// Copyright (c) 2014 Cesanta Software // All rights reserved // // This example demostrates proxying of WebSocket traffic, regardless of the // protocol (ws:// or wss://). // To use this example: // 1. configure your browser to use a proxy on port 2014 // 2. import certs/ws1_ca.pem and certs/ws2_ca.pem into the trusted // certificates list on your browser // 3. make && ./ws_ssl // 4. Point your browser to http://ws_ssl.com // A page with 4 sections should appear, showing websocket echoes #include "net_skeleton.h" #include "mongoose.h" #include "ssl_wrapper.h" struct config { const char *requested_host; // Host name that client uses struct ssl_wrapper_config c; }; static struct config s_wrappers[] = { {"ws1", {"127.0.0.1", 9001, 0, NULL, "7001", NULL, ""}}, {"ws1", {"127.0.0.1", 9001, 0, NULL, "7002", "certs/ws1_server.pem", ""}}, {"ws2", {"127.0.0.1", 9002, 1, NULL, "7003", NULL, ""}}, {"ws2", {"127.0.0.1", 9002, 1, NULL, "7004", "certs/ws2_server.pem", ""}} }; static int s_received_signal = 0; static void signal_handler(int sig_num) { signal(sig_num, signal_handler); s_received_signal = sig_num; } static int ev_handler(struct mg_connection *conn, enum mg_event ev) { switch (ev) { case MG_AUTH: return MG_TRUE; case MG_REQUEST: printf("==> [%s] [%s]\n", conn->request_method, conn->uri); if (strcmp(conn->request_method, "CONNECT") == 0) { char host[1025] = ""; int i, is_ssl, port = 0; sscanf(conn->uri, "%1024[^:]:%d", host, &port); is_ssl = (port == 443 ? 1 : 0); // Iterate over existing wrapper, see if we can use one of them for (i = 0; i < (int) ARRAY_SIZE(s_wrappers); i++) { if (strcmp(host, s_wrappers[i].requested_host) == 0 && is_ssl == (s_wrappers[i].c.ssl_cert == NULL ? 0 : 1)) { // Found usable wrapper, tunnel to it. mg_forward(conn, "127.0.0.1", atoi(s_wrappers[i].c.listening_port), 0); return MG_MORE; } } // No suitable wrappers found. Disallow that CONNECT request. mg_send_status(conn, 405); return MG_TRUE; } // Not a CONNECT request, serve HTML file. mg_send_file(conn, "ws_ssl.html"); return MG_MORE; default: return MG_FALSE; } } static int ws_handler(struct mg_connection *conn, enum mg_event ev) { switch (ev) { case MG_AUTH: return MG_TRUE; case MG_REQUEST: if (conn->is_websocket) { // Simple websocket echo server mg_websocket_write(conn, WEBSOCKET_OPCODE_TEXT, conn->content, conn->content_len); } else { mg_printf_data(conn, "%s", "websocket connection expected"); } return MG_TRUE; default: return MG_FALSE; } } static void *serve_thread_func(void *param) { struct mg_server *server = (struct mg_server *) param; printf("Listening on port %s\n", mg_get_option(server, "listening_port")); while (s_received_signal == 0) { mg_poll_server(server, 1000); } mg_destroy_server(&server); return NULL; } static void *wrapper_thread_func(void *param) { struct ssl_wrapper_config *cfg = &((struct config *) param)->c; const char *err_msg; void *wrapper; if ((wrapper = ssl_wrapper_init(cfg, &err_msg)) == NULL) { fprintf(stderr, "Error: %s\n", err_msg); exit(EXIT_FAILURE); } ssl_wrapper_serve(wrapper, &s_received_signal); return NULL; } int main(void) { struct mg_server *proxy_server = mg_create_server(NULL, ev_handler); struct mg_server *ws1_server = mg_create_server(NULL, ws_handler); struct mg_server *ws2_server = mg_create_server(NULL, ws_handler); size_t i; // Configure proxy server to listen on port 2014 mg_set_option(proxy_server, "listening_port", "2014"); //mg_set_option(proxy_server, "enable_proxy", "yes"); // Configure two websocket echo servers: // ws1 is WS, listening on 9001 // ws2 is WSS, listening on 9002 // Note that HTML page thinks that ws1 is WSS, and ws2 is WS, // where in reality it is vice versa and proxy server makes the decision. mg_set_option(ws1_server, "listening_port", "9001"); mg_set_option(ws2_server, "listening_port", "9002"); mg_set_option(ws2_server, "ssl_certificate", "certs/ws2_server.pem"); // Setup signal handlers signal(SIGTERM, signal_handler); signal(SIGINT, signal_handler); // Start SSL wrappers, each in it's own thread for (i = 0; i < ARRAY_SIZE(s_wrappers); i++) { ns_start_thread(wrapper_thread_func, &s_wrappers[i]); } // Start websocket servers in separate threads mg_start_thread(serve_thread_func, ws1_server); mg_start_thread(serve_thread_func, ws2_server); // Finally, start proxy server in this thread: this call blocks serve_thread_func(proxy_server); printf("Existing on signal %d\n", s_received_signal); return EXIT_SUCCESS; }