.. _bluetooth-tools: Bluetooth tools ############### This page lists and describes tools that can be used to assist during Bluetooth stack or application development in order to help, simplify and speed up the development process. .. _bluetooth-mobile-apps: Mobile applications ******************* It is often useful to make use of existing mobile applications to interact with hardware running Zephyr, to test functionality without having to write any additional code or requiring extra hardware. The recommended mobile applications for interacting with Zephyr are: * Android: * `nRF Connect for Android`_ * `nRF Mesh for Android`_ * `LightBlue for Android`_ * iOS: * `nRF Connect for iOS`_ * `nRF Mesh for iOS`_ * `LightBlue for iOS`_ .. _bluetooth_bluez: Using BlueZ with Zephyr *********************** The Linux Bluetooth Protocol Stack, BlueZ, comes with a very useful set of tools that can be used to debug and interact with Zephyr's BLE Host and Controller. In order to benefit from these tools you will need to make sure that you are running a recent version of the Linux Kernel and BlueZ: * Linux Kernel 4.10+ * BlueZ 4.45+ Additionally, some of the BlueZ tools might not be bundled by default by your Linux distribution. If you need to build BlueZ from scratch to update to a recent version or to obtain all of its tools you can follow the steps below: .. code-block:: console git clone git://git.kernel.org/pub/scm/bluetooth/bluez.git cd bluez ./bootstrap-configure --disable-android --disable-midi make You can then find :file:`btattach`, :file:`btmgt` and :file:`btproxy` in the :file:`tools/` folder and :file:`btmon` in the :file:`monitor/` folder. You'll need to enable BlueZ's experimental features so you can access its most recent BLE functionality. Do this by editing the file :file:`/lib/systemd/system/bluetooth.service` and making sure to include the :literal:`-E` option in the daemon's execution start line: .. code-block:: console ExecStart=/usr/libexec/bluetooth/bluetoothd -E Finally, reload and restart the daemon: .. code-block:: console sudo systemctl daemon-reload sudo systemctl restart bluetooth .. _bluetooth_qemu_native: Running on QEMU or native_sim ***************************** It's possible to run Bluetooth applications using either the :ref:`QEMU emulator` or :ref:`native_sim `. In either case, a Bluetooth controller needs to be exported from the host OS (Linux) to the emulator. For this purpose you will need some tools described in the :ref:`bluetooth_bluez` section. Using the Host System Bluetooth Controller ========================================== The host OS's Bluetooth controller is connected in the following manner: * To the second QEMU serial line using a UNIX socket. This socket gets used with the help of the QEMU option :literal:`-serial unix:/tmp/bt-server-bredr`. This option gets passed to QEMU through :makevar:`QEMU_EXTRA_FLAGS` automatically whenever an application has enabled Bluetooth support. * To :ref:`native_sim's BT User Channel driver ` through the use of a command-line option passed to the native_sim executable: ``--bt-dev=hci0`` On the host side, BlueZ allows you to export its Bluetooth controller through a so-called user channel for QEMU and :ref:`native_sim ` to use. .. note:: You only need to run ``btproxy`` when using QEMU. native_sim handles the UNIX socket proxying automatically If you are using QEMU, in order to make the Controller available you will need one additional step using ``btproxy``: #. Make sure that the Bluetooth controller is down #. Use the btproxy tool to open the listening UNIX socket, type: .. code-block:: console sudo tools/btproxy -u -i 0 Listening on /tmp/bt-server-bredr You might need to replace :literal:`-i 0` with the index of the Controller you wish to proxy. If you see ``Received unknown host packet type 0x00`` when running QEMU, then add :literal:`-z` to the ``btproxy`` command line to ignore any null bytes transmitted at startup. Once the hardware is connected and ready to use, you can then proceed to building and running a sample: * Choose one of the Bluetooth sample applications located in :literal:`samples/bluetooth`. * To run a Bluetooth application in QEMU, type: .. zephyr-app-commands:: :zephyr-app: samples/bluetooth/ :host-os: unix :board: qemu_x86 :goals: run :compact: Running QEMU now results in a connection with the second serial line to the :literal:`bt-server-bredr` UNIX socket, letting the application access the Bluetooth controller. * To run a Bluetooth application in :ref:`native_sim `, first build it: .. zephyr-app-commands:: :zephyr-app: samples/bluetooth/ :host-os: unix :board: native_sim :goals: build :compact: And then run it with:: $ sudo ./build/zephyr/zephyr.exe --bt-dev=hci0 Using a Zephyr-based BLE Controller =================================== Depending on which hardware you have available, you can choose between two transports when building a single-mode, Zephyr-based BLE Controller: * UART: Use the :ref:`hci_uart ` sample and