USE YHTANG AWS ACCOUNT TO TEST MQTT
Dependents: NuMaker-mbed-AWS-IoT-example
Diff: MQTTClient.h
- Revision:
- 43:21da1f744243
- Parent:
- 42:f5beda831651
- Child:
- 44:c299463ae853
--- a/MQTTClient.h Thu Aug 21 12:40:43 2014 +0000 +++ b/MQTTClient.h Mon Sep 29 11:34:26 2014 +0000 @@ -13,14 +13,6 @@ * Contributors: * Ian Craggs - initial API and implementation and/or initial documentation *******************************************************************************/ - - /* - - TODO: - - ensure publish packets are retried on reconnect - - */ #if !defined(MQTTCLIENT_H) #define MQTTCLIENT_H @@ -28,7 +20,14 @@ #include "FP.h" #include "MQTTPacket.h" #include "stdio.h" -#include "MQTT_logging.h" +#include "MQTTLogging.h" + +#if !defined(MQTTCLIENT_QOS1) + #define MQTTCLIENT_QOS1 1 +#endif +#if !defined(MQTTCLIENT_QOS2) + #define MQTTCLIENT_QOS2 0 +#endif namespace MQTT { @@ -55,7 +54,7 @@ { MessageData(MQTTString &aTopicName, struct Message &aMessage) : message(aMessage), topicName(aTopicName) { } - + struct Message &message; MQTTString &topicName; }; @@ -68,44 +67,33 @@ { next = 0; } - + int getNext() { return next = (next == MAX_PACKET_ID) ? 1 : ++next; } - + private: static const int MAX_PACKET_ID = 65535; int next; }; -class QoS2 -{ -public: - - -private: - - -}; - - /** * @class Client * @brief blocking, non-threaded MQTT client API - * + * * This version of the API blocks on all method calls, until they are complete. This means that only one - * MQTT request can be in process at any one time. + * MQTT request can be in process at any one time. * @param Network a network class which supports send, receive - * @param Timer a timer class with the methods: - */ + * @param Timer a timer class with the methods: + */ template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE = 100, int MAX_MESSAGE_HANDLERS = 5> class Client { - + public: - + typedef void (*messageHandler)(MessageData&); /** Construct the client @@ -113,8 +101,8 @@ * before calling MQTT connect * @param limits an instance of the Limit class - to alter limits as required */ - Client(Network& network, unsigned int command_timeout_ms = 30000); - + Client(Network& network, unsigned int command_timeout_ms = 30000); + /** Set the default message handling callback - used for any message which does not match a subscription message handler * @param mh - pointer to the callback function */ @@ -122,95 +110,135 @@ { defaultMessageHandler.attach(mh); } - - void setLogHandler() - { - logHandler.attach(lh); - } + /** MQTT Connect - send an MQTT connect packet down the network and wait for a Connack + * The nework object must be connected to the network endpoint before calling this + * Default connect options are used + * @return success code - + */ + int connect(); /** MQTT Connect - send an MQTT connect packet down the network and wait for a Connack - * The nework object must be connected to the network endpoint before calling this + * The nework object must be connected to the network endpoint before calling this * @param options - connect options - * @return success code - - */ - int connect(MQTTPacket_connectData* options = 0); - + * @return success code - + */ + int connect(MQTTPacket_connectData& options); + /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs * @param topic - the topic to publish to * @param message - the message to send - * @return success code - - */ - int publish(const char* topicName, Message* message); - + * @return success code - + */ + int publish(const char* topicName, Message& message); + + /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs + * @param topic - the topic to publish to + * @param payload - the data to send + * @param payloadlen - the length of the data + * @param qos - the QoS to send the publish at + * @param retained - whether the message should be retained + * @return success code - + */ + int publish(const char* topicName, void* payload, size_t payloadlen, enum QoS qos = QOS0, bool retained = false); + + /** MQTT Publish - send an MQTT publish packet and wait for all acks to complete for all QoSs + * @param