Support for custom "Loading..." splashes was added in MR 1776, but
`unlock_root_partition` function is still hardcoding default "Loading..."
splash. Fix this behaviour by replacing usage of `show_splash` function with
`show_splash_loading`, which accounts for presence of custom splash.
Closes#759
* xts, libaes & aes are required for root partition FDE unlocking
* evdev is required by osk-sdl for input
[ci:skip-build] already built successfully in CI
This fix was pending since before charging-sdl was deprecated and still
provides value should anyone wish to pickup and improve charging-sdl
again.
charging-sdl currently does not check for devices using mesa, even
though it supports it in the same way as osk-sdl. Check for msa support
and set SDL_VIDEODRIVER in that case.
Also fix the font path, as it was reading both keyboard-font and
keyboard-font-size from osk.conf.
Previously it was assumed that with the counter and the sleep 0.1 the
process would take about 10 seconds to complete. On newer devices with
tens or even hundreds of partitions going through all partitions already
takes a significant amount of time, so change the logic to measure the
time elapsed instead.
Shellcheck 0.7.2 has a change that gives many error conditions their own
SC30** codes, instead of including them in SC2039. This updates the
scripts in this package that "disable SC2039" to disable the new code.
New codes added in shellcheck: cfd68ee0c2ebfd0ab08a1d4bf628162b454dc207
On my librem 5 when using directfb in initfs, touch input is really
inconsistent... the cursor seems to jump around and it's hard to enter
keys in osk-sdl. This is completely 'fixed' by disabling the ps2mouse
input module in dfb.
I guess this might cause mice to stop working (?), but I can't think of
any situation where someone would run osk-sdl in initfs on a device that
has a ps2 mouse but no keyboard (which would make more sense to use for
entry than the mouse..)
Find partitions with the label "pmOS_inst_boot" too, and prefer using
them as boot partition over ones with label "pmOS_boot". (I'd use
"pmOS_install_boot", but there is a character limit in the label.)
Without this, the initramfs may choose the wrong boot partition if
postmarketOS is available once as install OS (on device installer) on
the SD card and once on the eMMC (installed).
I just had this problem with QEMU when simulating the install from SD to
eMMC use case with pmbootstrap qemu --second-storage. The pmOS initramfs
scripts would detect the previously created eMMC boot partition as the
proper one and mount it. It would boot into the right root partition,
because that already has a different label (pmOS_install instead of
pmOS_root), but because the wrong boot partition is already mounted,
during the install it would not be possible to run mkfs on it.
The p? is not redundant. Without it, the p in mmcblk0p2 for example does
not get cut off, meaning the resulting device is not "mmcblk0" but
"mmcblk0p". My bad, sorry for the breakage.
Fixes: 9f6600ba ("main/postmarketos-mkinitfs: rm pmOS_deleteme")
Fixes: 9d86f6fe ("main/postmarketos-mkinitfs: resize: unallocated space check, even if forced")
Remove the "pmOS_deleteme" partition left behind by the on-device
installer, if it exists. Let the existing resize_root_partition() extend
the root partition over the newly gained space (and rest of the storage
device) right afterwards.
In resize_root_partition(), put the unallocated space check into an
extra function has_unallocated_space(). Run it even if
PMOS_FORCE_PARTITION_RESIZE is used, so we don't attempt to resize the
partition if there is no free space.
While at it, change "sed 's/p?2$//'" to "sed 's/2$//' in an already
modified line, because it means the same thing and is less confusing
(? in regex means: 0 or 1 time).
Mount the boot partition at /sysroot/boot and keep it mounted, when
running the switch_root command. This way, OpenRC doesn't need to mount
it and possibly use the wrong partition. The OpenRC service does not use
the same logic to find the boot partition, in particular it does not
support the pmos_boot kernel parameter.
While at it, print the mountpoint and read-only/read-write arguments in
the mounting log message for both root and boot.
Fixes: #664
If (a) the kernel command line parameters include PMOS_BOOTCHART2 and
(b) /sbin/bootchartd exists (i.e., the bootchart2 package has been
installed), run /sbin/bootchartd instead of /sbin/init.
ConfigFS USB attrs are customizable based on the `deviceinfo_usb_*` variables,
however some downstream kernels (e.g: msm-3.18) doesn't use configfs, instead
uses the traditional Android USB Gadget.
Based on `deviceinfo_usb_{idVendor/idProduct}` variables, we can change the USB
vendor and product.
So that on these devices, we can make it appear on USB bus as the correct USB
vendor/product ID, not "Google Inc. Nexus 4 (fastboot)"
Signed-off-by: Danct12 <danct12@disroot.org>
At the moment, a full file system check is forced even if the
file system is marked clean (i.e. it was properly unmounted the
last time it was used). On large file systems with slow I/O
(e.g. SD cards), this can take a significant amount of time.
