tests/ext4/android_emmc_perf_tests.sh - nest-cam/4320010/android-extras-tests - Git at Google

 #!/bin/bash

 PERF="rand_emmc_perf"
 PERF_LOC=/dev
 STATS_FILE="/data/local/tmp/stats_test"
 STATS_MODE=0
 USERBUILD_MODE=0

 if [ "$1" = "-s" ]
 then
   STATS_MODE=1
 elif [ "$1" = "-u" ]
 then
   USERBUILD_MODE=1
 fi

 if [ ! -r "$PERF" ]
 then
   echo "Cannot read $PERF test binary"
 fi

 if ! adb shell true >/dev/null 2>&1
 then
   echo "No device detected over adb"
 fi

 HARDWARE=`adb shell getprop ro.hardware | tr -d "\r"`

 case "$HARDWARE" in
   tuna | steelhead)
     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="/dev/block/platform/omap/omap_hsmmc.0/by-name/cache"
     MMCDEV="mmcblk0"
     ;;

   stingray | wingray)
     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="/dev/block/platform/sdhci-tegra.3/by-name/cache"
     MMCDEV="mmcblk0"
     ;;

   herring)
     echo "This test will wipe the userdata partition on $HARDWARE devices."
     read -p "Do you want to proceed? " ANSWER

     if [ "$ANSWER" != "yes" ]
     then
       echo "aborting test"
       exit 1
     fi

     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="/dev/block/platform/s3c-sdhci.0/by-name/userdata"
     MMCDEV="mmcblk0"
     ;;

   grouper)
     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="/dev/block/platform/sdhci-tegra.3/by-name/CAC"
     MMCDEV="mmcblk0"
     ;;

   manta)
     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="/dev/block/platform/dw_mmc.0/by-name/cache"
     MMCDEV="mmcblk0"
     ;;

   flo)
     CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
     CACHE="dev/block/platform/msm_sdcc.1/by-name/cache"
     MMCDEV="mmcblk0"
     ;;

   *)
     echo "Unknown hardware $HARDWARE.  Exiting."
     exit 1
 esac

 # We cannot stop and unmount stuff in a user build, so don't even try.
 if [ "$USERBUILD_MODE" -eq 0 ]
 then
   # prepare the device
   adb root
   adb wait-for-device
   adb push "$PERF" /dev
   adb shell stop
   adb shell stop sdcard
   adb shell stop ril-daemon
   adb shell stop media
   adb shell stop drm
   adb shell stop keystore
   adb shell stop tf_daemon
   adb shell stop bluetoothd
   adb shell stop hciattach
   adb shell stop p2p_supplicant
   adb shell stop wpa_supplicant
   adb shell stop mobicore
   adb shell umount /sdcard >/dev/null 2>&1
   adb shell umount /mnt/sdcard >/dev/null 2>&1
   adb shell umount /mnt/shell/sdcard0 >/dev/null 2>&1
   adb shell umount /mnt/shell/emulated >/dev/null 2>&1
   adb shell umount /cache >/dev/null 2>&1
   if [ "$STATS_MODE" -ne 1 ]
   then
     adb shell umount /data >/dev/null 2>&1
   fi
 else
   # For user builds, put the $PERF binary in /data/local/tmp,
   # and also setup CACHE to point to a file on /data/local/tmp,
   # and create that file
   PERF_LOC=/data/local/tmp
   adb push "$PERF" "$PERF_LOC"
   CACHE=/data/local/tmp/testfile
   echo "Creating testfile for user builds (can take up to 60 seconds)"
   adb shell dd if=/dev/zero of=$CACHE bs=1048576 count=512
 fi

 # Add more services here that other devices need to stop.
 # So far, this list is sufficient for:
 #   Prime

 if [ "$USERBUILD_MODE" -eq 0 ]
 then
   # At this point, the device is quiescent, need to crank up the cpu speed,
   # then run tests
   adb shell "cat $CPUFREQ/cpuinfo_max_freq > $CPUFREQ/scaling_max_freq"
   adb shell "cat $CPUFREQ/cpuinfo_max_freq > $CPUFREQ/scaling_min_freq"
 fi

 # Start the tests

 if [ "$STATS_MODE" -eq 1 ]
 then
   # This test looks for the average and max random write times for the emmc
   # chip.  It should be run with the emmc chip full for worst case numbers,
   # and after fstrim for best case numbers.  So first fill the chip, twice,
   # then run the test, then remove the large file, run fstrim, and run the
   # test again.

