Jeff Chen
NO_OK
Dependencies: Cayenne-MQTT-mbed NetworkSocketAPI X_NUCLEO_IDW01M1v2 mbed
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Cayenne-X-NUCLEO-IDW01M1
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myDevicesIoT
main.cpp
- Committer:
- Jeffdhyan
- Date:
- 2017-08-28
- Revision:
- 9:2457af993109
- Parent:
- 8:65510f1931d1
File content as of revision 9:2457af993109:
/**
* Example app for using the Cayenne MQTT C++ library to send and receive example data. This example uses
* the X-NUCLEO-IDW01M1 WiFi expansion board via the X_NUCLEO_IDW01M1v2 library.
*/
#include "MQTTTimer.h"
#include "CayenneMQTTClient.h"
#include "MQTTNetworkIDW01M1.h"
#include "SpwfInterface.h"
// WiFi network info.
char* ssid = "Jeff_HomeAP_2EX";
char* wifiPassword = "iots2480";
// Cayenne authentication info. This should be obtained from the Cayenne Dashboard.
char* username = "ac38f8d0-027a-11e7-98f3-6b6a2ddab426";
char* password = "cae33c19fdbaea3fbe427c8cbc3707e02cc5b5a3";
char* clientID = "139b74f0-8b27-11e7-b7c6-cd9f8fbcf795";
SpwfSAInterface interface(D8, D2); // TX, RX
MQTTNetwork<SpwfSAInterface> network(interface);
CayenneMQTT::MQTTClient<MQTTNetwork<SpwfSAInterface>, MQTTTimer> mqttClient(network, username, password, clientID);
DigitalOut led1(LED1);
/**
* Print the message info.
* @param[in] message The message received from the Cayenne server.
*/
void outputMessage(CayenneMQTT::MessageData& message)
{
switch (message.topic) {
case COMMAND_TOPIC:
printf("topic=Command");
break;
case CONFIG_TOPIC:
printf("topic=Config");
break;
default:
printf("topic=%d", message.topic);
break;
}
printf(" channel=%d", message.channel);
if (message.clientID) {
printf(" clientID=%s", message.clientID);
}
if (message.type) {
printf(" type=%s", message.type);
}
for (size_t i = 0; i < message.valueCount; ++i) {
if (message.getValue(i)) {
printf(" value=%s", message.getValue(i));
}
if (message.getUnit(i)) {
printf(" unit=%s", message.getUnit(i));
}
}
if (message.id) {
printf(" id=%s", message.id);
}
printf("\n");
}
/**
* Handle messages received from the Cayenne server.
* @param[in] message The message received from the Cayenne server.
*/
void messageArrived(CayenneMQTT::MessageData& message)
{
int error = 0;
// Add code to process the message. Here we just ouput the message data.
outputMessage(message);
if (message.topic == COMMAND_TOPIC) {
switch(message.channel) {
case 0:
// Set the onboard LED state
led1 = atoi(message.getValue());
// Publish the updated LED state
if ((error = mqttClient.publishData(DATA_TOPIC, message.channel, NULL, NULL, message.getValue())) != CAYENNE_SUCCESS) {
printf("Publish LED state failure, error: %d\n", error);
}
break;
}
// If this is a command message we publish a response. Here we are just sending a default 'OK' response.
// An error response should be sent if there are issues processing the message.
if ((error = mqttClient.publishResponse(message.id, NULL, message.clientID)) != CAYENNE_SUCCESS) {
printf("Response failure, error: %d\n", error);
}
}
}
/**
* Connect to the Cayenne server.
* @return Returns CAYENNE_SUCCESS if the connection succeeds, or an error code otherwise.
*/
int connectClient(void)
{
int error = 0;
// Connect to the server.
printf("Connecting to %s:%d\n", CAYENNE_DOMAIN, CAYENNE_PORT);
while ((error = network.connect(CAYENNE_DOMAIN, CAYENNE_PORT)) != 0) {
printf("TCP connect failed, error: %d\n", error);
wait(2);
}
if ((error = mqttClient.connect()) != MQTT::SUCCESS) {
printf("MQTT connect failed, error: %d\n", error);
return error;
}
printf("Connected\n");
// Subscribe to required topics.
if ((error = mqttClient.subscribe(COMMAND_TOPIC, CAYENNE_ALL_CHANNELS)) != CAYENNE_SUCCESS) {
printf("Subscription to Command topic failed, error: %d\n", error);
}
if ((error = mqttClient.subscribe(CONFIG_TOPIC, CAYENNE_ALL_CHANNELS)) != CAYENNE_SUCCESS) {
printf("Subscription to Config topic failed, error:%d\n", error);
}
// Send device info. Here we just send some example values for the system info. These should be changed to use actual system data, or removed if not needed.
mqttClient.publishData(SYS_VERSION_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, CAYENNE_VERSION);
mqttClient.publishData(SYS_MODEL_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, "mbedDevice");
//mqttClient.publishData(SYS_CPU_MODEL_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, "CPU Model");
//mqttClient.publishData(SYS_CPU_SPEED_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, "1000000000");
return CAYENNE_SUCCESS;
}
/**
* Main loop where MQTT code is run.