topic - the topic to publish to + * @param payload - the data to send + * @param payloadlen - the length of the data + * @param id - the packet id used - returned + * @param qos - the QoS to send the publish at + * @param retained - whether the message should be retained + * @return success code - + */ + int publish(const char* topicName, void* payload, size_t payloadlen, unsigned short& id, enum QoS qos = QOS1, bool retained = false); + /** MQTT Subscribe - send an MQTT subscribe packet and wait for the suback * @param topicFilter - a topic pattern which can include wildcards * @param qos - the MQTT QoS to subscribe at * @param mh - the callback function to be invoked when a message is received for this subscription - * @return success code - - */ + * @return success code - + */ int subscribe(const char* topicFilter, enum QoS qos, messageHandler mh); - + /** MQTT Unsubscribe - send an MQTT unsubscribe packet and wait for the unsuback * @param topicFilter - a topic pattern which can include wildcards - * @return success code - - */ + * @return success code - + */ int unsubscribe(const char* topicFilter); - + /** MQTT Disconnect - send an MQTT disconnect packet, and clean up any state - * @return success code - + * @return success code - */ int disconnect(); - + /** A call to this API must be made within the keepAlive interval to keep the MQTT connection alive - * yield can be called if no other MQTT operation is needed. This will also allow messages to be + * yield can be called if no other MQTT operation is needed. This will also allow messages to be * received. * @param timeout_ms the time to wait, in milliseconds * @return success code - on failure, this means the client has disconnected */ - int yield(int timeout_ms = 1000); - + int yield(unsigned long timeout_ms = 1000L); + + /** Is the client connected? + * @return flag - is the client connected or not? + */ + bool isConnected() + { + return isconnected; + } + private: int cycle(Timer& timer); int waitfor(int packet_type, Timer& timer); int keepalive(); + int publish(int len, Timer& timer, enum QoS qos); int decodePacket(int* value, int timeout); int readPacket(Timer& timer); int sendPacket(int length, Timer& timer); int deliverMessage(MQTTString& topicName, Message& message); bool isTopicMatched(char* topicFilter, MQTTString& topicName); - + Network& ipstack; - unsigned int command_timeout_ms; - - unsigned char buf[MAX_MQTT_PACKET_SIZE]; - unsigned char readbuf[MAX_MQTT_PACKET_SIZE]; + unsigned long command_timeout_ms; - Timer ping_timer; + unsigned char sendbuf[MAX_MQTT_PACKET_SIZE]; + unsigned char readbuf[MAX_MQTT_PACKET_SIZE]; + + Timer last_sent, last_received; unsigned int keepAliveInterval; bool ping_outstanding; - + bool cleansession; + PacketId packetid; - + struct MessageHandlers { const char* topicFilter; FP<void, MessageData&> fp; } messageHandlers[MAX_MESSAGE_HANDLERS]; // Message handlers are indexed by subscription topic - + FP<void, MessageData&> defaultMessageHandler; - + bool isconnected; - -#if 0 - struct - { - bool used; - int id; - } QoS2messages[MAX_QOS2_MESSAGES]; - + +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 + unsigned char pubbuf[MAX_MQTT_PACKET_SIZE]; // store the last publish for sending on reconnect + int inflightLen; + unsigned short inflightMsgid; + enum QoS inflightQoS; +#endif + +#if MQTTCLIENT_QOS2 + bool pubrel; + #if !defined(MAX_INCOMING_QOS2_MESSAGES) + #define MAX_INCOMING_QOS2_MESSAGES 10 + #endif + unsigned short incomingQoS2messages[MAX_INCOMING_QOS2_MESSAGES]; + bool isQoS2msgidFree(unsigned short id); + bool useQoS2msgid(unsigned short id); #endif }; @@ -218,45 +246,90 @@ } -template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS> +template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS> MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::Client(Network& network, unsigned int command_timeout_ms) : ipstack(network), packetid() { - ping_timer = Timer(); - ping_outstanding = 0; + last_sent = Timer(); + last_received = Timer(); + ping_outstanding = false; for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i) messageHandlers[i].topicFilter = 0; - this->command_timeout_ms = command_timeout_ms; + this->command_timeout_ms = command_timeout_ms; isconnected = false; + +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 + inflightMsgid = 0; + inflightQoS = QOS0; +#endif + + +#if MQTTCLIENT_QOS2 + pubrel = false; + for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i) + incomingQoS2messages[i] = 0; +#endif +} + +#if MQTTCLIENT_QOS2 +template<class Network, class Timer, int a, int b> +bool MQTT::Client<Network, Timer, a, b>::isQoS2msgidFree(unsigned short id) +{ + for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i) + { + if (incomingQoS2messages[i] == id) + return false; + } + return true; } -template<class Network, class Timer, int a, int b> +template<class Network, class Timer, int a, int b> +bool MQTT::Client<Network, Timer, a, b>::useQoS2msgid(unsigned short id) +{ + for (int i = 0; i < MAX_INCOMING_QOS2_MESSAGES; ++i) + { + if (incomingQoS2messages[i] == 0) + { + incomingQoS2messages[i] = id; + return true; + } + } + return false; +} +#endif + + +template<class Network, class Timer, int a, int b> int MQTT::Client<Network, Timer, a, b>::sendPacket(int length, Timer& timer) { - int rc = FAILURE, + int rc = FAILURE, sent = 0; - + while (sent < length && !timer.expired()) { - rc = ipstack.write(&buf[sent], length, timer.left_ms()); + rc = ipstack.write(&sendbuf[sent], length, timer.left_ms()); if (rc < 0) // there was an error writing the data break; sent += rc; } if (sent == length) { - ping_timer.countdown(this->keepAliveInterval); // record the fact that we have successfully sent the packet + if (this->keepAliveInterval > 0) + last_sent.countdown(this->keepAliveInterval); // record the fact that we have successfully sent the packet rc = SUCCESS; - //if (debug) - // Log (packet) } else rc = FAILURE; + +#if defined(MQTT_DEBUG) + char printbuf[50]; + DEBUG("Rc %d from sending packet %s\n", rc, MQTTPacket_toString(printbuf, sizeof(printbuf), sendbuf, length)); +#endif return rc; } -template<class Network, class Timer, int a, int b> +template<class Network, class Timer, int a, int b> int MQTT::Client<Network, Timer, a, b>::decodePacket(int* value, int timeout) { unsigned char c; @@ -287,12 +360,12 @@ /** * If any read fails in this method, then we should disconnect from the network, as on reconnect - * the packets can be retried. + * the packets can be retried. * @param timeout the max time to wait for the packet read to complete, in milliseconds * @return the MQTT packet type, or -1 if none */ -template<class Network, class Timer, int a, int b> -int MQTT::Client<Network, Timer, a, b>::readPacket(Timer& timer) +template<class Network, class Timer, int a, int b> +int MQTT::Client<Network, Timer, a, b>::readPacket(Timer& timer) { int rc = FAILURE; MQTTHeader header = {0}; @@ -306,15 +379,22 @@ len = 1; /* 2. read the remaining length. This is variable in itself */ decodePacket(&rem_len, timer.left_ms()); - len += MQTTPacket_encode(readbuf + 1, rem_len); /* put the original remaining length back into the buffer */ + len += MQTTPacket_encode(readbuf + 1, rem_len); /* put the original remaining length into the buffer */ /* 3. read the rest of the buffer using a callback to supply the rest of the data */ - if (ipstack.read(readbuf + len, rem_len, timer.left_ms()) != rem_len) + if (rem_len > 0 && (ipstack.read(readbuf + len, rem_len, timer.left_ms()) != rem_len)) goto exit; header.byte = readbuf[0]; rc = header.bits.type; + if (this->keepAliveInterval > 0) + last_received.countdown(this->keepAliveInterval); // record the fact that we have successfully received a packet exit: + +#if defined(MQTT_DEBUG) + char printbuf[50]; + DEBUG("Rc %d from receiving packet %s\n", rc, MQTTPacket_toString(printbuf, sizeof(printbuf), readbuf, len)); +#endif return rc; } @@ -322,13 +402,13 @@ // assume topic filter and name is in correct format // # can only be at end // + and # can only be next to separator -template<class Network, class Timer, int a, int b> +template<class Network, class Timer, int a, int