ioblame/ioblame.sh - platform/system/extras - Git at Google

 #!/bin/sh -u

 parseoptions() {
     trace_reads=false
     trace_writes=false
     trace_writepages=false
     pid_view=false

     while [ $# -ge 1 ]
     do
 	case $1 in
 	    -r)
 		trace_reads=true
 		;;
 	    -w)
 		trace_writes=true
 		;;
 	    -p)
 		trace_writepages=true
 		;;
 	    -v)
 		pid_view=true
 		;;
 	    *)
 		usage
 		;;
 	    esac
 	shift
     done
 }

 usage() {
     echo "Usage: $0 [-r|-w|-p|-v]"
     exit 1
 }

 getmodel() {
     model=`adb shell getprop ro.product.name`
     # Releases are inconsistent with various trailing characters, remove them all
     model=`echo $model | sed 's/[ \t\r\n]*$//' `
     echo Found $model Device

     case $model in
 	aosp_gobo | gobo | gobo_512)
 	    get_go_devnames
             ;;
 	marlin | sailfish | walleye | taimen | blueline | crosshatch)
 	    get_marlin_sailfish_devnames
 	    ;;
 	angler)
 	    get_angler_devnames
 	    ;;
 	bullhead)
 	    get_bullhead_devnames
 	    ;;
 	volantis | volantisg)
 	    get_volantis_devnames
 	    ;;
 	*)
 	    echo Unknown Device $model -- trying Pixel config
 	    get_marlin_sailfish_devnames
 	    ;;
     esac
 }

 get_go_devnames () {
     # Hardcoding all of the mmcblk0 device for now
     block_device=mmcblk0
     bdev_set=true
 }

 get_volantis_devnames() {
     bdev_set=true
     block_device=mmcblk0
 }

 get_bullhead_devnames() {
     bdev_set=true
     block_device=mmcblk0
 }

 get_marlin_sailfish_devnames() {
     bdev_set=true
     block_device=sda
 }

 get_angler_devnames () {
     # Get the underlying bdev from the "by-name" mapping
     block_device=`adb shell 'find /dev/block/platform -name by-name | xargs ls -l' | grep system | awk '{ print $10 }' `
     # extract the last component of the absolute device pathname we got above
     block_device=`echo $block_device | awk 'BEGIN { FS ="/" } ; { print $4 }' | sed 's/p.*//g' `
     bdev_set=true
 }

 disk_stats_before() {
     if [ $bdev_set == true ]; then
 	DISKSTATS=`adb shell 'cat /proc/diskstats' | fgrep -w $block_device `
 	# Get BEFORE read stats for bdev
 	BEFORE_RD_IOS=`echo $DISKSTATS | awk '{ print $4 }' `
 	BEFORE_RD_SECTORS=`echo $DISKSTATS | awk '{ print $6 }' `
 	# Get BEFORE write stats for bdev
 	BEFORE_WR_IOS=`echo $DISKSTATS | awk '{ print $8 }' `
 	BEFORE_WR_SECTORS=`echo $DISKSTATS | awk '{ print $10 }' `
     fi
     if [ $f2fs_fs == 1 ] ; then
 	adb shell 'mount -o remount,background_gc=off /data'
 	F2FS_GC_SEGMENTS_BEFORE=`adb shell 'cat /sys/kernel/debug/f2fs/status' | grep segments | egrep 'data|node' | awk '{ segments += $5 } END { print segments }' `
     fi
 }

 disk_stats_after() {
     if [ $bdev_set == true ]; then
 	DISKSTATS=`adb shell 'cat /proc/diskstats' | fgrep -w $block_device `
 	# Get AFTER read stats for bdev
 	AFTER_RD_IOS=`echo $DISKSTATS | awk '{ print $4 }' `
 	AFTER_RD_SECTORS=`echo $DISKSTATS | awk '{ print $6 }' `
 	# Get BEFORE write stats for bdev
 	AFTER_WR_IOS=`echo $DISKSTATS | awk '{ print $8 }' `
 	AFTER_WR_SECTORS=`echo $DISKSTATS | awk '{ print $10 }' `
     fi
     if [ $f2fs_fs == 1 ] ; then
 	F2FS_GC_SEGMENTS_AFTER=`adb shell 'cat /sys/kernel/debug/f2fs/status' | grep segments | egrep 'data|node' | awk '{ segments += $5 } END { print segments }' `
 	adb shell 'mount -o remount,background_gc=on /data'
     fi
 }

