pmaports/main/postmarketos-initramfs/init_functions.sh
Clayton Craft c9c4b492e4
main/postmarketos-initramfs: show OS version on splash screen (MR 4470)
This shows the OS version (from /etc/os-release), e.g. "edge", on the splash
screen. os-release is a tiny text file, adding it to the initramfs doesn't seem
too bad, and having this information on the splash screen can be helpful.

Note that this uses "VERSION" and not "PRETTY_NAME" from the os-release file,
since the splash already shows "postmarketOS" (and the pretty name includes
that too), it seemed redundant and took up valuable display space.

[ci:skip-build]: already built successfully in CI
2023-11-02 08:44:47 +01:00

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23 KiB
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#!/bin/sh
# This file will be in /init_functions.sh inside the initramfs.
ROOT_PARTITION_UNLOCKED=0
ROOT_PARTITION_RESIZED=0
PMOS_BOOT=""
PMOS_ROOT=""
# Redirect stdout and stderr to logfile
setup_log() {
# Bail out if PMOS_NO_OUTPUT_REDIRECT is set
echo "### postmarketOS initramfs ###"
grep -q PMOS_NO_OUTPUT_REDIRECT /proc/cmdline && return
# Print a message about what is going on to the normal output
echo "NOTE: All output from the initramfs gets redirected to:"
echo "/pmOS_init.log"
echo "If you want to disable this behavior (e.g. because you're"
echo "debugging over serial), please add this to your kernel"
echo "command line: PMOS_NO_OUTPUT_REDIRECT"
# Start redirect, print the first line again
exec >/pmOS_init.log 2>&1
echo "### postmarketOS initramfs ###"
}
mount_proc_sys_dev() {
# mdev
mount -t proc -o nodev,noexec,nosuid proc /proc || echo "Couldn't mount /proc"
mount -t sysfs -o nodev,noexec,nosuid sysfs /sys || echo "Couldn't mount /sys"
mount -t devtmpfs -o mode=0755,nosuid dev /dev || echo "Couldn't mount /dev"
mount -t tmpfs -o nosuid,nodev,mode=0755 run /run || echo "Couldn't mount /run"
mkdir /config
mount -t configfs -o nodev,noexec,nosuid configfs /config
# /dev/pts (needed for telnet)
mkdir -p /dev/pts
mount -t devpts devpts /dev/pts
}
setup_firmware_path() {
# Add the postmarketOS-specific path to the firmware search paths.
# This should be sufficient on kernel 3.10+, before that we need
# the kernel calling udev (and in our case /usr/lib/firmwareload.sh)
# to load the firmware for the kernel.
echo "Configuring kernel firmware image search path"
SYS=/sys/module/firmware_class/parameters/path
if ! [ -e "$SYS" ]; then
echo "Kernel does not support setting the firmware image search path. Skipping."
return
fi
# shellcheck disable=SC3037
echo -n /lib/firmware/postmarketos >$SYS
}
# shellcheck disable=SC3043
load_modules() {
local file="$1"
local modules="$2"
[ -f "$file" ] && modules="$modules $(grep -v ^\# "$file")"
# shellcheck disable=SC2086
modprobe -a $modules
}
setup_mdev() {
# Start mdev daemon
mdev -d
}
setup_udev() {
# Use udev to coldplug all devices so that they can be used via libinput (e.g.
# by unl0kr). This is the same series of steps performed by the udev,
# udev-trigger and udev-settle RC services. See also:
# - https://git.alpinelinux.org/aports/tree/main/eudev/setup-udev
# - https://git.alpinelinux.org/aports/tree/main/udev-init-scripts/APKBUILD
if command -v udevd > /dev/null && command -v udevadm > /dev/null; then
udevd -d
udevadm trigger --type=devices --action=add
udevadm settle
fi
}
get_uptime_seconds() {
# Get the current system uptime in seconds - ignore the two decimal places.
awk -F '.' '{print $1}' /proc/uptime
}
setup_dynamic_partitions() {
command -v make-dynpart-mappings > /dev/null || return
attempt_start=$(get_uptime_seconds)
wait_seconds=10
slot_number=0
for super_partition in $1; do
# Wait for mdev
echo "Waiting for super partition $super_partition..."
