MQTTClient.h

00001 /*******************************************************************************
00002  * Copyright (c) 2014, 2017 IBM Corp.
00003  *
00004  * All rights reserved. This program and the accompanying materials
00005  * are made available under the terms of the Eclipse Public License v1.0
00006  * and Eclipse Distribution License v1.0 which accompany this distribution.
00007  *
00008  * The Eclipse Public License is available at
00009  *    http://www.eclipse.org/legal/epl-v10.html
00010  * and the Eclipse Distribution License is available at
00011  *   http://www.eclipse.org/org/documents/edl-v10.php.
00012  *
00013  * Contributors:
00014  *    Ian Craggs - initial API and implementation and/or initial documentation
00015  *    Ian Craggs - fix for bug 458512 - QoS 2 messages
00016  *    Ian Craggs - fix for bug 460389 - send loop uses wrong length
00017  *    Ian Craggs - fix for bug 464169 - clearing subscriptions
00018  *    Ian Craggs - fix for bug 464551 - enums and ints can be different size
00019  *    Mark Sonnentag - fix for bug 475204 - inefficient instantiation of Timer
00020  *    Ian Craggs - fix for bug 475749 - packetid modified twice
00021  *    Ian Craggs - add ability to set message handler separately #6
00022  *******************************************************************************/
00023 
00024 #if !defined(MQTTCLIENT_H)
00025 #define MQTTCLIENT_H
00026 
00027 #include "FP.h"
00028 #include "MQTTPacket.h"
00029 #include <stdio.h>
00030 #include "MQTTLogging.h"
00031 
00032 #if !defined(MQTTCLIENT_QOS1)
00033     #define MQTTCLIENT_QOS1 1
00034 #endif
00035 #if !defined(MQTTCLIENT_QOS2)
00036     #define MQTTCLIENT_QOS2 0
00037 #endif
00038 
00039 namespace MQTT
00040 {
00041 
00042 
00043 enum QoS { QOS0, QOS1, QOS2 };
00044 
00045 // all failure return codes must be negative
00046 enum returnCode { BUFFER_OVERFLOW = -2, FAILURE = -1, SUCCESS = 0 };
00047 
00048 
00049 struct Message
00050 {
00051     enum QoS qos;
00052     bool retained;
00053     bool dup;
00054     unsigned short id;
00055     void *payload;
00056     size_t payloadlen;
00057 };
00058 
00059 
00060 struct MessageData
00061 {
00062     MessageData(MQTTString &aTopicName, struct Message &aMessage)  : message(aMessage), topicName(aTopicName)
00063     { }
00064 
00065     struct Message &message;
00066     MQTTString &topicName;
00067 };
00068 
00069 
00070 struct connackData
00071 {
00072     int rc;
00073     bool sessionPresent;
00074 };
00075 
00076 
00077 struct subackData
00078 {
00079     int grantedQoS;
00080 };
00081 
00082 
00083 class PacketId
00084 {
00085 public:
00086     PacketId()
00087     {
00088         next = 0;
00089     }
00090 
00091     int getNext()
00092     {
00093         return next = (next == MAX_PACKET_ID) ? 1 : next + 1;
00094     }
00095 
00096 private:
00097     static const int MAX_PACKET_ID = 65535;
00098     int next;
00099 };
00100 
00101 
00102 /**
00103  * @class Client
00104  * @brief blocking, non-threaded MQTT client API
00105  *
00106  * This version of the API blocks on all method calls, until they are complete.  This means that only one
00107  * MQTT request can be in process at any one time.
00108  * @param Network a network class which supports send, receive
00109  * @param Timer a timer class with the methods:
00110  */
00111 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE = 100, int MAX_MESSAGE_HANDLERS = 5>
00112 class Client
00113 {
00114 
00115 public:
00116 
00117     typedef void (*messageHandler)(MessageData&);
00118 
00119     /** Construct the client
00120      *  @param network - pointer to an instance of the Network class - must be connected to the endpoint
00121      *      before calling MQTT connect
00122      *  @param limits an instance of the Limit class - to alter limits as required
00123      */
00124     Client(Network& network, unsigned int command_timeout_ms = 30000);
00125 
00126     /** Set the default message handling callback - used for any message which does not match a subscription message handler
00127      *  @param mh - pointer to the callback function.  Set to 0 to remove.
