mongoose/examples/ws_ssl/ws_ssl.c

// 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) {
  ssl_wrapper_serve(&((struct config *) param)->c, &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;
}
ws_ssl example 2014-08-03 19:40:10 +08:00			`// 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) {`
			`ssl_wrapper_serve(&((struct config *) param)->c, &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;`
			`}`