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164 lines
9.9 KiB
Plaintext
---
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id: mqtt
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title: MQTT | Integrations Overview
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sidebar_label: MQTT
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sidebar_position: 6
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description: Bridging mesh networks over the internet and integrating Meshtastic protocols with popular technologies such as Home Assistant, Node Red, and Adafruit IO.
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---
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## Bridging networks
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![Common MQTT Layout](/img/software/mqtt/mqtt.webp)
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Meshtastic networks in different locations beyond the reach of LoRa can be easily bridged together using MQTT. The simplest option is to connect your mesh to the official Meshtastic MQTT broker. This makes your devices appear on the world map, and provides a copy of your mesh traffic, translated into JSON. All you have to do to join the public MQTT server is to Enable MQTT and set Uplink and Downlink on the channels that you want to share over MQTT. The default device configuration using the public MQTT Server is encrypted.
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You can also specify your own private MQTT broker to bridge mesh networks together, via the internet (or just a local IP network).
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You can find the settings available for MQTT [here](/docs/configuration/module/mqtt).
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:::important
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When MQTT is turned on, you are potentially broadcasting your entire mesh's traffic onto the public internet. This includes messages and position information.
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The default channel (LongFast) on the public MQTT server usually has a lot of traffic. Your device may get overloaded and may no longer function properly anymore. It is recommended to use a different channel or to use your own MQTT server if you experience issues.
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:::
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## Software Integrations
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Using or emitting packets directly in/from smart home control software such as Home Assistant or other consumers that can work with JSON messages.
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When MQTT is enabled, the Meshtastic device simply uplinks and/or downlinks every raw protobuf MeshPacket that it sees to the MQTT broker, encapsulated in a [ServiceEnvelope protobuf](https://buf.build/meshtastic/protobufs/docs/main:meshtastic#meshtastic.ServiceEnvelope). In addition, some packet types are serialized or deserialized from/to JSON messages for easier use in consumers. All packets are sent to the broker, whether they originate from another device on the mesh, or the gateway node itself.
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### MQTT [Topics](https://www.hivemq.com/blog/mqtt-essentials-part-5-mqtt-topics-best-practices)
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If no specific [root topic](/docs/configuration/module/mqtt#root-topic) is configured, the default root topic will be `msh/`.
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Each device that is connected to MQTT will publish its MQTT state (`online`/`offline`) to:
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`msh/2/stat/USERID`, where `USERID` is the node ID of the gateway device (the one connected to MQTT).
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For each channel where uplink and/or downlink is enabled, two other topics might be used:
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#### Protobufs topic
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A gateway node will uplink and/or downlink raw ([protobuf](https://developers.google.com/protocol-buffers)) MeshPackets to the topic:
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`msh/2/e/CHANNELNAME/USERID`, where `CHANNELNAME` is the name of the channel (firmware versions prior to 2.3.0 will publish to a topic with `/c/` in the place of `/e/`).
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For example: `msh/2/e/LongFast/!abcd1234`
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The payload is a raw protobuf, whose definitions for Meshtastic can be found [here](https://github.com/meshtastic/protobufs/blob/master/meshtastic). Reference guides for working with protobufs in several popular programming languages can be found [here](https://protobuf.dev/reference/). Looking at the MQTT traffic with a program like `mosquitto_sub` will tell you it's working, but you won't get much useful information out of it. For example:
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```text
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苓????"!
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!937bed1cTanksTnk"D???05??=???aP`
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ShortFast !937bed1c
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```
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If [encryption_enabled](/docs/configuration/module/mqtt#encryption-enabled) is set to true, the payload of the MeshPacket will remain encrypted with the key for the specified channel.
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#### JSON topic
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:::note
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JSON is not supported on the nRF52 platform.
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:::
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If [JSON is enabled](/docs/configuration/module/mqtt#json-enabled), packets from the following [port numbers](/docs/development/firmware/portnum) are serialized to JSON: `TEXT_MESSAGE_APP`, `TELEMETRY_APP`, `NODEINFO_APP`, `POSITION_APP`, `WAYPOINT_APP`, `NEIGHBORINFO_APP`, `TRACEROUTE_APP`, `DETECTION_SENSOR_APP`, `PAXCOUNTER_APP` and `REMOTE_HARDWARE_APP`. These are then forwarded to the topic:
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`msh/2/json/CHANNELNAME/USERID`.
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An example of a received `NODEINFO_APP` message:
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```json
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{
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"id": 452664778,
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"channel": 0,
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"from": 2130636288,
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"payload": {
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"hardware": 10,
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"id": "!7efeee00",
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"longname": "base0",
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"shortname": "BA0"
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},
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"sender": "!7efeee00",
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"timestamp": 1646832724,
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"to": -1,
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"type": "nodeinfo"
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}
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```
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The meaning of these fields is as follows:
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- "`id`" is the unique ID for this message.
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- "`channel`" is the channel index this message was received on.
