEFAULT". */ (wolfSSL_get_cipher_suite_from_name(cipherList, &requested_cipherSuite0, &requested_cipherSuite, &requested_cipherFlags) == 0)) { word32 established_cipher_id = wolfSSL_CIPHER_get_id(established_cipher); byte established_cipherSuite0 = (established_cipher_id >> 8) & 0xff; byte established_cipherSuite = established_cipher_id & 0xff; const char *established_cipher_name = wolfSSL_get_cipher_name_from_suite(established_cipherSuite0, established_cipherSuite); const char *established_cipher_name_iana = wolfSSL_get_cipher_name_iana_from_suite(established_cipherSuite0, established_cipherSuite); if (established_cipher_name == NULL) err_sys_ex(catastrophic, "error looking up name of established cipher"); if (strcmp(cipherList, established_cipher_name) && ((established_cipher_name_iana == NULL) || strcmp(cipherList, established_cipher_name_iana))) { if (! (requested_cipherFlags & WOLFSSL_CIPHER_SUITE_FLAG_NAMEALIAS)) err_sys_ex( catastrophic, "Unexpected mismatch between names of requested and established ciphers."); else if ((requested_cipherSuite0 != established_cipherSuite0) || (requested_cipherSuite != established_cipherSuite)) err_sys_ex( catastrophic, "Mismatch between IDs of requested and established ciphers."); } } } #if defined(OPENSSL_EXTRA) || defined(HAVE_SECRET_CALLBACK) { byte* rnd = NULL; size_t size; /* get size of buffer then print */ size = wolfSSL_get_server_random(NULL, NULL, 0); if (size == 0) { err_sys_ex(runWithErrors, "error getting server random buffer " "size"); } else { rnd = (byte*)XMALLOC(size, NULL, DYNAMIC_TYPE_TMP_BUFFER); } if (rnd == NULL) { err_sys_ex(runWithErrors, "error creating server random buffer"); } size = wolfSSL_get_server_random(ssl, rnd, size); if (size == 0) { XFREE(rnd, NULL, DYNAMIC_TYPE_TMP_BUFFER); rnd = NULL; err_sys_ex(runWithErrors, "error getting server random buffer"); } if (rnd) { byte* pt; printf("Server Random : "); for (pt = rnd; pt < rnd + size; pt++) printf("%02X", *pt); printf("\n"); XFREE(rnd, NULL, DYNAMIC_TYPE_TMP_BUFFER); rnd = NULL; } } #endif #ifdef WOLFSSL_SRTP if (dtlsSrtpProfiles != NULL) { err = server_srtp_test(ssl, (func_args*)args); if (err != 0) { if (exitWithRet) { ((func_args*)args)->return_code = err; wolfSSL_free(ssl); ssl = NULL; wolfSSL_CTX_free(ctx); ctx = NULL; goto exit; } /* else */ err_sys("SRTP check failed"); } } #endif /* WOLFSSL_SRTP */ #ifdef WOLFSSL_DTLS_CID if (useDtlsCID && wolfSSL_dtls_cid_is_enabled(ssl)) { byte receivedCID[DTLS_CID_BUFFER_SIZE]; unsigned int receivedCIDSz; printf("CID extension was negotiated\n"); ret = wolfSSL_dtls_cid_get_tx_size(ssl, &receivedCIDSz); if (ret == WOLFSSL_SUCCESS && receivedCIDSz > 0) { ret = wolfSSL_dtls_cid_get_tx(ssl, receivedCID, DTLS_CID_BUFFER_SIZE - 1); if (ret != WOLFSSL_SUCCESS) err_sys("Can't get negotiated DTLS CID\n"); printf("Sending