while [ ! -b "$super_partition" ]; do
if [ "$(get_uptime_seconds)" -ge $(( attempt_start + wait_seconds )) ]; then
echo "ERROR: Super partition $super_partition failed to show up!"
return;
fi
sleep 0.1
done
make-dynpart-mappings "$super_partition" "$slot_number"
slot_number=$(( slot_number + 1 ))
done
}
mount_subpartitions() {
try_parts="/dev/disk/by-partlabel/userdata /dev/disk/by-partlabel/system* /dev/mapper/system*"
android_parts=""
for x in $try_parts; do
[ -e "$x" ] && android_parts="$android_parts $x"
done
attempt_start=$(get_uptime_seconds)
wait_seconds=10
echo "Trying to mount subpartitions for $wait_seconds seconds..."
while [ -z "$(find_boot_partition)" ]; do
partitions="$android_parts $(grep -v "loop\|ram" < /proc/diskstats |\
sed 's/\(\s\+[0-9]\+\)\+\s\+//;s/ .*//;s/^/\/dev\//')"
for partition in $partitions; do
case "$(kpartx -l "$partition" 2>/dev/null | wc -l)" in
2)
echo "Mount subpartitions of $partition"
kpartx -afs "$partition"
# Ensure that this was the *correct* subpartition
# Some devices have mmc partitions that appear to have
# subpartitions, but aren't our subpartition.
if [ -n "$(find_boot_partition)" ]; then
break
fi
kpartx -d "$partition"
continue
;;
*)
continue
;;
esac
done
if [ "$(get_uptime_seconds)" -ge $(( attempt_start + wait_seconds )) ]; then
echo "ERROR: failed to mount subpartitions!"
return;
fi
sleep 0.1;
done
}
# Rewrite /dev/dm-X paths to /dev/mapper/...
pretty_dm_path() {
dm="$1"
n="${dm#/dev/dm-}"
# If the substitution didn't do anything, then we're done
[ "$n" = "$dm" ] && echo "$dm" && return
# Get the name of the device mapper device
name="/dev/mapper/$(cat "/sys/class/block/dm-${n}/dm/name")"
echo "$name"
}
find_root_partition() {
[ -n "$PMOS_ROOT" ] && echo "$PMOS_ROOT" && return
# The partition layout is one of the following:
# a) boot, root partitions on sdcard
# b) boot, root partition on the "system" partition (which has its
# own partition header! so we have partitions on partitions!)
#
# mount_subpartitions() must get executed before calling
# find_root_partition(), so partitions from b) also get found.
# Short circuit all autodetection logic if pmos_root= or
# pmos_root_uuid= is supplied on the kernel cmdline
# shellcheck disable=SC2013
if [ "$ROOT_PARTITION_UNLOCKED" = 0 ]; then
for x in $(cat /proc/cmdline); do
if ! [ "$x" = "${x#pmos_root_uuid=}" ]; then
path="$(blkid --uuid "${x#pmos_root_uuid=}")"
if [ -n "$path" ]; then
PMOS_ROOT="$path"
break
fi
fi
done
if [ -z "$PMOS_ROOT" ]; then
for x in $(cat /proc/cmdline); do
if ! [ "$x" = "${x#pmos_root=}" ]; then
path="${x#pmos_root=}"
if [ -e "$path" ]; then
PMOS_ROOT="$path"
