blob: 87a10884aee64d03480f7a7131d54efe7fbabdb1 [file] [log] [blame]
/*******************************************************************************
* Copyright (c) 2009, 2017 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 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
*******************************************************************************/
/**
* @file
* \brief Asynchronous API implementation
*
*/
#define _GNU_SOURCE /* for pthread_mutexattr_settype */
#include <stdlib.h>
#include <string.h>
#if !defined(WIN32) && !defined(WIN64)
#include <sys/time.h>
#endif
#if !defined(NO_PERSISTENCE)
#include "MQTTPersistence.h"
#endif
#include "MQTTAsync.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"
#define URI_TCP "tcp://"
#include "VersionInfo.h"
const char *client_timestamp_eye = "MQTTAsyncV3_Timestamp " BUILD_TIMESTAMP;
const char *client_version_eye = "MQTTAsyncV3_Version " CLIENT_VERSION;
void MQTTAsync_global_init(MQTTAsync_init_options* inits)
{
#if defined(OPENSSL)
SSLSocket_handleOpensslInit(inits->do_openssl_init);
#endif
}
#if !defined(min)
#define min(a, b) (((a) < (b)) ? (a) : (b))
#endif
static ClientStates ClientState =
{
CLIENT_VERSION, /* version */
NULL /* client list */
};
ClientStates* bstate = &ClientState;
MQTTProtocol state;
enum MQTTAsync_threadStates
{
STOPPED, STARTING, RUNNING, STOPPING
};
enum MQTTAsync_threadStates sendThread_state = STOPPED;
enum MQTTAsync_threadStates receiveThread_state = STOPPED;
static thread_id_type sendThread_id = 0,
receiveThread_id = 0;
#if defined(WIN32) || defined(WIN64)
static mutex_type mqttasync_mutex = NULL;
static mutex_type socket_mutex = NULL;
static mutex_type mqttcommand_mutex = NULL;
static sem_type send_sem = 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 (mqttasync_mutex == NULL)
{
mqttasync_mutex = CreateMutex(NULL, 0, NULL);
mqttcommand_mutex = CreateMutex(NULL, 0, NULL);
send_sem = CreateEvent(
NULL, /* default security attributes */
FALSE, /* manual-reset event? */
FALSE, /* initial state is nonsignaled */
NULL /* object name */
);
stack_mutex = CreateMutex(NULL, 0, NULL);
heap_mutex = CreateMutex(NULL, 0, NULL);
log_mutex = CreateMutex(NULL, 0, NULL);
socket_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 mqttasync_mutex_store = PTHREAD_MUTEX_INITIALIZER;
static mutex_type mqttasync_mutex = &mqttasync_mutex_store;
static pthread_mutex_t socket_mutex_store = PTHREAD_MUTEX_INITIALIZER;
static mutex_type socket_mutex = &socket_mutex_store;
static pthread_mutex_t mqttcommand_mutex_store = PTHREAD_MUTEX_INITIALIZER;
static mutex_type mqttcommand_mutex = &mqttcommand_mutex_store;
static cond_type_struct send_cond_store = { PTHREAD_COND_INITIALIZER, PTHREAD_MUTEX_INITIALIZER };
static cond_type send_cond = &send_cond_store;
void 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);
if ((rc = pthread_mutex_init(mqttcommand_mutex, &attr)) != 0)
printf("MQTTAsync: error %d initializing command_mutex\n", rc);
if ((rc = pthread_mutex_init(socket_mutex, &attr)) != 0)
printf("MQTTClient: error %d initializing socket_mutex\n", rc);
if ((rc = pthread_cond_init(&send_cond->cond, NULL)) != 0)
printf("MQTTAsync: error %d initializing send_cond cond\n", rc);
if ((rc = pthread_mutex_init(&send_cond->mutex, &attr)) != 0)
printf("MQTTAsync: error %d initializing send_cond mutex\n", rc);
}
#define WINAPI
#endif
static volatile int initialized = 0;
static List* handles = NULL;
static int tostop = 0;
static List* commands = NULL;
#if defined(WIN32) || defined(WIN64)
#define START_TIME_TYPE DWORD
START_TIME_TYPE MQTTAsync_start_clock(void)
{
return GetTickCount();
}
#elif defined(AIX)
#define START_TIME_TYPE struct timespec
START_TIME_TYPE MQTTAsync_start_clock(void)
{
static struct timespec start;
clock_gettime(CLOCK_REALTIME, &start);
return start;
}
#else
#define START_TIME_TYPE struct timeval
START_TIME_TYPE MQTTAsync_start_clock(void)
{
static struct timeval start;
gettimeofday(&start, NULL);
return start;
}
#endif
#if defined(WIN32) || defined(WIN64)
long MQTTAsync_elapsed(DWORD milliseconds)
{
return GetTickCount() - milliseconds;
}
#elif defined(AIX)
#define assert(a)
long MQTTAsync_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 MQTTAsync_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
typedef struct
{
MQTTAsync_message* msg;
char* topicName;
int topicLen;
unsigned int seqno; /* only used on restore */
} qEntry;
typedef struct
{
int type;
MQTTAsync_onSuccess* onSuccess;
MQTTAsync_onFailure* onFailure;
MQTTAsync_token token;
void* context;
START_TIME_TYPE start_time;
union
{
struct
{
int count;
char** topics;
int* qoss;
} sub;
struct
{
int count;
char** topics;
} unsub;
struct
{
char* destinationName;
int payloadlen;
void* payload;
int qos;
int retained;
} pub;
struct
{
int internal;
int timeout;
} dis;
struct
{
int currentURI;
int MQTTVersion; /**< current MQTT version being used to connect */
} conn;
} details;
} MQTTAsync_command;
typedef struct MQTTAsync_struct
{
char* serverURI;
int ssl;
Clients* c;
/* "Global", to the client, callback definitions */
MQTTAsync_connectionLost* cl;
MQTTAsync_messageArrived* ma;
MQTTAsync_deliveryComplete* dc;
void* context; /* the context to be associated with the main callbacks*/
MQTTAsync_connected* connected;
void* connected_context; /* the context to be associated with the connected callback*/
/* Each time connect is called, we store the options that were used. These are reused in
any call to reconnect, or an automatic reconnect attempt */
MQTTAsync_command connect; /* Connect operation properties */
MQTTAsync_command disconnect; /* Disconnect operation properties */
MQTTAsync_command* pending_write; /* Is there a socket write pending? */
List* responses;
unsigned int command_seqno;
MQTTPacket* pack;
/* added for offline buffering */
MQTTAsync_createOptions* createOptions;
int shouldBeConnected;
/* added for automatic reconnect */
int automaticReconnect;
int minRetryInterval;
int maxRetryInterval;
int serverURIcount;
char** serverURIs;
int connectTimeout;
int currentInterval;
START_TIME_TYPE lastConnectionFailedTime;
int retrying;
int reconnectNow;
} MQTTAsyncs;
typedef struct
{
MQTTAsync_command command;
MQTTAsyncs* client;
unsigned int seqno; /* only used on restore */
} MQTTAsync_queuedCommand;
static int clientSockCompare(void* a, void* b);
static void MQTTAsync_lock_mutex(mutex_type amutex);
static void MQTTAsync_unlock_mutex(mutex_type amutex);
static int MQTTAsync_checkConn(MQTTAsync_command* command, MQTTAsyncs* client);
static void MQTTAsync_terminate(void);
#if !defined(NO_PERSISTENCE)
static int MQTTAsync_unpersistCommand(MQTTAsync_queuedCommand* qcmd);
static int MQTTAsync_persistCommand(MQTTAsync_queuedCommand* qcmd);
static MQTTAsync_queuedCommand* MQTTAsync_restoreCommand(char* buffer, int buflen);
/*static void MQTTAsync_insertInOrder(List* list, void* content, int size);*/
static int MQTTAsync_restoreCommands(MQTTAsyncs* client);
#endif
static int MQTTAsync_addCommand(MQTTAsync_queuedCommand* command, int command_size);
static void MQTTAsync_startConnectRetry(MQTTAsyncs* m);