00128      */
00129     void setDefaultMessageHandler(messageHandler mh)
00130     {
00131         if (mh != 0)
00132             defaultMessageHandler.attach(mh);
00133         else
00134             defaultMessageHandler.detach();
00135     }
00136 
00137     /** Set a message handling callback.  This can be used outside of the the subscribe method.
00138      *  @param topicFilter - a topic pattern which can include wildcards
00139      *  @param mh - pointer to the callback function. If 0, removes the callback if any
00140      */
00141     int setMessageHandler(const char* topicFilter, messageHandler mh);
00142 
00143     /** MQTT Connect - send an MQTT connect packet down the network and wait for a Connack
00144      *  The nework object must be connected to the network endpoint before calling this
00145      *  Default connect options are used
00146      *  @return success code -
00147      */
00148     int connect();
00149 
00150     /** MQTT Connect - send an MQTT connect packet down the network and wait for a Connack
00151      *  The nework object must be connected to the network endpoint before calling this
00152      *  @param options - connect options
00153      *  @return success code -
00154      */
00155     int connect(MQTTPacket_connectData& options);
00156 
00157     /** MQTT Connect - send an MQTT connect packet down the network and wait for a Connack
00158      *  The nework object must be connected to the network endpoint before calling this
00159      *  @param options - connect options
00160      *  @param connackData - connack data to be returned
00161      *  @return success code -
00162      */
00163     int connect(MQTTPacket_connectData& options, connackData& data);
00164 
00165     /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs
00166      *  @param topic - the topic to publish to
00167      *  @param message - the message to send
00168      *  @return success code -
00169      */
00170     int publish(const char* topicName, Message& message);
00171 
00172     /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs
00173      *  @param topic - the topic to publish to
00174      *  @param payload - the data to send
00175      *  @param payloadlen - the length of the data
00176      *  @param qos - the QoS to send the publish at
00177      *  @param retained - whether the message should be retained
00178      *  @return success code -
00179      */
00180     int publish(const char* topicName, void* payload, size_t payloadlen, enum QoS qos = QOS0, bool retained = false);
00181 
00182     /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs
00183      *  @param topic - the topic to publish to
00184      *  @param payload - the data to send
00185      *  @param payloadlen - the length of the data
00186      *  @param id - the packet id used - returned
00187      *  @param qos - the QoS to send the publish at
00188      *  @param retained - whether the message should be retained
00189      *  @return success code -
00190      */
00191     int publish(const char* topicName, void* payload, size_t payloadlen, unsigned short& id, enum QoS qos = QOS1, bool retained = false);
00192 
00193     /** MQTT Subscribe - send an MQTT subscribe packet and wait for the suback
00194      *  @param topicFilter - a topic pattern which can include wildcards
00195      *  @param qos - the MQTT QoS to subscribe at
00196      *  @param mh - the callback function to be invoked when a message is received for this subscription
00197      *  @return success code -
00198      */
00199     int subscribe(const char* topicFilter, enum QoS qos, messageHandler mh);
00200 
00201     /** MQTT Subscribe - send an MQTT subscribe packet and wait for the suback
00202      *  @param topicFilter - a topic pattern which can include wildcards
00203      *  @param qos - the MQTT QoS to subscribe at©
00204      *  @param mh - the callback function to be invoked when a message is received for this subscription
00205      *  @param
00206      *  @return success code -
00207      */
00208     int subscribe(const char* topicFilter, enum QoS qos, messageHandler mh, subackData &data);
00209 
00210     /** MQTT Unsubscribe - send an MQTT unsubscribe packet and wait for the unsuback
00211      *  @param topicFilter - a topic pattern which can include wildcards
00212      *  @return success code -
00213      */
00214     int unsubscribe(const char* topicFilter);
00215 
00216     /** MQTT Disconnect - send an MQTT disconnect packet, and clean up any state
00217      *  @return success code -
00218      */
00219     int disconnect();
00220 
00221     /** A call to this API must be made within the keepAlive interval to keep the MQTT connection alive
00222      *  yield can be called if no other MQTT operation is needed.  This will also allow messages to be
00223      *  received.
00224      *  @param timeout_ms the time to wait, in milliseconds
00225      *  @return success code - on failure, this means the client has disconnected
00226      */
00227     int yield(unsigned long timeout_ms = 1000L);
00228 
00229     /** Is the client connected?
00230      *  @return flag - is the client connected or not?
