2023-08-03 20:20:11 +08:00
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.. _develop_debug:
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Debugging
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#########
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.. _application_debugging:
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Application Debugging
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*********************
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This section is a quick hands-on reference to start debugging your
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application with QEMU. Most content in this section is already covered in
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`QEMU`_ and `GNU_Debugger`_ reference manuals.
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.. _QEMU: http://wiki.qemu.org/Main_Page
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.. _GNU_Debugger: http://www.gnu.org/software/gdb
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In this quick reference, you'll find shortcuts, specific environmental
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variables, and parameters that can help you to quickly set up your debugging
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environment.
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The simplest way to debug an application running in QEMU is using the GNU
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Debugger and setting a local GDB server in your development system through QEMU.
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You will need an :abbr:`ELF (Executable and Linkable Format)` binary image for
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debugging purposes. The build system generates the image in the build
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directory. By default, the kernel binary name is :file:`zephyr.elf`. The name
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can be changed using :kconfig:option:`CONFIG_KERNEL_BIN_NAME`.
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GDB server
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==========
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We will use the standard 1234 TCP port to open a :abbr:`GDB (GNU Debugger)`
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server instance. This port number can be changed for a port that best suits the
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development environment. There are multiple ways to do this. Each way starts a
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QEMU instance with the processor halted at startup and with a GDB server
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instance listening for a connection.
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Running QEMU directly
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~~~~~~~~~~~~~~~~~~~~~
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You can run QEMU to listen for a "gdb connection" before it starts executing any
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code to debug it.
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.. code-block:: bash
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qemu -s -S <image>
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will setup Qemu to listen on port 1234 and wait for a GDB connection to it.
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The options used above have the following meaning:
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* ``-S`` Do not start CPU at startup; rather, you must type 'c' in the
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monitor.
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* ``-s`` Shorthand for :literal:`-gdb tcp::1234`: open a GDB server on
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TCP port 1234.
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Running QEMU via :command:`ninja`
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Run the following inside the build directory of an application:
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.. code-block:: console
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ninja debugserver
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QEMU will write the console output to the path specified in
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:makevar:`${QEMU_PIPE}` via CMake, typically :file:`qemu-fifo` within the build
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directory. You may monitor this file during the run with :command:`tail -f
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qemu-fifo`.
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Running QEMU via :command:`west`
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Run the following from your project root:
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.. code-block:: console
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west build -t debugserver_qemu
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QEMU will write the console output to the terminal from which you invoked
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:command:`west`.
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Configuring the :command:`gdbserver` listening device
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The Kconfig option :kconfig:option:`CONFIG_QEMU_GDBSERVER_LISTEN_DEV` controls
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the listening device, which can be a TCP port number or a path to a character
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device. GDB releases 9.0 and newer also support Unix domain sockets.
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If the option is unset, then the QEMU invocation will lack a ``-s`` or a
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``-gdb`` parameter. You can then use the :envvar:`QEMU_EXTRA_FLAGS` shell
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environment variable to pass in your own listen device configuration.
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GDB client
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==========
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Connect to the server by running :command:`gdb` and giving these commands:
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.. code-block:: bash
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$ path/to/gdb path/to/zephyr.elf
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(gdb) target remote localhost:1234
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(gdb) dir ZEPHYR_BASE
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.. note::
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Substitute the correct :ref:`ZEPHYR_BASE <important-build-vars>` for your
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system.
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You can use a local GDB configuration :file:`.gdbinit` to initialize your GDB
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instance on every run. Your home directory is a typical location for
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:file:`.gdbinit`, but you can configure GDB to load from other locations,
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including the directory from which you invoked :command:`gdb`. This example
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file performs the same configuration as above:
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.. code-block:: none
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target remote localhost:1234
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dir ZEPHYR_BASE
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Alternate interfaces
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~~~~~~~~~~~~~~~~~~~~
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GDB provides a curses-based interface that runs in the terminal. Pass the ``--tui``
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option when invoking :command:`gdb` or give the ``tui enable`` command within
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:command:`gdb`.
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.. note::
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The GDB version on your development system might not support the ``--tui``
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option. Please make sure you use the GDB binary from the SDK which
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corresponds to the toolchain that has been used to build the binary.