break
fi
fi
done
fi
# On-device installer: before postmarketOS is installed,
# we want to use the installer partition as root. It is the
# partition behind pmos_root. pmos_root will either point to
# reserved space, or to an unfinished installation.
# p1: boot
# p2: (reserved space) <--- pmos_root
# p3: pmOS_install
# Details: https://postmarketos.org/on-device-installer
if [ -n "$PMOS_ROOT" ]; then
next="$(echo "$PMOS_ROOT" | sed 's/2$/3/')"
# If the next partition is labeled pmOS_install (and
# not pmOS_deleteme), then postmarketOS is not
# installed yet.
if blkid | grep "$next" | grep -q pmOS_install; then
PMOS_ROOT="$next"
fi
fi
fi
if [ -z "$PMOS_ROOT" ]; then
for id in pmOS_install pmOS_root; do
PMOS_ROOT="$(blkid --label "$id")"
[ -n "$PMOS_ROOT" ] && break
done
fi
# Search for luks partition.
# Note: This should always be after the filesystem search, since this
# function may be called after the luks partition is unlocked and we don't
# want to keep returning the luks partition if a valid root filesystem
# exists
if [ -z "$PMOS_ROOT" ]; then
PMOS_ROOT="$(blkid | grep "crypto_LUKS" | cut -d ":" -f 1 | head -n 1)"
fi
PMOS_ROOT=$(pretty_dm_path "$PMOS_ROOT")
echo "$PMOS_ROOT"
}
find_boot_partition() {
[ -n "$PMOS_BOOT" ] && echo "$PMOS_BOOT" && return
# First check for pmos_boot_uuid on the cmdline
# this should be set on all new installs.
# shellcheck disable=SC2013
for x in $(cat /proc/cmdline); do
if ! [ "$x" = "${x#pmos_boot_uuid=}" ]; then
# Check if there is a partition with a matching UUID
path="$(blkid --uuid "${x#pmos_boot_uuid=}")"
if [ -n "$path" ]; then
PMOS_BOOT="$path"
break
fi
fi
done
if [ -z "$PMOS_BOOT" ]; then
# shellcheck disable=SC2013
for x in $(cat /proc/cmdline); do
if ! [ "$x" = "${x#pmos_boot=}" ]; then
# If the boot partition is specified explicitly
# then we need to check if it's a valid path, and
# fall back if not...
path="${x#pmos_boot=}"
if [ -e "$path" ]; then
PMOS_BOOT="$path"
break
fi
fi
done
fi
# Finally fall back to searching by label
if [ -z "$PMOS_BOOT" ]; then
# * "pmOS_i_boot" installer boot partition (fits 11 chars for fat32)
# * "pmOS_inst_boot" old installer boot partition (backwards compat)
# * "pmOS_boot" boot partition after installation
for p in pmOS_i_boot pmOS_inst_boot pmOS_boot; do
PMOS_BOOT="$(blkid --label "$p")"
[ -n "$PMOS_BOOT" ] && break
done
fi
PMOS_BOOT=$(pretty_dm_path "$PMOS_BOOT")
echo "$PMOS_BOOT"
}
get_partition_type() {
partition="$1"
blkid "$partition" | sed 's/^.*TYPE="\([a-zA-z0-9_]*\)".*$/\1/'
}
# $1: path
# $2: set to "rw" for read-write
# Mount the boot partition. It gets mounted twice, first at /boot (ro), then at
# /sysroot/boot (rw), after root has been mounted at /sysroot, so we can
# switch_root to /sysroot and have the boot partition properly mounted.
mount_boot_partition() {
partition=$(find_boot_partition)
if [ -z "$partition" ]; then
echo "ERROR: boot partition not found!"
show_splash "ERROR: Boot partition not found\\nhttps://postmarketos.org/troubleshooting"
loop_forever
fi
if [ "$2" = "rw" ]; then
mount_opts=""
echo "Mount boot partition ($partition) to $1 (read-write)"
else
mount_opts="-o ro"
echo "Mount boot partition ($partition) to $1 (read-only)"
fi
type="$(get_partition_type "$partition")"
case "$type" in
ext*)
echo "Detected ext filesystem"
modprobe ext4
# ext2 might be handled by the ext2 or ext4 kernel module
# so let mount detect that automatically by omitting -t
;;
vfat)
echo "Detected vfat filesystem"
modprobe vfat
mount_opts="-t vfat $mount_opts"
;;
*) echo "WARNING: Detected unsupported '$type' filesystem ($partition)." ;;
esac
# shellcheck disable=SC2086
mount $mount_opts "$partition" "$1"
}
# $1: initramfs-extra path
extract_initramfs_extra() {
initramfs_extra="$1"
if [ ! -e "$initramfs_extra" ]; then
echo "ERROR: initramfs-extra not found!"
