| .. SPDX-License-Identifier: CC-BY-SA-2.0-UK |
| |
| ****************** |
| Kernel Maintenance |
| ****************** |
| |
| Tree Construction |
| ================= |
| |
| This section describes construction of the Yocto Project kernel source |
| repositories as accomplished by the Yocto Project team to create Yocto |
| Linux kernel repositories. These kernel repositories are found under the |
| heading "Yocto Linux Kernel" at :yocto_git:`/` and |
| are shipped as part of a Yocto Project release. The team creates these |
| repositories by compiling and executing the set of feature descriptions |
| for every BSP and feature in the product. Those feature descriptions |
| list all necessary patches, configurations, branches, tags, and feature |
| divisions found in a Yocto Linux kernel. Thus, the Yocto Project Linux |
| kernel repository (or tree) and accompanying Metadata in the |
| ``yocto-kernel-cache`` are built. |
| |
| The existence of these repositories allow you to access and clone a |
| particular Yocto Project Linux kernel repository and use it to build |
| images based on their configurations and features. |
| |
| You can find the files used to describe all the valid features and BSPs |
| in the Yocto Project Linux kernel in any clone of the Yocto Project |
| Linux kernel source repository and ``yocto-kernel-cache`` Git trees. For |
| example, the following commands clone the Yocto Project baseline Linux |
| kernel that branches off ``linux.org`` version 4.12 and the |
| ``yocto-kernel-cache``, which contains stores of kernel Metadata: |
| :: |
| |
| $ git clone git://git.yoctoproject.org/linux-yocto-4.12 |
| $ git clone git://git.yoctoproject.org/linux-kernel-cache |
| |
| For more information on |
| how to set up a local Git repository of the Yocto Project Linux kernel |
| files, see the |
| ":ref:`kernel-dev/kernel-dev-common:preparing the build host to work on the kernel`" |
| section. |
| |
| Once you have cloned the kernel Git repository and the cache of Metadata |
| on your local machine, you can discover the branches that are available |
| in the repository using the following Git command: $ git branch -a |
| Checking out a branch allows you to work with a particular Yocto Linux |
| kernel. For example, the following commands check out the |
| "standard/beagleboard" branch of the Yocto Linux kernel repository and |
| the "yocto-4.12" branch of the ``yocto-kernel-cache`` repository: |
| :: |
| |
| $ cd ~/linux-yocto-4.12 |
| $ git checkout -b my-kernel-4.12 remotes/origin/standard/beagleboard |
| $ cd ~/linux-kernel-cache |
| $ git checkout -b my-4.12-metadata remotes/origin/yocto-4.12 |
| |
| .. note:: |
| |
| Branches in the |
| yocto-kernel-cache |
| repository correspond to Yocto Linux kernel versions (e.g. |
| "yocto-4.12", "yocto-4.10", "yocto-4.9", and so forth). |
| |
| Once you have checked out and switched to appropriate branches, you can |
| see a snapshot of all the kernel source files used to used to build that |
| particular Yocto Linux kernel for a particular board. |
| |
| To see the features and configurations for a particular Yocto Linux |
| kernel, you need to examine the ``yocto-kernel-cache`` Git repository. |
| As mentioned, branches in the ``yocto-kernel-cache`` repository |
| correspond to Yocto Linux kernel versions (e.g. ``yocto-4.12``). |
| Branches contain descriptions in the form of ``.scc`` and ``.cfg`` |
| files. |
| |
| You should realize, however, that browsing your local |
| ``yocto-kernel-cache`` repository for feature descriptions and patches |
| is not an effective way to determine what is in a particular kernel |
| branch. Instead, you should use Git directly to discover the changes in |
| a branch. Using Git is an efficient and flexible way to inspect changes |
| to the kernel. |
| |
| .. note:: |
| |
| Ground up reconstruction of the complete kernel tree is an action |
| only taken by the Yocto Project team during an active development |
| cycle. When you create a clone of the kernel Git repository, you are |
| simply making it efficiently available for building and development. |
| |
| The following steps describe what happens when the Yocto Project Team |
| constructs the Yocto Project kernel source Git repository (or tree) |
| found at :yocto_git:`/` given the introduction of a new |
| top-level kernel feature or BSP. The following actions effectively |
| provide the Metadata and create the tree that includes the new feature, |
| patch, or BSP: |
| |
| 1. *Pass Feature to the OpenEmbedded Build System:* A top-level kernel |
| feature is passed to the kernel build subsystem. Normally, this |
| feature is a BSP for a particular kernel type. |
| |
| 2. *Locate Feature:* The file that describes the top-level feature is |
| located by searching these system directories: |
| |
| - The in-tree kernel-cache directories, which are located in the |
| :yocto_git:`yocto-kernel-cache </cgit/cgit.cgi/yocto-kernel-cache/tree/bsp>` |
| repository organized under the "Yocto Linux Kernel" heading in the |
| :yocto_git:`Yocto Project Source Repositories <>`. |
| |
| - Areas pointed to by ``SRC_URI`` statements found in kernel recipes |
| |
| For a typical build, the target of the search is a feature |
| description in an ``.scc`` file whose name follows this format (e.g. |
| ``beaglebone-standard.scc`` and ``beaglebone-preempt-rt.scc``): |
| :: |
| |
| bsp_root_name-kernel_type.scc |
| |
| 3. *Expand Feature:* Once located, the feature description is either |
| expanded into a simple script of actions, or into an existing |
| equivalent script that is already part of the shipped kernel. |
