Target arch is the system the package will run on. Host arch is the
system the package is compiled on.
For example kernel packages can be compiled on host arch x86_64 and
intended to run on target arch armhf. A build is necessary check
against host arch will always return True. The correct way is to check if
the package needs to be built for target arch.
Do not try to build and install dependencies for the package's
architecture when compiling in the "native" mode. That mode is
described here in detail:
https://wiki.postmarketos.org/wiki/Build_internals#Cross-compile_types
This makes it possible to cross compile kernels again, which need to
be built with GCC6. We have switched to Alpine's GCC6 package, but it is
not available for armhf/aarch64 on edge yet, because Alpine's build bots
are stuck (right now armhf is not even listed):
http://build.alpinelinux.org/
Huge thanks to ryang2478/Decatf for posting this patch in pmaports#138!
Clearly state which version is being used, and also display the message
when using build --force.
- Old:
WARNING: Package 'ubuntu-app-launch' in your aports folder has version
0_git20180604-r0, but the binary package repositories already have version
0_p20181101174257-r0! See also: <https://postmarketos.org/warning-repo2>
- New:
WARNING: package hello-world: aport version 1-r4 is lower than 1-r5 from
the binary repository. 1-r5 will be used when installing hello-world.
See also: <https://postmarketos.org/warning-repo2>
Find the main package by assuming it is a prefix of the subpkgname. We
do that, because in some APKBUILDs the subpkgname="" variable gets
filled with a shell loop and the APKBUILD parser in pmbootstrap can't
parse this right. (Intentionally, we don't want to implement a full
shell parser.)
This covers most use cases and saves a lot of build time. Can be
changed on demand. Again, this simplifies package building as part of
the new build infrastructure effort.
Use the device's architecture instead of noarch. Because the device
packages should never be built for other architectures, even if all
depends can be built for other arches as well.
This simplifies package building as part of the new build
infrastructure effort.
All existing pmaports will be changed shortly, along with a test case
in pmaports.
Set HOME to /root for commands started with pmb.chroot.root() and to
/home/pmos for commands started with pmb.chroot.user().
POSIX requires this variable to be set, see:
<http://pubs.opengroup.org/onlinepubs/009695399/basedefs/xbd_chap08.html>
And this prevents a crash in "adb", which takes and alternative code
path if HOME is not set, that does not work with musl (fixes#1638).
Thanks to @ryang2678 for figuring this out!
* create symlinks to the GCC8 patches (introduced in pmaports!35)
* link to the new vendorkernel reference wiki page
* use SPDX license in the license= field
* add comment above the compiler section of the APKBUILD
* remove empty line at the end of the APKBUILD
When the timeout occurs it is important to ensure clean up of child
processes. Killing only the direct process created by a command can
leave child processes running.
For example a pmbootstrap.py install will run apk add. This run command
creates multiple processes as follows:
(cmd line arguments snipped for readability)
$ ps -e -o pid,ppid,pgid,cmd
PID PPID PGID CMD
31738 23247 31738 python3 ./pmbootstrap.py -t 15 install --no-fde
31746 31738 31738 sudo env -i /bin/sh -c ... ;apk --no-progress add
31747 31746 31738 /bin/sh -c ... ;apk --no-progress add
31748 31747 31738 apk --no-progress add
The root process of the run command is PID 31746. We want to kill
the child processes too. Otherwise only running kill -9 31746 will leave
the processes 31747 and 31748 running.
* aportgen: modify code to allow generating gcc6-armhf and other gcc6
cross compiler packages
* package: when 'gcc6' is in the depends of a package, and the cross
compiling mode is "native" (as we do it with kernels), install the
gcc6 cross compiler instead of the usual one (gcc8)
Related: pmaports#103
Overview:
In order to execute foreign arch binaries on the host system, we are
using the Linux kernel's binfmt_misc feature in combination with
static builds of QEMU. Before this patch, the statically compiled
QEMU binaries were taken from Debian (mostly because I did not realize
that Alpine ships them as well). Now we can use the ones from the aport.
Benefits:
This allows us to easily update and patch the QEMU executables, we
don't need to be in sync with Debian's versions anymore.
Alpine's package is more modular, so we can save some download,
install, zap time, as well as disk space: setting up an armhf chroot
with pmbootstrap took ~102 MB before, now it's ~18 MB.
