/* Copyright 2001,2002 Roger Dingledine, Matej Pfajfar. */ /* See LICENSE for licensing information */ /* $Id$ */ #include "or.h" /********* START PROTOTYPES **********/ static void dumpstats(void); /* dump stats to stdout */ /********* START VARIABLES **********/ extern char *conn_type_to_string[]; extern char *conn_state_to_string[][_CONN_TYPE_MAX+1]; or_options_t options; /* command-line and config-file options */ int global_read_bucket; /* max number of bytes I can read this second */ static int stats_prev_global_read_bucket; static uint64_t stats_n_bytes_read = 0; static long stats_n_seconds_reading = 0; static connection_t *connection_array[MAXCONNECTIONS] = { NULL }; static struct pollfd poll_array[MAXCONNECTIONS]; static int nfds=0; /* number of connections currently active */ #ifndef MS_WINDOWS /* do signal stuff only on unix */ static int please_dumpstats=0; /* whether we should dump stats during the loop */ static int please_reset =0; /* whether we just got a sighup */ static int please_reap_children=0; /* whether we should waitpid for exited children*/ #endif /* signal stuff */ /* private keys */ static crypto_pk_env_t *onionkey=NULL; static crypto_pk_env_t *linkkey=NULL; static crypto_pk_env_t *identitykey=NULL; /********* END VARIABLES ************/ void set_onion_key(crypto_pk_env_t *k) { onionkey = k; } crypto_pk_env_t *get_onion_key(void) { assert(onionkey); return onionkey; } void set_link_key(crypto_pk_env_t *k) { linkkey = k; } crypto_pk_env_t *get_link_key(void) { assert(linkkey); return linkkey; } void set_identity_key(crypto_pk_env_t *k) { identitykey = k; } crypto_pk_env_t *get_identity_key(void) { assert(identitykey); return identitykey; } /**************************************************************************** * * This section contains accessors and other methods on the connection_array * and poll_array variables (which are global within this file and unavailable * outside it). * ****************************************************************************/ int connection_add(connection_t *conn) { if(nfds >= options.MaxConn-1) { log(LOG_WARNING,"connection_add(): failing because nfds is too high."); return -1; } conn->poll_index = nfds; connection_set_poll_socket(conn); connection_array[nfds] = conn; /* zero these out here, because otherwise we'll inherit values from the previously freed one */ poll_array[nfds].events = 0; poll_array[nfds].revents = 0; nfds++; log(LOG_INFO,"connection_add(): new conn type %d, socket %d, nfds %d.",conn->type, conn->s, nfds); return 0; } void connection_set_poll_socket(connection_t *conn) { poll_array[conn->poll_index].fd = conn->s; } int connection_remove(connection_t *conn) { int current_index; assert(conn); assert(nfds>0); log(LOG_INFO,"connection_remove(): removing socket %d, nfds now %d",conn->s, nfds-1); circuit_about_to_close_connection(conn); /* if it's an edge conn, remove it from the list * of conn's on this circuit. If it's not on an edge, * flush and send destroys for all circuits on this conn */ current_index = conn->poll_index; if(current_index == nfds-1) { /* this is the end */ nfds--; return 0; } /* we replace this one with the one at the end, then free it */ nfds--; poll_array[current_index].fd = poll_array[nfds].fd; poll_array[current_index].events = poll_array[nfds].events; poll_array[current_index].revents = poll_array[nfds].revents; connection_array[current_index] = connection_array[nfds]; connection_array[current_index]->poll_index = current_index; return 0; } void get_connection_array(connection_t ***array, int *n) { *array = connection_array; *n = nfds; } void connection_watch_events(connection_t *conn, short events) { assert(conn && conn->poll_index < nfds); poll_array[conn->poll_index].events = events; } int connection_is_reading(connection_t *conn) { return