The new ConstraintLayout library in Android Support has some new custom way
of handling the license. I suspect that they are going to use this new way
with all of the bits that gradle downloads. We also have to support it for
apps that use it, including soon fdroidclient.
fdroiddata!2094
ci-images!1
These should be reasonably backwards compatible, and there is already
automake1.11 for those that need a version that old. As for cmake, there
are five apps that seem to it:
com.amaze.filemanager
org.dolphinemu.dolphinemu
org.navitproject.navit
org.yabause.android
org.videolan.vlc
It looks like VLC is the only app that is currently building and using
cmake in the most recent releases. Some of them used to use cmake, but no
longer.
Sometimes, a build process requires newer versions of build tools than are
available in Debian/stable. Oftentimes, using the package straight from
Debian/testing works fine when a package is not available as a backport.
libtool 2.4.6 is needed for building VLC, so it is one example of this.
The preferences file sets up the apt "pinning" so that all updates are not
installed from testing, only the packages that are requested by adding
"/testing" after then package name.
closes#224
In order to install a package from jessie-backports, apt-get has to be told
to get it from there rather than the main archive. It will not use
jessie-backports by default even if it is added as an apt source.
closes#224
buildserver running in qemu/kvm to support KVM on KVM
jenkins.debian.net runs in QEMU/KVM instances, so in order to run the F-Droid buildserver there, it needs to work inside of a KVM guest. The best way I found to do that is to create QEMU/KVM instances via KVM's "nested" virtualization support. This collection of commits enables using QEMU/KVM as the buildserver when `./makebuildserver` detects that it is running inside of KVM. Otherwise, the old behavior is default: running in VirtualBox.
I have run these tests inside of ubuntu/16.04 on bare metal, which uses VirtualBox, and ubuntu/16.04 KVM guest, which uses QEMU/KVM. It'll also run on the Guardian Project jenkins box, which is Debian/jessie.
@mvdan @CiaranG @krt
See merge request !168
I think the `android update sdk` tool is installing all of the m2 files
that are present in the temp cache, and it seems to do it in order of
newest to oldest. Well done, and I thought that tool couldn't get any
worse. So only include the latest version of android_m2repository*.zip in
the temp cache.
The Android SDK by default includes some Google repositories of their
proprietary SDKs. We of course do not want that stuff ever. We also do
not need the emulator images since this process does not currently install
or run an emulator.
This is the last thing using Chef, which adds a lot of time to the time it
takes to fully provision the buildserver. This slows down development on
the things we are actually using, like running all builds on
jenkins.debian.net.
#210#165
This does not have the careful result rechecking that chef has, when it
installs each package in the list one at a time. So to help with failures
caused by a package failing to download, first try downloading all the
package, then run the install. The install pass will try to download any
missing packages.
Really, this should use ansible or perhaps chef again since those include
lots of tricks around this stuff.
This forces the release channel and version of chef-solo to install on the
guest VM. I was getting really massive, odd stacktraces without specifying
this, and chef is only used for Kivy now anyway.
The technique where /var/cache/apt is mounted as a shared folder conflicts
with vagrant-cachier's workings. Therefore, ignore vagrant-cachier if the
user selects ./makebuildserver's custom apt cache. The shared folder way
has the advantage for CI builds of storing the cache outside of
VAGRANT_HOME, which is set to be in the git project. That gets wiped by
`git clean -fdx` on each CI build.
Add ndk r11c
NDK11 is required by some apps (some versions of VLC) which will not build with r10e or r12b. As always, please test this before merging: I havent added a NDK before.
See merge request !155
This reverts commit 82d09560c6.
It doesn't work - the setup scripts are expecting a ".bin" file (which
is apparently a 7z archive), but what's actually got is a ".zip".
Conflicts:
buildserver/provision-android-ndk
Vagrantfile is now committed and not changed between configurations. It is
configed by translating the python config file's dict to a YAML file, which
Vagrantfile now loads and uses. This makes it a lot easier for vagrant
users and python programmers to understand, and hopefully makes it easier
to maintain and test with.
