Get Started
After installing it, run mqttx
on the terminal.
Quick Start
Connect
mqttx conn -h 'broker.emqx.io' -p 1883 -u 'admin' -P 'public'
Subscribe
mqttx sub -t 'hello' -h 'broker.emqx.io' -p 1883
Publish
# Publish a single message
mqttx pub -t 'hello' -h 'broker.emqx.io' -p 1883 -m 'from MQTTX CLI'
# Publish multiple messages (multiline)
mqttx pub -t 'hello' -h 'broker.emqx.io' -p 1883 -s -M
Benchmark
# Connect Benchmark
mqttx bench conn -c 5000
# Subscribe Benchmark
mqttx bench sub -c 5000 -t bench/%i
# Publish Benchmark
mqttx bench pub -c 5000 -t bench/%i
Simulate
# Specify a local built-in scenario and start the simulation
mqttx simulate -sc tesla -c 10
# Specify a scenario file and start the simulation
mqttx simulate -f <scenario file path> -c 10
# List the built-in scenarios
mqttx ls -sc
Version Check
mqttx check
Basic Usage
mqttx --help
Options | Description |
---|---|
-v, --version | Output the version number |
-h, --help | Display help for command |
Command | Description |
---|---|
check | Check for updates |
init | Initialize the configuration file |
conn | Create a connection and connect to MQTT Broker |
pub | Publish a message to a topic |
sub | Subscribes to one or multiple topics |
bench | MQTT Benchmark in performance testing |
simulate | Simulate publishing scenario-specific MQTT messages |
Connection
mqttx conn --help
Options | Description |
---|---|
-V, --mqtt-version <5.0/3.1.1/3.1> | the MQTT version (default: 5.0) |
-h, --hostname <HOST> | the broker host (default: "localhost") |
-p, --port <PORT> | the broker port |
-i, --client-id <ID> | the client id |
--no-clean | set the clean session flag to false (default: true) |
-k, --keepalive <SEC> | send a ping every SEC seconds (default: 30) |
-u, --username <USER> | the username |
-P, --password <PASS> | the password |
-l, --protocol <PROTO> | the protocol to use, mqtt, mqtts, ws, or wss (default: mqtt) |
--path <PATH> | the path of websocket (default: /mqtt) |
-wh, --ws-headers <WSHEADERS...> | headers for WebSocket options (only works with MQTT over WebSocket connections, e.g. -wh "Authorization: Bearer token") |
--key <PATH> | path to the key file |
--cert <PATH> | path to the cert file |
--ca <PATH> | path to the ca certificate |
--insecure | do not verify the server certificate |
--alpn <PROTO...> | set one or multiple ALPN (Application Layer Protocol Negotiation) protocols |
-rp, --reconnect-period <MILLISECONDS> | interval between two reconnections, disable auto reconnect by setting to 0 (default: 1000ms) |
--maximum-reconnect-times <NUMBER> | the maximum reconnect times (default: 10) |
-up, --user-properties <USERPROPERTIES...> | the user properties of MQTT 5.0 (e.g. -up "name: mqttx cli") |
-Wt, --will-topic <TOPIC> | the will topic |
-Wm, --will-message <BODY> | the will message |
-Wq, --will-qos <0/1/2> | the will qos |
-Wr, --will-retain | send a will retained message (default: false) |
-Wd, --will-delay-interval <SECONDS> | the will delay interval in seconds |
-Wpf, --will-payload-format-indicator | will message is UTF-8 encoded character data or not |
-We, --will-message-expiry-interval <SECONDS> | lifetime of the will message in seconds |
-Wct, --will-content-type <CONTENTTYPE> | description of the will message’s content |
-Wrt, --will-response-topic <TOPIC> | topic name for a response message |
-Wcd, --will-correlation-data <DATA> | correlation data for the response message |
-Wup, --will-user-properties <USERPROPERTIES...> | the user properties of will message |
-se, --session-expiry-interval <SECONDS> | the session expiry interval in seconds |
--rcv-max, --receive-maximum <NUMBER> | the receive maximum value |
--maximum-packet-size <NUMBER> | the maximum packet size the client is willing to accept |
--topic-alias-maximum <NUMBER> | the topic alias maximum value |
--req-response-info | the client requests response information from the server |
--no-req-problem-info | the client requests problem information from the server |
-so, --save-options [PATH] | save the parameters to the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
-lo, --load-options [PATH] | load the parameters from the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
--debug | enable debug mode for MQTT.js (default: false) |
--help | display help for conn command |
Subscribe
mqttx sub --help
Options | Description |
---|---|
-V, --mqtt-version <5.0/3.1.1/3.1> | the MQTT version (default: 5.0) |
