/* * SSL client with options * * Copyright (C) 2006-2013, ARM Limited, All Rights Reserved * * This file is part of mbed TLS (https://tls.mbed.org) * * This program 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. * * This program 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 02110-1301 USA. */ #if !defined(POLARSSL_CONFIG_FILE) #include "polarssl/config.h" #else #include POLARSSL_CONFIG_FILE #endif #if defined(POLARSSL_PLATFORM_C) #include "polarssl/platform.h" #else #include #define polarssl_free free #define polarssl_malloc malloc #define polarssl_fprintf fprintf #define polarssl_printf printf #endif #if defined(POLARSSL_SSL_SERVER_NAME_INDICATION) && defined(POLARSSL_FS_IO) #define POLARSSL_SNI #endif #if defined(_WIN32) #include #endif #if defined(POLARSSL_ENTROPY_C) && \ defined(POLARSSL_SSL_TLS_C) && defined(POLARSSL_SSL_SRV_C) && \ defined(POLARSSL_NET_C) && defined(POLARSSL_CTR_DRBG_C) #include "polarssl/net.h" #include "polarssl/ssl.h" #include "polarssl/entropy.h" #include "polarssl/ctr_drbg.h" #include "polarssl/certs.h" #include "polarssl/x509.h" #include "polarssl/error.h" #include "polarssl/debug.h" #include #include #include #endif #if !defined(_WIN32) #include #endif #if defined(POLARSSL_SSL_CACHE_C) #include "polarssl/ssl_cache.h" #endif #if defined(POLARSSL_MEMORY_BUFFER_ALLOC_C) #include "polarssl/memory_buffer_alloc.h" #endif #define DFL_SERVER_ADDR NULL #define DFL_SERVER_PORT 4433 #define DFL_DEBUG_LEVEL 0 #define DFL_NBIO 0 #define DFL_CA_FILE "" #define DFL_CA_PATH "" #define DFL_CRT_FILE "" #define DFL_KEY_FILE "" #define DFL_CRT_FILE2 "" #define DFL_KEY_FILE2 "" #define DFL_PSK "" #define DFL_PSK_IDENTITY "Client_identity" #define DFL_PSK_LIST NULL #define DFL_FORCE_CIPHER 0 #define DFL_VERSION_SUITES NULL #define DFL_RENEGOTIATION SSL_RENEGOTIATION_DISABLED #define DFL_ALLOW_LEGACY -2 #define DFL_RENEGOTIATE 0 #define DFL_RENEGO_DELAY -2 #define DFL_RENEGO_PERIOD -1 #define DFL_EXCHANGES 1 #define DFL_MIN_VERSION SSL_MINOR_VERSION_1 #define DFL_MAX_VERSION -1 #define DFL_ARC4 SSL_ARC4_DISABLED #define DFL_AUTH_MODE SSL_VERIFY_OPTIONAL #define DFL_MFL_CODE SSL_MAX_FRAG_LEN_NONE #define DFL_TRUNC_HMAC -1 #define DFL_TICKETS SSL_SESSION_TICKETS_ENABLED #define DFL_TICKET_TIMEOUT -1 #define DFL_CACHE_MAX -1 #define DFL_CACHE_TIMEOUT -1 #define DFL_SNI NULL #define DFL_ALPN_STRING NULL #define DFL_CURVES NULL #define DFL_DHM_FILE NULL #define DFL_EXTENDED_MS -1 #define DFL_ETM -1 #define LONG_RESPONSE "

01-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "02-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "03-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "04-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "05-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "06-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah\r\n" \ "07-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah-blah

\r\n" /* Uncomment LONG_RESPONSE at the end of HTTP_RESPONSE to test sending longer * packets (for fragmentation purposes) */ #define HTTP_RESPONSE \ "HTTP/1.0 200 OK\r\nContent-Type: text/html\r\n\r\n" \ "

mbed TLS Test Server

\r\n" \ "

Successful connection using: %s

\r\n" // LONG_RESPONSE /* * Size of the basic I/O buffer. Able to hold our default response. * * You will need to adapt the ssl_get_bytes_avail() test in ssl-opt.sh * if you change this value to something outside the range <= 100 or > 500 */ #define IO_BUF_LEN 200 #if defined(POLARSSL_X509_CRT_PARSE_C) #if defined(POLARSSL_FS_IO) #define USAGE_IO \ " ca_file=%%s The single file containing the top-level CA(s) you fully trust\n" \ " default: \"\" (pre-loaded)\n" \ " ca_path=%%s The path containing the top-level CA(s) you fully trust\n" \ " default: \"\" (pre-loaded) (overrides ca_file)\n" \ " crt_file=%%s Your own cert and chain (in bottom to top order, top may be omitted)\n" \ " default: see note after key_file2\n" \ " key_file=%%s default: see note after key_file2\n" \ " crt_file2=%%s Your second cert and chain (in bottom to top order, top may be omitted)\n" \ " default: see note after key_file2\n" \ " key_file2=%%s default: see note below\n" \ " note: if neither crt_file/key_file nor crt_file2/key_file2 are used,\n" \ " preloaded certificate(s) and key(s) are used if available\n" \ " dhm_file=%%s File containing Diffie-Hellman parameters\n" \ " default: preloaded parameters\n" #else #define USAGE_IO \ "\n" \ " No file operations available (POLARSSL_FS_IO not defined)\n" \ "\n" #endif /* POLARSSL_FS_IO */ #else #define USAGE_IO "" #endif /* POLARSSL_X509_CRT_PARSE_C */ #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) #define USAGE_PSK \ " psk=%%s default: \"\" (in hex, without 0x)\n" \ " psk_identity=%%s default: \"Client_identity\"\n" #else #define USAGE_PSK "" #endif /* POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED */ #if defined(POLARSSL_SSL_SESSION_TICKETS) #define USAGE_TICKETS \ " tickets=%%d default: 1 (enabled)\n" \ " ticket_timeout=%%d default: ticket default (1d)\n" #else #define USAGE_TICKETS "" #endif /* POLARSSL_SSL_SESSION_TICKETS */ #if defined(POLARSSL_SSL_CACHE_C) #define USAGE_CACHE \ " cache_max=%%d default: cache default (50)\n" \ " cache_timeout=%%d default: cache default (1d)\n" #else #define USAGE_CACHE "" #endif /* POLARSSL_SSL_CACHE_C */ #if defined(POLARSSL_SNI) #define USAGE_SNI \ " sni=%%s name1,cert1,key1[,name2,cert2,key2[,...]]