| .. SPDX-License-Identifier: CC-BY-SA-2.0-UK |
| |
| ************ |
| Common Tasks |
| ************ |
| |
| This chapter presents several common tasks you perform when you work |
| with the Yocto Project Linux kernel. These tasks include preparing your |
| host development system for kernel development, preparing a layer, |
| modifying an existing recipe, patching the kernel, configuring the |
| kernel, iterative development, working with your own sources, and |
| incorporating out-of-tree modules. |
| |
| .. note:: |
| |
| The examples presented in this chapter work with the Yocto Project |
| 2.4 Release and forward. |
| |
| Preparing the Build Host to Work on the Kernel |
| ============================================== |
| |
| Before you can do any kernel development, you need to be sure your build |
| host is set up to use the Yocto Project. For information on how to get |
| set up, see the ":doc:`../dev-manual/dev-manual-start`" section in |
| the Yocto Project Development Tasks Manual. Part of preparing the system |
| is creating a local Git repository of the |
| :term:`Source Directory` (``poky``) on your system. Follow the steps in the |
| ":ref:`dev-manual/dev-manual-start:cloning the \`\`poky\`\` repository`" |
| section in the Yocto Project Development Tasks Manual to set up your |
| Source Directory. |
| |
| .. note:: |
| |
| Be sure you check out the appropriate development branch or you |
| create your local branch by checking out a specific tag to get the |
| desired version of Yocto Project. See the " |
| Checking Out by Branch in Poky |
| " and " |
| Checking Out by Tag in Poky |
| " sections in the Yocto Project Development Tasks Manual for more |
| information. |
| |
| Kernel development is best accomplished using |
| :ref:`devtool <sdk-manual/sdk-extensible:using \`\`devtool\`\` in your sdk workflow>` |
| and not through traditional kernel workflow methods. The remainder of |
| this section provides information for both scenarios. |
| |
| Getting Ready to Develop Using ``devtool`` |
| ------------------------------------------ |
| |
| Follow these steps to prepare to update the kernel image using |
| ``devtool``. Completing this procedure leaves you with a clean kernel |
| image and ready to make modifications as described in the " |
| :ref:`kernel-dev/kernel-dev-common:using \`\`devtool\`\` to patch the kernel`" |
| section: |
| |
| 1. *Initialize the BitBake Environment:* Before building an extensible |
| SDK, you need to initialize the BitBake build environment by sourcing |
| the build environment script (i.e. :ref:`structure-core-script`): |
| :: |
| |
| $ cd ~/poky |
| $ source oe-init-build-env |
| |
| .. note:: |
| |
| The previous commands assume the |
| Source Repositories |
| (i.e. |
| poky |
| ) have been cloned using Git and the local repository is named |
| "poky". |
| |
| 2. *Prepare Your local.conf File:* By default, the |
| :term:`MACHINE` variable is set to |
| "qemux86-64", which is fine if you are building for the QEMU emulator |
| in 64-bit mode. However, if you are not, you need to set the |
| ``MACHINE`` variable appropriately in your ``conf/local.conf`` file |
| found in the |
| :term:`Build Directory` (i.e. |
| ``~/poky/build`` in this example). |
| |
| Also, since you are preparing to work on the kernel image, you need |
| to set the |
| :term:`MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS` |
| variable to include kernel modules. |
| |
| In this example we wish to build for qemux86 so we must set the |
| ``MACHINE`` variable to "qemux86" and also add the "kernel-modules". |
| As described we do this by appending to ``conf/local.conf``: |
| :: |
| |
| MACHINE = "qemux86" |
| MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS += "kernel-modules" |
| |
| 3. *Create a Layer for Patches:* You need to create a layer to hold |
| patches created for the kernel image. You can use the |
| ``bitbake-layers create-layer`` command as follows: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake-layers create-layer ../../meta-mylayer |
| NOTE: Starting bitbake server... |
| Add your new layer with 'bitbake-layers add-layer ../../meta-mylayer' |
| $ |
| |
| .. note:: |
| |
| For background information on working with common and BSP layers, |
| see the " |
| Understanding and Creating Layers |
| " section in the Yocto Project Development Tasks Manual and the " |
| BSP Layers |
| " section in the Yocto Project Board Support (BSP) Developer's |
| Guide, respectively. For information on how to use the |
| bitbake-layers create-layer |
| command to quickly set up a layer, see the " |
| Creating a General Layer Using the |
| bitbake-layers |
| Script |
| " section in the Yocto Project Development Tasks Manual. |
| |
| 4. *Inform the BitBake Build Environment About Your Layer:* As directed |
| when you created your layer, you need to add the layer to the |
| :term:`BBLAYERS` variable in the |
| ``bblayers.conf`` file as follows: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake-layers add-layer ../../meta-mylayer |
| NOTE: Starting bitbake server... |
| $ |
| |
| 5. *Build the Extensible SDK:* Use BitBake to build the extensible SDK |
| specifically for use with images to be run using QEMU: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake core-image-minimal -c populate_sdk_ext |
| |
| Once |
| the build finishes, you can find the SDK installer file (i.e. |
| ``*.sh`` file) in the following directory: |
| ~/poky/build/tmp/deploy/sdk For this example, the installer file is |
| named |
| ``poky-glibc-x86_64-core-image-minimal-i586-toolchain-ext-DISTRO.sh`` |
| |
| 6. *Install the Extensible SDK:* Use the following command to install |
| the SDK. For this example, install the SDK in the default |
| ``~/poky_sdk`` directory: |
| :: |
| |
| $ cd ~/poky/build/tmp/deploy/sdk |
| $ ./poky-glibc-x86_64-core-image-minimal-i586-toolchain-ext-3.1.2.sh |
| Poky (Yocto Project Reference Distro) Extensible SDK installer version 3.1.2 |
| ============================================================================ |
| Enter target directory for SDK (default: ~/poky_sdk): |
| You are about to install the SDK to "/home/scottrif/poky_sdk". Proceed [Y/n]? Y |
| Extracting SDK......................................done |
| Setting it up... |
| Extracting buildtools... |
| Preparing build system... |
| Parsing recipes: 100% |#################################################################| Time: 0:00:52 |
| Initializing tasks: 100% |############## ###############################################| Time: 0:00:04 |
| Checking sstate mirror object availability: 100% |######################################| Time: 0:00:00 |
| Parsing recipes: 100% |#################################################################| Time: 0:00:33 |
| Initializing tasks: 100% |##############################################################| Time: 0:00:00 |
| done |
| SDK has been successfully set up and is ready to be used. |
| Each time you wish to use the SDK in a new shell session, you need to source the environment setup script e.g. |
| $ . /home/scottrif/poky_sdk/environment-setup-i586-poky-linux |
| |
| |
| 7. *Set Up a New Terminal to Work With the Extensible SDK:* You must set |
| up a new terminal to work with the SDK. You cannot use the same |
| BitBake shell used to build the installer. |
| |
| After opening a new shell, run the SDK environment setup script as |
| directed by the output from installing the SDK: |
| :: |
| |
| $ source ~/poky_sdk/environment-setup-i586-poky-linux |
| "SDK environment now set up; additionally you may now run devtool to perform development tasks. |
| Run devtool --help for further details. |
| |
| .. note:: |
| |
| If you get a warning about attempting to use the extensible SDK in |
| an environment set up to run BitBake, you did not use a new shell. |
| |
| 8. *Build the Clean Image:* The final step in preparing to work on the |
| kernel is to build an initial image using ``devtool`` in the new |
| terminal you just set up and initialized for SDK work: |
| :: |
| |
| $ devtool build-image |
| Parsing recipes: 100% |##########################################| Time: 0:00:05 |
| Parsing of 830 .bb files complete (0 cached, 830 parsed). 1299 targets, 47 skipped, 0 masked, 0 errors. |
| WARNING: No packages to add, building image core-image-minimal unmodified |
| Loading cache: 100% |############################################| Time: 0:00:00 |
| Loaded 1299 entries from dependency cache. |
| NOTE: Resolving any missing task queue dependencies |
| Initializing tasks: 100% |#######################################| Time: 0:00:07 |
| Checking sstate mirror object availability: 100% |###############| Time: 0:00:00 |
| NOTE: Executing SetScene Tasks |
| NOTE: Executing RunQueue Tasks |
| NOTE: Tasks Summary: Attempted 2866 tasks of which 2604 didn't need to be rerun and all succeeded. |
| NOTE: Successfully built core-image-minimal. You can find output files in /home/scottrif/poky_sdk/tmp/deploy/images/qemux86 |
| |
| If you were |
| building for actual hardware and not for emulation, you could flash |
| the image to a USB stick on ``/dev/sdd`` and boot your device. For an |
| example that uses a Minnowboard, see the |
| `TipsAndTricks/KernelDevelopmentWithEsdk <https://wiki.yoctoproject.org/wiki/TipsAndTricks/KernelDevelopmentWithEsdk>`__ |
| Wiki page. |
| |
| At this point you have set up to start making modifications to the |
| kernel by using the extensible SDK. For a continued example, see the |
| ":ref:`kernel-dev/kernel-dev-common:using \`\`devtool\`\` to patch the kernel`" |
| section. |
| |
| Getting Ready for Traditional Kernel Development |
| ------------------------------------------------ |
| |
| Getting ready for traditional kernel development using the Yocto Project |
| involves many of the same steps as described in the previous section. |
| However, you need to establish a local copy of the kernel source since |
| you will be editing these files. |
| |
| Follow these steps to prepare to update the kernel image using |
| traditional kernel development flow with the Yocto Project. Completing |
| this procedure leaves you ready to make modifications to the kernel |