Detailed changes:
* Remove `cross/qemu-user-static-repack` aport
* Add `data/qemu-user-binfmt.txt` with the binfmt_misc flags for ELF
binaries of various arches (extracted from Debian's packaging)
* When parsing that file, don't write verbose messages to
`pmbootstrap log` anymore, only to the verbose log (can be enabled
with `pmbootstrap -v`)
* Rename `pmb.parse.arch.alpine_to_debian()` to ...`alpine_to_qemu()`
* Rename `arch_debian` to `arch_qemu`
This commit adds a test case, which makes sure that the KDE framework
and plasma framework version are always the same.
Additional changes:
* APKBUILD parser parses the URL now (that's the best way I found to
categorize the KDE aports in frameworks and other)
* Changed single quotes to double quotes in KDE APKBUILDs, so the
parser doesn't include the single quotes in the parsed result
* Added the test case to the gitlab CI config
With this patch, "pmbootstrap flasher" will fail with "the following
arguments are required: action_flasher". Without it, it just prints
"Done" and quits.
Overview:
Since Alpine updated to distcc 3.3 last week, pmbootstrap wasn't able to use
distcc for cross compilation anymore. It always falled back to running the
compiler in QEMU (which works, but is a lot slower). The reason for that is,
that distcc requires all compilers that are being used in a whitelist now.
This partially fixes CVE-2004-2687 in distccd, which allowed trivial remote
code execution by any process connecting to the distccd server. We only run
distccd on localhost, but still this can be used for privilege escalation of
sandboxed processes running on the host system (not part of pmbootstrap
chroots).
Because the CVE is only partially fixed (see the comment in
`pmb/chroot/distccd.py` for details), we make sure that only the building
chroots can talk to the distcc server by running distcc over ssh.
Details:
* Completely refactored `pmb/chroot/distccd.py` to run distcc over ssh
* Store the running distcc server's arguments as JSON now, not as INI
* Make debugging distcc issues easy:
* Set DISTCC_BACKOFF_PERIOD=0, so the distcc client will not ignore the
server after errors happened (this masks the original error!)
* New pmbootstrap parameters:
* `--distcc-nofallback`: avoids falling back to compiling with QEMU and not
throwing an error
* `--ccache-disable`: avoid ccache (when the compiler output is cached,
distcc does not get used)
* `--verbose` prints verbose output of the distcc too
* New test case, that uses the new pmbootstrap parameters to force
compilation through distcc, and shows the output of distcc and distccd in
verbose mode on error (as well as the log of sshd)
Alpine's `abuild` will uninstall all dependencies by default, when a
package build fails.
Leaving this configuration unchanged leads to unexpected behavior with
pmbootstrap: when executing `pmbootstrap build --strict` and pressing
`^C` during the build, pmbootstrap will stop, but an `apk` process
will be started in the background to remove the dependency packages.
Running `pmbootstrap shutdown` at this time will not work, because the
`apk` process is still running.
With this commit, dependencies don't get cleaned up from the chroots.
Follow-up to !1373, where `pmbootstrap flasher flash_system` was
replaced with `pmbootstrap flasher flash_rootfs`. We still had used
terms like "system partition" in a lot of places.
This commit replaces it everywhere, so it's clear that we're talking
about the pmOS rootfs (which may or may not be installed to Android's
system partition).
The test suite needed a `pmbootstrap shutdown` after running through,
before it could successfully run again.
Explanation:
This was caused by `test/test_pkgrel_bump.py`, which creates a
temporary work folder with every subfolder ("chroot_native",
"cache_apk_x86_64", ...) linked to the original work folder except for
the "packages" folder. At the end of the test case,
`pmbootstrap shutdown` gets executed and is expected to umount
everything as usual. But it does not umount anything because of the
symlinks, so `work/chroot_native/mnt/pmbootstrap-packages` points to
the fake packages folder of that test case, even after it is finished.
As a result, any test case that tries to access the packages folder in
the native chroot, will fail until `pmbootstrap shutdown` gets called.
Detailed Changes:
* Umount all folders inside the work folder, even if these are symlinks
* Remove obsolete reference to "disable timestamp based rebuilds" in a
comment in `test/test_pkgrel_bump.py`
* Run `pmbootstrap work_migrate` and `pmbootstrap shutdown` at the
beginning of `test/testcases_fast.sh`, in case the pkgrel_bump test
case was aborted before it could properly shutdown and to make it
more robust in general (user may have changed the mountpoints, work
folder may need to be migrated)