…
|
||
---|---|---|
.. | ||
boards | ||
src | ||
CMakeLists.txt | ||
README.rst | ||
microbit_gatt.conf | ||
prj.conf | ||
sample.yaml |
README.rst
.. zephyr:code-sample:: ble_mesh :name: Mesh :relevant-api: bt_mesh bluetooth Use basic Bluetooth LE Mesh functionality. Overview ******** This sample demonstrates Bluetooth Mesh functionality. It has several standard mesh models, and supports provisioning over both the Advertising and the GATT Provisioning Bearers (i.e. PB-ADV and PB-GATT). The application also needs a functioning serial console, since that's used for the Out-of-Band provisioning procedure. On boards with LEDs, a Generic OnOff Server model exposes functionality for controlling the first LED on the board over the mesh. On boards with buttons, a Generic OnOff Client model will send Onoff messages to all nodes in the network when the button is pressed. Requirements ************ * A board with Bluetooth LE support, or * QEMU with BlueZ running on the host Building and Running ******************** This sample can be found under :zephyr_file:`samples/bluetooth/mesh` in the Zephyr tree. See :ref:`bluetooth samples section <bluetooth-samples>` for details on how to run the sample inside QEMU. For other boards, build and flash the application as follows: .. zephyr-app-commands:: :zephyr-app: samples/bluetooth/mesh :board: <board> :goals: flash :compact: Refer to your :ref:`board's documentation <boards>` for alternative flash instructions if your board doesn't support the ``flash`` target. To run the application on an :ref:`nrf5340dk_nrf5340`, a Bluetooth controller application must also run on the network core. The :zephyr:code-sample:`bluetooth_hci_ipc` sample application may be used. Build this sample with configuration :zephyr_file:`samples/bluetooth/hci_ipc/nrf5340_cpunet_bt_mesh-bt_ll_sw_split.conf` to enable mesh support. Interacting with the sample *************************** The sample can either be provisioned into an existing mesh network with an external provisioner device, or self-provision through a button press. When provisioning with a provisioner device, the provisioner must give the device an Application key and bind it to both Generic OnOff models. When self-provisioning, the device will take a random unicast address and bind a dummy Application key to these models. Once provisioned, messages to the Generic OnOff Server will be used to turn the LED on or off, and button presses will be used to broadcast OnOff messages to all nodes in the same network.