   # Remove the test file if it exists, then make it anew.
   echo "Filling userdata"
   adb shell rm  -f "$STATS_FILE"
   adb shell dd if=/dev/zero of="$STATS_FILE" bs=1048576
   adb shell sync

   # Do it again to make sure to fill up all the reserved blocks used for
   # wear levelling, plus any unused blocks in the other partitions.  Yes,
   # this is not precise, just a good heuristic.
   echo "Filling userdata again"
   adb shell rm "$STATS_FILE"
   adb shell sync
   adb shell dd if=/dev/zero of="$STATS_FILE" bs=1048576
   adb shell sync

   # Run the test
   echo "Running stats test after filling emmc chip"
   adb shell /dev/$PERF -w -o -s 20000 -f /dev/full_stats 400 "$CACHE"

   # Remove the file, and have vold do fstrim
   adb shell rm "$STATS_FILE"
   adb shell sync
   # Make sure fstrim knows there is work to do
   sleep 10

   # Get the current number of FSTRIM complete lines in thh logcat
   ORIGCNT=`adb shell logcat -d | grep -c "Finished fstrim work"`

   # Attempt to start fstrim
   OUT=`adb shell vdc fstrim dotrim | grep "Command not recognized"`

   if [ -z "$OUT" ]
   then
     # Wait till we see another fstrim finished line
     sleep 10
     let T=10
     NEWCNT=`adb shell logcat -d |grep -c "Finished fstrim work"`
     while [ "$NEWCNT" -eq "$ORIGCNT" ]
     do
       sleep 10
       let T=T+10
       if [ "$T" -ge 300 ]
       then
         echo "Error: FSTRIM did not complete in 300 seconds, continuing"
         break
       fi
       NEWCNT=`adb shell logcat -d |grep -c "Finished fstrim work"`
     done

     echo "FSTRIM took "$T" seconds"

     # Run the test again
     echo "Running test after fstrim"
     adb shell /dev/$PERF -w -o -s 20000 -f /dev/fstrimmed_stats 400 "$CACHE"

     # Retrieve the full data logs
     adb pull /dev/fstrimmed_stats $HARDWARE-fstrimmed_stats
     adb pull /dev/full_stats $HARDWARE-full_stats
   else
     echo "Device doesn't support fstrim, not running test a second time"
   fi

 else

   # Sequential read test
   if [ "$USERBUILD_MODE" -eq 0 ]
   then
     # There is no point in running this in USERBUILD mode, because
     # we can't drop caches, and the numbers are ludicrously high
     for I in 1 2 3
     do
       adb shell "echo 3 > /proc/sys/vm/drop_caches"
       echo "Sequential read test $I"
       adb shell dd if="$CACHE" of=/dev/null bs=1048576 count=200
     done
   fi

   # Sequential write test
   for I in 1 2 3
   do
     echo "Sequential write test $I"
     # It's unclear if this test is useful on USERBUILDS, given the
     # caching on the filesystem
     adb shell dd if=/dev/zero conv=notrunc of="$CACHE" bs=1048576 count=200
   done

   if [ "$USERBUILD_MODE" -eq 0 ]
   then
     # Random read tests require that we read from a much larger range of offsets
     # into the emmc chip than the write test.  If we only read though 100 Megabytes
     # (and with a read-ahead of 128K), we quickly fill the buffer cache with 100
     # Megabytes of data, and subsequent reads are nearly instantaneous.  Since
     # reading is non-destructive, and we've never shipped a device with less than
     # 8 Gbytes, for this test we read from the raw emmc device, and randomly seek
     # in the first 6 Gbytes.  That is way more memory than any device we currently
     # have and it should keep the cache from being poluted with entries from
     # previous random reads.
     #
     # Also, test with the read-ahead set very low at 4K, and at the default