static void MQTTAsync_checkDisconnect(MQTTAsync handle, MQTTAsync_command* command);
static void MQTTProtocol_checkPendingWrites(void);
static void MQTTAsync_freeServerURIs(MQTTAsyncs* m);
static void MQTTAsync_freeCommand1(MQTTAsync_queuedCommand *command);
static void MQTTAsync_freeCommand(MQTTAsync_queuedCommand *command);
static void MQTTAsync_writeComplete(int socket);
static int MQTTAsync_processCommand(void);
static void MQTTAsync_checkTimeouts(void);
static thread_return_type WINAPI MQTTAsync_sendThread(void* n);
static void MQTTAsync_emptyMessageQueue(Clients* client);
static void MQTTAsync_removeResponsesAndCommands(MQTTAsyncs* m);
static int MQTTAsync_completeConnection(MQTTAsyncs* m, MQTTPacket* pack);
static thread_return_type WINAPI MQTTAsync_receiveThread(void* n);
static void MQTTAsync_stop(void);
static void MQTTAsync_closeOnly(Clients* client);
static void MQTTAsync_closeSession(Clients* client);
static int clientStructCompare(void* a, void* b);
static int MQTTAsync_cleanSession(Clients* client);
static int MQTTAsync_deliverMessage(MQTTAsyncs* m, char* topicName, size_t topicLen, MQTTAsync_message* mm);
static int MQTTAsync_disconnect1(MQTTAsync handle, const MQTTAsync_disconnectOptions* options, int internal);
static int MQTTAsync_disconnect_internal(MQTTAsync handle, int timeout);
static int cmdMessageIDCompare(void* a, void* b);
static int MQTTAsync_assignMsgId(MQTTAsyncs* m);
static int MQTTAsync_countBufferedMessages(MQTTAsyncs* m);
static void MQTTAsync_retry(void);
static int MQTTAsync_connecting(MQTTAsyncs* m);
static MQTTPacket* MQTTAsync_cycle(int* sock, unsigned long timeout, int* rc);
/*static int pubCompare(void* a, void* b);*/
void MQTTAsync_sleep(long milliseconds)
{
FUNC_ENTRY;
#if defined(WIN32) || defined(WIN64)
Sleep(milliseconds);
#else
usleep(milliseconds*1000);
#endif
FUNC_EXIT;
}
/**
* 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
*/
static int clientSockCompare(void* a, void* b)
{
MQTTAsyncs* m = (MQTTAsyncs*)a;
return m->c->net.socket == *(int*)b;
}
static void MQTTAsync_lock_mutex(mutex_type amutex)
{
int rc = Thread_lock_mutex(amutex);
if (rc != 0)
Log(LOG_ERROR, 0, "Error %s locking mutex", strerror(rc));
}
static void MQTTAsync_unlock_mutex(mutex_type amutex)
{
int rc = Thread_unlock_mutex(amutex);
if (rc != 0)
Log(LOG_ERROR, 0, "Error %s unlocking mutex", strerror(rc));
}
/*
Check whether there are any more connect options. If not then we are finished
with connect attempts.
*/
static int MQTTAsync_checkConn(MQTTAsync_command* command, MQTTAsyncs* client)
{
int rc;
FUNC_ENTRY;
rc = command->details.conn.currentURI + 1 < client->serverURIcount ||
(command->details.conn.MQTTVersion == 4 && client->c->MQTTVersion == MQTTVERSION_DEFAULT);
FUNC_EXIT_RC(rc);
return rc;
}
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;
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 (options && (strncmp(options->struct_id, "MQCO", 4) != 0 || options->struct_version != 0))
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
if (!initialized)
{
#if defined(HEAP_H)
Heap_initialize();
#endif
Log_initialize((Log_nameValue*)MQTTAsync_getVersionInfo());
bstate->clients = ListInitialize();
Socket_outInitialize();
Socket_setWriteCompleteCallback(MQTTAsync_writeComplete);
handles = ListInitialize();
commands = ListInitialize();
#if defined(OPENSSL)
SSLSocket_initialize();
#endif
initialized = 1;
}
m = malloc(sizeof(MQTTAsyncs));
*handle = m;
memset(m, '\0', sizeof(MQTTAsyncs));
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);
m->responses = ListInitialize();
ListAppend(handles, m, sizeof(MQTTAsyncs));
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->shouldBeConnected = 0;
if (options)
{
m->createOptions = malloc(sizeof(MQTTAsync_createOptions));
memcpy(m->createOptions, options, sizeof(MQTTAsync_createOptions));
}
#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)
{
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)
{
return MQTTAsync_createWithOptions(handle, serverURI, clientId, persistence_type,
persistence_context, NULL);
}
static void MQTTAsync_terminate(void)
{
FUNC_ENTRY;
MQTTAsync_stop();
if (initialized)
{
ListElement* elem = NULL;
ListFree(bstate->clients);
ListFree(handles);
while (ListNextElement(commands, &elem))
MQTTAsync_freeCommand1((MQTTAsync_queuedCommand*)(elem->content));
ListFree(commands);
handles = NULL;
Socket_outTerminate();
#if defined(OPENSSL)
SSLSocket_terminate();
#endif
#if defined(HEAP_H)
Heap_terminate();
#endif
Log_terminate();
initialized = 0;
}
FUNC_EXIT;
}
#if !defined(NO_PERSISTENCE)
static int MQTTAsync_unpersistCommand(MQTTAsync_queuedCommand* qcmd)
{
int rc = 0;
char key[PERSISTENCE_MAX_KEY_LENGTH + 1];
FUNC_ENTRY;
sprintf(key, "%s%u", PERSISTENCE_COMMAND_KEY, qcmd->seqno);
if ((rc = qcmd->client->c->persistence->premove(qcmd->client->c->phandle, key)) != 0)
Log(LOG_ERROR, 0, "Error %d removing command from persistence", rc);
FUNC_EXIT_RC(rc);
return rc;
}
static int MQTTAsync_persistCommand(MQTTAsync_queuedCommand* qcmd)
{
int rc = 0;
MQTTAsyncs* aclient = qcmd->client;
MQTTAsync_command* command = &qcmd->command;
int* lens = NULL;
void** bufs = NULL;
int bufindex = 0, i, nbufs = 0;
char key[PERSISTENCE_MAX_KEY_LENGTH + 1];
FUNC_ENTRY;
switch (command->type)
{
case SUBSCRIBE:
nbufs = 3 + (command->details.sub.count * 2);
lens = (int*)malloc(nbufs * sizeof(int));
bufs = malloc(nbufs * sizeof(char *));
bufs[bufindex] = &command->type;
lens[bufindex++] = sizeof(command->type);
bufs[bufindex] = &command->token;
lens[bufindex++] = sizeof(command->token);
bufs[bufindex] = &command->details.sub.count;
lens[bufindex++] = sizeof(command->details.sub.count);
for (i = 0; i < command->details.sub.count; ++i)
{
bufs[bufindex] = command->details.sub.topics[i];
lens[bufindex++] = (int)strlen(command->details.sub.topics[i]) + 1;
bufs[bufindex] = &command->details.sub.qoss[i];
lens[bufindex++] = sizeof(command->details.sub.qoss[i]);
}
sprintf(key, "%s%d", PERSISTENCE_COMMAND_KEY, ++aclient->command_seqno);
break;
case UNSUBSCRIBE:
nbufs = 3 + command->details.unsub.count;
lens = (int*)malloc(nbufs * sizeof(int));
bufs = malloc(nbufs * sizeof(char *));
bufs[bufindex] = &command->type;
lens[bufindex++] = sizeof(command->type);
bufs[bufindex] = &command->token;
lens[bufindex++] = sizeof(command->token);
bufs[bufindex] = &command->details.unsub.count;
lens[bufindex++] = sizeof(command->details.unsub.count);
for (i = 0; i < command->details.unsub.count; ++i)
{
bufs[bufindex] = command->details.unsub.topics[i];
lens[bufindex++] = (int)strlen(command->details.unsub.topics[i]) + 1;
}
sprintf(key, "%s%d", PERSISTENCE_COMMAND_KEY, ++aclient->command_seqno);
break;
case PUBLISH:
nbufs = 7;
lens = (int*)malloc(nbufs * sizeof(int));
bufs = malloc(nbufs * sizeof(char *));
bufs[bufindex] = &command->type;
lens[bufindex++] = sizeof(command->type);
bufs[bufindex] = &command->token;
lens[bufindex++] = sizeof(command->token);
bufs[bufindex] = command->details.pub.destinationName;
lens[bufindex++] = (int)strlen(command->details.pub.destinationName) + 1;
bufs[bufindex] = &command->details.pub.payloadlen;