 disk_stats_delta_rd() {
     file_data_KB=$1
     if [ $bdev_set == true ]; then
 	# Sectors to KB
 	READ_KB=`expr $AFTER_RD_SECTORS - $BEFORE_RD_SECTORS`
 	READ_KB=`expr $READ_KB / 2`
 	echo "Total (ALL) Read KB $block_device = "$READ_KB
 	BLOCK_MINUS_FILE=`expr $READ_KB - $file_data_KB`
 	echo "READ DELTA: Total Blockdev Reads KB - Total File Data Reads KB = "$BLOCK_MINUS_FILE KB
 	echo "Total (ALL) Read IOs $block_device = "`expr $AFTER_RD_IOS - $BEFORE_RD_IOS`
     fi
 }

 disk_stats_delta_wr() {
     file_data_KB=$1
     if [ $bdev_set == true ]; then
 	# Sectors to KB
 	WRITE_KB=`expr $AFTER_WR_SECTORS - $BEFORE_WR_SECTORS`
 	WRITE_KB=`expr $WRITE_KB / 2`
 	BLOCK_MINUS_FILE=`expr $WRITE_KB - $file_data_KB`
 	echo "WRITE DELTA: Total Blockdev Writes KB - Total File Data Writes KB = "$BLOCK_MINUS_FILE KB
 	echo "Total (ALL) Write IOs $block_device = "`expr $AFTER_WR_IOS - $BEFORE_WR_IOS`
     fi
     if [ $f2fs_fs == 1 ] ; then
 	F2FS_GC_SEGMENTS_DELTA=`expr $F2FS_GC_SEGMENTS_AFTER - $F2FS_GC_SEGMENTS_BEFORE`
 	F2FS_GC_KB_DELTA=`expr $F2FS_GC_SEGMENTS_DELTA \\* 2048`
     fi
 }

 # For good measure clean up traces and reenable traces
 clean_up_tracepoints() {
     # This is a good point to check if the Android FS tracepoints are enabled in the
     # kernel or not
     tracepoint_exists=`adb shell 'if [ -d /sys/kernel/debug/tracing/events/f2fs ]; then echo 0; else echo 1; fi' `
     if [ $tracepoint_exists == 1 ]; then
 	echo "Android FS tracepoints not enabled in kernel. Exiting..."
 	exit 1
     fi
     adb shell 'echo 0 > /sys/kernel/debug/tracing/tracing_on'
     adb shell 'echo 0 > /sys/kernel/debug/tracing/trace'
     if [ $trace_reads == true ]; then
 	adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_dataread_start/enable'
     fi
     if [ $trace_writes == true ]; then
 	adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_datawrite_start/enable'
     fi
     if [ $f2fs_fs == 1 ] ; then
 	if [ $trace_writepages == true ]; then
 	    adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_writepages/enable'
 	fi
     fi
     adb shell 'echo 1 > /sys/kernel/debug/tracing/tracing_on'
 }

 # stream trace out of trace_pipe
 # Start this in the background ('&')
 streamtrace_start() {
     adb shell cat /sys/kernel/debug/tracing/trace_pipe > trace_saved
 }

