#!/bin/sh export LC_ALL="en_US.UTF-8" # Compute our working directory in an extremely defensive manner SCRIPT_DIR="$(CDPATH='' cd -- "$(dirname -- "$0")" && pwd -P)" # NOTE: We need to remember the *actual* KOREADER_DIR, not the relocalized version in /tmp... export KOREADER_DIR="${KOREADER_DIR:-${SCRIPT_DIR}}" # We rely on starting from our working directory, and it needs to be set, sane and absolute. cd "${KOREADER_DIR:-/dev/null}" || exit # To make USBMS behave, relocalize ourselves outside of onboard if [ "${SCRIPT_DIR}" != "/tmp" ]; then cp -pf "${0}" "/tmp/koreader.sh" chmod 777 "/tmp/koreader.sh" exec "/tmp/koreader.sh" "$@" fi # Attempt to switch to a sensible CPUFreq governor when that's not already the case... # Swap every CPU at once if available if [ -d "/sys/devices/system/cpu/cpufreq/policy0" ]; then CPUFREQ_SYSFS_PATH="/sys/devices/system/cpu/cpufreq/policy0" else CPUFREQ_SYSFS_PATH="/sys/devices/system/cpu/cpu0/cpufreq" fi IFS= read -r current_cpufreq_gov <"${CPUFREQ_SYSFS_PATH}/scaling_governor" # NOTE: What's available depends on the HW, so, we'll have to take it step by step... # Roughly follow Nickel's behavior (which prefers interactive), and prefer interactive, then ondemand, and finally conservative/dvfs. if [ "${current_cpufreq_gov}" != "interactive" ]; then if grep -q "interactive" "${CPUFREQ_SYSFS_PATH}/scaling_available_governors"; then ORIG_CPUFREQ_GOV="${current_cpufreq_gov}" echo "interactive" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" elif [ "${current_cpufreq_gov}" != "ondemand" ]; then if grep -q "ondemand" "${CPUFREQ_SYSFS_PATH}/scaling_available_governors"; then # NOTE: This should never really happen: every kernel that supports ondemand already supports interactive ;). # They were both introduced on Mk. 6 ORIG_CPUFREQ_GOV="${current_cpufreq_gov}" echo "ondemand" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" elif [ -e "/sys/devices/platform/mxc_dvfs_core.0/enable" ]; then # The rest of this block assumes userspace is available... if grep -q "userspace" "${CPUFREQ_SYSFS_PATH}/scaling_available_governors"; then ORIG_CPUFREQ_GOV="${current_cpufreq_gov}" export CPUFREQ_DVFS="true" # If we can use conservative, do so, but we'll tweak it a bit to make it somewhat useful given our load patterns... # We unfortunately don't have any better choices on those kernels, # the only other governors available are powersave & performance (c.f., #4114)... if grep -q "conservative" "${CPUFREQ_SYSFS_PATH}/scaling_available_governors"; then export CPUFREQ_CONSERVATIVE="true" echo "conservative" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" # NOTE: The knobs survive a governor switch, which is why we do this now ;). echo "2" >"/sys/devices/system/cpu/cpufreq/conservative/sampling_down_factor" echo "50" >"/sys/devices/system/cpu/cpufreq/conservative/freq_step" echo "11" >"/sys/devices/system/cpu/cpufreq/conservative/down_threshold" echo "12" >"/sys/devices/system/cpu/cpufreq/conservative/up_threshold" # NOTE: The default sampling_rate is a bit high for my tastes, # but it unfortunately defaults to its lowest possible setting... fi # NOTE: Now, here comes the freaky stuff... On a H2O, DVFS is only enabled when Wi-Fi is *on*. # When it's off, DVFS is off, which pegs the CPU @ max clock given that DVFS means