\n" \ " default: disabled\n" #else #define USAGE_SNI "" #endif /* POLARSSL_SNI */ #if defined(POLARSSL_SSL_MAX_FRAGMENT_LENGTH) #define USAGE_MAX_FRAG_LEN \ " max_frag_len=%%d default: 16384 (tls default)\n" \ " options: 512, 1024, 2048, 4096\n" #else #define USAGE_MAX_FRAG_LEN "" #endif /* POLARSSL_SSL_MAX_FRAGMENT_LENGTH */ #if defined(POLARSSL_SSL_TRUNCATED_HMAC) #define USAGE_TRUNC_HMAC \ " trunc_hmac=%%d default: library default\n" #else #define USAGE_TRUNC_HMAC "" #endif #if defined(POLARSSL_SSL_ALPN) #define USAGE_ALPN \ " alpn=%%s default: \"\" (disabled)\n" \ " example: spdy/1,http/1.1\n" #else #define USAGE_ALPN "" #endif /* POLARSSL_SSL_ALPN */ #if defined(POLARSSL_SSL_SET_CURVES) #define USAGE_CURVES \ " curves=a,b,c,d default: \"default\" (library default)\n" \ " example: \"secp521r1,brainpoolP512r1\"\n" \ " - use \"none\" for empty list\n" \ " - see ecp_curve_list()\n" \ " for acceptable curve names\n" #else #define USAGE_CURVES "" #endif /* POLARSSL_SSL_SET_CURVES */ #if defined(POLARSSL_SSL_EXTENDED_MASTER_SECRET) #define USAGE_EMS \ " extended_ms=0/1 default: (library default: on)\n" #else #define USAGE_EMS "" #endif #if defined(POLARSSL_SSL_ENCRYPT_THEN_MAC) #define USAGE_ETM \ " etm=0/1 default: (library default: on)\n" #else #define USAGE_ETM "" #endif #if defined(POLARSSL_SSL_RENEGOTIATION) #define USAGE_RENEGO \ " renegotiation=%%d default: 0 (disabled)\n" \ " renegotiate=%%d default: 0 (disabled)\n" \ " renego_delay=%%d default: -2 (library default)\n" \ " renego_period=%%d default: (library default)\n" #else #define USAGE_RENEGO "" #endif #define USAGE \ "\n usage: ssl_server2 param=<>...\n" \ "\n acceptable parameters:\n" \ " server_addr=%%s default: (all interfaces)\n" \ " server_port=%%d default: 4433\n" \ " debug_level=%%d default: 0 (disabled)\n" \ " nbio=%%d default: 0 (blocking I/O)\n" \ " options: 1 (non-blocking), 2 (added delays)\n" \ "\n" \ " auth_mode=%%s default: \"optional\"\n" \ " options: none, optional, required\n" \ USAGE_IO \ USAGE_SNI \ "\n" \ USAGE_PSK \ "\n" \ " allow_legacy=%%d default: (library default: no)\n" \ USAGE_RENEGO \ " exchanges=%%d default: 1\n" \ USAGE_TICKETS \ USAGE_CACHE \ USAGE_MAX_FRAG_LEN \ USAGE_TRUNC_HMAC \ USAGE_ALPN \ USAGE_CURVES \ USAGE_EMS \ USAGE_ETM \ "\n" \ " min_version=%%s default: \"ssl3\"\n" \ " max_version=%%s default: \"tls1_2\"\n" \ " arc4=%%d default: 0 (disabled)\n" \ " force_version=%%s default: \"\" (none)\n" \ " options: ssl3, tls1, tls1_1, tls1_2\n" \ "\n" \ " version_suites=a,b,c,d per-version ciphersuites\n" \ " in order from ssl3 to tls1_2\n" \ " default: all enabled\n" \ " force_ciphersuite= default: all enabled\n" \ " acceptable ciphersuite names:\n" #if !defined(POLARSSL_ENTROPY_C) || \ !defined(POLARSSL_SSL_TLS_C) || !defined(POLARSSL_SSL_SRV_C) || \ !defined(POLARSSL_NET_C) || !defined(POLARSSL_CTR_DRBG_C) #include int main( void ) { polarssl_printf("POLARSSL_ENTROPY_C and/or " "POLARSSL_SSL_TLS_C and/or POLARSSL_SSL_SRV_C and/or " "POLARSSL_NET_C and/or POLARSSL_CTR_DRBG_C not defined.\n"); return( 0 ); } #else #define ALPN_LIST_SIZE 10 #define CURVE_LIST_SIZE 20 /* * global options */ struct options { const char *server_addr; /* address on which the ssl service runs */ int server_port; /* port on which the ssl service runs */ int debug_level; /* level of debugging */ int nbio; /* should I/O be blocking? */ const char *ca_file; /* the file with the CA certificate(s) */ const char *ca_path; /* the path with the CA certificate(s) reside */ const char *crt_file; /* the file with the server certificate */ const char *key_file; /* the file with the server key */ const char *crt_file2; /* the file with the 2nd server certificate */ const char *key_file2; /* the file with the 2nd server key */ const char *psk; /* the pre-shared key */ const char *psk_identity; /* the pre-shared key identity */ char *psk_list; /* list of PSK id/key pairs for callback */ int force_ciphersuite[2]; /* protocol/ciphersuite to use, or all */ const char *version_suites; /* per-version ciphersuites */ int renegotiation; /* enable / disable renegotiation */ int allow_legacy; /* allow legacy renegotiation */ int renegotiate; /* attempt renegotiation? */ int renego_delay; /* delay before enforcing renegotiation */ int renego_period; /* period for automatic renegotiation */ int exchanges; /* number of data exchanges */ int min_version; /* minimum protocol version accepted */ int max_version; /* maximum protocol version accepted */ int arc4; /* flag for arc4 suites support */ int auth_mode; /* verify mode for connection */ unsigned char mfl_code; /* code for maximum fragment length */ int trunc_hmac; /* accept truncated hmac? */ int tickets; /* enable / disable session tickets */ int ticket_timeout; /* session ticket lifetime */ int cache_max; /* max number of session cache entries */ int cache_timeout; /* expiration delay of session cache entries */ char *sni; /* string describing sni information */ const char *curves; /* list of supported elliptic curves */ const char *alpn_string; /* ALPN supported protocols */ const char *dhm_file; /* the file with the DH parameters */ int extended_ms; /* allow negotiation of extended MS? */ int etm; /* allow negotiation of encrypt-then-MAC? */ } opt; static void my_debug( void *ctx, int level, const char *str ) { ((void) level); polarssl_fprintf( (FILE *) ctx, "%s", str ); fflush( (FILE *) ctx ); } /* * Test recv/send functions that make sure each try returns * WANT_READ/WANT_WRITE at least once before sucesseding */ static int my_recv( void *ctx, unsigned char *buf, size_t len ) { static int first_try = 1; int ret; if( first_try ) { first_try = 0; return( POLARSSL_ERR_NET_WANT_READ ); } ret = net_recv( ctx, buf, len ); if( ret != POLARSSL_ERR_NET_WANT_READ ) first_try = 1; /* Next call will be a new operation */ return( ret ); } static int my_send( void *ctx, const unsigned char *buf, size_t len ) { static int first_try = 1; int ret; if( first_try ) { first_try = 0; return( POLARSSL_ERR_NET_WANT_WRITE ); } ret = net_send( ctx, buf, len ); if( ret != POLARSSL_ERR_NET_WANT_WRITE ) first_try = 1; /* Next call will be a new operation */ return( ret ); } /* * Used by sni_parse and psk_parse to handle coma-separated lists */ #define GET_ITEM( dst ) \ dst = p; \ while( *p != ',' ) \ if( ++p > end ) \ goto error; \ *p++ = '\0'; #if defined(POLARSSL_SNI) typedef struct _sni_entry sni_entry; struct _sni_entry { const char *name; x509_crt *cert; pk_context *key; sni_entry *next; }; void sni_free( sni_entry *head ) { sni_entry *cur = head, *next; while( cur != NULL ) { x509_crt_free( cur->cert ); polarssl_free( cur->cert ); pk_free( cur->key ); polarssl_free( cur->key ); next = cur->next; polarssl_free( cur ); cur = next; } } /* * Parse a string of triplets name1,crt1,key1[,name2,crt2,key2[,...]] * into a usable sni_entry list. * * Modifies the input string! This is not production quality! */ sni_entry *sni_parse( char *sni_string ) { sni_entry *cur = NULL, *new = NULL; char *p = sni_string; char *end = p; char *crt_file, *key_file; while( *end != '\0' ) ++end; *end = ','; while( p <= end ) { if( ( new = polarssl_malloc( sizeof( sni_entry ) ) ) == NULL ) { sni_free( cur ); return( NULL ); } memset( new, 0, sizeof( sni_entry ) ); if( ( new->cert = polarssl_malloc( sizeof( x509_crt ) ) ) == NULL || ( new->key = polarssl_malloc( sizeof( pk_context ) ) ) == NULL ) { polarssl_free( new->cert ); polarssl_free( new ); sni_free( cur ); return( NULL ); } x509_crt_init( new->cert ); pk_init( new->key ); GET_ITEM( new->name ); GET_ITEM( crt_file ); GET_ITEM( key_file ); if( x509_crt_parse_file( new->cert, crt_file ) != 0 || pk_parse_keyfile( new->key, key_file, "" ) != 0 ) { goto error; } new->next = cur; cur = new; } return( cur ); error: sni_free( new ); sni_free( cur ); return( NULL ); } /* * SNI callback. */ int sni_callback( void *p_info, ssl_context *ssl, const unsigned char *name, size_t name_len ) { sni_entry *cur = (sni_entry *) p_info; while( cur != NULL ) { if( name_len == strlen( cur->name ) && memcmp( name, cur->name, name_len ) == 0 ) { return( ssl_set_own_cert( ssl, cur->cert, cur->key ) ); } cur = cur->next; } return( -1 ); } #endif /* POLARSSL_SNI */ #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) #define HEX2NUM( c ) \ if( c >= '0' && c <= '9' ) \ c -= '0'; \ else if( c >= 'a' && c <= 'f' ) \ c -= 'a' - 10; \ else if( c >= 'A' && c <= 'F' ) \ c -= 'A' - 10; \ else \ return( -1 ); /* * Convert a hex string to bytes. * Return 0 on success, -1 on error. */ int unhexify( unsigned char *output, const char *input, size_t *olen ) { unsigned char c; size_t j; *olen = strlen( input ); if( *olen % 2 != 0 || *olen / 2 > POLARSSL_PSK_MAX_LEN ) return( -1 ); *olen /= 2; for( j = 0; j < *olen * 2; j += 2 ) { c = input[j]; HEX2NUM( c ); output[ j / 2 ] = c << 4; c = input[j + 1]; HEX2NUM( c ); output[ j / 2 ] |= c; } return( 0 ); } typedef struct _psk_entry psk_entry; struct _psk_entry { const char *name; size_t key_len; unsigned char key[POLARSSL_PSK_MAX_LEN]; psk_entry *next; }; /* * Free a list of psk_entry's */ void psk_free( psk_entry *head ) { psk_entry *next; while( head != NULL ) { next = head->next; polarssl_free( head ); head = next; } } /* * Parse a string of pairs name1,key1[,name2,key2[,...]] * into a usable psk_entry list. * * Modifies the input string! This is not production quality! */ psk_entry *psk_parse( char *psk_string ) { psk_entry *cur = NULL, *new = NULL; char *p = psk_string; char *end = p; char *key_hex; while( *end != '\0' ) ++end; *end = ','; while( p <= end ) { if( ( new = polarssl_malloc( sizeof( psk_entry ) ) ) == NULL ) goto error; memset( new, 0, sizeof( psk_entry ) ); GET_ITEM( new->name ); GET_ITEM( key_hex ); if( unhexify( new->key, key_hex, &new->key_len ) != 0 ) goto error; new->next = cur; cur = new; } return( cur ); error: psk_free( new ); psk_free( cur ); return( 0 ); } /* * PSK callback */ int psk_callback( void *p_info, ssl_context *ssl, const unsigned char *name, size_t name_len ) { psk_entry *cur = (psk_entry *) p_info; while( cur != NULL ) { if( name_len == strlen( cur->name ) && memcmp( name, cur->name, name_len ) == 0 ) { return( ssl_set_psk( ssl, cur->key, cur->key_len, name, name_len ) ); } cur = cur->next; } return( -1 ); } #endif /* POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED */ static int listen_fd, client_fd = -1; /* Interruption handler to ensure clean exit (for valgrind testing) */ #if !defined(_WIN32) static int received_sigterm = 0; void term_handler( int sig ) { ((void) sig); received_sigterm = 1; net_close( listen_fd ); /* causes net_accept() to abort */ net_close( client_fd ); /* causes net_read() to abort */ } #endif int main( int argc, char *argv[] ) { int ret = 0, len, written, frags, exchanges_left; int version_suites[4][2]; unsigned char buf[IO_BUF_LEN]; #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) unsigned char psk[POLARSSL_PSK_MAX_LEN]; size_t psk_len = 0; psk_entry *psk_info = NULL; #endif const char *pers = "ssl_server2"; entropy_context entropy; ctr_drbg_context ctr_drbg; ssl_context ssl; #if defined(POLARSSL_SSL_RENEGOTIATION) unsigned char renego_period[8] = { 0 }; #endif #if defined(POLARSSL_X509_CRT_PARSE_C) x509_crt cacert; x509_crt srvcert; pk_context pkey; x509_crt srvcert2; pk_context pkey2; int key_cert_init = 0, key_cert_init2 = 0; #endif #if defined(POLARSSL_DHM_C) && defined(POLARSSL_FS_IO) dhm_context dhm; #endif #if defined(POLARSSL_SSL_CACHE_C) ssl_cache_context cache; #endif #if defined(POLARSSL_SNI) sni_entry *sni_info = NULL; #endif #if defined(POLARSSL_SSL_ALPN) const char *alpn_list[ALPN_LIST_SIZE]; #endif #if defined(POLARSSL_SSL_SET_CURVES) ecp_group_id curve_list[CURVE_LIST_SIZE]; const ecp_curve_info *curve_cur; #endif #if defined(POLARSSL_MEMORY_BUFFER_ALLOC_C) unsigned char alloc_buf[100000]; #endif int i; char *p, *q; const int *list; #if