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PreVerify/mqtt/paho.mqtt.c/MQTTAsync.c

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2024-09-09 19:18:28 +08:00
/*******************************************************************************
* Copyright (c) 2009, 2022 IBM Corp., Ian Craggs and others
*
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v2.0
* and Eclipse Distribution License v1.0 which accompany this distribution.
*
* The Eclipse Public License is available at
* https://www.eclipse.org/legal/epl-2.0/
* and the Eclipse Distribution License is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* Contributors:
* Ian Craggs - initial implementation and documentation
* Ian Craggs, Allan Stockdill-Mander - SSL support
* Ian Craggs - multiple server connection support
* Ian Craggs - fix for bug 413429 - connectionLost not called
* Ian Craggs - fix for bug 415042 - using already freed structure
* 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
* Rong Xiang, Ian Craggs - C++ compatibility
* Ian Craggs - fix for bug 442400: reconnecting after network cable unplugged
* Ian Craggs - fix for bug 444934 - incorrect free in freeCommand1
* Ian Craggs - fix for bug 445891 - assigning msgid is not thread safe
* Ian Craggs - fix for bug 465369 - longer latency than expected
* Ian Craggs - fix for bug 444103 - success/failure callbacks not invoked
* Ian Craggs - fix for bug 484363 - segfault in getReadySocket
* Ian Craggs - automatic reconnect and offline buffering (send while disconnected)
* Ian Craggs - fix for bug 472250
* Ian Craggs - fix for bug 486548
* Ian Craggs - SNI support
* Ian Craggs - auto reconnect timing fix #218
* Ian Craggs - fix for issue #190
* Ian Craggs - check for NULL SSL options #334
* Ian Craggs - allocate username/password buffers #431
* Ian Craggs - MQTT 5.0 support
* Ian Craggs - refactor to reduce module size
*******************************************************************************/
#include <stdlib.h>
#include <string.h>
#if !defined(_WIN32) && !defined(_WIN64)
#include <sys/time.h>
#else
#if defined(_MSC_VER) && _MSC_VER < 1900
#define snprintf _snprintf
#endif
#endif
#if !defined(NO_PERSISTENCE)
#include "MQTTPersistence.h"
#endif
#include "MQTTAsync.h"
#include "MQTTAsyncUtils.h"
#include "utf-8.h"
#include "MQTTProtocol.h"
#include "MQTTProtocolOut.h"
#include "Thread.h"
#include "SocketBuffer.h"
#include "StackTrace.h"
#include "Heap.h"
#include "OsWrapper.h"
#include "WebSocket.h"
static void MQTTAsync_freeServerURIs(MQTTAsyncs* m);
#include "VersionInfo.h"
const char *client_timestamp_eye = "MQTTAsyncV3_Timestamp " BUILD_TIMESTAMP;
const char *client_version_eye = "MQTTAsyncV3_Version " CLIENT_VERSION;
volatile int global_initialized = 0;
List* MQTTAsync_handles = NULL;
List* MQTTAsync_commands = NULL;
int MQTTAsync_tostop = 0;
static ClientStates ClientState =
{
CLIENT_VERSION, /* version */
NULL /* client list */
};
MQTTProtocol state;
ClientStates* bstate = &ClientState;
enum MQTTAsync_threadStates sendThread_state = STOPPED;
enum MQTTAsync_threadStates receiveThread_state = STOPPED;
thread_id_type sendThread_id = 0,
receiveThread_id = 0;
// global objects init declaration
int MQTTAsync_init(void);
void MQTTAsync_global_init(MQTTAsync_init_options* inits)
{
MQTTAsync_init();
#if defined(OPENSSL)
SSLSocket_handleOpensslInit(inits->do_openssl_init);
#endif
}
#if !defined(min)
#define min(a, b) (((a) < (b)) ? (a) : (b))
#endif
#if defined(WIN32) || defined(WIN64)
void MQTTAsync_init_rand(void)
{
START_TIME_TYPE now = MQTTTime_start_clock();
srand((unsigned int)now);
}
#elif defined(AIX)
void MQTTAsync_init_rand(void)
{
START_TIME_TYPE now = MQTTTime_start_clock();
srand(now.tv_nsec);
}
#else
void MQTTAsync_init_rand(void)
{
START_TIME_TYPE now = MQTTTime_start_clock();
srand(now.tv_usec);
}
#endif
#if defined(_WIN32) || defined(_WIN64)
mutex_type mqttasync_mutex = NULL;
mutex_type socket_mutex = NULL;
mutex_type mqttcommand_mutex = NULL;
sem_type send_sem = NULL;
#if !defined(NO_HEAP_TRACKING)
extern mutex_type stack_mutex;
extern mutex_type heap_mutex;
#endif
extern mutex_type log_mutex;
int MQTTAsync_init(void)
{
DWORD rc = 0;
if (mqttasync_mutex == NULL)
{
if ((mqttasync_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("mqttasync_mutex error %d\n", rc);
goto exit;
}
if ((mqttcommand_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("mqttcommand_mutex error %d\n", rc);
goto exit;
}
if ((send_sem = CreateEvent(
NULL, /* default security attributes */
FALSE, /* manual-reset event? */
FALSE, /* initial state is nonsignaled */
NULL /* object name */
)) == NULL)
{
rc = GetLastError();
printf("send_sem error %d\n", rc);
goto exit;
}
#if !defined(NO_HEAP_TRACKING)
if ((stack_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("stack_mutex error %d\n", rc);
goto exit;
}
if ((heap_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("heap_mutex error %d\n", rc);
goto exit;
}
#endif
if ((log_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("log_mutex error %d\n", rc);
goto exit;
}
if ((socket_mutex = CreateMutex(NULL, 0, NULL)) == NULL)
{
rc = GetLastError();
printf("socket_mutex error %d\n", rc);
goto exit;
}
}
else
{
Log(TRACE_MAX, -1, "Library already initialized");
}
exit:
return rc;
}
void MQTTAsync_cleanup(void)
{
if (send_sem)
CloseHandle(send_sem);