00231      */
00232     bool isConnected()
00233     {
00234         return isconnected;
00235     }
00236 
00237 private:
00238 
00239     void closeSession();
00240     void cleanSession();
00241     int cycle(Timer& timer);
00242     int waitfor(int packet_type, Timer& timer);
00243     int keepalive();
00244     int publish(int len, Timer& timer, enum QoS qos);
00245 
00246     int decodePacket(int* value, int timeout);
00247     int readPacket(Timer& timer);
00248     int sendPacket(int length, Timer& timer);
00249     int deliverMessage(MQTTString& topicName, Message& message);
00250     bool isTopicMatched(char* topicFilter, MQTTString& topicName);
00251 
00252     Network& ipstack;
00253     unsigned long command_timeout_ms;
00254 
00255     unsigned char sendbuf[MAX_MQTT_PACKET_SIZE];
00256     unsigned char readbuf[MAX_MQTT_PACKET_SIZE];
00257 
00258     Timer last_sent, last_received;
00259     unsigned int keepAliveInterval;
00260     bool ping_outstanding;
00261     bool cleansession;
00262 
00263     PacketId packetid;
00264 
00265     struct MessageHandlers
00266     {
00267         const char* topicFilter;
00268         FP<void, MessageData&> fp;
00269     } messageHandlers[MAX_MESSAGE_HANDLERS];      // Message handlers are indexed by subscription topic
00270 
00271     FP<void, MessageData&> defaultMessageHandler;
00272 
00273     bool isconnected;
00274 
00275 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
00276     unsigned char pubbuf[MAX_MQTT_PACKET_SIZE];  // store the last publish for sending on reconnect
00277     int inflightLen;
00278     unsigned short inflightMsgid;
00279     enum QoS inflightQoS;
00280 #endif
00281 
00282 #if MQTTCLIENT_QOS2
00283     bool pubrel;
00284     #if !defined(MAX_INCOMING_QOS2_MESSAGES)
00285         #define MAX_INCOMING_QOS2_MESSAGES 10
00286     #endif
00287     unsigned short incomingQoS2messages[MAX_INCOMING_QOS2_MESSAGES];
00288     bool isQoS2msgidFree(unsigned short id);
00289     bool useQoS2msgid(unsigned short id);
00290     void freeQoS2msgid(unsigned short id);
00291 #endif
00292 
00293 };
00294 
00295 }
00296 
00297 
00298 template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
00299 void MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::cleanSession()
00300 {
00301     for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
00302         messageHandlers[i].topicFilter = 0;
00303 
00304 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
00305     inflightMsgid = 0;
00306     inflightQoS = QOS0;
00307 #endif
00308 
00309 #if MQTTCLIENT_QOS2
00310     pubrel = false;
00311     for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i)
00312         incomingQoS2messages[i] = 0;
00313 #endif
00314 }
00315 
00316 
00317 template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
00318 void MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::closeSession()
00319 {
00320     ping_outstanding = false;
00321     isconnected = false;
00322     if (cleansession)
00323         cleanSession();
00324 }
00325 
00326 
00327 template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
00328 MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::Client(Network& network, unsigned int command_timeout_ms)  : ipstack(network), packetid()
00329 {
00330     this->command_timeout_ms = command_timeout_ms;
00331     cleansession = true;
00332       closeSession();
00333 }
00334 
00335 
00336 #if MQTTCLIENT_QOS2
00337 template<class Network, class Timer, int a, int b>
00338 bool MQTT::Client<Network, Timer, a, b>::isQoS2msgidFree(unsigned short id)
00339 {
00340     for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i)
00341     {
00342         if (incomingQoS2messages[i] == id)
00343             return false;
00344     }
00345     return true;
00346 }
00347 
00348 
00349 template<class Network, class Timer, int a, int b>
00350 bool MQTT::Client<Network, Timer, a, b>::useQoS2msgid(unsigned short id)
00351 {
00352     for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i)
00353     {
00354         if (incomingQoS2messages[i] == 0)
00355         {
00356             incomingQoS2messages[i] = id;
00357             return true;
00358         }
00359     }
00360     return false;
00361 }
00362 
00363 
00364 template<class Network, class Timer, int a, int b>
00365 void MQTT::Client<Network, Timer, a, b>::freeQoS2msgid(unsigned short id)
00366 {
00367     for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i)
00368     {
00369         if (incomingQoS2messages[i] == id)
00370         {
00371             incomingQoS2messages[i] = 0;
00372             return;
00373         }
00374     }
00375 }
00376 #endif
00377 
00378 
00379 template<class Network, class Timer, int a, int b>
00380 int MQTT::Client<Network, Timer, a, b>::sendPacket(int length, Timer& timer)