defined(POLARSSL_MEMORY_BUFFER_ALLOC_C) memory_buffer_alloc_init( alloc_buf, sizeof(alloc_buf) ); #endif /* * Make sure memory references are valid in case we exit early. */ listen_fd = 0; memset( &ssl, 0, sizeof( ssl_context ) ); #if defined(POLARSSL_X509_CRT_PARSE_C) x509_crt_init( &cacert ); x509_crt_init( &srvcert ); pk_init( &pkey ); x509_crt_init( &srvcert2 ); pk_init( &pkey2 ); #endif #if defined(POLARSSL_DHM_C) && defined(POLARSSL_FS_IO) dhm_init( &dhm ); #endif #if defined(POLARSSL_SSL_CACHE_C) ssl_cache_init( &cache ); #endif #if defined(POLARSSL_SSL_ALPN) memset( (void *) alpn_list, 0, sizeof( alpn_list ) ); #endif #if !defined(_WIN32) /* Abort cleanly on SIGTERM and SIGINT */ signal( SIGTERM, term_handler ); signal( SIGINT, term_handler ); #endif if( argc == 0 ) { usage: if( ret == 0 ) ret = 1; polarssl_printf( USAGE ); list = ssl_list_ciphersuites(); while( *list ) { polarssl_printf(" %-42s", ssl_get_ciphersuite_name( *list ) ); list++; if( !*list ) break; polarssl_printf(" %s\n", ssl_get_ciphersuite_name( *list ) ); list++; } polarssl_printf("\n"); goto exit; } opt.server_addr = DFL_SERVER_ADDR; opt.server_port = DFL_SERVER_PORT; opt.debug_level = DFL_DEBUG_LEVEL; opt.nbio = DFL_NBIO; opt.ca_file = DFL_CA_FILE; opt.ca_path = DFL_CA_PATH; opt.crt_file = DFL_CRT_FILE; opt.key_file = DFL_KEY_FILE; opt.crt_file2 = DFL_CRT_FILE2; opt.key_file2 = DFL_KEY_FILE2; opt.psk = DFL_PSK; opt.psk_identity = DFL_PSK_IDENTITY; opt.psk_list = DFL_PSK_LIST; opt.force_ciphersuite[0]= DFL_FORCE_CIPHER; opt.version_suites = DFL_VERSION_SUITES; opt.renegotiation = DFL_RENEGOTIATION; opt.allow_legacy = DFL_ALLOW_LEGACY; opt.renegotiate = DFL_RENEGOTIATE; opt.renego_delay = DFL_RENEGO_DELAY; opt.renego_period = DFL_RENEGO_PERIOD; opt.exchanges = DFL_EXCHANGES; opt.min_version = DFL_MIN_VERSION; opt.max_version = DFL_MAX_VERSION; opt.arc4 = DFL_ARC4; opt.auth_mode = DFL_AUTH_MODE; opt.mfl_code = DFL_MFL_CODE; opt.trunc_hmac = DFL_TRUNC_HMAC; opt.tickets = DFL_TICKETS; opt.ticket_timeout = DFL_TICKET_TIMEOUT; opt.cache_max = DFL_CACHE_MAX; opt.cache_timeout = DFL_CACHE_TIMEOUT; opt.sni = DFL_SNI; opt.alpn_string = DFL_ALPN_STRING; opt.curves = DFL_CURVES; opt.dhm_file = DFL_DHM_FILE; opt.extended_ms = DFL_EXTENDED_MS; opt.etm = DFL_ETM; for( i = 1; i < argc; i++ ) { p = argv[i]; if( ( q = strchr( p, '=' ) ) == NULL ) goto usage; *q++ = '\0'; if( strcmp( p, "server_port" ) == 0 ) { opt.server_port = atoi( q ); if( opt.server_port < 1 || opt.server_port > 65535 ) goto usage; } else if( strcmp( p, "server_addr" ) == 0 ) opt.server_addr = q; else if( strcmp( p, "debug_level" ) == 0 ) { opt.debug_level = atoi( q ); if( opt.debug_level < 0 || opt.debug_level > 65535 ) goto usage; } else if( strcmp( p, "nbio" ) == 0 ) { opt.nbio = atoi( q ); if( opt.nbio < 0 || opt.nbio > 2 ) goto usage; } else if( strcmp( p, "ca_file" ) == 0 ) opt.ca_file = q; else if( strcmp( p, "ca_path" ) == 0 ) opt.ca_path = q; else if( strcmp( p, "crt_file" ) == 0 ) opt.crt_file = q; else if( strcmp( p, "key_file" ) == 0 ) opt.key_file = q; else if( strcmp( p, "crt_file2" ) == 0 ) opt.crt_file2 = q; else if( strcmp( p, "key_file2" ) == 0 ) opt.key_file2 = q; else if( strcmp( p, "dhm_file" ) == 0 ) opt.dhm_file = q; else if( strcmp( p, "psk" ) == 0 ) opt.psk = q; else if( strcmp( p, "psk_identity" ) == 0 ) opt.psk_identity = q; else if( strcmp( p, "psk_list" ) == 0 ) opt.psk_list = q; else if( strcmp( p, "force_ciphersuite" ) == 0 ) { opt.force_ciphersuite[0] = ssl_get_ciphersuite_id( q ); if( opt.force_ciphersuite[0] == 0 ) { ret = 2; goto usage; } opt.force_ciphersuite[1] = 0; } else if( strcmp( p, "version_suites" ) == 0 ) opt.version_suites = q; else if( strcmp( p, "renegotiation" ) == 0 ) { opt.renegotiation = (atoi( q )) ? SSL_RENEGOTIATION_ENABLED : SSL_RENEGOTIATION_DISABLED; } else if( strcmp( p, "allow_legacy" ) == 0 ) { switch( atoi( q ) ) { case -1: opt.allow_legacy = SSL_LEGACY_BREAK_HANDSHAKE; break; case 0: opt.allow_legacy = SSL_LEGACY_NO_RENEGOTIATION; break; case 1: opt.allow_legacy = SSL_LEGACY_ALLOW_RENEGOTIATION; break; default: goto usage; } } else if( strcmp( p, "renegotiate" ) == 0 ) { opt.renegotiate = atoi( q ); if( opt.renegotiate < 0 || opt.renegotiate > 1 ) goto usage; } else if( strcmp( p, "renego_delay" ) == 0 ) { opt.renego_delay = atoi( q ); } else if( strcmp( p, "renego_period" ) == 0 ) { opt.renego_period = atoi( q ); if( opt.renego_period < 2 || opt.renego_period > 255 ) goto usage; } else if( strcmp( p, "exchanges" ) == 0 ) { opt.exchanges = atoi( q ); if( opt.exchanges < 1 ) goto usage; } else if( strcmp( p, "min_version" ) == 0 ) { if( strcmp( q, "ssl3" ) == 0 ) opt.min_version = SSL_MINOR_VERSION_0; else if( strcmp( q, "tls1" ) == 0 ) opt.min_version = SSL_MINOR_VERSION_1; else if( strcmp( q, "tls1_1" ) == 0 ) opt.min_version = SSL_MINOR_VERSION_2; else if( strcmp( q, "tls1_2" ) == 0 ) opt.min_version = SSL_MINOR_VERSION_3; else goto usage; } else if( strcmp( p, "max_version" ) == 0 ) { if( strcmp( q, "ssl3" ) == 0 ) opt.max_version = SSL_MINOR_VERSION_0; else if( strcmp( q, "tls1" ) == 0 ) opt.max_version = SSL_MINOR_VERSION_1; else if( strcmp( q, "tls1_1" ) == 0 ) opt.max_version = SSL_MINOR_VERSION_2; else if( strcmp( q, "tls1_2" ) == 0 ) opt.max_version = SSL_MINOR_VERSION_3; else goto usage; } else if( strcmp( p, "arc4" ) == 0 ) { switch( atoi( q ) ) { case 0: opt.arc4 = SSL_ARC4_DISABLED; break; case 1: opt.arc4 = SSL_ARC4_ENABLED; break; default: goto usage; } } else if( strcmp( p, "force_version" ) == 0 ) { if( strcmp( q, "ssl3" ) == 0 ) { opt.min_version = SSL_MINOR_VERSION_0; opt.max_version = SSL_MINOR_VERSION_0; } else if( strcmp( q, "tls1" ) == 0 ) { opt.min_version = SSL_MINOR_VERSION_1; opt.max_version = SSL_MINOR_VERSION_1; } else if( strcmp( q, "tls1_1" ) == 0 ) { opt.min_version = SSL_MINOR_VERSION_2; opt.max_version = SSL_MINOR_VERSION_2; } else if( strcmp( q, "tls1_2" ) == 0 ) { opt.min_version = SSL_MINOR_VERSION_3; opt.max_version = SSL_MINOR_VERSION_3; } else goto usage; } else if( strcmp( p, "auth_mode" ) == 0 ) { if( strcmp( q, "none" ) == 0 ) opt.auth_mode = SSL_VERIFY_NONE; else if( strcmp( q, "optional" ) == 0 ) opt.auth_mode = SSL_VERIFY_OPTIONAL; else if( strcmp( q, "required" ) == 0 ) opt.auth_mode = SSL_VERIFY_REQUIRED; else goto usage; } else if( strcmp( p, "max_frag_len" ) == 0 ) { if( strcmp( q, "512" ) == 0 ) opt.mfl_code = SSL_MAX_FRAG_LEN_512; else if( strcmp( q, "1024" ) == 0 ) opt.mfl_code = SSL_MAX_FRAG_LEN_1024; else if( strcmp( q, "2048" ) == 0 ) opt.mfl_code = SSL_MAX_FRAG_LEN_2048; else if( strcmp( q, "4096" ) == 0 ) opt.mfl_code = SSL_MAX_FRAG_LEN_4096; else goto usage; } else if( strcmp( p, "alpn" ) == 0 ) { opt.alpn_string = q; } else if( strcmp( p, "trunc_hmac" ) == 0 ) { switch( atoi( q ) ) { case 0: opt.trunc_hmac = SSL_TRUNC_HMAC_DISABLED; break; case 1: opt.trunc_hmac = SSL_TRUNC_HMAC_ENABLED; break; default: goto usage; } } else if( strcmp( p, "extended_ms" ) == 0 ) { switch( atoi( q ) ) { case 0: opt.extended_ms = SSL_EXTENDED_MS_DISABLED; break; case 1: opt.extended_ms = SSL_EXTENDED_MS_ENABLED; break; default: goto usage; } } else if( strcmp( p, "curves" ) == 0 ) opt.curves = q; else if( strcmp( p, "etm" ) == 0 ) { switch( atoi( q ) ) { case 0: opt.etm = SSL_ETM_DISABLED; break; case 1: opt.etm = SSL_ETM_ENABLED; break; default: goto usage; } } else if( strcmp( p, "tickets" ) == 0 ) { opt.tickets = atoi( q ); if( opt.tickets < 0 || opt.tickets > 1 ) goto usage; } else if( strcmp( p, "ticket_timeout" ) == 0 ) { opt.ticket_timeout = atoi( q ); if( opt.ticket_timeout < 0 ) goto usage; } else if( strcmp( p, "cache_max" ) == 0 ) { opt.cache_max = atoi( q ); if( opt.cache_max < 0 ) goto usage; } else if( strcmp( p, "cache_timeout" ) == 0 ) { opt.cache_timeout = atoi( q ); if( opt.cache_timeout < 0 ) goto usage; } else if( strcmp( p, "sni" ) == 0 ) { opt.sni = q; } else goto usage; } #if defined(POLARSSL_DEBUG_C) debug_set_threshold( opt.debug_level ); #endif if( opt.force_ciphersuite[0] > 0 ) { const ssl_ciphersuite_t *ciphersuite_info; ciphersuite_info = ssl_ciphersuite_from_id( opt.force_ciphersuite[0] ); if( opt.max_version != -1 && ciphersuite_info->min_minor_ver > opt.max_version ) { polarssl_printf("forced ciphersuite not allowed with this protocol version\n"); ret = 2; goto usage; } if( opt.min_version != -1 && ciphersuite_info->max_minor_ver < opt.min_version ) { polarssl_printf("forced ciphersuite not allowed with this protocol version\n"); ret = 2; goto usage; } if( opt.max_version > ciphersuite_info->max_minor_ver ) opt.max_version = ciphersuite_info->max_minor_ver; if( opt.min_version < ciphersuite_info->min_minor_ver ) opt.min_version = ciphersuite_info->min_minor_ver; } if( opt.version_suites != NULL ) { const char *name[4] = { 0 }; /* Parse 4-element coma-separated list */ for( i = 0, p = (char *) opt.version_suites; i < 4 && *p != '\0'; i++ ) { name[i] = p; /* Terminate the current string and move on to next one */ while( *p != ',' && *p != '\0' ) p++; if( *p == ',' ) *p++ = '\0'; } if( i != 4 ) { polarssl_printf( "too few values for version_suites\n" ); ret = 1; goto exit; } memset( version_suites, 0, sizeof( version_suites ) ); /* Get the suites identifiers from their name */ for( i = 0; i < 4; i++ ) { version_suites[i][0] = ssl_get_ciphersuite_id( name[i] ); if( version_suites[i][0] == 0 ) { polarssl_printf( "unknown ciphersuite: '%s'\n", name[i] ); ret = 2; goto usage; } } } #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) /* * Unhexify the pre-shared key and parse the list if any given */ if( unhexify( psk, opt.psk, &psk_len ) != 0 ) { polarssl_printf( "pre-shared key not valid hex\n" ); goto exit; } if( opt.psk_list != NULL ) { if( ( psk_info = psk_parse( opt.psk_list ) ) == NULL ) { polarssl_printf( "psk_list invalid" ); goto exit; } } #endif /* POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED */ #if defined(POLARSSL_SSL_SET_CURVES) if( opt.curves != NULL ) { p = (char *) opt.curves; i = 0; if( strcmp( p, "none" ) == 0 ) { curve_list[0] = POLARSSL_ECP_DP_NONE; } else if( strcmp( p, "default" ) != 0 ) { /* Leave room for a final NULL in curve list */ while( i < CURVE_LIST_SIZE - 1 && *p != '\0' ) { q = p; /* Terminate the current string */ while( *p != ',' && *p != '\0' ) p++; if( *p == ',' ) *p++ = '\0'; if( ( curve_cur = ecp_curve_info_from_name( q ) ) != NULL ) { curve_list[i++] = curve_cur->grp_id; } else { polarssl_printf( "unknown curve %s\n", q ); polarssl_printf( "supported curves: " ); for( curve_cur = ecp_curve_list(); curve_cur->grp_id != POLARSSL_ECP_DP_NONE; curve_cur++ ) { polarssl_printf( "%s ", curve_cur->name ); } polarssl_printf( "\n" ); goto exit; } } polarssl_printf( "Number of curves: %d\n", i ); if( i == CURVE_LIST_SIZE - 1 && *p != '\0' ) { polarssl_printf( "curves list too long, maximum %d", CURVE_LIST_SIZE - 1 ); goto exit; } curve_list[i] = POLARSSL_ECP_DP_NONE; } } #endif /* POLARSSL_SSL_SET_CURVES */ #if defined(POLARSSL_SSL_ALPN) if( opt.alpn_string != NULL ) { p = (char *) opt.alpn_string; i = 0; /* Leave room for a final NULL in alpn_list */ while( i < ALPN_LIST_SIZE - 1 && *p != '\0' ) { alpn_list[i++] = p; /* Terminate the current string and move on to next one */ while( *p != ',' && *p != '\0' ) p++; if( *p == ',' ) *p++ = '\0'; } } #endif /* POLARSSL_SSL_ALPN */ /* * 0. Initialize the RNG and the session data */ polarssl_printf( "\n . Seeding the random number generator..." ); fflush( stdout ); entropy_init( &entropy ); if( ( ret = ctr_drbg_init( &ctr_drbg, entropy_func, &entropy, (const unsigned char *) pers, strlen( pers ) ) ) != 