#if !defined(NO_HEAP_TRACKING)
if (stack_mutex)
CloseHandle(stack_mutex);
if (heap_mutex)
CloseHandle(heap_mutex);
#endif
if (log_mutex)
CloseHandle(log_mutex);
if (socket_mutex)
CloseHandle(socket_mutex);
if (mqttasync_mutex)
CloseHandle(mqttasync_mutex);
}
#if defined(PAHO_MQTT_STATIC)
static INIT_ONCE g_InitOnce = INIT_ONCE_STATIC_INIT; /* Global for one time initialization */
/* This runs at most once */
BOOL CALLBACK InitMutexesOnce (
PINIT_ONCE InitOnce, /* Pointer to one-time initialization structure */
PVOID Parameter, /* Optional parameter */
PVOID *lpContext) /* Return data, if any */
{
int rc = MQTTAsync_init();
return rc == 0;
}
#else
BOOL APIENTRY DllMain(HANDLE hModule,
DWORD ul_reason_for_call,
LPVOID lpReserved)
{
switch (ul_reason_for_call)
{
case DLL_PROCESS_ATTACH:
MQTTAsync_init();
break;
case DLL_THREAD_ATTACH:
break;
case DLL_THREAD_DETACH:
break;
case DLL_PROCESS_DETACH:
if (lpReserved)
MQTTAsync_cleanup();
break;
}
return TRUE;
}
#endif
#else
static pthread_mutex_t mqttasync_mutex_store = PTHREAD_MUTEX_INITIALIZER;
mutex_type mqttasync_mutex = &mqttasync_mutex_store;
static pthread_mutex_t socket_mutex_store = PTHREAD_MUTEX_INITIALIZER;
mutex_type socket_mutex = &socket_mutex_store;
static pthread_mutex_t mqttcommand_mutex_store = PTHREAD_MUTEX_INITIALIZER;
mutex_type mqttcommand_mutex = &mqttcommand_mutex_store;
static cond_type_struct send_cond_store = { PTHREAD_COND_INITIALIZER, PTHREAD_MUTEX_INITIALIZER };
cond_type send_cond = &send_cond_store;
int MQTTAsync_init(void)
{
pthread_mutexattr_t attr;
int rc;
pthread_mutexattr_init(&attr);
#if !defined(_WRS_KERNEL)
pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK);
#else
/* #warning "no pthread_mutexattr_settype" */
#endif
if ((rc = pthread_mutex_init(mqttasync_mutex, &attr)) != 0)
printf("MQTTAsync: error %d initializing async_mutex\n", rc);
else if ((rc = pthread_mutex_init(mqttcommand_mutex, &attr)) != 0)
printf("MQTTAsync: error %d initializing command_mutex\n", rc);
else if ((rc = pthread_mutex_init(socket_mutex, &attr)) != 0)
printf("MQTTClient: error %d initializing socket_mutex\n", rc);
else if ((rc = pthread_cond_init(&send_cond->cond, NULL)) != 0)
printf("MQTTAsync: error %d initializing send_cond cond\n", rc);
else if ((rc = pthread_mutex_init(&send_cond->mutex, &attr)) != 0)
printf("MQTTAsync: error %d initializing send_cond mutex\n", rc);
return rc;
}
#endif
int MQTTAsync_createWithOptions(MQTTAsync* handle, const char* serverURI, const char* clientId,
int persistence_type, void* persistence_context, MQTTAsync_createOptions* options)
{
int rc = 0;
MQTTAsyncs *m = NULL;
#if (defined(_WIN32) || defined(_WIN64)) && defined(PAHO_MQTT_STATIC)
/* intializes mutexes once. Must come before FUNC_ENTRY */
BOOL bStatus = InitOnceExecuteOnce(&g_InitOnce, InitMutexesOnce, NULL, NULL);
#endif
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (serverURI == NULL || clientId == NULL)
{
rc = MQTTASYNC_NULL_PARAMETER;
goto exit;
}
if (!UTF8_validateString(clientId))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
goto exit;
}
if (strlen(clientId) == 0 && persistence_type == MQTTCLIENT_PERSISTENCE_DEFAULT)
{
rc = MQTTASYNC_PERSISTENCE_ERROR;
goto exit;
}
if (strstr(serverURI, "://") != NULL)
{
if (strncmp(URI_TCP, serverURI, strlen(URI_TCP)) != 0
&& strncmp(URI_MQTT, serverURI, strlen(URI_MQTT)) != 0
&& strncmp(URI_WS, serverURI, strlen(URI_WS)) != 0
#if defined(OPENSSL)
&& strncmp(URI_SSL, serverURI, strlen(URI_SSL)) != 0
&& strncmp(URI_MQTTS, serverURI, strlen(URI_MQTTS)) != 0
&& strncmp(URI_WSS, serverURI, strlen(URI_WSS)) != 0
#endif
)
{
rc = MQTTASYNC_BAD_PROTOCOL;
goto exit;
}
}
if (options && options->maxBufferedMessages <= 0)
{
rc = MQTTASYNC_MAX_BUFFERED;
goto exit;
}
if (options && (strncmp(options->struct_id, "MQCO", 4) != 0 ||
options->struct_version < 0 || options->struct_version > 2))
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
if (!global_initialized)
{
#if !defined(NO_HEAP_TRACKING)
Heap_initialize();
#endif
Log_initialize((Log_nameValue*)MQTTAsync_getVersionInfo());
bstate->clients = ListInitialize();
Socket_outInitialize();
Socket_setWriteContinueCallback(MQTTAsync_writeContinue);
Socket_setWriteCompleteCallback(MQTTAsync_writeComplete);
Socket_setWriteAvailableCallback(MQTTProtocol_writeAvailable);
MQTTAsync_handles = ListInitialize();
MQTTAsync_commands = ListInitialize();
#if defined(OPENSSL)
SSLSocket_initialize();
#endif
global_initialized = 1;
}
if ((m = malloc(sizeof(MQTTAsyncs))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
*handle = m;
memset(m, '\0', sizeof(MQTTAsyncs));
if (strncmp(URI_TCP, serverURI, strlen(URI_TCP)) == 0)
serverURI += strlen(URI_TCP);
else if (strncmp(URI_MQTT, serverURI, strlen(URI_MQTT)) == 0)
serverURI += strlen(URI_MQTT);
else if (strncmp(URI_WS, serverURI, strlen(URI_WS)) == 0)
{
serverURI += strlen(URI_WS);
m->websocket = 1;
}
#if defined(OPENSSL)
else if (strncmp(URI_SSL, serverURI, strlen(URI_SSL)) == 0)
{
serverURI += strlen(URI_SSL);
m->ssl = 1;
}
else if (strncmp(URI_MQTTS, serverURI, strlen(URI_MQTTS)) == 0)
{
serverURI += strlen(URI_MQTTS);
m->ssl = 1;
}
else if (strncmp(URI_WSS, serverURI, strlen(URI_WSS)) == 0)
{
serverURI += strlen(URI_WSS);
m->ssl = 1;
m->websocket = 1;
}
#endif
if ((m->serverURI = MQTTStrdup(serverURI)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