-h, --hostname <HOST> | the broker host (default: "localhost") |
-p, --port <PORT> | the broker port |
-i, --client-id <ID> | the client id |
-q, --qos <0/1/2> | the QoS of the message (default: 0) |
--no-clean | set the clean session flag to false (default: true) |
-t, --topic <TOPIC> | the message topic |
-k, --keepalive <SEC> | send a ping every SEC seconds (default: 30) |
-u, --username <USER> | the username |
-P, --password <PASS> | the password |
-l, --protocol <PROTO> | the protocol to use, mqtt, mqtts, ws, or wss (default: mqtt) |
--path <PATH> | the path of websocket (default: /mqtt) |
-wh, --ws-headers <WSHEADERS...> | headers for WebSocket options (only works with MQTT over WebSocket connections, e.g. -wh "Authorization: Bearer token") |
-nl, --no_local | the no local MQTT 5.0 flag |
-rap, --retain-as-published | the retain as published MQTT 5.0 flag |
-rh, --retain-handling <0/1/2> | the retain handling MQTT 5.0 |
--key <PATH> | path to the key file |
--cert <PATH> | path to the cert file |
--ca | path to the ca certificate |
--insecure | do not verify the server certificate |
--alpn <PROTO...> | set one or multiple ALPN (Application Layer Protocol Negotiation) protocols |
-rp, --reconnect-period <MILLISECONDS> | interval between two reconnections, disable auto reconnect by setting to 0 (default: 1000ms) |
--maximum-reconnect-times <NUMBER> | the maximum reconnect times (default: 10) |
-up, --user-properties <USERPROPERTIES...> | the user properties of MQTT 5.0 (e.g. -up "name: mqttx cli") |
-f, --format <TYPE> | format the message body, support base64, json, hex, binary, cbor and msgpack |
-v, --verbose | turn on verbose mode to display incoming MQTT packets |
--output-mode <default/clean> | choose between the default and clean mode, which outputs the complete MQTT packet data, allowing users to pipe the output as they wish |
--file-save <PATH> | Save the received message as a file |
--file-write <PATH> | continuously write the received message into a specified file |
--delimiter [CHARACTER] | append a delimiter to the end of each message, default is "\n" |
-Wt, --will-topic <TOPIC> | the will topic |
-Wm, --will-message <BODY> | the will message |
-Wq, --will-qos <0/1/2> | the will qos |
-Wr, --will-retain | send a will retained message (default: false) |
-Wd, --will-delay-interval <SECONDS> | the will delay interval in seconds |
-Wpf, --will-payload-format-indicator | will message is UTF-8 encoded character data or not |
-We, --will-message-expiry-interval <SECONDS> | lifetime of the will message in seconds |
-Wct, --will-content-type <CONTENTTYPE> | description of the will message’s content |
-Wrt, --will-response-topic <TOPIC> | topic name for a response message |
-Wcd, --will-correlation-data <DATA> | correlation data for the response message |
-Wup, --will-user-properties <USERPROPERTIES...> | the user properties of will message |
-se, --session-expiry-interval <SECONDS> | the session expiry interval in seconds |
-si, --subscription-identifier <NUMBER> | the identifier of the subscription |
--rcv-max, --receive-maximum <NUMBER> | the receive maximum value |
--maximum-packet-size <NUMBER> | the maximum packet size the client is willing to accept |
--topic-alias-maximum <NUMBER> | the topic alias maximum value |
--req-response-info | the client requests response information from the server |
--no-req-problem-info | the client requests problem information from the server |
-Cup, --conn-user-properties <USERPROPERTIES...> | the connect user properties of MQTT 5.0 (e.g. -Cup "name: mqttx cli") |
-so, --save-options [PATH] | save the parameters to the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
-lo, --load-options [PATH] | load the parameters from the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
--help | display help for sub command |
-Pp, --protobuf-path <PATH> | the path to the .proto file that defines the message format for Protocol Buffers (protobuf) |
-Pmn, --protobuf-message-name <NAME> | the name of the protobuf message type (must exist in the .proto file) |
-Ap, --avsc-path <PATH> | the path to the .avsc file that defines the avro schema for AVRO decoding |
--debug | enable debug mode for MQTT.js (default: false) |
Note: If you are subscribing to topics with a
$
prefix, such as shared subscriptions like$share/test/test
, you need to add quotes around"$share/test/test"
.$share
in shell would be recognized as a variable, leading to a failure in subscription.