CID is "); printBuffer(receivedCID, receivedCIDSz); printf("\n"); } else { printf("other peer provided empty CID\n"); } } #endif #ifdef HAVE_ALPN if (alpnList != NULL) { char *protocol_name = NULL, *list = NULL; word16 protocol_nameSz = 0, listSz = 0; err = wolfSSL_ALPN_GetProtocol(ssl, &protocol_name, &protocol_nameSz); if (err == WOLFSSL_SUCCESS) printf("Sent ALPN protocol : %s (%d)\n", protocol_name, protocol_nameSz); else if (err == WC_NO_ERR_TRACE(WOLFSSL_ALPN_NOT_FOUND)) printf("No ALPN response sent (no match)\n"); else printf("Getting ALPN protocol name failed\n"); err = wolfSSL_ALPN_GetPeerProtocol(ssl, &list, &listSz); if (err == WOLFSSL_SUCCESS) printf("List of protocol names sent by Client: %s (%d)\n", list, listSz); else printf("Get list of client's protocol name failed\n"); (void)wolfSSL_ALPN_FreePeerProtocol(ssl, &list); } #endif if (echoData == 0 && throughput == 0) { ServerRead(ssl, input, sizeof(input)-1); err = SSL_get_error(ssl, 0); } #if defined(HAVE_SECURE_RENEGOTIATION) && \ defined(HAVE_SERVER_RENEGOTIATION_INFO) if (scr && forceScr) { if (nonBlocking) { if (wolfSSL_Rehandshake(ssl) != WOLFSSL_SUCCESS) { err = wolfSSL_get_error(ssl, 0); if (err == WOLFSSL_ERROR_WANT_READ || err == WOLFSSL_ERROR_WANT_WRITE) { do { #ifdef WOLFSSL_ASYNC_CRYPT if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } #endif if (err == WC_NO_ERR_TRACE(APP_DATA_READY)) { if (wolfSSL_read(ssl, input, sizeof(input)-1) < 0) { err_sys("APP DATA should be present but error returned"); } printf("Received message: %s\n", input); } err = 0; if ((ret = wolfSSL_accept(ssl)) != WOLFSSL_SUCCESS) { err = wolfSSL_get_error(ssl, ret); } } while (ret != WOLFSSL_SUCCESS && (err == WOLFSSL_ERROR_WANT_READ || err == WOLFSSL_ERROR_WANT_WRITE || err == WC_NO_ERR_TRACE(APP_DATA_READY) || err == WC_NO_ERR_TRACE(WC_PENDING_E))); if (ret == WOLFSSL_SUCCESS) { printf("NON-BLOCKING RENEGOTIATION SUCCESSFUL\n"); err = 0; } } if (ret != WOLFSSL_SUCCESS) { err = wolfSSL_get_error(ssl, 0); LOG_ERROR( "wolfSSL_Rehandshake error %d, %s\n", err, wolfSSL_ERR_error_string(err, buffer)); wolfSSL_free(ssl); ssl = NULL; wolfSSL_CTX_free(ctx); ctx = NULL; err_sys("non-blocking wolfSSL_Rehandshake failed"); } } } else { if (wolfSSL_Rehandshake(ssl) != WOLFSSL_SUCCESS) { #ifdef WOLFSSL_ASYNC_CRYPT err = wolfSSL_get_error(ssl, 0); while (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { err = 0; ret = wolfSSL_negotiate(ssl); if (ret != WOLFSSL_SUCCESS) { err = wolfSSL_get_error(ssl, 0); if (err == WC_NO_ERR_TRACE(WC_PENDING_E)) { ret = wolfSSL_AsyncPoll(ssl, WOLF_POLL_FLAG_CHECK_HW); if (ret < 0) break; } } } if (ret != WOLFSSL_SUCCESS) #endif printf("not doing secure renegotiation\n"); } else { printf("RENEGOTIATION SUCCESSFUL\n"); } } } #endif /* HAVE_SECURE_RENEGOTIATION */ if (err == 0 && echoData == 0 && throughput == 0) { const char* write_msg; int write_msg_sz; #ifdef WOLFSSL_TLS13 if (updateKeysIVs) wolfSSL_update_keys(ssl); #endif #if !defined(NO_FILESYSTEM) && !defined(NO_CERTS) #if defined(WOLFSSL_TLS13) && defined(WOLFSSL_POST_HANDSHAKE_AUTH) if (postHandAuth) { SSL_set_verify(ssl, WOLFSSL_VERIFY_PEER | ((usePskPlus) ? WOLFSSL_VERIFY_FAIL_EXCEPT_PSK : WOLFSSL_VERIFY_FAIL_IF_NO_PEER_CERT), 0); if (wolfSSL_request_certificate(ssl) != WOLFSSL_SUCCESS) { LOG_ERROR("Request for post-hs certificate failed\n"); } else { LOG_ERROR("Successfully requested post-hs certificate\n"); } } #endif #endif #if defined(WOLFSSL_TLS13) && defined(HAVE_SESSION_TICKET) if (sendTicket) { if (wolfSSL_send_SessionTicket(ssl) != WOLFSSL_SUCCESS) { LOG_ERROR("Sending new session ticket failed\n"); } else { LOG_ERROR("New session ticket sent\n"); } } #endif /* Write data */ if (!useWebServerMsg) { write_msg = kReplyMsg; write_msg_sz = (int)XSTRLEN(kReplyMsg); } else { write_msg = kHttpServerMsg; write_msg_sz = (int)XSTRLEN(kHttpServerMsg); } ServerWrite(ssl, write_msg, write_msg_sz); #ifdef WOLFSSL_TLS13 if (updateKeysIVs || postHandAuth) ServerRead(ssl, input, sizeof(input)-1); #endif } else if (err == 0 || err == WOLFSSL_ERROR_ZERO_RETURN) { err = ServerEchoData(ssl, clientfd, echoData, block, throughput); /* Got close notify. Ignore it if not expecting a failure. */ if (err == WOLFSSL_ERROR_ZERO_RETURN && exitWithRet == 0) { err = 0; } if (err != 0) { SSL_free(ssl); ssl = NULL; SSL_CTX_free(ctx); ctx = NULL; CloseSocket(clientfd); CloseSocket(sockfd); ((func_args*)args)->return_code = err; goto exit; } } #if defined(WOLFSSL_MDK_SHELL) && defined(HAVE_MDK_RTX) os_dly_wait(500) ; #elif defined (WOLFSSL_TIRTOS) Task_yield(); #endif #if defined(WOLFSSL_DTLS13) if (wolfSSL_dtls(ssl) && version == -4) { int zero_return = 0; while (wolfSSL_dtls13_has_pending_msg(ssl)) { err = process_handshake_messages(ssl, !nonBlocking, &zero_return); if (err < 0) { /* other peer closes the connection, non fatal */ if (zero_return) break; err_sys("Error while processing pending DTLSv1.3 messages"); } } } #endif /* WOLFSSL_DTLS13 */ ret = SSL_shutdown(ssl); if (wc_shutdown && ret == WOLFSSL_SHUTDOWN_NOT_DONE) { while (tcp_select(wolfSSL_get_fd(ssl), DEFAULT_TIMEOUT_SEC) == TEST_RECV_READY) { ret = wolfSSL_shutdown(ssl); /* bidirectional shutdown */ if (ret == WOLFSSL_SUCCESS) { printf("Bidirectional shutdown complete\n"); break; } else if (ret != WOLFSSL_SHUTDOWN_NOT_DONE) { LOG_ERROR("Bidirectional shutdown failed\n"); break; } } if (ret != WOLFSSL_SUCCESS) LOG_ERROR("Bidirectional shutdown failed\n"); } /* display collected statistics */ #if defined(WOLFSSL_STATIC_MEMORY) && !defined(WOLFSSL_STATIC_MEMORY_LEAN) if (wolfSSL_is_static_memory(ssl, &ssl_stats) != 1) err_sys_ex(runWithErrors, "static