00381 {
00382     int rc = FAILURE,
00383         sent = 0;
00384 
00385     while (sent < length)
00386     {
00387         rc = ipstack.write(&sendbuf[sent], length - sent, timer.left_ms());
00388         if (rc < 0)  // there was an error writing the data
00389             break;
00390         sent += rc;
00391         if (timer.expired()) // only check expiry after at least one attempt to write
00392             break;
00393     }
00394     if (sent == length)
00395     {
00396         if (this->keepAliveInterval > 0)
00397             last_sent.countdown(this->keepAliveInterval); // record the fact that we have successfully sent the packet
00398         rc = SUCCESS;
00399     }
00400     else
00401         rc = FAILURE;
00402 
00403 #if defined(MQTT_DEBUG)
00404     char printbuf[150];
00405     DEBUG("Rc %d from sending packet %s\r\n", rc, 
00406         MQTTFormat_toServerString(printbuf, sizeof(printbuf), sendbuf, length));
00407 #endif
00408     return rc;
00409 }
00410 
00411 
00412 template<class Network, class Timer, int a, int b>
00413 int MQTT::Client<Network, Timer, a, b>::decodePacket(int* value, int timeout)
00414 {
00415     unsigned char c;
00416     int multiplier = 1;
00417     int len = 0;
00418     const int MAX_NO_OF_REMAINING_LENGTH_BYTES = 4;
00419 
00420     *value = 0;
00421     do
00422     {
00423         int rc = MQTTPACKET_READ_ERROR;
00424 
00425         if (++len > MAX_NO_OF_REMAINING_LENGTH_BYTES)
00426         {
00427             rc = MQTTPACKET_READ_ERROR; /* bad data */
00428             goto exit;
00429         }
00430         rc = ipstack.read(&c, 1, timeout);
00431         if (rc != 1)
00432             goto exit;
00433         *value += (c & 127) * multiplier;
00434         multiplier *= 128;
00435     } while ((c & 128) != 0);
00436 exit:
00437     return len;
00438 }
00439 
00440 
00441 /**
00442  * If any read fails in this method, then we should disconnect from the network, as on reconnect
00443  * the packets can be retried.
00444  * @param timeout the max time to wait for the packet read to complete, in milliseconds
00445  * @return the MQTT packet type, 0 if none, -1 if error
00446  */
00447 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00448 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::readPacket(Timer& timer)
00449 {
00450     int rc = FAILURE;
00451     MQTTHeader header = {0};
00452     int len = 0;
00453     int rem_len = 0;
00454 
00455     /* 1. read the header byte.  This has the packet type in it */
00456     rc = ipstack.read(readbuf, 1, timer.left_ms());
00457     if (rc != 1)
00458         goto exit;
00459 
00460     len = 1;
00461     /* 2. read the remaining length.  This is variable in itself */
00462     decodePacket(&rem_len, timer.left_ms());
00463     len += MQTTPacket_encode(readbuf + 1, rem_len); /* put the original remaining length into the buffer */
00464 
00465     if (rem_len > (MAX_MQTT_PACKET_SIZE - len))
00466     {
00467         rc = BUFFER_OVERFLOW;
00468         goto exit;
00469     }
00470 
00471     /* 3. read the rest of the buffer using a callback to supply the rest of the data */
00472     if (rem_len > 0 && (ipstack.read(readbuf + len, rem_len, timer.left_ms()) != rem_len))
00473         goto exit;
00474 
00475     header.byte = readbuf[0];
00476     rc = header.bits.type;
00477     if (this->keepAliveInterval > 0)
00478         last_received.countdown(this->keepAliveInterval); // record the fact that we have successfully received a packet
00479 exit:
00480 
00481 #if defined(MQTT_DEBUG)
00482     if (rc >= 0)
00483     {
00484         char printbuf[50];
00485         DEBUG("Rc %d receiving packet %s\r\n", rc, 
00486             MQTTFormat_toClientString(printbuf, sizeof(printbuf), readbuf, len));
00487     }
00488 #endif
00489     return rc;
00490 }
00491 
00492 
00493 // assume topic filter and name is in correct format
00494 // # can only be at end
00495 // + and # can only be next to separator
00496 template<class Network, class Timer, int a, int b>
00497 bool MQTT::Client<Network, Timer, a, b>::isTopicMatched(char* topicFilter, MQTTString& topicName)
00498 {
00499     char* curf = topicFilter;
00500     char* curn = topicName.lenstring.data;
00501     char* curn_end = curn + topicName.lenstring.len;
00502 
00503     while (*curf && curn < curn_end)
00504     {
00505         if (*curn == '/' && *curf != '/')
00506             break;
00507         if (*curf != '+' && *curf != '#' && *curf != *curn)
00508             break;
00509         if (*curf == '+')
00510         {   // skip until we meet the next separator, or end of string
00511             char* nextpos = curn + 1;
00512             while (nextpos < curn_end && *nextpos != '/')
00513                 nextpos = ++curn + 1;
