/* * A WebSocket to TCP socket proxy with support for "wss://" encryption. * Copyright 2010 Joel Martin * Licensed under LGPL version 3 (see docs/LICENSE.LGPL-3) * * You can make a cert/key with openssl using: * openssl req -new -x509 -days 365 -nodes -out self.pem -keyout self.pem * as taken from http://docs.python.org/dev/library/ssl.html#certificates */ #include #include #include #include #include #include #include #include #include #include #include "websocket.h" char traffic_legend[] = "\n\ Traffic Legend:\n\ } - Client receive\n\ }. - Client receive partial\n\ { - Target receive\n\ \n\ > - Target send\n\ >. - Target send partial\n\ < - Client send\n\ <. - Client send partial\n\ "; char USAGE[] = "Usage: [options] " \ "[source_addr:]source_port target_addr:target_port\n\n" \ " --verbose|-v verbose messages and per frame traffic\n" \ " --daemon|-D become a daemon (background process)\n" \ " --cert CERT SSL certificate file\n" \ " --key KEY SSL key file (if separate from cert)\n" \ " --ssl-only disallow non-encrypted connections"; #define usage(fmt, args...) \ fprintf(stderr, "%s\n\n", USAGE); \ fprintf(stderr, fmt , ## args); \ exit(1); char target_host[256]; int target_port; extern pipe_error; extern settings_t settings; extern char *tbuf, *cbuf, *tbuf_tmp, *cbuf_tmp; extern unsigned int bufsize, dbufsize; void do_proxy(ws_ctx_t *ws_ctx, int target) { fd_set rlist, wlist, elist; struct timeval tv; int i, maxfd, client = ws_ctx->sockfd; unsigned int tstart, tend, cstart, cend, ret; ssize_t len, bytes; tstart = tend = cstart = cend = 0; maxfd = client > target ? client+1 : target+1; while (1) { tv.tv_sec = 1; tv.tv_usec = 0; FD_ZERO(&rlist); FD_ZERO(&wlist); FD_ZERO(&elist); FD_SET(client, &elist); FD_SET(target, &elist); if (tend == tstart) { // Nothing queued for target, so read from client FD_SET(client, &rlist); } else { // Data queued for target, so write to it FD_SET(target, &wlist); } if (cend == cstart) { // Nothing queued for client, so read from target FD_SET(target, &rlist); } else { // Data queued for client, so write to it FD_SET(client, &wlist); } ret = select(maxfd, &rlist, &wlist, &elist, &tv); if (pipe_error) { break; } if (FD_ISSET(target, &elist)) { handler_emsg("target exception\n"); break; } if (FD_ISSET(client, &elist)) { handler_emsg("client exception\n"); break; } if (ret == -1) { handler_emsg("select(): %s\n", strerror(errno)); break; } else if (ret == 0) { //handler_emsg("select timeout\n"); continue; } if (FD_ISSET(target, &wlist)) { len = tend-tstart; bytes = send(target, tbuf + tstart, len, 0); if (pipe_error) { break; } if (bytes < 0) { handler_emsg("target connection error: %s\n", strerror(errno)); break; } tstart += bytes; if (tstart >= tend) { tstart = tend = 0; traffic(">"); } else { traffic(">."); } } if (FD_ISSET(client, &wlist)) { len = cend-cstart; bytes = ws_send(ws_ctx, cbuf + cstart, len); if (pipe_error) { break; } if (len < 3) { handler_emsg("len: %d, bytes: %d: %d\n", len, bytes, *(cbuf + cstart)); } cstart += bytes; if (cstart >= cend) { cstart = cend = 0; traffic("<"); } else { traffic("<."); } } if (FD_ISSET(target, &rlist)) { bytes = recv(target, cbuf_tmp, dbufsize , 0); if (pipe_error) { break; } if (bytes <= 0) { handler_emsg("target closed connection\n"); break; } cstart = 0; cend = encode(cbuf_tmp, bytes, cbuf, bufsize); /* printf("encoded: "); for (i=0; i< cend; i++) { printf("%u,", (unsigned char) *(cbuf+i)); } printf("\n"); */ if (cend < 0) { handler_emsg("encoding error\n"); break; } traffic("{"); } if (FD_ISSET(client, &rlist)) { bytes = ws_recv(ws_ctx, tbuf_tmp, bufsize-1); if (pipe_error) { break; } if (bytes <= 0) { handler_emsg("client closed connection\n"); break; } else if ((bytes == 2) && (tbuf_tmp[0] == '\xff') && (tbuf_tmp[1] == '\x00')) { handler_emsg("client sent orderly close frame\n"); break; } /* printf("before decode: "); for (i=0; i< bytes; i++) { printf("%u,", (unsigned char) *(tbuf_tmp+i)); } printf("\n"); */ len = decode(tbuf_tmp, bytes, tbuf, bufsize-1); /* printf("decoded: "); for (i=0; i< len; i++) { printf("%u,", (unsigned char) *(tbuf+i)); } printf("\n"); */ if (len < 0) { handler_emsg("decoding error\n"); break; } traffic("}"); tstart = 0; tend = len; } } } void proxy_handler(ws_ctx_t *ws_ctx) { int tsock = 0; struct sockaddr_in taddr; handler_msg("connecting to: %s:%d\n", target_host, target_port); tsock = socket(AF_INET, SOCK_STREAM, 0); if (tsock < 0) { handler_emsg("Could not create target socket: %s\n", strerror(errno)); return; } bzero((char *) &taddr, sizeof(taddr)); taddr.sin_family = AF_INET; taddr.sin_port = htons(target_port); /* Resolve target address */ if (resolve_host(&taddr.sin_addr, target_host) < -1) { handler_emsg("Could not resolve target address: %s\n", strerror(errno)); } if (connect(tsock, (struct sockaddr *) &taddr, sizeof(taddr)) < 0) { handler_emsg("Could not connect to target: %s\n", strerror(errno)); close(tsock); return; } if ((settings.verbose) && (! settings.daemon)) { printf("%s", traffic_legend); } do_proxy(ws_ctx, tsock); close(tsock); } int main(int argc, char *argv[]) { int fd, c, option_index = 0; static int ssl_only = 0, daemon = 0, verbose = 0; char *found; static struct option long_options[] = { {"verbose", no_argument, &verbose, 'v'}, {"ssl-only", no_argument, &ssl_only, 1 }, {"daemon", no_argument, &daemon, 'D'}, /* ---- */ {"cert", required_argument, 0, 'c'}, {"key", required_argument, 0, 'k'}, {0, 0, 0, 0} }; settings.cert = realpath("self.pem", NULL); if (!settings.cert) { /* Make sure it's always set to something */ settings.cert = "self.pem"; } settings.key = ""; while (1) { c = getopt_long (argc, argv, "vDc:k:", long_options, &option_index); /* Detect the end */ if (c == -1) { break; } switch (c) { case 0: break; // ignore case 1: break; // ignore case 'v': verbose = 1; break; case 'D': daemon = 1; break; case 'c': settings.cert = realpath(optarg, NULL); if (! settings.cert) { usage("No cert file at %s\n", optarg); } break; case 'k': settings.key = realpath(optarg, NULL); if (! settings.key) { usage("No key file at %s\n", optarg); } break; default: usage(""); } } settings.verbose = verbose; settings.ssl_only = ssl_only; settings.daemon = daemon; if ((argc-optind) != 2) { usage("Invalid number of arguments\n"); } found = strstr(argv[optind], ":"); if (found) { memcpy(settings.listen_host, argv[optind], found-argv[optind]); settings.listen_port = strtol(found+1, NULL, 10); } else { settings.listen_host[0] = '\0'; settings.listen_port = strtol(argv[optind], NULL, 10); } optind++; if (settings.listen_port == 0) { usage("Could not parse listen_port\n"); } found = strstr(argv[optind], ":"); if (found) { memcpy(target_host, argv[optind], found-argv[optind]); target_port = strtol(found+1, NULL, 10); } else { usage("Target argument must be host:port\n"); } if (target_port == 0) { usage("Could not parse target port\n"); } if (ssl_only) { if (!access(settings.cert, R_OK)) { usage("SSL only and cert file '%s' not found\n", settings.cert); } } else if (access(settings.cert, R_OK) != 0) { fprintf(stderr, "Warning: '%s' not found\n", settings.cert); } //printf(" verbose: %d\n", settings.verbose); //printf(" ssl_only: %d\n", settings.ssl_only); //printf(" daemon: %d\n", settings.daemon); //printf(" cert: %s\n", settings.cert); //printf(" key: %s\n", settings.key); settings.handler = proxy_handler; start_server(); free(tbuf); free(cbuf); free(tbuf_tmp); free(cbuf_tmp); }