show_splash "ERROR: initramfs-extra not found\\nhttps://postmarketos.org/troubleshooting"
loop_forever
fi
echo "Extract $initramfs_extra"
# uncompressed:
# cpio -di < "$initramfs_extra"
gzip -d -c "$initramfs_extra" | cpio -iu
}
wait_root_partition() {
while [ -z "$(find_root_partition)" ]; do
show_splash "ERROR: root partition not found\\nhttps://postmarketos.org/troubleshooting"
echo "Could not find the rootfs."
echo "Maybe you need to insert the sdcard, if your device has"
echo "any? Trying again in one second..."
sleep 1
done
}
delete_old_install_partition() {
# The on-device installer leaves a "pmOS_deleteme" (p3) partition after
# successful installation, located after "pmOS_root" (p2). Delete it,
# so we can use the space.
partition="$(find_root_partition | sed 's/2$/3/')"
if ! blkid "$partition" | grep -q pmOS_deleteme; then
return
fi
device="$(echo "$partition" | sed -E 's/p?3$//')"
echo "First boot after running on-device installer - deleting old" \
"install partition: $partition"
parted -s "$device" rm 3
}
# $1: path to device
has_unallocated_space() {
# Check if there is unallocated space at the end of the device
parted -s "$1" print free | tail -n2 | \
head -n1 | grep -qi "free space"
}
resize_root_partition() {
partition=$(find_root_partition)
# Do not resize the installer partition
if [ "$(blkid --label pmOS_install)" = "$partition" ]; then
echo "Resize root partition: skipped (on-device installer)"
return
fi
# Only resize the partition if it's inside the device-mapper, which means
# that the partition is stored as a subpartition inside another one.
# In this case we want to resize it to use all the unused space of the
# external partition.
if [ -z "${partition##"/dev/mapper/"*}" ] || [ -z "${partition##"/dev/dm-"*}" ]; then
# Get physical device
partition_dev=$(dmsetup deps -o blkdevname "$partition" | \
awk -F "[()]" '{print "/dev/"$2}')
if has_unallocated_space "$partition_dev"; then
echo "Resize root partition ($partition)"
# unmount subpartition, resize and remount it
kpartx -d "$partition"
parted -f -s "$partition_dev" resizepart 2 100%
kpartx -afs "$partition_dev"
ROOT_PARTITION_RESIZED=1
else
echo "Not resizing root partition ($partition): no free space left"
fi
# Resize the root partition (non-subpartitions). Usually we do not want
# this, except for QEMU devices and non-android devices (e.g.
# PinePhone). For them, it is fine to use the whole storage device and
# so we pass PMOS_FORCE_PARTITION_RESIZE as kernel parameter.
elif grep -q PMOS_FORCE_PARTITION_RESIZE /proc/cmdline; then
partition_dev="$(echo "$partition" | sed -E 's/p?2$//')"
if has_unallocated_space "$partition_dev"; then
echo "Resize root partition ($partition)"
parted -f -s "$partition_dev" resizepart 2 100%
partprobe
ROOT_PARTITION_RESIZED=1
else
echo "Not resizing root partition ($partition): no free space left"