memory was not used with ssl"); LOG_ERROR("\nprint off SSL memory stats\n"); LOG_ERROR("*** This is memory state before wolfSSL_free is " "called\n"); wolfSSL_PrintStatsConn(&ssl_stats); #endif SSL_free(ssl); ssl = NULL; CloseSocket(clientfd); if (resume == 1 && resumeCount == 0) { resumeCount++; /* only do one resume for testing */ continue; } resumeCount = 0; cnt++; if (loops > 0) { if (--loops == 0) { break; /* out of while loop, done with normal and resume * option */ } } } /* while(1) */ WOLFSSL_TIME(cnt); (void)cnt; #if defined(HAVE_CERTIFICATE_STATUS_REQUEST) \ || defined(HAVE_CERTIFICATE_STATUS_REQUEST_V2) wolfSSL_CTX_DisableOCSPStapling(ctx); #endif CloseSocket(sockfd); SSL_CTX_free(ctx); ctx = NULL; ((func_args*)args)->return_code = 0; exit: #ifdef WOLFSSL_WOLFSENTRY_HOOKS wolfsentry_ret = wolfsentry_shutdown(WOLFSENTRY_CONTEXT_ARGS_OUT_EX4(&wolfsentry, NULL)); if (wolfsentry_ret < 0) { LOG_ERROR( "wolfsentry_shutdown() returned " WOLFSENTRY_ERROR_FMT "\n", WOLFSENTRY_ERROR_FMT_ARGS(wolfsentry_ret)); } #endif #if defined(HAVE_ECC) && defined(FP_ECC) && defined(HAVE_THREAD_LS) \ && (defined(NO_MAIN_DRIVER) || defined(HAVE_STACK_SIZE)) wc_ecc_fp_free(); /* free per thread cache */ #endif #ifdef WOLFSSL_TIRTOS fdCloseSession(Task_self()); #endif #ifdef HAVE_TEST_SESSION_TICKET TicketCleanup(); #endif #ifdef WOLFSSL_ASYNC_CRYPT wolfAsync_DevClose(&devId); #endif /* There are use cases when these assignments are not read. To avoid * potential confusion those warnings have been handled here. */ (void) ourKey; (void) verifyCert; (void) doCliCertCheck; (void) ourDhParam; (void) ourCert; (void) useX25519; (void) useX448; #ifdef HAVE_SECURE_RENEGOTIATION (void) forceScr; #endif #if defined(WOLFSSL_CALLBACKS) && defined(WOLFSSL_EARLY_DATA) (void) earlyData; #endif WOLFSSL_RETURN_FROM_THREAD(0); } #endif /* !NO_WOLFSSL_SERVER */ /* so overall tests can pull in test function */ #ifndef NO_MAIN_DRIVER int main(int argc, char** argv) { func_args args; tcp_ready ready; StartTCP(); args.argc = argc; args.argv = argv; args.signal = &ready; args.return_code = 0; #if defined(WOLFSSL_SRTP) && defined(WOLFSSL_COND) args.srtp_helper = NULL; #endif InitTcpReady(&ready); #if defined(DEBUG_WOLFSSL) && !defined(WOLFSSL_MDK_SHELL) wolfSSL_Debugging_ON(); #endif wolfSSL_Init(); #ifdef WC_RNG_SEED_CB wc_SetSeed_Cb(wc_GenerateSeed); #endif ChangeToWolfRoot(); #ifndef NO_WOLFSSL_SERVER #ifdef HAVE_STACK_SIZE StackSizeCheck(&args, server_test); #else server_test(&args); #endif #else fprintf(stderr, "Server not compiled in!\n"); #endif wolfSSL_Cleanup(); FreeTcpReady(&ready); #ifdef HAVE_WNR if (wc_FreeNetRandom() < 0) err_sys_ex(runWithErrors, "Failed to free netRandom context"); #endif /* HAVE_WNR */ return args.return_code; } int myoptind = 0; char* myoptarg = NULL; #endif /* NO_MAIN_DRIVER */