285 lines
13 KiB
Markdown
285 lines
13 KiB
Markdown
# MQTT
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MQTT is a light weight, client to server, publish / subscribe messaging
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protocol. MQTT has been specifically designed to reduce transport overhead
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(and thus network traffic) and code footprint on client devices. For this
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reason MQTT is ideally suited to constrained devices such as sensors and
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actuators and is quickly becoming the defacto standard communication protocol
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for IoT.
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Apache ActiveMQ Artemis supports the following MQTT versions (with links to
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their respective specifications):
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- [3.1](https://public.dhe.ibm.com/software/dw/webservices/ws-mqtt/mqtt-v3r1.html)
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- [3.1.1](https://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html)
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- [5.0](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html)
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By default there are `acceptor` elements configured to accept MQTT connections
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on ports `61616` and `1883`.
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See the general [Protocols and Interoperability](protocols-interoperability.md)
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chapter for details on configuring an `acceptor` for MQTT.
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Refer to the MQTT examples for a look at some of this functionality in action.
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## MQTT Quality of Service
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MQTT offers 3 quality of service levels.
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Each message (or topic subscription) can define a quality of service that is
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associated with it. The quality of service level defined on a topic is the
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maximum level a client is willing to accept. The quality of service level on a
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message is the desired quality of service level for this message. The broker
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will attempt to deliver messages to subscribers at the highest quality of
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service level based on what is defined on the message and topic subscription.
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Each quality of service level offers a level of guarantee by which a message is
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sent or received:
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- QoS 0: `AT MOST ONCE`
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Guarantees that a particular message is only ever received by the subscriber
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a maximum of one time. This does mean that the message may never arrive. The
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sender and the receiver will attempt to deliver the message, but if something
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fails and the message does not reach its destination (say due to a network
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connection) the message may be lost. This QoS has the least network traffic
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overhead and the least burden on the client and the broker and is often useful
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for telemetry data where it doesn't matter if some of the data is lost.
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- QoS 1: `AT LEAST ONCE`
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Guarantees that a message will reach its intended recipient one or more
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times. The sender will continue to send the message until it receives an
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acknowledgment from the recipient, confirming it has received the message. The
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result of this QoS is that the recipient may receive the message multiple
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times, and also increases the network overhead than QoS 0, (due to acks). In
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addition more burden is placed on the sender as it needs to store the message
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and retry should it fail to receive an ack in a reasonable time.
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- QoS 2: `EXACTLY ONCE`
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The most costly of the QoS (in terms of network traffic and burden on sender
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and receiver) this QoS will ensure that the message is received by a recipient
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exactly one time. This ensures that the receiver never gets any duplicate
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copies of the message and will eventually get it, but at the extra cost of
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network overhead and complexity required on the sender and receiver.
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## MQTT Retain Messages
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MQTT has an interesting feature in which messages can be "retained" for a
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particular address. This means that once a retain message has been sent to an
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address, any new subscribers to that address will receive the last sent retain
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message before any others messages, this happens even if the retained message
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was sent before a client has connected or subscribed. An example of where this
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feature might be useful is in environments such as IoT where devices need to
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quickly get the current state of a system when they are on boarded into a
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system.
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## Will Messages
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A will message can be sent when a client initially connects to a broker.
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Clients are able to set a "will message" as part of the connect packet. If the
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client abnormally disconnects, say due to a device or network failure the
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broker will proceed to publish the will message to the specified address (as
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defined also in the connect packet). Other subscribers to the will topic will
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receive the will message and can react accordingly. This feature can be useful
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in an IoT style scenario to detect errors across a potentially large scale
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deployment of devices.
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## Debug Logging
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Detailed protocol logging (e.g. packets in/out) can be activated by turning
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on `TRACE` logging for `org.apache.activemq.artemis.core.protocol.mqtt`. Follow
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[these steps](logging.md#activating-trace-for-a-specific-logger) to configure
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logging appropriately.