m->responses = ListInitialize();
ListAppend(MQTTAsync_handles, m, sizeof(MQTTAsyncs));
if ((m->c = malloc(sizeof(Clients))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(m->c, '\0', sizeof(Clients));
m->c->context = m;
m->c->outboundMsgs = ListInitialize();
m->c->inboundMsgs = ListInitialize();
m->c->messageQueue = ListInitialize();
m->c->outboundQueue = ListInitialize();
m->c->clientID = MQTTStrdup(clientId);
if (m->c->context == NULL || m->c->outboundMsgs == NULL || m->c->inboundMsgs == NULL ||
m->c->messageQueue == NULL || m->c->outboundQueue == NULL || m->c->clientID == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
m->c->MQTTVersion = MQTTVERSION_DEFAULT;
m->shouldBeConnected = 0;
if (options)
{
if ((m->createOptions = malloc(sizeof(MQTTAsync_createOptions))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memcpy(m->createOptions, options, sizeof(MQTTAsync_createOptions));
if (options->struct_version > 0)
m->c->MQTTVersion = options->MQTTVersion;
}
#if !defined(NO_PERSISTENCE)
rc = MQTTPersistence_create(&(m->c->persistence), persistence_type, persistence_context);
if (rc == 0)
{
rc = MQTTPersistence_initialize(m->c, m->serverURI); /* inflight messages restored here */
if (rc == 0)
{
if (m->createOptions && m->createOptions->struct_version >= 2 && m->createOptions->restoreMessages == 0)
MQTTAsync_unpersistCommandsAndMessages(m->c);
else
{
MQTTAsync_restoreCommands(m);
MQTTPersistence_restoreMessageQueue(m->c);
}
}
}
#endif
ListAppend(bstate->clients, m->c, sizeof(Clients) + 3*sizeof(List));
exit:
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_create(MQTTAsync* handle, const char* serverURI, const char* clientId,
int persistence_type, void* persistence_context)
{
MQTTAsync_init_rand();
return MQTTAsync_createWithOptions(handle, serverURI, clientId, persistence_type,
persistence_context, NULL);
}
void MQTTAsync_destroy(MQTTAsync* handle)
{
MQTTAsyncs* m = *handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
goto exit;
MQTTAsync_closeSession(m->c, MQTTREASONCODE_SUCCESS, NULL);
MQTTAsync_NULLPublishResponses(m);
MQTTAsync_freeResponses(m);
MQTTAsync_NULLPublishCommands(m);
MQTTAsync_freeCommands(m);
ListFree(m->responses);
if (m->c)
{
SOCKET saved_socket = m->c->net.socket;
char* saved_clientid = MQTTStrdup(m->c->clientID);
#if !defined(NO_PERSISTENCE)
MQTTPersistence_close(m->c);
#endif
MQTTAsync_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);
if (m->createOptions)
free(m->createOptions);
MQTTAsync_freeServerURIs(m);
if (m->connectProps)
{
MQTTProperties_free(m->connectProps);
free(m->connectProps);
m->connectProps = NULL;
}
if (m->willProps)
{
MQTTProperties_free(m->willProps);
free(m->willProps);
m->willProps = NULL;
}
if (!ListRemove(MQTTAsync_handles, m))
Log(LOG_ERROR, -1, "free error");
*handle = NULL;
if (bstate->clients->count == 0)
MQTTAsync_terminate();
exit:
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT;
}
int MQTTAsync_connect(MQTTAsync handle, const MQTTAsync_connectOptions* options)
{
MQTTAsyncs* m = handle;
int rc = MQTTASYNC_SUCCESS;
MQTTAsync_queuedCommand* conn;
thread_id_type thread_id = 0;
int locked = 0;
FUNC_ENTRY;
if (options == NULL)
{
rc = MQTTASYNC_NULL_PARAMETER;
goto exit;
}
if (strncmp(options->struct_id, "MQTC", 4) != 0 || options->struct_version < 0 || options->struct_version > 8)
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
#if defined(OPENSSL)
if (m->ssl && options->ssl == NULL)
{
rc = MQTTASYNC_NULL_PARAMETER;
goto exit;
}
#endif
if (options->will) /* check validity of will options structure */
{
if (strncmp(options->will->struct_id, "MQTW", 4) != 0 || (options->will->struct_version != 0 && options->will->struct_version != 1))
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
if (options->will->qos < 0 || options->will->qos > 2)
{
rc = MQTTASYNC_BAD_QOS;
goto exit;
}
if (options->will->topicName == NULL)
{
rc = MQTTASYNC_NULL_PARAMETER;
goto exit;
} else if (strlen(options->will->topicName) == 0)
{
rc = MQTTASYNC_0_LEN_WILL_TOPIC;
goto exit;
}
}
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 || options->ssl->struct_version > 5)
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
}
if (options->MQTTVersion >= MQTTVERSION_5 && m->c->MQTTVersion < MQTTVERSION_5)
{
rc = MQTTASYNC_WRONG_MQTT_VERSION;
goto exit;
}
if ((options->username && !UTF8_validateString(options->username)) ||
(options->password && !UTF8_validateString(options->password)))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
goto exit;
}
if (options->MQTTVersion >= MQTTVERSION_5 && options->struct_version < 6)
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
if (options->MQTTVersion >= MQTTVERSION_5 && options->cleansession != 0)
{
rc = MQTTASYNC_BAD_MQTT_OPTION;
goto exit;
}
if (options->MQTTVersion < MQTTVERSION_5 && options->struct_version >= 6)
{
if (options->cleanstart != 0 || options->onFailure5 || options->onSuccess5 ||
options->connectProperties || options->willProperties)
{
rc = MQTTASYNC_BAD_MQTT_OPTION;
goto exit;
}
}
m->connect.onSuccess = options->onSuccess;
m->connect.onFailure = options->onFailure;
if (options->struct_version >= 6)
{
m->connect.onSuccess5 = options->onSuccess5;
m->connect.onFailure5 = options->onFailure5;
}
m->connect.context = options->context;
m->connectTimeout = options->connectTimeout;
/* don't lock async mutex if we are being called from a callback */