the userspace governor. # The flip may originally have been switched by the sdio_wifi_pwr module itself, # via ntx_wifi_power_ctrl @ arch/arm/mach-mx5/mx50_ntx_io.c (which is also the CM_WIFI_CTRL (208) ntx_io ioctl), # but the code in the published H2O kernel sources actually does the reverse, and is commented out ;). # It is now entirely handled by Nickel, right *before* loading/unloading that module. # (There's also a bug(?) where that behavior is inverted for the *first* Wi-Fi session after a cold boot...) if grep -q "^sdio_wifi_pwr " "/proc/modules"; then # Wi-Fi is enabled, make sure DVFS is on echo "userspace" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" echo "1" >"/sys/devices/platform/mxc_dvfs_core.0/enable" else # Wi-Fi is disabled, make sure DVFS is off echo "0" >"/sys/devices/platform/mxc_dvfs_core.0/enable" # Switch to conservative to avoid being stuck at max clock if we can... if [ -n "${CPUFREQ_CONSERVATIVE}" ]; then echo "conservative" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" else # Otherwise, we'll be pegged at max clock... echo "userspace" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" # The kernel should already be taking care of that... cat "${CPUFREQ_SYSFS_PATH}/scaling_max_freq" >"${CPUFREQ_SYSFS_PATH}/scaling_setspeed" fi fi fi fi fi fi # update to new version from OTA directory ko_update_check() { NEWUPDATE="${KOREADER_DIR}/ota/koreader.updated.tar" INSTALLED="${KOREADER_DIR}/ota/koreader.installed.tar" if [ -f "${NEWUPDATE}" ]; then # Clear screen to delete UI leftovers ./fbink --cls ./fbink -q -y -7 -pmh "Updating KOReader" # Setup the FBInk daemon export FBINK_NAMED_PIPE="/tmp/koreader.fbink" rm -f "${FBINK_NAMED_PIPE}" # We'll want to use REAGL on sunxi, because AUTO is slow, and fast merges are extremely broken outside of REAGL... eval "$(./fbink -e | tr ';' '\n' | grep -e isSunxi | tr '\n' ';')" # shellcheck disable=SC2154 if [ "${isSunxi}" = "1" ]; then PBAR_WFM="REAGL" else PBAR_WFM="AUTO" fi FBINK_PID="$(./fbink --daemon 1 %KOREADER% -q -y -6 -P 0 -W ${PBAR_WFM})" # NOTE: See frontend/ui/otamanager.lua for a few more details on how we squeeze a percentage out of tar's checkpoint feature # NOTE: %B should always be 512 in our case, so let stat do part of the maths for us instead of using %s ;). FILESIZE="$(stat -c %b "${NEWUPDATE}")" BLOCKS="$((FILESIZE / 20))" export CPOINTS="$((BLOCKS / 100))" # shellcheck disable=SC2016 ./tar xf "${NEWUPDATE}" --strip-components=1 --no-same-permissions --no-same-owner --checkpoint="${CPOINTS}" --checkpoint-action=exec='printf "%s" $((TAR_CHECKPOINT / CPOINTS)) > ${FBINK_NAMED_PIPE}' fail=$? kill -TERM "${FBINK_PID}" # Cleanup behind us... if [ "${fail}" -eq 0 ]; then mv "${NEWUPDATE}" "${INSTALLED}" ./fbink -q -y -6 -pm "Update successful :)" ./fbink -q -y -5 -pm "KOReader will start momentarily . . ." # Warn if the startup script has been updated... if [ "$(md5sum "/tmp/koreader.sh" | cut -f1 -d' ')" != "$(md5sum "${KOREADER_DIR}/koreader.sh" | cut -f1 -d' ')" ]; then ./fbink -q -pmMh "Update contains a startup script update!" fi else # Uh oh... ./fbink -q -y -6 -pmh "Update failed :(" ./fbink -q -y -5 -pm "KOReader may fail to function properly!" fi rm -f "${NEWUPDATE}" # always purge newupdate to prevent update loops unset CPOINTS FBINK_NAMED_PIPE