poll_array[conn->poll_index].events & POLLIN; } void connection_stop_reading(connection_t *conn) { assert(conn && conn->poll_index < nfds); log(LOG_DEBUG,"connection_stop_reading() called."); if(poll_array[conn->poll_index].events & POLLIN) poll_array[conn->poll_index].events -= POLLIN; } void connection_start_reading(connection_t *conn) { assert(conn && conn->poll_index < nfds); poll_array[conn->poll_index].events |= POLLIN; } void connection_stop_writing(connection_t *conn) { assert(conn && conn->poll_index < nfds); if(poll_array[conn->poll_index].events & POLLOUT) poll_array[conn->poll_index].events -= POLLOUT; } void connection_start_writing(connection_t *conn) { assert(conn && conn->poll_index < nfds); poll_array[conn->poll_index].events |= POLLOUT; } static void conn_read(int i) { connection_t *conn = connection_array[i]; /* see http://www.greenend.org.uk/rjk/2001/06/poll.html for * discussion of POLLIN vs POLLHUP */ if(!(poll_array[i].revents & (POLLIN|POLLHUP|POLLERR))) if(!connection_speaks_cells(conn) || conn->state != OR_CONN_STATE_OPEN || !connection_is_reading(conn) || !tor_tls_get_pending_bytes(conn->tls)) return; /* this conn should not read */ log_fn(LOG_DEBUG,"socket %d wants to read.",conn->s); assert_connection_ok(conn, time(NULL)); if( /* XXX does POLLHUP also mean it's definitely broken? */ #ifdef MS_WINDOWS (poll_array[i].revents & POLLERR) || #endif connection_handle_read(conn) < 0) { /* this connection is broken. remove it */ log_fn(LOG_INFO,"%s connection broken, removing.", conn_type_to_string[conn->type]); connection_remove(conn); connection_free(conn); if(is); assert_connection_ok(conn, time(NULL)); if(connection_handle_write(conn) < 0) { /* this connection is broken. remove it. */ log_fn(LOG_INFO,"%s connection broken, removing.", conn_type_to_string[conn->type]); connection_remove(conn); connection_free(conn); if(imarked_for_close) { log_fn(LOG_INFO,"Cleaning up connection (fd %d).",conn->s); if(conn->s >= 0) { /* might be an incomplete edge connection */ /* FIXME there's got to be a better way to check for this -- and make other checks? */ if(connection_speaks_cells(conn)) { if(conn->state == OR_CONN_STATE_OPEN) flush_buf_tls(conn->tls, conn->outbuf, &conn->outbuf_flushlen); } else { flush_buf(conn->s, conn->outbuf, &conn->outbuf_flushlen); } if(connection_wants_to_flush(conn)) /* not done flushing */ log_fn(LOG_WARNING,"Conn (socket %d) still wants to flush. Losing %d bytes!",conn->s, (int)buf_datalen(conn->inbuf)); } connection_remove(conn); connection_free(conn); if(i current_second) { /* the second has rolled over. check more stuff. */ ++stats_n_seconds_reading; if(time_to_fetch_directory < now.tv_sec) { /* it's time to fetch a new directory and/or post our descriptor */ if(options.OnionRouter) { router_rebuild_descriptor(); router_upload_desc_to_dirservers(); } if(!options.DirPort) { /* NOTE directory servers do not currently fetch directories. * Hope this doesn't bite us later. */ directory_initiate_command(router_pick_directory_server(), DIR_CONN_STATE_CONNECTING_FETCH); } time_to_fetch_directory = now.tv_sec + options.DirFetchPostPeriod; } if(options.APPort && time_to_new_circuit < now.tv_sec) { circuit_expire_unused_circuits(); circuit_launch_new(-1); /* tell it to forget about previous failures */ circ = circuit_get_newest_open(); if(!circ || circ->dirty) { log_fn(LOG_INFO,"Youngest circuit %s; launching replacement.", circ ? "dirty" : "missing"); circuit_launch_new(0); /* make an onion and lay the circuit */ } time_to_new_circuit = now.tv_sec + options.NewCircuitPeriod; } stats_n_bytes_read += stats_prev_global_read_bucket-global_read_bucket; if(global_read_bucket < 9*options.TotalBandwidth) { global_read_bucket += options.TotalBandwidth; log_fn(LOG_DEBUG,"global_read_bucket now %d.", global_read_bucket); } stats_prev_global_read_bucket = global_read_bucket; /* do housekeeping for each connection */ for(i=0;ireceiver_bucket += conn->bandwidth; // log_fn(LOG_DEBUG,"Receiver bucket %d now %d.", i, conn->receiver_bucket); } if(conn->wants_to_read == 1 /* it's marked to turn reading back on now */ && global_read_bucket > 0 /* and we're allowed to read */ && (!connection_speaks_cells(conn) || conn->receiver_bucket > 0)) { /* and either a non-cell conn or a cell conn with non-empty bucket */ conn->wants_to_read = 0; connection_start_reading(conn); if(conn->wants_to_write == 1) { conn->wants_to_write = 0; connection_start_writing(conn); } } /* check connections to see whether we should send a keepalive, expire, or wait */ if(!connection_speaks_cells(conn)) continue; /* this conn type doesn't send cells */ if(now.tv_sec >= conn->timestamp_lastwritten + options.KeepalivePeriod) { if((!options.OnionRouter && !circuit_get_by_conn(conn)) || (!connection_state_is_open(conn))) { /* we're an onion proxy, with no circuits; or our handshake has expired. kill it. */ log_fn(LOG_INFO,"Expiring connection to %d (%s:%d).", i,conn->address, conn->port); conn->marked_for_close = 1; } else { /* either a full router, or we've got a circuit. send a padding cell. */ log_fn(LOG_DEBUG,"Sending keepalive to (%s:%d)", conn->address, conn->port); memset(&cell,0,sizeof(cell_t)); cell.command = CELL_PADDING; connection_write_cell_to_buf(&cell, conn); } } } /* blow away any connections that need to die. can't do this later * because we might open up a circuit and not realize we're about to cull * the connection it's running over. */ for(i=0;itls)) { log_fn(LOG_DEBUG,"sock %d has pending bytes.",conn->s); return 0; /* has pending bytes to read; don't let poll wait. */ } } return (1000 - (now.tv_usec / 1000)); /* how many milliseconds til the next second? */ } static crypto_pk_env_t *init_key_from_file(const char *fname) { crypto_pk_env_t *prkey = NULL; int fd = -1; FILE *file = NULL; if (!(prkey = crypto_new_pk_env(CRYPTO_PK_RSA))) { log(LOG_ERR, "Error creating crypto environment."); goto error; } switch(file_status(fname)) { case FN_DIR: case FN_ERROR: log(LOG_ERR, "Can't read key from %s", fname); goto error; case FN_NOENT: log(LOG_INFO, "No key found in %s; generating fresh key.", fname); if (crypto_pk_generate_key(prkey)) { log(LOG_ERR, "Error generating key: %s", crypto_perror()); goto error; } if (crypto_pk_check_key(prkey) <= 0) { log(LOG_ERR, "Generated key seems invalid"); goto error; } log(LOG_INFO, "Generated key seems valid"); if (crypto_pk_write_private_key_to_filename(prkey, fname)) { log(LOG_ERR, "Couldn't write generated key to %s.", fname); goto error; } return prkey; case FN_FILE: if (crypto_pk_read_private_key_from_filename(prkey, fname)) { log(LOG_ERR, "Error loading private key."); goto error; } return prkey; default: assert(0); } error: if (prkey) crypto_free_pk_env(prkey); if (fd >= 0 && !file) close(fd); if (file) fclose(file); return NULL; } static int init_keys(void) { char keydir[512]; char fingerprint[FINGERPRINT_LEN+MAX_NICKNAME_LEN+3]; char *cp; const char *tmp, *mydesc; crypto_pk_env_t *prkey; /* OP's don't need keys. Just initialize the TLS context.*/ if (!options.OnionRouter) { assert(!options.DirPort); if (tor_tls_context_new(NULL, 0, NULL)<0) { log_fn(LOG_ERR, "Error creating TLS context for OP."); return -1; } return 0; } assert(options.DataDirectory); if (strlen(options.DataDirectory) > (512-128)) { log_fn(LOG_ERR, "DataDirectory is too long."); return -1; } if (check_private_dir(options.DataDirectory, 1)) { return -1; } sprintf(keydir,"%s/keys",options.DataDirectory); if (check_private_dir(keydir, 1)) { return -1; } cp = keydir + strlen(keydir); /* End of string. */ /* 1. Read identity key. Make it if none is found. */ strcpy(cp, "/identity.key"); log_fn(LOG_INFO,"Reading/making identity key %s...",keydir); prkey = init_key_from_file(keydir); if (!prkey) return -1; set_identity_key(prkey); /* 2. Read onion key. Make it if none is found. */ strcpy(cp, "/onion.key"); log_fn(LOG_INFO,"Reading/making onion key %s...",keydir); prkey = init_key_from_file(keydir); if (!prkey) return -1; set_onion_key(prkey); /* 3. Initialize link key and TLS context. */ strcpy(cp, "/link.key"); log_fn(LOG_INFO,"Reading/making link key %s...",keydir); prkey = init_key_from_file(keydir); if (!prkey) return -1; set_link_key(prkey); if (tor_tls_context_new(prkey, 1, options.Nickname) < 0) { log_fn(LOG_ERR, "Error initializing TLS context"); return -1; } /* 4. Dump router descriptor to 'router.desc' */ /* Must be called after keys are initialized. */ if (!(router_get_my_descriptor())) { log_fn(LOG_ERR, "Error initializing descriptor."); return -1; } /* We need to add our own fingerprint so it gets recognized. */ if (dirserv_add_own_fingerprint(options.Nickname, get_identity_key())) { log_fn(LOG_ERR, "Error adding own fingerprint to approved set"); return -1; } tmp = mydesc = router_get_my_descriptor(); if (dirserv_add_descriptor(&tmp)) { log(LOG_ERR, "Unable to add own descriptor to directory."); return -1; } sprintf(keydir,"%s/router.desc", options.DataDirectory); log_fn(LOG_INFO,"Dumping descriptor to %s...",keydir); if (write_str_to_file(keydir, mydesc)) { return -1; } /* 5. Dump fingerprint to 'fingerprint' */ sprintf(keydir,"%s/fingerprint", options.DataDirectory); log_fn(LOG_INFO,"Dumping fingerprint to %s...",keydir); assert(strlen(options.Nickname) <= MAX_NICKNAME_LEN); strcpy(fingerprint, options.Nickname); strcat(fingerprint, " "); if (crypto_pk_get_fingerprint(get_identity_key(), fingerprint+strlen(fingerprint))<0) { log_fn(LOG_ERR, "Error computing fingerprint"); return -1; } strcat(fingerprint, "\n"); if (write_str_to_file(keydir, fingerprint)) return -1; if(!options.DirPort) return 0; /* 6. [dirserver only] load approved-routers file */ sprintf(keydir,"%s/approved-routers", options.DataDirectory); log_fn(LOG_INFO,"Loading approved fingerprints from %s...",keydir); if(dirserv_parse_fingerprint_file(keydir) < 0) { log_fn(LOG_ERR, "Error loading fingerprints"); return -1; } /* 7. [dirserver only] load old directory, if it's there */ sprintf(keydir,"%s/cached-directory", options.DataDirectory); log_fn(LOG_INFO,"Loading cached directory from %s...",keydir); cp = read_file_to_str(keydir); if(!cp) { log_fn(LOG_INFO,"Cached directory %s not present. Ok.",keydir); } else { if(dirserv_init_from_directory_string(cp) < 0) { log_fn(LOG_ERR, "Cached directory %s is corrupt", keydir); free(cp); return -1; } free(cp); } /* success */ return 0; } static int do_main_loop(void) { int i; int timeout; int poll_result; /* load the routers file */ if(router_get_list_from_file(options.RouterFile) < 0) { log_fn(LOG_ERR,"Error loading router list."); return -1; } /* load the private keys, if we're supposed to have them, and set up the * TLS context. */ if (init_keys() < 0) { log_fn(LOG_ERR,"Error initializing keys; exiting"); return -1; } if(options.OnionRouter) { cpu_init(); /* launch cpuworkers. Need to do this *after* we've read the onion key. */ router_upload_desc_to_dirservers(); /* upload our descriptor to all dirservers */ } /* start up the necessary connections based on which ports are * non-zero. This is where we try to connect to all the other ORs, * and start the listeners. */ retry_all_connections((uint16_t) options.ORPort, (uint16_t) options.APPort, (uint16_t) options.DirPort); for(;;) { #ifndef MS_WIN32 /* do signal stuff only on unix */ if(please_dumpstats) { dumpstats(); please_dumpstats = 0; } if(please_reset) { /* fetch a new directory */ if(options.DirPort) { if(router_get_list_from_file(options.RouterFile) < 