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diff --git a/poky/documentation/test-manual/test-manual-understand-autobuilder.xml b/poky/documentation/test-manual/test-manual-understand-autobuilder.xml deleted file mode 100644 index 8600367be..000000000 --- a/poky/documentation/test-manual/test-manual-understand-autobuilder.xml +++ /dev/null @@ -1,314 +0,0 @@ -<!DOCTYPE chapter PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN" -"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd" -[<!ENTITY % poky SYSTEM "../poky.ent"> %poky; ] > -<!--SPDX-License-Identifier: CC-BY-2.0-UK--> - -<chapter id='test-manual-understand-autobuilder'> - -<title>Understanding the Yocto Project Autobuilder</title> - <section> - <title>Execution Flow within the Autobuilder</title> - <para>The "a-full" and "a-quick" targets are the usual entry points into the Autobuilder and - it makes sense to follow the process through the system starting there. This is best - visualised from the Autobuilder Console view (<link linkend="" - >https://autobuilder.yoctoproject.org/typhoon/#/console</link>). </para> - <para>Each item along the top of that view represents some "target build" and these targets - are all run in parallel. The 'full' build will trigger the majority of them, the "quick" - build will trigger some subset of them. The Autobuilder effectively runs whichever - configuration is defined for each of those targets on a seperate buildbot worker. To - understand the configuration, you need to look at the entry on - <filename>config.json</filename> file within the - <filename>yocto-autobuilder-helper</filename> repository. The targets are defined in - the ‘overrides' section, a quick example could be qemux86-64 which looks - like:<literallayout class="monospaced"> - "qemux86-64" : { - "MACHINE" : "qemux86-64", - "TEMPLATE" : "arch-qemu", - "step1" : { - "extravars" : [ - "IMAGE_FSTYPES_append = ' wic wic.bmap'" - ] - } - }, - </literallayout>And - to expand that, you need the "arch-qemu" entry from the "templates" section, which looks - like:<literallayout class="monospaced"> - "arch-qemu" : { - "BUILDINFO" : true, - "BUILDHISTORY" : true, - "step1" : { - "BBTARGETS" : "core-image-sato core-image-sato-dev core-image-sato-sdk core-image-minimal core-image-minimal-dev core-image-sato:do_populate_sdk", - "SANITYTARGETS" : "core-image-minimal:do_testimage core-image-sato:do_testimage core-image-sato-sdk:do_testimage core-image-sato:do_testsdk" - }, - "step2" : { - "SDKMACHINE" : "x86_64", - "BBTARGETS" : "core-image-sato:do_populate_sdk core-image-minimal:do_populate_sdk_ext core-image-sato:do_populate_sdk_ext", - "SANITYTARGETS" : "core-image-sato:do_testsdk core-image-minimal:do_testsdkext core-image-sato:do_testsdkext" - }, - "step3" : { - "BUILDHISTORY" : false, - "EXTRACMDS" : ["${SCRIPTSDIR}/checkvnc; DISPLAY=:1 oe-selftest ${HELPERSTMACHTARGS} -j 15"], - "ADDLAYER" : ["${BUILDDIR}/../meta-selftest"] - } - }, - </literallayout>Combining - these two entries you can see that "qemux86-64" is a three step build where the - <filename>bitbake BBTARGETS</filename> would be run, then <filename>bitbake - SANITYTARGETS</filename> for each step; all for - <filename>MACHINE="qemx86-64"</filename> but with differing SDKMACHINE settings. In - step 1 an extra variable is added to the <filename>auto.conf</filename> file to enable - wic image generation.</para> - <para>While not every detail of this is covered here, you can see how the templating - mechanism allows quite complex configurations to be built up yet allows duplication and - repetition to be kept to a minimum.</para> - <para>The different build targets are designed to allow for parallelisation, so different - machines are usually built in parallel, operations using the same machine and metadata - are built sequentially, with the aim of trying to optimise build efficiency as much as - possible.</para> - <para>The <filename>config.json</filename> file is processed by the scripts in the Helper - repository in the <filename>scripts</filename> directory. The following section details - how this works.</para> - </section> - - <section id='test-autobuilder-target-exec-overview'> - <title>Autobuilder Target Execution Overview</title> - - <para>For each given target in a build, the Autobuilder executes several steps. These are - configured in <filename>yocto-autobuilder2/builders.py</filename> and roughly consist - of: <orderedlist> - <listitem id='test-list-tgt-exec-clobberdir'> - <para><emphasis>Run <filename>clobberdir</filename></emphasis></para> - <para>This cleans out any previous build. Old builds are left around to allow - easier debugging of failed builds. For additional information, see <link - linkend="test-clobberdir"><filename>clobberdir</filename></link>.</para> - </listitem> - <listitem> - <para><emphasis>Obtain yocto-autobuilder-helper</emphasis></para> - <para>This step clones the <filename>yocto-autobuilder-helper</filename> git - repository. This is necessary to prevent the requirement to maintain all the - release or project-specific code within Buildbot. The branch chosen matches - the release being built so we can support older releases and still make - changes in newer ones.