Have explicit selection of the "native" cross compilation method with a
new "pmb:cross-native" option. Deprecate the implicit pkgname pattern
matching.
Related: #1910
The ui-extras questions will attempt to find a postmarketos-ui-<ui>
package in pmaports. If the package does not exist as "root" APKBUILD
it currently attempts to parse all APKBUILDs in case it is somewhere
defined as a subpackage. This is really slow (up to 2-3 seconds),
which feels weird during "pmbootstrap init".
For the UI packages we specifically look for the root UI package,
not the subpackage, so let's skip searching for subpackages in this
case. This makes selecting the "none" UI nice and fast again.
Fix the function, so it does not crash anymore when the
replace_subpkgnames argument is set and a dependency cannot be resolved.
Instead, print a useful warning that shows which pmaport caused the
error (that has always been a pain to figure out), and simply don't
replace the potential subpkgname with the real pkgname, just use the
dependency name as-is.
Resolve annoying crashes in bpo dependency resolving, like this one
(caused by a few linux-* pmaports for bad downstream kernels that depend
on python, not apparent at all from the message):
[09:08:15] Calculate packages that need to be built (all packages, aarch64)
[09:08:26] ERROR: Package 'python': Could not find aport, and could not find this package in any APKINDEX!
Related: https://builds.sr.ht/~postmarketos/job/184022
Previously these two commands would both print the current value:
pmbootstrap config extra_packages
pmbootstrap config extra_packages ''
With this change, the second command will instead set the given config
value to the empty string.
Prevent "pmbootstrap pull" from failing with:
NOTE: your pmaports folder has version 4, but version 6 is required.
ERROR: Run 'pmbootstrap pull' to update your pmaports.
Fixes: #1900
Use pmb.helpers.args.add_cache() with the args used during
autocompletion, so pmb.helpers.pmaports._find_apkbuilds() does not fail
when trying to access args.cache.
No build is necessary if pmaport can't be built for given arch.
pmbootstrap must use Alpine's binary package in that case, even if the
pmaport version is higher than Alpine's binary package version.
Fixes: #1897
The --no-depends option is supposed to stop pmbootstrap if it was
instructed to build a package, but a dependency must be built first. So
far, this only covers the case if there is no binary package for a dependency.
Make it stop if the binary package exists, but is outdated, too.
Fixes: #1895
At the moment we set samsung-i9100 as default device.
This is probably only for historical reasons.
For someone/something using pmbootstrap without a specific device in mind
(e.g. CI) it's really better to use a generic device. QEMU runs natively
in a virtual machine so everyone can use it for testing.
Flashes device vbmeta partition (can be overriden with
"flash_fastboot_partition_vbmeta" setting in deviceinfo)
with custom vbmeta.img which has verity flag disabled,
so device can boot postmarketOS with no problems.
The kconfig check searches the aport with the "linux-" prefix to the
package name passed as argument. This is not working with the full
package name like linux-device-name because it searches a
linux-linux-device-name and fails.
Use the timestamp of .git/FETCH_HEAD in each git repository, to
determine if too much time has passed since the last fetch/pull.
Modify pmb.helpers.git.clone, so FETCH_HEAD is always created if it does
not exist (because "git clone" would not create it).
Related: #1829
Extend "pmbootstrap status" with checks for all git repositories,
derived from relevant checks in pmb.helpers.git.pull (using shared
code):
* on official branch
* workdir is clean
* tracking proper remote
* up to date
Related: #1829
Add dummy function that only returns ["master"] for now, so we can use it
in the upcoming git checks for "pmbootstrap status". More sophisticated
logic to figure out the branches will be added soon, see project
direction 2020 issue.
Related: #1829
Device ports should be under the device/testing/* directory for now.
In the future, devices may be moved to device/{main,community} after
certain preconditions are met.
In the future, device ports will be located in a subdirectory
below device/... (e.g. device/testing/device-...).
Replace all occurrences of device/* with a glob that checks the
subdirectories instead.
Note: To ensure that this always works properly we should also add some
checks that all devices are indeed located under one of the supported
subdirectories (i.e. testing/community/main).
Change the glob for pmaports to <aports>/**/APKBUILD.
This allows using subdirectories for organization outside of device/
as well.
For KVM the code is run pretty much natively on the host CPU, so all
CPU extensions available on the host CPU can be also used inside the VM.
To expose that information to the VM we should pass "-cpu host", so the
VM is aware of which CPU is in use.