| |
| 4. *Append Extra Features:* Extra features are appended to the top-level |
| feature description. These features can come from the |
| :term:`KERNEL_FEATURES` |
| variable in recipes. |
| |
| 5. *Locate, Expand, and Append Each Feature:* Each extra feature is |
| located, expanded and appended to the script as described in step |
| three. |
| |
| 6. *Execute the Script:* The script is executed to produce files |
| ``.scc`` and ``.cfg`` files in appropriate directories of the |
| ``yocto-kernel-cache`` repository. These files are descriptions of |
| all the branches, tags, patches and configurations that need to be |
| applied to the base Git repository to completely create the source |
| (build) branch for the new BSP or feature. |
| |
| 7. *Clone Base Repository:* The base repository is cloned, and the |
| actions listed in the ``yocto-kernel-cache`` directories are applied |
| to the tree. |
| |
| 8. *Perform Cleanup:* The Git repositories are left with the desired |
| branches checked out and any required branching, patching and tagging |
| has been performed. |
| |
| The kernel tree and cache are ready for developer consumption to be |
| locally cloned, configured, and built into a Yocto Project kernel |
| specific to some target hardware. |
| |
| .. note:: |
| |
| - The generated ``yocto-kernel-cache`` repository adds to the kernel |
| as shipped with the Yocto Project release. Any add-ons and |
| configuration data are applied to the end of an existing branch. |
| The full repository generation that is found in the official Yocto |
| Project kernel repositories at :yocto_git:`/` is the |
| combination of all supported boards and configurations. |
| |
| - The technique the Yocto Project team uses is flexible and allows |
| for seamless blending of an immutable history with additional |
| patches specific to a deployment. Any additions to the kernel |
| become an integrated part of the branches. |
| |
| - The full kernel tree that you see on :yocto_git:`/` is |
| generated through repeating the above steps for all valid BSPs. |
| The end result is a branched, clean history tree that makes up the |
| kernel for a given release. You can see the script (``kgit-scc``) |
| responsible for this in the |
| :yocto_git:`yocto-kernel-tools </cgit.cgi/yocto-kernel-tools/tree/tools>` |
| repository. |
| |
| - The steps used to construct the full kernel tree are the same |
| steps that BitBake uses when it builds a kernel image. |
| |
| Build Strategy |
| ============== |
| |
| Once you have cloned a Yocto Linux kernel repository and the cache |
| repository (``yocto-kernel-cache``) onto your development system, you |
| can consider the compilation phase of kernel development, which is |
| building a kernel image. Some prerequisites exist that are validated by |
| the build process before compilation starts: |
| |
| - The :term:`SRC_URI` points to the |
| kernel Git repository. |
| |
| - A BSP build branch with Metadata exists in the ``yocto-kernel-cache`` |
| repository. The branch is based on the Yocto Linux kernel version and |
| has configurations and features grouped under the |
| ``yocto-kernel-cache/bsp`` directory. For example, features and |
| configurations for the BeagleBone Board assuming a |
| ``linux-yocto_4.12`` kernel reside in the following area of the |
| ``yocto-kernel-cache`` repository: yocto-kernel-cache/bsp/beaglebone |
| |
| .. note:: |
| |
| In the previous example, the "yocto-4.12" branch is checked out in |
| the |
| yocto-kernel-cache |
| repository. |
| |
| The OpenEmbedded build system makes sure these conditions exist before |
| attempting compilation. Other means, however, do exist, such as as |
| bootstrapping a BSP. |
| |
| Before building a kernel, the build process verifies the tree and |
| configures the kernel by processing all of the configuration "fragments" |
| specified by feature descriptions in the ``.scc`` files. As the features |
| are compiled, associated kernel configuration fragments are noted and |
| recorded in the series of directories in their compilation order. The |
| fragments are migrated, pre-processed and passed to the Linux Kernel |
| Configuration subsystem (``lkc``) as raw input in the form of a |
| ``.config`` file. The ``lkc`` uses its own internal dependency |
| constraints to do the final processing of that information and generates |
| the final ``.config`` file that is used during compilation. |
| |
| Using the board's architecture and other relevant values from the |
| board's template, kernel compilation is started and a kernel image is |
| produced. |
| |
| The other thing that you notice once you configure a kernel is that the |
| build process generates a build tree that is separate from your kernel's |
| local Git source repository tree. This build tree has a name that uses |
| the following form, where ``${MACHINE}`` is the metadata name of the |
| machine (BSP) and "kernel_type" is one of the Yocto Project supported |
| kernel types (e.g. "standard"): |
| :: |
| |
| linux-${MACHINE}-kernel_type-build |
| |
| The existing support in the ``kernel.org`` tree achieves this default |
| functionality. |
| |
| This behavior means that all the generated files for a particular |
| machine or BSP are now in the build tree directory. The files include |
| the final ``.config`` file, all the ``.o`` files, the ``.a`` files, and |
| so forth. Since each machine or BSP has its own separate |
| :term:`Build Directory` in its own separate |
| branch of the Git repository, you can easily switch between different |
| builds. |