/* TCP_connection.c * * Handles TCP relay connections between two Tox clients. * * Copyright (C) 2015 Tox project All Rights Reserved. * * This file is part of Tox. * * 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 . * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "TCP_connection.h" #include "util.h" struct TCP_Connections { DHT *dht; uint8_t self_public_key[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t self_secret_key[CRYPTO_SECRET_KEY_SIZE]; TCP_Connection_to *connections; uint32_t connections_length; /* Length of connections array. */ TCP_con *tcp_connections; uint32_t tcp_connections_length; /* Length of tcp_connections array. */ int (*tcp_data_callback)(void *object, int id, const uint8_t *data, uint16_t length, void *userdata); void *tcp_data_callback_object; int (*tcp_oob_callback)(void *object, const uint8_t *public_key, unsigned int tcp_connections_number, const uint8_t *data, uint16_t length, void *userdata); void *tcp_oob_callback_object; int (*tcp_onion_callback)(void *object, const uint8_t *data, uint16_t length, void *userdata); void *tcp_onion_callback_object; TCP_Proxy_Info proxy_info; bool onion_status; uint16_t onion_num_conns; }; const uint8_t *tcp_connections_public_key(const TCP_Connections *tcp_c) { return tcp_c->self_public_key; } /* Set the size of the array to num. * * return -1 if realloc fails. * return 0 if it succeeds. */ #define realloc_tox_array(array, element_type, num, temp_pointer) \ (num \ ? (temp_pointer = (element_type *)realloc( \ array, \ (num) * sizeof(element_type)), \ temp_pointer ? (array = temp_pointer, 0) : -1) \ : (free(array), array = NULL, 0)) /* return 1 if the connections_number is not valid. * return 0 if the connections_number is valid. */ static bool connections_number_not_valid(const TCP_Connections *tcp_c, int connections_number) { if ((unsigned int)connections_number >= tcp_c->connections_length) { return 1; } if (tcp_c->connections == NULL) { return 1; } if (tcp_c->connections[connections_number].status == TCP_CONN_NONE) { return 1; } return 0; } /* return 1 if the tcp_connections_number is not valid. * return 0 if the tcp_connections_number is valid. */ static bool tcp_connections_number_not_valid(const TCP_Connections *tcp_c, int tcp_connections_number) { if ((unsigned int)tcp_connections_number >= tcp_c->tcp_connections_length) { return 1; } if (tcp_c->tcp_connections == NULL) { return 1; } if (tcp_c->tcp_connections[tcp_connections_number].status == TCP_CONN_NONE) { return 1; } return 0; } /* Create a new empty connection. * * return -1 on failure. * return connections_number on success. */ static int create_connection(TCP_Connections *tcp_c) { uint32_t i; for (i = 0; i < tcp_c->connections_length; ++i) { if (tcp_c->connections[i].status == TCP_CONN_NONE) { return i; } } int id = -1; TCP_Connection_to *temp_pointer; if (realloc_tox_array(tcp_c->connections, TCP_Connection_to, tcp_c->connections_length + 1, temp_pointer) == 0) { id = tcp_c->connections_length; ++tcp_c->connections_length; memset(&(tcp_c->connections[id]), 0, sizeof(TCP_Connection_to)); } return id; } /* Create a new empty tcp connection. * * return -1 on failure. * return tcp_connections_number on success. */ static int create_tcp_connection(TCP_Connections *tcp_c) { uint32_t i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { if (tcp_c->tcp_connections[i].status == TCP_CONN_NONE) { return i; } } int id = -1; TCP_con *temp_pointer; if (realloc_tox_array(tcp_c->tcp_connections, TCP_con, tcp_c->tcp_connections_length + 1, temp_pointer) == 0) { id = tcp_c->tcp_connections_length; ++tcp_c->tcp_connections_length; memset(&(tcp_c->tcp_connections[id]), 0, sizeof(TCP_con)); } return id; } /* Wipe a connection. * * return -1 on failure. * return 0 on success. */ static int wipe_connection(TCP_Connections *tcp_c, int connections_number) { if (connections_number_not_valid(tcp_c, connections_number)) { return -1; } uint32_t i; memset(&(tcp_c->connections[connections_number]), 0 , sizeof(TCP_Connection_to)); for (i = tcp_c->connections_length; i != 0; --i) { if (tcp_c->connections[i - 1].status != TCP_CONN_NONE) { break; } } if (tcp_c->connections_length != i) { tcp_c->connections_length = i; TCP_Connection_to *temp_pointer; realloc_tox_array(tcp_c->connections, TCP_Connection_to, tcp_c->connections_length, temp_pointer); } return 0; } /* Wipe a connection. * * return -1 on failure. * return 0 on success. */ static int wipe_tcp_connection(TCP_Connections *tcp_c, int tcp_connections_number) { if (tcp_connections_number_not_valid(tcp_c, tcp_connections_number)) { return -1; } uint32_t i; memset(&(tcp_c->tcp_connections[tcp_connections_number]), 0 , sizeof(TCP_con)); for (i = tcp_c->tcp_connections_length; i != 0; --i) { if (tcp_c->tcp_connections[i - 1].status != TCP_CONN_NONE) { break; } } if (tcp_c->tcp_connections_length != i) { tcp_c->tcp_connections_length = i; TCP_con *temp_pointer; realloc_tox_array(tcp_c->tcp_connections, TCP_con, tcp_c->tcp_connections_length, temp_pointer); } return 0; } static TCP_Connection_to *get_connection(const TCP_Connections *tcp_c, int connections_number) { if (connections_number_not_valid(tcp_c, connections_number)) { return 0; } return &tcp_c->connections[connections_number]; } static TCP_con *get_tcp_connection(const TCP_Connections *tcp_c, int tcp_connections_number) { if (tcp_connections_number_not_valid(tcp_c, tcp_connections_number)) { return 0; } return &tcp_c->tcp_connections[tcp_connections_number]; } /* Send a packet to the TCP connection. * * return -1 on failure. * return 0 on success. */ int send_packet_tcp_connection(TCP_Connections *tcp_c, int connections_number, const uint8_t *packet, uint16_t length) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return -1; } // TODO(irungentoo): detect and kill bad relays. // TODO(irungentoo): thread safety? unsigned int i; int ret = -1; bool limit_reached = 0; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { uint32_t tcp_con_num = con_to->connections[i].tcp_connection; uint8_t status = con_to->connections[i].status; uint8_t connection_id = con_to->connections[i].connection_id; if (tcp_con_num && status == TCP_CONNECTIONS_STATUS_ONLINE) { tcp_con_num -= 1; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_con_num); if (!tcp_con) { continue; } ret = send_data(tcp_con->connection, connection_id, packet, length); if (ret == 0) { limit_reached = 1; } if (ret == 1) { break; } } } if (ret == 1) { return 0; } if (!limit_reached) { ret = 0; /* Send oob packets to all relays tied to the connection. */ for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { uint32_t tcp_con_num = con_to->connections[i].tcp_connection; uint8_t status = con_to->connections[i].status; if (tcp_con_num && status == TCP_CONNECTIONS_STATUS_REGISTERED) { tcp_con_num -= 1; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_con_num); if (!tcp_con) { continue; } if (send_oob_packet(tcp_con->connection, con_to->public_key, packet, length) == 1) { ret += 1; } } } if (ret >= 1) { return 0; } return -1; } return -1; } /* Return a random TCP connection number for use in send_tcp_onion_request. * * TODO(irungentoo): This number is just the index of an array that the elements * can change without warning. * * return TCP connection number on success. * return -1 on failure. */ int get_random_tcp_onion_conn_number(TCP_Connections *tcp_c) { unsigned int i, r = rand(); for (i = 0; i < tcp_c->tcp_connections_length; ++i) { unsigned int index = ((i + r) % tcp_c->tcp_connections_length); if (tcp_c->tcp_connections[index].onion && tcp_c->tcp_connections[index].status == TCP_CONN_CONNECTED) { return index; } } return -1; } /* Send an onion packet via the TCP relay corresponding to tcp_connections_number. * * return 0 on success. * return -1 on failure. */ int tcp_send_onion_request(TCP_Connections *tcp_c, unsigned int tcp_connections_number, const uint8_t *data, uint16_t length) { if (tcp_connections_number >= tcp_c->tcp_connections_length) { return -1; } if (tcp_c->tcp_connections[tcp_connections_number].status == TCP_CONN_CONNECTED) { int ret = send_onion_request(tcp_c->tcp_connections[tcp_connections_number].connection, data, length); if (ret == 1) { return 0; } } return -1; } /* Send an oob packet via the TCP relay corresponding to tcp_connections_number. * * return 0 on success. * return -1 on failure. */ int tcp_send_oob_packet(TCP_Connections *tcp_c, unsigned int tcp_connections_number, const uint8_t *public_key, const uint8_t *packet, uint16_t length) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (tcp_con->status != TCP_CONN_CONNECTED) { return -1; } int ret = send_oob_packet(tcp_con->connection, public_key, packet, length); if (ret == 1) { return 0; } return -1; } /* Set the callback for TCP data packets. */ void set_packet_tcp_connection_callback(TCP_Connections *tcp_c, int (*tcp_data_callback)(void *object, int id, const uint8_t *data, uint16_t length, void *userdata), void *object) { tcp_c->tcp_data_callback = tcp_data_callback; tcp_c->tcp_data_callback_object = object; } /* Set the callback for TCP onion packets. */ void set_oob_packet_tcp_connection_callback(TCP_Connections *tcp_c, int (*tcp_oob_callback)(void *object, const uint8_t *public_key, unsigned int tcp_connections_number, const uint8_t *data, uint16_t length, void *userdata), void *object) { tcp_c->tcp_oob_callback = tcp_oob_callback; tcp_c->tcp_oob_callback_object = object; } /* Set the callback for TCP oob data packets. */ void set_onion_packet_tcp_connection_callback(TCP_Connections *tcp_c, int (*tcp_onion_callback)(void *object, const uint8_t *data, uint16_t length, void *userdata), void *object) { tcp_c->tcp_onion_callback = tcp_onion_callback; tcp_c->tcp_onion_callback_object = object; } /* Find the TCP connection with public_key. * * return connections_number on success. * return -1 on failure. */ static int find_tcp_connection_to(TCP_Connections *tcp_c, const uint8_t *public_key) { unsigned int i; for (i = 0; i < tcp_c->connections_length; ++i) { TCP_Connection_to *con_to = get_connection(tcp_c, i); if (con_to) { if (public_key_cmp(con_to->public_key, public_key) == 0) { return i; } } } return -1; } /* Find the TCP connection to a relay with relay_pk. * * return connections_number on success. * return -1 on failure. */ static int find_tcp_connection_relay(TCP_Connections *tcp_c, const uint8_t *relay_pk) { unsigned int i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->status == TCP_CONN_SLEEPING) { if (public_key_cmp(tcp_con->relay_pk, relay_pk) == 0) { return i; } } else { if (public_key_cmp(tcp_con->connection->public_key, relay_pk) == 0) { return i; } } } } return -1; } /* Create a new TCP connection to public_key. * * public_key must be the counterpart to the secret key that the other peer used with new_tcp_connections(). * * id is the id in the callbacks for that connection. * * return connections_number on success. * return -1 on failure. */ int new_tcp_connection_to(TCP_Connections *tcp_c, const uint8_t *public_key, int id) { if (find_tcp_connection_to(tcp_c, public_key) != -1) { return -1; } int connections_number = create_connection(tcp_c); if (connections_number == -1) { return -1; } TCP_Connection_to *con_to = &tcp_c->connections[connections_number]; con_to->status = TCP_CONN_VALID; memcpy(con_to->public_key, public_key, CRYPTO_PUBLIC_KEY_SIZE); con_to->id = id; return connections_number; } /* return 0 on success. * return -1 on failure. */ int kill_tcp_connection_to(TCP_Connections *tcp_c, int connections_number) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return -1; } unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection) { unsigned int tcp_connections_number = con_to->connections[i].tcp_connection - 1; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { continue; } if (tcp_con->status == TCP_CONN_CONNECTED) { send_disconnect_request(tcp_con->connection, con_to->connections[i].connection_id); } if (con_to->connections[i].status == TCP_CONNECTIONS_STATUS_ONLINE) { --tcp_con->lock_count; if (con_to->status == TCP_CONN_SLEEPING) { --tcp_con->sleep_count; } } } } return wipe_connection(tcp_c, connections_number); } /* Set connection status. * * status of 1 means we are using the connection. * status of 0 means we are not using it. * * Unused tcp connections will be disconnected from but kept in case they are needed. * * return 0 on success. * return -1 on failure. */ int set_tcp_connection_to_status(TCP_Connections *tcp_c, int connections_number, bool status) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return -1; } if (status) { /* Connection is unsleeping. */ if (con_to->status != TCP_CONN_SLEEPING) { return -1; } unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection) { unsigned int tcp_connections_number = con_to->connections[i].tcp_connection - 1; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { continue; } if (tcp_con->status == TCP_CONN_SLEEPING) { tcp_con->unsleep = 1; } } } con_to->status = TCP_CONN_VALID; return 0; } /* Connection is going to sleep. */ if (con_to->status != TCP_CONN_VALID) { return -1; } unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection) { unsigned int tcp_connections_number = con_to->connections[i].tcp_connection - 1; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { continue; } if (con_to->connections[i].status == TCP_CONNECTIONS_STATUS_ONLINE) { ++tcp_con->sleep_count; } } } con_to->status = TCP_CONN_SLEEPING; return 0; } static bool tcp_connection_in_conn(TCP_Connection_to *con_to, unsigned int tcp_connections_number) { unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection == (tcp_connections_number + 1)) { return 1; } } return 0; } /* return index on success. * return -1 on failure. */ static int add_tcp_connection_to_conn(TCP_Connection_to *con_to, unsigned int tcp_connections_number) { unsigned int i; if (tcp_connection_in_conn(con_to, tcp_connections_number)) { return -1; } for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection == 0) { con_to->connections[i].tcp_connection = tcp_connections_number + 1; con_to->connections[i].status = TCP_CONNECTIONS_STATUS_NONE; con_to->connections[i].connection_id = 0; return i; } } return -1; } /* return index on success. * return -1 on failure. */ static int rm_tcp_connection_from_conn(TCP_Connection_to *con_to, unsigned int tcp_connections_number) { unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection == (tcp_connections_number + 1)) { con_to->connections[i].tcp_connection = 0; con_to->connections[i].status = TCP_CONNECTIONS_STATUS_NONE; con_to->connections[i].connection_id = 0; return i; } } return -1; } /* return number of online connections on success. * return -1 on failure. */ static unsigned int online_tcp_connection_from_conn(TCP_Connection_to *con_to) { unsigned int i, count = 0; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection) { if (con_to->connections[i].status == TCP_CONNECTIONS_STATUS_ONLINE) { ++count; } } } return count; } /* return index on success. * return -1 on failure. */ static int set_tcp_connection_status(TCP_Connection_to *con_to, unsigned int tcp_connections_number, unsigned int status, uint8_t connection_id) { unsigned int i; for (i = 0; i < MAX_FRIEND_TCP_CONNECTIONS; ++i) { if (con_to->connections[i].tcp_connection == (tcp_connections_number + 1)) { if (con_to->connections[i].status == status) { return -1; } con_to->connections[i].status = status; con_to->connections[i].connection_id = connection_id; return i; } } return -1; } /* Kill a TCP relay connection. * * return 0 on success. * return -1 on failure. */ static int kill_tcp_relay_connection(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } unsigned int i; for (i = 0; i < tcp_c->connections_length; ++i) { TCP_Connection_to *con_to = get_connection(tcp_c, i); if (con_to) { rm_tcp_connection_from_conn(con_to, tcp_connections_number); } } if (tcp_con->onion) { --tcp_c->onion_num_conns; } kill_TCP_connection(tcp_con->connection); return wipe_tcp_connection(tcp_c, tcp_connections_number); } static