00514         }
00515         else if (*curf == '#')
00516             curn = curn_end - 1;    // skip until end of string
00517         curf++;
00518         curn++;
00519     };
00520 
00521     return (curn == curn_end) && (*curf == '\0');
00522 }
00523 
00524 
00525 
00526 template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
00527 int MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::deliverMessage(MQTTString& topicName, Message& message)
00528 {
00529     int rc = FAILURE;
00530 
00531     // we have to find the right message handler - indexed by topic
00532     for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
00533     {
00534         if (messageHandlers[i].topicFilter != 0 && (MQTTPacket_equals(&topicName, (char*)messageHandlers[i].topicFilter) ||
00535                 isTopicMatched((char*)messageHandlers[i].topicFilter, topicName)))
00536         {
00537             if (messageHandlers[i].fp.attached())
00538             {
00539                 MessageData md(topicName, message);
00540                 messageHandlers[i].fp(md);
00541                 rc = SUCCESS;
00542             }
00543         }
00544     }
00545 
00546     if (rc == FAILURE && defaultMessageHandler.attached())
00547     {
00548         MessageData md(topicName, message);
00549         defaultMessageHandler(md);
00550         rc = SUCCESS;
00551     }
00552 
00553     return rc;
00554 }
00555 
00556 
00557 
00558 template<class Network, class Timer, int a, int b>
00559 int MQTT::Client<Network, Timer, a, b>::yield(unsigned long timeout_ms)
00560 {
00561     int rc = SUCCESS;
00562     Timer timer;
00563 
00564     timer.countdown_ms(timeout_ms);
00565     while (!timer.expired())
00566     {
00567         if (cycle(timer) < 0)
00568         {
00569             rc = FAILURE;
00570             break;
00571         }
00572     }
00573 
00574     return rc;
00575 }
00576 
00577 
00578 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00579 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::cycle(Timer& timer)
00580 {
00581     // get one piece of work off the wire and one pass through
00582     int len = 0,
00583         rc = SUCCESS;
00584 
00585     int packet_type = readPacket(timer);    // read the socket, see what work is due
00586 
00587     switch (packet_type)
00588     {
00589         default:
00590             // no more data to read, unrecoverable. Or read packet fails due to unexpected network error
00591             rc = packet_type;
00592             goto exit;
00593         case NSAPI_ERROR_WOULD_BLOCK:
00594         case NSAPI_ERROR_OK: // timed out reading packet            
00595             break;
00596         case CONNACK:
00597         case PUBACK:
00598         case SUBACK:
00599             break;
00600         case PUBLISH:
00601         {
00602             MQTTString topicName = MQTTString_initializer;
00603             Message msg;
00604             int intQoS;
00605             msg.payloadlen = 0; /* this is a size_t, but deserialize publish sets this as int */
00606             if (MQTTDeserialize_publish((unsigned char*)&msg.dup, &intQoS, (unsigned char*)&msg.retained, (unsigned short*)&msg.id, &topicName,
00607                                  (unsigned char**)&msg.payload, (int*)&msg.payloadlen, readbuf, MAX_MQTT_PACKET_SIZE) != 1)
00608                 goto exit;
00609             msg.qos = (enum QoS)intQoS;
00610 #if MQTTCLIENT_QOS2
00611             if (msg.qos != QOS2)
00612 #endif
00613                 deliverMessage(topicName, msg);
00614 #if MQTTCLIENT_QOS2
00615             else if (isQoS2msgidFree(msg.id))
00616             {
00617                 if (useQoS2msgid(msg.id))
00618                     deliverMessage(topicName, msg);
00619                 else
00620                     WARN("Maximum number of incoming QoS2 messages exceeded");
00621             }
00622 #endif
00623 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
00624             if (msg.qos != QOS0)
00625             {
00626                 if (msg.qos == QOS1)
00627                     len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBACK, 0, msg.id);
00628                 else if (msg.qos == QOS2)
00629                     len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBREC, 0, msg.id);
00630                 if (len <= 0)
00631                     rc = FAILURE;
00632                 else
00633                     rc = sendPacket(len, timer);
00634                 if (rc == FAILURE)
00635                     goto exit; // there was a problem
00636             }
00637             break;
00638 #endif
00639         }
00640 #if MQTTCLIENT_QOS2
00641         case PUBREC:
00642         case PUBREL:
00643             unsigned short mypacketid;
