Unify Matter Bridge User's Guide#

The Unify Matter Bridge is a Unify IoT Service that enables interaction with Unify devices from a Matter fabric. For a more thorough description, see the Unify Matter Bridge Overview.

As a prerequisite for the Matter Bridge to work, at least one Unify protocol controller should be set up and running. This guide assumes that you have set up the Z-Wave Protocol Controller (uic-zpc) to run on a Raspberry Pi 4 and connected it to an MQTT broker in your network. Read the Unify Host SDK's Getting Started Guide for information on how to set this up.

Once a protocol controller is running, the Matter Bridge can be started.

The following documentation assumes that you have built the Unify Matter Bridge application by following the Build Guide and have transferred the unify-matter-bridge to your Raspberry Pi 4 (RPi4) running the 64-bit version of Raspberry Pi OS Bullseye.

Running the Matter Bridge#

At start-up, the Matter Bridge needs to connect to the Matter Fabric as well as the MQTT Broker. It is therefore critical that you have access to port 1883, the default MQTT Broker's port, as well as a network setup that allows mDNS through.

A few important runtime configurations must be considered, along with some other configuration options. A full list of command-line parameters is provided in the Command line arguments section.

Important Configuration Settings#

Network Interface#

Specify the network interface on which the Matter Fabric runs. In a regular RPi4 setup, it would be wlan0 for WiFi and eth0 for ethernet. Specify this with the --interface argument, as such:

./unify-matter-bridge --interface eth0

Key-Value store (KVS)#

The Matter Bridge uses a Key-Value store for persisting various run-time configurations. Be sure to have read/write access to the default path /var/chip_unify_bridge.kvs or provide the path to where writing this data is allowed. If this file is deleted before start-up, everything is reset and the bridge will not belong to any Matter Fabric until it has again been commissioned.

./unify-matter-bridge --kvs ./matter-bridge.kvs

MQTT Host#

If you have followed the Unify Host SDK's Getting Started Guide, your MQTT Broker should now be running on localhost. If you have decided to run the MQTT broker on a different host, you can tell the Unify Matter Bridge to connect to a different host.

./unify-matter-bridge --mqtt.host 10.0.0.42

Vendor and Product ID#

If you have access to the EAP and you want to use the Google Home app, you need to set a specific VID and PID for the Matter Bridge.

./unify-matter-bridge --vendor fff1 --product 8001

Starting the Matter Bridge#

After the configuration parameters are set, it is time to start the bridge application.

./unify-matter-bridge --interface eth0 --kvs ./matter-bridge.kvs --mqtt.host localhost --mqtt.port 1337

Commissioning the Bridge to a Network#

To include the bridge in the Matter network, it must first be commissioned. The first time the bridge starts, it will automatically go into commissioning mode. After 10 minutes, the bridge will exit commissioning mode. If the bridge has not been commissioned within this window, the application must be restarted to open the commissioning window again or the window can be opened by writing commission in the CLI when running the bridge. The commission command may also be used for multi-fabric commissioning.

The Unify Matter Bridge uses the "On Network" commissioning method. For now, there is no Bluetooth commissioning support.

The commissioning procedure requires use of a pairing code. This pairing code is written to the console when running the Matter Bridge. Look for something similar to MT:-24J029Q00KA0648G00, used as the pairing code in the following example. This code can be used when commissioning with the CLI commissioning tool chip-tool.

[1659615301.367669][1967:1967] CHIP:SVR: SetupQRCode: [MT:-24J029Q00KA0648G00]

Additionally, the pairing code will be published on the MQTT Broker on the topic ucl/SmartStart/CommissionableDevice/MT:-24J029Q00KA0648G00. The Unify Developer GUI has a page that displays the QR Codes of all commissionable bridges that are connected to the broker, ready to be scanned with a Google Home app or similar.

Another way to get the QR code is to look for a url in the console log similar to and copy the link into a browser. Note that two codes are printed at startup, one for Standard Commissioning flow and one for custom commissioning flow. Be sure to use the standard flow with Ecosystem devices.

[1659615301.367723][1967:1967] CHIP:SVR: https://dhrishi.github.io/connectedhomeip/qrcode.html?data=MT%3A-24J029Q00KA0648G00

It should be noted that the commissioner must be on the same network as the Raspberry Pi. Note that by default the bridge binds to the eth0 interface. If another interface is to be used, see the description of the command line arguments for setting Network Interface.