thread_id = Paho_thread_getid();
if (thread_id != sendThread_id && thread_id != receiveThread_id)
{
MQTTAsync_lock_mutex(mqttasync_mutex);
locked = 1;
}
MQTTAsync_tostop = 0;
if (sendThread_state != STARTING && sendThread_state != RUNNING)
{
sendThread_state = STARTING;
Paho_thread_start(MQTTAsync_sendThread, NULL);
}
if (receiveThread_state != STARTING && receiveThread_state != RUNNING)
{
receiveThread_state = STARTING;
Paho_thread_start(MQTTAsync_receiveThread, handle);
}
if (locked)
MQTTAsync_unlock_mutex(mqttasync_mutex);
m->c->keepAliveInterval = options->keepAliveInterval;
setRetryLoopInterval(options->keepAliveInterval);
m->c->cleansession = options->cleansession;
m->c->maxInflightMessages = options->maxInflight;
if (options->struct_version >= 3)
m->c->MQTTVersion = options->MQTTVersion;
else
m->c->MQTTVersion = MQTTVERSION_DEFAULT;
if (options->struct_version >= 4)
{
m->automaticReconnect = options->automaticReconnect;
m->minRetryInterval = options->minRetryInterval;
m->maxRetryInterval = options->maxRetryInterval;
}
if (options->struct_version >= 7)
{
m->c->net.httpHeaders = (const MQTTClient_nameValue *) options->httpHeaders;
}
if (options->struct_version >= 8)
{
if (options->httpProxy)
m->c->httpProxy = MQTTStrdup(options->httpProxy);
if (options->httpsProxy)
m->c->httpsProxy = MQTTStrdup(options->httpsProxy);
}
if (m->c->will)
{
free(m->c->will->payload);
free(m->c->will->topic);
free(m->c->will);
m->c->will = NULL;
}
if (options->will && (options->will->struct_version == 0 || options->will->struct_version == 1))
{
const void* source = NULL;
if ((m->c->will = malloc(sizeof(willMessages))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
if (options->will->message || (options->will->struct_version == 1 && options->will->payload.data))
{
if (options->will->struct_version == 1 && options->will->payload.data)
{
m->c->will->payloadlen = options->will->payload.len;
source = options->will->payload.data;
}
else
{
m->c->will->payloadlen = (int)strlen(options->will->message);
source = (void*)options->will->message;
}
if ((m->c->will->payload = malloc(m->c->will->payloadlen)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memcpy(m->c->will->payload, source, m->c->will->payloadlen);
}
else
{
m->c->will->payload = NULL;
m->c->will->payloadlen = 0;
}
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);
if (m->c->sslopts->struct_version >= 2)
{
if (m->c->sslopts->CApath)
free((void*)m->c->sslopts->CApath);
}
free((void*)m->c->sslopts);
m->c->sslopts = NULL;
}
if (options->struct_version != 0 && options->ssl)
{
if ((m->c->sslopts = malloc(sizeof(MQTTClient_SSLOptions))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(m->c->sslopts, '\0', sizeof(MQTTClient_SSLOptions));
m->c->sslopts->struct_version = options->ssl->struct_version;
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;
if (m->c->sslopts->struct_version >= 1)
m->c->sslopts->sslVersion = options->ssl->sslVersion;
if (m->c->sslopts->struct_version >= 2)
{
m->c->sslopts->verify = options->ssl->verify;
if (options->ssl->CApath)
m->c->sslopts->CApath = MQTTStrdup(options->ssl->CApath);
}
if (m->c->sslopts->struct_version >= 3)
{
m->c->sslopts->ssl_error_cb = options->ssl->ssl_error_cb;
m->c->sslopts->ssl_error_context = options->ssl->ssl_error_context;
}
if (m->c->sslopts->struct_version >= 4)
{
m->c->sslopts->ssl_psk_cb = options->ssl->ssl_psk_cb;
m->c->sslopts->ssl_psk_context = options->ssl->ssl_psk_context;
m->c->sslopts->disableDefaultTrustStore = options->ssl->disableDefaultTrustStore;
}
if (m->c->sslopts->struct_version >= 5)
{
if (options->ssl->protos)
m->c->sslopts->protos = (const unsigned char*)MQTTStrdup((const char*)options->ssl->protos);
m->c->sslopts->protos_len = options->ssl->protos_len;
}
}
#else
if (options->struct_version != 0 && options->ssl)
{
rc = MQTTASYNC_SSL_NOT_SUPPORTED;
goto exit;
}
#endif
if (m->c->username)
{
free((void*)m->c->username);
m->c->username = NULL;
}
if (options->username)
m->c->username = MQTTStrdup(options->username);
if (m->c->password)
{
free((void*)m->c->password);
m->c->password = NULL;
}
if (options->password)
{
m->c->password = MQTTStrdup(options->password);
m->c->passwordlen = (int)strlen(options->password);
}
else if (options->struct_version >= 5 && options->binarypwd.data)
{
m->c->passwordlen = options->binarypwd.len;
if ((m->c->password = malloc(m->c->passwordlen)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memcpy((void*)m->c->password, options->binarypwd.data, m->c->passwordlen);
}
m->c->retryInterval = options->retryInterval;
m->shouldBeConnected = 1;
m->connectTimeout = options->connectTimeout;
MQTTAsync_freeServerURIs(m);
if (options->struct_version >= 2 && options->serverURIcount > 0)
{
int i;
m->serverURIcount = options->serverURIcount;
if ((m->serverURIs = malloc(options->serverURIcount * sizeof(char*))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
for (i = 0; i < options->serverURIcount; ++i)
m->serverURIs[i] = MQTTStrdup(options->serverURIs[i]);
}
if (m->connectProps)
{
MQTTProperties_free(m->connectProps);
free(m->connectProps);
m->connectProps = NULL;
}
if (m->willProps)
{
MQTTProperties_free(m->willProps);
free(m->willProps);
m->willProps = NULL;
}
if (options->struct_version >=6)
{
if (options->connectProperties)
{
MQTTProperties initialized = MQTTProperties_initializer;