fi
# Resize the root partition (non-subpartitions) on Chrome OS devices.
# Match $deviceinfo_cgpt_kpart not being empty instead of cmdline
# because it does not make sense here as all these devices use the same
# partitioning methods. This also resizes third partition instead of
# second, because these devices have an additional kernel partition
# at the start.
elif [ -n "$deviceinfo_cgpt_kpart" ]; then
partition_dev="$(echo "$partition" | sed -E 's/p?3$//')"
if has_unallocated_space "$partition_dev"; then
echo "Resize root partition ($partition)"
parted -f -s "$partition_dev" resizepart 3 100%
partprobe
ROOT_PARTITION_RESIZED=1
else
echo "Not resizing root partition ($partition): no free space left"
fi
else
echo "Unable to resize root partition: failed to find qualifying partition"
fi
}
unlock_root_partition() {
command -v cryptsetup >/dev/null || return
partition="$(find_root_partition)"
if cryptsetup isLuks "$partition"; then
# Make sure the splash doesn't interfere
hide_splash
tried=0
until cryptsetup status root | grep -qwi active; do
fde-unlock "$partition" "$tried"
tried=$((tried + 1))
done
ROOT_PARTITION_UNLOCKED=1
# Show again the loading splashscreen
show_splash "Loading..."
fi
}
resize_root_filesystem() {
if [ "$ROOT_PARTITION_RESIZED" = 1 ]; then
show_splash "Resizing filesystem during initial boot..."
partition="$(find_root_partition)"
touch /etc/mtab # see https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=673323
type="$(get_partition_type "$partition")"
case "$type" in
ext4)
echo "Resize 'ext4' root filesystem ($partition)"
modprobe ext4
resize2fs -f "$partition"
;;
f2fs)
echo "Resize 'f2fs' root filesystem ($partition)"
modprobe f2fs
resize.f2fs "$partition"
;;
btrfs)
echo "Resize 'btrfs' root filesystem ($partition)"
modprobe btrfs
resize_root_filesystem_tmp_btrfs="$(mktemp -d)"
mount -t btrfs "$partition" "$resize_root_filesystem_tmp_btrfs"
btrfs filesystem resize max "$resize_root_filesystem_tmp_btrfs"
umount "$resize_root_filesystem_tmp_btrfs"
unset resize_root_filesystem_tmp_btrfs
;;
*) echo "WARNING: Can not resize '$type' filesystem ($partition)." ;;
esac
show_splash "Loading..."
fi
}
mount_root_partition() {
partition="$(find_root_partition)"
rootfsopts=""
# shellcheck disable=SC2013
for x in $(cat /proc/cmdline); do
[ "$x" = "${x#pmos_rootfsopts=}" ] && continue
# Prepend a comma because this will be appended to "ro" below
rootfsopts=",${x#pmos_rootfsopts=}"
done
echo "Mount root partition ($partition) to /sysroot (read-only) with options ${rootfsopts#,}"
type="$(get_partition_type "$partition")"
echo "Detected $type filesystem"
if ! { [ "$type" = "ext4" ] || [ "$type" = "f2fs" ] || [ "$type" = "btrfs" ]; } then
echo "ERROR: Detected unsupported '$type' filesystem ($partition)."
show_splash "ERROR: unsupported '$type' filesystem ($partition)\\nhttps://postmarketos.org/troubleshooting"
loop_forever
fi
if ! modprobe "$type"; then
echo "INFO: unable to load module '$type' - maybe it's built in"
fi
if ! mount -t "$type" -o ro"$rootfsopts" "$partition" /sysroot; then
echo "ERROR: unable to mount root partition!"
show_splash "ERROR: unable to mount root partition\\nhttps://postmarketos.org/troubleshooting"
loop_forever
fi
if ! [ -e /sysroot/usr ]; then
echo "ERROR: root partition appeared to mount but does not contain a root filesystem!"
show_splash "ERROR: root partition does not contain a root filesystem\\nhttps://postmarketos.org/troubleshooting"
loop_forever
fi
}
# $1: path to the hooks dir
run_hooks() {
scriptsdir="$1"
if ! [ -d "$scriptsdir" ]; then
return
fi
for hook in "$scriptsdir"/*.sh; do
echo "Running initramfs hook: $hook"
sh "$hook"
done
}
setup_usb_network_android() {
# Only run, when we have the android usb driver
SYS=/sys/class/android_usb/android0
if ! [ -e "$SYS" ]; then
echo " /sys/class/android_usb does not exist, skipping android_usb"
return
fi
echo " Setting up an USB gadget through android_usb"
usb_idVendor="$(echo "${deviceinfo_usb_idVendor:-0x18D1}" | sed "s/0x//g")" # default: Google Inc.