| source as described in the ":ref:`kernel-dev/kernel-dev-common:using traditional kernel development to patch the kernel`" |
| section: |
| |
| 1. *Initialize the BitBake Environment:* Before you can do anything |
| using BitBake, you need to initialize the BitBake build environment |
| by sourcing the build environment script (i.e. |
| :ref:`structure-core-script`). |
| Also, for this example, be sure that the local branch you have |
| checked out for ``poky`` is the Yocto Project &DISTRO_NAME; branch. If |
| you need to checkout out the &DISTRO_NAME; branch, see the |
| ":ref:`dev-manual/dev-manual-start:checking out by branch in poky`" |
| section in the Yocto Project Development Tasks Manual. |
| :: |
| |
| $ cd ~/poky |
| $ git branch |
| master |
| * &DISTRO_NAME; |
| $ source oe-init-build-env |
| |
| .. note:: |
| |
| The previous commands assume the |
| Source Repositories |
| (i.e. |
| poky |
| ) have been cloned using Git and the local repository is named |
| "poky". |
| |
| 2. *Prepare Your local.conf File:* By default, the |
| :term:`MACHINE` variable is set to |
| "qemux86-64", which is fine if you are building for the QEMU emulator |
| in 64-bit mode. However, if you are not, you need to set the |
| ``MACHINE`` variable appropriately in your ``conf/local.conf`` file |
| found in the |
| :term:`Build Directory` (i.e. |
| ``~/poky/build`` in this example). |
| |
| Also, since you are preparing to work on the kernel image, you need |
| to set the |
| :term:`MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS` |
| variable to include kernel modules. |
| |
| In this example we wish to build for qemux86 so we must set the |
| ``MACHINE`` variable to "qemux86" and also add the "kernel-modules". |
| As described we do this by appending to ``conf/local.conf``: |
| :: |
| |
| MACHINE = "qemux86" |
| MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS += "kernel-modules" |
| |
| 3. *Create a Layer for Patches:* You need to create a layer to hold |
| patches created for the kernel image. You can use the |
| ``bitbake-layers create-layer`` command as follows: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake-layers create-layer ../../meta-mylayer |
| NOTE: Starting bitbake server... |
| Add your new layer with 'bitbake-layers add-layer ../../meta-mylayer' |
| |
| .. note:: |
| |
| For background information on working with common and BSP layers, |
| see the " |
| Understanding and Creating Layers |
| " section in the Yocto Project Development Tasks Manual and the " |
| BSP Layers |
| " section in the Yocto Project Board Support (BSP) Developer's |
| Guide, respectively. For information on how to use the |
| bitbake-layers create-layer |
| command to quickly set up a layer, see the " |
| Creating a General Layer Using the |
| bitbake-layers |
| Script |
| " section in the Yocto Project Development Tasks Manual. |
| |
| 4. *Inform the BitBake Build Environment About Your Layer:* As directed |
| when you created your layer, you need to add the layer to the |
| :term:`BBLAYERS` variable in the |
| ``bblayers.conf`` file as follows: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake-layers add-layer ../../meta-mylayer |
| NOTE: Starting bitbake server ... |
| $ |
| |
| 5. *Create a Local Copy of the Kernel Git Repository:* You can find Git |
| repositories of supported Yocto Project kernels organized under |
| "Yocto Linux Kernel" in the Yocto Project Source Repositories at |
| :yocto_git:`/`. |
| |
| For simplicity, it is recommended that you create your copy of the |
| kernel Git repository outside of the |
| :term:`Source Directory`, which is |
| usually named ``poky``. Also, be sure you are in the |
| ``standard/base`` branch. |
| |
| The following commands show how to create a local copy of the |
| ``linux-yocto-4.12`` kernel and be in the ``standard/base`` branch. |
| |
| .. note:: |
| |
| The |
| linux-yocto-4.12 |
| kernel can be used with the Yocto Project 2.4 release and forward. |
| You cannot use the |
| linux-yocto-4.12 |
| kernel with releases prior to Yocto Project 2.4: |
| |
| :: |
| |
| $ cd ~ |
| $ git clone git://git.yoctoproject.org/linux-yocto-4.12 --branch standard/base |
| Cloning into 'linux-yocto-4.12'... |
| remote: Counting objects: 6097195, done. |
| remote: Compressing objects: 100% (901026/901026), done. |
| remote: Total 6097195 (delta 5152604), reused 6096847 (delta 5152256) |
| Receiving objects: 100% (6097195/6097195), 1.24 GiB | 7.81 MiB/s, done. |
| Resolving deltas: 100% (5152604/5152604), done. Checking connectivity... done. |
| Checking out files: 100% (59846/59846), done. |
| |
| 6. *Create a Local Copy of the Kernel Cache Git Repository:* For |
| simplicity, it is recommended that you create your copy of the kernel |
| cache Git repository outside of the |
| :term:`Source Directory`, which is |
| usually named ``poky``. Also, for this example, be sure you are in |
| the ``yocto-4.12`` branch. |
| |
| The following commands show how to create a local copy of the |
| ``yocto-kernel-cache`` and be in the ``yocto-4.12`` branch: |
| :: |
| |
| $ cd ~ |
| $ git clone git://git.yoctoproject.org/yocto-kernel-cache --branch yocto-4.12 |
| Cloning into 'yocto-kernel-cache'... |
| remote: Counting objects: 22639, done. |
| remote: Compressing objects: 100% (9761/9761), done. |
| remote: Total 22639 (delta 12400), reused 22586 (delta 12347) |
| Receiving objects: 100% (22639/22639), 22.34 MiB | 6.27 MiB/s, done. |
| Resolving deltas: 100% (12400/12400), done. |
| Checking connectivity... done. |
| |
| At this point, you are ready to start making modifications to the kernel |
| using traditional kernel development steps. For a continued example, see |
| the "`Using Traditional Kernel Development to Patch the |
| Kernel <#using-traditional-kernel-development-to-patch-the-kernel>`__" |
| section. |
| |
| Creating and Preparing a Layer |
| ============================== |
| |
| If you are going to be modifying kernel recipes, it is recommended that |
| you create and prepare your own layer in which to do your work. Your |
| layer contains its own :term:`BitBake` |
| append files (``.bbappend``) and provides a convenient mechanism to |
| create your own recipe files (``.bb``) as well as store and use kernel |
| patch files. For background information on working with layers, see the |
| ":ref:`dev-manual/dev-manual-common-tasks:understanding and creating layers`" |
| section in the Yocto Project Development Tasks Manual. |
| |
| .. note:: |
| |
| The Yocto Project comes with many tools that simplify tasks you need |
| to perform. One such tool is the |
| bitbake-layers create-layer |
| command, which simplifies creating a new layer. See the " |
| Creating a General Layer Using the |
| bitbake-layers |
| Script |
| " section in the Yocto Project Development Tasks Manual for |
| information on how to use this script to quick set up a new layer. |
| |
| To better understand the layer you create for kernel development, the |
| following section describes how to create a layer without the aid of |
| tools. These steps assume creation of a layer named ``mylayer`` in your |
| home directory: |
| |
| 1. *Create Structure*: Create the layer's structure: |
| :: |
| |
| $ cd $HOME |
| $ mkdir meta-mylayer |
| $ mkdir meta-mylayer/conf |
| $ mkdir meta-mylayer/recipes-kernel |
| $ mkdir meta-mylayer/recipes-kernel/linux |
| $ mkdir meta-mylayer/recipes-kernel/linux/linux-yocto |
| |
| The ``conf`` directory holds your configuration files, while the |
| ``recipes-kernel`` directory holds your append file and eventual |
| patch files. |
| |
| 2. *Create the Layer Configuration File*: Move to the |
| ``meta-mylayer/conf`` directory and create the ``layer.conf`` file as |
| follows: |
| :: |
| |
| # We have a conf and classes directory, add to BBPATH |
| BBPATH .= ":${LAYERDIR}" |
| |
| # We have recipes-* directories, add to BBFILES |
| BBFILES += "${LAYERDIR}/recipes-*/*/*.bb \ |
| ${LAYERDIR}/recipes-*/*/*.bbappend" |
| |
| BBFILE_COLLECTIONS += "mylayer" |
| BBFILE_PATTERN_mylayer = "^${LAYERDIR}/" |
| BBFILE_PRIORITY_mylayer = "5" |
| |
| Notice ``mylayer`` as part of the last three statements. |
| |
| 3. *Create the Kernel Recipe Append File*: Move to the |
| ``meta-mylayer/recipes-kernel/linux`` directory and create the |
| kernel's append file. This example uses the ``linux-yocto-4.12`` |
| kernel. Thus, the name of the append file is |
| ``linux-yocto_4.12.bbappend``: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| |
| SRC_URI_append = " file://patch-file-one" |
| SRC_URI_append = " file://patch-file-two" |
| SRC_URI_append = " file://patch-file-three" |
| |
| The :term:`FILESEXTRAPATHS` and :term:`SRC_URI` statements |
| enable the OpenEmbedded build system to find patch files. For more |
| information on using append files, see the |
| ":ref:`dev-manual/dev-manual-common-tasks:using .bbappend files in your layer`" |
| section in the Yocto Project Development Tasks Manual. |
| |
| Modifying an Existing Recipe |
| ============================ |
| |
| In many cases, you can customize an existing linux-yocto recipe to meet |
| the needs of your project. Each release of the Yocto Project provides a |
| few Linux kernel recipes from which you can choose. These are located in |
| the :term:`Source Directory` in |
| ``meta/recipes-kernel/linux``. |
| |
| Modifying an existing recipe can consist of the following: |
| |
| - Creating the append file |
| |
| - Applying patches |
| |
| - Changing the configuration |
| |
| Before modifying an existing recipe, be sure that you have created a |
| minimal, custom layer from which you can work. See the "`Creating and |
| Preparing a Layer <#creating-and-preparing-a-layer>`__" section for |
| information. |
| |
| Creating the Append File |
| ------------------------ |
| |
| You create this file in your custom layer. You also name it accordingly |
| based on the linux-yocto recipe you are using. For example, if you are |
| modifying the ``meta/recipes-kernel/linux/linux-yocto_4.12.bb`` recipe, |
| the append file will typically be located as follows within your custom |
| layer: |
| :: |
| |
| your-layer/recipes-kernel/linux/linux-yocto_4.12.bbappend |
| |
| The append file should initially extend the |
| :term:`FILESPATH` search path by |