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The MQTT specification doesn't dictate the format of the payloads which clients
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publish. As far as the broker is concerned a payload is just an array of
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bytes. However, to facilitate logging the broker will encode the payloads as
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UTF-8 strings and print them up to 256 characters. Payload logging is limited
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to avoid filling the logs with potentially hundreds of megabytes of unhelpful
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information.
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## Wildcard subscriptions
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MQTT addresses are hierarchical much like a file system, and they use a special
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character (i.e. `/` by default) to separate hierarchical levels. Subscribers
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are able to subscribe to specific topics or to whole branches of a hierarchy.
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To subscribe to branches of an address hierarchy a subscriber can use wild
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cards. There are 2 types of wildcards in MQTT:
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- **Multi level** (`#`)
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Adding this wildcard to an address would match all branches of the address
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hierarchy under a specified node. For example: `/uk/#` Would match
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`/uk/cities`, `/uk/cities/newcastle` and also `/uk/rivers/tyne`. Subscribing to
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an address `#` would result in subscribing to all topics in the broker. This
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can be useful, but should be done so with care since it has significant
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performance implications.
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- **Single level** (`+`)
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Matches a single level in the address hierarchy. For example `/uk/+/stores`
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would match `/uk/newcastle/stores` but not `/uk/cities/newcastle/stores`.
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These MQTT-specific wildcards are automatically *translated* into the wildcard
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syntax used by ActiveMQ Artemis. These wildcards are configurable. See the
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[Wildcard Syntax](wildcard-syntax.md#customizing-the-syntax) chapter for details about
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how to configure custom wildcards.
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## Web Sockets
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Apache ActiveMQ Artemis also supports MQTT over [Web
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Sockets](https://html.spec.whatwg.org/multipage/web-sockets.html). Modern web
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browsers which support Web Sockets can send and receive MQTT messages.
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MQTT over Web Sockets is supported via a normal MQTT acceptor:
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```xml
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<acceptor name="mqtt-ws-acceptor">tcp://localhost:1883?protocols=MQTT</acceptor>
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```
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With this configuration, Apache ActiveMQ Artemis will accept MQTT connections
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over Web Sockets on the port `1883`. Web browsers can then connect to
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`ws://<server>:1883` using a Web Socket to send and receive MQTT messages.
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## Automatic Subscription Clean-up
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Sometimes MQTT clients don't clean up their subscriptions. In such situations
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the `auto-delete-queues-delay` and `auto-delete-queues-message-count`
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address-settings can be used to clean up the abandoned subscription queues.
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However, the MQTT session meta-data is still present in memory and needs to be
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cleaned up as well. The URL parameter `defaultMqttSessionExpiryInterval` can be
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configured on the MQTT `acceptor` to deal with this situation.
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MQTT 5 added a new [session expiry interval](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901048)
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property with the same basic semantics. The broker will use the client's value
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for this property if it is set. If it is not set then it will apply the
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`defaultMqttSessionExpiryInterval`.
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The default `defaultMqttSessionExpiryInterval` is `-1` which means no MQTT 3.x
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session states will be expired and no MQTT 5 session states which do not pass
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their own session expiry interval will be expired. Otherwise it represents the
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number of **seconds** which must elapse after the client has disconnected
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before the broker will remove the session state.
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MQTT session state is scanned every 5,000 milliseconds by default. This can be
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changed using the `mqtt-session-scan-interval` element set in the `core` section
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of `broker.xml`.
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## Flow Control
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MQTT 5 introduced a simple form of [flow control](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Flow_Control).
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In short, a broker can tell a client how many QoS 1 & 2 messages it can receive
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before being acknowledged and vice versa.
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This is controlled on the broker by setting the `receiveMaximum` URL parameter on
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the MQTT `acceptor` in `broker.xml`.
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The default value is `65535` (the maximum value of the 2-byte integer used by
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MQTT).
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A value of `0` is prohibited by the MQTT 5 specification.
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A value of `-1` will prevent the broker from informing the client of any receive
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maximum which means flow-control will be disabled from clients to the broker.
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This is effectively the same as setting the value to `65535`, but reduces the size
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of the `CONNACK` packet by a few bytes.