usb_idProduct="$(echo "${deviceinfo_usb_idProduct:-0xD001}" | sed "s/0x//g")" # default: Nexus 4 (fastboot)
# Do the setup
echo "0" >"$SYS/enable"
echo "$usb_idVendor" >"$SYS/idVendor"
echo "$usb_idProduct" >"$SYS/idProduct"
echo "rndis" >"$SYS/functions"
echo "1" >"$SYS/enable"
}
setup_usb_network_configfs() {
# See: https://www.kernel.org/doc/Documentation/usb/gadget_configfs.txt
CONFIGFS=/config/usb_gadget
if ! [ -e "$CONFIGFS" ]; then
echo " /config/usb_gadget does not exist, skipping configfs usb gadget"
return
fi
# Default values for USB-related deviceinfo variables
usb_idVendor="${deviceinfo_usb_idVendor:-0x18D1}" # default: Google Inc.
usb_idProduct="${deviceinfo_usb_idProduct:-0xD001}" # default: Nexus 4 (fastboot)
usb_serialnumber="${deviceinfo_usb_serialnumber:-postmarketOS}"
usb_network_function="${deviceinfo_usb_network_function:-rndis.usb0}"
echo " Setting up an USB gadget through configfs"
# Create an usb gadet configuration
mkdir $CONFIGFS/g1 || echo " Couldn't create $CONFIGFS/g1"
echo "$usb_idVendor" > "$CONFIGFS/g1/idVendor"
echo "$usb_idProduct" > "$CONFIGFS/g1/idProduct"
# Create english (0x409) strings
mkdir $CONFIGFS/g1/strings/0x409 || echo " Couldn't create $CONFIGFS/g1/strings/0x409"
# shellcheck disable=SC2154
echo "$deviceinfo_manufacturer" > "$CONFIGFS/g1/strings/0x409/manufacturer"
echo "$usb_serialnumber" > "$CONFIGFS/g1/strings/0x409/serialnumber"
# shellcheck disable=SC2154
echo "$deviceinfo_name" > "$CONFIGFS/g1/strings/0x409/product"
# Create network function.
mkdir $CONFIGFS/g1/functions/"$usb_network_function" \
|| echo " Couldn't create $CONFIGFS/g1/functions/$usb_network_function"
# Create configuration instance for the gadget
mkdir $CONFIGFS/g1/configs/c.1 \
|| echo " Couldn't create $CONFIGFS/g1/configs/c.1"
mkdir $CONFIGFS/g1/configs/c.1/strings/0x409 \
|| echo " Couldn't create $CONFIGFS/g1/configs/c.1/strings/0x409"
echo "USB network" > $CONFIGFS/g1/configs/c.1/strings/0x409/configuration \
|| echo " Couldn't write configration name"
# Link the network instance to the configuration
ln -s $CONFIGFS/g1/functions/"$usb_network_function" $CONFIGFS/g1/configs/c.1 \
|| echo " Couldn't symlink $usb_network_function"
# Check if there's an USB Device Controller
if [ -z "$(ls /sys/class/udc)" ]; then
echo " No USB Device Controller available"
