/******************************************************************************* * Copyright (c) 2009, 2018 IBM Corp. * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * and Eclipse Distribution License v1.0 which accompany this distribution. * * The Eclipse Public License is available at * http://www.eclipse.org/legal/epl-v10.html * and the Eclipse Distribution License is available at * http://www.eclipse.org/org/documents/edl-v10.php. * * Contributors: * Ian Craggs - initial API and implementation and/or initial documentation * Ian Craggs, Allan Stockdill-Mander - SSL updates * Ian Craggs - fix for buffer overflow in addressPort bug #433290 * Ian Craggs - MQTT 3.1.1 support * Rong Xiang, Ian Craggs - C++ compatibility * Ian Craggs - fix for bug 479376 * Ian Craggs - SNI support * Ian Craggs - fix for issue #164 * Ian Craggs - fix for issue #179 * Ian Craggs - MQTT 5.0 support *******************************************************************************/ /** * @file * \brief Functions dealing with the MQTT protocol exchanges * * Some other related functions are in the MQTTProtocolClient module */ #include #include #include "MQTTProtocolOut.h" #include "StackTrace.h" #include "Heap.h" #include "WebSocket.h" #define PRINT_TIME_TAG #define DBG_TAG "MQTTProtocolOut" #define DBG_LVL DBG_INFO #include "debug_print.h" extern ClientStates* bstate; /** * Separates an address:port into two separate values * @param[in] uri the input string - hostname:port * @param[out] port the returned port integer * @param[out] topic optional topic portion of the address starting with '/' * @return the address string */ size_t MQTTProtocol_addressPort(const char* uri, int* port, const char **topic) { char* colon_pos = strrchr(uri, ':'); /* reverse find to allow for ':' in IPv6 addresses */ char* buf = (char*)uri; size_t len; FUNC_ENTRY; if (uri[0] == '[') { /* ip v6 */ if (colon_pos < strrchr(uri, ']')) colon_pos = NULL; /* means it was an IPv6 separator, not for host:port */ } if (colon_pos) /* have to strip off the port */ { len = colon_pos - uri; *port = atoi(colon_pos + 1); } else { len = strlen(buf); *port = DEFAULT_PORT; } /* try and find topic portion */ if ( topic ) { const char* addr_start = uri; if ( colon_pos ) addr_start = colon_pos; *topic = strchr( addr_start, '/' ); } if (buf[len - 1] == ']') { /* we are stripping off the final ], so length is 1 shorter */ --len; } FUNC_EXIT; return len; } /** * MQTT outgoing connect processing for a client * @param ip_address the TCP address:port to connect to * @param aClient a structure with all MQTT data needed * @param int ssl * @param int MQTTVersion the MQTT version to connect with (3 or 4) * @return return code */ #if defined(OPENSSL) int MQTTProtocol_connect(const char* ip_address, Clients* aClient, int ssl, int websocket, int MQTTVersion, MQTTProperties* connectProperties, MQTTProperties* willProperties) #else int MQTTProtocol_connect(const char* ip_address, Clients* aClient, int websocket, int MQTTVersion, MQTTProperties* connectProperties, MQTTProperties* willProperties) #endif { int rc, port; size_t addr_len; FUNC_ENTRY; aClient->good = 1; addr_len = MQTTProtocol_addressPort(ip_address, &port, NULL); rc = Socket_new(ip_address, addr_len, port, &(aClient->net.socket)); if (rc == EINPROGRESS || rc == EWOULDBLOCK) aClient->connect_state = TCP_IN_PROGRESS; /* TCP connect called - wait for connect completion */ else if (rc == 0) { /* TCP connect completed. If SSL, send SSL connect */ #if defined(OPENSSL) if (ssl) { if (SSLSocket_setSocketForSSL(&aClient->net, aClient->sslopts, ip_address, addr_len) == 