b> bool MQTT::Client<Network, Timer, a, b>::isTopicMatched(char* topicFilter, MQTTString& topicName) { char* curf = topicFilter; char* curn = topicName.lenstring.data; char* curn_end = curn + topicName.lenstring.len; - + while (*curf && curn < curn_end) { if (*curn == '/' && *curf != '/') @@ -346,13 +426,13 @@ curf++; curn++; }; - + return (curn == curn_end) && (*curf == '\0'); } -template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS> +template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS> int MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::deliverMessage(MQTTString& topicName, Message& message) { int rc = FAILURE; @@ -371,25 +451,25 @@ } } } - - if (rc == FAILURE && defaultMessageHandler.attached()) + + if (rc == FAILURE && defaultMessageHandler.attached()) { MessageData md(topicName, message); defaultMessageHandler(md); rc = SUCCESS; - } - + } + return rc; } -template<class Network, class Timer, int a, int b> -int MQTT::Client<Network, Timer, a, b>::yield(int timeout_ms) +template<class Network, class Timer, int a, int b> +int MQTT::Client<Network, Timer, a, b>::yield(unsigned long timeout_ms) { int rc = SUCCESS; Timer timer = Timer(); - + timer.countdown_ms(timeout_ms); while (!timer.expired()) { @@ -399,19 +479,19 @@ break; } } - + return rc; } -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::cycle(Timer& timer) { /* get one piece of work off the wire and one pass through */ // read the socket, see what work is due unsigned short packet_type = readPacket(timer); - + int len = 0, rc = SUCCESS; @@ -427,21 +507,26 @@ if (MQTTDeserialize_publish((unsigned char*)&msg.dup, (int*)&msg.qos, (unsigned char*)&msg.retained, (unsigned short*)&msg.id, &topicName, (unsigned char**)&msg.payload, (int*)&msg.payloadlen, readbuf, MAX_MQTT_PACKET_SIZE) != 1) goto exit; -// if (msg.qos != QOS2) +#if MQTTCLIENT_QOS2 + if (msg.qos != QOS2) +#endif deliverMessage(topicName, msg); -#if 0 +#if MQTTCLIENT_QOS2 else if (isQoS2msgidFree(msg.id)) { - UseQoS2msgid(msg.id); - deliverMessage(topicName, msg); - } + if (useQoS2msgid(msg.id)) + deliverMessage(topicName, msg); + else + WARN("Maximum number of incoming QoS2 messages exceeded"); + } #endif +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 if (msg.qos != QOS0) { if (msg.qos == QOS1) - len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBACK, 0, msg.id); + len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBACK, 0, msg.id); else if (msg.qos == QOS2) - len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBREC, 0, msg.id); + len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBREC, 0, msg.id); if (len <= 0) rc = FAILURE; else @@ -450,12 +535,14 @@ goto exit; // there was a problem } break; +#endif +#if MQTTCLIENT_QOS2 case PUBREC: unsigned short mypacketid; unsigned char dup, type; if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1) rc = FAILURE; - else if ((len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBREL, 0, mypacketid)) <= 0) + else if ((len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBREL, 0, mypacketid)) <= 0) rc = FAILURE; else if ((rc = sendPacket(len, timer)) != SUCCESS) // send the PUBREL packet rc = FAILURE; // there was a problem @@ -464,6 +551,7 @@ break; case PUBCOMP: break; +#endif case PINGRESP: ping_outstanding = false; break; @@ -487,12 +575,12 @@ goto exit; } - if (ping_timer.expired()) + if (last_sent.expired() || last_received.expired()) { if (!ping_outstanding) { Timer timer = Timer(1000); - int len = MQTTSerialize_pingreq(buf, MAX_MQTT_PACKET_SIZE); + int len = MQTTSerialize_pingreq(sendbuf, MAX_MQTT_PACKET_SIZE); if (len > 0 && (rc = sendPacket(len, timer)) == SUCCESS) // send the ping packet ping_outstanding = true; } @@ -504,43 +592,41 @@ // only used in single-threaded mode where one command at a time is in process -template<class Network, class Timer, int a, int b> +template<class Network, class Timer, int a, int b> int MQTT::Client<Network, Timer, a, b>::waitfor(int packet_type, Timer& timer) { int rc = FAILURE; - + do { - if (timer.expired()) + if (timer.expired()) break; // we