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Finally, the command below connects to the GDB server using the :abbr:`DDD
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(Data Display Debugger)`, a graphical frontend for GDB. The following command
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loads the symbol table from the ELF binary file, in this instance,
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:file:`zephyr.elf`.
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.. code-block:: bash
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ddd --gdb --debugger "gdb zephyr.elf"
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Both commands execute :command:`gdb`. The command name might
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change depending on the toolchain you are using and your cross-development
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tools.
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:command:`ddd` may not be installed in your
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development system by default. Follow your system instructions to install
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it. For example, use :command:`sudo apt-get install ddd` on an Ubuntu system.
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Debugging
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=========
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As configured above, when you connect the GDB client, the application will be
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stopped at system startup. You may set breakpoints, step through code, etc. as
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when running the application directly within :command:`gdb`.
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.. note::
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:command:`gdb` will not print the system console output as the application runs,
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unlike when you run a native application in GDB directly. If you just
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:command:`continue` after connecting the client, the application will run,
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but nothing will appear to happen. Check the console output as described
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above.
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Debug with Eclipse
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******************
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Overview
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========
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CMake supports generating a project description file that can be imported into
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the Eclipse Integrated Development Environment (IDE) and used for graphical
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debugging.
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The `GNU MCU Eclipse plug-ins`_ provide a mechanism to debug ARM projects in
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Eclipse with pyOCD, Segger J-Link, and OpenOCD debugging tools.
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The following tutorial demonstrates how to debug a Zephyr application in
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Eclipse with pyOCD in Windows. It assumes you have already installed the GCC
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ARM Embedded toolchain and pyOCD.
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Set Up the Eclipse Development Environment
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==========================================
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#. Download and install `Eclipse IDE for C/C++ Developers`_.
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#. In Eclipse, install the `GNU MCU Eclipse plug-ins`_ by opening the menu
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``Window->Eclipse Marketplace...``, searching for ``GNU MCU Eclipse``, and
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clicking ``Install`` on the matching result.
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#. Configure the path to the pyOCD GDB server by opening the menu
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``Window->Preferences``, navigating to ``MCU``, and setting the ``Global
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pyOCD Path``.
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Generate and Import an Eclipse Project
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======================================
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#. Set up a GNU Arm Embedded toolchain as described in
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:ref:`toolchain_gnuarmemb`.
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#. Navigate to a folder outside of the Zephyr tree to build your application.
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.. code-block:: console
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# On Windows
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cd %userprofile%
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.. note::
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If the build directory is a subdirectory of the source directory, as is
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usually done in Zephyr, CMake will warn:
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"The build directory is a subdirectory of the source directory.
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This is not supported well by Eclipse. It is strongly recommended to use
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a build directory which is a sibling of the source directory."
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#. Configure your application with CMake and build it with ninja. Note the
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different CMake generator specified by the ``-G"Eclipse CDT4 - Ninja"``
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argument. This will generate an Eclipse project description file,
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:file:`.project`, in addition to the usual ninja build files.
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.. zephyr-app-commands::
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:tool: all
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2024-09-05 23:55:49 +08:00
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:zephyr-app: samples/synchronization
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2023-08-03 20:20:11 +08:00
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:host-os: win
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:board: frdm_k64f
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:gen-args: -G"Eclipse CDT4 - Ninja"
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:goals: build
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:compact:
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#. In Eclipse, import your generated project by opening the menu
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``File->Import...`` and selecting the option ``Existing Projects into
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Workspace``. Browse to your application build directory in the choice,
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``Select root directory:``. Check the box for your project in the list of
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projects found and click the ``Finish`` button.
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Create a Debugger Configuration
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===============================
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#. Open the menu ``Run->Debug Configurations...``.