Publish
mqttx pub --help
Options | Description |
---|---|
-V, --mqtt-version <5.0/3.1.1/3.1> | the MQTT version (default: 5.0) |
-h, --hostname <HOST> | the broker host (default: "localhost") |
-p, --port <PORT> | the broker port |
-i, --client-id <ID> | the client id |
-q, --qos <0/1/2> | the QoS of the message (default: 0) |
-t, --topic <TOPIC> | the message topic |
-m, --message<MSG> | the message body (default: "Hello From MQTTX CLI") |
-r, --retain | send a retained message (default: false) |
-s, --stdin | read the message body from stdin |
-M, --multiline | read lines from stdin as multiple messages |
--file-read <PATH> | read the message body from a file |
-u, --username <USER> | the username |
-P, --password <PASS> | the password |
-f, --format <TYPE> | the format type of the input message, support base64, json, hex, binary, cbor and msgpack |
-l, --protocol <PROTO> | the protocol to use, mqtt, mqtts, ws, or wss (default: mqtt) |
--path <PATH> | the path of websocket (default: /mqtt) |
-wh, --ws-headers <WSHEADERS...> | headers for WebSocket options (only works with MQTT over WebSocket connections, e.g. -wh "Authorization: Bearer token") |
--key <PATH> | path to the key file |
--cert <PATH> | path to the cert file |
--ca | path to the ca certificate |
--insecure | do not verify the server certificate |
--alpn <PROTO...> | set one or multiple ALPN (Application Layer Protocol Negotiation) protocols |
-rp, --reconnect-period <MILLISECONDS> | interval between two reconnections, disable auto reconnect by setting to 0 (default: 1000ms) |
--maximum-reconnect-times <NUMBER> | the maximum reconnect times (default: 10) |
-up, --user-properties <USERPROPERTIES...> | the user properties of MQTT 5.0 (e.g. -up "name: mqttx cli") |
-pf, --payload-format-indicator | the payload format indicator of the publish message |
-e, --message-expiry-interval <NUMBER> | the lifetime of the publish message in seconds |
-ta, --topic-alias <NUMBER> | value that is used to identify the topic instead of using the topic name |
-rt, --response-topic <TOPIC> | string which is used as the topic name for a response message |
-cd, --correlation-data <DATA> | used by the sender of the request message to identify which request the response message is for when it is received |
-si, --subscription-identifier <NUMBER> | the identifier of the subscription |
-ct, --content-type <TYPE> | a description of the content of the publish message |
-Wt, --will-topic <TOPIC> | the will topic |
-Wm, --will-message <BODY> | the will message |
-Wq, --will-qos <0/1/2> | the will qos |
-Wr, --will-retain | send a will retained message (default: false) |
-Wd, --will-delay-interval <SECONDS> | the will delay interval in seconds |
-Wpf, --will-payload-format-indicator | will message is UTF-8 encoded character data or not |
-We, --will-message-expiry-interval <SECONDS> | lifetime of the will message in seconds |
-Wct, --will-content-type <CONTENTTYPE> | description of the will message’s content |
-Wrt, --will-response-topic <TOPIC> | topic name for a response message |
-Wcd, --will-correlation-data <DATA> | correlation data for the response message |
-Wup, --will-user-properties <USERPROPERTIES...> | the user properties of will message |
-se, --session-expiry-interval <SECONDS> | the session expiry interval in seconds |
--rcv-max, --receive-maximum <NUMBER> | the receive maximum value |
--maximum-packet-size <NUMBER> | the maximum packet size the client is willing to accept |
--topic-alias-maximum <NUMBER> | the topic alias maximum value |
--req-response-info | the client requests response information from the server |
--no-req-problem-info | the client requests problem information from the server |
-Cup, --conn-user-properties <USERPROPERTIES...> | the connect user properties of MQTT 5.0 (e.g. -Cup "name: mqttx cli") |
-so, --save-options [PATH] | save the parameters to the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
-lo, --load-options [PATH] | load the parameters from the local configuration file, which supports json and yaml format, default path is ./mqttx-cli-options.json |
--help | display help for pub command |
-Pp, --protobuf-path <PATH> | the path to the .proto file that defines the message format for Protocol Buffers (protobuf) |
-Pmn, --protobuf-message-name <NAME> | the name of the protobuf message type (must exist in the .proto file) |
-Ap, --avsc-path <PATH> | the path to the .avsc file that defines the avro schema for AVRO encoding |
--debug | enable debug mode for MQTT.js (default: false) |
Configuration File
The configuration file stores the default values of various settings, providing a simplified and customizable experience for MQTTX CLI. After initialization, it will be stored in the user's home directory, with the path $HOME/.mqttx-cli/config
.