 # When signal is received, the trace_pipe reader will get killed
 # Call this (just to make sure anyway)
 streamtrace_end() {
     ps_line=`ps -ef | grep trace_pipe | grep adb `
     if [ $? == 0 ]; then
 	echo Killing `echo $ps_line | awk '{s = ""; for (i=8; i <= NF ; i++) s = s $i " "; print s}' `
 	kill `echo $ps_line | awk '{print $2}' `
     fi
 }

 copyout_trace() {
     streamtrace_end
     if [ $trace_reads == true ]; then
 	adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_dataread_start/enable'
     fi
     if [ $trace_writes == true ]; then
 	adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_datawrite_start/enable'
     fi
     if [ $f2fs_fs == 1 ] ; then
 	if [ $trace_writepages == true ]; then
 	    adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_writepages/enable'
 	fi
     fi
     adb shell 'echo 0 > /sys/kernel/debug/tracing/tracing_on'
 }

 prep_tracefile_common() {
     cp trace_saved $infile
     # Strip away all the extraneous stuff first
     fgrep $1 $infile | sed 's/^.* \[.*\] //' | sed s/://g | sed s/,//g > foo
     mv foo $infile
 }

 prep_tracefile_rd() {
     prep_tracefile_common f2fs_dataread
     # Strip away unnecessary stuff so we can compute latencies easily
     fgrep f2fs_dataread_start $infile > foo0
     # Throw away everything upto and including f2fs_dataread:
     cat foo0 | sed -n -e 's/^.*f2fs_dataread_start //p' > foo1
     mv foo1 $infile
     # At this stage, $infile should the following format :
     # entry_name <filename> offset <offset> bytes <bytes> cmdline <cmdline> pid <pid> i_size <i_size> ino <ino>
     rm foo0
 }

 prep_tracefile_writepages() {
     prep_tracefile_common f2fs_writepages
     # Throw away everything up to and including f2fs_writepages_start:
     cat $infile | sed -n -e 's/^.*f2fs_writepages //p' > foo1
     mv foo1 $infile
     # At this stage, $infile should the following format :
     # entry_name <filename> bytes <bytes> ino <ino>
 }

 # Latencies not supported for Writes. 'Write End' is just when the data has been
 # written back to page cache.
 prep_tracefile_wr() {
     prep_tracefile_common f2fs_datawrite
     fgrep f2fs_datawrite_start $infile > foo0
     # Throw away everything upto and including f2fs_datawrite:
     cat foo0 | sed -n -e 's/^.*f2fs_datawrite_start //p' > foo1
     mv foo1 $infile
     # At this stage, $infile should the following format :
     # entry_name <filename> offset <offset> bytes <bytes> cmdline <cmdline> pid <pid> i_size <i_size> ino <ino>
     rm foo0
 }

 get_unique_files_rw() {
     # Sort first by filename, then by pid
     cat $infile | sed s/,//g  | sort -d -k2,2 -k8,8 > foo1
     mv foo1 $infile
     # $infile now contains lines sorted by <filename, pid>
     # How many unique files are there ?
     cat $infile | awk '{ print $2 }' > foo1
     cat foo1 | uniq > uniq_files
     rm foo1
 }

 get_unique_files_writepages() {
     cat $infile | sed s/,//g  | sort -d -k2,2 > foo1
     # $infile now contains lines sorted by <filename>
     mv foo1 $infile
     # How many unique files are there ?
     cat $infile | awk '{ print $2 }' > foo1
     cat foo1 | uniq > uniq_files
     rm foo1
 }

 get_unique_pids_byfile() {
     # How many unique pids are there reading this file ?
     cat $1 | awk '{ print $8 }' > foo1
     cat foo1 | uniq > uniq_pids_byfile
     rm foo1
 }

 get_unique_pids() {
     # Sort first by pid, then by filename
     cat $infile | sed s/,//g  | sort -d -k8,8 -k2,2 > foo1
     mv foo1 $infile
     # $infile now contains lines sorted by <pid, filename>
     # How many unique pids are there ?
     cat $infile | awk '{ print $8 }' > foo1
     cat foo1 | uniq > uniq_pids
     rm foo1
 }