unset BLOCKS FILESIZE FBINK_PID # Ensure everything is flushed to disk before we restart. This *will* stall for a while on slow storage! sync fi } # NOTE: Keep doing an initial update check, in addition to one during the restart loop, so we can pickup potential updates of this very script... ko_update_check # If an update happened, and was successful, reexec if [ -n "${fail}" ] && [ "${fail}" -eq 0 ]; then # By now, we know we're in the right directory, and our script name is pretty much set in stone, so we can forgo using $0 exec ./koreader.sh "${@}" fi # export dict directory export STARDICT_DATA_DIR="data/dict" # export external font directory export EXT_FONT_DIR="/mnt/onboard/fonts" # Quick'n dirty way of checking if we were started while Nickel was running (e.g., KFMon), # or from another launcher entirely, outside of Nickel (e.g., KSM). VIA_NICKEL="false" if pkill -0 nickel; then VIA_NICKEL="true" fi # NOTE: Do not delete this line because KSM detects newer versions of KOReader by the presence of the phrase 'from_nickel'. if [ "${VIA_NICKEL}" = "true" ]; then # Detect if we were started from KFMon FROM_KFMON="false" if pkill -0 kfmon; then # That's a start, now check if KFMon truly is our parent... if [ "$(pidof -s kfmon)" -eq "${PPID}" ]; then FROM_KFMON="true" fi fi # Check if Nickel is our parent... FROM_NICKEL="false" if [ -n "${NICKEL_HOME}" ]; then FROM_NICKEL="true" fi # If we were spawned outside of Nickel, we'll need a few extra bits from its own env... if [ "${FROM_NICKEL}" = "false" ]; then # Siphon a few things from nickel's env (namely, stuff exported by rcS *after* on-animator.sh has been launched)... # shellcheck disable=SC2046 export $(grep -s -E -e '^(DBUS_SESSION_BUS_ADDRESS|NICKEL_HOME|WIFI_MODULE|LANG|INTERFACE)=' "/proc/$(pidof -s nickel)/environ") # NOTE: Quoted variant, w/ the busybox RS quirk (c.f., https://unix.stackexchange.com/a/125146): #eval "$(awk -v 'RS="\0"' '/^(DBUS_SESSION_BUS_ADDRESS|NICKEL_HOME|WIFI_MODULE|LANG|INTERFACE)=/{gsub("\047", "\047\\\047\047"); print "export \047" $0 "\047"}' "/proc/$(pidof -s nickel)/environ")" fi # If bluetooth is enabled, kill it. if [ -e "/sys/devices/platform/bt/rfkill/rfkill0/state" ]; then # That's on sunxi, at least IFS= read -r bt_state <"/sys/devices/platform/bt/rfkill/rfkill0/state" if [ "${bt_state}" = "1" ]; then echo "0" >"/sys/devices/platform/bt/rfkill/rfkill0/state" # Power the chip down ./luajit frontend/device/kobo/ntx_io.lua 126 0 fi fi if grep -q "^sdio_bt_pwr " "/proc/modules"; then # And that's on NXP SoCs rmmod sdio_bt_pwr fi # Flush disks, might help avoid trashing nickel's DB... sync # And we can now stop the full Kobo software stack # NOTE: We don't need to kill KFMon, it's smart enough not to allow running anything else while we're up # NOTE: We kill Nickel's master dhcpcd daemon on purpose, # as we want to be able to use our own per-if processes w/ custom args later on. # A SIGTERM does not break anything, it'll just prevent automatic lease renewal until the time # KOReader actually sets the if up itself (i.e., it'll do)... killall -q -TERM nickel hindenburg sickel fickel strickel fontickel adobehost foxitpdf iink dhcpcd-dbus dhcpcd bluealsa bluetoothd fmon nanoclock.lua # Wait for Nickel to die... (oh, procps with killall -w, how I miss