if ((m->connectProps = malloc(sizeof(MQTTProperties))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
*m->connectProps = initialized;
*m->connectProps = MQTTProperties_copy(options->connectProperties);
if (MQTTProperties_hasProperty(options->connectProperties, MQTTPROPERTY_CODE_SESSION_EXPIRY_INTERVAL))
m->c->sessionExpiry = MQTTProperties_getNumericValue(options->connectProperties,
MQTTPROPERTY_CODE_SESSION_EXPIRY_INTERVAL);
}
if (options->willProperties)
{
MQTTProperties initialized = MQTTProperties_initializer;
if ((m->willProps = malloc(sizeof(MQTTProperties))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
*m->willProps = initialized;
*m->willProps = MQTTProperties_copy(options->willProperties);
}
m->c->cleanstart = options->cleanstart;
}
/* Add connect request to operation queue */
if ((conn = malloc(sizeof(MQTTAsync_queuedCommand))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(conn, '\0', sizeof(MQTTAsync_queuedCommand));
conn->client = m;
if (options)
{
conn->command.onSuccess = options->onSuccess;
conn->command.onFailure = options->onFailure;
conn->command.onSuccess5 = options->onSuccess5;
conn->command.onFailure5 = options->onFailure5;
conn->command.context = options->context;
}
conn->command.type = CONNECT;
conn->command.details.conn.currentURI = 0;
rc = MQTTAsync_addCommand(conn, sizeof(conn));
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_reconnect(MQTTAsync handle)
{
int rc = MQTTASYNC_FAILURE;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m->automaticReconnect)
{
if (m->shouldBeConnected)
{
m->reconnectNow = 1;
m->currentIntervalBase = m->minRetryInterval;
m->currentInterval = m->minRetryInterval;
m->retrying = 1;
rc = MQTTASYNC_SUCCESS;
}
}
else
{
/* to reconnect, put the connect command to the head of the command queue */
MQTTAsync_queuedCommand* conn = malloc(sizeof(MQTTAsync_queuedCommand));
if (!conn)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(conn, '\0', sizeof(MQTTAsync_queuedCommand));
conn->client = m;
conn->command = m->connect;
/* make sure that the version attempts are restarted */
if (m->c->MQTTVersion == MQTTVERSION_DEFAULT)
conn->command.details.conn.MQTTVersion = 0;
rc = MQTTAsync_addCommand(conn, sizeof(m->connect));
}
exit:
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_subscribeMany(MQTTAsync handle, int count, char* const* topic, const int* qos, MQTTAsync_responseOptions* response)
{
MQTTAsyncs* m = handle;
int i = 0;
int rc = MQTTASYNC_SUCCESS;
MQTTAsync_queuedCommand* sub;
int msgid = 0;
FUNC_ENTRY;
if (m == NULL || m->c == NULL)
rc = MQTTASYNC_FAILURE;
else if (m->c->connected == 0)
rc = MQTTASYNC_DISCONNECTED;
else for (i = 0; i < count; i++)
{
if (!UTF8_validateString(topic[i]))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
break;
}
if (qos[i] < 0 || qos[i] > 2)
{
rc = MQTTASYNC_BAD_QOS;
break;
}
}
if (rc != MQTTASYNC_SUCCESS)
; /* don't overwrite a previous error code */
else if ((msgid = MQTTAsync_assignMsgId(m)) == 0)
rc = MQTTASYNC_NO_MORE_MSGIDS;
else if (m->c->MQTTVersion >= MQTTVERSION_5 && count > 1 && (count != response->subscribeOptionsCount
&& response->subscribeOptionsCount != 0))
rc = MQTTASYNC_BAD_MQTT_OPTION;
else if (response)
{
if (m->c->MQTTVersion >= MQTTVERSION_5)
{
if (response->struct_version == 0 || response->onFailure || response->onSuccess)
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
else if (m->c->MQTTVersion < MQTTVERSION_5)
{
if (response->struct_version >= 1 && (response->onFailure5 || response->onSuccess5))
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
}
if (rc != MQTTASYNC_SUCCESS)
goto exit;
/* Add subscribe request to operation queue */
if ((sub = malloc(sizeof(MQTTAsync_queuedCommand))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(sub, '\0', sizeof(MQTTAsync_queuedCommand));
sub->client = m;
sub->command.token = msgid;
if (response)
{
sub->command.onSuccess = response->onSuccess;
sub->command.onFailure = response->onFailure;
sub->command.onSuccess5 = response->onSuccess5;
sub->command.onFailure5 = response->onFailure5;
sub->command.context = response->context;
response->token = sub->command.token;
if (m->c->MQTTVersion >= MQTTVERSION_5)
{
sub->command.properties = MQTTProperties_copy(&response->properties);
sub->command.details.sub.opts = response->subscribeOptions;
if (count > 1)
{
if ((sub->command.details.sub.optlist = malloc(sizeof(MQTTSubscribe_options) * count)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
if (response->subscribeOptionsCount == 0)
{
MQTTSubscribe_options initialized = MQTTSubscribe_options_initializer;
for (i = 0; i < count; ++i)
sub->command.details.sub.optlist[i] = initialized;
}
else
{
for (i = 0; i < count; ++i)
sub->command.details.sub.optlist[i] = response->subscribeOptionsList[i];
}
}
}
}
sub->command.type = SUBSCRIBE;
sub->command.details.sub.count = count;
sub->command.details.sub.topics = malloc(sizeof(char*) * count);
sub->command.details.sub.qoss = malloc(sizeof(int) * count);
if (sub->command.details.sub.topics && sub->command.details.sub.qoss)
{
for (i = 0; i < count; ++i)
{
if ((sub->command.details.sub.topics[i] = MQTTStrdup(topic[i])) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
sub->command.details.sub.qoss[i] = qos[i];
}
rc = MQTTAsync_addCommand(sub, sizeof(sub));
}
else
rc = PAHO_MEMORY_ERROR;