int reconnect_tcp_relay_connection(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (tcp_con->status == TCP_CONN_SLEEPING) { return -1; } IP_Port ip_port = tcp_con->connection->ip_port; uint8_t relay_pk[CRYPTO_PUBLIC_KEY_SIZE]; memcpy(relay_pk, tcp_con->connection->public_key, CRYPTO_PUBLIC_KEY_SIZE); kill_TCP_connection(tcp_con->connection); tcp_con->connection = new_TCP_connection(ip_port, relay_pk, tcp_c->self_public_key, tcp_c->self_secret_key, &tcp_c->proxy_info); if (!tcp_con->connection) { kill_tcp_relay_connection(tcp_c, tcp_connections_number); return -1; } unsigned int i; for (i = 0; i < tcp_c->connections_length; ++i) { TCP_Connection_to *con_to = get_connection(tcp_c, i); if (con_to) { set_tcp_connection_status(con_to, tcp_connections_number, TCP_CONNECTIONS_STATUS_NONE, 0); } } if (tcp_con->onion) { --tcp_c->onion_num_conns; tcp_con->onion = 0; } tcp_con->lock_count = 0; tcp_con->sleep_count = 0; tcp_con->connected_time = 0; tcp_con->status = TCP_CONN_VALID; tcp_con->unsleep = 0; return 0; } static int sleep_tcp_relay_connection(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (tcp_con->status != TCP_CONN_CONNECTED) { return -1; } if (tcp_con->lock_count != tcp_con->sleep_count) { return -1; } tcp_con->ip_port = tcp_con->connection->ip_port; memcpy(tcp_con->relay_pk, tcp_con->connection->public_key, CRYPTO_PUBLIC_KEY_SIZE); kill_TCP_connection(tcp_con->connection); tcp_con->connection = NULL; unsigned int i; for (i = 0; i < tcp_c->connections_length; ++i) { TCP_Connection_to *con_to = get_connection(tcp_c, i); if (con_to) { set_tcp_connection_status(con_to, tcp_connections_number, TCP_CONNECTIONS_STATUS_NONE, 0); } } if (tcp_con->onion) { --tcp_c->onion_num_conns; tcp_con->onion = 0; } tcp_con->lock_count = 0; tcp_con->sleep_count = 0; tcp_con->connected_time = 0; tcp_con->status = TCP_CONN_SLEEPING; tcp_con->unsleep = 0; return 0; } static int unsleep_tcp_relay_connection(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (tcp_con->status != TCP_CONN_SLEEPING) { return -1; } tcp_con->connection = new_TCP_connection(tcp_con->ip_port, tcp_con->relay_pk, tcp_c->self_public_key, tcp_c->self_secret_key, &tcp_c->proxy_info); if (!tcp_con->connection) { kill_tcp_relay_connection(tcp_c, tcp_connections_number); return -1; } tcp_con->lock_count = 0; tcp_con->sleep_count = 0; tcp_con->connected_time = 0; tcp_con->status = TCP_CONN_VALID; tcp_con->unsleep = 0; return 0; } /* Send a TCP routing request. * * return 0 on success. * return -1 on failure. */ static int send_tcp_relay_routing_request(TCP_Connections *tcp_c, int tcp_connections_number, uint8_t *public_key) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (tcp_con->status == TCP_CONN_SLEEPING) { return -1; } if (send_routing_request(tcp_con->connection, public_key) != 1) { return -1; } return 0; } static int tcp_response_callback(void *object, uint8_t connection_id, const uint8_t *public_key) { TCP_Client_Connection *TCP_client_con = (TCP_Client_Connection *)object; TCP_Connections *tcp_c = (TCP_Connections *)TCP_client_con->custom_object; unsigned int tcp_connections_number = TCP_client_con->custom_uint; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } int connections_number = find_tcp_connection_to(tcp_c, public_key); if (connections_number == -1) { return -1; } TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (con_to == NULL) { return -1; } if (set_tcp_connection_status(con_to, tcp_connections_number, TCP_CONNECTIONS_STATUS_REGISTERED, connection_id) == -1) { return -1; } set_tcp_connection_number(tcp_con->connection, connection_id, connections_number); return 0; } static int tcp_status_callback(void *object, uint32_t number, uint8_t connection_id, uint8_t status) { TCP_Client_Connection *TCP_client_con = (TCP_Client_Connection *)object; TCP_Connections *tcp_c = (TCP_Connections *)TCP_client_con->custom_object; unsigned int tcp_connections_number = TCP_client_con->custom_uint; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); TCP_Connection_to *con_to = get_connection(tcp_c, number); if (!con_to || !tcp_con) { return -1; } if (status == 1) { if (set_tcp_connection_status(con_to, tcp_connections_number, TCP_CONNECTIONS_STATUS_REGISTERED, connection_id) == -1) { return -1; } --tcp_con->lock_count; if (con_to->status == TCP_CONN_SLEEPING) { --tcp_con->sleep_count; } } else if (status == 2) { if (set_tcp_connection_status(con_to, tcp_connections_number, TCP_CONNECTIONS_STATUS_ONLINE, connection_id) == -1) { return -1; } ++tcp_con->lock_count; if (con_to->status == TCP_CONN_SLEEPING) { ++tcp_con->sleep_count; } } return 0; } static int tcp_data_callback(void *object, uint32_t number, uint8_t connection_id, const uint8_t *data, uint16_t length, void *userdata) { if (length == 0) { return -1; } TCP_Client_Connection *TCP_client_con = (TCP_Client_Connection *)object; TCP_Connections *tcp_c = (TCP_Connections *)TCP_client_con->custom_object; unsigned int tcp_connections_number = TCP_client_con->custom_uint; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } TCP_Connection_to *con_to = get_connection(tcp_c, number); if (!con_to) { return -1; } if (tcp_c->tcp_data_callback) { tcp_c->tcp_data_callback(tcp_c->tcp_data_callback_object, con_to->id, data, length, userdata); } return 0; } static int tcp_oob_callback(void *object, const uint8_t *public_key, const uint8_t *data, uint16_t length, void *userdata) { if (length == 0) { return -1; } TCP_Client_Connection *TCP_client_con = (TCP_Client_Connection *)object; TCP_Connections *tcp_c = (TCP_Connections *)TCP_client_con->custom_object; unsigned int tcp_connections_number = TCP_client_con->custom_uint; TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } /* TODO(irungentoo): optimize */ int connections_number = find_tcp_connection_to(tcp_c, public_key); TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (con_to && tcp_connection_in_conn(con_to, tcp_connections_number)) { return tcp_data_callback(object, connections_number, 0, data, length, userdata); } if (tcp_c->tcp_oob_callback) { tcp_c->tcp_oob_callback(tcp_c->tcp_oob_callback_object, public_key, tcp_connections_number, data, length, userdata); } return 0; } static int tcp_onion_callback(void *object, const uint8_t *data, uint16_t length, void *userdata) { TCP_Connections *tcp_c = (TCP_Connections *)object; if (tcp_c->tcp_onion_callback) { tcp_c->tcp_onion_callback(tcp_c->tcp_onion_callback_object, data, length, userdata); } return 0; } /* Set callbacks for the TCP relay connection. * * return 0 on success. * return -1 on failure. */ static int tcp_relay_set_callbacks(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } TCP_Client_Connection *con = tcp_con->connection; con->custom_object = tcp_c; con->custom_uint = tcp_connections_number; onion_response_handler(con, &tcp_onion_callback, tcp_c); routing_response_handler(con, &tcp_response_callback, con); routing_status_handler(con, &tcp_status_callback, con); routing_data_handler(con, &tcp_data_callback, con); oob_data_handler(con, &tcp_oob_callback, con); return 0; } static int tcp_relay_on_online(TCP_Connections *tcp_c, int tcp_connections_number) { TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } unsigned int i, sent = 0; for (i = 0; i < tcp_c->connections_length; ++i) { TCP_Connection_to *con_to = get_connection(tcp_c, i); if (con_to) { if (tcp_connection_in_conn(con_to, tcp_connections_number)) { if (send_tcp_relay_routing_request(tcp_c, tcp_connections_number, con_to->public_key) == 0) { ++sent; } } } } tcp_relay_set_callbacks(tcp_c, tcp_connections_number); tcp_con->status = TCP_CONN_CONNECTED; /* If this connection isn't used by any connection, we don't need to wait for them to come online. */ if (sent) { tcp_con->connected_time = unix_time(); } else { tcp_con->connected_time = 0; } if (tcp_c->onion_status && tcp_c->onion_num_conns < NUM_ONION_TCP_CONNECTIONS) { tcp_con->onion = 1; ++tcp_c->onion_num_conns; } return 0; } static int add_tcp_relay_instance(TCP_Connections *tcp_c, IP_Port ip_port, const