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VerneMQ: A Distributed MQTT Broker

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VerneMQ is a high-performance, distributed MQTT message broker. It scales horizontally and vertically on commodity hardware to support a high number of concurrent publishers and consumers while maintaining low latency and fault tolerance. VerneMQ is the reliable message hub for your IoT platform or smart products.

VerneMQ is an Apache2 licensed distributed MQTT broker, developed in Erlang.

MQTT used to stand for MQ Telemetry Transport, but it no longer is an acronym. It is an extremely simple and lightweight publish/subscribe messaging protocol, that was invented at IBM and Arcom (now Eurotech) to connect restricted devices in low bandwidth, high-latency or unreliable networks.

VerneMQ implements the MQTT 3.1, 3.1.1 and 5.0 specifications. Currently the following features are implemented and delivered as part of VerneMQ:

  • QoS 0, QoS 1, QoS 2
  • Basic Authentication and Authorization
  • Bridge Support
  • $SYS Tree for monitoring and reporting
  • TLS (SSL) Encryption
  • Websockets Support
  • Cluster Support
  • Logging (Console, Files, Syslog)
  • Reporting to Graphite
  • Extensible Plugin architecture
  • Multiple Sessions per ClientId
  • Session Balancing
  • Shared subscriptions
  • Message load regulation
  • Message load shedding (for system protection)
  • Offline Message Storage (based on LevelDB)
  • Queue can handle messages FIFO or LIFO style.
  • MongoDB auth & integration
  • Redis auth & integration
  • MySQL auth & integration
  • PostgreSQL auth & integration
  • Memcached integration
  • HTTP integration
  • HTTP Webhooks
  • PROXY Protocol v2
  • Administration HTTP API (BETA)
  • Real-time MQTT session tracing
  • Full multitenancy
  • Cluster status web page

The following features are also applies to MQTT 5.0 clients:

  • Enhanced authentication schemes (AUTH)
  • Message expiration
  • Last Will and Testament delay
  • Shared subscriptions
  • Request/response flow
  • Topic aliases
  • Flow control
  • Subscription flags (Retain as Published, No Local, Retain Handling)
  • Subscriber identifiers
  • All property types are supported: user properties, reason strings, content types etc.

Commercial Support. Binary Packages. Documentation

Below you'll find a basic introduction to building and starting VerneMQ. For more information about the binary package installation, configuration, and administration of VerneMQ, please visit our documentation at VerneMQ Documentation or checkout the product page VerneMQ if you require more information on the available commercial support options.

Quick Start

This section assumes that you have a copy of the VerneMQ source tree. To get started, you need to first build VerneMQ.

Building VerneMQ

Note: VerneMQ requires Erlang/OTP 21.2 or newer.

Assuming you have a working Erlang installation, building VerneMQ should be as simple as:

$ cd $VERNEMQ
$ make rel

Starting VerneMQ

Once you've successfully built VerneMQ, you can start the server with the following commands:

$ cd $VERNEMQ/_build/default/rel/vernemq
$ bin/vernemq start

If VerneMQ is running it is possible to check the status on http://localhost:8888/status and it should look something like:

Note that the $VERNEMQ/_build/default/rel/vernemq directory is a complete, self-contained instance of VerneMQ and Erlang. It is strongly suggested that you move this directory outside the source tree if you plan to run a production instance.

Important links

Experimental plugin: vmq_swc a more powerful metadata replication algorithm

As of VerneMQ 1.6 an alternative metadata replication algorithm is part of the VerneMQ master and can be found in apps/vmq_swc. The plugin is in beta stadium ,but could be already very useful for larger clusters in scenarios with a lot of clients. The plugin is part of the official release and could can be enabled using metadata_plugin = vmq_swc in the vernemq.conf.

Challenges with Plumtree

VerneMQ uses Plumtree for optimistic replication of the metadata, namely subscriber data and retained messages. The Plumtree based metadata storage relies on Merkle trees for its anti-entropy mechanism, that is a background process that ensures the metadata gets synchronized even in the case an update operation was missed. The initialization as well as the ongoing maintenance of such Merkle trees are expensive, especially if a lot of items are managed by the tree. Moreover, removing items from the tree isn't currently supported (distributed deletes). As a consequence one has to look out to not randomly generate data (e.g. by random MQTT client ids or random topics used in retained messages).

While some of those issues could be solved by improving the way VerneMQ uses Plumtree it would most probably break backward compatibility and would have to wait until 2.0. For this reason we decided to look at better alternatives, one that scales to millions of items, where we could get rid of the Merkle trees, and get a better way to deal with distributed deletes. One promising alternative is Server Wide Clocks (SWC). SWC is a novel distributed algorithm that provides multiple advantages. Namely a new efficient and lightweight anti-entropy mechanism, reduced per-key causality information, and real distributed deletes. More about the research behind SWC can be found in the scientific paper.

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