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#. Select ``GDB PyOCD Debugging``, click the ``New`` button, and configure the
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following options:
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- In the Main tab:
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- Project: ``my_zephyr_app@build``
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- C/C++ Application: :file:`zephyr/zephyr.elf`
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- In the Debugger tab:
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- pyOCD Setup
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- Executable path: :file:`${pyocd_path}\\${pyocd_executable}`
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- Uncheck "Allocate console for semihosting"
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- Board Setup
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- Bus speed: 8000000 Hz
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- Uncheck "Enable semihosting"
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- GDB Client Setup
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- Executable path example (use your ``GNUARMEMB_TOOLCHAIN_PATH``):
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:file:`C:\\gcc-arm-none-eabi-6_2017-q2-update\\bin\\arm-none-eabi-gdb.exe`
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- In the SVD Path tab:
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- File path: :file:`<workspace
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top>\\modules\\hal\\nxp\\mcux\\devices\\MK64F12\\MK64F12.xml`
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.. note::
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This is optional. It provides the SoC's memory-mapped register
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addresses and bitfields to the debugger.
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#. Click the ``Debug`` button to start debugging.
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RTOS Awareness
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==============
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Support for Zephyr RTOS awareness is implemented in `pyOCD v0.11.0`_ and later.
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It is compatible with GDB PyOCD Debugging in Eclipse, but you must enable
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CONFIG_DEBUG_THREAD_INFO=y in your application.
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2023-08-03 20:40:22 +08:00
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Debugging I2C communication
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***************************
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There is a possibility to log all or some of the I2C transactions done by the application.
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This feature is enabled by the Kconfig option :kconfig:option:`CONFIG_I2C_DUMP_MESSAGES`, but it
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2024-09-11 01:51:57 +08:00
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uses the :c:macro:`LOG_DBG` function to print the contents so the
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:kconfig:option:`CONFIG_I2C_LOG_LEVEL_DBG` option must also be enabled.
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The sample output of the dump looks like this::
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D: I2C msg: io_i2c_ctrl7_port0, addr=50
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D: W len=01: 00
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D: R Sr P len=08:
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D: contents:
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D: 43 42 41 00 00 00 00 00 |CBA.....
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The first line indicates the I2C controller and the target address of the transaction.
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In above example, the I2C controller is named ``io_i2c_ctrl7_port0`` and the target device address
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is ``0x50``
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.. note::
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the address, length and contents values are in hexadecimal, but lack the ``0x`` prefix
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Next lines contain messages, both sent and received. The contents of write messages is
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always shown, while the content of read messages is controlled by a parameter to the
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function ``i2c_dump_msgs_rw``. This function is available for use by user, but is also
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called internally by ``i2c_transfer`` API function with read content dump enabled.
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Before the length parameter, the header of the message is printed using abbreviations:
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- W - write message
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- R - read message
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- Sr - restart bit
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- P - stop bit
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The above example shows one write message with byte ``0x00`` representing the address of register to
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read from the I2C target. After that the log shows the length of received message and following
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that, the bytes read from the target ``43 42 41 00 00 00 00 00``.
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The content dump consist of both the hex and ASCII representation.
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Filtering the I2C communication dump
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====================================
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By default, all I2C communication is logged between all I2C controllers and I2C targets.
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It may litter the log with unrelated devices and make it difficult to effectively debug the
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communication with a device of interest.
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Enable the Kconfig option :kconfig:option:`CONFIG_I2C_DUMP_MESSAGES_ALLOWLIST` to create an
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allowlist of I2C targets to log.
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The allowlist of devices is configured using the devicetree, for example::
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/ {
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i2c {
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display0: some-display@a {
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...
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};
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sensor3: some-sensor@b {
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...
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};
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};
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i2c-dump-allowlist {
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compatible = "zephyr,i2c-dump-allowlist";
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devices = < &display0 >, < &sensor3 >;
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};
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};
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The filters nodes are identified by the compatible string with ``zephyr,i2c-dump-allowlist`` value.
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The devices are selected using the ``devices`` property with phandles to the devices on the I2C bus.
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In the above example, the communication with device ``display0`` and ``sensor3`` will be displayed
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in the log.
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2023-08-03 20:20:11 +08:00
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.. _Eclipse IDE for C/C++ Developers: https://www.eclipse.org/downloads/packages/eclipse-ide-cc-developers/oxygen2
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.. _GNU MCU Eclipse plug-ins: https://gnu-mcu-eclipse.github.io/plugins/install/
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.. _pyOCD v0.11.0: https://github.com/mbedmicro/pyOCD/releases/tag/v0.11.0
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