Quito
A TCP-capable MQTT client for React Native. The module provides a Typescript API for native MQTT clients on iOS and Android.
The module provides both promise- and callback-based methods to interact with the native clients.
This libraries owes a lot to davesters' and SudoPlz' respective libraries, so thank you 💯
Installation
npm install quito
To make an unencrypted connection to an MQTT broker, make sure a consuming android application allows cleartext traffic, either generally by setting the android:usesCleartextTraffic flag in the application field of the AndroidManifest.xml, or by adding a security configuration.
Usage
The module provides promise- and callback-based methods to interact with the native clients.
Callback-based usage
import { Quito, QuitoOptionsBuilder } from 'quito';
// build a config using the QuitoOptionsBuilder
const config = new QuitoOptionsBuilder()
.uri('tcp://test.mosquitto.org:1883')
.clientId('quito-test-client')
.build();
const MqttClient = new Quito(config);
MqttClient.init() // call init() to create native client and set up native event listeners
.then(() => {
// Subscribing to event callbacks
MqttClient.on(QuitoEvent.CONNECTING, () => {
// called when client is connecting
});
MqttClient.on(QuitoEvent.CONNECTED, () => {
// called when client is connected
});
MqttClient.on(QuitoEvent.SUBSCRIBED, (topic: string) => {
// called when client has subscribed to a topic
});
MqttClient.on(QuitoEvent.UNSUBSCRIBED, (topic: string) => {
// called when client has unsubscribed from a topic
});
MqttClient.on(
QuitoEvent.MESSAGE_RECEIVED,
(topic: string, payload: Uint8Array) => {
// called when client has received a message
}
);
MqttClient.on(
QuitoEvent.MESSAGE_PUBLISHED,
(topic: string, payload: Uint8Array) => {
// called when client has sent a message
}
);
MqttClient.on(QuitoEvent.DISCONNECTED, () => {
// called when client has disconnected
});
MqttClient.on(QuitoEvent.CONNECTION_LOST, (error?: Error) => {
// called when client has unexpectedly lost its connection to the broker
});
MqttClient.on(QuitoEvent.EXCEPTION, (error: Error) => {
// called when client encountered an error
});
MqttClient.on(QuitoEvent.CLOSED, (error?: Error) => {
// called when client was closed
});
// connecting to the MQTT broker
MqttClient.connect();
// subscribing to a message topic
// both a single topic or an array of topics are supported
MqttClient.subscribe([
{
topic: 'first/topic',
qos: 2, // Quality of Service
},
{
topic: 'second/topic',
qos: 1,
},
]);
// unsubscribing from a message topic
// both a single topic string or an array of topic strings are supported
MqttClient.unsubscribe('first/topic');
// publishing a message
MqttClient.publish(
'first/topic',
Buffer.from('This is a test message!'),
0, // Quality of service
false // whether the message should be retained
);
// checking client connection
MqttClient.isConnected().then((isConnected: Boolean) => {
// process connection state
});
// shutting down client
MqttClient.end();
});
Promise-based usage
import { Quito, QuitoOptionsBuilder } from 'quito';
// build a config using the QuitoOptionsBuilder
const config = new QuitoOptionsBuilder()
.uri('tcp://test.mosquitto.org:1883')
.clientId('quito-test-client')
.build();
const MqttClient = new Quito(config);
await MqttClient.init(); // call init() to create native client and set up native event listeners
// Most message callbacks are redundant
// when using the Promise-based API
MqttClient.on(
QuitoEvent.MESSAGE_RECEIVED,
(topic: string, payload: Uint8Array) => {
// called when client has received a message
}
);
MqttClient.on(QuitoEvent.CONNECTION_LOST, (error?: Error) => {
// called when client has unexpectedly lost its connection to the broker
});
MqttClient.on(QuitoEvent.EXCEPTION, (error: Error) => {
// called when client encountered an error
});
// connecting to the MQTT broker
try {
await MqttClient.connectAsync();
} catch (e: any) {
// handle error
}
// subscribing to a message topic
// both a single topic or an array of topics are supported
try {
await MqttClient.subscribeAsync([
{
topic: 'first/topic',
qos: 2, // Quality of Service
},
{
topic: 'second/topic',
qos: 1,
},
]);
} catch (e: any) {
// handle error
}
// unsubscribing from a message topic
// both a single topic string or an array of topic strings are supported
try {
await MqttClient.unsubscribeAsync('first/topic');
} catch (e: any) {
// handle error
}
// publishing a message
try {
await MqttClient.publishAsync(
'first/topic',
Buffer.from('This is a test message!'),
0, // Quality of service
false // whether the message should be retained
);
} catch (e: any) {
// handle error
}
// checking client connection
const isConnected = await MqttClient.isConnected();
// shutting down client
try {
await MqttClient.endAsync();
} catch (e: any) {
// handle error
}
Quito Options
Use the QuitoOptionsBuilder to generate a config for the Quito MQTT client. The following options for configuring the Quito MQTT client are available:
-
clientId
: string - Identifier used in the communication with the MQTT bromker -
username
: string - Username used to authenticate the client against the broker -
password
: string - Password used to authenticate the client against the broker -
keepaliveSec
: number - Maximum time interval in seconds between control packets -
connectTimeoutMs
: number - Maximum time interval the client will wait for the network connection to the MQTT broker to be established -
will
: Will - MQTT message that the broker will send, should the client connect ungracefully.-
topic
: string - Topic the will will be published to -
payload
: string - Message of the will Base64-encoded -
qos
: QoS - quality of service of the will -
retain
: boolean - Indicates whether the will should be retained
-
-
tls
: boolean - Whether the client will secure the connection to the broker using TLS. Depending on the host platform, the options vary.-
On Android: If
tls == true
, at least the broker's CA certificateandroid_caBase64
is required. If the broker expects the client to present a certificate as well, the sharedandroid_caBase64
plusandroid_certificateBase64
,keyStoreKey
, andkeyStorePassword
options become mandatory -
On iOS: If
tls == true
and noios_certKeyP12Base64
is provided, broker certificates will not be validated. Iftls == true
andios_certKeyP12Base64
is provided, the client wil authenticate using the contained crypto.
-
On Android: If
-
ios_certKeyP12Base64
: String - Base64-encoded PKCS12 archive containing client certificate and key -
android_caBase64
: String - Base64-encoded CA certificate (DER) used by the MQTT broker -
android_certificateBase64
: String - Base64-encoded self-signed X509 certificate (DER) of the client -
android_privateKeyBase64
: string - Base64-encoded RSA private key of the client -
keyStorePassword
: string - Password used in creating the client's keystore -
cleanSession
: boolean - When set totrue
, the broker will open a non-persistent connection, during which it will not store any subscription information or undelivered messages for the client -
protocol
: Protocol - Identifies the protocol used in the connection to the broker -
protocolVersion
: number - Identies the MQTT version used in the connection to the broker -
reconnectPeriod
: number - Time interval to elapse before a client will attempt to reconnect an unexpectedly disconnected client -
host
: string - Host name of the MQTT broker to connect to -
port
: number - Port number of the MQTT broker to connect to