/******************************************************************************* * Copyright (c) 2009, 2014 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 - bug 384016 - segv setting will message * Ian Craggs - bug 384053 - v1.0.0.7 - stop MQTTClient_receive on socket error * Ian Craggs, Allan Stockdill-Mander - add ability to connect with SSL * Ian Craggs - multiple server connection support * Ian Craggs - fix for bug 413429 - connectionLost not called * Ian Craggs - fix for bug 421103 - trying to write to same socket, in publish/retries * Ian Craggs - fix for bug 419233 - mutexes not reporting errors * Ian Craggs - fix for bug 420851 * Ian Craggs - fix for bug 432903 - queue persistence * Ian Craggs - MQTT 3.1.1 support * Ian Craggs - fix for bug 438176 - MQTT version selection * Rong Xiang, Ian Craggs - C++ compatibility * Ian Craggs - fix for bug 443724 - stack corruption *******************************************************************************/ /** * @file * \brief Synchronous API implementation * */ #define _GNU_SOURCE /* for pthread_mutexattr_settype */ #include #if !defined(WIN32) && !defined(WIN64) #include #endif #include "MQTTClient.h" #if !defined(NO_PERSISTENCE) #include "MQTTPersistence.h" #endif #include "utf-8.h" #include "MQTTProtocol.h" #include "MQTTProtocolOut.h" #include "Thread.h" #include "SocketBuffer.h" #include "StackTrace.h" #include "Heap.h" #if defined(OPENSSL) #include #endif #define URI_TCP "tcp://" #define BUILD_TIMESTAMP "##MQTTCLIENT_BUILD_TAG##" #define CLIENT_VERSION "##MQTTCLIENT_VERSION_TAG##" char* client_timestamp_eye = "MQTTClientV3_Timestamp " BUILD_TIMESTAMP; char* client_version_eye = "MQTTClientV3_Version " CLIENT_VERSION; static ClientStates ClientState = { CLIENT_VERSION, /* version */ NULL /* client list */ }; ClientStates* bstate = &ClientState; MQTTProtocol state; #if defined(WIN32) || defined(WIN64) static mutex_type mqttclient_mutex = NULL; extern mutex_type stack_mutex; extern mutex_type heap_mutex; extern mutex_type log_mutex; BOOL APIENTRY DllMain(HANDLE hModule, DWORD ul_reason_for_call, LPVOID lpReserved) { switch (ul_reason_for_call) { case DLL_PROCESS_ATTACH: Log(TRACE_MAX, -1, "DLL process attach"); if (mqttclient_mutex == NULL) { mqttclient_mutex = CreateMutex(NULL, 0, NULL); stack_mutex = CreateMutex(NULL, 0, NULL); heap_mutex = CreateMutex(NULL, 0, NULL); log_mutex = CreateMutex(NULL, 0, NULL); } case DLL_THREAD_ATTACH: Log(TRACE_MAX, -1, "DLL thread attach"); case DLL_THREAD_DETACH: Log(TRACE_MAX, -1, "DLL thread detach"); case DLL_PROCESS_DETACH: Log(TRACE_MAX, -1, "DLL process detach"); } return TRUE; } #else static pthread_mutex_t mqttclient_mutex_store = PTHREAD_MUTEX_INITIALIZER; static mutex_type mqttclient_mutex = &mqttclient_mutex_store; void MQTTClient_init() { pthread_mutexattr_t attr; int rc; pthread_mutexattr_init(&attr); pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); if ((rc = pthread_mutex_init(mqttclient_mutex, &attr)) != 0) printf("MQTTClient: error %d initializing client_mutex\n", rc); } #define WINAPI #endif static volatile int initialized = 0; static List* handles = NULL; static time_t last; static int running = 0; static int tostop = 0; static thread_id_type run_id = 0; MQTTPacket* MQTTClient_waitfor(MQTTClient handle, int packet_type, int* rc, long timeout); MQTTPacket* MQTTClient_cycle(int* sock, unsigned long timeout, int* rc); int MQTTClient_cleanSession(Clients* client); void MQTTClient_stop(); int MQTTClient_disconnect_internal(MQTTClient handle, int timeout); int MQTTClient_disconnect1(MQTTClient handle, int timeout, int internal, int stop); void MQTTClient_writeComplete(int socket); typedef struct { MQTTClient_message* msg; char* topicName; int topicLen; unsigned int seqno; /* only used on restore */ } qEntry; typedef struct { char* serverURI; #if defined(OPENSSL) int ssl; #endif Clients* c; MQTTClient_connectionLost* cl; MQTTClient_messageArrived* ma; MQTTClient_deliveryComplete* dc; void* context; sem_type connect_sem; int rc; /* getsockopt return code in connect */ sem_type connack_sem; sem_type suback_sem; sem_type unsuback_sem; MQTTPacket* pack; } MQTTClients; void MQTTClient_sleep(long milliseconds) { FUNC_ENTRY; #if defined(WIN32) || defined(WIN64) Sleep(milliseconds); #else usleep(milliseconds*1000); #endif FUNC_EXIT; } #if defined(WIN32) || defined(WIN64) #define START_TIME_TYPE DWORD START_TIME_TYPE MQTTClient_start_clock(void) { return GetTickCount(); } #elif defined(AIX) #define START_TIME_TYPE struct timespec START_TIME_TYPE MQTTClient_start_clock(void) { static struct timespec start; clock_gettime(CLOCK_REALTIME, &start); return start; } #else #define START_TIME_TYPE struct timeval START_TIME_TYPE MQTTClient_start_clock(void) { static struct timeval start; gettimeofday(&start, NULL); return start; } #endif #if defined(WIN32) || defined(WIN64) long MQTTClient_elapsed(DWORD milliseconds) { return GetTickCount() - milliseconds; } #elif defined(AIX) #define assert(a) long MQTTClient_elapsed(struct timespec start) { struct timespec now, res; clock_gettime(CLOCK_REALTIME, &now); ntimersub(now, start, res); return (res.tv_sec)*1000L + (res.tv_nsec)/1000000L; } #else long MQTTClient_elapsed(struct timeval start) { struct timeval now, res; gettimeofday(&now, NULL); timersub(&now, &start, &res); return (res.tv_sec)*1000 + (res.tv_usec)/1000; } #endif int MQTTClient_create(MQTTClient* handle, const char* serverURI, const char* clientId, int persistence_type, void* persistence_context) { int rc = 0; MQTTClients *m = NULL; FUNC_ENTRY; rc = Thread_lock_mutex(mqttclient_mutex); if (serverURI == NULL || clientId == NULL) { rc = MQTTCLIENT_NULL_PARAMETER; goto exit; } if (!UTF8_validateString(clientId)) { rc = MQTTCLIENT_BAD_UTF8_STRING; goto exit; } if (!initialized) { #if defined(HEAP_H) Heap_initialize(); #endif Log_initialize((Log_nameValue*)MQTTClient_getVersionInfo()); bstate->clients = ListInitialize(); Socket_outInitialize(); Socket_setWriteCompleteCallback(MQTTClient_writeComplete); handles = ListInitialize(); #if defined(OPENSSL) SSLSocket_initialize(); #endif initialized = 1; } m = malloc(sizeof(MQTTClients)); *handle = m; memset(m, '\0', sizeof(MQTTClients)); if (strncmp(URI_TCP, serverURI, strlen(URI_TCP)) == 0) serverURI += strlen(URI_TCP); #if defined(OPENSSL) else if (strncmp(URI_SSL, serverURI, strlen(URI_SSL)) == 0) { serverURI += strlen(URI_SSL); m->ssl = 1; } #endif m->serverURI = MQTTStrdup(serverURI); ListAppend(handles, m, sizeof(MQTTClients)); m->c = malloc(sizeof(Clients)); memset(m->c, '\0', sizeof(Clients)); m->c->context = m; m->c->outboundMsgs = ListInitialize(); m->c->inboundMsgs = ListInitialize(); m->c->messageQueue = ListInitialize(); m->c->clientID = MQTTStrdup(clientId); m->connect_sem = Thread_create_sem(); m->connack_sem = Thread_create_sem(); m->suback_sem = Thread_create_sem(); m->unsuback_sem = Thread_create_sem(); #if !defined(NO_PERSISTENCE) rc = MQTTPersistence_create(&(m->c->persistence), persistence_type, persistence_context); if (rc == 0) { rc = MQTTPersistence_initialize(m->c, m->serverURI); if (rc == 0) MQTTPersistence_restoreMessageQueue(m->c); } #endif ListAppend(bstate->clients, m->c, sizeof(Clients) + 3*sizeof(List)); exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } void MQTTClient_terminate(void) { FUNC_ENTRY; MQTTClient_stop(); if (initialized) { ListFree(bstate->clients); ListFree(handles); handles = NULL; Socket_outTerminate(); #if defined(OPENSSL) SSLSocket_terminate(); #endif #if defined(HEAP_H) Heap_terminate(); #endif Log_terminate(); initialized = 0; } FUNC_EXIT; } void MQTTClient_emptyMessageQueue(Clients* client) { FUNC_ENTRY; /* empty message queue */ if (client->messageQueue->count > 0) { ListElement* current = NULL; while (ListNextElement(client->messageQueue, ¤t)) { qEntry* qe = (qEntry*)(current->content); free(qe->topicName); free(qe->msg->payload); free(qe->msg); } ListEmpty(client->messageQueue); } FUNC_EXIT; } void MQTTClient_destroy(MQTTClient* handle) { MQTTClients* m = *handle; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL) goto exit; if (m->c) { int saved_socket = m->c->net.socket; char* saved_clientid = MQTTStrdup(m->c->clientID); #if !defined(NO_PERSISTENCE) MQTTPersistence_close(m->c); #endif MQTTClient_emptyMessageQueue(m->c); MQTTProtocol_freeClient(m->c); if (!ListRemove(bstate->clients, m->c)) Log(LOG_ERROR, 0, NULL); else Log(TRACE_MIN, 1, NULL, saved_clientid, saved_socket); free(saved_clientid); } if (m->serverURI) free(m->serverURI); Thread_destroy_sem(m->connect_sem); Thread_destroy_sem(m->connack_sem); Thread_destroy_sem(m->suback_sem); Thread_destroy_sem(m->unsuback_sem); if (!ListRemove(handles, m)) Log(LOG_ERROR, -1, "free error"); *handle = NULL; if (bstate->clients->count == 0) MQTTClient_terminate(); exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT; } void MQTTClient_freeMessage(MQTTClient_message** message) { FUNC_ENTRY; free((*message)->payload); free(*message); *message = NULL; FUNC_EXIT; } void MQTTClient_free(void* memory) { FUNC_ENTRY; free(memory); FUNC_EXIT; } int MQTTClient_deliverMessage(int rc, MQTTClients* m, char** topicName, int* topicLen, MQTTClient_message** message) { qEntry* qe = (qEntry*)(m->c->messageQueue->first->content); FUNC_ENTRY; *message = qe->msg; *topicName = qe->topicName; *topicLen = qe->topicLen; if (strlen(*topicName) != *topicLen) rc = MQTTCLIENT_TOPICNAME_TRUNCATED; #if !defined(NO_PERSISTENCE) if (m->c->persistence) MQTTPersistence_unpersistQueueEntry(m->c, (MQTTPersistence_qEntry*)qe); #endif ListRemove(m->c->messageQueue, m->c->messageQueue->first->content); FUNC_EXIT_RC(rc); return rc; } /** * List callback function for comparing clients by socket * @param a first integer value * @param b second integer value * @return boolean indicating whether a and b are equal */ int clientSockCompare(void* a, void* b) { MQTTClients* m = (MQTTClients*)a; return m->c->net.socket == *(int*)b; } /** * Wrapper function to call connection lost on a separate thread. A separate thread is needed to allow the * connectionLost function to make API calls (e.g. connect) * @param context a pointer to the relevant client * @return thread_return_type standard thread return value - not used here */ thread_return_type WINAPI connectionLost_call(void* context) { MQTTClients* m = (MQTTClients*)context; (*(m->cl))(m->context, NULL); return 0; } /* This is the thread function that handles the calling of callback functions if set */ thread_return_type WINAPI MQTTClient_run(void* n) { long timeout = 10L; /* first time in we have a small timeout. Gets things started more quickly */ FUNC_ENTRY; running = 1; run_id = Thread_getid(); Thread_lock_mutex(mqttclient_mutex); while (!tostop) { int rc = SOCKET_ERROR; int sock = -1; MQTTClients* m = NULL; MQTTPacket* pack = NULL; Thread_unlock_mutex(mqttclient_mutex); pack = MQTTClient_cycle(&sock, timeout, &rc); Thread_lock_mutex(mqttclient_mutex); if (tostop) break; timeout = 1000L; /* find client corresponding to socket */ if (ListFindItem(handles, &sock, clientSockCompare) == NULL) { /* assert: should not happen */ continue; } m = (MQTTClient)(handles->current->content); if (m == NULL) { /* assert: should not happen */ continue; } if (rc == SOCKET_ERROR) { if (m->c->connected) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_disconnect_internal(m, 0); Thread_lock_mutex(mqttclient_mutex); } else { if (m->c->connect_state == 2 && !Thread_check_sem(m->connect_sem)) { Log(TRACE_MIN, -1, "Posting connect semaphore for client %s", m->c->clientID); Thread_post_sem(m->connect_sem); } if (m->c->connect_state == 3 && !Thread_check_sem(m->connack_sem)) { Log(TRACE_MIN, -1, "Posting connack semaphore for client %s", m->c->clientID); Thread_post_sem(m->connack_sem); } } } else { if (m->c->messageQueue->count > 0) { qEntry* qe = (qEntry*)(m->c->messageQueue->first->content); int topicLen = qe->topicLen; if (strlen(qe->topicName) == topicLen) topicLen = 0; Log(TRACE_MIN, -1, "Calling messageArrived for client %s, queue depth %d", m->c->clientID, m->c->messageQueue->count); Thread_unlock_mutex(mqttclient_mutex); rc = (*(m->ma))(m->context, qe->topicName, topicLen, qe->msg); Thread_lock_mutex(mqttclient_mutex); /* if 0 (false) is returned by the callback then it failed, so we don't remove the message from * the queue, and it will be retried later. If 1 is returned then the message data may have been freed, * so we must be careful how we use it. */ if (rc) ListRemove(m->c->messageQueue, qe); else Log(TRACE_MIN, -1, "False returned from messageArrived for client %s, message remains on queue", m->c->clientID); } if (pack) { if (pack->header.bits.type == CONNACK && !Thread_check_sem(m->connack_sem)) { Log(TRACE_MIN, -1, "Posting connack semaphore for client %s", m->c->clientID); m->pack = pack; Thread_post_sem(m->connack_sem); } else if (pack->header.bits.type == SUBACK) { Log(TRACE_MIN, -1, "Posting suback semaphore for client %s", m->c->clientID); m->pack = pack; Thread_post_sem(m->suback_sem); } else if (pack->header.bits.type == UNSUBACK) { Log(TRACE_MIN, -1, "Posting unsuback semaphore for client %s", m->c->clientID); m->pack = pack; Thread_post_sem(m->unsuback_sem); } } else if (m->c->connect_state == 1 && !Thread_check_sem(m->connect_sem)) { int error; socklen_t len = sizeof(error); if ((m->rc = getsockopt(m->c->net.socket, SOL_SOCKET, SO_ERROR, (char*)&error, &len)) == 0) m->rc = error; Log(TRACE_MIN, -1, "Posting connect semaphore for client %s rc %d", m->c->clientID, m->rc); Thread_post_sem(m->connect_sem); } #if defined(OPENSSL) else if (m->c->connect_state == 2 && !Thread_check_sem(m->connect_sem)) { rc = SSLSocket_connect(m->c->net.ssl, m->c->net.socket); if (rc == 1 || rc == SSL_FATAL) { if (rc == 1 && !m->c->cleansession && m->c->session == NULL) m->c->session = SSL_get1_session(m->c->net.ssl); m->rc = rc; Log(TRACE_MIN, -1, "Posting connect semaphore for SSL client %s rc %d", m->c->clientID, m->rc); Thread_post_sem(m->connect_sem); } } #endif } } run_id = 0; running = tostop = 0; Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT; return 0; } void MQTTClient_stop() { int rc = 0; FUNC_ENTRY; if (running == 1 && tostop == 0) { int conn_count = 0; ListElement* current = NULL; if (handles != NULL) { /* find out how many handles are still connected */ while (ListNextElement(handles, ¤t)) { if (((MQTTClients*)(current->content))->c->connect_state > 0 || ((MQTTClients*)(current->content))->c->connected) ++conn_count; } } Log(TRACE_MIN, -1, "Conn_count is %d", conn_count); /* stop the background thread, if we are the last one to be using it */ if (conn_count == 0) { int count = 0; tostop = 1; if (Thread_getid() != run_id) { while (running && ++count < 100) { Thread_unlock_mutex(mqttclient_mutex); Log(TRACE_MIN, -1, "sleeping"); MQTTClient_sleep(100L); Thread_lock_mutex(mqttclient_mutex); } } rc = 1; } } FUNC_EXIT_RC(rc); } int MQTTClient_setCallbacks(MQTTClient handle, void* context, MQTTClient_connectionLost* cl, MQTTClient_messageArrived* ma, MQTTClient_deliveryComplete* dc) { int rc = MQTTCLIENT_SUCCESS; MQTTClients* m = handle; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || ma == NULL || m->c->connect_state != 0) rc = MQTTCLIENT_FAILURE; else { m->context = context; m->cl = cl; m->ma = ma; m->dc = dc; } Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } void MQTTClient_closeSession(Clients* client) { FUNC_ENTRY; client->good = 0; client->ping_outstanding = 0; if (client->net.socket > 0) { if (client->connected) MQTTPacket_send_disconnect(&client->net, client->clientID); #if defined(OPENSSL) SSLSocket_close(&client->net); #endif Socket_close(client->net.socket); client->net.socket = 0; #if defined(OPENSSL) client->net.ssl = NULL; #endif } client->connected = 0; client->connect_state = 0; if (client->cleansession) MQTTClient_cleanSession(client); FUNC_EXIT; } int MQTTClient_cleanSession(Clients* client) { int rc = 0; FUNC_ENTRY; #if !defined(NO_PERSISTENCE) rc = MQTTPersistence_clear(client); #endif MQTTProtocol_emptyMessageList(client->inboundMsgs); MQTTProtocol_emptyMessageList(client->outboundMsgs); MQTTClient_emptyMessageQueue(client); client->msgID = 0; FUNC_EXIT_RC(rc); return rc; } void Protocol_processPublication(Publish* publish, Clients* client) { qEntry* qe = NULL; MQTTClient_message* mm = NULL; FUNC_ENTRY; qe = malloc(sizeof(qEntry)); mm = malloc(sizeof(MQTTClient_message)); qe->msg = mm; qe->topicName = publish->topic; qe->topicLen = publish->topiclen; publish->topic = NULL; /* If the message is QoS 2, then we have already stored the incoming payload * in an allocated buffer, so we don't need to copy again. */ if (publish->header.bits.qos == 2) mm->payload = publish->payload; else { mm->payload = malloc(publish->payloadlen); memcpy(mm->payload, publish->payload, publish->payloadlen); } mm->payloadlen = publish->payloadlen; mm->qos = publish->header.bits.qos; mm->retained = publish->header.bits.retain; if (publish->header.bits.qos == 2) mm->dup = 0; /* ensure that a QoS2 message is not passed to the application with dup = 1 */ else mm->dup = publish->header.bits.dup; mm->msgid = publish->msgId; ListAppend(client->messageQueue, qe, sizeof(qe) + sizeof(mm) + mm->payloadlen + strlen(qe->topicName)+1); #if !defined(NO_PERSISTENCE) if (client->persistence) MQTTPersistence_persistQueueEntry(client, (MQTTPersistence_qEntry*)qe); #endif FUNC_EXIT; } int MQTTClient_connectURIVersion(MQTTClient handle, MQTTClient_connectOptions* options, const char* serverURI, int MQTTVersion, START_TIME_TYPE start, long millisecsTimeout) { MQTTClients* m = handle; int rc = SOCKET_ERROR; int sessionPresent = 0; FUNC_ENTRY; if (m->ma && !running) { Thread_start(MQTTClient_run, handle); if (MQTTClient_elapsed(start) >= millisecsTimeout) { rc = SOCKET_ERROR; goto exit; } MQTTClient_sleep(100L); } Log(TRACE_MIN, -1, "Connecting to serverURI %s with MQTT version %d", serverURI, MQTTVersion); #if defined(OPENSSL) rc = MQTTProtocol_connect(serverURI, m->c, m->ssl, MQTTVersion); #else rc = MQTTProtocol_connect(serverURI, m->c, MQTTVersion); #endif if (rc == SOCKET_ERROR) goto exit; if (m->c->connect_state == 0) { rc = SOCKET_ERROR; goto exit; } if (m->c->connect_state == 1) /* TCP connect started - wait for completion */ { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_waitfor(handle, CONNECT, &rc, millisecsTimeout - MQTTClient_elapsed(start)); Thread_lock_mutex(mqttclient_mutex); if (rc != 0) { rc = SOCKET_ERROR; goto exit; } #if defined(OPENSSL) if (m->ssl) { if (SSLSocket_setSocketForSSL(&m->c->net, m->c->sslopts) != MQTTCLIENT_SUCCESS) { if (m->c->session != NULL) if ((rc = SSL_set_session(m->c->net.ssl, m->c->session)) != 1) Log(TRACE_MIN, -1, "Failed to set SSL session with stored data, non critical"); rc = SSLSocket_connect(m->c->net.ssl, m->c->net.socket); if (rc == TCPSOCKET_INTERRUPTED) m->c->connect_state = 2; /* the connect is still in progress */ else if (rc == SSL_FATAL) { rc = SOCKET_ERROR; goto exit; } else if (rc == 1) { rc = MQTTCLIENT_SUCCESS; m->c->connect_state = 3; if (MQTTPacket_send_connect(m->c, MQTTVersion) == SOCKET_ERROR) { rc = SOCKET_ERROR; goto exit; } if (!m->c->cleansession && m->c->session == NULL) m->c->session = SSL_get1_session(m->c->net.ssl); } } else { rc = SOCKET_ERROR; goto exit; } } else { #endif m->c->connect_state = 3; /* TCP connect completed, in which case send the MQTT connect packet */ if (MQTTPacket_send_connect(m->c, MQTTVersion) == SOCKET_ERROR) { rc = SOCKET_ERROR; goto exit; } #if defined(OPENSSL) } #endif } #if defined(OPENSSL) if (m->c->connect_state == 2) /* SSL connect sent - wait for completion */ { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_waitfor(handle, CONNECT, &rc, millisecsTimeout - MQTTClient_elapsed(start)); Thread_lock_mutex(mqttclient_mutex); if (rc != 1) { rc = SOCKET_ERROR; goto exit; } if(!m->c->cleansession && m->c->session == NULL) m->c->session = SSL_get1_session(m->c->net.ssl); m->c->connect_state = 3; /* TCP connect completed, in which case send the MQTT connect packet */ if (MQTTPacket_send_connect(m->c, MQTTVersion) == SOCKET_ERROR) { rc = SOCKET_ERROR; goto exit; } } #endif if (m->c->connect_state == 3) /* MQTT connect sent - wait for CONNACK */ { MQTTPacket* pack = NULL; Thread_unlock_mutex(mqttclient_mutex); pack = MQTTClient_waitfor(handle, CONNACK, &rc, millisecsTimeout - MQTTClient_elapsed(start)); Thread_lock_mutex(mqttclient_mutex); if (pack == NULL) rc = SOCKET_ERROR; else { Connack* connack = (Connack*)pack; Log(TRACE_PROTOCOL, 1, NULL, m->c->net.socket, m->c->clientID, connack->rc); if ((rc = connack->rc) == MQTTCLIENT_SUCCESS) { m->c->connected = 1; m->c->good = 1; m->c->connect_state = 0; if (MQTTVersion == 4) sessionPresent = connack->flags.bits.sessionPresent; if (m->c->cleansession) rc = MQTTClient_cleanSession(m->c); if (m->c->outboundMsgs->count > 0) { ListElement* outcurrent = NULL; while (ListNextElement(m->c->outboundMsgs, &outcurrent)) { Messages* m = (Messages*)(outcurrent->content); m->lastTouch = 0; } MQTTProtocol_retry((time_t)0, 1, 1); if (m->c->connected != 1) rc = MQTTCLIENT_DISCONNECTED; } } free(connack); m->pack = NULL; } } exit: if (rc == MQTTCLIENT_SUCCESS) { if (options->struct_version == 4) /* means we have to fill out return values */ { options->returned.serverURI = serverURI; options->returned.MQTTVersion = MQTTVersion; options->returned.sessionPresent = sessionPresent; } } else { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_disconnect1(handle, 0, 0, (MQTTVersion == 3)); /* not "internal" because we don't want to call connection lost */ Thread_lock_mutex(mqttclient_mutex); } FUNC_EXIT_RC(rc); return rc; } int MQTTClient_connectURI(MQTTClient handle, MQTTClient_connectOptions* options, const char* serverURI) { MQTTClients* m = handle; START_TIME_TYPE start; long millisecsTimeout = 30000L; int rc = SOCKET_ERROR; int MQTTVersion = 0; FUNC_ENTRY; millisecsTimeout = options->connectTimeout * 1000; start = MQTTClient_start_clock(); m->c->keepAliveInterval = options->keepAliveInterval; m->c->cleansession = options->cleansession; m->c->maxInflightMessages = (options->reliable) ? 