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_subscribe(MQTTAsync handle, const char* topic, int qos, MQTTAsync_responseOptions* response)
{
int rc = 0;
FUNC_ENTRY;
rc = MQTTAsync_subscribeMany(handle, 1, (char * const *)(&topic), &qos, response);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_unsubscribeMany(MQTTAsync handle, int count, char* const* topic, MQTTAsync_responseOptions* response)
{
MQTTAsyncs* m = handle;
int i = 0;
int rc = MQTTASYNC_SUCCESS;
MQTTAsync_queuedCommand* unsub;
int msgid = 0;
FUNC_ENTRY;
if (m == NULL || m->c == NULL)
rc = MQTTASYNC_FAILURE;
else if (m->c->connected == 0)
rc = MQTTASYNC_DISCONNECTED;
else for (i = 0; i < count; i++)
{
if (!UTF8_validateString(topic[i]))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
break;
}
}
if (rc != MQTTASYNC_SUCCESS)
; /* don't overwrite a previous error code */
else if ((msgid = MQTTAsync_assignMsgId(m)) == 0)
rc = MQTTASYNC_NO_MORE_MSGIDS;
else if (response)
{
if (m->c->MQTTVersion >= MQTTVERSION_5)
{
if (response->struct_version == 0 || response->onFailure || response->onSuccess)
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
else if (m->c->MQTTVersion < MQTTVERSION_5)
{
if (response->struct_version >= 1 && (response->onFailure5 || response->onSuccess5))
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
}
if (rc != MQTTASYNC_SUCCESS)
goto exit;
/* Add unsubscribe request to operation queue */
if ((unsub = malloc(sizeof(MQTTAsync_queuedCommand))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(unsub, '\0', sizeof(MQTTAsync_queuedCommand));
unsub->client = m;
unsub->command.type = UNSUBSCRIBE;
unsub->command.token = msgid;
if (response)
{
unsub->command.onSuccess = response->onSuccess;
unsub->command.onFailure = response->onFailure;
unsub->command.onSuccess5 = response->onSuccess5;
unsub->command.onFailure5 = response->onFailure5;
unsub->command.context = response->context;
response->token = unsub->command.token;
if (m->c->MQTTVersion >= MQTTVERSION_5)
unsub->command.properties = MQTTProperties_copy(&response->properties);
}
unsub->command.details.unsub.count = count;
if ((unsub->command.details.unsub.topics = malloc(sizeof(char*) * count)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
for (i = 0; i < count; ++i)
unsub->command.details.unsub.topics[i] = MQTTStrdup(topic[i]);
rc = MQTTAsync_addCommand(unsub, sizeof(unsub));
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_unsubscribe(MQTTAsync handle, const char* topic, MQTTAsync_responseOptions* response)
{
int rc = 0;
FUNC_ENTRY;
rc = MQTTAsync_unsubscribeMany(handle, 1, (char * const *)(&topic), response);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_send(MQTTAsync handle, const char* destinationName, int payloadlen, const void* payload,
int qos, int retained, MQTTAsync_responseOptions* response)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
MQTTAsync_queuedCommand* pub;
int msgid = 0;
FUNC_ENTRY;
if (m == NULL || m->c == NULL)
rc = MQTTASYNC_FAILURE;
else if (m->c->connected == 0)
{
if (m->createOptions == NULL)
rc = MQTTASYNC_DISCONNECTED;
else if (m->createOptions->sendWhileDisconnected == 0)
rc = MQTTASYNC_DISCONNECTED;
else if (m->shouldBeConnected == 0 && (m->createOptions->struct_version < 2 || m->createOptions->allowDisconnectedSendAtAnyTime == 0))
rc = MQTTASYNC_DISCONNECTED;
}
if (rc != MQTTASYNC_SUCCESS)
goto exit;
if (!UTF8_validateString(destinationName))
rc = MQTTASYNC_BAD_UTF8_STRING;
else if (qos < 0 || qos > 2)
rc = MQTTASYNC_BAD_QOS;
else if (qos > 0 && (msgid = MQTTAsync_assignMsgId(m)) == 0)
rc = MQTTASYNC_NO_MORE_MSGIDS;
else if (m->createOptions &&
(m->createOptions->struct_version < 2 || m->createOptions->deleteOldestMessages == 0) &&
(MQTTAsync_getNoBufferedMessages(m) >= m->createOptions->maxBufferedMessages))
rc = MQTTASYNC_MAX_BUFFERED_MESSAGES;
else if (response)
{
if (m->c->MQTTVersion >= MQTTVERSION_5)
{
if (response->struct_version == 0 || response->onFailure || response->onSuccess)
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
else if (m->c->MQTTVersion < MQTTVERSION_5)
{
if (response->struct_version >= 1 && (response->onFailure5 || response->onSuccess5))
rc = MQTTASYNC_BAD_MQTT_OPTION;
}
}
if (rc != MQTTASYNC_SUCCESS)
goto exit;
/* Add publish request to operation queue */
if ((pub = malloc(sizeof(MQTTAsync_queuedCommand))) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memset(pub, '\0', sizeof(MQTTAsync_queuedCommand));
pub->client = m;
pub->command.type = PUBLISH;
pub->command.token = msgid;
if (response)
{
pub->command.onSuccess = response->onSuccess;
pub->command.onFailure = response->onFailure;
pub->command.onSuccess5 = response->onSuccess5;
pub->command.onFailure5 = response->onFailure5;
pub->command.context = response->context;
response->token = pub->command.token;
if (m->c->MQTTVersion >= MQTTVERSION_5)
pub->command.properties = MQTTProperties_copy(&response->properties);
}
if ((pub->command.details.pub.destinationName = MQTTStrdup(destinationName)) == NULL)
{
free(pub);
rc = PAHO_MEMORY_ERROR;
goto exit;
}
pub->command.details.pub.payloadlen = payloadlen;
if ((pub->command.details.pub.payload = malloc(payloadlen)) == NULL)
{
free(pub->command.details.pub.destinationName);
free(pub);
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memcpy(pub->command.details.pub.payload, payload, payloadlen);