lens[bufindex++] = sizeof(command->details.pub.payloadlen);
bufs[bufindex] = command->details.pub.payload;
lens[bufindex++] = command->details.pub.payloadlen;
bufs[bufindex] = &command->details.pub.qos;
lens[bufindex++] = sizeof(command->details.pub.qos);
bufs[bufindex] = &command->details.pub.retained;
lens[bufindex++] = sizeof(command->details.pub.retained);
sprintf(key, "%s%d", PERSISTENCE_COMMAND_KEY, ++aclient->command_seqno);
break;
}
if (nbufs > 0)
{
if ((rc = aclient->c->persistence->pput(aclient->c->phandle, key, nbufs, (char**)bufs, lens)) != 0)
Log(LOG_ERROR, 0, "Error persisting command, rc %d", rc);
qcmd->seqno = aclient->command_seqno;
}
if (lens)
free(lens);
if (bufs)
free(bufs);
FUNC_EXIT_RC(rc);
return rc;
}
static MQTTAsync_queuedCommand* MQTTAsync_restoreCommand(char* buffer, int buflen)
{
MQTTAsync_command* command = NULL;
MQTTAsync_queuedCommand* qcommand = NULL;
char* ptr = buffer;
int i;
size_t data_size;
FUNC_ENTRY;
qcommand = malloc(sizeof(MQTTAsync_queuedCommand));
memset(qcommand, '\0', sizeof(MQTTAsync_queuedCommand));
command = &qcommand->command;
command->type = *(int*)ptr;
ptr += sizeof(int);
command->token = *(MQTTAsync_token*)ptr;
ptr += sizeof(MQTTAsync_token);
switch (command->type)
{
case SUBSCRIBE:
command->details.sub.count = *(int*)ptr;
ptr += sizeof(int);
if (command->details.sub.count > 0)
{
command->details.sub.topics = (char **)malloc(sizeof(char *) * command->details.sub.count);
command->details.sub.qoss = (int *)malloc(sizeof(int) * command->details.sub.count);
}
for (i = 0; i < command->details.sub.count; ++i)
{
data_size = strlen(ptr) + 1;
command->details.sub.topics[i] = malloc(data_size);
strcpy(command->details.sub.topics[i], ptr);
ptr += data_size;
command->details.sub.qoss[i] = *(int*)ptr;
ptr += sizeof(int);
}
break;
case UNSUBSCRIBE:
command->details.unsub.count = *(int*)ptr;
ptr += sizeof(int);
if (command->details.unsub.count > 0)
{
command->details.unsub.topics = (char **)malloc(sizeof(char *) * command->details.unsub.count);
}
for (i = 0; i < command->details.unsub.count; ++i)
{
data_size = strlen(ptr) + 1;
command->details.unsub.topics[i] = malloc(data_size);
strcpy(command->details.unsub.topics[i], ptr);
ptr += data_size;
}
break;
case PUBLISH:
data_size = strlen(ptr) + 1;
command->details.pub.destinationName = malloc(data_size);
strcpy(command->details.pub.destinationName, ptr);
ptr += data_size;
command->details.pub.payloadlen = *(int*)ptr;
ptr += sizeof(int);
data_size = command->details.pub.payloadlen;
command->details.pub.payload = malloc(data_size);
memcpy(command->details.pub.payload, ptr, data_size);
ptr += data_size;
command->details.pub.qos = *(int*)ptr;
ptr += sizeof(int);
command->details.pub.retained = *(int*)ptr;
ptr += sizeof(int);
break;
default:
free(qcommand);
qcommand = NULL;
}
FUNC_EXIT;
return qcommand;
}
/*
static void MQTTAsync_insertInOrder(List* list, void* content, int size)
{
ListElement* index = NULL;
ListElement* current = NULL;
FUNC_ENTRY;
while (ListNextElement(list, &current) != NULL && index == NULL)
{
if (((MQTTAsync_queuedCommand*)content)->seqno < ((MQTTAsync_queuedCommand*)current->content)->seqno)
index = current;
}
ListInsert(list, content, size, index);
FUNC_EXIT;
}*/
static int MQTTAsync_restoreCommands(MQTTAsyncs* client)
{
int rc = 0;
char **msgkeys;
int nkeys;
int i = 0;
Clients* c = client->c;
int commands_restored = 0;
FUNC_ENTRY;
if (c->persistence && (rc = c->persistence->pkeys(c->phandle, &msgkeys, &nkeys)) == 0)
{
while (rc == 0 && i < nkeys)
{
char *buffer = NULL;
int buflen;
if (strncmp(msgkeys[i], PERSISTENCE_COMMAND_KEY, strlen(PERSISTENCE_COMMAND_KEY)) != 0)
{
;
}
else if ((rc = c->persistence->pget(c->phandle, msgkeys[i], &buffer, &buflen)) == 0)
{
MQTTAsync_queuedCommand* cmd = MQTTAsync_restoreCommand(buffer, buflen);
if (cmd)
{
cmd->client = client;
cmd->seqno = atoi(msgkeys[i]+2);
MQTTPersistence_insertInOrder(commands, cmd, sizeof(MQTTAsync_queuedCommand));
free(buffer);
client->command_seqno = max(client->command_seqno, cmd->seqno);
commands_restored++;
}
}
if (msgkeys[i])
free(msgkeys[i]);
i++;
}
if (msgkeys != NULL)
free(msgkeys);
}
Log(TRACE_MINIMUM, -1, "%d commands restored for client %s", commands_restored, c->clientID);
FUNC_EXIT_RC(rc);
return rc;
}
#endif
static int MQTTAsync_addCommand(MQTTAsync_queuedCommand* command, int command_size)
{
int rc = 0;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttcommand_mutex);
/* Don't set start time if the connect command is already in process #218 */
if ((command->command.type != CONNECT) || (command->client->c->connect_state == 0))
command->command.start_time = MQTTAsync_start_clock();
if (command->command.type == CONNECT ||
(command->command.type == DISCONNECT && command->command.details.dis.internal))
{
MQTTAsync_queuedCommand* head = NULL;
if (commands->first)
head = (MQTTAsync_queuedCommand*)(commands->first->content);
if (head != NULL && head->client == command->client && head->command.type == command->command.type)
MQTTAsync_freeCommand(command); /* ignore duplicate connect or disconnect command */
else
ListInsert(commands, command, command_size, commands->first); /* add to the head of the list */
}
else
{
ListAppend(commands, command, command_size);
#if !defined(NO_PERSISTENCE)
if (command->client->c->persistence)
MQTTAsync_persistCommand(command);
#endif
}
MQTTAsync_unlock_mutex(mqttcommand_mutex);
#if !defined(WIN32) && !defined(WIN64)
rc = Thread_signal_cond(send_cond);
if (rc != 0)
Log(LOG_ERROR, 0, "Error %d from signal cond", rc);
#else
if (!Thread_check_sem(send_sem))
Thread_post_sem(send_sem);
#endif
FUNC_EXIT_RC(rc);
return rc;
}
static void MQTTAsync_startConnectRetry(MQTTAsyncs* m)
{
if (m->automaticReconnect && m->shouldBeConnected)
{
m->lastConnectionFailedTime = MQTTAsync_start_clock();
if (m->retrying)
m->currentInterval = min(m->currentInterval * 2, m->maxRetryInterval);
else
{
m->currentInterval = m->minRetryInterval;
m->retrying = 1;
}
}
}
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;
if (m->retrying == 0)
{
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));
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;
MQTTAsync_addCommand(conn, sizeof(m->connect));
rc = MQTTASYNC_SUCCESS;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
static void MQTTAsync_checkDisconnect(MQTTAsync handle, MQTTAsync_command* command)
{
MQTTAsyncs* m = handle;
FUNC_ENTRY;
/* wait for all inflight message flows to finish, up to timeout */;
if (m->c->outboundMsgs->count == 0 || MQTTAsync_elapsed(command->start_time) >= command->details.dis.timeout)
{
int was_connected = m->c->connected;
MQTTAsync_closeSession(m->c);
if (command->details.dis.internal)
{
if (m->cl && was_connected)
{
Log(TRACE_MIN, -1, "Calling connectionLost for client %s", m->c->clientID);
(*(m->cl))(m->context, NULL);
}
MQTTAsync_startConnectRetry(m);
}
else if (command->onSuccess)
{
Log(TRACE_MIN, -1, "Calling disconnect complete for client %s", m->c->clientID);
(*(command->onSuccess))(command->context, NULL);
}
}
FUNC_EXIT;
}
/**
* 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.
