/* * Copyright 2014-2026 The GmSSL Project. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * * http://www.apache.org/licenses/LICENSE-2.0 */ #include #include #include #include #include #include #include #include static const char *options = "[-port num] -cert file -key file -pass str [-cacert file]"; static const char *help = "Options\n" "\n" " -port num Listening port number, default 443\n" " -cipher_suite str Supported cipher suites, may appear multiple times, higher priority first\n" " -supported_group str Supported elliptic curves, may appear multiple times, higher priority first\n" " -sig_alg str Supported signature algorithms\n" " -cert file Server's certificate chain in PEM format\n" " -key file Server's encrypted private key in PEM format\n" " -pass str Password to decrypt private key\n" " -cert_request Client certificate request\n" " -cacert file CA certificate for client certificate verification\n" " -verify_depth num Certificate verification depth\n" " -client_cert_optional Allow client send empty Certificate\n" "\n" #include "tls12_help.h" "\n"; int tls12_server_main(int argc , char **argv) { int ret = 1; char *prog = argv[0]; int port = 443; int cipher_suites[4]; size_t cipher_suites_cnt = 0; int supported_groups[4]; size_t supported_groups_cnt = 0; int sig_algs[4]; size_t sig_algs_cnt = 0; char *certfiles[4]; size_t certfiles_cnt = 0; char *keyfiles[sizeof(certfiles)/sizeof(certfiles[0])]; size_t keyfiles_cnt = 0; char *passes[sizeof(certfiles)/sizeof(certfiles[0])]; size_t passes_cnt = 0; int cert_request = 0; char *cacertfile = NULL; int verify_depth = TLS_DEFAULT_VERIFY_DEPTH; int client_cert_optional = 0; TLS_CTX ctx; TLS_CONNECT conn; char buf[1600] = {0}; size_t len = sizeof(buf); tls_socket_t sock; tls_socket_t conn_sock; struct sockaddr_in server_addr; struct sockaddr_in client_addr; size_t i; argc--; argv++; if (argc < 1) { fprintf(stderr, "usage: %s %s\n", prog, options); return 1; } while (argc > 0) { if (!strcmp(*argv, "-help")) { printf("usage: %s %s\n", prog, options); printf("%s\n", help); return 0; } else if (!strcmp(*argv, "-port")) { if (--argc < 1) goto bad; port = atoi(*(++argv)); } else if (!strcmp(*argv, "-cipher_suite")) { char *cipher_suite_name; int cipher_suite; if (cipher_suites_cnt >= sizeof(cipher_suites)/sizeof(cipher_suites[0])) { fprintf(stderr, "%s: too many -cipher_suite options\n", prog); return -1; } if (--argc < 1) goto bad; cipher_suite_name = *(++argv); if ((cipher_suite = tls_cipher_suite_from_name(cipher_suite_name)) == 0) { fprintf(stderr, "%s: invalid -cipher_suite '%s' value\n", prog, cipher_suite_name); return -1; } cipher_suites[cipher_suites_cnt] = cipher_suite; cipher_suites_cnt++; } else if (!strcmp(*argv, "-supported_group")) { char *supported_group_name; int supported_group; if (supported_groups_cnt >= sizeof(supported_groups)/sizeof(supported_groups[0])) { fprintf(stderr, "%s: too many -supported_group options\n", prog); return -1; } if (--argc < 1) goto bad; supported_group_name = *(++argv); if ((supported_group = tls_named_curve_from_name(supported_group_name)) == 0) { fprintf(stderr, "%s: -supported_group '%s' not supported\n", prog, supported_group_name); return -1; } supported_groups[supported_groups_cnt++] = supported_group; } else if (!strcmp(*argv, "-sig_alg")) { char *sig_alg_name; int sig_alg; if (sig_algs_cnt >= sizeof(sig_algs)/sizeof(sig_algs[0])) { fprintf(stderr, "%s: too many -sig_alg options\n", prog); return -1; } if (--argc < 1) goto bad; sig_alg_name = *(++argv); if ((sig_alg = tls_signature_scheme_from_name(sig_alg_name)) == 0) { fprintf(stderr, "%s: -sig_alg '%s' not supported\n", prog, sig_alg_name); return -1; } sig_algs[sig_algs_cnt++] = sig_alg; } else if (!strcmp(*argv, "-cert")) { if (certfiles_cnt >= sizeof(certfiles)/sizeof(certfiles[0])) { fprintf(stderr, "%s: too many -cert options\n", prog); return -1; } if (--argc < 1) goto bad; certfiles[certfiles_cnt++] = *(++argv); } else if (!strcmp(*argv, "-key")) { if (keyfiles_cnt >= sizeof(keyfiles)/sizeof(keyfiles[0])) { fprintf(stderr, "%s: too many -key options\n", prog); return -1; } if (--argc < 1) goto bad; keyfiles[keyfiles_cnt++] = *(++argv); } else if (!strcmp(*argv, "-pass")) { if (passes_cnt >= sizeof(passes)/sizeof(passes[0])) { fprintf(stderr, "%s: too many -pass options\n", prog); return -1; } if (--argc < 1) goto bad; passes[passes_cnt++] = *(++argv); } else if (!strcmp(*argv, "-cert_request")) { cert_request = 1; } else if (!strcmp(*argv, "-cacert")) { if (--argc < 1) goto bad; cacertfile = *(++argv); } else if (!strcmp(*argv, "-verify_depth")) { if (--argc < 1) goto bad; verify_depth = atoi(*(++argv)); if (verify_depth < 1) { fprintf(stderr, "%s: invalid -verify_depth value '%d'\n", prog, verify_depth); return -1; } } else if (!strcmp(*argv, "-client_cert_optional")) { client_cert_optional = 1; } else { fprintf(stderr, "%s: invalid option '%s'\n", prog, *argv); return 1; bad: fprintf(stderr, "%s: option '%s' argument required\n", prog, *argv); return 1; } argc--; argv++; } if (!certfiles_cnt) { fprintf(stderr, "%s: '-cert' option required\n", prog); return 1; } if (!keyfiles_cnt) { fprintf(stderr, "%s: '-key' option required\n", prog); return 1; } if (!passes_cnt) { fprintf(stderr, "%s: '-pass' option required\n", prog); return 1; } if (certfiles_cnt != keyfiles_cnt || keyfiles_cnt != passes_cnt) { error_print(); return -1; } if (tls_socket_lib_init() != 1) { error_print(); return -1; } if (tls_ctx_init(&ctx, TLS_protocol_tls12, TLS_server_mode) != 1) { error_print(); return -1; } if (tls_ctx_set_cipher_suites(&ctx, cipher_suites, cipher_suites_cnt) != 1) { fprintf(stderr, "%s: context init error\n", prog); goto end; } // supported_groups if (supported_groups_cnt > 0) { if (tls_ctx_set_supported_groups(&ctx, supported_groups, supported_groups_cnt) != 1) { error_print(); goto end; } } // signature_algorithms if (sig_algs_cnt > 0) { if (tls_ctx_set_signature_algorithms(&ctx, sig_algs, sig_algs_cnt) != 1) { error_print(); goto end; } } // Certificate for (i = 0; i < certfiles_cnt; i++) { if (tls_ctx_add_certificate_chain_and_key(&ctx, certfiles[i], keyfiles[i], passes[i]) != 1) { error_print(); goto end;; } } // CertificateRequest if (cert_request) { if (!cacertfile) { fprintf(stderr, "%s: -cacert required by -cert_request\n", prog); goto end; } if (tls_ctx_set_ca_certificates(&ctx, cacertfile, verify_depth) != 1) { error_print(); goto end; } if (tls_ctx_enable_certificate_request(&ctx, 1) != 1) { error_print(); goto end; } if (client_cert_optional) { if (tls13_ctx_enable_client_certificate_optional(&ctx, 1) != 1) { error_print(); goto end; } } } if (tls_socket_create(&sock, AF_INET, SOCK_STREAM, 0) != 1) { fprintf(stderr, "%s: create socket error\n", prog); goto end; } server_addr.sin_family = AF_INET; server_addr.sin_addr.s_addr = INADDR_ANY; server_addr.sin_port = htons(port); if (tls_socket_bind(sock, &server_addr) != 1) { fprintf(stderr, "%s: socket bind error\n", prog); goto end; } puts("start listen ...\n"); tls_socket_listen(sock, 1); restart: //client_addrlen = sizeof(client_addr); if (tls_socket_accept(sock, &client_addr, &conn_sock) != 1) { fprintf(stderr, "%s: socket accept error\n", prog); goto end; } puts("socket connected\n"); if (tls_init(&conn, &ctx) != 1) { error_print(); goto end; } if (tls_set_socket(&conn, conn_sock) != 1) { error_print(); goto end; } if (tls_do_handshake(&conn) != 1) { error_print(); goto end; } for (;;) { int rv; size_t sentlen; do { len = sizeof(buf); if ((rv = tls_recv(&conn, (uint8_t *)buf, sizeof(buf), &len)) != 1) { if (rv < 0) fprintf(stderr, "%s: recv failure\n", prog); else fprintf(stderr, "%s: Disconnected by remote\n", prog); //tls_socket_close(conn.sock); // FIXME: tls_cleanup(&conn); goto restart; } } while (!len); if (tls_send(&conn, (uint8_t *)buf, len, &sentlen) != 1) { fprintf(stderr, "%s: send failure, close connection\n", prog); tls_socket_close(conn.sock); goto end; } } end: return ret; }