Python can easily output dicts as YAML, and a Vagrantfile is a ruby script,
which can easily read YAML. Going this route means that Vagrantfile can
ultimately be committed to git, and the configuration will happen all via
Python dicts output as YAML. That makes it drastically easier to follow
the code, and to make modifications.
easy_install does not provide any download caching, while pip does. This
also moves the python module installing a shell script that takes python
packages as args. That will allow for future uses like allowing app
metadata to include pip modules that they need.
This makes it so there is only a single `apt-get install` command run,
instead of one command per-package like with the chef script. It also adds
`apt-get upgrade` to make sure that the base box is fully up-to-date.
This is part of the effort to remove moving parts from the whole build
server setup. Why wrap shell scripts in ruby and chef if we can just
directly run a shell script?
Note that the apt packages are split into two halves, because it takes
too long (on 64 bit!) to install them all. The sensible fix would be
to simply up the timeout on the package installation section, but this
is completely broken in chef.
Also, remove jdk7 as it will become unused. We added jdk8 for
retrolambda, and now that we will use jdk8 as the default, jdk7 is
unnecessary as retrolambda can work fine with just jdk8.
This removes it from the buildserver, and the new CI image also only has
jdk8 from jessie-backports.
Fixes#185.
`fdroid build` handles setting the NDK env vars since the NDK version can
change depending on the app being build. Unlike ANDROID_HOME, there is no
single global NDK location. The NDK installs are all versioned.
This was not using anything special from chef, so do it in a shell script
instead. This makes the script easier for the python/shell people, and
probably uses less memory, since chef is a memory hog. This might even
make the provision go faster since it uploads the whole script as a file to
the VM, then runs it there. I think chef sends each command via SSH.
`android update sdk --no-ui` is the standard command line tool for
installing the Android SDK. By symlinking into the $ANDROID_HOME/temp dir,
the cached files can still be used. This converts the chef recipe to a
vagrant shell provisioning script since it was all bash anyway.
Some file names no longer officially have a -linux in them, so those were
changed to keep the cache working with the default filename.
bash provides a standard file location for a script to be run when the
shell starts: /etc/profile.d/ This converts the scattered bits of code for
making ~/.bsenv into a single provisioning script to generate
/etc/profile.d/bsenv.sh, which gets automatically executed when bash starts
Apparently, ruby is quite a memory hog when it forks. I've been getting
errors like this with ./makebuildserver:
Errno::ENOMEM - script[add_btools_17] (android-sdk::default line 72) had an
error: Errno::ENOMEM: Cannot allocate memory - fork(2)
So instead of looping in ruby and forking for each loop, handle the looping
in the bash script, so ruby is just calling a single bash script.
It will make it a lot easier to manage the cache if we use the original
file names, which often include the file version. This also changes the
download process to be resumable if there is a partial file in the cache,
and switches from calling wget on the command line to using the python libs
'requests' and 'clint' to provide a similar experience. While its not so
important for this particular bit of code to use those libraries, I think
those two will allow us to provide a better user experience throughout the
whole of fdroidserver.
In this case, it is already doing special tricks fetching the file size
from the server before trying to download it. I suppose this code could
instead check if the file exists, and if so, check the hash sum. I think
that would be slower for most people since checking the hash on large files
takes a noticeable about of time, while a HTTP HEAD request is pretty tiny.
Install version 25 now. Also use the smaller tools zip. While at it,
also remove the tools re-install - it's not worth it, as long as we keep
the initial tools zip up to date.
config option to enable per-app repos for nightly builds
For Guardian Project, we've been running an fdroid repo for the nightly builds for each of our apps: https://dev.guardianproject.info/debug This is built using a big, hacked up shell script: [update-debug-fdroid-repo](https://github.com/guardianproject/fdroid-repo-tools/blob/master/update-debug-fdroid-repo). It has proven very useful to us to be able to subscribe to the nightly build for a single app, so this the first step of porting that horrid shell script to `fdroidserver`.
This also helps make the fdroidserver tool suite the single set of tools for all types of builds and releases. That will hopefully drive more free software developers to make f-droid.org the core channel for official releases.
See merge request !66
On some setups, using a custom apt mirror is essential, so this adds a
command line flag to override the default one:
http://ftp.uk.debian.org/debian/
For example, someone who runs a local mirror for offline and low bandwidth
situations.
This uses a % rather than a .format() to avoid escaping { and }, which have
meaning when using .format().