mosquitto_sub -d -h broker.emqx.io -t spresense/mqtt
mosquitto_sub -d -h broker.emqx.io -t spresense/mqtt
#include <LTE.h>
#include <ArduinoMqttClient.h>
// APN name
#define APP_LTE_APN "iijmio.jp" // replace your APN
/* APN authentication settings
- Ignore these parameters when setting LTE_NET_AUTHTYPE_NONE.
/
#define APP_LTE_USER_NAME "mio@iij" // replace with your username
#define APP_LTE_PASSWORD "iij" // replace with your password
// APN IP type
#define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V4V6) // IP : IPv4v6
// #define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V4) // IP : IPv4
// #define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V6) // IP : IPv6
// APN authentication type
#define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_CHAP) // Authentication : CHAP
// #define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_PAP) // Authentication : PAP
// #define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_NONE) // Authentication : NONE
/ RAT to use - Refer to the cellular carriers information
- to find out which RAT your SIM supports.
- The RAT set on the modem can be checked with LTEModemVerification::getRAT().
/
#define APP_LTE_RAT (LTE_NET_RAT_CATM) // RAT : LTE-M (LTE Cat-M1)
// #define APP_LTE_RAT (LTE_NET_RAT_NBIOT) // RAT : NB-IoT
// MQTT broker
#define BROKER_NAME "broker.emqx.io" // replace with your broker
#define BROKER_PORT 1883 // port 8883 is the default for MQTT over TLS.
// for this client, if required by the server.
// MQTT topic
#define MQTT_TOPIC "spresense/mqtt" // replace with your topic
// MQTT publish interval settings
#define PUBLISH_INTERVAL_SEC 1 // MQTT publish interval in sec
#define MAX_NUMBER_OF_PUBLISH 100 // Maximum number of publish
LTE lteAccess;
LTEClient client;
MqttClient mqttClient(client);
int numOfPubs = 0;
unsigned long lastPubSec = 0;
char broker[] = BROKER_NAME;
int port = BROKER_PORT;
char topic[] = MQTT_TOPIC;
void doAttach()
{
while (true) {
/ Power on the modem and Enable the radio function. /
if (lteAccess.begin() != LTE_SEARCHING) {
Serial.println("Could not transition to LTE_SEARCHING.");
Serial.println("Please check the status of the LTE board.");
for (;;) {
sleep(1);
}
}
/ The connection process to the APN will start.- If the synchronous parameter is false,
- the return value will be returned when the connection process is started.
/
if (lteAccess.attach(APP_LTE_RAT,
APP_LTE_APN,
APP_LTE_USER_NAME,
APP_LTE_PASSWORD,
APP_LTE_AUTH_TYPE,
APP_LTE_IP_TYPE,
false) == LTE_CONNECTING) {
Serial.println("Attempting to connect to network.");
break;
}
/ If the following logs occur frequently, one of the following might be a cause: -
- APN settings are incorrect
-
- SIM is not inserted correctly
-
- If you have specified LTE_NET_RAT_NBIOT for APP_LTE_RAT,
- your LTE board may not support it.
/
Serial.println("An error has occurred. Shutdown and retry the network attach preparation process after 1 second.");
lteAccess.shutdown();
sleep(1);
}
}
void setup()
{
// Open serial communications and wait for port to open
Serial.begin(115200);
while (!Serial) {
; // wait for serial port to connect. Needed for native USB port only
}
Serial.println("Starting .");
/ Connect LTE network /
doAttach();
int result;
// Wait for the modem to connect to the LTE network.
Serial.println("Waiting for successful attach.");
LTEModemStatus modemStatus = lteAccess.getStatus();
while(LTE_READY != modemStatus) {
if (LTE_ERROR == modemStatus) {
/ If the following logs occur frequently, one of the following might be a cause:
* - Reject from LTE network
*/
Serial.println("An error has occurred. Shutdown and retry the network attach process after 1 second.");
lteAccess.shutdown();
sleep(1);
doAttach();
}
sleep(1);
modemStatus = lteAccess.getStatus();
}
Serial.println("attach succeeded.");
Serial.print("Attempting to connect to the MQTT broker: ");
Serial.println(broker);
if (!mqttClient.connect(broker, port)) {
Serial.print("MQTT connection failed! Error code = ");
Serial.println(mqttClient.connectError());
// do nothing forevermore:
for (;;)
sleep(1);
}
Serial.println("You're connected to the MQTT broker!");
}
void loop()
{
String testString = "test" + String(numOfPubs) + "!";
unsigned long currentTime = lteAccess.getTime();
if (currentTime >= lastPubSec + PUBLISH_INTERVAL_SEC) {
// Publish to broker
Serial.print("Sending message to topic: ");
Serial.println(topic);
Serial.print("Publish: ");
Serial.println(testString);
// send message, the Print interface can be used to set the message contents
mqttClient.beginMessage(topic);
mqttClient.print(testString);
mqttClient.endMessage();
lastPubSec = currentTime;
numOfPubs++;
}
if (numOfPubs >= MAX_NUMBER_OF_PUBLISH) {
Serial.println("Publish end");
// do nothing forevermore:
for (;;)
sleep(1);
}
}
#include <LTE.h>
#include <ArduinoMqttClient.h>
// APN name
#define APP_LTE_APN "iijmio.jp" // replace your APN
/* APN authentication settings
* Ignore these parameters when setting LTE_NET_AUTHTYPE_NONE.