*/
static void MQTTProtocol_checkPendingWrites(void)
{
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;
}
static void MQTTAsync_freeServerURIs(MQTTAsyncs* m)
{
int i;
for (i = 0; i < m->serverURIcount; ++i)
free(m->serverURIs[i]);
if (m->serverURIs)
free(m->serverURIs);
}
static void MQTTAsync_freeCommand1(MQTTAsync_queuedCommand *command)
{
if (command->command.type == SUBSCRIBE)
{
int i;
for (i = 0; i < command->command.details.sub.count; i++)
free(command->command.details.sub.topics[i]);
free(command->command.details.sub.topics);
free(command->command.details.sub.qoss);
}
else if (command->command.type == UNSUBSCRIBE)
{
int i;
for (i = 0; i < command->command.details.unsub.count; i++)
free(command->command.details.unsub.topics[i]);
free(command->command.details.unsub.topics);
}
else if (command->command.type == PUBLISH)
{
/* qos 1 and 2 topics are freed in the protocol code when the flows are completed */
if (command->command.details.pub.destinationName)
free(command->command.details.pub.destinationName);
free(command->command.details.pub.payload);
}
}
static void MQTTAsync_freeCommand(MQTTAsync_queuedCommand *command)
{
MQTTAsync_freeCommand1(command);
free(command);
}
static void MQTTAsync_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)
{
MQTTAsyncs* m = (MQTTAsyncs*)(found->content);
time(&(m->c->net.lastSent));
/* see if there is a pending write flagged */
if (m->pending_write)
{
ListElement* cur_response = NULL;
MQTTAsync_command* command = m->pending_write;
MQTTAsync_queuedCommand* com = NULL;
while (ListNextElement(m->responses, &cur_response))
{
com = (MQTTAsync_queuedCommand*)(cur_response->content);
if (com->client->pending_write == m->pending_write)
break;
}
if (cur_response && command->onSuccess)
{
MQTTAsync_successData data;
data.token = command->token;
data.alt.pub.destinationName = command->details.pub.destinationName;
data.alt.pub.message.payload = command->details.pub.payload;
data.alt.pub.message.payloadlen = command->details.pub.payloadlen;
data.alt.pub.message.qos = command->details.pub.qos;
data.alt.pub.message.retained = command->details.pub.retained;
Log(TRACE_MIN, -1, "Calling publish success for client %s", m->c->clientID);
(*(command->onSuccess))(command->context, &data);
}
m->pending_write = NULL;
ListDetach(m->responses, com);
MQTTAsync_freeCommand(com);
}
}
FUNC_EXIT;
}
static int MQTTAsync_processCommand(void)
{
int rc = 0;
MQTTAsync_queuedCommand* command = NULL;
ListElement* cur_command = NULL;
List* ignored_clients = NULL;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
MQTTAsync_lock_mutex(mqttcommand_mutex);
/* only the first command in the list must be processed for any particular client, so if we skip
a command for a client, we must skip all following commands for that client. Use a list of
ignored clients to keep track
*/
ignored_clients = ListInitialize();
/* don't try a command until there isn't a pending write for that client, and we are not connecting */
while (ListNextElement(commands, &cur_command))
{
MQTTAsync_queuedCommand* cmd = (MQTTAsync_queuedCommand*)(cur_command->content);
if (ListFind(ignored_clients, cmd->client))
continue;
if (cmd->command.type == CONNECT || cmd->command.type == DISCONNECT || (cmd->client->c->connected &&
cmd->client->c->connect_state == 0 && Socket_noPendingWrites(cmd->client->c->net.socket)))
{
if ((cmd->command.type == PUBLISH || cmd->command.type == SUBSCRIBE || cmd->command.type == UNSUBSCRIBE) &&
cmd->client->c->outboundMsgs->count >= MAX_MSG_ID - 1)
{
; /* no more message ids available */
}
else
{
command = cmd;
break;
}
}
ListAppend(ignored_clients, cmd->client, sizeof(cmd->client));
}
ListFreeNoContent(ignored_clients);
if (command)
{
ListDetach(commands, command);
#if !defined(NO_PERSISTENCE)
if (command->client->c->persistence)
MQTTAsync_unpersistCommand(command);
#endif
}
MQTTAsync_unlock_mutex(mqttcommand_mutex);
if (!command)
goto exit; /* nothing to do */
if (command->command.type == CONNECT)
{
if (command->client->c->connect_state != 0 || command->client->c->connected)
rc = 0;
else
{
char* serverURI = command->client->serverURI;
if (command->client->serverURIcount > 0)
{
serverURI = command->client->serverURIs[command->command.details.conn.currentURI];
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);
command->client->ssl = 1;
}
#endif
}
if (command->client->c->MQTTVersion == MQTTVERSION_DEFAULT)
{
if (command->command.details.conn.MQTTVersion == 0)
command->command.details.conn.MQTTVersion = MQTTVERSION_3_1_1;
else if (command->command.details.conn.MQTTVersion == MQTTVERSION_3_1_1)
command->command.details.conn.MQTTVersion = MQTTVERSION_3_1;
}
else
command->command.details.conn.MQTTVersion = command->client->c->MQTTVersion;
Log(TRACE_MIN, -1, "Connecting to serverURI %s with MQTT version %d", serverURI, command->command.details.conn.MQTTVersion);
#if defined(OPENSSL)
rc = MQTTProtocol_connect(serverURI, command->client->c, command->client->ssl, command->command.details.conn.MQTTVersion);
#else
rc = MQTTProtocol_connect(serverURI, command->client->c, command->command.details.conn.MQTTVersion);
#endif
if (command->client->c->connect_state == 0)
rc = SOCKET_ERROR;
/* if the TCP connect is pending, then we must call select to determine when the connect has completed,
which is indicated by the socket being ready *either* for reading *or* writing. The next couple of lines
make sure we check for writeability as well as readability, otherwise we wait around longer than we need to
in Socket_getReadySocket() */
if (rc == EINPROGRESS)
Socket_addPendingWrite(command->client->c->net.socket);
}
}
else if (command->command.type == SUBSCRIBE)
{
List* topics = ListInitialize();
List* qoss = ListInitialize();
int i;
for (i = 0; i < command->command.details.sub.count; i++)
{
ListAppend(topics, command->command.details.sub.topics[i], strlen(command->command.details.sub.topics[i]));
ListAppend(qoss, &command->command.details.sub.qoss[i], sizeof(int));
}
rc = MQTTProtocol_subscribe(command->client->c, topics, qoss, command->command.token);
ListFreeNoContent(topics);
ListFreeNoContent(qoss);
}
else if (command->command.type == UNSUBSCRIBE)
{
List* topics = ListInitialize();
int i;
for (i = 0; i < command->command.details.unsub.count; i++)
ListAppend(topics, command->command.details.unsub.topics[i], strlen(command->command.details.unsub.topics[i]));
rc = MQTTProtocol_unsubscribe(command->client->c, topics, command->command.token);
ListFreeNoContent(topics);
}
else if (command->command.type == PUBLISH)
{
Messages* msg = NULL;
Publish* p = NULL;
p = malloc(sizeof(Publish));
p->payload = command->command.details.pub.payload;
p->payloadlen = command->command.details.pub.payloadlen;
p->topic = command->command.details.pub.destinationName;
p->msgId = command->command.token;
rc = MQTTProtocol_startPublish(command->client->c, p, command->command.details.pub.qos, command->command.details.pub.retained, &msg);
if (command->command.details.pub.qos == 0)
{
if (rc == TCPSOCKET_COMPLETE)
{
if (command->command.onSuccess)
{
MQTTAsync_successData data;
data.token = command->command.token;
data.alt.pub.destinationName = command->command.details.pub.destinationName;
data.alt.pub.message.payload = command->command.details.pub.payload;