</para> - </listitem> - <listitem> - <para><emphasis>Write layerinfo.json</emphasis></para> - <para>This transfers data in the Buildbot UI when the build was configured to - the Helper.</para> - </listitem> - <listitem> - <para><emphasis>Call scripts/shared-repo-unpack</emphasis></para> - <para>This is a call into the Helper scripts to set up a checkout of all the - pieces this build might need. It might clone the BitBake repository and the - OpenEmbedded-Core repository. It may clone the Poky repository, as well as - additional layers. It will use the data from the - <filename>layerinfo.json</filename> file to help understand the - configuration. It will also use a local cache of repositories to speed up - the clone checkouts. For additional information, see <link - linkend="test-autobuilder-clone-cache">Autobuilder Clone - Cache</link>.</para> - <para>This step has two possible modes of operation. If the build is part of a - parent build, its possible that all the repositories needed may already be - available, ready in a pre-prepared directory. An "a-quick" or "a-full" build - would prepare this before starting the other sub-target builds. This is done - for two reasons:<itemizedlist> - <listitem> - <para>the upstream may change during a build, for example, from a - forced push and this ensures we have matching content for the - whole build</para> - </listitem> - <listitem> - <para>if 15 Workers all tried to pull the same data from the same - repos, we can hit resource limits on upstream servers as they - can think they are under some kind of network attack</para> - </listitem> - </itemizedlist>This pre-prepared directory is shared among the Workers over - NFS. If the build is an individual build and there is no "shared" directory - available, it would clone from the cache and the upstreams as necessary. - This is considered the fallback mode.</para> - </listitem> - <listitem> - <para><emphasis>Call scripts/run-config</emphasis></para> - <para>This is another call into the Helper scripts where its expected that the - main functionality of this target will be executed.</para> - </listitem> - </orderedlist></para> - </section> - <section id='test-autobuilder-tech'> - <title>Autobuilder Technology</title> - <para>The Autobuilder has Yocto Project-specific functionality to allow builds to operate - with increased efficiency and speed.</para> - <section id='test-clobberdir'> - <title>clobberdir</title> - <para>When deleting files, the Autobuilder uses <filename>clobberdir</filename>, which - is a special script that moves files to a special location, rather than deleting - them. Files in this location are deleted by an <filename>rm</filename> command, - which is run under <filename>ionice -c 3</filename>. For example, the deletion only - happens when there is idle IO capacity on the Worker. The Autobuilder Worker Janitor - runs this deletion. See <link linkend="test-autobuilder-worker-janitor">Autobuilder - Worker Janitor</link>.</para> - </section> - <section id='test-autobuilder-clone-cache'> - <title>Autobuilder Clone Cache</title> - <para>Cloning repositories from scratch each time they are required was slow on the - Autobuilder. We therefore have a stash of commonly used repositories pre-cloned on - the Workers. Data is fetched from these during clones first, then "topped up" with - later revisions from any upstream when necesary. The cache is maintained by the - Autobuilder Worker Janitor. See <link linkend="test-autobuilder-worker-janitor" - >Autobuilder Worker Janitor</link>.</para> - </section> - <section id='test-autobuilder-worker-janitor'> - <title>Autobuilder Worker Janitor</title> - <para>This is a process running on each Worker that performs two basic operations, - including background file deletion at IO idle (see <link - linkend="test-list-tgt-exec-clobberdir">Target Execution: clobberdir</link>) and - maintainenance of a cache of cloned repositories to improve the speed the system can - checkout repositories.</para> - </section> - <section id='test-shared-dl-dir'> - <title>Shared DL_DIR</title> - <para>The Workers are all connected over NFS which allows DL_DIR to be shared between - them. This reduces network accesses from the system and allows the build to be sped - up. Usage of the directory within the build system is designed to be able to be - shared over NFS.</para> - </section> - <section id='test-shared-sstate-cache'> - <title>Shared SSTATE_DIR</title> - <para>The Workers are all connected over NFS which allows the - <filename>sstate</filename> directory to be shared between them. This means once - a Worker has built an artefact, all the others can benefit from it. Usage of the - directory within the directory is designed for sharing over NFS.</para> - </section> - <section id='test-resulttool'> - <title>Resulttool</title> - <para>All of the different tests run as part of the build generate output into - <filename>testresults.json</filename> files. This allows us to determine which - tests ran in a given build and their status. Additional information, such as failure - logs or the time taken to run the tests, may also be included.</para> - <para>Resulttool is part of OpenEmbedded-Core and is used to manipulate these json - results files. It has the ability to merge files together, display reports of the - test results and compare different result files.