/* * Implementation of the TCP relay client part of Tox. */ /* * Copyright © 2016-2017 The TokTok team. * Copyright © 2014 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 . */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "TCP_client.h" #include #include #include #include "util.h" struct TCP_Client_Connection { TCP_CLIENT_STATUS status; Socket sock; uint8_t self_public_key[CRYPTO_PUBLIC_KEY_SIZE]; /* our public key */ uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE]; /* public key of the server */ IP_Port ip_port; /* The ip and port of the server */ TCP_Proxy_Info proxy_info; uint8_t recv_nonce[CRYPTO_NONCE_SIZE]; /* Nonce of received packets. */ uint8_t sent_nonce[CRYPTO_NONCE_SIZE]; /* Nonce of sent packets. */ uint8_t shared_key[CRYPTO_SHARED_KEY_SIZE]; uint16_t next_packet_length; uint8_t temp_secret_key[CRYPTO_SECRET_KEY_SIZE]; uint8_t last_packet[2 + MAX_PACKET_SIZE]; uint16_t last_packet_length; uint16_t last_packet_sent; TCP_Priority_List *priority_queue_start, *priority_queue_end; uint64_t kill_at; uint64_t last_pinged; uint64_t ping_id; uint64_t ping_response_id; uint64_t ping_request_id; struct { uint8_t status; /* 0 if not used, 1 if other is offline, 2 if other is online. */ uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE]; uint32_t number; } connections[NUM_CLIENT_CONNECTIONS]; int (*response_callback)(void *object, uint8_t connection_id, const uint8_t *public_key); void *response_callback_object; int (*status_callback)(void *object, uint32_t number, uint8_t connection_id, uint8_t status); void *status_callback_object; int (*data_callback)(void *object, uint32_t number, uint8_t connection_id, const uint8_t *data, uint16_t length, void *userdata); void *data_callback_object; int (*oob_data_callback)(void *object, const uint8_t *public_key, const uint8_t *data, uint16_t length, void *userdata); void *oob_data_callback_object; int (*onion_callback)(void *object, const uint8_t *data, uint16_t length, void *userdata); void *onion_callback_object; /* Can be used by user. */ void *custom_object; uint32_t custom_uint; }; const uint8_t *tcp_con_public_key(const TCP_Client_Connection *con) { return con->public_key; } IP_Port tcp_con_ip_port(const TCP_Client_Connection *con) { return con->ip_port; } TCP_CLIENT_STATUS tcp_con_status(const TCP_Client_Connection *con) { return con->status; } void *tcp_con_custom_object(const TCP_Client_Connection *con) { return con->custom_object; } uint32_t tcp_con_custom_uint(const TCP_Client_Connection *con) { return con->custom_uint; } void tcp_con_set_custom_object(TCP_Client_Connection *con, void *object) { con->custom_object = object; } void tcp_con_set_custom_uint(TCP_Client_Connection *con, uint32_t value) { con->custom_uint = value; } /* return 1 on success * return 0 on failure */ static int connect_sock_to(Socket sock, IP_Port ip_port, TCP_Proxy_Info *proxy_info) { if (proxy_info->proxy_type != TCP_PROXY_NONE) { ip_port = proxy_info->ip_port; } /* nonblocking socket, connect will never return success */ net_connect(sock, ip_port); return 1; } /* return 1 on success. * return 0 on failure. */ static int proxy_http_generate_connection_request(TCP_Client_Connection *TCP_conn) { char one[] = "CONNECT "; char two[] = " HTTP/1.1\nHost: "; char three[] = "\r\n\r\n"; char ip[TOX_INET6_ADDRSTRLEN]; if (!ip_parse_addr(&TCP_conn->ip_port.ip, ip, sizeof(ip))) { return 0; } const uint16_t port = net_ntohs(TCP_conn->ip_port.port); const int written = snprintf((char *)TCP_conn->last_packet, MAX_PACKET_SIZE, "%s%s:%hu%s%s:%hu%s", one, ip, port, two, ip, port, three); if (written < 0 || MAX_PACKET_SIZE < written) { return 0; } TCP_conn->last_packet_length = written; TCP_conn->last_packet_sent = 0; return 1; } /* return 1 on success. * return 0 if no data received. * return -1 on failure (connection refused). */ static int proxy_http_read_connection_response(TCP_Client_Connection *TCP_conn) { char success[] = "200"; uint8_t data[16]; // draining works the best if the length is a power of 2 int ret = read_TCP_packet(TCP_conn->sock, data, sizeof(data) - 1); if (ret == -1) { return 0; } data[sizeof(data) - 1] = 0; if (strstr((char *)data, success)) { // drain all data unsigned int data_left = net_socket_data_recv_buffer(TCP_conn->sock); if (data_left) { VLA(uint8_t, temp_data, data_left); read_TCP_packet(TCP_conn->sock, temp_data, data_left); } return 1; } return -1; } static void proxy_socks5_generate_handshake(TCP_Client_Connection *TCP_conn) { TCP_conn->last_packet[0] = 5; /* SOCKSv5 */ TCP_conn->last_packet[1] = 1; /* number of authentication methods supported */ TCP_conn->last_packet[2] = 0; /* No authentication */ TCP_conn->last_packet_length = 3; TCP_conn->last_packet_sent = 0; } /* return 1 on success. * return 0 if no data received. * return -1 on failure (connection refused). */ static int socks5_read_handshake_response(TCP_Client_Connection *TCP_conn) { uint8_t data[2]; int ret = read_TCP_packet(TCP_conn->sock, data, sizeof(data)); if (ret == -1) { return 0; } if (data[0] == 5 && data[1] == 0) { // TODO(irungentoo): magic numbers return 1; } return -1; } static void proxy_socks5_generate_connection_request(TCP_Client_Connection *TCP_conn) { TCP_conn->last_packet[0] = 5; /* SOCKSv5 */ TCP_conn->last_packet[1] = 1; /* command code: establish a TCP/IP stream connection */ TCP_conn->last_packet[2] = 0; /* reserved, must be 0 */ uint16_t length = 3; if (net_family_is_ipv4(TCP_conn->ip_port.ip.family)) { TCP_conn->last_packet[3] = 1; /* IPv4 address */ ++length; memcpy(TCP_conn->last_packet + length, TCP_conn->ip_port.ip.ip.v4.uint8, sizeof(IP4)); length += sizeof(IP4); } else { TCP_conn->last_packet[3] = 4; /* IPv6 address */ ++length; memcpy(TCP_conn->last_packet + length, TCP_conn->ip_port.ip.ip.v6.uint8, sizeof(IP6)); length += sizeof(IP6); } memcpy(TCP_conn->last_packet + length, &TCP_conn->ip_port.port, sizeof(uint16_t)); length += sizeof(uint16_t); TCP_conn->last_packet_length = length; TCP_conn->last_packet_sent = 0; } /* return 1 on success. * return 0 if no data received. * return -1 on failure (connection refused). */ static int proxy_socks5_read_connection_response(TCP_Client_Connection *TCP_conn) { if (net_family_is_ipv4(TCP_conn->ip_port.ip.family)) { uint8_t data[4 + sizeof(IP4) + sizeof(uint16_t)]; int ret = read_TCP_packet(TCP_conn->sock, data, sizeof(data)); if (ret == -1) { return 0; } if (data[0] == 5 && data[1] == 0) { return 1; } } else { uint8_t data[4 + sizeof(IP6) + sizeof(uint16_t)]; int ret = read_TCP_packet(TCP_conn->sock, data, sizeof(data)); if (ret == -1) { return 0; } if (data[0] == 5 && data[1] == 0) { return 1; } } return -1; } /* return 0 on success. * return -1 on failure. */ static int generate_handshake(TCP_Client_Connection *TCP_conn) { uint8_t plain[CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE]; crypto_new_keypair(plain, TCP_conn->temp_secret_key); random_nonce(TCP_conn->sent_nonce); memcpy(plain + CRYPTO_PUBLIC_KEY_SIZE, TCP_conn->sent_nonce, CRYPTO_NONCE_SIZE); memcpy(TCP_conn->last_packet, TCP_conn->self_public_key, CRYPTO_PUBLIC_KEY_SIZE); random_nonce(TCP_conn->last_packet + CRYPTO_PUBLIC_KEY_SIZE); int len = encrypt_data_symmetric(TCP_conn->shared_key, TCP_conn->last_packet + CRYPTO_PUBLIC_KEY_SIZE, plain, sizeof(plain), TCP_conn->last_packet + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE); if (len != sizeof(plain) + CRYPTO_MAC_SIZE) { return -1; } TCP_conn->last_packet_length = CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + sizeof(plain) + CRYPTO_MAC_SIZE; TCP_conn->last_packet_sent = 0; return 0; } /* data must be of length TCP_SERVER_HANDSHAKE_SIZE * * return 0 on success. * return -1 on failure. */ static int handle_handshake(TCP_Client_Connection *TCP_conn, const uint8_t *data) { uint8_t plain[CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE]; int len = decrypt_data_symmetric(TCP_conn->shared_key, data, data + CRYPTO_NONCE_SIZE, TCP_SERVER_HANDSHAKE_SIZE - CRYPTO_NONCE_SIZE, plain); if (len != sizeof(plain)) { return -1; } memcpy(TCP_conn->recv_nonce, plain + CRYPTO_PUBLIC_KEY_SIZE, CRYPTO_NONCE_SIZE); encrypt_precompute(plain, TCP_conn->temp_secret_key, TCP_conn->shared_key); crypto_memzero(TCP_conn->temp_secret_key, CRYPTO_SECRET_KEY_SIZE); return 0; } /* return 0 if pending data was sent completely * return -1 if it wasn't */ static int client_send_pending_data_nonpriority(TCP_Client_Connection *con) { if (con->last_packet_length == 0) { return 0; } const uint16_t left = con->last_packet_length - con->last_packet_sent; const int len = net_send(con->sock, con->last_packet + con->last_packet_sent, left); if (len <= 0) { return -1; } if (len == left) { con->last_packet_length = 0; con->last_packet_sent = 0; return 0; } con->last_packet_sent += len; return -1; } /* return 0 if pending data was sent completely * return -1 if it wasn't */ static int client_send_pending_data(TCP_Client_Connection *con) { /* finish sending current non-priority packet */ if (client_send_pending_data_nonpriority(con) == -1) { return -1; } TCP_Priority_List *p = con->priority_queue_start; while (p) { const uint16_t left = p->size - p->sent; const int len = net_send(con->sock, p->data + p->sent, left); if (len != left) { if (len > 0) { p->sent += len; } break; } TCP_Priority_List *pp = p; p = p->next; free(pp); } con->priority_queue_start = p; if (!p) { con->priority_queue_end = nullptr; return 0; } return -1; } /* return 0 on failure (only if malloc fails) * return 1 on success */ static bool client_add_priority(TCP_Client_Connection *con, const uint8_t *packet, uint16_t size, uint16_t sent) { TCP_Priority_List *p = con->priority_queue_end; TCP_Priority_List *new_list = (TCP_Priority_List *)malloc(sizeof(TCP_Priority_List) + size); if (!new_list) { return 0; } new_list->next = nullptr; new_list->size = size; new_list->sent = sent; memcpy(new_list->data, packet, size); if (p) { p->next = new_list; } else { con->priority_queue_start = new_list; } con->priority_queue_end = new_list; return 1; } static void wipe_priority_list(TCP_Client_Connection *con) { TCP_Priority_List *p = con->priority_queue_start; while (p) { TCP_Priority_List *pp = p; p = p->next; free(pp); } } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ static int write_packet_TCP_client_secure_connection(TCP_Client_Connection *con, const uint8_t *data, uint16_t length, bool priority) { if (length + CRYPTO_MAC_SIZE > MAX_PACKET_SIZE) { return -1; } bool sendpriority = 1; if (client_send_pending_data(con) == -1) { if (priority) { sendpriority = 0; } else { return 0; } } VLA(uint8_t, packet, sizeof(uint16_t) + length + CRYPTO_MAC_SIZE); uint16_t c_length = net_htons(length + CRYPTO_MAC_SIZE); memcpy(packet, &c_length, sizeof(uint16_t)); int len = encrypt_data_symmetric(con->shared_key, con->sent_nonce, data, length, packet + sizeof(uint16_t)); if ((unsigned int)len != (SIZEOF_VLA(packet) - sizeof(uint16_t))) { return -1; } if (priority) { len = sendpriority ? net_send(con->sock, packet, SIZEOF_VLA(packet)) : 0; if (len <= 0) { len = 0; } increment_nonce(con->sent_nonce); if ((unsigned int)len == SIZEOF_VLA(packet)) { return 1; } return client_add_priority(con, packet, SIZEOF_VLA(packet), len); } len = net_send(con->sock, packet, SIZEOF_VLA(packet)); if (len <= 0) { return 0; } increment_nonce(con->sent_nonce); if ((unsigned int)len == SIZEOF_VLA(packet)) { return 1; } memcpy(con->last_packet, packet, SIZEOF_VLA(packet)); con->last_packet_length = SIZEOF_VLA(packet); con->last_packet_sent = len; return 1; } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ int send_routing_request(TCP_Client_Connection *con, uint8_t *public_key) { uint8_t packet[1 + CRYPTO_PUBLIC_KEY_SIZE]; packet[0] = TCP_PACKET_ROUTING_REQUEST; memcpy(packet + 1, public_key, CRYPTO_PUBLIC_KEY_SIZE); return write_packet_TCP_client_secure_connection(con, packet, sizeof(packet), 1); } void routing_response_handler(TCP_Client_Connection *con, int (*response_callback)(void *object, uint8_t connection_id, const uint8_t *public_key), void *object) { con->response_callback = response_callback; con->response_callback_object = object; } void routing_status_handler(TCP_Client_Connection *con, int (*status_callback)(void *object, uint32_t number, uint8_t connection_id, uint8_t status), void *object) { con->status_callback = status_callback; con->status_callback_object = object; } static int tcp_send_ping_response(TCP_Client_Connection *con); static int tcp_send_ping_request(TCP_Client_Connection *con); /* return 1 on success. * return 0 if could not send packet. * return -1 on failure. */ int send_data(TCP_Client_Connection *con, uint8_t con_id, const uint8_t *data, uint16_t length) { if (con_id >= NUM_CLIENT_CONNECTIONS) { return -1; } if (con->connections[con_id].status != 2) { return -1; } if (tcp_send_ping_response(con) == 0 || tcp_send_ping_request(con) == 0) { return 0; } VLA(uint8_t, packet, 1 + length); packet[0] = con_id + NUM_RESERVED_PORTS; memcpy(packet + 1, data, length); return write_packet_TCP_client_secure_connection(con, packet, SIZEOF_VLA(packet), 0); } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure. */ int send_oob_packet(TCP_Client_Connection *con, const uint8_t *public_key, const uint8_t *data, uint16_t length) { if (length == 0 || length > TCP_MAX_OOB_DATA_LENGTH) { return -1; } VLA(uint8_t, packet, 1 + CRYPTO_PUBLIC_KEY_SIZE + length); packet[0] = TCP_PACKET_OOB_SEND; memcpy(packet + 1, public_key, CRYPTO_PUBLIC_KEY_SIZE); memcpy(packet + 1 + CRYPTO_PUBLIC_KEY_SIZE, data, length); return write_packet_TCP_client_secure_connection(con, packet, SIZEOF_VLA(packet), 0); } /* Set the number that will be used as an argument in the callbacks related to con_id. * * When not set by this function, the number is ~0. * * return 0 on success. * return -1 on failure. */ int set_tcp_connection_number(TCP_Client_Connection *con, uint8_t con_id, uint32_t number) { if (con_id >= NUM_CLIENT_CONNECTIONS) { return -1; } if (con->connections[con_id].status == 0) { return -1; } con->connections[con_id].number = number; return 0; } void routing_data_handler(TCP_Client_Connection *con, int (*data_callback)(void *object, uint32_t number, uint8_t connection_id, const uint8_t *data, uint16_t