For CPU emulation, QEMU uses a rather minimal CPU on x86_64 by default.
It does not have support for SSE3/4 etc, which may be required for some
applications to work properly (e.g. Android in Anbox). Add a --cpu flag
to make the emulated CPU configurable. Useful values are for example
--cpu max to emulate all implemented CPU features.
To test QEMU's CPU emulation it is useful to have a switch to disable
KVM, even when it is available (and potentially working fine).
Add --no-kvm for that purpose.
For some reason, the SDL display backend changes the video resolution
to 1024x768, while the GTK display keeps it at 640x480.
This is annoying, because at the moment we can only set one display
resolution for a device in postmarketOS (e.g. for the splash screen).
At the moment, the resolution for the splash screen is set to 640x480,
which therefore shows up too small with the default SDL display.
It seems like the display resolution can be only changed in the guest
directly. Linux has a video= kernel parameter that can be used to
implement this. (See: https://www.kernel.org/doc/html/latest/fb/modedb.html)
Let's set 1024x768 by default, but make it configurable through --video.
The QEMU 'tablet' input device reports absolute positions instead
of relative mouse pointer movements. This can be used to automatically
grab/release the mouse pointer when entering/leaving the QEMU window,
instead of having to release it with CTRL + ALT + G manually.
This is quite convenient and should be the default option normally,
but at least on my PC the mouse pointer is reported with some vertical
offset for some reason (you can't reach the top and it extends below
the QEMU window...). Let's add it as an optional --tablet option for now.
To ensure consistent behavior for QEMU on all architectures,
it is helpful to try to use the same hardware elements where possible.
A few examples of current inconsistent behavior:
- x86_64 uses a SCSI disk, while aarch64 uses virtio-blk
- x86_64 uses e1000 network, while aarch64 uses virtio-net-device
- x86_64 uses PS/2 mouse, while aarch64 uses usb-mouse
- only x86_64 prints serial output to console
At least the virtio components are usually independent of the selected
architecture, so we can use them for both architectures.
This commit makes most of the hardware configuration shared:
- Redirect serial output to stdio
- virtio-blk for the disk image
- virtio-gpu-pci (this was already implicit for both architectures)
- virtio-net-pci for the network interface
- virtio-mouse-pci/virtio-keyboard-pci as input devices
- intel-hda for audio
We also set -nodefaults to avoid setting up unneeded devices
especially for x86_64.
Now that we try to use the IP assigned by QEMU via DHCP,
the debug-shell is no longer working via telnet.
This is because the VM does not have any IP assigned when it is running.
We would need to start a DHCP client from the initfs to make it work.
busybox provides both udhcpc (client) and udhcpd (server) so this is
not a big problem. But the question is: Is it worth it?
The debug-shell will be only used for debugging, and NetworkManager
handles starting a proper DHCP client once the rootfs is mounted.
Meanwhile the debug-shell can be also accessed via serial output/input,
(available in the pmbootstrap stdout/stdin). So overall it does not
seem worth the effort. Let's just recommend using serial instead.
The current network setup has weird side effects.
Normally, QEMU would automatically make the guest set up necessary
IP routes through its integrated DHCP server.
When running QEMU through pmbootstrap they are missing.
First, we change the DHCP range in a way that could potentially
conflict with default IPs used for QEMU's own services:
QEMU has the default gateway at <network>.2, and DNS at <network>.3.
We set the DHCP range to start at <network>.1, and will therefore
potentially give out one of these addresses (QEMU's default starts at
<network>.15).
See: https://wiki.qemu.org/Documentation/Networking#User_Networking_.28SLIRP.29
In practice this does not cause immediate problems because there is
just one guest in the network, and it will get <network>.1, which is
not used by QEMU.
More problematic is that we start a DHCP server from postmarketOS
at the same time (normally used for the USB network) and there are
actually two DHCP servers running at the same time.
QEMU's user networking is local to the process, therefore it is not
possible to access the QEMU guest through its IP from the host.
That's why we have the port forwardings so you can access SSH at
localhost:2222 for example.
In practice the network interface in the QEMU guest is only used to
access the Internet. For that, we don't care which IP address we get,
we just want to get a working setup (IP + routes + DNS) automatically
through DHCP.
To make this work nicely we just need to stop trying to fit QEMU's
network setup into our usual setup for USB networking. When we remove
the custom DHCP option, and avoid starting a DHCP server from postmarketOS
(deviceinfo_disable_dhcpd) everything is suddenly working fine. :)