| prepending the directory that contains your files to the |
| :term:`FILESEXTRAPATHS` |
| variable as follows: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| |
| The path ``${``\ :term:`THISDIR`\ ``}/${``\ :term:`PN`\ ``}`` |
| expands to "linux-yocto" in the current directory for this example. If |
| you add any new files that modify the kernel recipe and you have |
| extended ``FILESPATH`` as described above, you must place the files in |
| your layer in the following area: |
| :: |
| |
| your-layer/recipes-kernel/linux/linux-yocto/ |
| |
| .. note:: |
| |
| If you are working on a new machine Board Support Package (BSP), be |
| sure to refer to the |
| Yocto Project Board Support Package (BSP) Developer's Guide |
| . |
| |
| As an example, consider the following append file used by the BSPs in |
| ``meta-yocto-bsp``: |
| :: |
| |
| meta-yocto-bsp/recipes-kernel/linux/linux-yocto_4.12.bbappend |
| |
| The following listing shows the file. Be aware that the actual commit ID |
| strings in this example listing might be different than the actual |
| strings in the file from the ``meta-yocto-bsp`` layer upstream. |
| :: |
| |
| KBRANCH_genericx86 = "standard/base" |
| KBRANCH_genericx86-64 = "standard/base" |
| |
| KMACHINE_genericx86 ?= "common-pc" |
| KMACHINE_genericx86-64 ?= "common-pc-64" |
| KBRANCH_edgerouter = "standard/edgerouter" |
| KBRANCH_beaglebone = "standard/beaglebone" |
| |
| SRCREV_machine_genericx86 ?= "d09f2ce584d60ecb7890550c22a80c48b83c2e19" |
| SRCREV_machine_genericx86-64 ?= "d09f2ce584d60ecb7890550c22a80c48b83c2e19" |
| SRCREV_machine_edgerouter ?= "b5c8cfda2dfe296410d51e131289fb09c69e1e7d" |
| SRCREV_machine_beaglebone ?= "b5c8cfda2dfe296410d51e131289fb09c69e1e7d" |
| |
| |
| COMPATIBLE_MACHINE_genericx86 = "genericx86" |
| COMPATIBLE_MACHINE_genericx86-64 = "genericx86-64" |
| COMPATIBLE_MACHINE_edgerouter = "edgerouter" |
| COMPATIBLE_MACHINE_beaglebone = "beaglebone" |
| |
| LINUX_VERSION_genericx86 = "4.12.7" |
| LINUX_VERSION_genericx86-64 = "4.12.7" |
| LINUX_VERSION_edgerouter = "4.12.10" |
| LINUX_VERSION_beaglebone = "4.12.10" |
| |
| This append file |
| contains statements used to support several BSPs that ship with the |
| Yocto Project. The file defines machines using the |
| :term:`COMPATIBLE_MACHINE` |
| variable and uses the |
| :term:`KMACHINE` variable to ensure |
| the machine name used by the OpenEmbedded build system maps to the |
| machine name used by the Linux Yocto kernel. The file also uses the |
| optional :term:`KBRANCH` variable to |
| ensure the build process uses the appropriate kernel branch. |
| |
| Although this particular example does not use it, the |
| :term:`KERNEL_FEATURES` |
| variable could be used to enable features specific to the kernel. The |
| append file points to specific commits in the |
| :term:`Source Directory` Git repository and |
| the ``meta`` Git repository branches to identify the exact kernel needed |
| to build the BSP. |
| |
| One thing missing in this particular BSP, which you will typically need |
| when developing a BSP, is the kernel configuration file (``.config``) |
| for your BSP. When developing a BSP, you probably have a kernel |
| configuration file or a set of kernel configuration files that, when |
| taken together, define the kernel configuration for your BSP. You can |
| accomplish this definition by putting the configurations in a file or a |
| set of files inside a directory located at the same level as your |
| kernel's append file and having the same name as the kernel's main |
| recipe file. With all these conditions met, simply reference those files |
| in the :term:`SRC_URI` statement in |
| the append file. |
| |
| For example, suppose you had some configuration options in a file called |
| ``network_configs.cfg``. You can place that file inside a directory |
| named ``linux-yocto`` and then add a ``SRC_URI`` statement such as the |
| following to the append file. When the OpenEmbedded build system builds |
| the kernel, the configuration options are picked up and applied. |
| :: |
| |
| SRC_URI += "file://network_configs.cfg" |
| |
| To group related configurations into multiple files, you perform a |
| similar procedure. Here is an example that groups separate |
| configurations specifically for Ethernet and graphics into their own |
| files and adds the configurations by using a ``SRC_URI`` statement like |
| the following in your append file: |
| :: |
| |
| SRC_URI += "file://myconfig.cfg \ |
| file://eth.cfg \ |
| file://gfx.cfg" |
| |
| Another variable you can use in your kernel recipe append file is the |
| :term:`FILESEXTRAPATHS` |
| variable. When you use this statement, you are extending the locations |
| used by the OpenEmbedded system to look for files and patches as the |
| recipe is processed. |
| |
| .. note:: |
| |
| Other methods exist to accomplish grouping and defining configuration |
| options. For example, if you are working with a local clone of the |
| kernel repository, you could checkout the kernel's ``meta`` branch, |
| make your changes, and then push the changes to the local bare clone |
| of the kernel. The result is that you directly add configuration |
| options to the ``meta`` branch for your BSP. The configuration |
| options will likely end up in that location anyway if the BSP gets |
| added to the Yocto Project. |
| |
| In general, however, the Yocto Project maintainers take care of |
| moving the ``SRC_URI``-specified configuration options to the |
| kernel's ``meta`` branch. Not only is it easier for BSP developers to |
| not have to worry about putting those configurations in the branch, |
| but having the maintainers do it allows them to apply 'global' |
| knowledge about the kinds of common configuration options multiple |
| BSPs in the tree are typically using. This allows for promotion of |
| common configurations into common features. |
| |
| Applying Patches |
| ---------------- |
| |
| If you have a single patch or a small series of patches that you want to |
| apply to the Linux kernel source, you can do so just as you would with |
| any other recipe. You first copy the patches to the path added to |
| :term:`FILESEXTRAPATHS` in |
| your ``.bbappend`` file as described in the previous section, and then |
| reference them in :term:`SRC_URI` |
| statements. |
| |
| For example, you can apply a three-patch series by adding the following |
| lines to your linux-yocto ``.bbappend`` file in your layer: |
| :: |
| |
| SRC_URI += "file://0001-first-change.patch" |
| SRC_URI += "file://0002-second-change.patch" |
| SRC_URI += "file://0003-third-change.patch" |
| |
| The next time you run BitBake to build |
| the Linux kernel, BitBake detects the change in the recipe and fetches |
| and applies the patches before building the kernel. |
| |
| For a detailed example showing how to patch the kernel using |
| ``devtool``, see the |
| ":ref:`kernel-dev/kernel-dev-common:using \`\`devtool\`\` to patch the kernel`" |
| and |
| ":ref:`kernel-dev/kernel-dev-common:using traditional kernel development to patch the kernel`" |
| sections. |
| |
| Changing the Configuration |
| -------------------------- |
| |
| You can make wholesale or incremental changes to the final ``.config`` |
| file used for the eventual Linux kernel configuration by including a |
| ``defconfig`` file and by specifying configuration fragments in the |
| :term:`SRC_URI` to be applied to that |
| file. |
| |
| If you have a complete, working Linux kernel ``.config`` file you want |
| to use for the configuration, as before, copy that file to the |
| appropriate ``${PN}`` directory in your layer's ``recipes-kernel/linux`` |
| directory, and rename the copied file to "defconfig". Then, add the |
| following lines to the linux-yocto ``.bbappend`` file in your layer: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| SRC_URI += "file://defconfig" |
| |
| The ``SRC_URI`` tells the build system how to search |
| for the file, while the |
| :term:`FILESEXTRAPATHS` |
| extends the :term:`FILESPATH` |
| variable (search directories) to include the ``${PN}`` directory you |
| created to hold the configuration changes. |
| |
| .. note:: |
| |
| The build system applies the configurations from the |
| defconfig |
| file before applying any subsequent configuration fragments. The |
| final kernel configuration is a combination of the configurations in |
| the |
| defconfig |
| file and any configuration fragments you provide. You need to realize |
| that if you have any configuration fragments, the build system |
| applies these on top of and after applying the existing |
| defconfig |
| file configurations. |
| |
| Generally speaking, the preferred approach is to determine the |
| incremental change you want to make and add that as a configuration |
| fragment. For example, if you want to add support for a basic serial |
| console, create a file named ``8250.cfg`` in the ``${PN}`` directory |
| with the following content (without indentation): |
| :: |
| |
| CONFIG_SERIAL_8250=y |
| CONFIG_SERIAL_8250_CONSOLE=y |
| CONFIG_SERIAL_8250_PCI=y |
| CONFIG_SERIAL_8250_NR_UARTS=4 |
| CONFIG_SERIAL_8250_RUNTIME_UARTS=4 |
| CONFIG_SERIAL_CORE=y |
| CONFIG_SERIAL_CORE_CONSOLE=y |
| |
| Next, include this |
| configuration fragment and extend the ``FILESPATH`` variable in your |
| ``.bbappend`` file: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| SRC_URI += "file://8250.cfg" |
| |
| The next time you run BitBake to build the |
| Linux kernel, BitBake detects the change in the recipe and fetches and |
| applies the new configuration before building the kernel. |
| |
| For a detailed example showing how to configure the kernel, see the |
| "`Configuring the Kernel <#configuring-the-kernel>`__" section. |
| |
| Using an "In-Tree" ``defconfig`` File |
| -------------------------------------- |
| |
| It might be desirable to have kernel configuration fragment support |
| through a ``defconfig`` file that is pulled from the kernel source tree |
| for the configured machine. By default, the OpenEmbedded build system |
| looks for ``defconfig`` files in the layer used for Metadata, which is |
| "out-of-tree", and then configures them using the following: |
| :: |
| |
| SRC_URI += "file://defconfig" |
| |