Using the chip-tool to Commission#

In the following procedure, be sure to use the pairing code taken from the console output, as described above. To commission the Matter Bridge with the chip-tool and assign the bridge the Node ID 1:

chip-tool pairing code 1 MT:-24J0AFN00KA0648G00

Using Google Nest Hub#

It is possible to use the Google Nest Hub (2nd. Gen) for controlling the Matter devices on the Unify Matter Bridge. Go through the following steps to configure this:

Prerequisites:

  • Android Phone, Android 12 or newer

  • Google Nest Hub, 2nd. Generation

Setup:

  • Create a Google Account or using an existing account.

  • Go to Google Developer Console.

    • Click Create a new project.

    • On the next page, click Create project and enter a unique project name.

    • Click + Add Matter integration.

      • Next: Develop

      • Next: Setup

      • Enter the following fields:

        • Product name of your choice

        • Device Type: Control Bridge

        • Test VID: default

        • Product ID (PID): 0x8001

      • Save & Continue

      • Save

  • On your Android phone:

    • Configure the phone to use the same Google account.

    • Install the Google Home app.

    • To add the Nest Hub:

      • Click "+" in the Google Home app.

      • Add new device and let the phone search for your hub over BT. Be sure the Next Hub is in reach.

    • To add the Matter Bridge to your Google Home (and Hub):

      • In the console of the Matter Bridge application running on the Raspberry Pi:

        • Hit Return, this should present Unify>.

        • Type commission. This will show SetupQRCode. Either click the link or in the Developer UI go to the "Commissionable Devices" page (note that a new QR code will be created whenever bridge is restarted, be sure to use the latest as identified in the output on the console).

      • In the Google Home app, tap "+".

        • Google Home should report "Matter-enabled device found".

        • If the bridge is not automatically found, a list of device types will be shown. Tap the "Matter-device" on the list.

        • Google Home will now ask for scanning the QR code. Scan the QR code as described above.

          • If Google Home is stuck during commissioning, type commission again in the Matter Bridge console while Google Home is waiting.

    • All supported Unify devices should now be available for control in both the Google Home app as well as the Google Nest Hub.

      • On the Nest Hub, swipe down from the top of the display or select "Home Control" to access the devices.

Toggle an OnOff device#

To send an OnOff cluster, toggle command to a bridged endpoint with id 2, via Matter Fabric Node ID 1:

chip-tool onoff toggle 1 2

For more information on how to use the chip-tool, see the chip-tool manual on the Matter website.

Toggle a Group of OnOff Devices#

The Matter Bridge has support for forwarding group messages from the Matter Fabric to Unify Nodes. The protocol controllers will send the group messages as actual group cast messages on the destination network (Z-Wave/Zigbee).

To send a group command, first set up the group keys in the bridge. This example assumes the bridge to be Node ID 1, and GroupKeySetID 42 is added to Group ID 1:

chip-tool accesscontrol write acl '[{"fabricIndex": 1, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null },{"fabricIndex": 1, "privilege": 4, "authMode": 3, "subjects": [1], "targets": null }]' 1 0
chip-tool groupkeymanagement key-set-write '{"groupKeySetID": 42, "groupKeySecurityPolicy": 0, "epochKey0": "d0d1d2d3d4d5d6d7d8d9dadbdcdddedf", "epochStartTime0": 2220000,"epochKey1": "d1d1d2d3d4d5d6d7d8d9dadbdcdddedf", "epochStartTime1": 2220001,"epochKey2": "d2d1d2d3d4d5d6d7d8d9dadbdcdddedf", "epochStartTime2": 2220002 }' 1 0
chip-tool groupkeymanagement write group-key-map '[{"groupId": 1, "groupKeySetID": 42, "fabricIndex": 1}]' 1 0

Next, add bridge endpoint 2 to Group ID 0x0001:

chip-tool groups add-group 0x0001 grp1 1 2

Next, program the chip-tool:

chip-tool groupsettings add-group grp1 0x0002
chip-tool groupsettings add-keysets 0x0042 0 0x000000000021dfe0 hex:d0d1d2d3d4d5d6d7d8d9dadbdcdddedf
chip-tool groupsettings bind-keyset 0x0001 0x0042

Finally, a multicast command may be sent using the chip-tool:

// Send actual multicast command
./chip-tool onoff toggle 0xffffffffffff0001 1

Running the Matter Bridge in Strict Device Mapping Mode#

By default, Unify Matter Bridge tries to map devices that do not necessarily conform to the Matter specification.

To enable a mode where Unify Matter Bridge strictly only maps devices from the Unify Controller Language protocol to the Matter protocol that complies with the Matter specification, you can run the bridge with the command line argument:

./unify-matter-bridge --strict_device_mapping true.