you...) kill_timeout=0 while pkill -0 nickel; do # Stop waiting after 4s if [ ${kill_timeout} -ge 15 ]; then break fi usleep 250000 kill_timeout=$((kill_timeout + 1)) done # Remove Nickel's FIFO to avoid udev & udhcpc scripts hanging on open() on it... rm -f /tmp/nickel-hardware-status # We don't need to grab input devices (unless MiniClock is running, in which case that neatly inhibits it while we run). if [ ! -d "/tmp/MiniClock" ]; then export KO_DONT_GRAB_INPUT="true" fi fi # check whether PLATFORM & PRODUCT have a value assigned by rcS if [ -z "${PRODUCT}" ]; then # shellcheck disable=SC2046 export $(grep -s -e '^PRODUCT=' "/proc/$(pidof -s udevd)/environ") fi if [ -z "${PRODUCT}" ]; then PRODUCT="$(/bin/kobo_config.sh 2>/dev/null)" export PRODUCT fi # PLATFORM is used in koreader for the path to the Wi-Fi drivers (as well as when restarting nickel) if [ -z "${PLATFORM}" ]; then # shellcheck disable=SC2046 export $(grep -s -e '^PLATFORM=' "/proc/$(pidof -s udevd)/environ") fi if [ -z "${PLATFORM}" ]; then PLATFORM="freescale" if dd if="/dev/mmcblk0" bs=512 skip=1024 count=1 | grep -q "HW CONFIG"; then CPU="$(ntx_hwconfig -s -p /dev/mmcblk0 CPU 2>/dev/null)" PLATFORM="${CPU}-ntx" fi if [ "${PLATFORM}" != "freescale" ] && [ ! -e "/etc/u-boot/${PLATFORM}/u-boot.mmc" ]; then PLATFORM="ntx508" fi export PLATFORM fi # Make sure we have a sane-ish INTERFACE env var set... if [ -z "${INTERFACE}" ]; then # That's what we used to hardcode anyway INTERFACE="eth0" export INTERFACE fi # We'll enforce UR in ko_do_fbdepth, so make sure further FBInk usage (USBMS) # will also enforce UR... (Only actually meaningful on sunxi). if [ "${PLATFORM}" = "b300-ntx" ]; then export FBINK_FORCE_ROTA=0 # On sunxi, non-REAGL waveform modes suffer from weird merging quirks... FBINK_WFM="REAGL" # And we also cannot use batched updates for the crash screen, as buffers are private, # so each invocation essentially draws in a different buffer... FBINK_BATCH_FLAG="" # Same idea for backgroundless... FBINK_BGLESS_FLAG="-B GRAY9" # It also means we need explicit background padding in the OT codepath... FBINK_OT_PADDING=",padding=BOTH" # Make sure we poke the right input device KOBO_TS_INPUT="/dev/input/by-path/platform-0-0010-event" else FBINK_WFM="GL16" FBINK_BATCH_FLAG="-b" FBINK_BGLESS_FLAG="-O" FBINK_OT_PADDING="" KOBO_TS_INPUT="/dev/input/event1" fi # We'll want to ensure Portrait rotation to allow us to use faster blitting codepaths @ 8bpp, # so remember the current one before fbdepth does its thing. IFS= read -r ORIG_FB_ROTA <"/sys/class/graphics/fb0/rotate" echo "Original fb rotation is set @ ${ORIG_FB_ROTA}" >>crash.log 2>&1 # In the same vein, swap to 8bpp, # because 16bpp is the worst idea in the history of time, as RGB565 is generally a PITA without hardware blitting, # and 32bpp usually gains us nothing except a performance hit (we're not Qt5 with its QPainter constraints). # The reduced size & complexity should hopefully make things snappier, # (and hopefully prevent the JIT from going crazy on high-density screens...). # NOTE: Even though both pickel & Nickel appear to restore their preferred fb setup, we'll have to do it ourselves, # as they fail to flip the grayscale flag properly. Plus, we get to play nice with every launch method that way. # So, remember