| If you do not want to maintain copies of |
| ``defconfig`` files in your layer but would rather allow users to use |
| the default configuration from the kernel tree and still be able to add |
| configuration fragments to the |
| :term:`SRC_URI` through, for example, |
| append files, you can direct the OpenEmbedded build system to use a |
| ``defconfig`` file that is "in-tree". |
| |
| To specify an "in-tree" ``defconfig`` file, use the following statement |
| form: |
| :: |
| |
| KBUILD_DEFCONFIG_KMACHINE ?= defconfig_file |
| |
| Here is an example |
| that assigns the ``KBUILD_DEFCONFIG`` variable based on "raspberrypi2" |
| and provides the path to the "in-tree" ``defconfig`` file to be used for |
| a Raspberry Pi 2, which is based on the Broadcom 2708/2709 chipset: |
| :: |
| |
| KBUILD_DEFCONFIG_raspberrypi2 ?= "bcm2709_defconfig" |
| |
| Aside from modifying your kernel recipe and providing your own |
| ``defconfig`` file, you need to be sure no files or statements set |
| ``SRC_URI`` to use a ``defconfig`` other than your "in-tree" file (e.g. |
| a kernel's ``linux-``\ machine\ ``.inc`` file). In other words, if the |
| build system detects a statement that identifies an "out-of-tree" |
| ``defconfig`` file, that statement will override your |
| ``KBUILD_DEFCONFIG`` variable. |
| |
| See the |
| :term:`KBUILD_DEFCONFIG` |
| variable description for more information. |
| |
| Using ``devtool`` to Patch the Kernel |
| ===================================== |
| |
| The steps in this procedure show you how you can patch the kernel using |
| the extensible SDK and ``devtool``. |
| |
| .. note:: |
| |
| Before attempting this procedure, be sure you have performed the |
| steps to get ready for updating the kernel as described in the " |
| Getting Ready to Develop Using |
| devtool |
| " section. |
| |
| Patching the kernel involves changing or adding configurations to an |
| existing kernel, changing or adding recipes to the kernel that are |
| needed to support specific hardware features, or even altering the |
| source code itself. |
| |
| This example creates a simple patch by adding some QEMU emulator console |
| output at boot time through ``printk`` statements in the kernel's |
| ``calibrate.c`` source code file. Applying the patch and booting the |
| modified image causes the added messages to appear on the emulator's |
| console. The example is a continuation of the setup procedure found in |
| the ":ref:`kernel-dev/kernel-dev-common:getting ready to develop using \`\`devtool\`\``" Section. |
| |
| 1. *Check Out the Kernel Source Files:* First you must use ``devtool`` |
| to checkout the kernel source code in its workspace. Be sure you are |
| in the terminal set up to do work with the extensible SDK. |
| |
| .. note:: |
| |
| See this |
| step |
| in the " |
| Getting Ready to Develop Using |
| devtool |
| " section for more information. |
| |
| Use the following ``devtool`` command to check out the code: |
| :: |
| |
| $ devtool modify linux-yocto |
| |
| .. note:: |
| |
| During the checkout operation, a bug exists that could cause |
| errors such as the following to appear: |
| :: |
| |
| ERROR: Taskhash mismatch 2c793438c2d9f8c3681fd5f7bc819efa versus |
| be3a89ce7c47178880ba7bf6293d7404 for |
| /path/to/esdk/layers/poky/meta/recipes-kernel/linux/linux-yocto_4.10.bb.do_unpack |
| |
| |
| You can safely ignore these messages. The source code is correctly |
| checked out. |
| |
| 2. *Edit the Source Files* Follow these steps to make some simple |
| changes to the source files: |
| |
| 1. *Change the working directory*: In the previous step, the output |
| noted where you can find the source files (e.g. |
| ``~/poky_sdk/workspace/sources/linux-yocto``). Change to where the |
| kernel source code is before making your edits to the |
| ``calibrate.c`` file: |
| :: |
| |
| $ cd ~/poky_sdk/workspace/sources/linux-yocto |
| |
| 2. *Edit the source file*: Edit the ``init/calibrate.c`` file to have |
| the following changes: |
| :: |
| |
| void calibrate_delay(void) |
| { |
| unsigned long lpj; |
| static bool printed; |
| int this_cpu = smp_processor_id(); |
| |
| printk("*************************************\n"); |
| printk("* *\n"); |
| printk("* HELLO YOCTO KERNEL *\n"); |
| printk("* *\n"); |
| printk("*************************************\n"); |
| |
| if (per_cpu(cpu_loops_per_jiffy, this_cpu)) { |
| . |
| . |
| . |
| |
| 3. *Build the Updated Kernel Source:* To build the updated kernel |
| source, use ``devtool``: |
| :: |
| |
| $ devtool build linux-yocto |
| |
| 4. *Create the Image With the New Kernel:* Use the |
| ``devtool build-image`` command to create a new image that has the |
| new kernel. |
| |
| .. note:: |
| |
| If the image you originally created resulted in a Wic file, you |
| can use an alternate method to create the new image with the |
| updated kernel. For an example, see the steps in the |
| TipsAndTricks/KernelDevelopmentWithEsdk |
| Wiki Page. |
| |
| :: |
| |
| $ cd ~ |
| $ devtool build-image core-image-minimal |
| |
| 5. *Test the New Image:* For this example, you can run the new image |
| using QEMU to verify your changes: |
| |
| 1. *Boot the image*: Boot the modified image in the QEMU emulator |
| using this command: |
| :: |
| |
| $ runqemu qemux86 |
| |
| 2. *Verify the changes*: Log into the machine using ``root`` with no |
| password and then use the following shell command to scroll |
| through the console's boot output. |
| :: |
| |
| # dmesg | less |
| |
| You should see |
| the results of your ``printk`` statements as part of the output |
| when you scroll down the console window. |
| |
| 6. *Stage and commit your changes*: Within your eSDK terminal, change |
| your working directory to where you modified the ``calibrate.c`` file |
| and use these Git commands to stage and commit your changes: |
| :: |
| |
| $ cd ~/poky_sdk/workspace/sources/linux-yocto |
| $ git status |
| $ git add init/calibrate.c |
| $ git commit -m "calibrate: Add printk example" |
| |
| 7. *Export the Patches and Create an Append File:* To export your |
| commits as patches and create a ``.bbappend`` file, use the following |
| command in the terminal used to work with the extensible SDK. This |
| example uses the previously established layer named ``meta-mylayer``. |
| |
| .. note:: |
| |
| See Step 3 of the " |
| Getting Ready to Develop Using devtool |
| " section for information on setting up this layer. |
| |
| $ devtool finish linux-yocto ~/meta-mylayer |
| |
| Once the command |
| finishes, the patches and the ``.bbappend`` file are located in the |
| ``~/meta-mylayer/recipes-kernel/linux`` directory. |
| |
| 8. *Build the Image With Your Modified Kernel:* You can now build an |
| image that includes your kernel patches. Execute the following |
| command from your |
| :term:`Build Directory` in the terminal |
| set up to run BitBake: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake core-image-minimal |
| |
| Using Traditional Kernel Development to Patch the Kernel |
| ======================================================== |
| |
| The steps in this procedure show you how you can patch the kernel using |
| traditional kernel development (i.e. not using ``devtool`` and the |
| extensible SDK as described in the |
| ":ref:`kernel-dev/kernel-dev-common:using \`\`devtool\`\` to patch the kernel`" |
| section). |
| |
| .. note:: |
| |
| Before attempting this procedure, be sure you have performed the |
| steps to get ready for updating the kernel as described in the " |
| Getting Ready for Traditional Kernel Development |
| " section. |
| |
| Patching the kernel involves changing or adding configurations to an |
| existing kernel, changing or adding recipes to the kernel that are |
| needed to support specific hardware features, or even altering the |
| source code itself. |
| |
| The example in this section creates a simple patch by adding some QEMU |
| emulator console output at boot time through ``printk`` statements in |
| the kernel's ``calibrate.c`` source code file. Applying the patch and |
| booting the modified image causes the added messages to appear on the |
| emulator's console. The example is a continuation of the setup procedure |
| found in the "`Getting Ready for Traditional Kernel |
| Development <#getting-ready-for-traditional-kernel-development>`__" |
| Section. |
| |
| 1. *Edit the Source Files* Prior to this step, you should have used Git |
| to create a local copy of the repository for your kernel. Assuming |
| you created the repository as directed in the "`Getting Ready for |
| Traditional Kernel |
| Development <#getting-ready-for-traditional-kernel-development>`__" |
| section, use the following commands to edit the ``calibrate.c`` file: |
| |
| 1. *Change the working directory*: You need to locate the source |
| files in the local copy of the kernel Git repository: Change to |
| where the kernel source code is before making your edits to the |
| ``calibrate.c`` file: |
| :: |
| |
| $ cd ~/linux-yocto-4.12/init |
| |
| 2. *Edit the source file*: Edit the ``calibrate.c`` file to have the |
| following changes: |
| :: |
| |
| void calibrate_delay(void) |
| { |
| unsigned long lpj; |
| static bool printed; |
| int this_cpu = smp_processor_id(); |
| |
| printk("*************************************\n"); |
| printk("* *\n"); |
| printk("* HELLO YOCTO KERNEL *\n"); |
| printk("* *\n"); |
| printk("*************************************\n"); |
| |
| if (per_cpu(cpu_loops_per_jiffy, this_cpu)) { |
| . |
| . |
| . |
| |
| 2. *Stage and Commit Your Changes:* Use standard Git commands to stage |
| and commit the changes you just made: |
| :: |
| |
| $ git add calibrate.c |
| $ git commit -m "calibrate.c - Added some printk statements" |
| |
| If you do not |
| stage and commit your changes, the OpenEmbedded Build System will not |
| pick up the changes. |
| |
| 3. *Update Your local.conf File to Point to Your Source Files:* In |
| addition to your ``local.conf`` file specifying to use |
| "kernel-modules" and the "qemux86" machine, it must also point to the |
| updated kernel source files. Add |
| :term:`SRC_URI` and |
| :term:`SRCREV` statements similar |
| to the following to your ``local.conf``: |
| :: |
| |
| $ cd ~/poky/build/conf |
