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Apache RocketMQ MQTT

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A new MQTT protocol architecture model, based on which RocketMQ can better support messages from terminals such as IoT devices and Mobile APP. Based on the RocketMQ message unified storage engine, it supports both MQTT terminal and server message sending and receiving.The entire project design refer to MQTT overview.

Architecture

The relevant architecture design is introduced in RIP-33. The queue model of MQTT needs to be based on the light message queue, For the design of the specific light message queue, please refer to the RIP-28(LMQ)-wiki of RocketMQ.

Get Started

Prerequisites

The queue model of MQTT needs to be based on the light message queue feature (RIP-28) of RocketMQ. RocketMQ has only supported this feature since version 4.9.3. Please ensure that the installed version of RocketMQ already supports this feature.

For the quick start of light message queue, please refer to Example_LMQ of RocketMQ. For example, set the following parameters to true in broker.conf

enableLmq = true
enableMultiDispatch = true

Build Requirements

The current project requires JDK 1.8.x. When building on MAC arm64 the recommended JDK 1.8 must be based on 386 architecture or use Maven flag -Dos.arch=x86_64 when building with Maven.

  1. Clone
git clone https://github.com/apache/rocketmq-mqtt
  1. Build the package
cd rocketmq-mqtt
mvn -Prelease-all -DskipTests clean install -U 
  1. Config
cd distribution/target/
cd conf

Some important configuration items in the service.conf configuration file

Config Key Instruction
username used for auth
secretKey used for auth
NAMESRV_ADDR specify namesrv address
eventNotifyRetryTopic notify event retry topic
clientRetryTopic client retry topic
metaAddr meta all nodes ip:port. Same as membersAddress in meta.config

And some configuration items in the meta.conf configuration file

Config Key Instruction
selfAddress meta cur node ip:port, e.g. 192.168.0.1:8080
membersAddress meta all nodes ip:port, e.g. 192.168.0.1:8080,192.168.0.2:8080,192.168.0.3:8080
  1. CreateTopic

    create all first-level topics, including eventNotifyRetryTopic and clientRetryTopic in the configuration file above.

sh mqadmin updatetopic -c {cluster} -t {topic} -n {namesrv}
  1. Initialize Meta
  • Configure Gateway Node List
sh mqadmin updateKvConfig -s LMQ -k LMQ_CONNECT_NODES -v {ip1,ip2} -n {namesrv}
  • Configure the first-level topic list
sh mqadmin updateKvConfig -s LMQ -k ALL_FIRST_TOPICS -v {topic1,topic2} -n {namesrv}
  • Configure a list of wildcard characters under each first-level topic
sh mqadmin updateKvConfig  -s LMQ -k {topic} -v {topic/+}  -n {namesrv}
  1. Start Process
cd bin
sh meta.sh start
sh mqtt.sh start

Example

The mqtt-example module has written basic usage example code, which can be used for reference

Protocol Version

The currently supported protocol version is MQTT 3.1.1.

Authentication

At present, an implementation based on the HmacSHA1 signature algorithm is provided by default, Refer to AuthManagerSample. Users can customize other implementations to meet the needs of businesses to flexibly verify resources and identities.

Meta Persistence

At present, meta data storage and management is simply implemented through the kvconfig mechanism of namesrv by default, Refer to MetaPersistManagerSample. Users can customize other implementations.

License

Apache License, Version 2.0 Copyright (C) Apache Software Foundation.

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