1 : 10; if (m->c->will) { free(m->c->will->msg); free(m->c->will->topic); free(m->c->will); m->c->will = NULL; } if (options->will && options->will->struct_version == 0) { m->c->will = malloc(sizeof(willMessages)); m->c->will->msg = MQTTStrdup(options->will->message); m->c->will->qos = options->will->qos; m->c->will->retained = options->will->retained; m->c->will->topic = MQTTStrdup(options->will->topicName); } #if defined(OPENSSL) if (m->c->sslopts) { if (m->c->sslopts->trustStore) free((void*)m->c->sslopts->trustStore); if (m->c->sslopts->keyStore) free((void*)m->c->sslopts->keyStore); if (m->c->sslopts->privateKey) free((void*)m->c->sslopts->privateKey); if (m->c->sslopts->privateKeyPassword) free((void*)m->c->sslopts->privateKeyPassword); if (m->c->sslopts->enabledCipherSuites) free((void*)m->c->sslopts->enabledCipherSuites); free(m->c->sslopts); m->c->sslopts = NULL; } if (options->struct_version != 0 && options->ssl) { m->c->sslopts = malloc(sizeof(MQTTClient_SSLOptions)); memset(m->c->sslopts, '\0', sizeof(MQTTClient_SSLOptions)); if (options->ssl->trustStore) m->c->sslopts->trustStore = MQTTStrdup(options->ssl->trustStore); if (options->ssl->keyStore) m->c->sslopts->keyStore = MQTTStrdup(options->ssl->keyStore); if (options->ssl->privateKey) m->c->sslopts->privateKey = MQTTStrdup(options->ssl->privateKey); if (options->ssl->privateKeyPassword) m->c->sslopts->privateKeyPassword = MQTTStrdup(options->ssl->privateKeyPassword); if (options->ssl->enabledCipherSuites) m->c->sslopts->enabledCipherSuites = MQTTStrdup(options->ssl->enabledCipherSuites); m->c->sslopts->enableServerCertAuth = options->ssl->enableServerCertAuth; } #endif m->c->username = options->username; m->c->password = options->password; m->c->retryInterval = options->retryInterval; if (options->struct_version >= 3) MQTTVersion = options->MQTTVersion; else MQTTVersion = MQTTVERSION_DEFAULT; if (MQTTVersion == MQTTVERSION_DEFAULT) { if ((rc = MQTTClient_connectURIVersion(handle, options, serverURI, 4, start, millisecsTimeout)) != MQTTCLIENT_SUCCESS) rc = MQTTClient_connectURIVersion(handle, options, serverURI, 3, start, millisecsTimeout); } else rc = MQTTClient_connectURIVersion(handle, options, serverURI, MQTTVersion, start, millisecsTimeout); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_connect(MQTTClient handle, MQTTClient_connectOptions* options) { MQTTClients* m = handle; int rc = SOCKET_ERROR; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (options == NULL) { rc = MQTTCLIENT_NULL_PARAMETER; goto exit; } if (strncmp(options->struct_id, "MQTC", 4) != 0 || (options->struct_version != 0 && options->struct_version != 1 && options->struct_version != 2 && options->struct_version != 3 && options->struct_version != 4)) { rc = MQTTCLIENT_BAD_STRUCTURE; goto exit; } if (options->will) /* check validity of will options structure */ { if (strncmp(options->will->struct_id, "MQTW", 4) != 0 || options->will->struct_version != 0) { rc = MQTTCLIENT_BAD_STRUCTURE; goto exit; } } #if defined(OPENSSL) if (options->struct_version != 0 && options->ssl) /* check validity of SSL options structure */ { if (strncmp(options->ssl->struct_id, "MQTS", 4) != 0 || options->ssl->struct_version != 0) { rc = MQTTCLIENT_BAD_STRUCTURE; goto exit; } } #endif if ((options->username && !UTF8_validateString(options->username)) || (options->password && !UTF8_validateString(options->password))) { rc = MQTTCLIENT_BAD_UTF8_STRING; goto exit; } if (options->struct_version < 2 || options->serverURIcount == 0) rc = MQTTClient_connectURI(handle, options, m->serverURI); else { int i; for (i = 0; i < options->serverURIcount; ++i) { char* serverURI = options->serverURIs[i]; if (strncmp(URI_TCP, serverURI, strlen(URI_TCP)) == 0) serverURI += strlen(URI_TCP); #if defined(OPENSSL) else if (strncmp(URI_SSL, serverURI, strlen(URI_SSL)) == 0) { serverURI += strlen(URI_SSL); m->ssl = 1; } #endif if ((rc = MQTTClient_connectURI(handle, options, serverURI)) == MQTTCLIENT_SUCCESS) break; } } exit: if (m->c->will) { free(m->c->will); m->c->will = NULL; } Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_disconnect1(MQTTClient handle, int timeout, int internal, int stop) { MQTTClients* m = handle; START_TIME_TYPE start; int rc = MQTTCLIENT_SUCCESS; int was_connected = 0; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || m->c == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c->connected == 0 && m->c->connect_state == 0) { rc = MQTTCLIENT_DISCONNECTED; goto exit; } was_connected = m->c->connected; /* should be 1 */ if (m->c->connected != 0) { start = MQTTClient_start_clock(); m->c->connect_state = -2; /* indicate disconnecting */ while (m->c->inboundMsgs->count > 0 || m->c->outboundMsgs->count > 0) { /* wait for all inflight message flows to finish, up to timeout */ if (MQTTClient_elapsed(start) >= timeout) break; Thread_unlock_mutex(mqttclient_mutex); MQTTClient_yield(); Thread_lock_mutex(mqttclient_mutex); } } MQTTClient_closeSession(m->c); while (Thread_check_sem(m->connect_sem)) Thread_wait_sem(m->connect_sem, 100); while (Thread_check_sem(m->connack_sem)) Thread_wait_sem(m->connack_sem, 100); while (Thread_check_sem(m->suback_sem)) Thread_wait_sem(m->suback_sem, 100); while (Thread_check_sem(m->unsuback_sem)) Thread_wait_sem(m->unsuback_sem, 100); exit: if (stop) MQTTClient_stop(); if (internal && m->cl && was_connected) { Log(TRACE_MIN, -1, "Calling connectionLost for client %s", m->c->clientID); Thread_start(connectionLost_call, m); } Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_disconnect_internal(MQTTClient handle, int timeout) { return MQTTClient_disconnect1(handle, timeout, 1, 1); } void MQTTProtocol_closeSession(Clients* c, int sendwill) { MQTTClient_disconnect_internal((MQTTClient)c->context, 0); } int MQTTClient_disconnect(MQTTClient