timed out } - while ((rc = cycle(timer)) != packet_type); - + while ((rc = cycle(timer)) != packet_type); + return rc; } -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> -int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect(MQTTPacket_connectData* options) +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect(MQTTPacket_connectData& options) { Timer connect_timer = Timer(command_timeout_ms); int rc = FAILURE; - MQTTPacket_connectData default_options = MQTTPacket_connectData_initializer; int len = 0; - + if (isconnected) // don't send connect packet again if we are already connected goto exit; - if (options == 0) - options = &default_options; // set default options if none were supplied - - this->keepAliveInterval = options->keepAliveInterval; - ping_timer.countdown(this->keepAliveInterval); - if ((len = MQTTSerialize_connect(buf, MAX_MQTT_PACKET_SIZE, options)) <= 0) + this->keepAliveInterval = options.keepAliveInterval; + this->cleansession = options.cleansession; + if ((len = MQTTSerialize_connect(sendbuf, MAX_MQTT_PACKET_SIZE, &options)) <= 0) goto exit; if ((rc = sendPacket(len, connect_timer)) != SUCCESS) // send the connect packet goto exit; // there was a problem - + + if (this->keepAliveInterval > 0) + last_received.countdown(this->keepAliveInterval); // this will be a blocking call, wait for the connack if (waitfor(CONNACK, connect_timer) == CONNACK) { @@ -553,7 +639,26 @@ } else rc = FAILURE; - + +#if MQTTCLIENT_QOS2 + // resend an inflight publish + if (inflightMsgid >0 && inflightQoS == QOS2 && pubrel) + { + if ((len = MQTTSerialize_ack(sendbuf, MAX_MQTT_PACKET_SIZE, PUBREL, 0, inflightMsgid)) <= 0) + rc = FAILURE; + else + rc = publish(len, connect_timer, inflightQoS); + } + else +#endif +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 + if (inflightMsgid > 0) + { + memcpy(sendbuf, pubbuf, MAX_MQTT_PACKET_SIZE); + rc = publish(inflightLen, connect_timer, inflightQoS); + } +#endif + exit: if (rc == SUCCESS) isconnected = true; @@ -561,29 +666,37 @@ } -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS> +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect() +{ + MQTTPacket_connectData default_options = MQTTPacket_connectData_initializer; + return connect(default_options); +} + + +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS> int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::subscribe(const char* topicFilter, enum QoS qos, messageHandler messageHandler) -{ - int rc = FAILURE; +{ + int rc = FAILURE; Timer timer = Timer(command_timeout_ms); int len = 0; MQTTString topic = {(char*)topicFilter, 0, 0}; - + if (!isconnected) goto exit; - - len = MQTTSerialize_subscribe(buf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic, (int*)&qos); + + len = MQTTSerialize_subscribe(sendbuf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic, (int*)&qos); if (len <= 0) goto exit; if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet goto exit; // there was a problem - - if (waitfor(SUBACK, timer) == SUBACK) // wait for suback + + if (waitfor(SUBACK, timer) == SUBACK) // wait for suback { int count = 0, grantedQoS = -1; unsigned short mypacketid; if (MQTTDeserialize_suback(&mypacketid, 1, &count, &grantedQoS, readbuf, MAX_MQTT_PACKET_SIZE) == 1) - rc = grantedQoS; // 0, 1, 2 or 0x80 + rc = grantedQoS; // 0, 1, 2 or 0x80 if (rc != 0x80) { for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i) @@ -598,67 +711,58 @@ } } } - else + else rc = FAILURE; - + exit: + if (rc != SUCCESS) + isconnected = false; return rc; } -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS> +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS> int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::unsubscribe(const char* topicFilter) -{ +{ int rc = FAILURE; - Timer timer = Timer(command_timeout_ms); + Timer timer = Timer(command_timeout_ms); MQTTString topic = {(char*)topicFilter, 0, 0}; int len = 0; - + if (!isconnected) goto exit; - - if ((len = MQTTSerialize_unsubscribe(buf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic)) <= 0) + + if ((len = MQTTSerialize_unsubscribe(sendbuf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic)) <= 0) goto exit; - if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet + if ((rc = sendPacket(len, timer)) != SUCCESS) // send the unsubscribe packet goto exit; // there was a problem - + if (waitfor(UNSUBACK, timer) == UNSUBACK) { unsigned short mypacketid; // should be the same as the packetid above if (MQTTDeserialize_unsuback(&mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1) - rc = 0; + rc = 0; } else rc = FAILURE; - + exit: + if (rc != SUCCESS) + isconnected = false; return rc; } - -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> -int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, Message* message) +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(int len, Timer& timer, enum QoS qos) { - int rc = FAILURE; - Timer timer = Timer(command_timeout_ms); - MQTTString topicString = {(char*)topicName, 0, 0}; - int len = 0; + int rc; - if (!isconnected) - goto exit; + if ((rc = sendPacket(len, timer)) != SUCCESS) // send the publish packet + goto exit; // there was a problem - if (message->qos == QOS1 || message->qos == QOS2) - message->id = packetid.getNext(); - - len = MQTTSerialize_publish(buf, MAX_MQTT_PACKET_SIZE, 0, message->qos, message->retained, message->id, - topicString, (unsigned char*)message->payload, message->payloadlen); - if (len <= 0) - goto exit; - if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet - goto exit; // there was a problem - - if (message->qos == QOS1) +#if MQTTCLIENT_QOS1 + if (qos == QOS1) { if (waitfor(PUBACK, timer) == PUBACK) { @@ -666,11 +770,14 @@ unsigned char dup, type; if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1) rc = FAILURE; + else if (inflightMsgid == mypacketid) + inflightMsgid = 0; } else rc = FAILURE; } - else if (message->qos == QOS2) +#elif MQTTCLIENT_QOS2 + else if (qos == QOS2) { if (waitfor(PUBCOMP, timer) == PUBCOMP) { @@ -678,28 +785,91 @@ unsigned char dup, type; if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) != 1) rc = FAILURE; + else if (inflightMsgid == mypacketid) + inflightMsgid = 0; } else rc = FAILURE; } - +#endif + +exit: + if (rc != SUCCESS) + isconnected = false; + return rc; +} + + + +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +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) +{ + int rc = FAILURE; + Timer timer = Timer(command_timeout_ms); + MQTTString topicString = MQTTString_initializer; + int len = 0; + + if (!isconnected) + goto exit; + + topicString.cstring = (char*)topicName; + +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 + if (qos == QOS1 || qos == QOS2) + id = packetid.getNext(); +#endif + + len = MQTTSerialize_publish(sendbuf, MAX_MQTT_PACKET_SIZE, 0, qos, retained, id, + topicString, (unsigned char*)payload, payloadlen); + if (len <= 0) + goto exit; + +#if MQTTCLIENT_QOS1 || MQTTCLIENT_QOS2 + if (!cleansession) + { + memcpy(pubbuf, sendbuf, len); + inflightMsgid = id; + inflightLen = len; + inflightQoS = qos; +#if MQTTCLIENT_QOS2 + pubrel = false; +#endif + } +#endif + + rc = publish(len, timer, qos); exit: return rc; } -template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, void* payload, size_t payloadlen, enum QoS qos, bool retained) +{ + unsigned short id = 0; // dummy - not used for anything + return publish(topicName, payload, payloadlen, id, qos, retained); +} + + +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> +int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, Message& message) +{ + return publish(topicName, message.payload, message.payloadlen, message.qos, message.retained); +} + + +template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b> int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::disconnect() -{ +{ int rc = FAILURE; Timer timer = Timer(command_timeout_ms); // we might wait for incomplete incoming publishes to complete int len = MQTTSerialize_disconnect(buf, MAX_MQTT_PACKET_SIZE); if (len > 0) rc = sendPacket(len, timer); // send the disconnect packet - + isconnected = false; return rc; } -#endif \ No newline at end of file +#endif