0) { log(LOG_WARNING,"Error reloading router list. Continuing with old list."); } } else { directory_initiate_command(router_pick_directory_server(), DIR_CONN_STATE_CONNECTING_FETCH); } /* close and reopen the log files */ reset_logs(); please_reset = 0; } if(please_reap_children) { while(waitpid(-1,NULL,WNOHANG)) ; /* keep reaping until no more zombies */ please_reap_children = 0; } #endif /* signal stuff */ timeout = prepare_for_poll(); /* poll until we have an event, or the second ends */ poll_result = poll(poll_array, nfds, timeout); #if 0 /* let catch() handle things like ^c, and otherwise don't worry about it */ if(poll_result < 0) { log(LOG_ERR,"do_main_loop(): poll failed."); if(errno != EINTR) /* let the program survive things like ^z */ return -1; } #endif /* do all the reads and errors first, so we can detect closed sockets */ for(i=0;is, conn->type, conn_type_to_string[conn->type], conn->state, conn_state_to_string[conn->type][conn->state], now - conn->timestamp_created); if(!connection_is_listener(conn)) { printf("Conn %d is to '%s:%d'.\n",i,conn->address, conn->port); printf("Conn %d: %d bytes waiting on inbuf (last read %ld secs ago)\n",i, (int)buf_datalen(conn->inbuf), now - conn->timestamp_lastread); printf("Conn %d: %d bytes waiting on outbuf (last written %ld secs ago)\n",i, (int)buf_datalen(conn->outbuf), now - conn->timestamp_lastwritten); } circuit_dump_by_conn(conn); /* dump info about all the circuits using this conn */ printf("\n"); } printf("Cells processed: %10lu padding\n" " %10lu create\n" " %10lu created\n" " %10lu relay\n" " (%10lu relayed)\n" " (%10lu delivered)\n" " %10lud destroy\n", stats_n_padding_cells_processed, stats_n_create_cells_processed, stats_n_created_cells_processed, stats_n_relay_cells_processed, stats_n_relay_cells_relayed, stats_n_relay_cells_delivered, stats_n_destroy_cells_processed); if (stats_n_data_cells_packaged) printf("Average outgoing cell fullness: %2.3f%%\n", 100*(((double)stats_n_data_bytes_packaged) / (stats_n_data_cells_packaged*(CELL_PAYLOAD_SIZE-RELAY_HEADER_SIZE))) ); if (stats_n_data_cells_packaged) printf("Average incoming cell fullness: %2.3f%%\n", 100*(((double)stats_n_data_bytes_received) / (stats_n_data_cells_received*(CELL_PAYLOAD_SIZE-RELAY_HEADER_SIZE))) ); if (stats_n_seconds_reading) printf("Average bandwidth used: %d bytes/sec\n", (int) (stats_n_bytes_read/stats_n_seconds_reading)); } void daemonize(void) { #ifndef MS_WINDOWS /* Fork; parent exits. */ if (fork()) exit(0); /* Create new session; make sure we never get a terminal */ setsid(); if (fork()) exit(0); chdir("/"); umask(000); fclose(stdin); fclose(stdout); /* XXX Nick: this closes our log, right? is it safe to leave this open? */ fclose(stderr); #endif } int tor_main(int argc, char *argv[]) { if(getconfig(argc,argv,&options)) { log_fn(LOG_ERR,"Reading config file failed. exiting."); return -1; } log_set_severity(options.loglevel); /* assign logging severity level from options */ global_read_bucket = options.TotalBandwidth; /* start it at 1 second of traffic */ stats_prev_global_read_bucket = global_read_bucket; if(options.Daemon) daemonize(); if(options.OnionRouter) { /* only spawn dns handlers if we're a router */ dns_init(); /* initialize the dns resolve tree, and spawn workers */ } #ifndef MS_WINDOWS /* do signal stuff only on unix */ signal (SIGINT, catch); /* catch kills so we can exit cleanly */ signal (SIGTERM, catch); signal (SIGUSR1, catch); /* to dump stats to stdout */ signal (SIGHUP, catch); /* to reload directory */ signal (SIGCHLD, catch); /* for exiting dns/cpu workers */ #endif /* signal stuff */ crypto_global_init(); crypto_seed_rng(); do_main_loop(); crypto_global_cleanup(); return -1; } /* Local Variables: mode:c indent-tabs-mode:nil c-basic-offset:2 End: */