     # Random read test, 4K read-ahead
     ORIG_READAHEAD=`adb shell cat /sys/block/$MMCDEV/queue/read_ahead_kb | tr -d "\r"`
     adb shell "echo 4 > /sys/block/$MMCDEV/queue/read_ahead_kb"
     for I in 1 2 3
     do
       adb shell "echo 3 > /proc/sys/vm/drop_caches"
       echo "Random read (4K read-ahead) test $I"
       adb shell "$PERF_LOC"/"$PERF" -r 6000 "/dev/block/$MMCDEV"
     done

     # Random read test, default read-ahead
     adb shell "echo $ORIG_READAHEAD > /sys/block/$MMCDEV/queue/read_ahead_kb"
     for I in 1 2 3
     do
       adb shell "echo 3 > /proc/sys/vm/drop_caches"
       echo "Random read (default read-ahead of ${ORIG_READAHEAD}K) test $I"
       adb shell "$PERF_LOC"/"$PERF" -r 6000 "/dev/block/$MMCDEV"
     done
   fi

   # Random write test
   for I in 1 2 3
   do
     echo "Random write test $I"
     adb shell "$PERF_LOC"/"$PERF" -w 100 "$CACHE"
   done

   # Random write test with O_SYNC
   for I in 1 2 3
   do
     echo "Random write with o_sync test $I"
     adb shell "$PERF_LOC"/"$PERF" -w -o 100 "$CACHE"
   done
 fi

 # cleanup
 if [ "$USERBUILD_MODE" -eq 0 ]
 then
   # Make a new empty /cache filesystem
   adb shell make_ext4fs -w "$CACHE"
 else
   adb shell rm -f "$CACHE" "$PERF_LOC"/"$PERF"
 fi
	#!/bin/bash

	PERF="rand_emmc_perf"
	PERF_LOC=/dev
	STATS_FILE="/data/local/tmp/stats_test"
	STATS_MODE=0
	USERBUILD_MODE=0

	if [ "$1" = "-s" ]
	then
	STATS_MODE=1
	elif [ "$1" = "-u" ]
	then
	USERBUILD_MODE=1
	fi

	if [ ! -r "$PERF" ]
	then
	echo "Cannot read $PERF test binary"
	fi

	if ! adb shell true >/dev/null 2>&1
	then
	echo "No device detected over adb"
	fi

	HARDWARE=`adb shell getprop ro.hardware \| tr -d "\r"`

	case "$HARDWARE" in
	tuna \| steelhead)
	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="/dev/block/platform/omap/omap_hsmmc.0/by-name/cache"
	MMCDEV="mmcblk0"
	;;

	stingray \| wingray)
	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="/dev/block/platform/sdhci-tegra.3/by-name/cache"
	MMCDEV="mmcblk0"
	;;

	herring)
	echo "This test will wipe the userdata partition on $HARDWARE devices."
	read -p "Do you want to proceed? " ANSWER

	if [ "$ANSWER" != "yes" ]
	then
	echo "aborting test"
	exit 1
	fi

	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="/dev/block/platform/s3c-sdhci.0/by-name/userdata"
	MMCDEV="mmcblk0"
	;;

	grouper)
	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="/dev/block/platform/sdhci-tegra.3/by-name/CAC"
	MMCDEV="mmcblk0"
	;;

	manta)
	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="/dev/block/platform/dw_mmc.0/by-name/cache"
	MMCDEV="mmcblk0"
	;;

	flo)
	CPUFREQ="/sys/devices/system/cpu/cpu0/cpufreq"
	CACHE="dev/block/platform/msm_sdcc.1/by-name/cache"
	MMCDEV="mmcblk0"
	;;