Features
default:
- output
- text: Default mode, provides concise output with key information.
- log: Displays detailed log output with date and time stamps.
mqtt:
- protocol: Default is
mqtt
. Supported options includemqtt
,mqtts
,ws
,wss
. - host: Default is
localhost
. - port: Default is
1883
. - max_reconnect_times: Default is
10
. - username: Default is empty.
- password: Default is empty.
The output
setting in the default section controls the CLI output display. Users can choose different modes according to their needs. If you want to integrate with some logging scripts, the log mode is recommended.
In the mqtt
section, if the command line does not provide these parameters, the configuration items from the configuration file will be used.
max_reconnect_times
controls the number of reconnection attempts. Once this set number is reached, the connection will automatically close to prevent infinite reconnections. Note: This is an MQTTX configuration and not a part of the MQTT protocol.
If configuration items like username and password are not requried, they can be omitted from the configuration file.
Initializing Configuration
The configuration file is not provided by default. To create or update the configuration file, run the init
command. This will prompt you to enter the desired values:
mqttx init
? Select MQTTX CLI output mode Text
? Select the default MQTT protocol MQTT
? Enter the default MQTT broker host broker.emqx.io
? Enter the default MQTT port 1883
? Enter the maximum reconnect times for MQTT connection 5
? Enter the default username for MQTT connection authentication admin
? Enter the default password for MQTT connection authentication ******
Configuration file created/updated at /Users/.mqttx-cli/config
Example Configuration File
[default]
output = text
[mqtt]
host = broker.emqx.io
port = 1883
protocol = mqtt
max_reconnect_times = 5
username = admin
password = public
Example CLI Output
- log
mqttx conn [5/24/2024] [11:26:17 AM] › … Connecting... [5/24/2024] [11:26:17 AM] › ✔ Connected
- text
mqttx conn ✔ Connected
Benchmark
The bench command is used to test the performance of the broker. It has basically the same as the normal command options, the following will only list the new or changed options.
Connect Benchmark
mqttx bench conn --help
Options | Description |
---|---|
-c, --count <NUMBER> | the number of connections (default: 1000) |
-i, --interval <MILLISECONDS> | interval of connecting to the broker (default: 10ms) |
-I, --client-id <ID> | the client id, support %i (index) variable |
Subscribe Benchmark
mqttx bench sub --help
Options | Description |
---|---|
-c, --count <NUMBER> | the number of connections (default: 1000) |
-i, --interval <MILLISECONDS> | interval of connecting to the broker (default: 10ms) |
-I, --client-id <ID> | the client id, support %i (index) variable |
-t, --topic <TOPIC...> | the message topic, support %u (username), %c (client id), %i (index) variables |
-v, --verbose | print history received messages and rate |
Publish Benchmark
mqttx bench pub --help
Options | Description |
---|---|
-c, --count <NUMBER> | the number of connections (default: 1000) |
-i, --interval <MILLISECONDS> | interval of connecting to the broker (default: 10ms) |
-im, --interval-message <MILLISECONDS> | interval of publishing message to the broker (default: 1000ms) |
-L, --limit <NUMBER> | the number of messages to publish, 0 means unlimited (default: 0) |
-I, --client-id <ID> | the client id, support %i (index) variable |
-t, --topic <TOPIC...> | the message topic, support %u (username), %c (client id), %i (index) variables |
-v, --verbose | print history received messages and rate |
--file-read <PATH> | read the message body from the file |
--split [CHARACTER] | split the input message in a single file by a specified character, default is "\n" |
Typical stress test scenario
Connection test
Create 10000 connections at a rate of one connection every 10ms, with client ID mqttx-bench-%i
:
mqttx bench conn -c 10000 -i 10 -I "mqttx-bench-%i"
If you are using EMQX, you can check the number of connections in EMQX after all connections have been established via EMQX Dashboard
or by running ./bin/emqx_ctl listeners
to see the information about the number of connections in EMQX.
