pmaports/main/postmarketos-initramfs/init_functions.sh
Clayton Craft 20e4eb495d
main/postmarketos-initramfs: hide cryptsetup not found error (MR 4204)
Hides this error when FDE is *not* enabled, and ultimately skips the
block of logic for detecting the luks partition:
        /init: line 437: cryptsetup: not found

This error has confused some users in the past, who were reporting
issues with the initramfs.

There's probably a minor speedup on non-FDE systems as well from
bailing early.
2023-09-07 20:33:56 +01:00

744 lines
22 KiB
Bash

#!/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 $(cat "$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" = "${x#pmos_root_uuid=}" ]; then
path="$(findfs UUID="${x#pmos_root_uuid=}")"
if [ -n "$path" ]; then
PMOS_ROOT="$path"
break
fi
fi
if ! [ "$x" = "${x#pmos_root=}" ]; then
path="${x#pmos_root=}"
if [ -e "$path" ]; then
PMOS_ROOT="$path"
break
fi
fi
done
# 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 "$PMOS_ROOT" ]; then
for id in pmOS_install pmOS_root; do
PMOS_ROOT="$(findfs 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" = "${x#pmos_boot_uuid=}" ]; then
# For the UUID, we validate if findfs returns a path
path="$(findfs UUID="${x#pmos_boot_uuid=}")"
if [ -n "$path" ]; then
PMOS_BOOT="$path"
break
fi
elif ! [ "$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
# Finally fall back to findfs by label
if [ -z "$PMOS_BOOT" ]; then
# * "pmOS_i_boot" installer boot partition (fits 11 chars for fat32)
# * "pmOS_inst_boot" old installer boot partition (backwards compat)
# * "pmOS_boot" boot partition after installation
for p in pmOS_i_boot pmOS_inst_boot pmOS_boot; do
PMOS_BOOT="$(findfs 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 "$partition" | grep -q pmOS_install; then
echo "Resize root partition: skipped (on-device installer)"
return
fi
# Only resize the partition if it's inside the device-mapper, which means
# that the partition is stored as a subpartition inside another one.
# In this case we want to resize it to use all the unused space of the
# external partition.
if [ -z "${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 "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
}