*/
void loop(void)
{
// Start the countdown timer for publishing data every 5 seconds. Change the timeout parameter to publish at a different interval.
MQTTTimer timer(5000);
while (true) {
// Yield to allow MQTT message processing.
mqttClient.yield(1000);
// Check that we are still connected, if not, reconnect.
if (!network.connected() || !mqttClient.connected()) {
network.disconnect();
mqttClient.disconnect();
printf("Reconnecting\n");
while (connectClient() != CAYENNE_SUCCESS) {
wait(2);
printf("Reconnect failed, retrying\n");
}
}
// Publish some example data every few seconds. This should be changed to send your actual data to Cayenne.
if (timer.expired()) {
int error = 0;
if ((error = mqttClient.publishData(DATA_TOPIC, 1, TYPE_TEMPERATURE, UNIT_CELSIUS, 30.5)) != CAYENNE_SUCCESS) {
printf("Publish temperature failed, error: %d\n", error);
}
if ((error = mqttClient.publishData(DATA_TOPIC, 2, TYPE_LUMINOSITY, UNIT_LUX, 1000)) != CAYENNE_SUCCESS) {
printf("Publish luminosity failed, error: %d\n", error);
}
if ((error = mqttClient.publishData(DATA_TOPIC, 3, TYPE_BAROMETRIC_PRESSURE, UNIT_HECTOPASCAL, 800)) != CAYENNE_SUCCESS) {
printf("Publish barometric pressure failed, error: %d\n", error);
}
// Restart the countdown timer for publishing data every 5 seconds. Change the timeout parameter to publish at a different interval.
timer.countdown_ms(5000);
}
}
}
/**
* Main function.
*/
int main()
{
// Initialize the network interface.
printf("Initializing interface\n");
interface.connect(ssid, wifiPassword, NSAPI_SECURITY_WPA2);
// Set the default function that receives Cayenne messages.
mqttClient.setDefaultMessageHandler(messageArrived);
// Connect to Cayenne.
if (connectClient() == CAYENNE_SUCCESS) {
// Run main loop.
loop();
}
else {
printf("Connection failed, exiting\n");
}
if (mqttClient.connected())
mqttClient.disconnect();
if (network.connected())
network.disconnect();
return 0;
}
/**
* @file SimplePublish.c
*
* Simplified example app for using the Cayenne MQTT C library to publish example data.
*/
#include "CayenneMQTTClient.h"
// Cayenne authentication info. This should be obtained from the Cayenne Dashboard.
Network network;
CayenneMQTTClient mqttClient;
// Connect to the Cayenne server.
int connectClient(void)
{
// Connect to the server.
int error = 0;
printf("Connecting to %s:%d\n", CAYENNE_DOMAIN, CAYENNE_PORT);
if ((error = NetworkConnect(&network, CAYENNE_DOMAIN, CAYENNE_PORT)) != 0) {
return error;
}
if ((error = CayenneMQTTConnect(&mqttClient)) != MQTT_SUCCESS) {
NetworkDisconnect(&network);
return error;
}
printf("Connected\n");
// Send device info. Here we just send some example values for the system info. These should be changed to use actual system data, or removed if not needed.
CayenneMQTTPublishData(&mqttClient, NULL, SYS_VERSION_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, CAYENNE_VERSION);
CayenneMQTTPublishData(&mqttClient, NULL, SYS_MODEL_TOPIC, CAYENNE_NO_CHANNEL, NULL, NULL, "Linux");
return CAYENNE_SUCCESS;
}
// Main loop where MQTT code is run.
void loop(void)
{
while (1) {
// Yield to allow MQTT message processing.
CayenneMQTTYield(&mqttClient, 1000);
// Publish some example data every second. This should be changed to send your actual data to Cayenne.
CayenneMQTTPublishDataFloat(&mqttClient, NULL, DATA_TOPIC, 0, TYPE_TEMPERATURE, UNIT_CELSIUS, 30.5);
CayenneMQTTPublishDataInt(&mqttClient, NULL, DATA_TOPIC, 1, TYPE_LUMINOSITY, UNIT_LUX, 1000);
}
}
// Main function.
int main(int argc, char** argv)
{
// Initialize the network.
NetworkInit(&network);
// Initialize the Cayenne client.
CayenneMQTTClientInit(&mqttClient, &network, username, password, clientID, NULL);
// Connect to Cayenne.
if (connectClient() == CAYENNE_SUCCESS) {
// Run main loop.
loop();
}
else {
printf("Connection failed, exiting\n");
}
return 0;
}