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## Topic Alias Maximum
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MQTT 5 introduced [topic aliasing](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Topic_Alias).
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This is an optimization for the size of `PUBLISH` control packets as a 2-byte
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integer value can now be substituted for the _name_ of the topic which can
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potentially be quite long.
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Both the client and the broker can inform each other about the _maximum_ alias
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value they support (i.e. how many different aliases they support). This is
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controlled on the broker using the `topicAliasMaximum` URL parameter on the
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`acceptor` used by the MQTT client.
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The default value is `65535` (the maximum value of the 2-byte integer used by
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MQTT).
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A value of `0` will disable topic aliasing from clients to the broker.
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A value of `-1` will prevent the broker from informing the client of any topic
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alias maximum which means aliasing will be disabled from clients to the broker.
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This is effectively the same as setting the value to `0`, but reduces the size
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of the `CONNACK` packet by a few bytes.
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## Maximum Packet Size
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MQTT 5 introduced the [maximum packet size](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901086).
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This is the maximum packet size the server or client is willing to accept.
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This is controlled on the broker by setting the `maximumPacketSize` URL parameter
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on the MQTT `acceptor` in `broker.xml`.
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The default value is `268435455` (i.e. 256MB - the maximum value of the variable
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byte integer used by MQTT).
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A value of `0` is prohibited by the MQTT 5 specification.
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A value of `-1` will prevent the broker from informing the client of any maximum
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packet size which means no limit will be enforced on the size of incoming packets.
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This also reduces the size of the `CONNACK` packet by a few bytes.
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## Server Keep Alive
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All MQTT versions support a connection keep alive value defined by the *client*.
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MQTT 5 introduced a [server keep alive](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901094)
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value so that a broker can define the value that the client should use. The
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primary use of the server keep alive is for the server to inform the client that
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it will disconnect the client for inactivity sooner than the keep alive specified
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by the client.
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This is controlled on the broker by setting the `serverKeepAlive` URL parameter
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on the MQTT `acceptor` in `broker.xml`.
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The default value is `60` and is measured in **seconds**.
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A value of `0` completely disables keep alives no matter the client's keep alive
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value. This is **not recommended** because disabling keep alives is generally
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considered dangerous since it could lead to resource exhaustion.
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A value of `-1` means the broker will *always* accept the client's keep alive
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value (even if that value is `0`).
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Any other value means the `serverKeepAlive` will be applied if it is *less than*
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the client's keep alive value **unless** the client's keep alive value is `0` in
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which case the `serverKeepAlive` is applied. This is because a value of `0` would
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disable keep alives and disabling keep alives is generally considered dangerous
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since it could lead to resource exhaustion.
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## Enhanced Authentication
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MQTT 5 introduced [enhanced authentication](https://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html#_Toc3901256)
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which extends the existing name & password authentication to include challenge /
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response style authentication.
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However, there are currently no challenge / response mechanisms implemented so if
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a client passes the "Authentication Method" property in its `CONNECT` packet it will
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receive a `CONNACK` with a reason code of `0x8C` (i.e. bad authentication method)
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and the network connection will be closed.
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## Publish Authorization Failures
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The MQTT 3.1.1 specification is ambiguous regarding the broker's behavior when
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a `PUBLISH` packet fails due to a lack of authorization. In [section 3.3.5](http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/os/mqtt-v3.1.1-os.html#_Toc398718042)
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it says:
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> If a Server implementation does not authorize a PUBLISH to be performed by a
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> Client; it has no way of informing that Client. It MUST either make a positive
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> acknowledgement, according to the normal QoS rules, or close the Network
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> Connection
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By default the broker will close the network connection. However if you'd rather
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have the broker make a positive acknowledgement then set the URL parameter
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`closeMqttConnectionOnPublishAuthorizationFailure` to `false` on the relevant
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MQTT `acceptor` in `broker.xml`, e.g.:
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```xml
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<acceptor name="mqtt">tcp://0.0.0:1883?protocols=MQTT;closeMqttConnectionOnPublishAuthorizationFailure=false</acceptor>
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``` |