tcp:default
listen_on : :1883
acceptors : 16
proxy_protocol : false
running : true
current_conn : 10000
max_conns : 1024000
Throughput test
Start 500 clients, subscribe to topic mqttx/bench/t
:
mqttx bench sub -c 500 -t mqttx/bench/t
Then start 20 publishers, publishing messages to the topic mqttx/bench/t
at a rate of 10 messages per second with the message mqttx bench test
:
mqttx bench pub -c 20 -im 100 -t mqttx/bench/t -m "mqttx bench test"
Then, go back to the subscribing client, you can see the total number of messages received and the real-time message rate:
Received total: 10989500, rate: 100000/s
Simulate
For simulating MQTT publish message in specific scenarios.
It has basically the same as the Publish Benchmark command options, the following will only list the new or changed options.
mqttx simulate --help
Options | Description |
---|---|
-sc, --scenario <SCENARIO> | the name of the built-in scenario to simulate |
-f, --file <SCENARIO FILE PATH> | file path of a local custom scenario script |
-t, --topic <TOPIC... > | the message topic, optional, supports variables such as %u (username), %c (client id), %i (index), %sc (scenario). Default topic format is mqttx/simulate/%sc/%c |
One of the --scenario
and --file
parameters must be specified, and if both are specified, the --file
parameter is preferred.
Custom IoT Data Script
Example:
Note: The simulation file must use the CommonJS specification.
/**
* MQTTX Scenario file example
*
* This script generates random temperature and humidity data.
*/
function generator(faker, options) {
return {
// If no topic is returned, use the topic in the command line parameters.
// Topic format: 'mqttx/simulate/myScenario/' + clientId,
message: JSON.stringify({
temp: faker.number.int({ min: 20, max: 80 }), // Generate a random temperature between 20 and 80.
hum: faker.number.int({ min: 40, max: 90 }), // Generate a random humidity between 40 and 90.
})
}
}
// Export the scenario module
module.exports = {
name: 'myScenario', // Name of the scenario
generator, // Generator function
}
Assuming we save the above JavaScript code as a tempAndHum.js
file, we can then use the following command to simulate the generation of 10 MQTT messages:
mqttx simulate --file ./tempAndHum.js -c 10
For more examples and detailed editing guides, please refer to the scripts-example in the MQTTX GitHub repository, or see how to use faker.js to generate various types of random data.
Note: From v1.9.10 onwards, simulation scripts require faker.js v8 or above. If using older versions, update your code with the faker.js upgrade guide for compatibility.
Built-in Scenarios
MQTTX CLI has built-in some common scenarios, which can be specified by the --scenario
parameter, for example:
mqttx simulate --scenario tesla
You can use the ls
command to list all the built-in scenarios:
mqttx ls --scenarios
This command will output a table that shows the name and description of each built-in scenario. If you want to use one of them in the simulate command, simply specify the scenario name in the --scenario
option:
mqttx simulate --scenario <SCENARIO_NAME>
List of built-in scenarios:
Scenario Name | Description |
---|---|
tesla | Simulate Tesla vehicle data |
IEM | Simulation to generate Industrial Energy Monitoring data |
smart_home | Simulation to generate Smart Home data |
weather | Simulation to generate advanced weather station's data. |
List
The list
command provides an overview of available resources.
Currently, it supports listing built-in scenarios.
mqttx list --help
Options | Description |
---|---|
-sc, --scenarios | list the built-in scenarios |
Options Management
Note: This feature was previously called "Configuration." As of v1.10.0, it has been renamed to "Options Management." The previous
--config
and--save
commands have been updated to--load-options
and--save-options
.
MQTTX CLI supports importing and exporting options, allowing users to save command parameters to a local options file for future use. The options file supports json
and yaml
formats, with the default path being ./mqttx-cli-options.json
.