Removing the -f option of e2fsck allows skipping the full
file system check if it is marked clean, speeding up the boot time.
Some devices' downstream kernels may have different RNDIS/functionfs
drivers (ex. QCRNDIS) that require different values for some
configfs gadget attributes. Make it possible to customize with
deviceinfo file from device- package.
The idea is that each device- package can optionally specify a
bunch of `deviceinfo_usb_*` variables to customize the way it is
visible on USB bus. The ability to override
`deviceinfo_usb_rndis_function` is essential to make downstream
sdm660 based device to appear on USB bus.
While at it, make `idVendor`, `idProduct` and `serialnumber` also
customizable. So that we can make, for example, PineTab appear on
USB bus as PineTab, not as "Google Inc. Nexus 4 (fastboot)".
Currently, the USB networking setup using configfs does not configure
a "serialnumber" for the USB gadget. This means that an empty
serial number will be sent during USB enumeration.
This is usually not a problem, but it seems to cause issues under
special circumstances (on asus-me176c on one of my PCs).
The USB Gadget configfs documentation also suggests setting
the "serialnumber":
https://www.kernel.org/doc/Documentation/usb/gadget_configfs.txt
It can be any string, so we can just set it as "postmarketOS" like
the manufacturer.
We'll switch from whatever version of shellcheck is packaged in Debian
stretch to the newer version in Alpine edge in the next commit. Adjust
postmarketos-mkinitfs first, so it doesn't report any errors.
Currently we rely on the fact, that the kernel asks user space to load
the firmware for it, so we can use the /lib/firmware/postmarketos
directory for firmware.
As the kernel has support for loading the firmware itself since
v3.7, and the parameter for adding an additional path to the search
paths was added with v3.10, we can use that to not rely on
CONFIG_FW_LOADER_USER_HELPER being set.
- main: postmarketos-mkinitfs: Add /run
Create the /run directory in the initramfs so that cryptsetup doesn't
crash on not being able to create /run/cryptsetup for lockfiles
- device: pine-dontbeevil: Remove workaround for touchscreen
- main: linux-postmarketos-allwinner: Implemented supplies for touchscreen
This uses a slightly newer commit from the kernel repo that implements
requesting a regulator in the touchscreen driver
- device: pine-dontbeevil: Remove ethernet from initramfs
This actually makes debugging more complicated since networkmanager wont
touch the ethernet adapter afterwards and the initramfs can be debugged
over uart
- temp/u-boot: sync APKBUILD with upstream and update to 2019.04
- main: linux-postmarketos-allwinner: Use 20190521 git version
ConfigFS expects idVendor and idProduct values to be prefixed with 0x.
Without this change, google-crosshatch shows as a device with 0:0 as the
idVendor/idProduct in lsusb:
Bus 001 Device 004: ID 0000:0000
This confuses VirtualBox: it has trouble detaching this device from
a virtual machine, so one must manually use ifconfig to bring down the
old USB network connection before reattaching.
With this change, the idVendor/idProduct is correct:
Bus 001 Device 004: ID 18d1:d001 Google Inc.
This issue also seems to affect other devices with ConfigFS, such as the
Nexus 5:
https://matrix.to/#/!clcCCNrLZYwdfNqkkR:disroot.org/$15487159511194991apGpy:matrix.org
Also noticed that the debug-shell hook wasn't sourcing the deviceinfo
and still showing the splashscreen even with
deviceinfo_no_framebuffer="true", now is fixed and tested.
Additionally, fix a typo in the existing
"NOTE: Skipping framebuffer setup..." message.
Fix Nexus 5 (hammerhead) boot and framebuffer issues at startup by
waiting up to 10 seconds until the rootfs and /dev/fb0 have been
found. Waiting for the framebuffer device can be disabled by setting
deviceinfo_no_framebuffer=true in the deviceinfo.
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 `msm-fb-refresher` updates the screen for msm based devices. It is
not needed for all devices, so we had some extra code in the initramfs,
that would only add it when the `deviceinfo_msm_refresher` variable was
set. However, we are able now to add files to initramfs hooks, so this
hack can be removed and simplify everything.
Changes:
* Remove `deviceinfo_msm_refresher` from all deviceinfos
* Add sanity check for it
* Move all `deviceinfo` sanity checks to an extra function
* `postmarketos-mkinitfs`: remove code for msm refresher
* `msm-fb-refresher`: add initramfs hook
* Add charging-sdl package
* Include charging-sdl into the initramfs-extra
* [initramfs] Detect charging mode and use triggerhappy to start
charging-sdl when the power key is pressed
* Changed usb-shell behavior, it wait for some user action before continue booting
* Rename usb-shell to debug-shell and changed port to 23
* Add `20-debug-shell.sh` script to static code analysis
* Enable eth0 interface in initramfs (qemu)
* Add additional script to run a shell in order to be able to kill it from a telnet session