data.alt.pub.message.payloadlen = command->command.details.pub.payloadlen;
data.alt.pub.message.qos = command->command.details.pub.qos;
data.alt.pub.message.retained = command->command.details.pub.retained;
Log(TRACE_MIN, -1, "Calling publish success for client %s", command->client->c->clientID);
(*(command->command.onSuccess))(command->command.context, &data);
}
}
else
{
command->command.details.pub.destinationName = NULL; /* this will be freed by the protocol code */
command->client->pending_write = &command->command;
}
}
else
command->command.details.pub.destinationName = NULL; /* this will be freed by the protocol code */
free(p); /* should this be done if the write isn't complete? */
}
else if (command->command.type == DISCONNECT)
{
if (command->client->c->connect_state != 0 || command->client->c->connected != 0)
{
command->client->c->connect_state = -2;
MQTTAsync_checkDisconnect(command->client, &command->command);
}
}
if (command->command.type == CONNECT && rc != SOCKET_ERROR && rc != MQTTASYNC_PERSISTENCE_ERROR)
{
command->client->connect = command->command;
MQTTAsync_freeCommand(command);
}
else if (command->command.type == DISCONNECT)
{
command->client->disconnect = command->command;
MQTTAsync_freeCommand(command);
}
else if (command->command.type == PUBLISH && command->command.details.pub.qos == 0)
{
if (rc == TCPSOCKET_INTERRUPTED)
ListAppend(command->client->responses, command, sizeof(command));
else
MQTTAsync_freeCommand(command);
}
else if (rc == SOCKET_ERROR || rc == MQTTASYNC_PERSISTENCE_ERROR)
{
if (command->command.type == CONNECT)
{
MQTTAsync_disconnectOptions opts = MQTTAsync_disconnectOptions_initializer;
MQTTAsync_disconnect(command->client, &opts); /* not "internal" because we don't want to call connection lost */
command->client->shouldBeConnected = 1; /* as above call is not "internal" we need to reset this */
}
else
MQTTAsync_disconnect_internal(command->client, 0);
if (command->command.type == CONNECT && MQTTAsync_checkConn(&command->command, command->client))
{
Log(TRACE_MIN, -1, "Connect failed, more to try");
if (command->client->c->MQTTVersion == MQTTVERSION_DEFAULT)
{
if (command->command.details.conn.MQTTVersion == MQTTVERSION_3_1)
{
command->command.details.conn.currentURI++;
command->command.details.conn.MQTTVersion = MQTTVERSION_DEFAULT;
}
}
else
command->command.details.conn.currentURI++;
/* put the connect command back to the head of the command queue, using the next serverURI */
rc = MQTTAsync_addCommand(command, sizeof(command->command.details.conn));
}
else
{
if (command->command.onFailure)
{
Log(TRACE_MIN, -1, "Calling command failure for client %s", command->client->c->clientID);
(*(command->command.onFailure))(command->command.context, NULL);
}
MQTTAsync_freeCommand(command); /* free up the command if necessary */
}
}
else /* put the command into a waiting for response queue for each client, indexed by msgid */
ListAppend(command->client->responses, command, sizeof(command));
exit:
MQTTAsync_unlock_mutex(mqttasync_mutex);
rc = (command != NULL);
FUNC_EXIT_RC(rc);
return rc;
}
static void nextOrClose(MQTTAsyncs* m, int rc, char* message)
{
if (MQTTAsync_checkConn(&m->connect, m))
{
MQTTAsync_queuedCommand* conn;
MQTTAsync_closeOnly(m->c);
/* put the connect command back to the head of the command queue, using the next serverURI */
conn = malloc(sizeof(MQTTAsync_queuedCommand));
memset(conn, '\0', sizeof(MQTTAsync_queuedCommand));
conn->client = m;
conn->command = m->connect;
Log(TRACE_MIN, -1, "Connect failed, more to try");
if (conn->client->c->MQTTVersion == MQTTVERSION_DEFAULT)
{
if (conn->command.details.conn.MQTTVersion == MQTTVERSION_3_1)
{
conn->command.details.conn.currentURI++;
conn->command.details.conn.MQTTVersion = MQTTVERSION_DEFAULT;
}
}
else
conn->command.details.conn.currentURI++;
MQTTAsync_addCommand(conn, sizeof(m->connect));
}
else
{
MQTTAsync_closeSession(m->c);
if (m->connect.onFailure)
{
MQTTAsync_failureData data;
data.token = 0;
data.code = rc;
data.message = message;
Log(TRACE_MIN, -1, "Calling connect failure for client %s", m->c->clientID);
(*(m->connect.onFailure))(m->connect.context, &data);
}
MQTTAsync_startConnectRetry(m);
}
}
static void MQTTAsync_checkTimeouts(void)
{
ListElement* current = NULL;
static time_t last = 0L;
time_t now;
FUNC_ENTRY;
time(&(now));
if (difftime(now, last) < 3)
goto exit;
MQTTAsync_lock_mutex(mqttasync_mutex);
last = now;
while (ListNextElement(handles, &current)) /* for each client */
{
ListElement* cur_response = NULL;
int i = 0,
timed_out_count = 0;
MQTTAsyncs* m = (MQTTAsyncs*)(current->content);
/* check disconnect timeout */
if (m->c->connect_state == -2)
MQTTAsync_checkDisconnect(m, &m->disconnect);
/* check connect timeout */
if (m->c->connect_state != 0 && MQTTAsync_elapsed(m->connect.start_time) > (m->connectTimeout * 1000))
{
nextOrClose(m, MQTTASYNC_FAILURE, "TCP connect timeout");
continue;
}
timed_out_count = 0;
/* check response timeouts */
while (ListNextElement(m->responses, &cur_response))
{
MQTTAsync_queuedCommand* com = (MQTTAsync_queuedCommand*)(cur_response->content);
if (1 /*MQTTAsync_elapsed(com->command.start_time) < 120000*/)
break; /* command has not timed out */
else
{
if (com->command.onFailure)
{
Log(TRACE_MIN, -1, "Calling %s failure for client %s",
MQTTPacket_name(com->command.type), m->c->clientID);
(*(com->command.onFailure))(com->command.context, NULL);
}
timed_out_count++;
}
}
for (i = 0; i < timed_out_count; ++i)
ListRemoveHead(m->responses); /* remove the first response in the list */
if (m->automaticReconnect && m->retrying)
{
if (m->reconnectNow || MQTTAsync_elapsed(m->lastConnectionFailedTime) > (m->currentInterval * 1000))
{
/* to reconnect put the connect command to the head of the command queue */
MQTTAsync_queuedCommand* conn = malloc(sizeof(MQTTAsync_queuedCommand));
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;
Log(TRACE_MIN, -1, "Automatically attempting to reconnect");
MQTTAsync_addCommand(conn, sizeof(m->connect));
m->reconnectNow = 0;
}
}
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
exit:
FUNC_EXIT;
}
static thread_return_type WINAPI MQTTAsync_sendThread(void* n)
{
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
sendThread_state = RUNNING;
sendThread_id = Thread_getid();
MQTTAsync_unlock_mutex(mqttasync_mutex);
while (!tostop)
{
int rc;
while (commands->count > 0)
{
if (MQTTAsync_processCommand() == 0)
break; /* no commands were processed, so go into a wait */
}
#if !defined(WIN32) && !defined(WIN64)
if ((rc = Thread_wait_cond(send_cond, 1)) != 0 && rc != ETIMEDOUT)
Log(LOG_ERROR, -1, "Error %d waiting for condition variable", rc);
#else
if ((rc = Thread_wait_sem(send_sem, 1000)) != 0 && rc != ETIMEDOUT)
Log(LOG_ERROR, -1, "Error %d waiting for semaphore", rc);
#endif
MQTTAsync_checkTimeouts();
}
sendThread_state = STOPPING;
MQTTAsync_lock_mutex(mqttasync_mutex);
sendThread_state = STOPPED;
sendThread_id = 0;
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT;
return 0;
}
static void MQTTAsync_emptyMessageQueue(Clients* client)
{
FUNC_ENTRY;
/* empty message queue */
if (client->messageQueue->count > 0)
{
ListElement* current = NULL;
while (ListNextElement(client->messageQueue, &current))
{
qEntry* qe = (qEntry*)(current->content);