0 ) { polarssl_printf( " failed\n ! ctr_drbg_init returned -0x%x\n", -ret ); goto exit; } polarssl_printf( " ok\n" ); #if defined(POLARSSL_X509_CRT_PARSE_C) /* * 1.1. Load the trusted CA */ polarssl_printf( " . Loading the CA root certificate ..." ); fflush( stdout ); #if defined(POLARSSL_FS_IO) if( strlen( opt.ca_path ) ) if( strcmp( opt.ca_path, "none" ) == 0 ) ret = 0; else ret = x509_crt_parse_path( &cacert, opt.ca_path ); else if( strlen( opt.ca_file ) ) if( strcmp( opt.ca_file, "none" ) == 0 ) ret = 0; else ret = x509_crt_parse_file( &cacert, opt.ca_file ); else #endif #if defined(POLARSSL_CERTS_C) ret = x509_crt_parse( &cacert, (const unsigned char *) test_ca_list, strlen( test_ca_list ) ); #else { ret = 1; polarssl_printf("POLARSSL_CERTS_C not defined."); } #endif if( ret < 0 ) { polarssl_printf( " failed\n ! x509_crt_parse returned -0x%x\n\n", -ret ); goto exit; } polarssl_printf( " ok (%d skipped)\n", ret ); /* * 1.2. Load own certificate and private key */ polarssl_printf( " . Loading the server cert. and key..." ); fflush( stdout ); #if defined(POLARSSL_FS_IO) if( strlen( opt.crt_file ) && strcmp( opt.crt_file, "none" ) != 0 ) { key_cert_init++; if( ( ret = x509_crt_parse_file( &srvcert, opt.crt_file ) ) != 0 ) { polarssl_printf( " failed\n ! x509_crt_parse_file returned -0x%x\n\n", -ret ); goto exit; } } if( strlen( opt.key_file ) && strcmp( opt.key_file, "none" ) != 0 ) { key_cert_init++; if( ( ret = pk_parse_keyfile( &pkey, opt.key_file, "" ) ) != 0 ) { polarssl_printf( " failed\n ! pk_parse_keyfile returned -0x%x\n\n", -ret ); goto exit; } } if( key_cert_init == 1 ) { polarssl_printf( " failed\n ! crt_file without key_file or vice-versa\n\n" ); goto exit; } if( strlen( opt.crt_file2 ) && strcmp( opt.crt_file2, "none" ) != 0 ) { key_cert_init2++; if( ( ret = x509_crt_parse_file( &srvcert2, opt.crt_file2 ) ) != 0 ) { polarssl_printf( " failed\n ! x509_crt_parse_file(2) returned -0x%x\n\n", -ret ); goto exit; } } if( strlen( opt.key_file2 ) && strcmp( opt.key_file2, "none" ) != 0 ) { key_cert_init2++; if( ( ret = pk_parse_keyfile( &pkey2, opt.key_file2, "" ) ) != 0 ) { polarssl_printf( " failed\n ! pk_parse_keyfile(2) returned -0x%x\n\n", -ret ); goto exit; } } if( key_cert_init2 == 1 ) { polarssl_printf( " failed\n ! crt_file2 without key_file2 or vice-versa\n\n" ); goto exit; } #endif if( key_cert_init == 0 && strcmp( opt.crt_file, "none" ) != 0 && strcmp( opt.key_file, "none" ) != 0 && key_cert_init2 == 0 && strcmp( opt.crt_file2, "none" ) != 0 && strcmp( opt.key_file2, "none" ) != 0 ) { #if !defined(POLARSSL_CERTS_C) polarssl_printf( "Not certificated or key provided, and \n" "POLARSSL_CERTS_C not defined!\n" ); goto exit; #else #if defined(POLARSSL_RSA_C) if( ( ret = x509_crt_parse( &srvcert, (const unsigned char *) test_srv_crt_rsa, strlen( test_srv_crt_rsa ) ) ) != 0 ) { polarssl_printf( " failed\n ! x509_crt_parse returned -0x%x\n\n", -ret ); goto exit; } if( ( ret = pk_parse_key( &pkey, (const unsigned char *) test_srv_key_rsa, strlen( test_srv_key_rsa ), NULL, 0 ) ) != 0 ) { polarssl_printf( " failed\n ! pk_parse_key returned -0x%x\n\n", -ret ); goto exit; } key_cert_init = 2; #endif /* POLARSSL_RSA_C */ #if defined(POLARSSL_ECDSA_C) if( ( ret = x509_crt_parse( &srvcert2, (const unsigned char *) test_srv_crt_ec, strlen( test_srv_crt_ec ) ) ) != 0 ) { polarssl_printf( " failed\n ! x509_crt_parse2 returned -0x%x\n\n", -ret ); goto exit; } if( ( ret = pk_parse_key( &pkey2, (const unsigned char *) test_srv_key_ec, strlen( test_srv_key_ec ), NULL, 0 ) ) != 0 ) { polarssl_printf( " failed\n ! pk_parse_key2 returned -0x%x\n\n", -ret ); goto exit; } key_cert_init2 = 2; #endif /* POLARSSL_ECDSA_C */ #endif /* POLARSSL_CERTS_C */ } polarssl_printf( " ok\n" ); #endif /* POLARSSL_X509_CRT_PARSE_C */ #if defined(POLARSSL_DHM_C) && defined(POLARSSL_FS_IO) if( opt.dhm_file != NULL ) { polarssl_printf( " . Loading DHM parameters..." ); fflush( stdout ); if( ( ret = dhm_parse_dhmfile( &dhm, opt.dhm_file ) ) != 0 ) { polarssl_printf( " failed\n ! dhm_parse_dhmfile returned -0x%04X\n\n", -ret ); goto exit; } polarssl_printf( " ok\n" ); } #endif #if defined(POLARSSL_SNI) if( opt.sni != NULL ) { polarssl_printf( " . Setting up SNI information..." ); fflush( stdout ); if( ( sni_info = sni_parse( opt.sni ) ) == NULL ) { polarssl_printf( " failed\n" ); goto exit; } polarssl_printf( " ok\n" ); } #endif /* POLARSSL_SNI */ /* * 2. Setup the listening TCP socket */ polarssl_printf( " . Bind on tcp://localhost:%-4d/ ...", opt.server_port ); fflush( stdout ); if( ( ret = net_bind( &listen_fd, opt.server_addr, opt.server_port ) ) != 0 ) { polarssl_printf( " failed\n ! net_bind returned -0x%x\n\n", -ret ); goto exit; } polarssl_printf( " ok\n" ); /* * 3. Setup stuff */ polarssl_printf( " . Setting up the SSL/TLS structure..." ); fflush( stdout ); if( ( ret = ssl_init( &ssl ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_init returned -0x%x\n\n", -ret ); goto exit; } ssl_set_endpoint( &ssl, SSL_IS_SERVER ); ssl_set_authmode( &ssl, opt.auth_mode ); #if defined(POLARSSL_SSL_MAX_FRAGMENT_LENGTH) if( ( ret = ssl_set_max_frag_len( &ssl, opt.mfl_code ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_set_max_frag_len returned %d\n\n", ret ); goto exit; }; #endif #if defined(POLARSSL_SSL_TRUNCATED_HMAC) if( opt.trunc_hmac != DFL_TRUNC_HMAC ) ssl_set_truncated_hmac( &ssl, opt.trunc_hmac ); #endif #if defined(POLARSSL_SSL_EXTENDED_MASTER_SECRET) if( opt.extended_ms != DFL_EXTENDED_MS ) ssl_set_extended_master_secret( &ssl, opt.extended_ms ); #endif #if defined(POLARSSL_SSL_ENCRYPT_THEN_MAC) if( opt.etm != DFL_ETM ) ssl_set_encrypt_then_mac( &ssl, opt.etm ); #endif #if defined(POLARSSL_SSL_ALPN) if( opt.alpn_string != NULL ) if( ( ret = ssl_set_alpn_protocols( &ssl, alpn_list ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_set_alpn_protocols returned %d\n\n", ret ); goto exit; } #endif #if defined(POLARSSL_SSL_SET_CURVES) if( opt.curves != NULL && strcmp( opt.curves, "default" ) != 0 ) { ssl_set_curves( &ssl, curve_list ); } #endif ssl_set_rng( &ssl, ctr_drbg_random, &ctr_drbg ); ssl_set_dbg( &ssl, my_debug, stdout ); #if defined(POLARSSL_SSL_CACHE_C) if( opt.cache_max != -1 ) ssl_cache_set_max_entries( &cache, opt.cache_max ); if( opt.cache_timeout != -1 ) ssl_cache_set_timeout( &cache, opt.cache_timeout ); ssl_set_session_cache( &ssl, ssl_cache_get, &cache, ssl_cache_set, &cache ); #endif #if defined(POLARSSL_SSL_SESSION_TICKETS) if( ( ret = ssl_set_session_tickets( &ssl, opt.tickets ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_set_session_tickets returned %d\n\n", ret ); goto exit; } if( opt.ticket_timeout != -1 ) ssl_set_session_ticket_lifetime( &ssl, opt.ticket_timeout ); #endif if( opt.force_ciphersuite[0] != DFL_FORCE_CIPHER ) ssl_set_ciphersuites( &ssl, opt.force_ciphersuite ); else ssl_set_arc4_support( &ssl, opt.arc4 ); if( opt.version_suites != NULL ) { ssl_set_ciphersuites_for_version( &ssl, version_suites[0], SSL_MAJOR_VERSION_3, SSL_MINOR_VERSION_0 ); ssl_set_ciphersuites_for_version( &ssl, version_suites[1], SSL_MAJOR_VERSION_3, SSL_MINOR_VERSION_1 ); ssl_set_ciphersuites_for_version( &ssl, version_suites[2], SSL_MAJOR_VERSION_3, SSL_MINOR_VERSION_2 ); ssl_set_ciphersuites_for_version( &ssl, version_suites[3], SSL_MAJOR_VERSION_3, SSL_MINOR_VERSION_3 ); } if( opt.allow_legacy != DFL_ALLOW_LEGACY ) ssl_legacy_renegotiation( &ssl, opt.allow_legacy ); #if defined(POLARSSL_SSL_RENEGOTIATION) ssl_set_renegotiation( &ssl, opt.renegotiation ); if( opt.renego_delay != DFL_RENEGO_DELAY ) ssl_set_renegotiation_enforced( &ssl, opt.renego_delay ); if( opt.renego_period != DFL_RENEGO_PERIOD ) { renego_period[7] = opt.renego_period; ssl_set_renegotiation_period( &ssl, renego_period ); } #endif #if defined(POLARSSL_X509_CRT_PARSE_C) if( strcmp( opt.ca_path, "none" ) != 0 && strcmp( opt.ca_file, "none" ) != 0 ) { ssl_set_ca_chain( &ssl, &cacert, NULL, NULL ); } if( key_cert_init ) if( ( ret = ssl_set_own_cert( &ssl, &srvcert, &pkey ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_set_own_cert returned %d\n\n", ret ); goto exit; } if( key_cert_init2 ) if( ( ret = ssl_set_own_cert( &ssl, &srvcert2, &pkey2 ) ) != 0 ) { polarssl_printf( " failed\n ! ssl_set_own_cert returned %d\n\n", ret ); goto exit; } #endif #if defined(POLARSSL_SNI) if( opt.sni != NULL ) ssl_set_sni( &ssl, sni_callback, sni_info ); #endif #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) if( strlen( opt.psk ) != 0 && strlen( opt.psk_identity ) != 0 ) { ret = ssl_set_psk( &ssl, psk, psk_len, (const unsigned char *) opt.psk_identity, strlen( opt.psk_identity ) ); if( ret != 0 ) { polarssl_printf( " failed\n ssl_set_psk returned -0x%04X\n\n", - ret ); goto exit; } } if( opt.psk_list != NULL ) ssl_set_psk_cb( &ssl, psk_callback, psk_info ); #endif #if defined(POLARSSL_DHM_C) /* * Use different group than default DHM group */ #if defined(POLARSSL_FS_IO) if( opt.dhm_file != NULL ) ret = ssl_set_dh_param_ctx( &ssl, &dhm ); else #endif ret = ssl_set_dh_param( &ssl, POLARSSL_DHM_RFC3526_MODP_2048_P, POLARSSL_DHM_RFC3526_MODP_2048_G ); if( ret != 0 ) { polarssl_printf( " failed\n ssl_set_dh_param returned -0x%04X\n\n", - ret ); goto exit; } #endif if( opt.min_version != -1 ) ssl_set_min_version( &ssl, SSL_MAJOR_VERSION_3, opt.min_version ); if( opt.max_version != -1 ) ssl_set_max_version( &ssl, SSL_MAJOR_VERSION_3, opt.max_version ); polarssl_printf( " ok\n" ); reset: #if !defined(_WIN32) if( received_sigterm ) { polarssl_printf( " interrupted by SIGTERM (not in net_accept())\n" ); if( ret == POLARSSL_ERR_NET_RECV_FAILED || ret == POLARSSL_ERR_NET_SEND_FAILED ) { ret = 0; } goto exit; } #endif #ifdef POLARSSL_ERROR_C if( ret != 0 ) { char error_buf[100]; polarssl_strerror( ret, error_buf, 100 ); polarssl_printf("Last error was: %d - %s\n\n", ret, error_buf ); } #endif if( client_fd != -1 ) net_close( client_fd ); ssl_session_reset( &ssl ); /* * 3. Wait until a client connects */ client_fd = -1; polarssl_printf( " . Waiting for a remote connection ..." ); fflush( stdout ); if( ( ret = net_accept( listen_fd, &client_fd, NULL ) ) != 0 ) { #if !defined(_WIN32) if( received_sigterm ) { polarssl_printf( " interrupted by SIGTERM (in net_accept())\n" ); if( ret == POLARSSL_ERR_NET_ACCEPT_FAILED ) ret = 0; goto exit; } #endif polarssl_printf( " failed\n ! net_accept returned -0x%x\n\n", -ret ); goto exit; } if( opt.nbio > 0 ) ret = net_set_nonblock( client_fd ); else ret = net_set_block( client_fd ); if( ret != 0 ) { polarssl_printf( " failed\n ! net_set_(non)block() returned -0x%x\n\n", -ret ); goto exit; } if( opt.nbio == 2 ) ssl_set_bio( &ssl, my_recv, &client_fd, my_send, &client_fd ); else ssl_set_bio( &ssl, net_recv, &client_fd, net_send, &client_fd ); polarssl_printf( " ok\n" ); /* * 4. Handshake */ polarssl_printf( " . Performing the SSL/TLS handshake..." ); fflush( stdout ); while( ( ret = ssl_handshake( &ssl ) ) != 0 ) { if( ret != POLARSSL_ERR_NET_WANT_READ && ret != POLARSSL_ERR_NET_WANT_WRITE ) { polarssl_printf( " failed\n ! ssl_handshake returned -0x%x\n\n", -ret ); goto reset; } } polarssl_printf( " ok\n [ Protocol is %s ]\n [ Ciphersuite is %s ]\n", ssl_get_version( &ssl ), ssl_get_ciphersuite( &ssl ) ); #if defined(POLARSSL_SSL_ALPN) if( opt.alpn_string != NULL ) { const char *alp = ssl_get_alpn_protocol( &ssl ); polarssl_printf( " [ Application Layer Protocol is %s ]\n", alp ? alp : "(none)" ); } #endif #if defined(POLARSSL_X509_CRT_PARSE_C) /* * 5. Verify the client certificate */ polarssl_printf( " . Verifying peer X.509 certificate..." ); if( ( ret = ssl_get_verify_result( &ssl ) ) != 0 ) { char vrfy_buf[512]; polarssl_printf( " failed\n" ); x509_crt_verify_info( vrfy_buf, sizeof( vrfy_buf ), " ! ", ret ); polarssl_printf( "%s\n", vrfy_buf ); } else polarssl_printf( " ok\n" ); if( ssl_get_peer_cert( &ssl ) ) { polarssl_printf( " . Peer certificate information ...