#!/bin/bash export LC_ALL="en_US.UTF-8" # working directory of koreader KOREADER_DIR="${0%/*}" # we're always starting from our working directory cd "${KOREADER_DIR}" || exit # 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 "${NEWUPDATE}" ]; then ./fbink -q -y -7 -pmh "Updating KOReader" # Setup the FBInk daemon export FBINK_NAMED_PIPE="/tmp/koreader.fbink" rm -f "${FBINK_NAMED_PIPE}" FBINK_PID="$(./fbink --daemon 1 %KOREADER% -q -y -6 -P 0)" # NOTE: See frontend/ui/otamanager.lua for a few more details on how we squeeze a percentage out of tar's checkpoint feature # NOTE: %B should always be 512 in our case, so let stat do part of the maths for us instead of using %s ;). FILESIZE="$(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 . . ." else # Huh ho... ./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 # load our own shared libraries if possible export LD_LIBRARY_PATH="${KOREADER_DIR}/libs" # export trained OCR data directory export TESSDATA_PREFIX="data" # export dict directory export STARDICT_DATA_DIR="data/dict" # export external font directory export EXT_FONT_DIR="/usr/lib/fonts" # we keep at most 500k worth of crash log if [ -e crash.log ]; then tail -c 500000 crash.log >crash.log.new mv -f crash.log.new crash.log fi # check if QBookApp was started before us, then # restart the application after leaving KOReader export STANDALONE="true" if pkill -0 QBookApp; then STANDALONE="false" fi if [ "${STANDALONE}" != "true" ]; then stopapp.sh >/dev/null 2>&1 [ -x /etc/init.d/connman ] && /etc/init.d/connman stop fi CRASH_COUNT=0 CRASH_TS=0 CRASH_PREV_TS=0 # **magic** values to request shell stuff. It starts at 85, # any number lower than that will exit this script. RESTART_KOREADER=85 ENTER_USBMS=86 ENTER_QBOOKAPP=87 RETURN_VALUE="${RESTART_KOREADER}" # Loop forever until KOReader requests a normal exit. while [ "${RETURN_VALUE}" -ne 0 ]; do # move dictionaries from external storage to koreader private partition. find /mnt/public/dict -type f -exec mv -v \{\} /mnt/private/koreader/data/dict \; 2>/dev/null if [ ${RETURN_VALUE} -eq ${RESTART_KOREADER} ]; then # Do an update check now, so we can actually update KOReader via the "Restart KOReader" menu entry ;). ko_update_check fi # run KOReader ./reader.lua "$@" >>crash.log 2>&1 RETURN_VALUE=$? if [ ${RETURN_VALUE} -ne 0 ] && [ "${RETURN_VALUE}" -ne "${ENTER_USBMS}" ] && [ "${RETURN_VALUE}" -ne "${ENTER_QBOOKAPP}" ] && [ "${RETURN_VALUE}" -ne "${RESTART_KOREADER}" ]; then # Increment the crash counter CRASH_COUNT=$((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=$((FONTH + FONTH / 2)) # With a little notice at the top of the screen, on a big gray screen of death ;). ./fbink -q -b -c -B GRAY9 -m -y 1 "Don't Panic! (Crash n°${CRASH_COUNT} -> ${RETURN_VALUE})" if [ ${CRASH_COUNT} -eq 1 ]; then # Warn that we're waiting on a tap to continue... ./fbink -q -b -O -m -y 2 "Tap the screen to continue." fi # U+1F4A3, the hard way, because we can't use \u or \U escape sequences... ./fbink -q -b -O -m -t regular=./fonts/freefont/FreeSerif.ttf,px=${bombHeight},top=${bombMargin} -- $'\xf0\x9f\x92\xa3' # And then print the tail end of the log on the bottom of the screen... crashLog="$(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 ./fbink -q -b -O -t regular=./fonts/droid/DroidSansMono.ttf,top=$((viewHeight / 2 + FONTH * 2 + FONTH / 2)),left=$((viewWidth / 60)),right=$((viewWidth / 60)),px=$((viewHeight / 64)) -- "${crashLog}" # So far, we hadn't triggered an actual screen refresh, do that now, to make sure everything is bundled in a single flashing refresh. ./fbink -q -f -s # Cue a lemming's faceplant sound effect! { echo "!!!!" echo "Uh oh, something went awry... (Crash n°${CRASH_COUNT}: $(date +'%x @ %X'))" echo "Running 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 [ ${CRASH_COUNT} -eq 1 ]; then # NOTE: We don't actually care about what head reads, we're just using it as a fancy sleep ;). # i.e., we pause either until the 15s timeout, or until the user touches the screen. timeout 15 head -c 24 /dev/input/event1 >/dev/null fi # Cycle the last crash timestamp CRASH_PREV_TS=${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 # check if KOReader requested to enter in mass storage mode. if [ "${RETURN_VALUE}" -eq "${ENTER_USBMS}" ]; then # NOTE: at this point we're sure that the safemode tool # is recent enough to support the "--force" flag. safemode storage --force 2>/dev/null # waiting forever for home button events. elif [ "${RETURN_VALUE}" -eq "${ENTER_QBOOKAPP}" ]; then ./release-ip.sh ./disable-wifi.sh [ -x /etc/init.d/connman ] && /etc/init.d/connman start # (re)start the reading application in the background restart.sh >/dev/null 2>&1 sleep 2 # loop while BQ app is running. while pkill -0 QBookApp; do sleep 10 done fi done if [ "${STANDALONE}" != "true" ]; then ./release-ip.sh ./disable-wifi.sh [ -x /etc/init.d/connman ] && /etc/init.d/connman start restart.sh >/dev/null 2>&1 fi