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This is only available as a beta release under our early-access program. Reach out your Glamox sales representant if this is interesting

If needed, local API can be activated on your access point. After setting up your site, adopting access point and gateway(s) and importing devices, you can start using your local API.

Setting up local API

The local API is based on MQTT. MQTT use a broker to communicate on topics. In order to set up Glamox Connect local API you need to set up your broker, and pass the configuration to Glamox Connect.

After you have set up your broker, go to Settings → Site → Local API to enter the connection details.

image-20240126-124433.png

This will connect your access point to the provided broker and it will start to publish and listen to defined topics.

Topics

There are basically three different topic categories:

The <API id> is the name of the API created in Connect. You will find this in the list of created APIs.
Usually this is short for the name, ex. Tenant X will have API ID = tenantx

Discovery topic (config)

Topic where Connect can be asked to describe devices that are available. When a request is being made on <API id>/search Connect will respond publishing all devices on topic <API id>/<type>/<gateway-id>/<device-id>/config

State topics

As part of payload for discovered device (from discovery topic) is the state_topic for the device. When listening to this topic you will receive all updates for this device. The payload on this topic is only the delta, meaning that values that are NOT in the payload have unchanged value.

Let’s say you have a light where the state update is brightness: 100 and the next update is then color_temp: 400, the brightness is still 100.

Command topics

For devices who listen to commands you will also get a command_topic on which Connect will listen to commands sent to the device. This topic is part of the device’s config payload on the discovery topic. Changing an attributes value and sending it is as payload to this topic will relay a message to the device.

Device discovery and device types

There are different device types in Glamox Connect and each one of them has their own discovery topic. These are

  • light

  • sensor

  • binary_sensor

When a message has been sent to <API id>/search, Connect will return the devices on <API id>/<type>/<gateway-id>/<device-id>/config, for example <API id>/sensor/00201232ab45/100234abc35/config.

Devices and entities

So we have mentioned device types. Technically this is what we call entities. A device can have one or more entities. That means that one device in Glamox Connect can send more than one entity on the discovery topics.

As an example, most of the devices in our Glamox Wireless Zigbee system will send you a light (luminaire), a sensor (lux sensor) as well as a binary_sensor (occupancy sensor). To signal that this is the same device all entities will have their parent device in the config payload.

Discovery payload

The payload returned on a discovery topic is a config message, describing the entity of the device. ALL entities will give your system essential information on

  • unique ID’s

  • which device it is part of

  • which state_topic it will use to send its state updates. The client will need to listen to this topic to get updates for the entity

  • which command_topic it will use to send its state updates, if the entity can be controlled. The client will need to send command messages to this topic to be able to change values for the entity

  • Friendly name

In addition the entities have some fields that are specific for the entity

Light

  • The max value for brightness is given as brightness_scale. I.e. 100 means that the scale is 0-100

  • If the light has a color_mode this is given as ‘true’ as well as listing the level of control in supported_color_modes

    • brightness - only brightness control according to brightness_scale

    • color_temp - color_temp in mired and color_temp_kelvin as kelvin in addition to brightness

    • color - color control in addition to brightness and color_temp

  • If you can activate effects on the light, this is given as effect: ‘true’

  • The effect_list will (if effect) contain a list of effects the light can perform, i.e. ‘identify’ to blink the light

Light config payload (Example has “connect” as API ID):

state_topic: connect/light/001fee00000053a6/17880107102b0c/state
schema: json
unique_id: 17880107102b0c_light
object_id: 17880107102b0c_light
device:
  identifiers:
    - 17880107102b0c
  name: 17880107102b0c
  manufacturer: Glamox Connect API
  model: Wireless Zigbee
  suggested_area: mysitename
  via_device: 001fee00000053a6
command_topic: connect/light/001fee00000053a6/17880107102b0c/set
name: Light_17880107102b0c
brightness_scale: 100
color_mode: 'true'
brightness: 'true'
supported_color_modes:
  - brightness
effect: 'true'
effect_list:
  - identify
platform: mqtt

Sensor and binary sensor

  • The device_class will tell you which kind of sensor the entity is

    • illuminance

    • temperature

  • For sensors, the unit_of_measurement is provided to indicate how to interpret the state.