follow the instructions in :ref:`bluetooth-hci-uart-qemu-posix`. * USB: Use the :ref:`hci_usb ` sample and then treat it as a Host System Bluetooth Controller (see previous section) HCI Tracing =========== When running the Host on a computer connected to an external Controller, it is very useful to be able to see the full log of exchanges between the two, in the format of a :ref:`bluetooth-hci` log. In order to see those logs, you can use the built-in ``btmon`` tool from BlueZ: .. code-block:: console $ btmon .. _bluetooth_virtual_posix: Running on a Virtual Controller and native_sim ********************************************** An alternative to a Bluetooth physical controller is the use of a virtual controller. This controller can be connected over an HCI TCP server. This TCP server must support the HCI H4 protocol. In comparison to the physical controller variant, the virtual controller allows to test a Zephyr application running on the native boards without a physical Bluetooth controller. The main use case for a virtual controller is to do Bluetooth connectivity tests without the need of Bluetooth hardware. This allows to automate Bluetooth integration tests with external applications such as a Bluetooth gateway or a mobile application. To demonstrate this functionality an example is given to interact with a virtual controller. For this purpose, the experimental python module `Bumble`_ from Google is used as it allows to create a TCP Bluetooth virtual controller and connect with the Zephyr Bluetooth host. To install bumble follow the `Bumble Getting Started Guide`_. .. note:: If your Zephyr application requires the use of the HCI LE Set extended commands, install the branch ``controller-extended-advertising`` from Bumble. Android Emulator ================= You can test the virtual controller by connecting a Bluetooth Zephyr application to the `Android Emulator`_. To connect your application to the Android Emulator follow the next steps: #. Build your Zephyr application and disable the HCI ACL flow control (i.e. ``CONFIG_BT_HCI_ACL_FLOW_CONTROL=n``) as the virtual controller from android does not support it at the moment. #. Install Android Emulator version >= 33.1.4.0. The easiest way to do this is by installing the latest `Android Studio Preview`_ version. #. Create a new Android Virtual Device (AVD) with the `Android Device Manager`_. The AVD should use at least SDK API 34. #. Run the Android Emulator via terminal as follows: ``emulator avd YOUR_AVD -packet-streamer-endpoint default`` #. Create a Bluetooth bridge between the Zephyr application and the virtual controller from Android Emulator with the `Bumble`_ utility ``hci-bridge``. ``bumble-hci-bridge tcp-server:_:1234 android-netsim`` This command will create a TCP server bridge on the local host IP address ``127.0.0.1`` and port number ``1234``. #. Run the Zephyr application and connect to the TCP server created in the last step. ``./zephyr.exe --bt-dev=127.0.0.1:1234`` After following these steps the Zephyr application will be available to the Android Emulator over the virtual Bluetooth controller that was bridged with Bumble. You can verify that the Zephyr application can communicate over Bluetooth by opening the Bluetooth settings in your AVD and scanning for your Zephyr application device. To test this you can build the Bluetooth peripheral samples such as :ref:`Peripheral HR ` or :ref:`Peripheral DIS ` .. _bluetooth_ctlr_bluez: Using Zephyr-based Controllers with BlueZ ***************************************** If you want to test a Zephyr-powered BLE Controller using BlueZ's Bluetooth Host, you will need a few tools described in the :ref:`bluetooth_bluez` section. Once you have installed the tools you can then use them to interact with your Zephyr-based controller: .. code-block:: console sudo tools/btmgmt --index 0 [hci0]# auto-power [hci0]# find -l You might need to replace :literal:`--index 0` with the index of the Controller you wish to manage. Additional information about :file:`btmgmt` can be found in its manual pages. .. _nRF Connect for Android: https://play.google.com/store/apps/details?id=no.nordicsemi.android.mcp&hl=en .. _nRF Connect for iOS: https://itunes.apple.com/us/app/nrf-connect/id1054362403 .. _LightBlue for Android: https://play.google.com/store/apps/details?id=com.punchthrough.lightblueexplorer&hl=en_US .. _LightBlue for iOS: https://itunes.apple.com/us/app/lightblue-explorer/id557428110 .. _nRF Mesh for Android: https://play.google.com/store/apps/details?id=no.nordicsemi.android.nrfmeshprovisioner&hl=en .. _nRF Mesh for iOS: https://itunes.apple.com/us/app/nrf-mesh/id1380726771 .. _Bumble: https://github.com/google/bumble .. _Bumble Getting Started Guide: https://google.github.io/bumble/getting_started.html .. _Android Emulator: https://developer.android.com/studio/run/emulator .. _Android Device Manager: https://developer.android.com/studio/run/managing-avds .. _Android Studio Preview: https://developer.android.com/studio/preview