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# /root/metro/scripts/buildrepo zap | # ##i##/root/metro/scripts/buildrepo zap | ||
Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv7a_hardfp/.control/.failcount... | Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv7a_hardfp/.control/.failcount... | ||
Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv6j_hardfp/.control/.failcount... | Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv6j_hardfp/.control/.failcount... |
Latest revision as of 03:26, February 25, 2022
Metro also includes a number of advanced features that can be used to automate builds and set up distributed build servers. These features require you to emerge sqlalchemy
, as SQLite is used as a dependency and also emerge dev-python/lxml
as this is needed for index file generation.
Repository Management
Metro includes a script in the scripts
directory called buildrepo
. Buildrepo serves as the heart of Metro's advanced repository management features.
Initial Setup
To use buildrepo
, you will first need to create a .buildbot
configuration file. Here is the file I use on my AMD Jaguar build server:
/root/.buildbot
(python source code) builds = (
"funtoo-current",
"funtoo-current-hardened",
)
arches = (
"x86-64bit",
"pure64"
)
subarches = (
"amd64-jaguar",
"amd64-jaguar-pure64",
)
def map_build(build, subarch, full, full_date):
# arguments refer to last build...
if full == True:
buildtype = ( "freshen", )
else:
buildtype = ("full", )
# return value can be a string like "full+openvz" or a sequence type like [ "freshen", "openvz" ]
return buildtype
This file is actually a python source file that defines the tuples builds
, arches
and subarches
. These variables tell buildrepo
which builds, arches and subarches it should manage. A map_build()
function is also defined which buildbot
uses to determine what kind of build to perform. The arguments passed to the function are based on the last successful build. The function can read these arguments and return a string to define the type of the next build. In the above example, the map_build()
function will cause the next build after a freshen build to be a full build, and the next build after a full build to be a freshen build, so that the build will alternate between full and freshen.
Automated Builds
Once the .buildbot
file has been created, the buildrepo
and buildbot.sh
tools are ready to use. Here's how they work. These tools are designed to keep your repository (path/mirror
in /root/.metro
up-to-date by inspecting your repository and looking for stages that are out-of-date.
To list the next build that will be performed, do this -- this is from my ARM build server:
root # ./buildrepo nextbuild build=funtoo-current arch_desc=arm-32bit subarch=armv7a_hardfp fulldate=2015-02-08 nextdate=2015-02-20 failcount=0 target=full extras=''
If no output is displayed, then all your builds are up-to-date.
To actually run the next build, run buildbot.sh
:
root # ./buildbot.sh
If you're thinking that buildbot.sh
would be a good candidate for a cron job, you've got the right idea!
List Builds
To get a quick look at our repository, let's run the buildrepo fails
command:
root # ./buildrepo fails 0 2015-02-18 /home/mirror/funtoo/funtoo-current/x86-64bit/amd64-jaguar 0 2015-02-18 /home/mirror/funtoo/funtoo-current/pure64/amd64-jaguar-pure64 0 2015-02-18 /home/mirror/funtoo/funtoo-current-hardened/x86-64bit/amd64-jaguar 0 2015-02-18 /home/mirror/funtoo/funtoo-current-hardened/pure64/amd64-jaguar-pure64
On my AMD Jaguar build server, on Feb 20, 2015, this lists all the builds that buildrepo
has been configured to manage. The first number on each line is a failcount, which is the number of consecutive times that the build has failed. A zero value indicates that everything's okay. The failcount is an important feature of the advanced repository management features. Here are a number of behaviors that are implemented based on failcount:
- If
buildbot.sh
tries to build a stage and the build fails, the failcount is incremented. - If the build succeeds for a particular build, the failcount is reset to zero.
- Builds with the lowest failcount are prioritized by
buildrepo
to build next, to steer towards builds that are more likely to complete successfully. - Once the failcount reaches 3 for a particular build, it is removed from the build rotation.
Resetting Failcount
If a build has issues, the failcount for a build will reach 3, at which point it will be pulled out of build rotation. To clear failcount, so that these builds are attempted again -- possibly fixed by new updates to the Portage tree -- use buildrepo zap
:
root # /root/metro/scripts/buildrepo zap Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv7a_hardfp/.control/.failcount... Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv6j_hardfp/.control/.failcount... Removing /mnt/data/funtoo/funtoo-current/arm-32bit/armv5te/.control/.failcount...
Repository Maintenance
A couple of repository maintenance tools are provided:
buildrepo digestgen
will generate hash files for the archives in your repository, and clean up stale hashes.buildrepo index.xml
will create an index.xml file at the root of your repository, listing all builds available.buildrepo clean
will output a shell script that will remove old stages. No more than the three most recent stage builds for each build/arch/subarch are kept.
Distributed Repositories
In many situation, you will have a number of build servers, and each will build a subset of your master repository, and then upload builds to the master repository. This is an area of Metro that is being actively developed. For now, automated upload functionality is not enabled, but is expected to be implemented in the relatively near future. However, it is possible to have your master repository differentiate between subarches that are built locally, and thus should be part of that system's buildbot
build rotation, and those that are stored locally and built remotely. These builds should be cleaned when buildrepo clean
is run, but should not enter the local build rotation. To set this up, modify /root/.buildbot
and use the subarches
and all_subarches
variables:
/root/.buildbot
- Excerpt of .buildbot config for master repository# subarches we are building locally:
subarches = (
"pentium4",
"athlon-xp",
"corei7",
"corei7-pure64",
"generic_32",
"i686",
"amd64-k8",
"amd64-k8-pure64",
"core2_64",
"core2_64-pure64",
"generic_64",
"generic_64-pure64",
)
# Things we need to clean, even if we may not be building:
all_subarches = subarches + (
"atom_32",
"atom_64",
"atom_64-pure64",
"amd64-k10",
"amd64-k10-pure64",
"amd64-bulldozer",
"amd64-bulldozer-pure64",
"amd64-steamroller",
"amd64-steamroller-pure64",
"amd64-piledriver",
"amd64-piledriver-pure64",
"amd64-jaguar",
"amd64-jaguar-pure64",
"intel64-haswell",
"intel64-haswell-pure64",
"intel64-ivybridge-pure64",
"intel64-ivybridge",
"armv7a_hardfp",
"armv6j_hardfp",
"armv5te"
)
Using binary cache
Metro has built-in feature which allows to use binary packages cache rather then building same list of packages from sources. For example, core packages, such as @system are updated at slower pace and it makes sense to enable binary cache to make stage building blazing fast. However, the real disadvantage with using binary cache could be a core package update that due to internal ABI changes require rebuilding of numerous packages from sources. Good example is sys-libs/ncurses-5
to sys-libs/ncurses-6
major update. This is the case when you would need to disable binary cache and use regular ebuild installation from sources. To enable binary cache, in your metro git repository copy, edit the common.conf
/etc/builds/common.conf
- Excerpt of default common.conf[section metro]
options:
options/stage:
target: gentoo
and set cache/package
/etc/builds/common.conf
- Excerpt of common.conf with binary cache enabled[section metro]
options:
options/stage: cache/package
target: gentoo
During stage build metro will save package cache in /var/tmp/metro/cache/package-cache
. With any next builds this binary package cache will be used.