00644             unsigned char dup, type;
00645             if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1)
00646                 rc = FAILURE;
00647             else if ((len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE,
00648                                  (packet_type == PUBREC) ? PUBREL : PUBCOMP, 0, mypacketid)) <= 0)
00649                 rc = FAILURE;
00650             else if ((rc = sendPacket(len, timer)) != SUCCESS) // send the PUBREL packet
00651                 rc = FAILURE; // there was a problem
00652             if (rc == FAILURE)
00653                 goto exit; // there was a problem
00654             if (packet_type == PUBREL)
00655                 freeQoS2msgid(mypacketid);
00656             break;
00657 
00658         case PUBCOMP:
00659             break;
00660 #endif
00661         case PINGRESP:
00662             ping_outstanding = false;
00663             break;
00664     }
00665 
00666     if (keepalive() != SUCCESS)
00667         //check only keepalive FAILURE status so that previous FAILURE status can be considered as FAULT
00668         rc = FAILURE;
00669 
00670 exit:
00671     if (rc == SUCCESS)
00672         rc = packet_type;
00673     else if (isconnected)
00674         closeSession();
00675     return rc;
00676 }
00677 
00678 
00679 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00680 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::keepalive()
00681 {
00682     int rc = SUCCESS;
00683     static Timer ping_sent;
00684 
00685     if (keepAliveInterval == 0)
00686         goto exit;
00687     
00688     if (ping_outstanding)
00689     {
00690         if (ping_sent.expired())
00691         {
00692             rc = FAILURE; // session failure
00693             #if defined(MQTT_DEBUG)
00694                 DEBUG("PINGRESP not received in keepalive interval\r\n");
00695             #endif
00696         }
00697     }
00698     else if (last_sent.expired() || last_received.expired())
00699     {
00700         Timer timer(1000);
00701         int len = MQTTSerialize_pingreq(sendbuf, MAX_MQTT_PACKET_SIZE);
00702         if (len > 0 && (rc = sendPacket(len, timer)) == SUCCESS) // send the ping packet
00703         {
00704             ping_outstanding = true;
00705             ping_sent.countdown(this->keepAliveInterval);
00706         }
00707     }
00708 exit:
00709     return rc;
00710 }
00711 
00712 
00713 // only used in single-threaded mode where one command at a time is in process
00714 template<class Network, class Timer, int a, int b>
00715 int MQTT::Client<Network, Timer, a, b>::waitfor(int packet_type, Timer& timer)
00716 {
00717     int rc = FAILURE;
00718 
00719     do
00720     {
00721         if (timer.expired())
00722             break; // we timed out
00723         rc = cycle(timer);
00724     }
00725     while (rc != packet_type && rc >= 0);
00726 
00727     return rc;
00728 }
00729 
00730 
00731 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00732 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect(MQTTPacket_connectData& options, connackData& data)
00733 {
00734     Timer connect_timer(command_timeout_ms);
00735     int rc = FAILURE;
00736     int len = 0;
00737 
00738     if (isconnected) // don't send connect packet again if we are already connected
00739         goto exit;
00740 
00741     this->keepAliveInterval = options.keepAliveInterval;
00742     this->cleansession = options.cleansession;
00743     if ((len = MQTTSerialize_connect(sendbuf, MAX_MQTT_PACKET_SIZE, &options)) <= 0)
00744         goto exit;
00745     if ((rc = sendPacket(len, connect_timer)) != SUCCESS)  // send the connect packet
00746         goto exit; // there was a problem
00747 
00748     if (this->keepAliveInterval > 0)
00749         last_received.countdown(this->keepAliveInterval);
00750     // this will be a blocking call, wait for the connack
00751     if (waitfor(CONNACK, connect_timer) == CONNACK)
00752     {
00753         data.rc = 0;
00754         data.sessionPresent = false;
00755         if (MQTTDeserialize_connack((unsigned char*)&data.sessionPresent,
00756                             (unsigned char*)&data.rc, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
00757             rc = data.rc;
00758         else
00759             rc = FAILURE;
00760     }
00761     else
00762         rc = FAILURE;
00763 
00764 #if MQTTCLIENT_QOS2
00765     // resend any inflight publish
00766     if (inflightMsgid > 0 && inflightQoS == QOS2 && pubrel)
00767     {
00768         if ((len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBREL, 0, inflightMsgid)) <= 0)
00769             rc = FAILURE;
00770         else
00771             rc = publish(len, connect_timer, inflightQoS);
00772     }
00773     else
00774 #endif
00775 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