| |
| Add the following to the ``local.conf``: |
| :: |
| |
| SRC_URI_pn-linux-yocto = "git:///path-to/linux-yocto-4.12;protocol=file;name=machine;branch=standard/base; \ |
| git:///path-to/yocto-kernel-cache;protocol=file;type=kmeta;name=meta;branch=yocto-4.12;destsuffix=${KMETA}" |
| SRCREV_meta_qemux86 = "${AUTOREV}" |
| SRCREV_machine_qemux86 = "${AUTOREV}" |
| |
| .. note:: |
| |
| Be sure to replace |
| path-to |
| with the pathname to your local Git repositories. Also, you must |
| be sure to specify the correct branch and machine types. For this |
| example, the branch is |
| standard/base |
| and the machine is "qemux86". |
| |
| 4. *Build the Image:* With the source modified, your changes staged and |
| committed, and the ``local.conf`` file pointing to the kernel files, |
| you can now use BitBake to build the image: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake core-image-minimal |
| |
| 5. *Boot the image*: Boot the modified image in the QEMU emulator using |
| this command. When prompted to login to the QEMU console, use "root" |
| with no password: |
| :: |
| |
| $ cd ~/poky/build |
| $ runqemu qemux86 |
| |
| 6. *Look for Your Changes:* As QEMU booted, you might have seen your |
| changes rapidly scroll by. If not, use these commands to see your |
| changes: |
| :: |
| |
| # dmesg | less |
| |
| You should see the results of your |
| ``printk`` statements as part of the output when you scroll down the |
| console window. |
| |
| 7. *Generate the Patch File:* Once you are sure that your patch works |
| correctly, you can generate a ``*.patch`` file in the kernel source |
| repository: |
| :: |
| |
| $ cd ~/linux-yocto-4.12/init |
| $ git format-patch -1 |
| 0001-calibrate.c-Added-some-printk-statements.patch |
| |
| 8. *Move the Patch File to Your Layer:* In order for subsequent builds |
| to pick up patches, you need to move the patch file you created in |
| the previous step to your layer ``meta-mylayer``. For this example, |
| the layer created earlier is located in your home directory as |
| ``meta-mylayer``. When the layer was created using the |
| ``yocto-create`` script, no additional hierarchy was created to |
| support patches. Before moving the patch file, you need to add |
| additional structure to your layer using the following commands: |
| :: |
| |
| $ cd ~/meta-mylayer |
| $ mkdir recipes-kernel |
| $ mkdir recipes-kernel/linux |
| $ mkdir recipes-kernel/linux/linux-yocto |
| |
| Once you have created this |
| hierarchy in your layer, you can move the patch file using the |
| following command: |
| :: |
| |
| $ mv ~/linux-yocto-4.12/init/0001-calibrate.c-Added-some-printk-statements.patch ~/meta-mylayer/recipes-kernel/linux/linux-yocto |
| |
| 9. *Create the Append File:* Finally, you need to create the |
| ``linux-yocto_4.12.bbappend`` file and insert statements that allow |
| the OpenEmbedded build system to find the patch. The append file |
| needs to be in your layer's ``recipes-kernel/linux`` directory and it |
| must be named ``linux-yocto_4.12.bbappend`` and have the following |
| contents: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| SRC_URI_append = "file://0001-calibrate.c-Added-some-printk-statements.patch" |
| |
| The :term:`FILESEXTRAPATHS` and :term:`SRC_URI` statements |
| enable the OpenEmbedded build system to find the patch file. |
| |
| For more information on append files and patches, see the "`Creating |
| the Append File <#creating-the-append-file>`__" and "`Applying |
| Patches <#applying-patches>`__" sections. You can also see the |
| ":ref:`dev-manual/dev-manual-common-tasks:using .bbappend files in your layer`" |
| section in the Yocto Project Development Tasks Manual. |
| |
| .. note:: |
| |
| To build |
| core-image-minimal |
| again and see the effects of your patch, you can essentially |
| eliminate the temporary source files saved in |
| poky/build/tmp/work/... |
| and residual effects of the build by entering the following |
| sequence of commands: |
| :: |
| |
| $ cd ~/poky/build |
| $ bitbake -c cleanall yocto-linux |
| $ bitbake core-image-minimal -c cleanall |
| $ bitbake core-image-minimal |
| $ runqemu qemux86 |
| |
| |
| Configuring the Kernel |
| ====================== |
| |
| Configuring the Yocto Project kernel consists of making sure the |
| ``.config`` file has all the right information in it for the image you |
| are building. You can use the ``menuconfig`` tool and configuration |
| fragments to make sure your ``.config`` file is just how you need it. |
| You can also save known configurations in a ``defconfig`` file that the |
| build system can use for kernel configuration. |
| |
| This section describes how to use ``menuconfig``, create and use |
| configuration fragments, and how to interactively modify your |
| ``.config`` file to create the leanest kernel configuration file |
| possible. |
| |
| For more information on kernel configuration, see the "`Changing the |
| Configuration <#changing-the-configuration>`__" section. |
| |
| Using ``menuconfig`` |
| --------------------- |
| |
| The easiest way to define kernel configurations is to set them through |
| the ``menuconfig`` tool. This tool provides an interactive method with |
| which to set kernel configurations. For general information on |
| ``menuconfig``, see http://en.wikipedia.org/wiki/Menuconfig. |
| |
| To use the ``menuconfig`` tool in the Yocto Project development |
| environment, you must do the following: |
| |
| - Because you launch ``menuconfig`` using BitBake, you must be sure to |
| set up your environment by running the |
| :ref:`structure-core-script` script found in |
| the :term:`Build Directory`. |
| |
| - You must be sure of the state of your build's configuration in the |
| :term:`Source Directory`. |
| |
| - Your build host must have the following two packages installed: |
| :: |
| |
| libncurses5-dev |
| libtinfo-dev |
| |
| The following commands initialize the BitBake environment, run the |
| :ref:`ref-tasks-kernel_configme` |
| task, and launch ``menuconfig``. These commands assume the Source |
| Directory's top-level folder is ``~/poky``: |
| :: |
| |
| $ cd poky |
| $ source oe-init-build-env |
| $ bitbake linux-yocto -c kernel_configme -f |
| $ bitbake linux-yocto -c menuconfig |
| |
| Once ``menuconfig`` comes up, its standard |
| interface allows you to interactively examine and configure all the |
| kernel configuration parameters. After making your changes, simply exit |
| the tool and save your changes to create an updated version of the |
| ``.config`` configuration file. |
| |
| .. note:: |
| |
| You can use the entire |
| .config |
| file as the |
| defconfig |
| file. For information on |
| defconfig |
| files, see the " |
| Changing the Configuration |
| ", " |
| Using an In-Tree |
| defconfig |
| File |
| , and " |
| Creating a |
| defconfig |
| File |
| " sections. |
| |
| Consider an example that configures the "CONFIG_SMP" setting for the |
| ``linux-yocto-4.12`` kernel. |
| |
| .. note:: |
| |
| The OpenEmbedded build system recognizes this kernel as |
| linux-yocto |
| through Metadata (e.g. |
| PREFERRED_VERSION |
| \_linux-yocto ?= "12.4%" |
| ). |
| |
| Once ``menuconfig`` launches, use the interface to navigate through the |
| selections to find the configuration settings in which you are |
| interested. For this example, you deselect "CONFIG_SMP" by clearing the |
| "Symmetric Multi-Processing Support" option. Using the interface, you |
| can find the option under "Processor Type and Features". To deselect |
| "CONFIG_SMP", use the arrow keys to highlight "Symmetric |
| Multi-Processing Support" and enter "N" to clear the asterisk. When you |
| are finished, exit out and save the change. |
| |
| Saving the selections updates the ``.config`` configuration file. This |
| is the file that the OpenEmbedded build system uses to configure the |
| kernel during the build. You can find and examine this file in the Build |
| Directory in ``tmp/work/``. The actual ``.config`` is located in the |
| area where the specific kernel is built. For example, if you were |
| building a Linux Yocto kernel based on the ``linux-yocto-4.12`` kernel |
| and you were building a QEMU image targeted for ``x86`` architecture, |
| the ``.config`` file would be: |
| :: |
| |
| poky/build/tmp/work/qemux86-poky-linux/linux-yocto/4.12.12+gitAUTOINC+eda4d18... |
| ...967-r0/linux-qemux86-standard-build/.config |
| |
| .. note:: |
| |
| The previous example directory is artificially split and many of the |
| characters in the actual filename are omitted in order to make it |
| more readable. Also, depending on the kernel you are using, the exact |
| pathname might differ. |
| |
| Within the ``.config`` file, you can see the kernel settings. For |
| example, the following entry shows that symmetric multi-processor |
| support is not set: |
| :: |
| |
| # CONFIG_SMP is not set |
| |
| A good method to isolate changed configurations is to use a combination |
| of the ``menuconfig`` tool and simple shell commands. Before changing |
| configurations with ``menuconfig``, copy the existing ``.config`` and |
| rename it to something else, use ``menuconfig`` to make as many changes |
| as you want and save them, then compare the renamed configuration file |
| against the newly created file. You can use the resulting differences as |
| your base to create configuration fragments to permanently save in your |
| kernel layer. |
| |
| .. note:: |
| |
| Be sure to make a copy of the |
| .config |
| file and do not just rename it. The build system needs an existing |
| .config |
| file from which to work. |
| |
| Creating a ``defconfig`` File |
| ------------------------------ |
| |
| A ``defconfig`` file in the context of the Yocto Project is often a |
| ``.config`` file that is copied from a build or a ``defconfig`` taken |
| from the kernel tree and moved into recipe space. You can use a |
| ``defconfig`` file to retain a known set of kernel configurations from |
| which the OpenEmbedded build system can draw to create the final |
| ``.config`` file. |
| |
| .. note:: |
| |
| Out-of-the-box, the Yocto Project never ships a |
| defconfig |
| or |
| .config |
| file. The OpenEmbedded build system creates the final |