handle, int timeout) { return MQTTClient_disconnect1(handle, timeout, 0, 1); } int MQTTClient_isConnected(MQTTClient handle) { MQTTClients* m = handle; int rc = 0; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m && m->c) rc = m->c->connected; Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_subscribeMany(MQTTClient handle, int count, char* const* topic, int* qos) { MQTTClients* m = handle; List* topics = ListInitialize(); List* qoss = ListInitialize(); int i = 0; int rc = MQTTCLIENT_FAILURE; int msgid = 0; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || m->c == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c->connected == 0) { rc = MQTTCLIENT_DISCONNECTED; goto exit; } for (i = 0; i < count; i++) { if (!UTF8_validateString(topic[i])) { rc = MQTTCLIENT_BAD_UTF8_STRING; goto exit; } if(qos[i] < 0 || qos[i] > 2) { rc = MQTTCLIENT_BAD_QOS; goto exit; } } if ((msgid = MQTTProtocol_assignMsgId(m->c)) == 0) { rc = MQTTCLIENT_MAX_MESSAGES_INFLIGHT; goto exit; } for (i = 0; i < count; i++) { ListAppend(topics, topic[i], strlen(topic[i])); ListAppend(qoss, &qos[i], sizeof(int)); } rc = MQTTProtocol_subscribe(m->c, topics, qoss, msgid); ListFreeNoContent(topics); ListFreeNoContent(qoss); if (rc == TCPSOCKET_COMPLETE) { MQTTPacket* pack = NULL; Thread_unlock_mutex(mqttclient_mutex); pack = MQTTClient_waitfor(handle, SUBACK, &rc, 10000L); Thread_lock_mutex(mqttclient_mutex); if (pack != NULL) { Suback* sub = (Suback*)pack; ListElement* current = NULL; i = 0; while (ListNextElement(sub->qoss, ¤t)) { int* reqqos = (int*)(current->content); qos[i++] = *reqqos; } rc = MQTTProtocol_handleSubacks(pack, m->c->net.socket); m->pack = NULL; } else rc = SOCKET_ERROR; } if (rc == SOCKET_ERROR) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_disconnect_internal(handle, 0); Thread_lock_mutex(mqttclient_mutex); } else if (rc == TCPSOCKET_COMPLETE) rc = MQTTCLIENT_SUCCESS; exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_subscribe(MQTTClient handle, const char* topic, int qos) { int rc = 0; char *const topics[] = {(char*)topic}; FUNC_ENTRY; rc = MQTTClient_subscribeMany(handle, 1, topics, &qos); if (qos == MQTT_BAD_SUBSCRIBE) /* addition for MQTT 3.1.1 - error code from subscribe */ rc = MQTT_BAD_SUBSCRIBE; FUNC_EXIT_RC(rc); return rc; } int MQTTClient_unsubscribeMany(MQTTClient handle, int count, char* const* topic) { MQTTClients* m = handle; List* topics = ListInitialize(); int i = 0; int rc = SOCKET_ERROR; int msgid = 0; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || m->c == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c->connected == 0) { rc = MQTTCLIENT_DISCONNECTED; goto exit; } for (i = 0; i < count; i++) { if (!UTF8_validateString(topic[i])) { rc = MQTTCLIENT_BAD_UTF8_STRING; goto exit; } } if ((msgid = MQTTProtocol_assignMsgId(m->c)) == 0) { rc = MQTTCLIENT_MAX_MESSAGES_INFLIGHT; goto exit; } for (i = 0; i < count; i++) ListAppend(topics, topic[i], strlen(topic[i])); rc = MQTTProtocol_unsubscribe(m->c, topics, msgid); ListFreeNoContent(topics); if (rc == TCPSOCKET_COMPLETE) { MQTTPacket* pack = NULL; Thread_unlock_mutex(mqttclient_mutex); pack = MQTTClient_waitfor(handle, UNSUBACK, &rc, 10000L); Thread_lock_mutex(mqttclient_mutex); if (pack != NULL) { rc = MQTTProtocol_handleUnsubacks(pack, m->c->net.socket); m->pack = NULL; } else rc = SOCKET_ERROR; } if (rc == SOCKET_ERROR) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_disconnect_internal(handle, 0); Thread_lock_mutex(mqttclient_mutex); } exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_unsubscribe(MQTTClient handle, const char* topic) { int rc = 0; char *const topics[] = {(char*)topic}; FUNC_ENTRY; rc = MQTTClient_unsubscribeMany(handle, 1, topics); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_publish(MQTTClient handle, const char* topicName, int payloadlen, void* payload, int qos, int retained, MQTTClient_deliveryToken* deliveryToken) { int rc = MQTTCLIENT_SUCCESS; MQTTClients* m = handle; Messages* msg = NULL; Publish* p = NULL; int blocked = 0; int msgid = 0; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || m->c == NULL) rc = MQTTCLIENT_FAILURE; else if (m->c->connected == 0) rc = MQTTCLIENT_DISCONNECTED; else if (!UTF8_validateString(topicName)) rc = MQTTCLIENT_BAD_UTF8_STRING; if (rc != MQTTCLIENT_SUCCESS) goto exit; /* If outbound queue is full, block until it is not */ while (m->c->outboundMsgs->count >= m->c->maxInflightMessages || Socket_noPendingWrites(m->c->net.socket) == 0) /* wait until the socket is free of large packets being written */ { if (blocked == 0) { blocked = 1; Log(TRACE_MIN, -1, "Blocking publish on queue full for client %s", m->c->clientID); } Thread_unlock_mutex(mqttclient_mutex); MQTTClient_yield(); Thread_lock_mutex(mqttclient_mutex); if (m->c->connected == 0) { rc = MQTTCLIENT_FAILURE; goto exit; } } if (blocked == 1) Log(TRACE_MIN, -1, "Resuming publish now queue not full for client %s", m->c->clientID); if (qos > 0 && (msgid = MQTTProtocol_assignMsgId(m->c)) == 0) { /* this should never happen as we've waited for spaces in the queue */ rc = MQTTCLIENT_MAX_MESSAGES_INFLIGHT; goto exit; } p = malloc(sizeof(Publish)); p->payload = payload; p->payloadlen = payloadlen; p->topic = (char*)topicName; p->msgId = msgid; rc = MQTTProtocol_startPublish(m->c, p, qos, retained, &msg); /* If the packet was partially written to the socket, wait for it to complete. * However, if the client is disconnected during this time and qos is not 0, still return success, as * the packet has already been written to persistence and assigned a message id so will * be sent when the client next connects. */ if (rc == TCPSOCKET_INTERRUPTED) { while (m->c->connected == 1 && SocketBuffer_getWrite(m->c->net.socket)) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_yield(); Thread_lock_mutex(mqttclient_mutex); } rc = (qos > 0 || m->c->connected == 1) ? MQTTCLIENT_SUCCESS : MQTTCLIENT_FAILURE; } if (deliveryToken && qos > 0) *deliveryToken = msg->msgid; free(p); if (rc == SOCKET_ERROR) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_disconnect_internal(handle, 0); Thread_lock_mutex(mqttclient_mutex); /* Return success for qos > 0 as the send will be retried automatically */ rc = (qos > 0) ? MQTTCLIENT_SUCCESS : MQTTCLIENT_FAILURE; } exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_publishMessage(MQTTClient handle, const char* topicName, MQTTClient_message* message, MQTTClient_deliveryToken* deliveryToken) { int rc = MQTTCLIENT_SUCCESS; FUNC_ENTRY; if (message == NULL) { rc = MQTTCLIENT_NULL_PARAMETER; goto exit; } if (strncmp(message->struct_id, "MQTM", 4) != 0 || message->struct_version != 0) { rc = MQTTCLIENT_BAD_STRUCTURE; goto exit; } rc = MQTTClient_publish(handle, topicName, message->payloadlen, message->payload, message->qos, message->retained, deliveryToken); exit: FUNC_EXIT_RC(rc); return rc; } void MQTTClient_retry(void) { time_t now; FUNC_ENTRY; time(&(now)); if (difftime(now, last) > 5) { time(&(last)); MQTTProtocol_keepalive(now); MQTTProtocol_retry(now, 1, 0); } else MQTTProtocol_retry(now, 0, 0); FUNC_EXIT; } MQTTPacket* MQTTClient_cycle(int* sock, unsigned long timeout, int* rc) { struct timeval tp = {0L, 0L}; static Ack ack; MQTTPacket* pack = NULL; FUNC_ENTRY; if (timeout > 0L) { tp.tv_sec = timeout / 1000; tp.tv_usec = (timeout % 1000) * 1000; /* this field is microseconds! */ } #if defined(OPENSSL) if ((*sock = SSLSocket_getPendingRead()) == -1) { /* 0 from getReadySocket indicates no work to do, -1 == error, but can happen normally */ #endif *sock = Socket_getReadySocket(0, &tp); #if defined(OPENSSL) } #endif Thread_lock_mutex(mqttclient_mutex); if (*sock > 0) { MQTTClients* m = NULL; if (ListFindItem(handles, sock, clientSockCompare) != NULL) m = (MQTTClient)(handles->current->content); if (m != NULL) { if (m->c->connect_state == 1 || m->c->connect_state == 2) *rc = 0; /* waiting for connect state to clear */ else { pack = MQTTPacket_Factory(&m->c->net, rc); if (*rc == TCPSOCKET_INTERRUPTED) *rc = 0; } } if (pack) { int freed = 1; /* Note that these handle... functions free the packet structure that they are dealing with */ if (pack->header.bits.type == PUBLISH) *rc = MQTTProtocol_handlePublishes(pack, *sock); else if (pack->header.bits.type == PUBACK || pack->header.bits.type == PUBCOMP) { int msgid; ack = (pack->header.bits.type == PUBCOMP) ? *(Pubcomp*)pack : *(Puback*)pack; msgid = ack.msgId; *rc = (pack->header.bits.type == PUBCOMP) ? MQTTProtocol_handlePubcomps(pack, *sock) : MQTTProtocol_handlePubacks(pack, *sock); if (m && m->dc) { Log(TRACE_MIN, -1, "Calling deliveryComplete for client %s, msgid %d", m->c->clientID, msgid); (*(m->dc))(m->context, msgid); } } else if (pack->header.bits.type == PUBREC) *rc = MQTTProtocol_handlePubrecs(pack, *sock); else if (pack->header.bits.type == PUBREL) *rc = MQTTProtocol_handlePubrels(pack, *sock); else if (pack->header.bits.type == PINGRESP) *rc = MQTTProtocol_handlePingresps(pack, *sock); else freed = 0; if (freed) pack = NULL; } } MQTTClient_retry(); Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(*rc); return pack; } MQTTPacket* MQTTClient_waitfor(MQTTClient handle, int packet_type, int* rc, long timeout) { MQTTPacket* pack = NULL; MQTTClients* m = handle; START_TIME_TYPE start = MQTTClient_start_clock(); FUNC_ENTRY; if (((MQTTClients*)handle) == NULL) { *rc = MQTTCLIENT_FAILURE; goto exit; } if (running) { if (packet_type == CONNECT) { if ((*rc = Thread_wait_sem(m->connect_sem, timeout)) == 0) *rc = m->rc; } else if (packet_type == CONNACK) *rc = Thread_wait_sem(m->connack_sem, timeout); else if (packet_type == SUBACK) *rc = Thread_wait_sem(m->suback_sem, timeout); else if (packet_type == UNSUBACK) *rc = Thread_wait_sem(m->unsuback_sem, timeout); if (*rc == 0 && packet_type != CONNECT && m->pack == NULL) Log(LOG_ERROR, -1, "waitfor unexpectedly is NULL for client %s, packet_type %d, timeout %ld", m->c->clientID, packet_type, timeout); pack = m->pack; } else { *rc = TCPSOCKET_COMPLETE; while (1) { int sock = -1; pack = MQTTClient_cycle(&sock, 100L, rc); if (sock == m->c->net.socket) { if (*rc == SOCKET_ERROR) break; if (pack && (pack->header.bits.type == packet_type)) break; if (m->c->connect_state == 1) { int error; socklen_t len = sizeof(error); if ((*rc = getsockopt(m->c->net.socket, SOL_SOCKET, SO_ERROR, (char*)&error, &len)) == 0) *rc = error; break; } #if defined(OPENSSL) else if (m->c->connect_state == 2) { *rc = SSLSocket_connect(m->c->net.ssl, sock); if (*rc == SSL_FATAL) break; else if (*rc == 1) /* rc == 1 means SSL connect has finished and succeeded */ { if (!m->c->cleansession && m->c->session == NULL) m->c->session = SSL_get1_session(m->c->net.ssl); break; } } #endif else if (m->c->connect_state == 3) { int error; socklen_t len = sizeof(error); if (getsockopt(m->c->net.socket, SOL_SOCKET, SO_ERROR, (char*)&error, &len) == 0) { if (error) { *rc = error; break; } } } } if (MQTTClient_elapsed(start) > timeout) { pack = NULL; break; } } } exit: FUNC_EXIT_RC(*rc); return pack; } int MQTTClient_receive(MQTTClient handle, char** topicName, int* topicLen, MQTTClient_message** message, unsigned long timeout) { int rc = TCPSOCKET_COMPLETE; START_TIME_TYPE