MQTT client for lwIP Author: Erik Andersson Details of the MQTT protocol can be found at: http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html ----------------------------------------------------------------- 1. Initial steps, reserve memory and make connection to server: You need to increase MEMP_NUM_SYS_TIMEOUT by one if you use MQTT! 1.1: Provide storage Static allocation: mqtt_client_t static_client; example_do_connect(&static_client); Dynamic allocation: mqtt_client_t *client = mqtt_client_new(); if(client != NULL) { example_do_connect(&client); } 1.2: Establish Connection with server void example_do_connect(mqtt_client_t *client) { struct mqtt_connect_client_info_t ci; err_t err; /* Setup an empty client info structure */ memset(&ci, 0, sizeof(ci)); /* Minimal amount of information required is client identifier, so set it here */ ci.client_id = "lwip_test"; /* Initiate client and connect to server, if this fails immediately an error code is returned otherwise mqtt_connection_cb will be called with connection result after attempting to establish a connection with the server. For now MQTT version 3.1.1 is always used */ err = mqtt_client_connect(client, ip_addr, MQTT_PORT, mqtt_connection_cb, 0, &ci); /* For now just print the result code if something goes wrong */ if(err != ERR_OK) { printf("mqtt_connect return %d\n", err); } } Connection to server can also be probed by calling mqtt_client_is_connected(client) ----------------------------------------------------------------- 2. Implementing the connection status callback static void mqtt_connection_cb(mqtt_client_t *client, void *arg, mqtt_connection_status_t status) { err_t err; if(status == MQTT_CONNECT_ACCEPTED) { printf("mqtt_connection_cb: Successfully connected\n"); /* Setup callback for incoming publish requests */ mqtt_set_inpub_callback(client, mqtt_incoming_publish_cb, mqtt_incoming_data_cb, arg); /* Subscribe to a topic named "subtopic" with QoS level 1, call mqtt_sub_request_cb with result */ err = mqtt_subscribe(client, "subtopic", 1, mqtt_sub_request_cb, arg); if(err != ERR_OK) { printf("mqtt_subscribe return: %d\n", err); } } else { printf("mqtt_connection_cb: Disconnected, reason: %d\n", status); /* Its more nice to be connected, so try to reconnect */ example_do_connect(client); } } static void mqtt_sub_request_cb(void *arg, err_t result) { /* Just print the result code here for simplicity, normal behaviour would be to take some action if subscribe fails like notifying user, retry subscribe or disconnect from server */ printf("Subscribe result: %d\n", result); } ----------------------------------------------------------------- 3. Implementing callbacks for incoming publish and data /* The idea is to demultiplex topic and create some reference to be used in data callbacks Example here uses a global variable, better would be to use a member in arg If RAM and CPU budget allows it, the easiest implementation might be to just take a copy of the topic string and use it in mqtt_incoming_data_cb */ static int inpub_id; static void mqtt_incoming_publish_cb(void *arg, const char *topic, u32_t tot_len) { printf("Incoming publish at topic %s with total length %u\n", topic, (unsigned int)tot_len); /* Decode topic string into a user defined reference */ if(strcmp(topic, "print_payload") == 0) { inpub_id = 0; } else if(topic[0] == 'A') { /* All topics starting with 'A' might be handled at the same way */ inpub_id = 1; } else { /* For all other topics */ inpub_id = 2; } } static void mqtt_incoming_data_cb(void *arg, const u8_t *data, u16_t len, u8_t flags) { printf("Incoming publish payload with length %d, flags %u\n", len, (unsigned int)flags); if(flags & MQTT_DATA_FLAG_LAST) { /* Last fragment of payload received (or whole part if payload fits receive buffer See MQTT_VAR_HEADER_BUFFER_LEN) */ /* Call function or do action depending on reference, in this case inpub_id */ if(inpub_id == 0) { /* Don't trust the publisher, check zero termination */ if(data[len-1] == 0) { printf("mqtt_incoming_data_cb: %s\n", (const char *)data); } } else if(inpub_id == 1) { /* Call an 'A' function... */ } else { printf("mqtt_incoming_data_cb: Ignoring payload...\n"); } } else { /* Handle fragmented payload, store in buffer, write to file or whatever */ } } ----------------------------------------------------------------- 4. Using outgoing publish void example_publish(mqtt_client_t *client, void *arg) { const char *pub_payload= "PubSubHubLubJub"; err_t err; u8_t qos = 2; /* 0 1 or 2, see MQTT specification */ u8_t retain = 0; /* No don't retain such crappy payload... */ err = mqtt_publish(client, "pub_topic", pub_payload, strlen(pub_payload), qos, retain, mqtt_pub_request_cb, arg); if(err != ERR_OK) { printf("Publish err: %d\n", err); } } /* Called when publish is complete either with success or failure */ static void mqtt_pub_request_cb(void *arg, err_t result) { if(result != ERR_OK) { printf("Publish result: %d\n", result); } } ----------------------------------------------------------------- 5. Disconnecting Simply call mqtt_disconnect(client)