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// Copyright (c) 2020 Cesanta Software Limited
// All rights reserved
//
// Example MQTT client. It performs the following steps:
// 1. Connects to the AWS IoT MQTT server
// 2. When connected, subscribes to the topic `s_rx_topic`
// 3. Publishes message `hello` to the `s_tx_topic` periodically
//
// This example requires TLS support. By default, it is built with mbedTLS,
// therefore make sure mbedTLS is installed. To build with OpenSSL, execute:
// make clean all CFLAGS="-W -Wall -DMG_ENABLE_OPENSSL=1 -lssl"
// In order to get MQTT URL, login to AWS IoT, click on "Settings" on the left
// bar, copy the "Endpoint" URL.
static const char *s_url =
"mqtts://a1pjwh2bop1ojt-ats.iot.eu-west-1.amazonaws.com";
// To create certificates:
// 1. Click Policies -> Create, fill fields:
// Name : Policy1
// Action : iot:*
// Resource ARN: *
// Effect : allow
// then, click "Create"
// 2. Click Manage -> Things -> Create things -> Create single thing -> Next
// Thing name: t1, no shadow, Next
// Auto-generate new certificate, Next
// Select policy Policy1, Create thing
// 3. From the dialog box that appears, download:
// xxx-certificate.pem.crt as cert.pem to the example directory
// xxx-private.pem.key as key.pem to the example directory
static const char *s_cert = "cert.pem";
static const char *s_key = "key.pem";
static const char *s_rx_topic = "d/rx";
static const char *s_tx_topic = "d/tx";
static int s_qos = 1;
#include "mongoose.h"
static void fn(struct mg_connection *c, int ev, void *ev_data, void *fn_data) {
if (ev == MG_EV_OPEN) {
// c->is_hexdumping = 1;
} else if (ev == MG_EV_ERROR) {
// On error, log error message
MG_ERROR(("%p %s", c->fd, (char *) ev_data));
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} else if (ev == MG_EV_CONNECT) {
// Set up 2-way TLS that is required by AWS IoT
struct mg_tls_opts opts = {
.ca = "ca.pem", .cert = s_cert, .certkey = s_key};
mg_tls_init(c, &opts);
} else if (ev == MG_EV_MQTT_OPEN) {
// MQTT connect is successful
struct mg_str topic = mg_str(s_rx_topic);
MG_INFO(("Connected to %s", s_url));
MG_INFO(("Subscribing to %s", s_rx_topic));
mg_mqtt_sub(c, topic, s_qos);
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c->label[0] = 'X'; // Set a label that we're logged in
} else if (ev == MG_EV_MQTT_MSG) {
// When we receive MQTT message, print it
struct mg_mqtt_message *mm = (struct mg_mqtt_message *) ev_data;
MG_INFO(("Received on %.*s : %.*s", (int) mm->topic.len, mm->topic.ptr,
(int) mm->data.len, mm->data.ptr));
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} else if (ev == MG_EV_POLL && c->label[0] == 'X') {
static unsigned long prev_second;
unsigned long now_second = (*(unsigned long *) ev_data) / 1000;
if (now_second != prev_second) {
struct mg_str topic = mg_str(s_tx_topic), data = mg_str("{\"a\":123}");
MG_INFO(("Publishing to %s", s_tx_topic));
mg_mqtt_pub(c, topic, data, s_qos, false);
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prev_second = now_second;
}
}
if (ev == MG_EV_ERROR || ev == MG_EV_CLOSE) {
MG_INFO(("Got event %d, stopping...", ev));
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*(bool *) fn_data = true; // Signal that we're done
}
}
int main(void) {
struct mg_mgr mgr;
struct mg_mqtt_opts opts = {.clean = true};
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bool done = false;
mg_mgr_init(&mgr); // Initialise event manager
MG_INFO(("Connecting to %s", s_url)); // Inform that we're starting
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mg_mqtt_connect(&mgr, s_url, &opts, fn, &done); // Create client connection
while (!done) mg_mgr_poll(&mgr, 1000); // Loop until done
mg_mgr_free(&mgr); // Finished, cleanup
return 0;
}