the current bitdepth, so we can restore it on exit. IFS= read -r ORIG_FB_BPP <"/sys/class/graphics/fb0/bits_per_pixel" echo "Original fb bitdepth is set @ ${ORIG_FB_BPP}bpp" >>crash.log 2>&1 # Sanity check... case "${ORIG_FB_BPP}" in 8) ;; 16) ;; 32) ;; *) # Uh oh? Don't do anything... unset ORIG_FB_BPP ;; esac # The actual swap is done in a function, because we can disable it in the Developer settings, and we want to honor it on restart. ko_do_fbdepth() { # On sunxi, the fb state is meaningless, and the minimal disp fb doesn't actually support 8bpp anyway... if [ "${PLATFORM}" = "b300-ntx" ]; then # NOTE: The fb state is *completely* meaningless on this platform. # This is effectively a noop, we're just keeping it for logging purposes... echo "Making sure that rotation is set to Portrait" >>crash.log 2>&1 ./fbdepth -R UR >>crash.log 2>&1 # We haven't actually done anything, so don't do anything on exit either ;). unset ORIG_FB_BPP return fi # On color panels, we target 32bpp for, well, color, and sane addressing (it also happens to be their default) ;o). eval "$(./fbink -e | tr ';' '\n' | grep -e hasColorPanel | tr '\n' ';')" # shellcheck disable=SC2154 if [ "${hasColorPanel}" = "1" ]; then # If color rendering has been disabled by the user, switch to 8bpp to completely skip CFA processing if grep -q '\["color_rendering"\] = false' 'settings.reader.lua' 2>/dev/null; then echo "Switching fb bitdepth to 8bpp (to disable CFA) & rotation to Portrait" >>crash.log 2>&1 ./fbdepth -d 8 -R UR >>crash.log 2>&1 else echo "Switching fb bitdepth to 32bpp & rotation to Portrait" >>crash.log 2>&1 ./fbdepth -d 32 -R UR >>crash.log 2>&1 fi return fi # Check if the swap has been disabled... if grep -q '\["dev_startup_no_fbdepth"\] = true' 'settings.reader.lua' 2>/dev/null; then # Swap back to the original bitdepth (in case this was a restart) if [ -n "${ORIG_FB_BPP}" ]; then # Unless we're a Forma/Libra, don't even bother to swap rotation if the fb is @ 16bpp, because RGB565 is terrible anyways, # so there's no faster codepath to achieve, and running in Portrait @ 16bpp might actually be broken on some setups... if [ "${ORIG_FB_BPP}" -eq "16" ] && [ "${PRODUCT}" != "frost" ] && [ "${PRODUCT}" != "storm" ]; then echo "Making sure we're using the original fb bitdepth @ ${ORIG_FB_BPP}bpp & rotation @ ${ORIG_FB_ROTA}" >>crash.log 2>&1 ./fbdepth -d "${ORIG_FB_BPP}" -r "${ORIG_FB_ROTA}" >>crash.log 2>&1 else echo "Making sure we're using the original fb bitdepth @ ${ORIG_FB_BPP}bpp, and that rotation is set to Portrait" >>crash.log 2>&1 ./fbdepth -d "${ORIG_FB_BPP}" -R UR >>crash.log 2>&1 fi fi else # Swap to 8bpp if things looke sane if [ -n "${ORIG_FB_BPP}" ]; then echo "Switching fb bitdepth to 8bpp & rotation to Portrait" >>crash.log 2>&1 ./fbdepth -d 8 -R UR >>crash.log 2>&1 fi fi } # Ensure we start with a valid nameserver in resolv.conf, otherwise we're stuck with broken name resolution (#6421, #6424). # Fun fact: this wouldn't be necessary if Kobo were using a non-prehistoric glibc... (it was fixed in glibc 2.26). ko_do_dns() { # If there aren't any servers listed, append CloudFlare's if ! grep -q '^nameserver' "/etc/resolv.conf"; then echo "# Added by KOReader because your setup is broken" >>"/etc/resolv.conf" echo "nameserver 1.1.1.1" >>"/etc/resolv.conf" fi } # Remount the SD card RW if it's inserted and currently RO if awk '$4~/(^|,)ro($|,)/' /proc/mounts | grep ' /mnt/sd '; then mount -o remount,rw /mnt/sd fi # we keep at most 500KB worth of crash log if [ -e crash.log ]; then tail -c 500000 crash.log >crash.log.new mv -f crash.log.new crash.log fi CRASH_COUNT=0 CRASH_TS=0 CRASH_PREV_TS=0 # List of supported special return codes KO_RC_RESTART=85 KO_RC_USBMS=86 KO_RC_HALT=88 # Because we *want* an initial fbdepth pass ;). RETURN_VALUE=${KO_RC_RESTART} while [ ${RETURN_VALUE} -ne 0 ]; do if [ ${RETURN_VALUE} -eq ${KO_RC_RESTART} ]; then # Do an update check now, so we can actually update KOReader via the "Restart KOReader" menu entry ;). ko_update_check # Do or double-check the fb depth switch, or restore original bitdepth if requested ko_do_fbdepth # Make sure we have a sane resolv.conf ko_do_dns fi ./reader.lua "$@" >>crash.log 2>&1 RETURN_VALUE=$? # Did we crash? if [ ${RETURN_VALUE} -ne 0 ] && [ ${RETURN_VALUE} -ne ${KO_RC_RESTART} ] && [ ${RETURN_VALUE} -ne ${KO_RC_USBMS} ] && [ ${RETURN_VALUE} -ne ${KO_RC_HALT} ]; then # Increment the crash counter CRASH_COUNT=$((CRASH_COUNT + 1)) CRASH_TS=$(date +'%s') # Reset it to a first crash if it's been a while since our last crash... if [ $((CRASH_TS - CRASH_PREV_TS)) -ge 20 ]; then CRASH_COUNT=1 fi # Check if the user requested to always abort on crash if grep -q '\["dev_abort_on_crash"\] = true' 'settings.reader.lua' 2>/dev/null; then ALWAYS_ABORT="true" # In which case, make sure we pause on *every* crash CRASH_COUNT=1 else ALWAYS_ABORT="false" fi # Show a fancy bomb on screen viewWidth=600 viewHeight=800 FONTH=16 eval "$(./fbink -e | tr ';' '\n' | grep -e viewWidth -e viewHeight -e FONTH | tr '\n' ';')" # Compute margins & sizes relative to the screen's resolution, so we end up with a similar layout, no matter the device. # Height @ ~56.7%, w/ a margin worth 1.5 lines bombHeight=$((viewHeight / 2 + viewHeight / 15)) bombMargin=$((FONTH + FONTH / 2)) # Start with a big gray screen of death, and our friendly old school crash icon ;) # U+1F4A3, the hard way, because we can't use \u or \U escape sequences... # shellcheck disable=SC2039,SC3003,SC2086 ./fbink -q ${FBINK_BATCH_FLAG} -c -B GRAY9 -m -t regular=./fonts/freefont/FreeSerif.ttf,px=${bombHeight},top=${bombMargin} -W ${FBINK_WFM} -- $'\xf0\x9f\x92\xa3' # With a little notice at the top of the screen, on a big gray screen of death ;). # shellcheck disable=SC2086 ./fbink -q ${FBINK_BATCH_FLAG} ${FBINK_BGLESS_FLAG} -m -y 1 -W ${FBINK_WFM} -- "Don't Panic! (Crash n°${CRASH_COUNT} -> ${RETURN_VALUE})" if [ ${CRASH_COUNT} -eq 1 ]; then # Warn that we're waiting on a tap to continue... # shellcheck disable=SC2086 ./fbink -q ${FBINK_BATCH_FLAG} ${FBINK_BGLESS_FLAG} -m -y 2 -W ${FBINK_WFM} -- "Tap the screen to continue." fi # And then print the tail end of the log on the bottom of the screen... crashLog="$(tail -n 25 crash.log | sed -e 's/\t/ /g')" # The idea for the margins being to leave enough room for an fbink -Z bar, small horizontal margins, and a font size based on what 6pt looked like @ 265dpi # shellcheck disable=SC2086 ./fbink -q ${FBINK_BATCH_FLAG} ${FBINK_BGLESS_FLAG} -t regular=./fonts/droid/DroidSansMono.ttf,top=$((viewHeight / 2 + FONTH * 2 + FONTH / 2)),left=$((viewWidth / 