free(qe->topicName);
free(qe->msg->payload);
free(qe->msg);
}
ListEmpty(client->messageQueue);
}
FUNC_EXIT;
}
static void MQTTAsync_removeResponsesAndCommands(MQTTAsyncs* m)
{
int count = 0;
ListElement* current = NULL;
ListElement *next = NULL;
FUNC_ENTRY;
if (m->responses)
{
ListElement* cur_response = NULL;
while (ListNextElement(m->responses, &cur_response))
{
MQTTAsync_queuedCommand* command = (MQTTAsync_queuedCommand*)(cur_response->content);
if (command->command.onFailure)
{
MQTTAsync_failureData data;
data.token = command->command.token;
data.code = MQTTASYNC_OPERATION_INCOMPLETE; /* interrupted return code */
data.message = NULL;
Log(TRACE_MIN, -1, "Calling %s failure for client %s",
MQTTPacket_name(command->command.type), m->c->clientID);
(*(command->command.onFailure))(command->command.context, &data);
}
MQTTAsync_freeCommand1(command);
count++;
}
}
ListEmpty(m->responses);
Log(TRACE_MINIMUM, -1, "%d responses removed for client %s", count, m->c->clientID);
/* remove commands in the command queue relating to this client */
count = 0;
current = ListNextElement(commands, &next);
ListNextElement(commands, &next);
while (current)
{
MQTTAsync_queuedCommand* command = (MQTTAsync_queuedCommand*)(current->content);
if (command->client == m)
{
ListDetach(commands, command);
if (command->command.onFailure)
{
MQTTAsync_failureData data;
data.token = command->command.token;
data.code = MQTTASYNC_OPERATION_INCOMPLETE; /* interrupted return code */
data.message = NULL;
Log(TRACE_MIN, -1, "Calling %s failure for client %s",
MQTTPacket_name(command->command.type), m->c->clientID);
(*(command->command.onFailure))(command->command.context, &data);
}
MQTTAsync_freeCommand(command);
count++;
}
current = next;
ListNextElement(commands, &next);
}
Log(TRACE_MINIMUM, -1, "%d commands removed for client %s", count, m->c->clientID);
FUNC_EXIT;
}
void MQTTAsync_destroy(MQTTAsync* handle)
{
MQTTAsyncs* m = *handle;
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
if (m == NULL)
goto exit;
MQTTAsync_removeResponsesAndCommands(m);
ListFree(m->responses);
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
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 (!ListRemove(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;
}
void MQTTAsync_freeMessage(MQTTAsync_message** message)
{
FUNC_ENTRY;
free((*message)->payload);
free(*message);
*message = NULL;
FUNC_EXIT;
}
void MQTTAsync_free(void* memory)
{
FUNC_ENTRY;
free(memory);
FUNC_EXIT;
}
static int MQTTAsync_completeConnection(MQTTAsyncs* m, MQTTPacket* pack)
{
int rc = MQTTASYNC_FAILURE;
FUNC_ENTRY;
if (m->c->connect_state == 3) /* MQTT connect sent - wait for CONNACK */
{
Connack* connack = (Connack*)pack;
Log(LOG_PROTOCOL, 1, NULL, m->c->net.socket, m->c->clientID, connack->rc);
if ((rc = connack->rc) == MQTTASYNC_SUCCESS)
{
m->retrying = 0;
m->c->connected = 1;
m->c->good = 1;
m->c->connect_state = 0;
if (m->c->cleansession)
rc = MQTTAsync_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 = MQTTASYNC_DISCONNECTED;
}
}
free(connack);
m->pack = NULL;
#if !defined(WIN32) && !defined(WIN64)
Thread_signal_cond(send_cond);
#else
if (!Thread_check_sem(send_sem))
Thread_post_sem(send_sem);
#endif
}
FUNC_EXIT_RC(rc);
return rc;
}
/* This is the thread function that handles the calling of callback functions if set */
static thread_return_type WINAPI MQTTAsync_receiveThread(void* n)
{
long timeout = 10L; /* first time in we have a small timeout. Gets things started more quickly */
FUNC_ENTRY;
MQTTAsync_lock_mutex(mqttasync_mutex);
receiveThread_state = RUNNING;
receiveThread_id = Thread_getid();
while (!tostop)
{
int rc = SOCKET_ERROR;
int sock = -1;
MQTTAsyncs* m = NULL;
MQTTPacket* pack = NULL;
MQTTAsync_unlock_mutex(mqttasync_mutex);
pack = MQTTAsync_cycle(&sock, timeout, &rc);
MQTTAsync_lock_mutex(mqttasync_mutex);
if (tostop)
break;
timeout = 1000L;
if (sock == 0)
continue;
/* find client corresponding to socket */
if (ListFindItem(handles, &sock, clientSockCompare) == NULL)
{
Log(TRACE_MINIMUM, -1, "Could not find client corresponding to socket %d", sock);
/* Socket_close(sock); - removing socket in this case is not necessary (Bug 442400) */
continue;
}
m = (MQTTAsyncs*)(handles->current->content);
if (m == NULL)
{
Log(LOG_ERROR, -1, "Client structure was NULL for socket %d - removing socket", sock);
Socket_close(sock);
continue;
}
if (rc == SOCKET_ERROR)
{
Log(TRACE_MINIMUM, -1, "Error from MQTTAsync_cycle() - removing socket %d", sock);
if (m->c->connected == 1)
{
MQTTAsync_unlock_mutex(mqttasync_mutex);
MQTTAsync_disconnect_internal(m, 0);
MQTTAsync_lock_mutex(mqttasync_mutex);
}
else if (m->c->connect_state != 0)
nextOrClose(m, rc, "socket error");
else /* calling disconnect_internal won't have any effect if we're already disconnected */
MQTTAsync_closeOnly(m->c);
}
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;
if (m->ma)
rc = MQTTAsync_deliverMessage(m, qe->topicName, topicLen, qe->msg);
else
rc = 1;
if (rc)
{
ListRemove(m->c->messageQueue, qe);
#if !defined(NO_PERSISTENCE)
if (m->c->persistence)
MQTTPersistence_unpersistQueueEntry(m->c, (MQTTPersistence_qEntry*)qe);
#endif
}
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)
{
int sessionPresent = ((Connack*)pack)->flags.bits.sessionPresent;
int rc = MQTTAsync_completeConnection(m, pack);
if (rc == MQTTASYNC_SUCCESS)
{
int onSuccess = 0;
if (m->serverURIcount > 0)
Log(TRACE_MIN, -1, "Connect succeeded to %s",
m->serverURIs[m->connect.details.conn.currentURI]);
onSuccess = (m->connect.onSuccess != NULL); /* save setting of onSuccess callback */
if (m->connect.onSuccess)
{
MQTTAsync_successData data;
memset(&data, '\0', sizeof(data));
Log(TRACE_MIN, -1, "Calling connect success for client %s", m->c->clientID);
if (m->serverURIcount > 0)
data.alt.connect.serverURI = m->serverURIs[m->connect.details.conn.currentURI];
else
data.alt.connect.serverURI = m->serverURI;
data.alt.connect.MQTTVersion = m->connect.details.conn.MQTTVersion;
data.alt.connect.sessionPresent = sessionPresent;
(*(m->connect.onSuccess))(m->connect.context, &data);
m->connect.onSuccess = NULL; /* don't accidentally call it again */
}
if (m->connected)
{
char* reason = (onSuccess) ? "connect onSuccess called" : "automatic reconnect";
Log(TRACE_MIN, -1, "Calling connected for client %s", m->c->clientID);
(*(m->connected))(m->connected_context, reason);
}
}
else
nextOrClose(m, rc, "CONNACK return code");
}
else if (pack->header.bits.type == SUBACK)
{
ListElement* current = NULL;
/* use the msgid to find the callback to be called */
while (ListNextElement(m->responses, &current))
{
MQTTAsync_queuedCommand* command = (MQTTAsync_queuedCommand*)(current->content);
if (command->command.token == ((Suback*)pack)->msgId)
{
Suback* sub = (Suback*)pack;
if (!ListDetach(m->responses, command)) /* remove the response from the list */
Log(LOG_ERROR, -1, "Subscribe command not removed from command list");
/* Call the failure callback if there is one subscribe in the MQTT packet and
* the return code is 0x80 (failure). If the MQTT packet contains >1 subscription
* request, then we call onSuccess with the list of returned QoSs, which inelegantly,
* could include some failures, or worse, the whole list could have failed.