00776     if (inflightMsgid > 0)
00777     {
00778         memcpy(sendbuf, pubbuf, MAX_MQTT_PACKET_SIZE);
00779         rc = publish(inflightLen, connect_timer, inflightQoS);
00780     }
00781 #endif
00782 
00783 exit:
00784     if (rc == SUCCESS)
00785     {
00786         isconnected = true;
00787         ping_outstanding = false;
00788     }
00789     return rc;
00790 }
00791 
00792 
00793 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00794 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect(MQTTPacket_connectData& options)
00795 {
00796     connackData data;
00797     return connect(options, data);
00798 }
00799 
00800 
00801 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00802 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect()
00803 {
00804     MQTTPacket_connectData default_options = MQTTPacket_connectData_initializer;
00805     return connect(default_options);
00806 }
00807 
00808 
00809 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
00810 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::setMessageHandler(const char* topicFilter, messageHandler messageHandler)
00811 {
00812     int rc = FAILURE;
00813     int i = -1;
00814 
00815     // first check for an existing matching slot
00816     for (i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
00817     {
00818         if (messageHandlers[i].topicFilter != 0 && strcmp(messageHandlers[i].topicFilter, topicFilter) == 0)
00819         {
00820             if (messageHandler == 0) // remove existing
00821             {
00822                 messageHandlers[i].topicFilter = 0;
00823                 messageHandlers[i].fp.detach();
00824             }
00825             rc = SUCCESS; // return i when adding new subscription
00826             break;
00827         }
00828     }
00829     // if no existing, look for empty slot (unless we are removing)
00830     if (messageHandler != 0) {
00831         if (rc == FAILURE)
00832         {
00833             for (i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
00834             {
00835                 if (messageHandlers[i].topicFilter == 0)
00836                 {
00837                     rc = SUCCESS;
00838                     break;
00839                 }
00840             }
00841         }
00842         if (i < MAX_MESSAGE_HANDLERS)
00843         {
00844             messageHandlers[i].topicFilter = topicFilter;
00845             messageHandlers[i].fp.attach(messageHandler);
00846         }
00847     }
00848     return rc;
00849 }
00850 
00851 
00852 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
00853 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::subscribe(const char* topicFilter,
00854      enum QoS qos, messageHandler messageHandler, subackData& data)
00855 {
00856     int rc = FAILURE;
00857     Timer timer(command_timeout_ms);
00858     int len = 0;
00859     MQTTString topic = {(char*)topicFilter, {0, 0}};
00860 
00861     if (!isconnected)
00862         goto exit;
00863 
00864     len = MQTTSerialize_subscribe(sendbuf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic, (int*)&qos);
00865     if (len <= 0)
00866         goto exit;
00867     if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet
00868         goto exit;             // there was a problem
00869 
00870     if (waitfor(SUBACK, timer) == SUBACK)      // wait for suback
00871     {
00872         int count = 0;
00873         unsigned short mypacketid;
00874         data.grantedQoS = 0;
00875         if (MQTTDeserialize_suback(&mypacketid, 1, &count, &data.grantedQoS, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
00876         {
00877             if (data.grantedQoS != 0x80)
00878                 rc = setMessageHandler(topicFilter, messageHandler);
00879         }
00880     }
00881     else
00882         rc = FAILURE;
00883 
00884 exit:
00885     if (rc == FAILURE)
00886         closeSession();
00887     return rc;
00888 }
00889 
00890 
00891 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
00892 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::subscribe(const char* topicFilter, enum QoS qos, messageHandler messageHandler)
00893 {
00894     subackData data;
00895     return subscribe(topicFilter, qos, messageHandler, data);
00896 }
00897 
00898 
00899 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
00900 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::unsubscribe(const char* topicFilter)
00901 {
00902     int rc = FAILURE;
00903     Timer timer(command_timeout_ms);
00904     MQTTString topic = {(char*)topicFilter, {0, 0}};
00905     int len = 0;
00906 
00907     if (!isconnected)
00908         goto exit;
00909 
00910     if ((len = MQTTSerialize_unsubscribe(sendbuf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic)) <= 0)
