/* * Tox DHT bootstrap daemon. * Functionality related to dealing with the config file. */ /* * Copyright © 2016-2017 The TokTok team. * Copyright © 2014-2016 Tox project. * * This file is part of Tox, the free peer to peer instant messenger. * * Tox is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Tox is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Tox. If not, see . */ #include "config.h" #include "config_defaults.h" #include "log.h" #include #include #include #include "../../bootstrap_node_packets.h" /** * Parses tcp relay ports from `cfg` and puts them into `tcp_relay_ports` array. * * Supposed to be called from get_general_config only. * * Important: iff `tcp_relay_port_count` > 0, then you are responsible for freeing `tcp_relay_ports`. */ static void parse_tcp_relay_ports_config(config_t *cfg, uint16_t **tcp_relay_ports, int *tcp_relay_port_count) { const char *NAME_TCP_RELAY_PORTS = "tcp_relay_ports"; *tcp_relay_port_count = 0; config_setting_t *ports_array = config_lookup(cfg, NAME_TCP_RELAY_PORTS); if (ports_array == NULL) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in the configuration file.\n", NAME_TCP_RELAY_PORTS); write_log(LOG_LEVEL_WARNING, "Using default '%s':\n", NAME_TCP_RELAY_PORTS); uint16_t default_ports[DEFAULT_TCP_RELAY_PORTS_COUNT] = {DEFAULT_TCP_RELAY_PORTS}; int i; for (i = 0; i < DEFAULT_TCP_RELAY_PORTS_COUNT; i ++) { write_log(LOG_LEVEL_INFO, "Port #%d: %u\n", i, default_ports[i]); } // similar procedure to the one of reading config file below *tcp_relay_ports = (uint16_t *)malloc(DEFAULT_TCP_RELAY_PORTS_COUNT * sizeof(uint16_t)); for (i = 0; i < DEFAULT_TCP_RELAY_PORTS_COUNT; i ++) { (*tcp_relay_ports)[*tcp_relay_port_count] = default_ports[i]; if ((*tcp_relay_ports)[*tcp_relay_port_count] < MIN_ALLOWED_PORT || (*tcp_relay_ports)[*tcp_relay_port_count] > MAX_ALLOWED_PORT) { write_log(LOG_LEVEL_WARNING, "Port #%d: Invalid port: %u, should be in [%d, %d]. Skipping.\n", i, (*tcp_relay_ports)[*tcp_relay_port_count], MIN_ALLOWED_PORT, MAX_ALLOWED_PORT); continue; } (*tcp_relay_port_count) ++; } // the loop above skips invalid ports, so we adjust the allocated memory size if ((*tcp_relay_port_count) > 0) { *tcp_relay_ports = (uint16_t *)realloc(*tcp_relay_ports, (*tcp_relay_port_count) * sizeof(uint16_t)); } else { free(*tcp_relay_ports); *tcp_relay_ports = NULL; } return; } if (config_setting_is_array(ports_array) == CONFIG_FALSE) { write_log(LOG_LEVEL_ERROR, "'%s' setting should be an array. Array syntax: 'setting = [value1, value2, ...]'.\n", NAME_TCP_RELAY_PORTS); return; } int config_port_count = config_setting_length(ports_array); if (config_port_count == 0) { write_log(LOG_LEVEL_ERROR, "'%s' is empty.\n", NAME_TCP_RELAY_PORTS); return; } *tcp_relay_ports = (uint16_t *)malloc(config_port_count * sizeof(uint16_t)); int i; for (i = 0; i < config_port_count; i ++) { config_setting_t *elem = config_setting_get_elem(ports_array, i); if (elem == NULL) { // it's NULL if `ports_array` is not an array (we have that check earlier) or if `i` is out of range, which should not be write_log(LOG_LEVEL_WARNING, "Port #%d: Something went wrong while parsing the port. Stopping reading ports.\n", i); break; } if (config_setting_is_number(elem) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "Port #%d: Not a number. Skipping.