pub->command.details.pub.qos = qos;
pub->command.details.pub.retained = retained;
rc = MQTTAsync_addCommand(pub, sizeof(pub));
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_sendMessage(MQTTAsync handle, const char* destinationName, const MQTTAsync_message* message,
MQTTAsync_responseOptions* response)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
if (message == NULL)
{
rc = MQTTASYNC_NULL_PARAMETER;
goto exit;
}
if (strncmp(message->struct_id, "MQTM", 4) != 0 ||
(message->struct_version != 0 && message->struct_version != 1))
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
if (m->c->MQTTVersion >= MQTTVERSION_5 && response)
response->properties = message->properties;
rc = MQTTAsync_send(handle, destinationName, message->payloadlen, message->payload,
message->qos, message->retained, response);
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_disconnect(MQTTAsync handle, const MQTTAsync_disconnectOptions* options)
{
if (options != NULL && (strncmp(options->struct_id, "MQTD", 4) != 0 || options->struct_version < 0 || options->struct_version > 1))
return MQTTASYNC_BAD_STRUCTURE;
else
return MQTTAsync_disconnect1(handle, options, 0);
}
int MQTTAsync_isConnected(MQTTAsync handle)
{
MQTTAsyncs* m = handle;
int rc = 0;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m && m->c)
rc = m->c->connected;
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_isComplete(MQTTAsync handle, MQTTAsync_token dt)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
ListElement* current = NULL;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
{
rc = MQTTASYNC_FAILURE;
goto exit;
}
/* First check unprocessed commands */
current = NULL;
while (ListNextElement(MQTTAsync_commands, &current))
{
MQTTAsync_queuedCommand* cmd = (MQTTAsync_queuedCommand*)(current->content);
if (cmd->client == m && cmd->command.token == dt)
goto exit;
}
/* Now check the inflight messages */
if (m->c && m->c->outboundMsgs->count > 0)
{
current = NULL;
while (ListNextElement(m->c->outboundMsgs, &current))
{
Messages* m = (Messages*)(current->content);
if (m->msgid == dt)
goto exit;
}
}
rc = MQTTASYNC_TRUE; /* Can't find it, so it must be complete */
exit:
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_waitForCompletion(MQTTAsync handle, MQTTAsync_token dt, unsigned long timeout)
{
int rc = MQTTASYNC_FAILURE;
START_TIME_TYPE start = MQTTTime_start_clock();
ELAPSED_TIME_TYPE elapsed = 0L;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || m->c == NULL)
{
MQTTAsync_unlock_mutex(mqttasync_mutex);
rc = MQTTASYNC_FAILURE;
goto exit;
}
if (m->c->connected == 0)
{
MQTTAsync_unlock_mutex(mqttasync_mutex);
rc = MQTTASYNC_DISCONNECTED;
goto exit;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
if (MQTTAsync_isComplete(handle, dt) == 1)
{
rc = MQTTASYNC_SUCCESS; /* well we couldn't find it */
goto exit;
}
elapsed = MQTTTime_elapsed(start);
while (elapsed < timeout && rc == MQTTASYNC_FAILURE)
{
MQTTTime_sleep(100);
if (MQTTAsync_isComplete(handle, dt) == 1)
rc = MQTTASYNC_SUCCESS; /* well we couldn't find it */
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m->c->connected == 0)
rc = MQTTASYNC_DISCONNECTED;
MQTTAsync_unlock_mutex(mqttasync_mutex);
elapsed = MQTTTime_elapsed(start);
}
exit:
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_getPendingTokens(MQTTAsync handle, MQTTAsync_token **tokens)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
ListElement* current = NULL;
int count = 0;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
MQTTAsync_lock_mutex(mqttcommand_mutex);
*tokens = NULL;
if (m == NULL)
{
rc = MQTTASYNC_FAILURE;
goto exit;
}
/* calculate the number of pending tokens - commands plus inflight */
while (ListNextElement(MQTTAsync_commands, &current))
{
MQTTAsync_queuedCommand* cmd = (MQTTAsync_queuedCommand*)(current->content);
if (cmd->client == m && cmd->command.type == PUBLISH)
count++;
}
if (m->c)
count += m->c->outboundMsgs->count;
if (count == 0)
goto exit; /* no tokens to return */
*tokens = malloc(sizeof(MQTTAsync_token) * (count + 1)); /* add space for sentinel at end of list */
if (!*tokens)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
/* First add the unprocessed commands to the pending tokens */
current = NULL;
count = 0;
while (ListNextElement(MQTTAsync_commands, &current))
{
MQTTAsync_queuedCommand* cmd = (MQTTAsync_queuedCommand*)(current->content);
if (cmd->client == m && cmd->command.type == PUBLISH)
(*tokens)[count++] = cmd->command.token;
}
/* Now add the inflight messages */
if (m->c && m->c->outboundMsgs->count > 0)
{
current = NULL;
while (ListNextElement(m->c->outboundMsgs, &current))
{
Messages* m = (Messages*)(current->content);
(*tokens)[count++] = m->msgid;
}
}
(*tokens)[count] = -1; /* indicate end of list */
exit:
MQTTAsync_unlock_mutex(mqttcommand_mutex);
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setCallbacks(MQTTAsync handle, void* context,
MQTTAsync_connectionLost* cl,
MQTTAsync_messageArrived* ma,
MQTTAsync_deliveryComplete* dc)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || ma == NULL || m->c == NULL || m->c->connect_state != NOT_IN_PROGRESS)
rc = MQTTASYNC_FAILURE;
else
{
m->clContext = m->maContext = m->dcContext = context;
m->cl = cl;
m->ma = ma;
m->dc = dc;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setConnectionLostCallback(MQTTAsync handle, void* context,