length, void *userdata), void *object) { con->data_callback = data_callback; con->data_callback_object = object; } void oob_data_handler(TCP_Client_Connection *con, int (*oob_data_callback)(void *object, const uint8_t *public_key, const uint8_t *data, uint16_t length, void *userdata), void *object) { con->oob_data_callback = oob_data_callback; con->oob_data_callback_object = object; } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ static int client_send_disconnect_notification(TCP_Client_Connection *con, uint8_t id) { uint8_t packet[1 + 1]; packet[0] = TCP_PACKET_DISCONNECT_NOTIFICATION; packet[1] = id; return write_packet_TCP_client_secure_connection(con, packet, sizeof(packet), 1); } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ static int tcp_send_ping_request(TCP_Client_Connection *con) { if (!con->ping_request_id) { return 1; } uint8_t packet[1 + sizeof(uint64_t)]; packet[0] = TCP_PACKET_PING; memcpy(packet + 1, &con->ping_request_id, sizeof(uint64_t)); int ret; if ((ret = write_packet_TCP_client_secure_connection(con, packet, sizeof(packet), 1)) == 1) { con->ping_request_id = 0; } return ret; } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ static int tcp_send_ping_response(TCP_Client_Connection *con) { if (!con->ping_response_id) { return 1; } uint8_t packet[1 + sizeof(uint64_t)]; packet[0] = TCP_PACKET_PONG; memcpy(packet + 1, &con->ping_response_id, sizeof(uint64_t)); int ret; if ((ret = write_packet_TCP_client_secure_connection(con, packet, sizeof(packet), 1)) == 1) { con->ping_response_id = 0; } return ret; } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ int send_disconnect_request(TCP_Client_Connection *con, uint8_t con_id) { if (con_id >= NUM_CLIENT_CONNECTIONS) { return -1; } con->connections[con_id].status = 0; con->connections[con_id].number = 0; return client_send_disconnect_notification(con, con_id + NUM_RESERVED_PORTS); } /* return 1 on success. * return 0 if could not send packet. * return -1 on failure (connection must be killed). */ int send_onion_request(TCP_Client_Connection *con, const uint8_t *data, uint16_t length) { VLA(uint8_t, packet, 1 + length); packet[0] = TCP_PACKET_ONION_REQUEST; memcpy(packet + 1, data, length); return write_packet_TCP_client_secure_connection(con, packet, SIZEOF_VLA(packet), 0); } void onion_response_handler(TCP_Client_Connection *con, int (*onion_callback)(void *object, const uint8_t *data, uint16_t length, void *userdata), void *object) { con->onion_callback = onion_callback; con->onion_callback_object = object; } /* Create new TCP connection to ip_port/public_key */ TCP_Client_Connection *new_TCP_connection(IP_Port ip_port, const uint8_t *public_key, const uint8_t *self_public_key, const uint8_t *self_secret_key, TCP_Proxy_Info *proxy_info) { if (networking_at_startup() != 0) { return nullptr; } if (!net_family_is_ipv4(ip_port.ip.family) && !net_family_is_ipv6(ip_port.ip.family)) { return nullptr; } TCP_Proxy_Info default_proxyinfo; if (proxy_info == nullptr) { default_proxyinfo.proxy_type = TCP_PROXY_NONE; proxy_info = &default_proxyinfo; } Family family = ip_port.ip.family; if (proxy_info->proxy_type != TCP_PROXY_NONE) { family = proxy_info->ip_port.ip.family; } Socket sock = net_socket(family, TOX_SOCK_STREAM, TOX_PROTO_TCP); if (!sock_valid(sock)) { return nullptr; } if (!set_socket_nosigpipe(sock)) { kill_sock(sock); return nullptr; } if (!