60)),right=$((viewWidth / 60)),px=$((viewHeight / 64))${FBINK_OT_PADDING} -W ${FBINK_WFM} -- "${crashLog}" if [ "${PLATFORM}" != "b300-ntx" ]; then # So far, we hadn't triggered an actual screen refresh, do that now, to make sure everything is bundled in a single flashing refresh. ./fbink -q -f -s fi # Cue a lemming's faceplant sound effect! { echo "!!!!" echo "Uh oh, something went awry... (Crash n°${CRASH_COUNT}: $(date +'%x @ %X'))" echo "Running FW $(cut -f3 -d',' /mnt/onboard/.kobo/version) on Linux $(uname -r) ($(uname -v))" } >>crash.log 2>&1 if [ ${CRASH_COUNT} -lt 5 ] && [ "${ALWAYS_ABORT}" = "false" ]; then echo "Attempting to restart KOReader . . ." >>crash.log 2>&1 echo "!!!!" >>crash.log 2>&1 fi # Pause a bit if it's the first crash in a while, so that it actually has a chance of getting noticed ;). if [ ${CRASH_COUNT} -eq 1 ]; then # NOTE: We don't actually care about what read read, we're just using it as a fancy sleep ;). # i.e., we pause either until the 15s timeout, or until the user touches the screen. # shellcheck disable=SC2039,SC3045 read -r -t 15 <"${KOBO_TS_INPUT}" fi # Cycle the last crash timestamp CRASH_PREV_TS=${CRASH_TS} # But if we've crashed more than 5 consecutive times, exit, because we wouldn't want to be stuck in a loop... # NOTE: No need to check for ALWAYS_ABORT, CRASH_COUNT will always be 1 when it's true ;). if [ ${CRASH_COUNT} -ge 5 ]; then echo "Too many consecutive crashes, aborting . . ." >>crash.log 2>&1 echo "!!!! ! !!!!" >>crash.log 2>&1 break fi # If the user requested to always abort on crash, do so. if [ "${ALWAYS_ABORT}" = "true" ]; then echo "Aborting . . ." >>crash.log 2>&1 echo "!!!! ! !!!!" >>crash.log 2>&1 break fi else # Reset the crash counter if that was a sane exit/restart CRASH_COUNT=0 fi if [ ${RETURN_VALUE} -eq ${KO_RC_USBMS} ]; then # User requested an USBMS session, setup the tool outside of onboard USBMS_HOME="/mnt/usbms" mkdir -p "${USBMS_HOME}" # We're using a custom tmpfs in case /tmp is too small (mainly because we may need to import a large CJK font in there...) if ! mount -t tmpfs tmpfs ${USBMS_HOME} -o defaults,size=32M,mode=1777,noatime; then echo "Failed to create the USBMS tmpfs, restarting KOReader . . ." >>crash.log 2>&1 continue fi if ! ./tar xzf "./data/KoboUSBMS.tar.gz" -C "${USBMS_HOME}"; then echo "Couldn't unpack KoboUSBMS, restarting KOReader . . ." >>crash.log 2>&1 if ! umount "${USBMS_HOME}"; then echo "Couldn't unmount the USBMS tmpfs, shutting down in 30 sec!" >>crash.log 2>&1 sleep 30 poweroff -f fi rm -rf "${USBMS_HOME}" continue fi # Then siphon KOReader's language for i18n... if grep -q '\["language"\]' 'settings.reader.lua' 2>/dev/null; then usbms_lang="$(grep '\["language"\]' 'settings.reader.lua' | cut -d'"' -f4)" else usbms_lang="C" fi # If the language is CJK, copy the CJK font, too... case "${usbms_lang}" in ja* | ko* | zh*) cp -pf "${KOREADER_DIR}/fonts/noto/NotoSansCJKsc-Regular.otf" "${USBMS_HOME}/resources/fonts/NotoSansCJKsc-Regular.otf" ;; esac # Here we go! if ! cd "${USBMS_HOME}"; then echo "Couldn't chdir to ${USBMS_HOME}, restarting KOReader . . ." >>crash.log 2>&1 if ! umount "${USBMS_HOME}"; then echo "Couldn't unmount the USBMS tmpfs, shutting down in 30 sec!" >>crash.log 2>&1 sleep 30 poweroff -f fi rm -rf "${USBMS_HOME}" continue fi