	*)
	echo "Unknown hardware $HARDWARE. Exiting."
	exit 1
	esac

	# We cannot stop and unmount stuff in a user build, so don't even try.
	if [ "$USERBUILD_MODE" -eq 0 ]
	then
	# prepare the device
	adb root
	adb wait-for-device
	adb push "$PERF" /dev
	adb shell stop
	adb shell stop sdcard
	adb shell stop ril-daemon
	adb shell stop media
	adb shell stop drm
	adb shell stop keystore
	adb shell stop tf_daemon
	adb shell stop bluetoothd
	adb shell stop hciattach
	adb shell stop p2p_supplicant
	adb shell stop wpa_supplicant
	adb shell stop mobicore
	adb shell umount /sdcard >/dev/null 2>&1
	adb shell umount /mnt/sdcard >/dev/null 2>&1
	adb shell umount /mnt/shell/sdcard0 >/dev/null 2>&1
	adb shell umount /mnt/shell/emulated >/dev/null 2>&1
	adb shell umount /cache >/dev/null 2>&1
	if [ "$STATS_MODE" -ne 1 ]
	then
	adb shell umount /data >/dev/null 2>&1
	fi
	else
	# For user builds, put the $PERF binary in /data/local/tmp,
	# and also setup CACHE to point to a file on /data/local/tmp,
	# and create that file
	PERF_LOC=/data/local/tmp
	adb push "$PERF" "$PERF_LOC"
	CACHE=/data/local/tmp/testfile
	echo "Creating testfile for user builds (can take up to 60 seconds)"
	adb shell dd if=/dev/zero of=$CACHE bs=1048576 count=512
	fi

	# Add more services here that other devices need to stop.
	# So far, this list is sufficient for:
	# Prime

	if [ "$USERBUILD_MODE" -eq 0 ]
	then
	# At this point, the device is quiescent, need to crank up the cpu speed,
	# then run tests
	adb shell "cat $CPUFREQ/cpuinfo_max_freq > $CPUFREQ/scaling_max_freq"
	adb shell "cat $CPUFREQ/cpuinfo_max_freq > $CPUFREQ/scaling_min_freq"
	fi

	# Start the tests

	if [ "$STATS_MODE" -eq 1 ]
	then
	# This test looks for the average and max random write times for the emmc
	# chip. It should be run with the emmc chip full for worst case numbers,
	# and after fstrim for best case numbers. So first fill the chip, twice,
	# then run the test, then remove the large file, run fstrim, and run the
	# test again.

	# Remove the test file if it exists, then make it anew.
	echo "Filling userdata"
	adb shell rm -f "$STATS_FILE"
	adb shell dd if=/dev/zero of="$STATS_FILE" bs=1048576
	adb shell sync

	# Do it again to make sure to fill up all the reserved blocks used for
	# wear levelling, plus any unused blocks in the other partitions. Yes,
	# this is not precise, just a good heuristic.
	echo "Filling userdata again"
	adb shell rm "$STATS_FILE"
	adb shell sync
	adb shell dd if=/dev/zero of="$STATS_FILE" bs=1048576
	adb shell sync

	# Run the test
	echo "Running stats test after filling emmc chip"
	adb shell /dev/$PERF -w -o -s 20000 -f /dev/full_stats 400 "$CACHE"

	# Remove the file, and have vold do fstrim
	adb shell rm "$STATS_FILE"
	adb shell sync
	# Make sure fstrim knows there is work to do
	sleep 10

	# Get the current number of FSTRIM complete lines in thh logcat
	ORIGCNT=`adb shell logcat -d \| grep -c "Finished fstrim work"`

	# Attempt to start fstrim
	OUT=`adb shell vdc fstrim dotrim \| grep "Command not recognized"`

	if [ -z "$OUT" ]
	then
	# Wait till we see another fstrim finished line
	sleep 10
	let T=10
	NEWCNT=`adb shell logcat -d \|grep -c "Finished fstrim work"`
	while [ "$NEWCNT" -eq "$ORIGCNT" ]
	do
	sleep 10
	let T=T+10
	if [ "$T" -ge 300 ]
	then
	echo "Error: FSTRIM did not complete in 300 seconds, continuing"
	break
	fi
	NEWCNT=`adb shell logcat -d \|grep -c "Finished fstrim work"`
	done

	echo "FSTRIM took "$T" seconds"