return
fi
# Link the gadget instance to an USB Device Controller. This activates the gadget.
# See also: https://github.com/postmarketOS/pmbootstrap/issues/338
# shellcheck disable=SC2005
echo "$(ls /sys/class/udc)" > $CONFIGFS/g1/UDC || echo " Couldn't write UDC"
}
setup_usb_network() {
# Only run once
_marker="/tmp/_setup_usb_network"
[ -e "$_marker" ] && return
touch "$_marker"
echo "Setup usb network"
# Run all usb network setup functions (add more below!)
setup_usb_network_android
setup_usb_network_configfs
}
start_unudhcpd() {
# Only run once
[ "$(pidof unudhcpd)" ] && return
# Skip if disabled
# shellcheck disable=SC2154
if [ "$deviceinfo_disable_dhcpd" = "true" ]; then
echo "NOTE: start of dhcpd is disabled (deviceinfo_disable_dhcpd)"
return
fi
local host_ip="${unudhcpd_host_ip:-172.16.42.1}"
local client_ip="${unudhcpd_client_ip:-172.16.42.2}"
echo "Starting unudhcpd with server ip $host_ip, client ip: $client_ip"
# Get usb interface
INTERFACE=""
ifconfig rndis0 "$host_ip" 2>/dev/null && INTERFACE=rndis0
if [ -z $INTERFACE ]; then
ifconfig usb0 "$host_ip" 2>/dev/null && INTERFACE=usb0
fi
if [ -z $INTERFACE ]; then
ifconfig eth0 "$host_ip" 2>/dev/null && INTERFACE=eth0
fi
if [ -z $INTERFACE ]; then
echo " Could not find an interface to run a dhcp server on"
echo " Interfaces:"
ip link
return
fi
echo " Using interface $INTERFACE"
echo " Starting the DHCP daemon"
(
unudhcpd -i "$INTERFACE" -s "$host_ip" -c "$client_ip"
) &
}
# $1: Message to show
show_splash() {
# Skip for non-framebuffer devices
# shellcheck disable=SC2154
if [ "$deviceinfo_no_framebuffer" = "true" ]; then
echo "NOTE: Skipping framebuffer splashscreen (deviceinfo_no_framebuffer)"
return
fi
# Disable splash
if grep -q PMOS_NOSPLASH /proc/cmdline; then
return
fi
hide_splash
# shellcheck disable=SC2154,SC2059
/usr/bin/pbsplash -s /usr/share/pbsplash/pmos-logo-text.svg \
-b "$VERSION | Linux $(uname -r) | $deviceinfo_codename" \
-m "$(printf "$1")" >/dev/null &
}
hide_splash() {
killall pbsplash 2>/dev/null
while pgrep pbsplash >/dev/null; do
sleep 0.01
done
}
set_framebuffer_mode() {
[ -e "/sys/class/graphics/fb0/modes" ] || return
[ -z "$(cat /sys/class/graphics/fb0/mode)" ] || return
_mode="$(cat /sys/class/graphics/fb0/modes)"
echo "Setting framebuffer mode to: $_mode"
echo "$_mode" > /sys/class/graphics/fb0/mode
}
setup_framebuffer() {
# Skip for non-framebuffer devices
# shellcheck disable=SC2154
if [ "$deviceinfo_no_framebuffer" = "true" ]; then
echo "NOTE: Skipping framebuffer setup (deviceinfo_no_framebuffer)"
return
fi
# Wait for /dev/fb0
for _ in $(seq 1 100); do
[ -e "/dev/fb0" ] && break
sleep 0.1
done
if ! [ -e "/dev/fb0" ]; then
echo "ERROR: /dev/fb0 did not appear after waiting 10 seconds!"
echo "If your device does not have a framebuffer, disable this with:"
echo "no_framebuffer=true in <https://postmarketos.org/deviceinfo>"
return
fi
set_framebuffer_mode
}
setup_bootchart2() {
if grep -q PMOS_BOOTCHART2 /proc/cmdline; then
if [ -f "/sysroot/sbin/bootchartd" ]; then
# shellcheck disable=SC2034
init="/sbin/bootchartd"
echo "remounting /sysroot as rw for /sbin/bootchartd"
mount -o remount, rw /sysroot
# /dev/null may not exist at the first boot after
# the root filesystem has been created.
[ -c /sysroot/dev/null ] && return
echo "creating /sysroot/dev/null for /sbin/bootchartd"
mknod -m 666 "/sysroot/dev/null" c 1 3
else
echo "WARNING: bootchart2 is not installed."
fi
fi
}
loop_forever() {
while true; do
sleep 1
done
}