(set_socket_nonblock(sock) && connect_sock_to(sock, ip_port, proxy_info))) { kill_sock(sock); return nullptr; } TCP_Client_Connection *temp = (TCP_Client_Connection *)calloc(sizeof(TCP_Client_Connection), 1); if (temp == nullptr) { kill_sock(sock); return nullptr; } temp->sock = sock; memcpy(temp->public_key, public_key, CRYPTO_PUBLIC_KEY_SIZE); memcpy(temp->self_public_key, self_public_key, CRYPTO_PUBLIC_KEY_SIZE); encrypt_precompute(temp->public_key, self_secret_key, temp->shared_key); temp->ip_port = ip_port; temp->proxy_info = *proxy_info; switch (proxy_info->proxy_type) { case TCP_PROXY_HTTP: temp->status = TCP_CLIENT_PROXY_HTTP_CONNECTING; proxy_http_generate_connection_request(temp); break; case TCP_PROXY_SOCKS5: temp->status = TCP_CLIENT_PROXY_SOCKS5_CONNECTING; proxy_socks5_generate_handshake(temp); break; case TCP_PROXY_NONE: temp->status = TCP_CLIENT_CONNECTING; if (generate_handshake(temp) == -1) { kill_sock(sock); free(temp); return nullptr; } break; } temp->kill_at = unix_time() + TCP_CONNECTION_TIMEOUT; return temp; } /* return 0 on success * return -1 on failure */ static int handle_TCP_client_packet(TCP_Client_Connection *conn, const uint8_t *data, uint16_t length, void *userdata) { if (length <= 1) { return -1; } switch (data[0]) { case TCP_PACKET_ROUTING_RESPONSE: { if (length != 1 + 1 + CRYPTO_PUBLIC_KEY_SIZE) { return -1; } if (data[1] < NUM_RESERVED_PORTS) { return 0; } uint8_t con_id = data[1] - NUM_RESERVED_PORTS; if (conn->connections[con_id].status != 0) { return 0; } conn->connections[con_id].status = 1; conn->connections[con_id].number = ~0; memcpy(conn->connections[con_id].public_key, data + 2, CRYPTO_PUBLIC_KEY_SIZE); if (conn->response_callback) { conn->response_callback(conn->response_callback_object, con_id, conn->connections[con_id].public_key); } return 0; } case TCP_PACKET_CONNECTION_NOTIFICATION: { if (length != 1 + 1) { return -1; } if (data[1] < NUM_RESERVED_PORTS) { return -1; } uint8_t con_id = data[1] - NUM_RESERVED_PORTS; if (conn->connections[con_id].status != 1) { return 0; } conn->connections[con_id].status = 2; if (conn->status_callback) { conn->status_callback(conn->status_callback_object, conn->connections[con_id].number, con_id, conn->connections[con_id].status); } return 0; } case TCP_PACKET_DISCONNECT_NOTIFICATION: { if (length != 1 + 1) { return -1; } if (data[1] < NUM_RESERVED_PORTS) { return -1; } uint8_t con_id = data[1] - NUM_RESERVED_PORTS; if (conn->connections[con_id].status == 0) { return 0; } if (conn->connections[con_id].status != 2) { return 0; } conn->connections[con_id].status = 1; if (conn->status_callback) { conn->status_callback(conn->status_callback_object, conn->connections[con_id].number, con_id, conn->connections[con_id].status); } return 0; } case TCP_PACKET_PING: { if (length != 1 + sizeof(uint64_t)) { return -1; } uint64_t ping_id; memcpy(&ping_id, data + 1, sizeof(uint64_t)); conn->ping_response_id = ping_id; tcp_send_ping_response(conn); return 0; } case TCP_PACKET_PONG: { if (length != 1 + sizeof(uint64_t)) { return -1; } uint64_t ping_id; memcpy(&ping_id, data + 1, sizeof(uint64_t)); if (ping_id) { if (ping_id == conn->ping_id) { conn->ping_id = 0; } return 0; } return -1; } case TCP_PACKET_OOB_RECV: { if (length <= 1 + CRYPTO_PUBLIC_KEY_SIZE) { return -1; } if (conn->oob_data_callback) { conn->oob_data_callback(conn->oob_data_callback_object, data + 1, data + 1 + CRYPTO_PUBLIC_KEY_SIZE, length - (1 + CRYPTO_PUBLIC_KEY_SIZE), userdata); } return 0; } case TCP_PACKET_ONION_RESPONSE: { conn->onion_callback(conn->onion_callback_object, data + 1, length - 1, userdata); return 0; } default: { if (data[0] < NUM_RESERVED_PORTS) { return -1; } uint8_t con_id = data[0] - NUM_RESERVED_PORTS; if (conn->data_callback) { conn->data_callback(conn->data_callback_object, conn->connections[con_id].number, con_id, data + 1, length - 1, userdata); } } } return 0; } static int do_confirmed_TCP(TCP_Client_Connection *conn, void *userdata) { client_send_pending_data(conn); tcp_send_ping_response(conn); tcp_send_ping_request(conn); uint8_t packet[MAX_PACKET_SIZE]; int len; if (is_timeout(conn->last_pinged, TCP_PING_FREQUENCY)) { uint64_t ping_id = random_u64(); if (!ping_id) { ++ping_id; } conn->ping_request_id = conn->ping_id = ping_id; tcp_send_ping_request(conn); conn->last_pinged = unix_time(); } if (conn->ping_id && is_timeout(conn->last_pinged, TCP_PING_TIMEOUT)) { conn->status = TCP_CLIENT_DISCONNECTED; return 0; } while ((len = read_packet_TCP_secure_connection(conn->sock, &conn->next_packet_length, conn->shared_key, conn->recv_nonce, packet, sizeof(packet)))) { if (len == -1) { conn->status = TCP_CLIENT_DISCONNECTED; break; } if (handle_TCP_client_packet(conn, packet, len, userdata) == -1) { conn->status = TCP_CLIENT_DISCONNECTED; break; } } return 0; } /* Run the TCP connection */ void do_TCP_connection(TCP_Client_Connection *TCP_connection, void *userdata) { unix_time_update(); if (TCP_connection->status == TCP_CLIENT_DISCONNECTED) { return; } if (TCP_connection->status == TCP_CLIENT_PROXY_HTTP_CONNECTING) { if (client_send_pending_data(TCP_connection) == 0) { int ret = proxy_http_read_connection_response(TCP_connection); if (ret == -1) { TCP_connection->kill_at = 0; TCP_connection->status = TCP_CLIENT_DISCONNECTED; } if (ret == 1) { generate_handshake(TCP_connection); TCP_connection->status = TCP_CLIENT_CONNECTING; } } } if (TCP_connection->status == TCP_CLIENT_PROXY_SOCKS5_CONNECTING) { if (client_send_pending_data(TCP_connection) == 0) { int ret = socks5_read_handshake_response(TCP_connection); if (ret == -1) { TCP_connection->kill_at = 0; TCP_connection->status = TCP_CLIENT_DISCONNECTED; } if (ret == 1) { proxy_socks5_generate_connection_request(TCP_connection); TCP_connection->status = TCP_CLIENT_PROXY_SOCKS5_UNCONFIRMED; } } } if (TCP_connection->status == TCP_CLIENT_PROXY_SOCKS5_UNCONFIRMED) { if (client_send_pending_data(TCP_connection) == 0) { int ret = proxy_socks5_read_connection_response(TCP_connection); if (ret == -1) { TCP_connection->kill_at = 0; TCP_connection->status = TCP_CLIENT_DISCONNECTED; } if (ret == 1) { generate_handshake(TCP_connection); TCP_connection->status = TCP_CLIENT_CONNECTING; } } } if (TCP_connection->status == TCP_CLIENT_CONNECTING) { if (client_send_pending_data(TCP_connection) == 0) { TCP_connection->status = TCP_CLIENT_UNCONFIRMED; } } if (TCP_connection->status == TCP_CLIENT_UNCONFIRMED) { uint8_t data[TCP_SERVER_HANDSHAKE_SIZE]; int len = read_TCP_packet(TCP_connection->sock, data, sizeof(data)); if (sizeof(data) == len) { if (handle_handshake(TCP_connection, data) == 0) { TCP_connection->kill_at = ~0; TCP_connection->status = TCP_CLIENT_CONFIRMED; } else { TCP_connection->kill_at = 0; TCP_connection->status = TCP_CLIENT_DISCONNECTED; } } } if (TCP_connection->status == TCP_CLIENT_CONFIRMED) { do_confirmed_TCP(TCP_connection, userdata); } if (TCP_connection->kill_at <= unix_time()) { TCP_connection->status = TCP_CLIENT_DISCONNECTED; } } /* Kill the TCP connection */ void kill_TCP_connection(TCP_Client_Connection *TCP_connection) { if (TCP_connection == nullptr) { return; } wipe_priority_list(TCP_connection); kill_sock(TCP_connection->sock); crypto_memzero(TCP_connection, sizeof(TCP_Client_Connection)); free(TCP_connection); }