	# Run the test again
	echo "Running test after fstrim"
	adb shell /dev/$PERF -w -o -s 20000 -f /dev/fstrimmed_stats 400 "$CACHE"

	# Retrieve the full data logs
	adb pull /dev/fstrimmed_stats $HARDWARE-fstrimmed_stats
	adb pull /dev/full_stats $HARDWARE-full_stats
	else
	echo "Device doesn't support fstrim, not running test a second time"
	fi

	else

	# Sequential read test
	if [ "$USERBUILD_MODE" -eq 0 ]
	then
	# There is no point in running this in USERBUILD mode, because
	# we can't drop caches, and the numbers are ludicrously high
	for I in 1 2 3
	do
	adb shell "echo 3 > /proc/sys/vm/drop_caches"
	echo "Sequential read test $I"
	adb shell dd if="$CACHE" of=/dev/null bs=1048576 count=200
	done
	fi

	# Sequential write test
	for I in 1 2 3
	do
	echo "Sequential write test $I"
	# It's unclear if this test is useful on USERBUILDS, given the
	# caching on the filesystem
	adb shell dd if=/dev/zero conv=notrunc of="$CACHE" bs=1048576 count=200
	done

	if [ "$USERBUILD_MODE" -eq 0 ]
	then
	# Random read tests require that we read from a much larger range of offsets
	# into the emmc chip than the write test. If we only read though 100 Megabytes
	# (and with a read-ahead of 128K), we quickly fill the buffer cache with 100
	# Megabytes of data, and subsequent reads are nearly instantaneous. Since
	# reading is non-destructive, and we've never shipped a device with less than
	# 8 Gbytes, for this test we read from the raw emmc device, and randomly seek
	# in the first 6 Gbytes. That is way more memory than any device we currently
	# have and it should keep the cache from being poluted with entries from
	# previous random reads.
	#
	# Also, test with the read-ahead set very low at 4K, and at the default

	# Random read test, 4K read-ahead
	ORIG_READAHEAD=`adb shell cat /sys/block/$MMCDEV/queue/read_ahead_kb \| tr -d "\r"`
	adb shell "echo 4 > /sys/block/$MMCDEV/queue/read_ahead_kb"
	for I in 1 2 3
	do
	adb shell "echo 3 > /proc/sys/vm/drop_caches"
	echo "Random read (4K read-ahead) test $I"
	adb shell "$PERF_LOC"/"$PERF" -r 6000 "/dev/block/$MMCDEV"
	done

	# Random read test, default read-ahead
	adb shell "echo $ORIG_READAHEAD > /sys/block/$MMCDEV/queue/read_ahead_kb"
	for I in 1 2 3
	do
	adb shell "echo 3 > /proc/sys/vm/drop_caches"
	echo "Random read (default read-ahead of ${ORIG_READAHEAD}K) test $I"
	adb shell "$PERF_LOC"/"$PERF" -r 6000 "/dev/block/$MMCDEV"
	done
	fi

	# Random write test
	for I in 1 2 3
	do
	echo "Random write test $I"
	adb shell "$PERF_LOC"/"$PERF" -w 100 "$CACHE"
	done

	# Random write test with O_SYNC
	for I in 1 2 3
	do
	echo "Random write with o_sync test $I"
	adb shell "$PERF_LOC"/"$PERF" -w -o 100 "$CACHE"
	done
	fi

	# cleanup
	if [ "$USERBUILD_MODE" -eq 0 ]
	then
	# Make a new empty /cache filesystem
	adb shell make_ext4fs -w "$CACHE"
	else
	adb shell rm -f "$CACHE" "$PERF_LOC"/"$PERF"
	fi