Command Line Arguments#

The Unify Matter Bridge provides the following command line arguments:

Using --help displays the following text.

Usage: ./unify_matter_bridge [Options]

Options:
  --conf arg (=/etc/uic/uic.cfg)        Config file in YAML format. UIC_CONF
                                        env variable can be set to override the
                                        default config file path
  --help                                Print this help message and quit
  --dump-config                         Dump the current configuration in a
                                        YAML config file format that can be
                                        passed to the --conf option
  --version                             Print version information and quit

The following options can also be in a config file. Options and values passed on the command line take precedence over the options and values in the config file.

 --log.level arg (=i)                  Log Level (d,i,w,e,c)
 --log.tag_level arg                   Tag-based log level
                                       Format: <tag>:<severity>,
                                       <tag>:<severity>, ...
 --interface arg (=en0)                Ethernet interface to use
 --kvs arg (=/var/chip_unify_bridge.kvs)
                                       Matter key value store path
 --vendor arg (=65521)                 Vendor ID
 --product arg (=32769)                Product ID
 --mqtt.host arg (=localhost)          MQTT broker hostname or IP
 --mqtt.port arg (=1883)               MQTT broker port
 --mqtt.cafile arg                     Path to file containing the PEM-encoded
                                       CA certificate to connect to Mosquitto
                                       MQTT broker for TLS encryption
 --mqtt.certfile arg                   Path to file containing the PEM-encoded
                                       client certificate to connect to
                                       Mosquitto MQTT broker for TLS
                                       encryption
 --mqtt.keyfile arg                    Path to a file containing the PEM-
                                       encoded unencrypted private key for
                                       this client
 --mqtt.client_id arg (=unify_matter_bridge_71460)
                                       Set the MQTT client ID of the
                                       application.

Running chip-tool Tests on Unify Matter Bridge Endpoints#

For example, OnOff Cluster chip-tool test Test_TC_OO_2_3 can be run on Unify Matter Bridge endpoint 2 for node 1 as follows.

./chip-tool tests Test_TC_OO_2_3 --nodeId 1 --endpoint 2 --delayInMs 1400

Mapping of Matter Endpoint to Unify Node IDs can be seen by giving "epmap" command to Unify matter bridge command prompt as follows:

Unify>epmap
Unify Unid |Unify Endpoint |Matter Endpoint
zw-CE7F3772-0008|         |         2

Note: Endpoint 0(Root) and Endpoint 1(Aggregator) are Bridge itself. They are not shown in the epmap. But these endpoints support some clusters as well. For example, Identify, where you might want to run chip-tool tests on those endpoints.

For further information on chip-tool tests, refer to the test suite's README.

Troubleshooting#

  • Time sensitive chip-tool tests might fail because of the latencies in Unify Matter Bridge. The --delayInMs <number of mili seconds> command line option to chip-tool can be helpful in such cases.

  • The Unify Matter Bridge needs to be commissioned to the Matter fabric before running the tests. Or you will see following message on the chip-tool tests.

***** Test Step 0 : 1: Wait for the commissioned device to be retrieved
  • To run all the tests without exiting on a failed one, --continueOnFailure true can be used.

  • Every cluster command sent by chip-tool can be seen on Unify Matter bridge as MQTT topic publish as follows:

For example, if chip-tool sends OnOff On command on zw-CE7F3772-0008 Unify end node(Matter Endpoint 2), then Unify Matter bridge publishes following MQTT payload and topic:

2023-Jan-30 10:36:43.803360 <d> [command_translator_interface] --- send_unify_mqtt_cmd ucl/by-unid/zw-CE7F3772-0008/ep0/OnOff/Commands/On -> {} ---

The above MQTT debug message can also be traced in Unify logs.

  • Every attribute read sent by chip-tool will only get correct value, if Unify Matter Bridge publishes MQTT payload and topic like following, before chip-tool sends the attribute read command.

For example, if chip-tool tries to read OnOff attribute of OnOff cluster on zw-CE7F3772-0008 Unify end node(Matter Endpoint 2), Unify Matter Bridge must have received following kind of MQTT message before the correct attribute value will be reflected in Unify Matter Bridge.

2023-Jan-30 10:36:44.515748 <d> [mqtt_client] mqtt_client::on_message: ucl/by-unid/zw-CE7F3772-0008/ep0/OnOff/Attributes/OnOff/Reported, {"value":true}, 0

The above MQTT debug messages can also be traced in Unify logs.

  • Alternatively, to disable a particular command or disable reading particular attributes from the test refer to PICS Usage from README.