start = MQTTClient_start_clock(); unsigned long elapsed = 0L; MQTTClients* m = handle; FUNC_ENTRY; if (m == NULL || m->c == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c->connected == 0) { rc = MQTTCLIENT_DISCONNECTED; goto exit; } *topicName = NULL; *message = NULL; /* if there is already a message waiting, don't hang around but still do some packet handling */ if (m->c->messageQueue->count > 0) timeout = 0L; elapsed = MQTTClient_elapsed(start); do { int sock = 0; MQTTClient_cycle(&sock, (timeout > elapsed) ? timeout - elapsed : 0L, &rc); if (rc == SOCKET_ERROR) { if (ListFindItem(handles, &sock, clientSockCompare) && /* find client corresponding to socket */ (MQTTClient)(handles->current->content) == handle) break; /* there was an error on the socket we are interested in */ } elapsed = MQTTClient_elapsed(start); } while (elapsed < timeout && m->c->messageQueue->count == 0); if (m->c->messageQueue->count > 0) rc = MQTTClient_deliverMessage(rc, m, topicName, topicLen, message); if (rc == SOCKET_ERROR) MQTTClient_disconnect_internal(handle, 0); exit: FUNC_EXIT_RC(rc); return rc; } void MQTTClient_yield(void) { START_TIME_TYPE start = MQTTClient_start_clock(); unsigned long elapsed = 0L; unsigned long timeout = 100L; int rc = 0; FUNC_ENTRY; if (running) { MQTTClient_sleep(timeout); goto exit; } elapsed = MQTTClient_elapsed(start); do { int sock = -1; MQTTClient_cycle(&sock, (timeout > elapsed) ? timeout - elapsed : 0L, &rc); if (rc == SOCKET_ERROR && ListFindItem(handles, &sock, clientSockCompare)) { MQTTClients* m = (MQTTClient)(handles->current->content); if (m->c->connect_state != -2) MQTTClient_disconnect_internal(m, 0); } elapsed = MQTTClient_elapsed(start); } while (elapsed < timeout); exit: FUNC_EXIT; } int pubCompare(void* a, void* b) { Messages* msg = (Messages*)a; return msg->publish == (Publications*)b; } int MQTTClient_waitForCompletion(MQTTClient handle, MQTTClient_deliveryToken mdt, unsigned long timeout) { int rc = MQTTCLIENT_FAILURE; START_TIME_TYPE start = MQTTClient_start_clock(); unsigned long elapsed = 0L; MQTTClients* m = handle; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL || m->c == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c->connected == 0) { rc = MQTTCLIENT_DISCONNECTED; goto exit; } if (ListFindItem(m->c->outboundMsgs, &mdt, messageIDCompare) == NULL) { rc = MQTTCLIENT_SUCCESS; /* well we couldn't find it */ goto exit; } elapsed = MQTTClient_elapsed(start); while (elapsed < timeout) { Thread_unlock_mutex(mqttclient_mutex); MQTTClient_yield(); Thread_lock_mutex(mqttclient_mutex); if (ListFindItem(m->c->outboundMsgs, &mdt, messageIDCompare) == NULL) { rc = MQTTCLIENT_SUCCESS; /* well we couldn't find it */ goto exit; } elapsed = MQTTClient_elapsed(start); } exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } int MQTTClient_getPendingDeliveryTokens(MQTTClient handle, MQTTClient_deliveryToken **tokens) { int rc = MQTTCLIENT_SUCCESS; MQTTClients* m = handle; *tokens = NULL; FUNC_ENTRY; Thread_lock_mutex(mqttclient_mutex); if (m == NULL) { rc = MQTTCLIENT_FAILURE; goto exit; } if (m->c && m->c->outboundMsgs->count > 0) { ListElement* current = NULL; int count = 0; *tokens = malloc(sizeof(MQTTClient_deliveryToken) * (m->c->outboundMsgs->count + 1)); /*Heap_unlink(__FILE__, __LINE__, *tokens);*/ while (ListNextElement(m->c->outboundMsgs, ¤t)) { Messages* m = (Messages*)(current->content); (*tokens)[count++] = m->msgid; } (*tokens)[count] = -1; } exit: Thread_unlock_mutex(mqttclient_mutex); FUNC_EXIT_RC(rc); return rc; } MQTTClient_nameValue* MQTTClient_getVersionInfo() { #define MAX_INFO_STRINGS 8 static MQTTClient_nameValue libinfo[MAX_INFO_STRINGS + 1]; int i = 0; libinfo[i].name = "Product name"; libinfo[i++].value = "Paho Synchronous MQTT C Client Library"; libinfo[i].name = "Version"; libinfo[i++].value = CLIENT_VERSION; libinfo[i].name = "Build level"; libinfo[i++].value = BUILD_TIMESTAMP; #if defined(OPENSSL) libinfo[i].name = "OpenSSL version"; libinfo[i++].value = SSLeay_version(SSLEAY_VERSION); libinfo[i].name = "OpenSSL flags"; libinfo[i++].value = SSLeay_version(SSLEAY_CFLAGS); libinfo[i].name = "OpenSSL build timestamp"; libinfo[i++].value = SSLeay_version(SSLEAY_BUILT_ON); libinfo[i].name = "OpenSSL platform"; libinfo[i++].value = SSLeay_version(SSLEAY_PLATFORM); libinfo[i].name = "OpenSSL directory"; libinfo[i++].value = SSLeay_version(SSLEAY_DIR); #endif libinfo[i].name = NULL; libinfo[i].value = NULL; return libinfo; } /** * See if any pending writes have been completed, and cleanup if so. * Cleaning up means removing any publication data that was stored because the write did * not originally complete. */ void MQTTProtocol_checkPendingWrites() { FUNC_ENTRY; if (state.pending_writes.count > 0) { ListElement* le = state.pending_writes.first; while (le) { if (Socket_noPendingWrites(((pending_write*)(le->content))->socket)) { MQTTProtocol_removePublication(((pending_write*)(le->content))->p); state.pending_writes.current = le; ListRemove(&(state.pending_writes), le->content); /* does NextElement itself */ le = state.pending_writes.current; } else ListNextElement(&(state.pending_writes), &le); } } FUNC_EXIT; } void MQTTClient_writeComplete(int socket) { ListElement* found = NULL; FUNC_ENTRY; /* a partial write is now complete for a socket - this will be on a publish*/ MQTTProtocol_checkPendingWrites(); /* find the client using this socket */ if ((found = ListFindItem(handles, &socket, clientSockCompare)) != NULL) { MQTTClients* m = (MQTTClients*)(found->content); time(&(m->c->net.lastSent)); } FUNC_EXIT; }