*/
#define APP_LTE_USER_NAME "mio@iij" // replace with your username
#define APP_LTE_PASSWORD "iij" // replace with your password
// APN IP type
#define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V4V6) // IP : IPv4v6
// #define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V4) // IP : IPv4
// #define APP_LTE_IP_TYPE (LTE_NET_IPTYPE_V6) // IP : IPv6
// APN authentication type
#define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_CHAP) // Authentication : CHAP
// #define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_PAP) // Authentication : PAP
// #define APP_LTE_AUTH_TYPE (LTE_NET_AUTHTYPE_NONE) // Authentication : NONE
/* RAT to use
* Refer to the cellular carriers information
* to find out which RAT your SIM supports.
* The RAT set on the modem can be checked with LTEModemVerification::getRAT().
*/
#define APP_LTE_RAT (LTE_NET_RAT_CATM) // RAT : LTE-M (LTE Cat-M1)
// #define APP_LTE_RAT (LTE_NET_RAT_NBIOT) // RAT : NB-IoT
// MQTT broker
#define BROKER_NAME "broker.emqx.io" // replace with your broker
#define BROKER_PORT 1883 // port 8883 is the default for MQTT over TLS.
// for this client, if required by the server.
// MQTT topic
#define MQTT_TOPIC "spresense/mqtt" // replace with your topic
// MQTT publish interval settings
#define PUBLISH_INTERVAL_SEC 1 // MQTT publish interval in sec
#define MAX_NUMBER_OF_PUBLISH 100 // Maximum number of publish
LTE lteAccess;
LTEClient client;
MqttClient mqttClient(client);
int numOfPubs = 0;
unsigned long lastPubSec = 0;
char broker[] = BROKER_NAME;
int port = BROKER_PORT;
char topic[] = MQTT_TOPIC;
void doAttach()
{
while (true) {
/* Power on the modem and Enable the radio function. */
if (lteAccess.begin() != LTE_SEARCHING) {
Serial.println("Could not transition to LTE_SEARCHING.");
Serial.println("Please check the status of the LTE board.");
for (;;) {
sleep(1);
}
}
/* The connection process to the APN will start.
* If the synchronous parameter is false,
* the return value will be returned when the connection process is started.
*/
if (lteAccess.attach(APP_LTE_RAT,
APP_LTE_APN,
APP_LTE_USER_NAME,
APP_LTE_PASSWORD,
APP_LTE_AUTH_TYPE,
APP_LTE_IP_TYPE,
false) == LTE_CONNECTING) {
Serial.println("Attempting to connect to network.");
break;
}
/* If the following logs occur frequently, one of the following might be a cause:
* - APN settings are incorrect
* - SIM is not inserted correctly
* - If you have specified LTE_NET_RAT_NBIOT for APP_LTE_RAT,
* your LTE board may not support it.
*/
Serial.println("An error has occurred. Shutdown and retry the network attach preparation process after 1 second.");
lteAccess.shutdown();
sleep(1);
}
}
void setup()
{
// Open serial communications and wait for port to open
Serial.begin(115200);
while (!Serial) {
; // wait for serial port to connect. Needed for native USB port only
}
Serial.println("Starting .");
/* Connect LTE network */
doAttach();
int result;
// Wait for the modem to connect to the LTE network.
Serial.println("Waiting for successful attach.");
LTEModemStatus modemStatus = lteAccess.getStatus();
while(LTE_READY != modemStatus) {
if (LTE_ERROR == modemStatus) {
/* If the following logs occur frequently, one of the following might be a cause:
* - Reject from LTE network
*/
Serial.println("An error has occurred. Shutdown and retry the network attach process after 1 second.");
lteAccess.shutdown();
sleep(1);
doAttach();
}
sleep(1);
modemStatus = lteAccess.getStatus();
}
Serial.println("attach succeeded.");
Serial.print("Attempting to connect to the MQTT broker: ");
Serial.println(broker);
if (!mqttClient.connect(broker, port)) {
Serial.print("MQTT connection failed! Error code = ");
Serial.println(mqttClient.connectError());
// do nothing forevermore:
for (;;)
sleep(1);
}
Serial.println("You're connected to the MQTT broker!");
}
void loop()
{
String testString = "test" + String(numOfPubs) + "!";
unsigned long currentTime = lteAccess.getTime();
if (currentTime >= lastPubSec + PUBLISH_INTERVAL_SEC) {
// Publish to broker
Serial.print("Sending message to topic: ");
Serial.println(topic);
Serial.print("Publish: ");
Serial.println(testString);
// send message, the Print interface can be used to set the message contents
mqttClient.beginMessage(topic);
mqttClient.print(testString);
mqttClient.endMessage();
lastPubSec = currentTime;
numOfPubs++;
}
if (numOfPubs >= MAX_NUMBER_OF_PUBLISH) {
Serial.println("Publish end");
// do nothing forevermore:
for (;;)
sleep(1);
}
}