00911         goto exit;
00912     if ((rc = sendPacket(len, timer)) != SUCCESS) // send the unsubscribe packet
00913         goto exit; // there was a problem
00914 
00915     if (waitfor(UNSUBACK, timer) == UNSUBACK)
00916     {
00917         unsigned short mypacketid;  // should be the same as the packetid above
00918         if (MQTTDeserialize_unsuback(&mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
00919         {
00920             // remove the subscription message handler associated with this topic, if there is one
00921             setMessageHandler(topicFilter, 0);
00922         }
00923     }
00924     else
00925         rc = FAILURE;
00926 
00927 exit:
00928     if (rc != SUCCESS)
00929         closeSession();
00930     return rc;
00931 }
00932 
00933 
00934 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00935 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(int len, Timer& timer, enum QoS qos)
00936 {
00937     int rc;
00938 
00939     if ((rc = sendPacket(len, timer)) != SUCCESS) // send the publish packet
00940         goto exit; // there was a problem
00941 
00942 #if MQTTCLIENT_QOS1
00943     if (qos == QOS1)
00944     {
00945         if (waitfor(PUBACK, timer) == PUBACK)
00946         {
00947             unsigned short mypacketid;
00948             unsigned char dup, type;
00949             if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1)
00950                 rc = FAILURE;
00951             else if (inflightMsgid == mypacketid)
00952                 inflightMsgid = 0;
00953         }
00954         else
00955             rc = FAILURE;
00956     }
00957 #endif
00958 #if MQTTCLIENT_QOS2
00959     else if (qos == QOS2)
00960     {
00961         if (waitfor(PUBCOMP, timer) == PUBCOMP)
00962         {
00963             unsigned short mypacketid;
00964             unsigned char dup, type;
00965             if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1)
00966                 rc = FAILURE;
00967             else if (inflightMsgid == mypacketid)
00968                 inflightMsgid = 0;
00969         }
00970         else
00971             rc = FAILURE;
00972     }
00973 #endif
00974 
00975 exit:
00976     if (rc != SUCCESS)
00977         closeSession();
00978     return rc;
00979 }
00980 
00981 
00982 
00983 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
00984 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, void* payload, size_t payloadlen, unsigned short& id, enum QoS qos, bool retained)
00985 {
00986     int rc = FAILURE;
00987     Timer timer(command_timeout_ms);
00988     MQTTString topicString = MQTTString_initializer;
00989     int len = 0;
00990 
00991     if (!isconnected)
00992         goto exit;
00993 
00994     topicString.cstring = (char*)topicName;
00995 
00996 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
00997     if (qos == QOS1 || qos == QOS2)
00998         id = packetid.getNext();
00999 #endif
01000 
01001     len = MQTTSerialize_publish(sendbuf, MAX_MQTT_PACKET_SIZE, 0, qos, retained, id,
01002               topicString, (unsigned char*)payload, payloadlen);
01003     if (len <= 0)
01004         goto exit;
01005 
01006 #if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2
01007     if (!cleansession)
01008     {
01009         memcpy(pubbuf, sendbuf, len);
01010         inflightMsgid = id;
01011         inflightLen = len;
01012         inflightQoS = qos;
01013 #if MQTTCLIENT_QOS2
01014         pubrel = false;
01015 #endif
01016     }
01017 #endif
01018 
01019     rc = publish(len, timer, qos);
01020 exit:
01021     return rc;
01022 }
01023 
01024 
01025 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
01026 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, void* payload, size_t payloadlen, enum QoS qos, bool retained)
01027 {
01028     unsigned short id = 0;  // dummy - not used for anything
01029     return publish(topicName, payload, payloadlen, id, qos, retained);
01030 }
01031 
01032 
01033 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
01034 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, Message& message)
01035 {
01036     return publish(topicName, message.payload, message.payloadlen, message.qos, message.retained);
01037 }
01038 
01039 
01040 template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
01041 int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::disconnect()
01042 {
01043     int rc = FAILURE;
01044     Timer timer(command_timeout_ms);     // we might wait for incomplete incoming publishes to complete
01045     int len = MQTTSerialize_disconnect(sendbuf, MAX_MQTT_PACKET_SIZE);
01046     if (len > 0)
01047         rc = sendPacket(len, timer);            // send the disconnect packet
01048     closeSession();
01049     return rc;
01050 }
01051 
01052 #endif