\n" ); x509_crt_info( (char *) buf, sizeof( buf ) - 1, " ", ssl_get_peer_cert( &ssl ) ); polarssl_printf( "%s\n", buf ); } #endif /* POLARSSL_X509_CRT_PARSE_C */ exchanges_left = opt.exchanges; data_exchange: /* * 6. Read the HTTP Request */ polarssl_printf( " < Read from client:" ); fflush( stdout ); do { int terminated = 0; len = sizeof( buf ) - 1; memset( buf, 0, sizeof( buf ) ); ret = ssl_read( &ssl, buf, len ); if( ret == POLARSSL_ERR_NET_WANT_READ || ret == POLARSSL_ERR_NET_WANT_WRITE ) continue; if( ret <= 0 ) { switch( ret ) { case POLARSSL_ERR_SSL_PEER_CLOSE_NOTIFY: polarssl_printf( " connection was closed gracefully\n" ); goto close_notify; case 0: case POLARSSL_ERR_NET_CONN_RESET: polarssl_printf( " connection was reset by peer\n" ); ret = POLARSSL_ERR_NET_CONN_RESET; goto reset; default: polarssl_printf( " ssl_read returned -0x%x\n", -ret ); goto reset; } } if( ssl_get_bytes_avail( &ssl ) == 0 ) { len = ret; buf[len] = '\0'; polarssl_printf( " %d bytes read\n\n%s\n", len, (char *) buf ); /* End of message should be detected according to the syntax of the * application protocol (eg HTTP), just use a dummy test here. */ if( buf[len - 1] == '\n' ) terminated = 1; } else { int extra_len, ori_len; unsigned char *larger_buf; ori_len = ret; extra_len = (int) ssl_get_bytes_avail( &ssl ); larger_buf = polarssl_malloc( ori_len + extra_len + 1 ); if( larger_buf == NULL ) { polarssl_printf( " ! memory allocation failed\n" ); ret = 1; goto reset; } memset( larger_buf, 0, ori_len + extra_len ); memcpy( larger_buf, buf, ori_len ); /* This read should never fail and get the whole cached data */ ret = ssl_read( &ssl, larger_buf + ori_len, extra_len ); if( ret != extra_len || ssl_get_bytes_avail( &ssl ) != 0 ) { polarssl_printf( " ! ssl_read failed on cached data\n" ); ret = 1; goto reset; } larger_buf[ori_len + extra_len] = '\0'; polarssl_printf( " %u bytes read (%u + %u)\n\n%s\n", ori_len + extra_len, ori_len, extra_len, (char *) larger_buf ); /* End of message should be detected according to the syntax of the * application protocol (eg HTTP), just use a dummy test here. */ if( larger_buf[ori_len + extra_len - 1] == '\n' ) terminated = 1; polarssl_free( larger_buf ); } if( terminated ) { ret = 0; break; } } while( 1 ); /* * 7a. Request renegotiation while client is waiting for input from us. * (only if we're going to exhange more data afterwards) */ #if defined(POLARSSL_SSL_RENEGOTIATION) if( opt.renegotiate && exchanges_left > 1 ) { polarssl_printf( " . Requestion renegotiation..." ); fflush( stdout ); while( ( ret = ssl_renegotiate( &ssl ) ) != 0 ) { if( ret != POLARSSL_ERR_NET_WANT_READ && ret != POLARSSL_ERR_NET_WANT_WRITE ) { polarssl_printf( " failed\n ! ssl_renegotiate returned %d\n\n", ret ); goto reset; } } polarssl_printf( " ok\n" ); } #endif /* POLARSSL_SSL_RENEGOTIATION */ /* * 7. Write the 200 Response */ polarssl_printf( " > Write to client:" ); fflush( stdout ); len = sprintf( (char *) buf, HTTP_RESPONSE, ssl_get_ciphersuite( &ssl ) ); for( written = 0, frags = 0; written < len; written += ret, frags++ ) { while( ( ret = ssl_write( &ssl, buf + written, len - written ) ) <= 0 ) { if( ret == POLARSSL_ERR_NET_CONN_RESET ) { polarssl_printf( " failed\n ! peer closed the connection\n\n" ); goto reset; } if( ret != POLARSSL_ERR_NET_WANT_READ && ret != POLARSSL_ERR_NET_WANT_WRITE ) { polarssl_printf( " failed\n ! ssl_write returned %d\n\n", ret ); goto reset; } } } buf[written] = '\0'; polarssl_printf( " %d bytes written in %d fragments\n\n%s\n", written, frags, (char *) buf ); ret = 0; /* * 7b. Continue doing data exchanges? */ if( --exchanges_left > 0 ) goto data_exchange; /* * 8. Done, cleanly close the connection */ close_notify: polarssl_printf( " . Closing the connection..." ); /* No error checking, the connection might be closed already */ do ret = ssl_close_notify( &ssl ); while( ret == POLARSSL_ERR_NET_WANT_WRITE ); ret = 0; polarssl_printf( " done\n" ); goto reset; /* * Cleanup and exit */ exit: #ifdef POLARSSL_ERROR_C if( ret != 0 ) { char error_buf[100]; polarssl_strerror( ret, error_buf, 100 ); polarssl_printf("Last error was: -0x%X - %s\n\n", -ret, error_buf ); } #endif polarssl_printf( " . Cleaning up..." ); fflush( stdout ); if( client_fd != -1 ) net_close( client_fd ); #if defined(POLARSSL_DHM_C) && defined(POLARSSL_FS_IO) dhm_free( &dhm ); #endif #if defined(POLARSSL_X509_CRT_PARSE_C) x509_crt_free( &cacert ); x509_crt_free( &srvcert ); pk_free( &pkey ); x509_crt_free( &srvcert2 ); pk_free( &pkey2 ); #endif #if defined(POLARSSL_SNI) sni_free( sni_info ); #endif #if defined(POLARSSL_KEY_EXCHANGE__SOME__PSK_ENABLED) psk_free( psk_info ); #endif #if defined(POLARSSL_DHM_C) && defined(POLARSSL_FS_IO) dhm_free( &dhm ); #endif ssl_free( &ssl ); ctr_drbg_free( &ctr_drbg ); entropy_free( &entropy ); #if defined(POLARSSL_SSL_CACHE_C) ssl_cache_free( &cache ); #endif #if defined(POLARSSL_MEMORY_BUFFER_ALLOC_C) #if defined(POLARSSL_MEMORY_DEBUG) memory_buffer_alloc_status(); #endif memory_buffer_alloc_free(); #endif polarssl_printf( " done.\n" ); #if defined(_WIN32) polarssl_printf( " + Press Enter to exit this program.\n" ); fflush( stdout ); getchar(); #endif // Shell can not handle large exit numbers -> 1 for errors if( ret < 0 ) ret = 1; return( ret ); } #endif /* POLARSSL_BIGNUM_C && POLARSSL_ENTROPY_C && POLARSSL_SSL_TLS_C && POLARSSL_SSL_SRV_C && POLARSSL_NET_C && POLARSSL_RSA_C && POLARSSL_CTR_DRBG_C */