</para> - <para>For details, see <link linkend="" - >https://wiki.yoctoproject.org/wiki/Resulttool</link>.</para> - </section> - </section> - <section id='test-run-config-tgt-execution'> - <title>run-config Target Execution</title> - <para>The <filename>scripts/run-config</filename> execution is where most of the work within - the Autobuilder happens. It runs through a number of steps; the first are general setup - steps that are run once and include:<orderedlist> - <listitem> - <para>Set up any <filename>buildtools-tarball</filename> if configured.</para> - </listitem> - <listitem> - <para>Call "buildhistory-init" if buildhistory is configured.</para> - </listitem> - </orderedlist></para> - <para>For each step that is configured in <filename>config.json</filename>, it will perform - the following:</para> - <para> - <remark>## WRITER's question: What does "logging in as stepXa" and others refer to - below? ##</remark> - <orderedlist> - <listitem id="test-run-config-add-layers-step"> - <para dir="ltr">Add any layers that are specified using the - <filename>bitbake-layers add-layer</filename> command (logging as - stepXa)</para> - </listitem> - <listitem> - <para dir="ltr">Call the <filename>scripts/setup-config</filename> script to - generate the necessary <filename>auto.conf</filename> configuration file for - the build</para> - </listitem> - <listitem> - <para dir="ltr">Run the <filename>bitbake BBTARGETS</filename> command (logging - as stepXb)</para> - </listitem> - <listitem> - <para dir="ltr">Run the <filename>bitbake SANITYTARGETS</filename> command - (logging as stepXc)</para> - </listitem> - <listitem> - <para dir="ltr">Run the <filename>EXTRACMDS</filename> command, which are run - within the BitBake build environment (logging as stepXd)</para> - </listitem> - <listitem> - <para dir="ltr">Run the <filename>EXTRAPLAINCMDS</filename> command(s), which - are run outside the BitBake build environment (logging as stepXd)</para> - </listitem> - <listitem> - <para dir="ltr">Remove any layers added in <link - linkend="test-run-config-add-layers-step">step 1</link> using the - <filename>bitbake-layers remove-layer</filename> command (logging as - stepXa)</para> - </listitem> - </orderedlist> - </para> - <para>Once the execution steps above complete, <filename>run-config</filename> executes a - set of post-build steps, including:<orderedlist> - <listitem> - <para dir="ltr">Call <filename>scripts/publish-artifacts</filename> to collect - any output which is to be saved from the build.</para> - </listitem> - <listitem> - <para dir="ltr">Call <filename>scripts/collect-results</filename> to collect any - test results to be saved from the build.</para> - </listitem> - <listitem> - <para dir="ltr">Call <filename>scripts/upload-error-reports</filename> to send - any error reports generated to the remote server.</para> - </listitem> - <listitem> - <para dir="ltr">Cleanup the build directory using <link - linkend="test-clobberdir"><filename>clobberdir</filename></link> if the - build was successful, else rename it to "build-renamed" for potential future - debugging.</para> - </listitem> - </orderedlist></para> - </section> - <section id='test-deploying-yp-autobuilder'> - <title>Deploying Yocto Autobuilder</title> - <para>The most up to date information about how to setup and deploy your own Autbuilder can - be found in README.md in the <filename>yocto-autobuilder2</filename> repository.</para> - <para>We hope that people can use the <filename>yocto-autobuilder2</filename> code directly - but it is inevitable that users will end up needing to heavily customise the - <filename>yocto-autobuilder-helper</filename> repository, particularly the - <filename>config.json</filename> file as they will want to define their own test - matrix.</para> - <para>The Autobuilder supports wo customization options: <itemizedlist> - <listitem> - <para>variable substitution</para> - </listitem> - <listitem> - <para>overlaying configuration files</para> - </listitem> - </itemizedlist>The standard <filename>config.json</filename> minimally attempts to allow - substitution of the paths. The Helper script repository includes a - <filename>local-example.json</filename> file to show how you could override these - from a separate configuration file. Pass the following into the environment of the - Autobuilder:<literallayout class="monospaced"> - $ ABHELPER_JSON="config.json local-example.json" - </literallayout>As - another example, you could also pass the following into the - environment:<literallayout class="monospaced"> - $ ABHELPER_JSON="config.json <replaceable>/some/location/</replaceable>local.json" - </literallayout>One - issue users often run into is validation of the <filename>config.json</filename> files. - A tip for minimizing issues from invalid json files is to use a Git - <filename>pre-commit-hook.sh</filename> script to verify the JSON file before - committing it. Create a symbolic link as - follows:<literallayout class="monospaced"> - $ ln -s ../../scripts/pre-commit-hook.sh .git/hooks/pre-commit - </literallayout></para> - </section> - - - - - - - - -</chapter> -<!-- -vim: expandtab tw=80 ts=4 ---> |