* Rename deviceinfo variable flash_methods to flash_method
* Update pmb.config.deviceinfo_attributes / add sanity check
* Add test case that parses all deviceinfo files
* pmbootstrap init: Generate new port device- and linux-package
* adds `pmbootstrap aportgen device-*` and
`pmbootstrap aportgen linux-*`
* ask for confirmation when selecting a non-existing device
* generate the packages directly from init
* refactor aportgen code
* fixed some easy things in the linux- APKBUILD (more to come in
follow-up PRs!)
Testing:
* Test all questions to the user from pmb.config.init and pmb.aportgen.device
(except for the timezone question, because we would need to monkeypatch the
os.path.exists() function, which messes up pytest, so we'd need to refactor
the timezone function to be more testsuite friendly first)
* Run the device wizard in a testcase a few times and check the output, that
pmbootstrap.aportgen.device and pmbootstrap.aportgen.linux create by parsing
the resulting APKBUILDs and deviceinfo and checking its contents.
* Build the generated device package once in the same testcase
Thanks a lot to @drebrez for all the help with this one:
<https://github.com/postmarketOS/pmbootstrap/pull/821>
See also the updated porting guide:
<https://wiki.postmarketos.org/wiki/Porting_to_a_new_device>
This fixes https://github.com/postmarketOS/binary-package-repo/issues/1
GCC generates hardlinks between files `A` and `B` in its `make install` step. The problem is, that `tar` randomly packages `A` as full binary, and links `B` to `A`, or the other way around! I was able to reproduce this issue consistently when re-building `gcc-aarch64` on Travis CI (interestingly, this did not appear for `gcc-armhf`).
The fix is, to delete `B` and create a symlink `B` that points to `A` instead.
libstdc++.a from gcc-armhf was not reproducible on Travis (it was, when built locally!). These .a files are just archives of object files .o, and in this case it was caused by a random order of the .o files in the archive.
This PR patches the package() function of the APKBUILD when running pmbootstrap aportgen gcc-armhf (same for aarch64 of course), to extract all .a files, and repack them to be reproducible (by sorting the files before packing them).
As usually, we can still inherit everything from the upstream gcc aport from Alpine, and apply our changes on top of that.
Travis without the patch:
https://api.travis-ci.org/jobs/260402679/log.txt?deansi=true
> CHALLENGE FAILED for usr/armv6-alpine-linux-muslgnueabihf/lib/libstdc++.a:File 'usr/armv6-alpine-linux-muslgnueabihf/lib/libstdc++.a' is different!
Travis with the patch (I've instructed Travis to run off this branch to test it):
https://api.travis-ci.org/jobs/260806203/log.txt?deansi=true
> Done. Your build exited with 0.
100% tested. Assuming that you don't need to test an obvious change,
because it only changes one line is dangerous. I will learn from this,
sorry for the inconvenience.
`gcc-armhf` compiles fine again with that change, and it is able to
cross-compile packages as it used to.
* Fix hardcoded `armhf` in pmb/aportgen/binutils.py
* Generate aports: `binutils-aarch64`, `musl-aarch64`, `gcc-aarch64`
* Distccd: Remember the cross-compiler architecture (currently armhf
or aarch64), that the current distccd is running as, and restart
distccd with the correct architecture, in case a different arch
is needed than what it is currently running as. (Depending on the
cross-compiler arch, the PATH variable gets adjusted before
starting distccd)
* Testcases: add aport generation for aarch64, add cross-compiling
to aarch64
* pmb/parse/arch.py: Add aarch64 to the mapping