examples/air-purifier-app/linux/README.md - third_party/github/project-chip/connectedhomeip - Git at Google

 # CHIP Linux Air Purifier Example

 An example showing the use of CHIP on the Linux. The document will describe how
 to build and run CHIP Air Purifier Example on A Linux System. This doc is tested
 on **Ubuntu 20.04 LTS**.

 The Air Purifier example demonstrates a fully functional Matter Air Purifier
 which is a composed device with Endpoint 1 being the Air Purifier. Endpoint 2 is
 an Air Quality Sensor, Endpoint 3 is a Relative Humidity Sensor, Endpoint 4 is a
 Temperature Sensor and Endpoint 5 is a Thermostat.

 To cross-compile this example on x64 host and run on **NXP i.MX 8M Mini**
 **EVK**, see the associated
 [README document](../../../docs/guides/nxp/nxp_imx8m_linux_examples.md) for
 details.

 <hr>

 -   [CHIP Linux Air Purifier Example](#chip-linux-air-purifier-example)
     -   [Building](#building)
     -   [Commandline arguments](#commandline-arguments)
     -   [Running the Complete Example on Raspberry Pi 4](#running-the-complete-example-on-raspberry-pi-4)

 <hr>

 ## Building

 -   Install tool chain

           $ sudo apt-get install git gcc g++ python pkg-config libssl-dev libdbus-1-dev libglib2.0-dev ninja-build python3-venv python3-dev unzip

 -   Build the example application:

           $ cd ~/connectedhomeip/examples/air-purifier-app/linux/
           $ git submodule update --init
           $ source third_party/connectedhomeip/scripts/activate.sh
           $ gn gen out/debug
           $ ninja -C out/debug

 -   To delete generated executable, libraries and object files use:

           $ cd ~/connectedhomeip/examples/air-purifier-app/linux/
           $ rm -rf out/

 ## Commandline arguments

 -   `--wifi`

     Enables WiFi management feature. Required for WiFi commissioning.

 -   `--thread`

     Enables Thread management feature, requires ot-br-posix dbus daemon running.
     Required for Thread commissioning.

 -   `--ble-device <interface id>`

     Use specific bluetooth interface for BLE advertisement and connections.

     `interface id`: the number after `hci` when listing BLE interfaces by
     `hciconfig` command, for example, `--ble-device 1` means using `hci1`
     interface. Default: `0`.

 ## Running the Complete Example on Raspberry Pi 4

 > If you want to test Echo protocol, please enable Echo handler
 >
 >     gn gen out/debug --args='chip_app_use_echo=true'
 >     ninja -C out/debug

 -   Prerequisites

     1. A Raspberry Pi 4 board
     2. A USB Bluetooth Dongle, Ubuntu desktop will send Bluetooth advertisement,
        which will block CHIP from connecting via BLE. On Ubuntu server, you need
        to install `pi-bluetooth` via APT.
     3. Ubuntu 20.04 or newer image for ARM64 platform.

 -   Building

     Follow [Building](#building) section of this document.

 -   Running

     -   [Optional] Plug USB Bluetooth dongle

         -   Plug USB Bluetooth dongle and find its bluetooth device number. The
             number after `hci` is the bluetooth device number, `1` in this
             example.

                   $ hciconfig
                   hci1:	Type: Primary  Bus: USB
                       BD Address: 00:1A:7D:AA:BB:CC  ACL MTU: 310:10  SCO MTU: 64:8
                       UP RUNNING PSCAN ISCAN
                       RX bytes:20942 acl:1023 sco:0 events:1140 errors:0
                       TX bytes:16559 acl:1011 sco:0 commands:121 errors:0

                   hci0:	Type: Primary  Bus: UART
                       BD Address: B8:27:EB:AA:BB:CC  ACL MTU: 1021:8  SCO MTU: 64:1
                       UP RUNNING PSCAN ISCAN
                       RX bytes:8609495 acl:14 sco:0 events:217484 errors:0
                       TX bytes:92185 acl:20 sco:0 commands:5259 errors:0

         -   Run Linux Air Purifier Example App

                   $ cd ~/connectedhomeip/examples/air-purifier-app/linux
                   $ sudo out/debug/chip-air-purifier-app --ble-device [bluetooth device number]
                   # In this example, the device we want to use is hci1
                   $ sudo out/debug/chip-air-purifier-app --ble-device 1

         -   Test the device using ChipTool on your laptop / workstation etc.
	# CHIP Linux Air Purifier Example

	An example showing the use of CHIP on the Linux. The document will describe how
	to build and run CHIP Air Purifier Example on A Linux System. This doc is tested
	on Ubuntu 20.04 LTS.