    • This is NOT available for binary sensors as they are always ‘ON’/'OFF'

  • A value_template is also included for the integrating system to know what the value field of this sensor is given as. In the example below the state will be reported as "lux": 480 in the json payload.

Sensor config payload (Example has “connect” as API ID):

state_topic: connect/sensor/001fee00000053a6/17880107102b0c/state
schema: json
unique_id: 17880107102b0c_illuminance
object_id: 17880107102b0c_illuminance
device:
  identifiers:
    - 17880107102b0c
  name: 17880107102b0c
  manufacturer: Glamox Connect API
  model: Wireless Zigbee
  suggested_area: glamoxmoldetest
  via_device: 001fee00000053a6
name: Sensor/Illuminance_17880107102b0c
device_class: illuminance
unit_of_measurement: lx
value_template: '{{ value_json.lux }}'
platform: mqtt

Binary_sensor config payload (Example has “connect” as API ID):

state_topic: connect/binary_sensor/001fee00000053a6/17880107102b0c/state
schema: json
unique_id: 17880107102b0c_occupancy
object_id: 17880107102b0c_occupancy
device:
  identifiers:
    - 17880107102b0c
  name: 17880107102b0c
  manufacturer: Glamox Connect API
  model: Wireless Zigbee
  suggested_area: glamoxmoldetest
  via_device: 001fee00000053a6
name: Sensor/Occupancy_17880107102b0c
value_template: '{{ value_json.presence }}'
device_class: occupancy
platform: mqtt

Listening for device updates

As mentioned earlier, each entity will provide their state_topic in the config payload. This means that in order to get the updates for the devices/entities you want, you need to listen to the topics provided.

When an update to a device occur, Glamox Connect will then send the delta on the given state topic. This means that you will NOT get the full state of the entity, only the change. Please note that even though it is the delta, it is possible to get multiple values in the same update

Example:
Given a state for a light as following

{
  "brightness": 100,
  "color_temp": 200,
  "color_temp_kelvin": 5000,
  "state": "ON"
}

If we change the brightness of the light in the example to 80%, the state update sent on the state_topic will be as following

{
  "brightness": 80
}

If a light has been turned on by changing the brightness from previous setting, the message will look something like this

{
  "brightness": 80,
  "state": "ON"
}

Similar for sensors, typical status updates will look like this

{
  "lux": 670
}
{
  "temperature": 25.1
}
{
  "presence": "ON"
}

Sending commands

If you want to send commands to a device, you will need to send it to the entity on the command_topic provided in the config payload.

Lets look at the previously given config payload for a light. In the config payload we have the following line

command_topic: connect/light/001fee00000053a6/17880107102b0c/set

In this example API ID = connect. This will be different for all APIs and full topic is provided in config payload

To change a value for this entity we need to send a valid json payload to the given topic

Turning the light off:

{
  "state": OFF
}

Changing brightness:

{
  "brightness": 80
}

Device health

We provide device health status for devices through the use of virtual binary sensors entities. These sensors act like any other binary sensors, but whose values are based on certain health states a device can hold.

Health state can be obtained through the state topic for the virtual sensors like for any other entity. Device classes used for these virtual sensors are off either "problem" or "connectivity" class and is used to give meaning to the “ON” / “OFF” values.

Virtual sensors entities for all devices

These virtual sensors are common for all devices:

Virtual sensor

Device class

Description

connectivity

connectivity

Indicates whether device is responding as expected.

“ON” means that the device is responding.

maintenance_fault

problem

Indicates if there is a maintenance issue with device.

“ON” means that there is a problem.

Virtual sensor entities only for emergency devices

For emergency devices, we offer the following additional virtual sensors in addition to the common virtual sensors:

Virtual sensor

Device class

Description

function_test_failure

problem

Indicates whether last function test failed or not

“ON” means that function test has failed.

duration_test_failure

problem

Indicates whether last duration test failed or not

“ON” means that the duration test has failed.

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