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- "`from`" is the unique node number of the node on the mesh that sent this message.
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- "`id`" inside the payload of a `NODEINFO_APP` message is the user ID of the node that sent it, which is currently just the hexadecimal representation of the node number.
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- "`hardware`" is the [hardware model](https://github.com/meshtastic/protobufs/blob/master/meshtastic/mesh.proto#L215) of the node sending the `NODEINFO_APP` message.
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- "`longname`" is the long name of the device that sent the `NODEINFO_APP` message.
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- "`shortname`" is the short name of the device that sent the `NODEINFO_APP` message.
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- "`sender`" is the user ID of the gateway device, which is in this case the same node that sent the `NODEINFO_APP` message (the hexadecimal value `7efeee00` represented by an integer in decimal is `2130636288`).
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- "`timestamp`" is the Unix Epoch when the message was received, represented as an integer in decimal.
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- "`to`" is the node number of the destination of the message. In this case, "-1" means it was a broadcast message (this is the decimal integer representation of `0xFFFFFFFF`).
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- "`type`" is the type of the message, in this case it was a `NODEINFO_APP` message.
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The `from` field can thus be used as a stable identifier for a specific node. Note that in firmware prior to 2.2.0, this is a signed value in JSON, while in firmware 2.2.0 and higher, the JSON values are unsigned.
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If the message received contains valid JSON in the payload, the JSON is deserialized and added as a JSON object rather than a string containing the serialized JSON.
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#### JSON downlink to instruct a node to send a message
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You can also send a JSON message to the topic `msh/2/json/mqtt/` to instruct a gateway node to send a message to the mesh. Note that the channel you publish it on **must** be called "mqtt". The JSON message should contain the following fields:
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```json
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{
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"from": <node number of MQTT node>,
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"to": <node number of recipient for a DM (optional)>,
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"channel": <channel index (optional)>,
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"type": "type",
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"payload": {
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"key":"value"
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...
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}
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}
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```
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`from` and `payload` fields are required for a valid envelope (note that in firmware <2.2.20 a field `sender` was required, but this is no longer the case). The `from` field should be equal to the node number of the node that will transmit the message. Optionally, you can specify a different channel than the primary channel by setting the `channel` field to a channel index (0-7). Furthermore, you can send a direct message by setting the `to` field to the node number of the destination. If the `to` field is not set, the message will be broadcast to all nodes on the mesh.
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Currently two types of messages are supported: `"sendtext"` and `"sendposition"`.
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For the type `sendtext`, the `payload` should be a string containing the text to send. For the type `sendposition`, the payload should be an object with the fields `latitude_i`, `longitude_i`, `altitude` (optional) and `time` (optional).
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### Basic Configuration
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Check out [MQTT Settings](/docs/configuration/module/mqtt) for full information. For quick start instructions, read on.
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- Connect your gateway node to wifi, by setting the `network.wifi_ssid`, `network.wifi_psk` and `network.wifi_enabled` preferences.
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- Alternatively use the RAK4631 with Ethernet Module RAK13800, by setting `network.eth_mode` and `network.eth_enabled` (note that JSON is not supported on the nRF52 platform).
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- Configure your broker settings: `mqtt.address`, `mqtt.username`, and `mqtt.password`. If all are left blank, the device will connect to the Meshtastic broker.
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- Set `uplink_enabled` and `downlink_enabled` as appropriate for each channel. Most users will just have a single channel (at channel index 0). `meshtastic --ch-index 0 --ch-set uplink_enabled true`
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`uplink_enabled` will tell the device to publish mesh packets to MQTT.
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`downlink_enabled` will tell the device to subscribe to MQTT, and forward any packets from there onto the mesh.
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### Gateway nodes
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Any meshtastic node that has a direct connection to the internet (either via a helper app or installed WiFi/4G/satellite hardware) can function as a "Gateway node".
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Gateway nodes (via code running in the phone) will contain two tables to whitelist particular traffic to either be delivered toward the internet, or down toward the mesh. Users that are developing custom apps will be able to customize these filters/subscriptions.
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Since multiple gateway nodes might be connected to a single mesh, it is possible that duplicate messages will be published on any particular topic. Therefore, subscribers to these topics should
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deduplicate if needed by using the packet ID of each message.
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### Optional web services
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#### Public MQTT broker service
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An existing public [MQTT broker](https://mosquitto.org) will be the default for this service, but clients can use any MQTT broker they choose.
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## Examples
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- [Using mosquitto on a mac](/docs/software/integrations/mqtt/mosquitto.mdx)
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- [Sending/receiving messages on mosquitto server using python](/docs/software/integrations/mqtt/python.mdx)
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- [Using MQTT with Node-RED](/docs/software/integrations/mqtt/nodered.mdx)
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- [Using MQTT with Home Assistant](/docs/software/integrations/mqtt/home-assistant.mdx)
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- [Using MQTT with Adafruit IO](/docs/software/integrations/mqtt/adafruit-io.mdx)
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