| .config |
| file used to configure the kernel. |
| |
| To create a ``defconfig``, start with a complete, working Linux kernel |
| ``.config`` file. Copy that file to the appropriate |
| ``${``\ :term:`PN`\ ``}`` directory in |
| your layer's ``recipes-kernel/linux`` directory, and rename the copied |
| file to "defconfig" (e.g. |
| ``~/meta-mylayer/recipes-kernel/linux/linux-yocto/defconfig``). Then, |
| add the following lines to the linux-yocto ``.bbappend`` file in your |
| layer: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| SRC_URI += "file://defconfig" |
| |
| The :term:`SRC_URI` tells the build system how to search for the file, while the |
| :term:`FILESEXTRAPATHS` extends the :term:`FILESPATH` |
| variable (search directories) to include the ``${PN}`` directory you |
| created to hold the configuration changes. |
| |
| .. note:: |
| |
| The build system applies the configurations from the |
| defconfig |
| file before applying any subsequent configuration fragments. The |
| final kernel configuration is a combination of the configurations in |
| the |
| defconfig |
| file and any configuration fragments you provide. You need to realize |
| that if you have any configuration fragments, the build system |
| applies these on top of and after applying the existing defconfig |
| file configurations. |
| |
| For more information on configuring the kernel, see the "`Changing the |
| Configuration <#changing-the-configuration>`__" section. |
| |
| .. _creating-config-fragments: |
| |
| Creating Configuration Fragments |
| -------------------------------- |
| |
| Configuration fragments are simply kernel options that appear in a file |
| placed where the OpenEmbedded build system can find and apply them. The |
| build system applies configuration fragments after applying |
| configurations from a ``defconfig`` file. Thus, the final kernel |
| configuration is a combination of the configurations in the |
| ``defconfig`` file and then any configuration fragments you provide. The |
| build system applies fragments on top of and after applying the existing |
| defconfig file configurations. |
| |
| Syntactically, the configuration statement is identical to what would |
| appear in the ``.config`` file, which is in the :term:`Build Directory`. |
| |
| .. note:: |
| |
| For more information about where the |
| .config |
| file is located, see the example in the |
| ":ref:`kernel-dev/kernel-dev-common:using \`\`menuconfig\`\``" |
| section. |
| |
| It is simple to create a configuration fragment. One method is to use |
| shell commands. For example, issuing the following from the shell |
| creates a configuration fragment file named ``my_smp.cfg`` that enables |
| multi-processor support within the kernel: |
| :: |
| |
| $ echo "CONFIG_SMP=y" >> my_smp.cfg |
| |
| .. note:: |
| |
| All configuration fragment files must use the |
| .cfg |
| extension in order for the OpenEmbedded build system to recognize |
| them as a configuration fragment. |
| |
| Another method is to create a configuration fragment using the |
| differences between two configuration files: one previously created and |
| saved, and one freshly created using the ``menuconfig`` tool. |
| |
| To create a configuration fragment using this method, follow these |
| steps: |
| |
| 1. *Complete a Build Through Kernel Configuration:* Complete a build at |
| least through the kernel configuration task as follows: |
| :: |
| |
| $ bitbake linux-yocto -c kernel_configme -f |
| |
| This step ensures that you create a |
| ``.config`` file from a known state. Because situations exist where |
| your build state might become unknown, it is best to run this task |
| prior to starting ``menuconfig``. |
| |
| 2. *Launch menuconfig:* Run the ``menuconfig`` command: |
| :: |
| |
| $ bitbake linux-yocto -c menuconfig |
| |
| 3. *Create the Configuration Fragment:* Run the ``diffconfig`` command |
| to prepare a configuration fragment. The resulting file |
| ``fragment.cfg`` is placed in the |
| ``${``\ :term:`WORKDIR`\ ``}`` |
| directory: |
| :: |
| |
| $ bitbake linux-yocto -c diffconfig |
| |
| The ``diffconfig`` command creates a file that is a list of Linux kernel |
| ``CONFIG_`` assignments. See the "`Changing the |
| Configuration <#changing-the-configuration>`__" section for additional |
| information on how to use the output as a configuration fragment. |
| |
| .. note:: |
| |
| You can also use this method to create configuration fragments for a |
| BSP. See the " |
| BSP Descriptions |
| " section for more information. |
| |
| Where do you put your configuration fragment files? You can place these |
| files in an area pointed to by |
| :term:`SRC_URI` as directed by your |
| ``bblayers.conf`` file, which is located in your layer. The OpenEmbedded |
| build system picks up the configuration and adds it to the kernel's |
| configuration. For example, suppose you had a set of configuration |
| options in a file called ``myconfig.cfg``. If you put that file inside a |
| directory named ``linux-yocto`` that resides in the same directory as |
| the kernel's append file within your layer and then add the following |
| statements to the kernel's append file, those configuration options will |
| be picked up and applied when the kernel is built: |
| :: |
| |
| FILESEXTRAPATHS_prepend := "${THISDIR}/${PN}:" |
| SRC_URI += "file://myconfig.cfg" |
| |
| As mentioned earlier, you can group related configurations into multiple |
| files and name them all in the ``SRC_URI`` statement as well. For |
| example, you could group separate configurations specifically for |
| Ethernet and graphics into their own files and add those by using a |
| ``SRC_URI`` statement like the following in your append file: |
| :: |
| |
| SRC_URI += "file://myconfig.cfg \ |
| file://eth.cfg \ |
| file://gfx.cfg" |
| |
| Validating Configuration |
| ------------------------ |
| |
| You can use the |
| :ref:`ref-tasks-kernel_configcheck` |
| task to provide configuration validation: |
| :: |
| |
| $ bitbake linux-yocto -c kernel_configcheck -f |
| |
| Running this task produces warnings for when a |
| requested configuration does not appear in the final ``.config`` file or |
| when you override a policy configuration in a hardware configuration |
| fragment. |
| |
| In order to run this task, you must have an existing ``.config`` file. |
| See the ":ref:`kernel-dev/kernel-dev-common:using \`\`menuconfig\`\``" section for |
| information on how to create a configuration file. |
| |
| Following is sample output from the ``do_kernel_configcheck`` task: |
| :: |
| |
| Loading cache: 100% |########################################################| Time: 0:00:00 |
| Loaded 1275 entries from dependency cache. |
| NOTE: Resolving any missing task queue dependencies |
| |
| Build Configuration: |
| . |
| . |
| . |
| |
| NOTE: Executing SetScene Tasks |
| NOTE: Executing RunQueue Tasks |
| WARNING: linux-yocto-4.12.12+gitAUTOINC+eda4d18ce4_16de014967-r0 do_kernel_configcheck: |
| [kernel config]: specified values did not make it into the kernel's final configuration: |
| |
| ---------- CONFIG_X86_TSC ----------------- |
| Config: CONFIG_X86_TSC |
| From: /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/bsp/common-pc/common-pc-cpu.cfg |
| Requested value: CONFIG_X86_TSC=y |
| Actual value: |
| |
| |
| ---------- CONFIG_X86_BIGSMP ----------------- |
| Config: CONFIG_X86_BIGSMP |
| From: /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/cfg/smp.cfg |
| /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/defconfig |
| Requested value: # CONFIG_X86_BIGSMP is not set |
| Actual value: |
| |
| |
| ---------- CONFIG_NR_CPUS ----------------- |
| Config: CONFIG_NR_CPUS |
| From: /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/cfg/smp.cfg |
| /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/bsp/common-pc/common-pc.cfg |
| /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/defconfig |
| Requested value: CONFIG_NR_CPUS=8 |
| Actual value: CONFIG_NR_CPUS=1 |
| |
| |
| ---------- CONFIG_SCHED_SMT ----------------- |
| Config: CONFIG_SCHED_SMT |
| From: /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/cfg/smp.cfg |
| /home/scottrif/poky/build/tmp/work-shared/qemux86/kernel-source/.kernel-meta/configs/standard/defconfig |
| Requested value: CONFIG_SCHED_SMT=y |
| Actual value: |
| |
| |
| |
| NOTE: Tasks Summary: Attempted 288 tasks of which 285 didn't need to be rerun and all succeeded. |
| |
| Summary: There were 3 WARNING messages shown. |
| |
| .. note:: |
| |
| The previous output example has artificial line breaks to make it |
| more readable. |
| |
| The output describes the various problems that you can encounter along |
| with where to find the offending configuration items. You can use the |
| information in the logs to adjust your configuration files and then |
| repeat the |
| :ref:`ref-tasks-kernel_configme` |
| and |
| :ref:`ref-tasks-kernel_configcheck` |
| tasks until they produce no warnings. |
| |
| For more information on how to use the ``menuconfig`` tool, see the |
| :ref:`kernel-dev/kernel-dev-common:using \`\`menuconfig\`\`` section. |
| |
| Fine-Tuning the Kernel Configuration File |
| ----------------------------------------- |
| |
| You can make sure the ``.config`` file is as lean or efficient as |
| possible by reading the output of the kernel configuration fragment |
| audit, noting any issues, making changes to correct the issues, and then |
| repeating. |
| |
| As part of the kernel build process, the ``do_kernel_configcheck`` task |
| runs. This task validates the kernel configuration by checking the final |
| ``.config`` file against the input files. During the check, the task |
| produces warning messages for the following issues: |
| |
| - Requested options that did not make the final ``.config`` file. |
| |
| - Configuration items that appear twice in the same configuration |
| fragment. |
| |
| - Configuration items tagged as "required" that were overridden. |
| |
| - A board overrides a non-board specific option. |
| |
| - Listed options not valid for the kernel being processed. In other |
| words, the option does not appear anywhere. |
| |
| .. note:: |
| |
| The |
| do_kernel_configcheck |