uint8_t *relay_pk) { if (ip_port.ip.family == TCP_INET) { ip_port.ip.family = AF_INET; } else if (ip_port.ip.family == TCP_INET6) { ip_port.ip.family = AF_INET6; } if (ip_port.ip.family != AF_INET && ip_port.ip.family != AF_INET6) { return -1; } int tcp_connections_number = create_tcp_connection(tcp_c); if (tcp_connections_number == -1) { return -1; } TCP_con *tcp_con = &tcp_c->tcp_connections[tcp_connections_number]; tcp_con->connection = new_TCP_connection(ip_port, relay_pk, tcp_c->self_public_key, tcp_c->self_secret_key, &tcp_c->proxy_info); if (!tcp_con->connection) { return -1; } tcp_con->status = TCP_CONN_VALID; return tcp_connections_number; } /* Add a TCP relay to the TCP_Connections instance. * * return 0 on success. * return -1 on failure. */ int add_tcp_relay_global(TCP_Connections *tcp_c, IP_Port ip_port, const uint8_t *relay_pk) { int tcp_connections_number = find_tcp_connection_relay(tcp_c, relay_pk); if (tcp_connections_number != -1) { return -1; } if (add_tcp_relay_instance(tcp_c, ip_port, relay_pk) == -1) { return -1; } return 0; } /* Add a TCP relay tied to a connection. * * return 0 on success. * return -1 on failure. */ int add_tcp_number_relay_connection(TCP_Connections *tcp_c, int connections_number, unsigned int tcp_connections_number) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return -1; } TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (con_to->status != TCP_CONN_SLEEPING && tcp_con->status == TCP_CONN_SLEEPING) { tcp_con->unsleep = 1; } if (add_tcp_connection_to_conn(con_to, tcp_connections_number) == -1) { return -1; } if (tcp_con->status == TCP_CONN_CONNECTED) { if (send_tcp_relay_routing_request(tcp_c, tcp_connections_number, con_to->public_key) == 0) { tcp_con->connected_time = unix_time(); } } return 0; } /* Add a TCP relay tied to a connection. * * This should be called with the same relay by two peers who want to create a TCP connection with each other. * * return 0 on success. * return -1 on failure. */ int add_tcp_relay_connection(TCP_Connections *tcp_c, int connections_number, IP_Port ip_port, const uint8_t *relay_pk) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return -1; } int tcp_connections_number = find_tcp_connection_relay(tcp_c, relay_pk); if (tcp_connections_number != -1) { return add_tcp_number_relay_connection(tcp_c, connections_number, tcp_connections_number); } if (online_tcp_connection_from_conn(con_to) >= RECOMMENDED_FRIEND_TCP_CONNECTIONS) { return -1; } tcp_connections_number = add_tcp_relay_instance(tcp_c, ip_port, relay_pk); TCP_con *tcp_con = get_tcp_connection(tcp_c, tcp_connections_number); if (!tcp_con) { return -1; } if (add_tcp_connection_to_conn(con_to, tcp_connections_number) == -1) { return -1; } return 0; } /* return number of online tcp relays tied to the connection on success. * return 0 on failure. */ unsigned int tcp_connection_to_online_tcp_relays(TCP_Connections *tcp_c, int connections_number) { TCP_Connection_to *con_to = get_connection(tcp_c, connections_number); if (!con_to) { return 0; } return online_tcp_connection_from_conn(con_to); } /* Copy a maximum of max_num TCP relays we are connected to to tcp_relays. * NOTE that the family of the copied ip ports will be set to TCP_INET or TCP_INET6. * * return number of relays copied to tcp_relays on success. * return 0 on failure. */ unsigned int tcp_copy_connected_relays(TCP_Connections *tcp_c, Node_format *tcp_relays, uint16_t max_num) { unsigned int i, copied = 0, r = rand(); for (i = 0; (i < tcp_c->tcp_connections_length) && (copied < max_num); ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, (i + r) % tcp_c->tcp_connections_length); if (!tcp_con) { continue; } if (tcp_con->status == TCP_CONN_CONNECTED) { memcpy(tcp_relays[copied].public_key, tcp_con->connection->public_key, CRYPTO_PUBLIC_KEY_SIZE); tcp_relays[copied].ip_port = tcp_con->connection->ip_port; if (tcp_relays[copied].ip_port.ip.family == AF_INET) { tcp_relays[copied].ip_port.ip.family = TCP_INET; } else if (tcp_relays[copied].ip_port.ip.family == AF_INET6) { tcp_relays[copied].ip_port.ip.family = TCP_INET6; } ++copied; } } return copied; } /* Set if we want TCP_connection to allocate some connection for onion use. * * If status is 1, allocate some connections. if status is 0, don't. * * return 0 on success. * return -1 on failure. */ int set_tcp_onion_status(TCP_Connections *tcp_c, bool status) { if (tcp_c->onion_status == status) { return -1; } if (status) { unsigned int i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->status == TCP_CONN_CONNECTED && !tcp_con->onion) { ++tcp_c->onion_num_conns; tcp_con->onion = 1; } } if (tcp_c->onion_num_conns >= NUM_ONION_TCP_CONNECTIONS) { break; } } if (tcp_c->onion_num_conns < NUM_ONION_TCP_CONNECTIONS) { unsigned int wakeup = NUM_ONION_TCP_CONNECTIONS - tcp_c->onion_num_conns; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->status == TCP_CONN_SLEEPING) { tcp_con->unsleep = 1; } } if (!wakeup) { break; } } } tcp_c->onion_status = 1; } else { unsigned int i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->onion) { --tcp_c->onion_num_conns; tcp_con->onion = 0; } } } tcp_c->onion_status = 0; } return 0; } /* Returns a new TCP_Connections object associated with the secret_key. * * In order for others to connect to this instance new_tcp_connection_to() must be called with the * public_key associated with secret_key. * * Returns NULL on failure. */ TCP_Connections *new_tcp_connections(const uint8_t *secret_key, TCP_Proxy_Info *proxy_info) { if (secret_key == NULL) { return NULL; } TCP_Connections *temp = (TCP_Connections *)calloc(1, sizeof(TCP_Connections)); if (temp == NULL) { return NULL; } memcpy(temp->self_secret_key, secret_key, CRYPTO_SECRET_KEY_SIZE); crypto_derive_public_key(temp->self_public_key, temp->self_secret_key); temp->proxy_info = *proxy_info; return temp; } static void do_tcp_conns(TCP_Connections *tcp_c, void *userdata) { unsigned int i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->status != TCP_CONN_SLEEPING) { do_TCP_connection(tcp_con->connection, userdata); /* callbacks can change TCP connection address. */ tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con->connection->status == TCP_CLIENT_DISCONNECTED) { if (tcp_con->status == TCP_CONN_CONNECTED) { reconnect_tcp_relay_connection(tcp_c, i); } else { kill_tcp_relay_connection(tcp_c, i); } continue; } if (tcp_con->status == TCP_CONN_VALID && tcp_con->connection->status == TCP_CLIENT_CONFIRMED) { tcp_relay_on_online(tcp_c, i); } if (tcp_con->status == TCP_CONN_CONNECTED && !tcp_con->onion && tcp_con->lock_count && tcp_con->lock_count == tcp_con->sleep_count && is_timeout(tcp_con->connected_time, TCP_CONNECTION_ANNOUNCE_TIMEOUT)) { sleep_tcp_relay_connection(tcp_c, i); } } if (tcp_con->status == TCP_CONN_SLEEPING && tcp_con->unsleep) { unsleep_tcp_relay_connection(tcp_c, i); } } } } static void kill_nonused_tcp(TCP_Connections *tcp_c) { if (tcp_c->tcp_connections_length == 0) { return; } unsigned int i, num_online = 0, num_kill = 0, to_kill[tcp_c->tcp_connections_length]; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { TCP_con *tcp_con = get_tcp_connection(tcp_c, i); if (tcp_con) { if (tcp_con->status == TCP_CONN_CONNECTED) { if (!tcp_con->onion && !tcp_con->lock_count && is_timeout(tcp_con->connected_time, TCP_CONNECTION_ANNOUNCE_TIMEOUT)) { to_kill[num_kill] = i; ++num_kill; } ++num_online; } } } if (num_online <= RECOMMENDED_FRIEND_TCP_CONNECTIONS) { return; } unsigned int n = num_online - RECOMMENDED_FRIEND_TCP_CONNECTIONS; if (n < num_kill) { num_kill = n; } for (i = 0; i < num_kill; ++i) { kill_tcp_relay_connection(tcp_c, to_kill[i]); } } void do_tcp_connections(TCP_Connections *tcp_c, void *userdata) { do_tcp_conns(tcp_c, userdata); kill_nonused_tcp(tcp_c); } void kill_tcp_connections(TCP_Connections *tcp_c) { unsigned int i; for (i = 0; i < tcp_c->tcp_connections_length; ++i) { kill_TCP_connection(tcp_c->tcp_connections[i].connection); } free(tcp_c->tcp_connections); free(tcp_c->connections); free(tcp_c); }