*/
if (sub->qoss->count == 1 && *(int*)(sub->qoss->first->content) == MQTT_BAD_SUBSCRIBE)
{
if (command->command.onFailure)
{
MQTTAsync_failureData data;
data.token = command->command.token;
data.code = *(int*)(sub->qoss->first->content);
data.message = NULL;
Log(TRACE_MIN, -1, "Calling subscribe failure for client %s", m->c->clientID);
(*(command->command.onFailure))(command->command.context, &data);
}
}
else if (command->command.onSuccess)
{
MQTTAsync_successData data;
int* array = NULL;
if (sub->qoss->count == 1)
data.alt.qos = *(int*)(sub->qoss->first->content);
else if (sub->qoss->count > 1)
{
ListElement* cur_qos = NULL;
int* element = array = data.alt.qosList = malloc(sub->qoss->count * sizeof(int));
while (ListNextElement(sub->qoss, &cur_qos))
*element++ = *(int*)(cur_qos->content);
}
data.token = command->command.token;
Log(TRACE_MIN, -1, "Calling subscribe success for client %s", m->c->clientID);
(*(command->command.onSuccess))(command->command.context, &data);
if (array)
free(array);
}
MQTTAsync_freeCommand(command);
break;
}
}
rc = MQTTProtocol_handleSubacks(pack, m->c->net.socket);
}
else if (pack->header.bits.type == UNSUBACK)
{
ListElement* current = NULL;
int handleCalled = 0;
/* use the msgid to find the callback to be called */
while (ListNextElement(m->responses, &current))
{
MQTTAsync_queuedCommand* command = (MQTTAsync_queuedCommand*)(current->content);
if (command->command.token == ((Unsuback*)pack)->msgId)
{
if (!ListDetach(m->responses, command)) /* remove the response from the list */
Log(LOG_ERROR, -1, "Unsubscribe command not removed from command list");
if (command->command.onSuccess)
{
rc = MQTTProtocol_handleUnsubacks(pack, m->c->net.socket);
handleCalled = 1;
Log(TRACE_MIN, -1, "Calling unsubscribe success for client %s", m->c->clientID);
(*(command->command.onSuccess))(command->command.context, NULL);
}
MQTTAsync_freeCommand(command);
break;
}
}
if (!handleCalled)
rc = MQTTProtocol_handleUnsubacks(pack, m->c->net.socket);
}
}
}
}
receiveThread_state = STOPPED;
receiveThread_id = 0;
MQTTAsync_unlock_mutex(mqttasync_mutex);
#if !defined(WIN32) && !defined(WIN64)
if (sendThread_state != STOPPED)
Thread_signal_cond(send_cond);
#else
if (sendThread_state != STOPPED && !Thread_check_sem(send_sem))
Thread_post_sem(send_sem);
#endif
FUNC_EXIT;
return 0;
}
static void MQTTAsync_stop(void)
{
int rc = 0;
FUNC_ENTRY;
if (sendThread_state != STOPPED || receiveThread_state != STOPPED)
{
int conn_count = 0;
ListElement* current = NULL;
if (handles != NULL)
{
/* find out how many handles are still connected */
while (ListNextElement(handles, &current))
{
if (((MQTTAsyncs*)(current->content))->c->connect_state > 0 ||
((MQTTAsyncs*)(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;
while ((sendThread_state != STOPPED || receiveThread_state != STOPPED) && ++count < 100)
{
MQTTAsync_unlock_mutex(mqttasync_mutex);
Log(TRACE_MIN, -1, "sleeping");
MQTTAsync_sleep(100L);
MQTTAsync_lock_mutex(mqttasync_mutex);
}
rc = 1;
tostop = 0;
}
}
FUNC_EXIT_RC(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->connect_state != 0)
rc = MQTTASYNC_FAILURE;
else
{
m->context = context;
m->cl = cl;
m->ma = ma;
m->dc = dc;
}
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 != 0)
rc = MQTTASYNC_FAILURE;
else
{
m->connected_context = context;
m->connected = connected;
}
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(rc);
return rc;
}
static void MQTTAsync_closeOnly(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);
Thread_lock_mutex(socket_mutex);
#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
Thread_unlock_mutex(socket_mutex);
}
client->connected = 0;
client->connect_state = 0;
FUNC_EXIT;
}
static void MQTTAsync_closeSession(Clients* client)
{
FUNC_ENTRY;
MQTTAsync_closeOnly(client);
if (client->cleansession)
MQTTAsync_cleanSession(client);
FUNC_EXIT;
}
/**
* List callback function for comparing clients by client structure
* @param a Async structure
* @param b Client structure
* @return boolean indicating whether a and b are equal
*/
static int clientStructCompare(void* a, void* b)
{
MQTTAsyncs* m = (MQTTAsyncs*)a;
return m->c == (Clients*)b;
}
static int MQTTAsync_cleanSession(Clients* client)
{
int rc = 0;
ListElement* found = NULL;
FUNC_ENTRY;
#if !defined(NO_PERSISTENCE)
rc = MQTTPersistence_clear(client);
#endif
MQTTProtocol_emptyMessageList(client->inboundMsgs);
MQTTProtocol_emptyMessageList(client->outboundMsgs);
MQTTAsync_emptyMessageQueue(client);
client->msgID = 0;
if ((found = ListFindItem(handles, client, clientStructCompare)) != NULL)
{
MQTTAsyncs* m = (MQTTAsyncs*)(found->content);
MQTTAsync_removeResponsesAndCommands(m);
}
else
Log(LOG_ERROR, -1, "cleanSession: did not find client structure in handles list");
FUNC_EXIT_RC(rc);
return rc;
}
static int MQTTAsync_deliverMessage(MQTTAsyncs* m, char* topicName, size_t topicLen, MQTTAsync_message* mm)
{
int rc;
Log(TRACE_MIN, -1, "Calling messageArrived for client %s, queue depth %d",
m->c->clientID, m->c->messageQueue->count);
rc = (*(m->ma))(m->context, topicName, (int)topicLen, mm);
/* 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.