| task can also optionally report if an option is overridden during |
| processing. |
| |
| For each output warning, a message points to the file that contains a |
| list of the options and a pointer to the configuration fragment that |
| defines them. Collectively, the files are the key to streamlining the |
| configuration. |
| |
| To streamline the configuration, do the following: |
| |
| 1. *Use a Working Configuration:* Start with a full configuration that |
| you know works. Be sure the configuration builds and boots |
| successfully. Use this configuration file as your baseline. |
| |
| 2. *Run Configure and Check Tasks:* Separately run the |
| ``do_kernel_configme`` and ``do_kernel_configcheck`` tasks: |
| :: |
| |
| $ bitbake linux-yocto -c kernel_configme -f |
| $ bitbake linux-yocto -c kernel_configcheck -f |
| |
| 3. *Process the Results:* Take the resulting list of files from the |
| ``do_kernel_configcheck`` task warnings and do the following: |
| |
| - Drop values that are redefined in the fragment but do not change |
| the final ``.config`` file. |
| |
| - Analyze and potentially drop values from the ``.config`` file that |
| override required configurations. |
| |
| - Analyze and potentially remove non-board specific options. |
| |
| - Remove repeated and invalid options. |
| |
| 4. *Re-Run Configure and Check Tasks:* After you have worked through the |
| output of the kernel configuration audit, you can re-run the |
| ``do_kernel_configme`` and ``do_kernel_configcheck`` tasks to see the |
| results of your changes. If you have more issues, you can deal with |
| them as described in the previous step. |
| |
| Iteratively working through steps two through four eventually yields a |
| minimal, streamlined configuration file. Once you have the best |
| ``.config``, you can build the Linux Yocto kernel. |
| |
| Expanding Variables |
| =================== |
| |
| Sometimes it is helpful to determine what a variable expands to during a |
| build. You can do examine the values of variables by examining the |
| output of the ``bitbake -e`` command. The output is long and is more |
| easily managed in a text file, which allows for easy searches: |
| :: |
| |
| $ bitbake -e virtual/kernel > some_text_file |
| |
| Within the text file, you can see |
| exactly how each variable is expanded and used by the OpenEmbedded build |
| system. |
| |
| Working with a "Dirty" Kernel Version String |
| ============================================ |
| |
| If you build a kernel image and the version string has a "+" or a |
| "-dirty" at the end, uncommitted modifications exist in the kernel's |
| source directory. Follow these steps to clean up the version string: |
| |
| 1. *Discover the Uncommitted Changes:* Go to the kernel's locally cloned |
| Git repository (source directory) and use the following Git command |
| to list the files that have been changed, added, or removed: |
| :: |
| |
| $ git status |
| |
| 2. *Commit the Changes:* You should commit those changes to the kernel |
| source tree regardless of whether or not you will save, export, or |
| use the changes: |
| :: |
| |
| $ git add |
| $ git commit -s -a -m "getting rid of -dirty" |
| |
| 3. *Rebuild the Kernel Image:* Once you commit the changes, rebuild the |
| kernel. |
| |
| Depending on your particular kernel development workflow, the |
| commands you use to rebuild the kernel might differ. For information |
| on building the kernel image when using ``devtool``, see the |
| ":ref:`kernel-dev/kernel-dev-common:using \`\`devtool\`\` to patch the kernel`" |
| section. For |
| information on building the kernel image when using Bitbake, see the |
| "`Using Traditional Kernel Development to Patch the |
| Kernel <#using-traditional-kernel-development-to-patch-the-kernel>`__" |
| section. |
| |
| Working With Your Own Sources |
| ============================= |
| |
| If you cannot work with one of the Linux kernel versions supported by |
| existing linux-yocto recipes, you can still make use of the Yocto |
| Project Linux kernel tooling by working with your own sources. When you |
| use your own sources, you will not be able to leverage the existing |
| kernel :term:`Metadata` and stabilization |
| work of the linux-yocto sources. However, you will be able to manage |
| your own Metadata in the same format as the linux-yocto sources. |
| Maintaining format compatibility facilitates converging with linux-yocto |
| on a future, mutually-supported kernel version. |
| |
| To help you use your own sources, the Yocto Project provides a |
| linux-yocto custom recipe (``linux-yocto-custom.bb``) that uses |
| ``kernel.org`` sources and the Yocto Project Linux kernel tools for |
| managing kernel Metadata. You can find this recipe in the ``poky`` Git |
| repository of the Yocto Project :yocto_git:`Source Repository <>` |
| at: |
| :: |
| |
| poky/meta-skeleton/recipes-kernel/linux/linux-yocto-custom.bb |
| |
| Here are some basic steps you can use to work with your own sources: |
| |
| 1. *Create a Copy of the Kernel Recipe:* Copy the |
| ``linux-yocto-custom.bb`` recipe to your layer and give it a |
| meaningful name. The name should include the version of the Yocto |
| Linux kernel you are using (e.g. ``linux-yocto-myproject_4.12.bb``, |
| where "4.12" is the base version of the Linux kernel with which you |
| would be working). |
| |
| 2. *Create a Directory for Your Patches:* In the same directory inside |
| your layer, create a matching directory to store your patches and |
| configuration files (e.g. ``linux-yocto-myproject``). |
| |
| 3. *Ensure You Have Configurations:* Make sure you have either a |
| ``defconfig`` file or configuration fragment files in your layer. |
| When you use the ``linux-yocto-custom.bb`` recipe, you must specify a |
| configuration. If you do not have a ``defconfig`` file, you can run |
| the following: |
| :: |
| |
| $ make defconfig |
| |
| After running the command, copy the |
| resulting ``.config`` file to the ``files`` directory in your layer |
| as "defconfig" and then add it to the |
| :term:`SRC_URI` variable in the |
| recipe. |
| |
| Running the ``make defconfig`` command results in the default |
| configuration for your architecture as defined by your kernel. |
| However, no guarantee exists that this configuration is valid for |
| your use case, or that your board will even boot. This is |
| particularly true for non-x86 architectures. |
| |
| To use non-x86 ``defconfig`` files, you need to be more specific and |
| find one that matches your board (i.e. for arm, you look in |
| ``arch/arm/configs`` and use the one that is the best starting point |
| for your board). |
| |
| 4. *Edit the Recipe:* Edit the following variables in your recipe as |
| appropriate for your project: |
| |
| - :term:`SRC_URI`: The |
| ``SRC_URI`` should specify a Git repository that uses one of the |
| supported Git fetcher protocols (i.e. ``file``, ``git``, ``http``, |
| and so forth). The ``SRC_URI`` variable should also specify either |
| a ``defconfig`` file or some configuration fragment files. The |
| skeleton recipe provides an example ``SRC_URI`` as a syntax |
| reference. |
| |
| - :term:`LINUX_VERSION`: |
| The Linux kernel version you are using (e.g. "4.12"). |
| |
| - :term:`LINUX_VERSION_EXTENSION`: |
| The Linux kernel ``CONFIG_LOCALVERSION`` that is compiled into the |
| resulting kernel and visible through the ``uname`` command. |
| |
| - :term:`SRCREV`: The commit ID |
| from which you want to build. |
| |
| - :term:`PR`: Treat this variable the |
| same as you would in any other recipe. Increment the variable to |
| indicate to the OpenEmbedded build system that the recipe has |
| changed. |
| |
| - :term:`PV`: The default ``PV`` |
| assignment is typically adequate. It combines the |
| ``LINUX_VERSION`` with the Source Control Manager (SCM) revision |
| as derived from the :term:`SRCPV` |
| variable. The combined results are a string with the following |
| form: |
| 3.19.11+git1+68a635bf8dfb64b02263c1ac80c948647cc76d5f_1+218bd8d2022b9852c60d32f0d770931e3cf343e2 |
| While lengthy, the extra verbosity in ``PV`` helps ensure you are |
| using the exact sources from which you intend to build. |
| |
| - :term:`COMPATIBLE_MACHINE`: |
| A list of the machines supported by your new recipe. This variable |
| in the example recipe is set by default to a regular expression |
| that matches only the empty string, "(^$)". This default setting |
| triggers an explicit build failure. You must change it to match a |
| list of the machines that your new recipe supports. For example, |
| to support the ``qemux86`` and ``qemux86-64`` machines, use the |
| following form: COMPATIBLE_MACHINE = "qemux86|qemux86-64" |
| |
| 5. *Customize Your Recipe as Needed:* Provide further customizations to |
| your recipe as needed just as you would customize an existing |
| linux-yocto recipe. See the "`Modifying an Existing |
| Recipe <#modifying-an-existing-recipe>`__" section for information. |
| |
| Working with Out-of-Tree Modules |
| ================================ |
| |
| This section describes steps to build out-of-tree modules on your target |
| and describes how to incorporate out-of-tree modules in the build. |
| |
| Building Out-of-Tree Modules on the Target |
| ------------------------------------------ |
| |
| While the traditional Yocto Project development model would be to |
| include kernel modules as part of the normal build process, you might |
| find it useful to build modules on the target. This could be the case if |
| your target system is capable and powerful enough to handle the |
| necessary compilation. Before deciding to build on your target, however, |
| you should consider the benefits of using a proper cross-development |
| environment from your build host. |
| |
| If you want to be able to build out-of-tree modules on the target, there |
| are some steps you need to take on the target that is running your SDK |
| image. Briefly, the ``kernel-dev`` package is installed by default on |
| all ``*.sdk`` images and the ``kernel-devsrc`` package is installed on |
| many of the ``*.sdk`` images. However, you need to create some scripts |
| prior to attempting to build the out-of-tree modules on the target that |