1) { rc = aClient->sslopts->struct_version >= 3 ? SSLSocket_connect(aClient->net.ssl, aClient->net.socket, ip_address, aClient->sslopts->verify, aClient->sslopts->ssl_error_cb, aClient->sslopts->ssl_error_context) : SSLSocket_connect(aClient->net.ssl, aClient->net.socket, ip_address, aClient->sslopts->verify, NULL, NULL); if (rc == TCPSOCKET_INTERRUPTED) aClient->connect_state = SSL_IN_PROGRESS; /* SSL connect called - wait for completion */ } else rc = SOCKET_ERROR; } #endif if ( websocket ) { rc = WebSocket_connect( &aClient->net, ip_address ); if ( rc == TCPSOCKET_INTERRUPTED ) aClient->connect_state = WEBSOCKET_IN_PROGRESS; /* Websocket connect called - wait for completion */ } if (rc == 0) { /* Now send the MQTT connect packet */ if ((rc = MQTTPacket_send_connect(aClient, MQTTVersion, connectProperties, willProperties)) == 0) aClient->connect_state = WAIT_FOR_CONNACK; /* MQTT Connect sent - wait for CONNACK */ else aClient->connect_state = NOT_IN_PROGRESS; } } FUNC_EXIT_RC(rc); return rc; } /** * Process an incoming pingresp packet for a socket * @param pack pointer to the publish packet * @param sock the socket on which the packet was received * @return completion code */ int MQTTProtocol_handlePingresps(void* pack, int sock) { Clients* client = NULL; int rc = TCPSOCKET_COMPLETE; FUNC_ENTRY; client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content); Log(LOG_PROTOCOL, 21, NULL, sock, client->clientID); client->ping_outstanding = 0; //LOG_I("PINGRESP receive success\n"); FUNC_EXIT_RC(rc); return rc; } /** * MQTT outgoing subscribe processing for a client * @param client the client structure * @param topics list of topics * @param qoss corresponding list of QoSs * @param opts MQTT 5.0 subscribe options * @param props MQTT 5.0 subscribe properties * @return completion code */ int MQTTProtocol_subscribe(Clients* client, List* topics, List* qoss, int msgID, MQTTSubscribe_options* opts, MQTTProperties* props) { int rc = 0; FUNC_ENTRY; rc = MQTTPacket_send_subscribe(topics, qoss, opts, props, msgID, 0, client); FUNC_EXIT_RC(rc); return rc; } /** * Process an incoming suback packet for a socket * @param pack pointer to the publish packet * @param sock the socket on which the packet was received * @return completion code */ int MQTTProtocol_handleSubacks(void* pack, int sock) { Suback* suback = (Suback*)pack; Clients* client = NULL; int rc = TCPSOCKET_COMPLETE; FUNC_ENTRY; client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content); Log(LOG_PROTOCOL, 23, NULL, sock, client->clientID, suback->msgId); MQTTPacket_freeSuback(suback); FUNC_EXIT_RC(rc); return rc; } /** * MQTT outgoing unsubscribe processing for a client * @param client the client structure * @param topics list of topics * @return completion code */ int MQTTProtocol_unsubscribe(Clients* client, List* topics, int msgID, MQTTProperties* props) { int rc = 0; FUNC_ENTRY; rc = MQTTPacket_send_unsubscribe(topics, props, msgID, 0, client); FUNC_EXIT_RC(rc); return rc; } /** * Process an incoming unsuback packet for a socket * @param pack pointer to the publish packet * @param sock the socket on which the packet was received * @return completion code */ int MQTTProtocol_handleUnsubacks(void* pack, int sock) { Unsuback* unsuback = (Unsuback*)pack; Clients* client = NULL; int rc = TCPSOCKET_COMPLETE; FUNC_ENTRY; client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content); Log(LOG_PROTOCOL, 24, NULL, sock, client->clientID, unsuback->msgId); MQTTPacket_freeUnsuback(unsuback); FUNC_EXIT_RC(rc); return rc; }