\n", i); continue; } (*tcp_relay_ports)[*tcp_relay_port_count] = config_setting_get_int(elem); if ((*tcp_relay_ports)[*tcp_relay_port_count] < MIN_ALLOWED_PORT || (*tcp_relay_ports)[*tcp_relay_port_count] > MAX_ALLOWED_PORT) { write_log(LOG_LEVEL_WARNING, "Port #%d: Invalid port: %u, should be in [%d, %d]. Skipping.\n", i, (*tcp_relay_ports)[*tcp_relay_port_count], MIN_ALLOWED_PORT, MAX_ALLOWED_PORT); continue; } (*tcp_relay_port_count) ++; } // the loop above skips invalid ports, so we adjust the allocated memory size if ((*tcp_relay_port_count) > 0) { *tcp_relay_ports = (uint16_t *)realloc(*tcp_relay_ports, (*tcp_relay_port_count) * sizeof(uint16_t)); } else { free(*tcp_relay_ports); *tcp_relay_ports = NULL; } } int get_general_config(const char *cfg_file_path, char **pid_file_path, char **keys_file_path, int *port, int *enable_ipv6, int *enable_ipv4_fallback, int *enable_lan_discovery, int *enable_tcp_relay, uint16_t **tcp_relay_ports, int *tcp_relay_port_count, int *enable_motd, char **motd) { config_t cfg; const char *NAME_PORT = "port"; const char *NAME_PID_FILE_PATH = "pid_file_path"; const char *NAME_KEYS_FILE_PATH = "keys_file_path"; const char *NAME_ENABLE_IPV6 = "enable_ipv6"; const char *NAME_ENABLE_IPV4_FALLBACK = "enable_ipv4_fallback"; const char *NAME_ENABLE_LAN_DISCOVERY = "enable_lan_discovery"; const char *NAME_ENABLE_TCP_RELAY = "enable_tcp_relay"; const char *NAME_ENABLE_MOTD = "enable_motd"; const char *NAME_MOTD = "motd"; config_init(&cfg); // Read the file. If there is an error, report it and exit. if (config_read_file(&cfg, cfg_file_path) == CONFIG_FALSE) { write_log(LOG_LEVEL_ERROR, "%s:%d - %s\n", config_error_file(&cfg), config_error_line(&cfg), config_error_text(&cfg)); config_destroy(&cfg); return 0; } // Get port if (config_lookup_int(&cfg, NAME_PORT, port) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_PORT); write_log(LOG_LEVEL_WARNING, "Using default '%s': %d\n", NAME_PORT, DEFAULT_PORT); *port = DEFAULT_PORT; } // Get PID file location const char *tmp_pid_file; if (config_lookup_string(&cfg, NAME_PID_FILE_PATH, &tmp_pid_file) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_PID_FILE_PATH); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_PID_FILE_PATH, DEFAULT_PID_FILE_PATH); tmp_pid_file = DEFAULT_PID_FILE_PATH; } *pid_file_path = (char *)malloc(strlen(tmp_pid_file) + 1); strcpy(*pid_file_path, tmp_pid_file); // Get keys file location const char *tmp_keys_file; if (config_lookup_string(&cfg, NAME_KEYS_FILE_PATH, &tmp_keys_file) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_KEYS_FILE_PATH); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_KEYS_FILE_PATH, DEFAULT_KEYS_FILE_PATH); tmp_keys_file = DEFAULT_KEYS_FILE_PATH; } *keys_file_path = (char *)malloc(strlen(tmp_keys_file) + 1); strcpy(*keys_file_path, tmp_keys_file); // Get IPv6 option if (config_lookup_bool(&cfg, NAME_ENABLE_IPV6, enable_ipv6) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_ENABLE_IPV6); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_ENABLE_IPV6, DEFAULT_ENABLE_IPV6 ? "true" : "false"); *enable_ipv6 = DEFAULT_ENABLE_IPV6; } // Get IPv4 fallback option if (config_lookup_bool(&cfg, NAME_ENABLE_IPV4_FALLBACK, enable_ipv4_fallback) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_ENABLE_IPV4_FALLBACK); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_ENABLE_IPV4_FALLBACK, DEFAULT_ENABLE_IPV4_FALLBACK ? "true" : "false"); *enable_ipv4_fallback = DEFAULT_ENABLE_IPV4_FALLBACK; } // Get LAN discovery option if (config_lookup_bool(&cfg, NAME_ENABLE_LAN_DISCOVERY, enable_lan_discovery) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_ENABLE_LAN_DISCOVERY); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_ENABLE_LAN_DISCOVERY, DEFAULT_ENABLE_LAN_DISCOVERY ? "true" : "false"); *enable_lan_discovery = DEFAULT_ENABLE_LAN_DISCOVERY; } // Get TCP relay option if (config_lookup_bool(&cfg, NAME_ENABLE_TCP_RELAY, enable_tcp_relay) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_ENABLE_TCP_RELAY); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_ENABLE_TCP_RELAY, DEFAULT_ENABLE_TCP_RELAY ? "true" : "false"); *enable_tcp_relay = DEFAULT_ENABLE_TCP_RELAY; } if (*enable_tcp_relay) { parse_tcp_relay_ports_config(&cfg, tcp_relay_ports, tcp_relay_port_count); } else { *tcp_relay_port_count = 0; } // Get MOTD option if (config_lookup_bool(&cfg, NAME_ENABLE_MOTD, enable_motd) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_ENABLE_MOTD); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_ENABLE_MOTD, DEFAULT_ENABLE_MOTD ? "true" : "false"); *enable_motd = DEFAULT_ENABLE_MOTD; } if (*enable_motd) { // Get MOTD const char *tmp_motd; if (config_lookup_string(&cfg, NAME_MOTD, &tmp_motd) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in configuration file.\n", NAME_MOTD); write_log(LOG_LEVEL_WARNING, "Using default '%s': %s\n", NAME_MOTD, DEFAULT_MOTD); tmp_motd = DEFAULT_MOTD; } size_t tmp_motd_length = strlen(tmp_motd) + 1; size_t motd_length = tmp_motd_length > MAX_MOTD_LENGTH ? MAX_MOTD_LENGTH : tmp_motd_length; *motd = (char *)malloc(motd_length); strncpy(*motd, tmp_motd, motd_length); (*motd)[motd_length - 1] = '\0'; } config_destroy(&cfg); write_log(LOG_LEVEL_INFO, "Successfully read:\n"); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_PID_FILE_PATH, *pid_file_path); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_KEYS_FILE_PATH, *keys_file_path); write_log(LOG_LEVEL_INFO, "'%s': %d\n", NAME_PORT, *port); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_ENABLE_IPV6, *enable_ipv6 ? "true" : "false"); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_ENABLE_IPV4_FALLBACK, *enable_ipv4_fallback ? "true" : "false"); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_ENABLE_LAN_DISCOVERY, *enable_lan_discovery ? "true" : "false"); write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_ENABLE_TCP_RELAY, *enable_tcp_relay ? "true" : "false"); // show info about tcp ports only if tcp relay is enabled if (*enable_tcp_relay) { if (*tcp_relay_port_count == 0) { write_log(LOG_LEVEL_ERROR, "No TCP ports could be read.\n"); } else { write_log(LOG_LEVEL_INFO, "Read %d TCP ports:\n", *tcp_relay_port_count); int i; for (i = 0; i < *tcp_relay_port_count; i ++) { write_log(LOG_LEVEL_INFO, "Port #%d: %u\n", i, (*tcp_relay_ports)[i]); } } } write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_ENABLE_MOTD, *enable_motd ? "true" : "false"); if (*enable_motd) { write_log(LOG_LEVEL_INFO, "'%s': %s\n", NAME_MOTD, *motd); } return 1; } /** * * Converts a hex string with even number of characters into binary. * * Important: You are responsible for freeing the return value. * * @return binary on success, * NULL on failure. */ static uint8_t *hex_string_to_bin(const char *hex_string) { if (strlen(hex_string) % 2 != 0) { return NULL; } size_t len = strlen(hex_string) / 2; uint8_t *ret = (uint8_t *)malloc(len); const char *pos = hex_string; size_t i; for (i = 0; i < len; ++i, pos += 2) { sscanf(pos, "%2hhx", &ret[i]); } return ret; } int bootstrap_from_config(const char *cfg_file_path, DHT *dht, int enable_ipv6) { const char *NAME_BOOTSTRAP_NODES = "bootstrap_nodes"; const char *NAME_PUBLIC_KEY = "public_key"; const char *NAME_PORT = "port"; const char *NAME_ADDRESS = "address"; config_t cfg; config_init(&cfg); if (config_read_file(&cfg, cfg_file_path) == CONFIG_FALSE) { write_log(LOG_LEVEL_ERROR, "%s:%d - %s\n", config_error_file(&cfg), config_error_line(&cfg), config_error_text(&cfg)); config_destroy(&cfg); return 0; } config_setting_t *node_list = config_lookup(&cfg, NAME_BOOTSTRAP_NODES); if (node_list == NULL) { write_log(LOG_LEVEL_WARNING, "No '%s' setting in the configuration file. Skipping bootstrapping.\n", NAME_BOOTSTRAP_NODES); config_destroy(&cfg); return 1; } if (config_setting_length(node_list) == 0) { write_log(LOG_LEVEL_WARNING, "No bootstrap nodes found. Skipping bootstrapping.\n"); config_destroy(&cfg); return 1; } int bs_port; const char *bs_address; const char *bs_public_key; config_setting_t *node; int i = 0; while (config_setting_length(node_list)) { int address_resolved; uint8_t *bs_public_key_bin; node = config_setting_get_elem(node_list, 0); if (node == NULL) { config_destroy(&cfg); return 0; } // Check that all settings are present if (config_setting_lookup_string(node, NAME_PUBLIC_KEY, &bs_public_key) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Couldn't find '%s' setting. Skipping the node.\n", i, NAME_PUBLIC_KEY); goto next; } if (config_setting_lookup_int(node, NAME_PORT, &bs_port) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Couldn't find '%s' setting. Skipping the node.\n", i, NAME_PORT); goto next; } if (config_setting_lookup_string(node, NAME_ADDRESS, &bs_address) == CONFIG_FALSE) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Couldn't find '%s' setting. Skipping the node.\n", i, NAME_ADDRESS); goto next; } // Process settings if (strlen(bs_public_key) != CRYPTO_PUBLIC_KEY_SIZE * 2) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Invalid '%s': %s. Skipping the node.\n", i, NAME_PUBLIC_KEY, bs_public_key); goto next; } if (bs_port < MIN_ALLOWED_PORT || bs_port > MAX_ALLOWED_PORT) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Invalid '%s': %d, should be in [%d, %d]. Skipping the node.\n", i, NAME_PORT, bs_port, MIN_ALLOWED_PORT, MAX_ALLOWED_PORT); goto next; } bs_public_key_bin = hex_string_to_bin(bs_public_key); address_resolved = DHT_bootstrap_from_address(dht, bs_address, enable_ipv6, net_htons(bs_port), bs_public_key_bin); free(bs_public_key_bin); if (!address_resolved) { write_log(LOG_LEVEL_WARNING, "Bootstrap node #%d: Invalid '%s': %s. Skipping the node.\n", i, NAME_ADDRESS, bs_address); goto next; } write_log(LOG_LEVEL_INFO, "Successfully added bootstrap node #%d: %s:%d %s\n", i, bs_address, bs_port, bs_public_key); next: // config_setting_lookup_string() allocates string inside and doesn't allow us to free it direcly // though it's freed when the element is removed, so we free it right away in order to keep memory // consumption minimal config_setting_remove_elem(node_list, 0); i++; } config_destroy(&cfg); return 1; }