| is running that image. |
| |
| Prior to attempting to build the out-of-tree modules, you need to be on |
| the target as root and you need to change to the ``/usr/src/kernel`` |
| directory. Next, ``make`` the scripts: |
| :: |
| |
| # cd /usr/src/kernel |
| # make scripts |
| |
| Because all SDK image recipes include ``dev-pkgs``, the |
| ``kernel-dev`` packages will be installed as part of the SDK image and |
| the ``kernel-devsrc`` packages will be installed as part of applicable |
| SDK images. The SDK uses the scripts when building out-of-tree modules. |
| Once you have switched to that directory and created the scripts, you |
| should be able to build your out-of-tree modules on the target. |
| |
| Incorporating Out-of-Tree Modules |
| --------------------------------- |
| |
| While it is always preferable to work with sources integrated into the |
| Linux kernel sources, if you need an external kernel module, the |
| ``hello-mod.bb`` recipe is available as a template from which you can |
| create your own out-of-tree Linux kernel module recipe. |
| |
| This template recipe is located in the ``poky`` Git repository of the |
| Yocto Project :yocto_git:`Source Repository <>` at: |
| :: |
| |
| poky/meta-skeleton/recipes-kernel/hello-mod/hello-mod_0.1.bb |
| |
| To get started, copy this recipe to your layer and give it a meaningful |
| name (e.g. ``mymodule_1.0.bb``). In the same directory, create a new |
| directory named ``files`` where you can store any source files, patches, |
| or other files necessary for building the module that do not come with |
| the sources. Finally, update the recipe as needed for the module. |
| Typically, you will need to set the following variables: |
| |
| - :term:`DESCRIPTION` |
| |
| - :term:`LICENSE* <LICENSE>` |
| |
| - :term:`SRC_URI` |
| |
| - :term:`PV` |
| |
| Depending on the build system used by the module sources, you might need |
| to make some adjustments. For example, a typical module ``Makefile`` |
| looks much like the one provided with the ``hello-mod`` template: |
| :: |
| |
| obj-m := hello.o |
| |
| SRC := $(shell pwd) |
| |
| all: |
| $(MAKE) -C $(KERNEL_SRC) M=$(SRC) |
| |
| modules_install: |
| $(MAKE) -C $(KERNEL_SRC) M=$(SRC) modules_install |
| ... |
| |
| The important point to note here is the :term:`KERNEL_SRC` variable. The |
| :ref:`module <ref-classes-module>` class sets this variable and the |
| :term:`KERNEL_PATH` variable to |
| ``${STAGING_KERNEL_DIR}`` with the necessary Linux kernel build |
| information to build modules. If your module ``Makefile`` uses a |
| different variable, you might want to override the |
| :ref:`ref-tasks-compile` step, or |
| create a patch to the ``Makefile`` to work with the more typical |
| ``KERNEL_SRC`` or ``KERNEL_PATH`` variables. |
| |
| After you have prepared your recipe, you will likely want to include the |
| module in your images. To do this, see the documentation for the |
| following variables in the Yocto Project Reference Manual and set one of |
| them appropriately for your machine configuration file: |
| |
| - :term:`MACHINE_ESSENTIAL_EXTRA_RDEPENDS` |
| |
| - :term:`MACHINE_ESSENTIAL_EXTRA_RRECOMMENDS` |
| |
| - :term:`MACHINE_EXTRA_RDEPENDS` |
| |
| - :term:`MACHINE_EXTRA_RRECOMMENDS` |
| |
| Modules are often not required for boot and can be excluded from certain |
| build configurations. The following allows for the most flexibility: |
| :: |
| |
| MACHINE_EXTRA_RRECOMMENDS += "kernel-module-mymodule" |
| |
| The value is |
| derived by appending the module filename without the ``.ko`` extension |
| to the string "kernel-module-". |
| |
| Because the variable is |
| :term:`RRECOMMENDS` and not a |
| :term:`RDEPENDS` variable, the build |
| will not fail if this module is not available to include in the image. |
| |
| Inspecting Changes and Commits |
| ============================== |
| |
| A common question when working with a kernel is: "What changes have been |
| applied to this tree?" Rather than using "grep" across directories to |
| see what has changed, you can use Git to inspect or search the kernel |
| tree. Using Git is an efficient way to see what has changed in the tree. |
| |
| What Changed in a Kernel? |
| ------------------------- |
| |
| Following are a few examples that show how to use Git commands to |
| examine changes. These examples are by no means the only way to see |
| changes. |
| |
| .. note:: |
| |
| In the following examples, unless you provide a commit range, |
| kernel.org |
| history is blended with Yocto Project kernel changes. You can form |
| ranges by using branch names from the kernel tree as the upper and |
| lower commit markers with the Git commands. You can see the branch |
| names through the web interface to the Yocto Project source |
| repositories at |
| . |
| |
| To see a full range of the changes, use the ``git whatchanged`` command |
| and specify a commit range for the branch (commit\ ``..``\ commit). |
| |
| Here is an example that looks at what has changed in the ``emenlow`` |
| branch of the ``linux-yocto-3.19`` kernel. The lower commit range is the |
| commit associated with the ``standard/base`` branch, while the upper |
| commit range is the commit associated with the ``standard/emenlow`` |
| branch. |
| :: |
| |
| $ git whatchanged origin/standard/base..origin/standard/emenlow |
| |
| To see short, one line summaries of changes use the ``git log`` command: |
| :: |
| |
| $ git log --oneline origin/standard/base..origin/standard/emenlow |
| |
| Use this command to see code differences for the changes: |
| :: |
| |
| $ git diff origin/standard/base..origin/standard/emenlow |
| |
| Use this command to see the commit log messages and the text |
| differences: |
| :: |
| |
| $ git show origin/standard/base..origin/standard/emenlow |
| |
| Use this command to create individual patches for each change. Here is |
| an example that that creates patch files for each commit and places them |
| in your ``Documents`` directory: |
| :: |
| |
| $ git format-patch -o $HOME/Documents origin/standard/base..origin/standard/emenlow |
| |
| Showing a Particular Feature or Branch Change |
| --------------------------------------------- |
| |
| Tags in the Yocto Project kernel tree divide changes for significant |
| features or branches. The ``git show`` tag command shows changes based |
| on a tag. Here is an example that shows ``systemtap`` changes: |
| :: |
| |
| $ git show systemtap |
| |
| You can use the ``git branch --contains`` tag command to |
| show the branches that contain a particular feature. This command shows |
| the branches that contain the ``systemtap`` feature: |
| :: |
| |
| $ git branch --contains systemtap |
| |
| Adding Recipe-Space Kernel Features |
| =================================== |
| |
| You can add kernel features in the |
| `recipe-space <#recipe-space-metadata>`__ by using the |
| :term:`KERNEL_FEATURES` |
| variable and by specifying the feature's ``.scc`` file path in the |
| :term:`SRC_URI` statement. When you |
| add features using this method, the OpenEmbedded build system checks to |
| be sure the features are present. If the features are not present, the |
| build stops. Kernel features are the last elements processed for |
| configuring and patching the kernel. Therefore, adding features in this |
| manner is a way to enforce specific features are present and enabled |
| without needing to do a full audit of any other layer's additions to the |
| ``SRC_URI`` statement. |
| |
| You add a kernel feature by providing the feature as part of the |
| ``KERNEL_FEATURES`` variable and by providing the path to the feature's |
| ``.scc`` file, which is relative to the root of the kernel Metadata. The |
| OpenEmbedded build system searches all forms of kernel Metadata on the |
| ``SRC_URI`` statement regardless of whether the Metadata is in the |
| "kernel-cache", system kernel Metadata, or a recipe-space Metadata (i.e. |
| part of the kernel recipe). See the "`Kernel Metadata |
| Location <#kernel-metadata-location>`__" section for additional |
| information. |
| |
| When you specify the feature's ``.scc`` file on the ``SRC_URI`` |
| statement, the OpenEmbedded build system adds the directory of that |
| ``.scc`` file along with all its subdirectories to the kernel feature |
| search path. Because subdirectories are searched, you can reference a |
| single ``.scc`` file in the ``SRC_URI`` statement to reference multiple |
| kernel features. |
| |
| Consider the following example that adds the "test.scc" feature to the |
| build. |
| |
| 1. *Create the Feature File:* Create a ``.scc`` file and locate it just |
| as you would any other patch file, ``.cfg`` file, or fetcher item you |
| specify in the ``SRC_URI`` statement. |
| |
| .. note:: |
| |
| - You must add the directory of the ``.scc`` file to the |
| fetcher's search path in the same manner as you would add a |
| ``.patch`` file. |
| |
| - You can create additional ``.scc`` files beneath the directory |
| that contains the file you are adding. All subdirectories are |
| searched during the build as potential feature directories. |
| |
| Continuing with the example, suppose the "test.scc" feature you are |
| adding has a ``test.scc`` file in the following directory: |
| :: |
| |
| my_recipe |
| | |
| +-linux-yocto |
| | |
| +-test.cfg |
| +-test.scc |
| |
| In this example, the |
| ``linux-yocto`` directory has both the feature ``test.scc`` file and |
| a similarly named configuration fragment file ``test.cfg``. |
| |
| 2. *Add the Feature File to SRC_URI:* Add the ``.scc`` file to the |
| recipe's ``SRC_URI`` statement: |
| :: |
| |
| SRC_URI_append = " file://test.scc" |
| |
| The leading space before the path is important as the path is |
| appended to the existing path. |
| |
| 3. *Specify the Feature as a Kernel Feature:* Use the |
| ``KERNEL_FEATURES`` statement to specify the feature as a kernel |
| feature: |
| :: |
| |
| KERNEL_FEATURES_append = " test.scc" |
| |
| The OpenEmbedded build |
| system processes the kernel feature when it builds the kernel. |
| |
| .. note:: |
| |
| If other features are contained below "test.scc", then their |
| directories are relative to the directory containing the |
| test.scc |
| file. |