	The Air Purifier example demonstrates a fully functional Matter Air Purifier
	which is a composed device with Endpoint 1 being the Air Purifier. Endpoint 2 is
	an Air Quality Sensor, Endpoint 3 is a Relative Humidity Sensor, Endpoint 4 is a
	Temperature Sensor and Endpoint 5 is a Thermostat.

	To cross-compile this example on x64 host and run on NXP i.MX 8M Mini
	EVK, see the associated
	[README document](../../../docs/guides/nxp/nxp_imx8m_linux_examples.md) for
	details.

	<hr>

	- [CHIP Linux Air Purifier Example](#chip-linux-air-purifier-example)
	- [Building](#building)
	- [Commandline arguments](#commandline-arguments)
	- [Running the Complete Example on Raspberry Pi 4](#running-the-complete-example-on-raspberry-pi-4)

	<hr>

	## Building

	- Install tool chain

	$ sudo apt-get install git gcc g++ python pkg-config libssl-dev libdbus-1-dev libglib2.0-dev ninja-build python3-venv python3-dev unzip

	- Build the example application:

	$ cd ~/connectedhomeip/examples/air-purifier-app/linux/
	$ git submodule update --init
	$ source third_party/connectedhomeip/scripts/activate.sh
	$ gn gen out/debug
	$ ninja -C out/debug

	- To delete generated executable, libraries and object files use:

	$ cd ~/connectedhomeip/examples/air-purifier-app/linux/
	$ rm -rf out/

	## Commandline arguments

	- `--wifi`

	Enables WiFi management feature. Required for WiFi commissioning.

	- `--thread`

	Enables Thread management feature, requires ot-br-posix dbus daemon running.
	Required for Thread commissioning.

	- `--ble-device <interface id>`

	Use specific bluetooth interface for BLE advertisement and connections.

	`interface id`: the number after `hci` when listing BLE interfaces by
	`hciconfig` command, for example, `--ble-device 1` means using `hci1`
	interface. Default: `0`.

	## Running the Complete Example on Raspberry Pi 4

	> If you want to test Echo protocol, please enable Echo handler
	>
	> gn gen out/debug --args='chip_app_use_echo=true'
	> ninja -C out/debug

	- Prerequisites

	1. A Raspberry Pi 4 board
	2. A USB Bluetooth Dongle, Ubuntu desktop will send Bluetooth advertisement,
	which will block CHIP from connecting via BLE. On Ubuntu server, you need
	to install `pi-bluetooth` via APT.
	3. Ubuntu 20.04 or newer image for ARM64 platform.

	- Building

	Follow [Building](#building) section of this document.

	- Running

	- [Optional] Plug USB Bluetooth dongle

	- Plug USB Bluetooth dongle and find its bluetooth device number. The
	number after `hci` is the bluetooth device number, `1` in this
	example.

	$ hciconfig
	hci1: Type: Primary Bus: USB
	BD Address: 00:1A:7D:AA:BB:CC ACL MTU: 310:10 SCO MTU: 64:8
	UP RUNNING PSCAN ISCAN
	RX bytes:20942 acl:1023 sco:0 events:1140 errors:0
	TX bytes:16559 acl:1011 sco:0 commands:121 errors:0

	hci0: Type: Primary Bus: UART
	BD Address: B8:27:EB:AA:BB:CC ACL MTU: 1021:8 SCO MTU: 64:1
	UP RUNNING PSCAN ISCAN
	RX bytes:8609495 acl:14 sco:0 events:217484 errors:0
	TX bytes:92185 acl:20 sco:0 commands:5259 errors:0

	- Run Linux Air Purifier Example App

	$ cd ~/connectedhomeip/examples/air-purifier-app/linux
	$ sudo out/debug/chip-air-purifier-app --ble-device [bluetooth device number]
	# In this example, the device we want to use is hci1
	$ sudo out/debug/chip-air-purifier-app --ble-device 1

	- Test the device using ChipTool on your laptop / workstation etc.