env LANGUAGE="${usbms_lang}" ./usbms fail=$? if [ ${fail} -ne 0 ]; then # NOTE: Early init failures return KO_RC_USBMS, # to allow simply restarting KOReader when we know the integrity of onboard hasn't been compromised... if [ ${fail} -eq ${KO_RC_USBMS} ]; then echo "KoboUSBMS failed to setup an USBMS session, restarting KOReader . . ." >>"${KOREADER_DIR}/crash.log" 2>&1 else # Hu, oh, something went wrong... Stay around for 90s (enough time to look at the syslog over Wi-Fi), and then shutdown. logger -p "DAEMON.CRIT" -t "koreader.sh[$$]" "USBMS session failed (${fail}), shutting down in 90 sec!" sleep 90 poweroff -f fi fi # Jump back to the right place, and keep on trucking if ! cd "${KOREADER_DIR}"; then logger -p "DAEMON.CRIT" -t "koreader.sh[$$]" "Couldn't chdir back to KOREADER_DIR (${KOREADER_DIR}), shutting down in 30 sec!" sleep 30 poweroff -f fi # Tear down the tmpfs... if ! umount "${USBMS_HOME}"; then logger -p "DAEMON.CRIT" -t "koreader.sh[$$]" "Couldn't unmount the USBMS tmpfs, shutting down in 30 sec!" sleep 30 poweroff -f fi rm -rf "${USBMS_HOME}" fi # Did we request a reboot/shutdown? if [ ${RETURN_VALUE} -eq ${KO_RC_HALT} ]; then break fi done # If we requested a reboot/shutdown, no need to bother with this... if [ ${RETURN_VALUE} -ne ${KO_RC_HALT} ]; then # Restore original fb bitdepth if need be... # Since we also (almost) always enforce Portrait, we also have to restore the original rotation no matter what ;). if [ -n "${ORIG_FB_BPP}" ]; then echo "Restoring original fb bitdepth @ ${ORIG_FB_BPP}bpp & rotation @ ${ORIG_FB_ROTA}" >>crash.log 2>&1 ./fbdepth -d "${ORIG_FB_BPP}" -r "${ORIG_FB_ROTA}" >>crash.log 2>&1 else echo "Restoring original fb rotation @ ${ORIG_FB_ROTA}" >>crash.log 2>&1 ./fbdepth -r "${ORIG_FB_ROTA}" >>crash.log 2>&1 fi # Restore original CPUFreq governor if need be... if [ -n "${ORIG_CPUFREQ_GOV}" ]; then echo "${ORIG_CPUFREQ_GOV}" >"${CPUFREQ_SYSFS_PATH}/scaling_governor" # NOTE: Leave DVFS alone, it'll be handled by Nickel if necessary. fi if [ "${VIA_NICKEL}" = "true" ]; then if [ "${FROM_KFMON}" = "true" ]; then # KFMon is the only launcher that has a toggle to either reboot or restart Nickel on exit if grep -q "reboot_on_exit=false" "/mnt/onboard/.adds/kfmon/config/koreader.ini" 2>/dev/null; then # KFMon asked us to restart nickel on exit (default since KFMon 0.9.5) ./nickel.sh & else # KFMon asked us to restart the device on exit /sbin/reboot fi else # Otherwise, just restart Nickel ./nickel.sh & fi else # if we were called from advboot then we must reboot to go to the menu # NOTE: This is actually achieved by checking if KSM or a KSM-related script is running: # This might lead to false-positives if you use neither KSM nor advboot to launch KOReader *without nickel running*. if ! pkill -0 -f kbmenu; then /sbin/reboot fi fi else if [ "${VIA_NICKEL}" = "false" ]; then if pkill -0 -f kbmenu; then # If we were started by KSM and requested an exit, attempt to *NOT* exit the script, # so as not to re-enter KSM at all, to make sure the device powers off with our own ScreenSaver displayed. # NOTE: This might not be fool-proof, as a poweroff might take longer than that, # or we might be interrupted early by signals. sleep 10 fi fi fi # Wipe the clones on exit rm -f "/tmp/koreader.sh" exit ${RETURN_VALUE}