*/
return rc;
}
void Protocol_processPublication(Publish* publish, Clients* client)
{
MQTTAsync_message* mm = NULL;
int rc = 0;
FUNC_ENTRY;
mm = malloc(sizeof(MQTTAsync_message));
/* 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;
if (client->messageQueue->count == 0 && client->connected)
{
ListElement* found = NULL;
if ((found = ListFindItem(handles, client, clientStructCompare)) == NULL)
Log(LOG_ERROR, -1, "processPublication: did not find client structure in handles list");
else
{
MQTTAsyncs* m = (MQTTAsyncs*)(found->content);
if (m->ma)
rc = MQTTAsync_deliverMessage(m, publish->topic, publish->topiclen, mm);
}
}
if (rc == 0) /* if message was not delivered, queue it up */
{
qEntry* qe = malloc(sizeof(qEntry));
qe->msg = mm;
qe->topicName = publish->topic;
qe->topicLen = publish->topiclen;
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
}
publish->topic = NULL;
FUNC_EXIT;
}
static int retryLoopInterval = 5;
static void setRetryLoopInterval(int keepalive)
{
int proposed = keepalive / 10;
if (proposed < 1)
proposed = 1;
else if (proposed > 5)
proposed = 5;
if (proposed < retryLoopInterval)
retryLoopInterval = proposed;
}
int MQTTAsync_connect(MQTTAsync handle, const MQTTAsync_connectOptions* options)
{
MQTTAsyncs* m = handle;
int rc = MQTTASYNC_SUCCESS;
MQTTAsync_queuedCommand* conn;
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 > 5)
{
rc = MQTTASYNC_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 && 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->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 > 1)
{
rc = MQTTASYNC_BAD_STRUCTURE;
goto exit;
}
}
if ((options->username && !UTF8_validateString(options->username)) ||
(options->password && !UTF8_validateString(options->password)))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
goto exit;
}
m->connect.onSuccess = options->onSuccess;
m->connect.onFailure = options->onFailure;
m->connect.context = options->context;
m->connectTimeout = options->connectTimeout;
tostop = 0;
if (sendThread_state != STARTING && sendThread_state != RUNNING)
{
MQTTAsync_lock_mutex(mqttasync_mutex);
sendThread_state = STARTING;
Thread_start(MQTTAsync_sendThread, NULL);
MQTTAsync_unlock_mutex(mqttasync_mutex);
}
if (receiveThread_state != STARTING && receiveThread_state != RUNNING)
{
MQTTAsync_lock_mutex(mqttasync_mutex);
receiveThread_state = STARTING;
Thread_start(MQTTAsync_receiveThread, handle);
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 = 0;
if (options->struct_version >= 4)
{
m->automaticReconnect = options->automaticReconnect;
m->minRetryInterval = options->minRetryInterval;
m->maxRetryInterval = options->maxRetryInterval;
}
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;
m->c->will = malloc(sizeof(willMessages));
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 = strlen(options->will->message);
source = (void*)options->will->message;
}
m->c->will->payload = malloc(m->c->will->payloadlen);
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);
free((void*)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));
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;
}
#else
if (options->struct_version != 0 && options->ssl)
{
rc = MQTTASYNC_SSL_NOT_SUPPORTED;
goto exit;
}
#endif
m->c->username = options->username;
m->c->password = options->password;
if (options->password)
m->c->passwordlen = strlen(options->password);
else if (options->struct_version >= 5 && options->binarypwd.data)
{
m->c->password = options->binarypwd.data;
m->c->passwordlen = options->binarypwd.len;
}
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;
m->serverURIs = malloc(options->serverURIcount * sizeof(char*));
for (i = 0; i < options->serverURIcount; ++i)
m->serverURIs[i] = MQTTStrdup(options->serverURIs[i]);
}
/* Add connect request to operation queue */
conn = malloc(sizeof(MQTTAsync_queuedCommand));
memset(conn, '\0', sizeof(MQTTAsync_queuedCommand));
conn->client = m;
if (options)
{
conn->command.onSuccess = options->onSuccess;
conn->command.onFailure = options->onFailure;
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;
}
static int MQTTAsync_disconnect1(MQTTAsync handle, const MQTTAsync_disconnectOptions* options, int internal)
{
MQTTAsyncs* m = handle;
int rc = MQTTASYNC_SUCCESS;
MQTTAsync_queuedCommand* dis;
FUNC_ENTRY;
if (m == NULL || m->c == NULL)
{
rc = MQTTASYNC_FAILURE;
goto exit;
}
if (!internal)
m->shouldBeConnected = 0;
if (m->c->connected == 0)
{
rc = MQTTASYNC_DISCONNECTED;
goto exit;
}
/* Add disconnect request to operation queue */
dis = malloc(sizeof(MQTTAsync_queuedCommand));
memset(dis, '\0', sizeof(MQTTAsync_queuedCommand));
dis->client = m;
if (options)
{
dis->command.onSuccess = options->onSuccess;
dis->command.onFailure = options->onFailure;
dis->command.context = options->context;
dis->command.details.dis.timeout = options->timeout;
}
dis->command.type = DISCONNECT;
dis->command.details.dis.internal = internal;
rc = MQTTAsync_addCommand(dis, sizeof(dis));
exit:
FUNC_EXIT_RC(rc);
return rc;
}
static int MQTTAsync_disconnect_internal(MQTTAsync handle, int timeout)
{
MQTTAsync_disconnectOptions options = MQTTAsync_disconnectOptions_initializer;
options.timeout = timeout;
return MQTTAsync_disconnect1(handle, &options, 1);
}
void MQTTProtocol_closeSession(Clients* c, int sendwill)
{
MQTTAsync_disconnect_internal((MQTTAsync)c->context, 0);
}
int MQTTAsync_disconnect(MQTTAsync handle, const MQTTAsync_disconnectOptions* options)
{
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;
}
static int cmdMessageIDCompare(void* a, void* b)
{
MQTTAsync_queuedCommand* cmd = (MQTTAsync_queuedCommand*)a;
return cmd->command.token == *(int*)b;
}
/**
* Assign a new message id for a client. Make sure it isn't already being used and does
* not exceed the maximum.
* @param m a client structure
* @return the next message id to use, or 0 if none available
*/
static int MQTTAsync_assignMsgId(MQTTAsyncs* m)
{
int start_msgid = m->c->msgID;
int msgid = start_msgid;
thread_id_type thread_id = 0;
int locked = 0;
/* need to check: commands list and response list for a client */
FUNC_ENTRY;
/* We might be called in a callback. In which case, this mutex will be already locked. */
thread_id = Thread_getid();
if (thread_id != sendThread_id && thread_id != receiveThread_id)
{
MQTTAsync_lock_mutex(mqttasync_mutex);
locked = 1;
}
msgid = (msgid == MAX_MSG_ID) ? 1 : msgid + 1;
while (ListFindItem(commands, &msgid, cmdMessageIDCompare) ||
ListFindItem(m->responses, &msgid, cmdMessageIDCompare))
{
msgid = (msgid == MAX_MSG_ID) ? 1 : msgid + 1;
if (msgid == start_msgid)
{ /* we've tried them all - none free */
msgid = 0;
break;
}
}
if (msgid != 0)
m->c->msgID = msgid;
if (locked)
MQTTAsync_unlock_mutex(mqttasync_mutex);
FUNC_EXIT_RC(msgid);
return msgid;
}
int MQTTAsync_subscribeMany(MQTTAsync handle, int count, char* const* topic, int* qos, MQTTAsync_responseOptions* response)
{
MQTTAsyncs* m = handle;
int i = 0;
int rc = MQTTASYNC_FAILURE;
MQTTAsync_queuedCommand* sub;
int msgid = 0;
FUNC_ENTRY;
if (m == NULL || m->c == NULL)
{
rc = MQTTASYNC_FAILURE;
goto exit;
}
if (m->c->connected == 0)
{
rc = MQTTASYNC_DISCONNECTED;
goto exit;
}
for (i = 0; i < count; i++)
{
if (!UTF8_validateString(topic[i]))
{
rc = MQTTASYNC_BAD_UTF8_STRING;
goto exit;
}
if (qos[i] < 0 || qos[i] > 2)
{
rc = MQTTASYNC_BAD_QOS;
goto exit;
}
}
if ((msgid = MQTTAsync_assignMsgId(m)) == 0)
{
rc = MQTTASYNC_NO_MORE_MSGIDS;
goto exit;
}
/* Add subscribe request to operation queue */
sub = malloc(sizeof(MQTTAsync_queuedCommand));
memset(sub, '\0', sizeof(MQTTAsync_queuedCommand));
sub->client = m;
sub->command.token = msgid;
if (response)