The parameters for the conn
, pub
, sub
, benchmark
, and simulate
commands can all be saved and loaded. Below are examples for exporting and importing options for the conn
command:
Export Options
# Save to default path
mqttx conn --save-options
# Save to a specified path
mqttx conn --save-options ../custom/mqttx-cli-options.json
# Save to a specified path and specify the format as yaml
mqttx conn --save-options ../custom/mqttx-cli-options.yaml
Import Options
# Import options from the default path
mqttx conn --load-options
# Import options from a specified path
mqttx conn --load-options ../custom/mqttx-cli-options.json
# Import options from a specified path and specify the format as yaml
mqttx conn --load-options ../custom/mqttx-cli-options.yaml
Data Pipeline
MQTTX CLI provides a simple way to manage and pipeline MQTT data. Its clean
mode and jq
eliminate the need for complex coding to process MQTT data.
For example, to subscribe and extract an MQTT packet's payload or restructure data:
mqttx sub -t topic --output-mode clean | jq '.payload'
mqttx sub -t topic --output-mode clean | jq '{topic, payload, retain: .packet.retain, userProperties: .packet.properties.userProperties}'
This example shows how to leverage the functionality of MQTTX CLI, jq and other tools to quickly and efficiently build pipelines for acquiring and processing IoT data.
File Read and Write
MQTTX CLI offers file read and write capabilities to seamlessly handle message payloads as file inputs and outputs over MQTT, enhancing the ease of integration and automation in data workflows.
File Reading
Use the following command to read a message from a file:
mqttx pub -t topic --file-read path/to/file
Note: Files must not exceed 256MB due to MQTT protocol constraints. Verify the payload size limit of your MQTT Broker before transmitting.
File Writing
To write incoming messages to a file, use:
mqttx sub -t topic --file-write path/to/file
The --file-write
option appends each message to a file, separated by a newline character (\n
) by default, making it ideal for logging or accumulating text data. If you wish to change the delimiter, you can use the --delimiter
option. For example, --delimiter ','
will separate each message with a comma.
For file transfer and to save messages as separate files, use:
mqttx sub -t topic --file-save path/to/file
Existing files will be automatically renumbered and saved to prevent overwrites.
Do not use --file-write
and --file-save
together.
Type Format
You can specify the file format for sending or saving; if not specified, it defaults to plaintext (utf-8) format.
mqttx pub -t topic --file-read path/to/file --format <type>
mqttx sub -t topic --file-save path/to/file --format <type>
Currently, we support the following data formats for output to file:
- json
- base64
- hex
- binary
- cbor
- msgpack
Note: msgpack and cbor are binary formats that offer better compression and transmission efficiency than JSON for large data. When using these formats, message input/output will use JSON.
When a user transfers a file with an extension in the following formats without specifying the --format
parameter, it will automatically recognize the file format as binary. If the transferred file is not in the following formats and needs to be transmitted in binary format, you must manually specify the --format binary
parameter.
Extension | File Format | Description |
---|---|---|
.png , .jpg , .jpeg , .gif , .bmp , .ico , .tif , .tiff | Image | Common image file formats for pictures and graphics. |
.mp4 , .avi , .mov , .mkv , .flv , .wmv , .mpeg , .3gp | Video | Standard video file formats for movies and clips. |
.mp3 , .wav , .flac , .aac , .ogg , .wma , .m4a , .m4p | Audio | Audio file formats for music and sound recordings. |
.zip , .gz , .rar , .tar , .7z , .bz2 , .xz , .jar | Compressed | Compressed file formats for archive and data compression. |
.bin , .exe , .dll , .so , .dmg , .iso , .img | Binary | Binary file formats for executables, system libraries, and disk images. |
.pdf , .epub | Document | Binary formats for documents and ebooks. |
Check for Update
The check
command is used to check for the latest version of MQTTX CLI. This command will notify if a new version is available and provide a link to download the latest version.
Usage
Run the following command to check for updates:
mqttx check
Example Output
If a new version is available, the following message will be displayed:
A new version of MQTTX CLI is available: 1.9.8 → 1.9.10
https://github.com/emqx/MQTTX/releases/tag/v1.9.10
Download the latest version from the MQTTX Downloads page or the GitHub releases page. After downloading, replace the current version to stay up to date.