MQTTAsync_connectionLost* cl)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || m->c->connect_state != 0)
rc = MQTTASYNC_FAILURE;
else
{
m->clContext = context;
m->cl = cl;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setMessageArrivedCallback(MQTTAsync handle, void* context,
MQTTAsync_messageArrived* ma)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || ma == NULL || m->c->connect_state != 0)
rc = MQTTASYNC_FAILURE;
else
{
m->maContext = context;
m->ma = ma;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setDeliveryCompleteCallback(MQTTAsync handle, void* context,
MQTTAsync_deliveryComplete* dc)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || m->c->connect_state != 0)
rc = MQTTASYNC_FAILURE;
else
{
m->dcContext = context;
m->dc = dc;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setDisconnected(MQTTAsync handle, void* context, MQTTAsync_disconnected* disconnected)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || m->c->connect_state != NOT_IN_PROGRESS)
rc = MQTTASYNC_FAILURE;
else
{
m->disconnected_context = context;
m->disconnected = disconnected;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setConnected(MQTTAsync handle, void* context, MQTTAsync_connected* connected)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL || m->c->connect_state != NOT_IN_PROGRESS)
rc = MQTTASYNC_FAILURE;
else
{
m->connected_context = context;
m->connected = connected;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setUpdateConnectOptions(MQTTAsync handle, void* context, MQTTAsync_updateConnectOptions* updateOptions)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
rc = MQTTASYNC_FAILURE;
else
{
m->updateConnectOptions_context = context;
m->updateConnectOptions = updateOptions;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setBeforePersistenceWrite(MQTTAsync handle, void* context, MQTTPersistence_beforeWrite* co)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
rc = MQTTASYNC_FAILURE;
else
{
m->c->beforeWrite = co;
m->c->beforeWrite_context = context;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
int MQTTAsync_setAfterPersistenceRead(MQTTAsync handle, void* context, MQTTPersistence_afterRead* co)
{
int rc = MQTTASYNC_SUCCESS;
MQTTAsyncs* m = handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
rc = MQTTASYNC_FAILURE;
else
{
m->c->afterRead = co;
m->c->afterRead_context = context;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
void MQTTAsync_setTraceLevel(enum MQTTASYNC_TRACE_LEVELS level)
{
Log_setTraceLevel((enum LOG_LEVELS)level);
}
void MQTTAsync_setTraceCallback(MQTTAsync_traceCallback* callback)
{
Log_setTraceCallback((Log_traceCallback*)callback);
}
MQTTAsync_nameValue* MQTTAsync_getVersionInfo(void)
{
#define MAX_INFO_STRINGS 8
static MQTTAsync_nameValue libinfo[MAX_INFO_STRINGS + 1];
int i = 0;
libinfo[i].name = "Product name";
libinfo[i++].value = "Eclipse Paho Asynchronous 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;
}
const char* MQTTAsync_strerror(int code)
{
static char buf[30];
int chars = 0;
switch (code) {
case MQTTASYNC_SUCCESS:
return "Success";
case MQTTASYNC_FAILURE:
return "Failure";
case MQTTASYNC_PERSISTENCE_ERROR:
return "Persistence error";
case MQTTASYNC_DISCONNECTED:
return "Disconnected";
case MQTTASYNC_MAX_MESSAGES_INFLIGHT:
return "Maximum in-flight messages amount reached";
case MQTTASYNC_BAD_UTF8_STRING:
return "Invalid UTF8 string";
case MQTTASYNC_NULL_PARAMETER:
return "Invalid (NULL) parameter";
case MQTTASYNC_TOPICNAME_TRUNCATED:
return "Topic containing NULL characters has been truncated";
case MQTTASYNC_BAD_STRUCTURE:
return "Bad structure";
case MQTTASYNC_BAD_QOS:
return "Invalid QoS value";
case MQTTASYNC_NO_MORE_MSGIDS:
return "Too many pending commands";
case MQTTASYNC_OPERATION_INCOMPLETE:
return "Operation discarded before completion";
case MQTTASYNC_MAX_BUFFERED_MESSAGES:
return "No more messages can be buffered";
case MQTTASYNC_SSL_NOT_SUPPORTED:
return "SSL is not supported";
case MQTTASYNC_BAD_PROTOCOL:
return "Invalid protocol scheme";
case MQTTASYNC_BAD_MQTT_OPTION:
return "Options for wrong MQTT version";
case MQTTASYNC_WRONG_MQTT_VERSION:
return "Client created for another version of MQTT";
case MQTTASYNC_0_LEN_WILL_TOPIC:
return "Zero length will topic on connect";
case MQTTASYNC_COMMAND_IGNORED:
return "Connect or disconnect command ignored";
case MQTTASYNC_MAX_BUFFERED:
return "maxBufferedMessages in the connect options must be >= 0";
}
chars = snprintf(buf, sizeof(buf), "Unknown error code %d", code);
if (chars >= sizeof(buf))
{
buf[sizeof(buf)-1] = '\0';
Log(LOG_ERROR, 0, "Error writing %d chars with snprintf", chars);
}
return buf;
}
void MQTTAsync_freeMessage(MQTTAsync_message** message)
{
FUNC_ENTRY;
MQTTProperties_free(&(*message)->properties);
free((*message)->payload);
free(*message);
*message = NULL;
FUNC_EXIT;
}
void MQTTAsync_free(void* memory)
{
FUNC_ENTRY;
free(memory);
FUNC_EXIT;
}
void* MQTTAsync_malloc(size_t size)
{
void* val;
int rc = 0;
FUNC_ENTRY;
val = malloc(size);
rc = (val != NULL);
FUNC_EXIT_RC(rc);
return val;
}
static void MQTTAsync_freeServerURIs(MQTTAsyncs* m)
{
int i;
for (i = 0; i < m->serverURIcount; ++i)
free(m->serverURIs[i]);
m->serverURIcount = 0;
if (m->serverURIs)
free(m->serverURIs);
m->serverURIs = NULL;
}
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