 get_unique_files_bypid() {
     # How many unique files are there read by this pid ?
     cat $1 | awk '{ print $2 }' > foo1
     cat foo1 | uniq > uniq_files_bypid
     rm foo1
 }

 catch_sigint()
 {
     echo "signal INT received, killing streaming trace capture"
     streamtrace_end
 }


 prep_to_do_something() {
 #    adb shell "am force-stop com.android.chrome"
 #    adb shell "am force-stop com.google.android.gm"
     adb shell 'echo 3 > /proc/sys/vm/drop_caches'
     sleep 1
 }

 do_something() {
     # Arrange things so that the first SIGINT will kill the
     # child process (sleep), but will return to the parent.
     trap 'catch_sigint'  INT
     echo "OK to kill sleep when test is done"
     sleep 30d
 #    adb shell "am start -W -n com.android.chrome/com.google.android.apps.chrome.Main"
 #    adb shell "am start -W -n com.google.android.gm/.ConversationListActivityGmail"
 }

 # Get the aggregate list of files read/written. For each file, break up the IOs by pid
 process_files_rw() {
     read_write=$1
     get_unique_files_rw
     # Loop over each file that was involved in IO
     # Find all the pids doing IO on that file
     # Aggregate the IO done by each pid on that file and dump it out
     grand_total_KB=0
     cp $infile tempfile
     for i in `cat uniq_files`
     do
 	# Get just the tracepoints for this file
 	fgrep -w "$i" tempfile > subtrace
 	if [ -s subtrace ]; then
 	    echo "File: $i"
 	    total_file_KB=0
 	    # Remove the tracepoints we just picked up
 	    fgrep -v -w "$i" tempfile > foo
 	    mv foo tempfile
 	    # Get all the pids doing IO on this file
 	    get_unique_pids_byfile subtrace
 	    for j in `cat uniq_pids_byfile`
 	    do
 		echo -n "            $j $read_write: "
 		pid_KB=`fgrep -w "$j" subtrace | awk '{ bytes += $6 } END { print bytes }' `
 		pid_KB=`expr $pid_KB / 1024`
 		echo "$pid_KB KB"
 		total_file_KB=`expr $total_file_KB + $pid_KB`
 	    done
 	    i_size=`tail -n1 subtrace  | awk '{ if ($12 > 1024) printf "%d KB", ($12/1024); else printf "%d bytes", $12; }' `
 	    echo "            Total $read_write: $total_file_KB KB i_size: $i_size"
 	    grand_total_KB=`expr $grand_total_KB + $total_file_KB`
 	fi
     done
     echo "Grand Total File DATA KB $read_write $grand_total_KB"
     rm tempfile
 }

 process_files_writepages() {
     get_unique_files_writepages
     # Loop over each file that was involved in IO
     # Aggregate the IO done on that file and dump it out
     grand_total_KB=0
     cp $infile tempfile
     for i in `cat uniq_files`
     do
 	# Get just the tracepoints for this file
 	fgrep -w "$i" tempfile > subtrace
 	if [ -s subtrace ]; then
 	    fgrep -v -w "$i" tempfile > foo
 	    mv foo tempfile
 	    total_file_KB=`cat subtrace | awk '{ bytes += $4 } END { print bytes }' `
 	    total_file_KB=`expr $total_file_KB / 1024`
 	    if [ $total_file_KB -gt 0 ]; then
 		echo "File: $i Total $read_write: $total_file_KB KB"
 		grand_total_KB=`expr $grand_total_KB + $total_file_KB`
 	    fi
 	fi
     done
     echo "Grand Total File DATA KB Writepages $grand_total_KB"
     rm tempfile
 }

 # Get the aggregate list of pids. For each pid, break up the IOs by file
 process_pids() {
     read_write=$1
     get_unique_pids
     list_of_pids=`cat uniq_pids`
     # $list_of_pids is a list of all the pids involved in IO
     #
     # Loop over each pid that was involved in IO
     # Find all the files the pid was doing IO on
     # Aggregate the IO done by the pid for each file and dump it out
     #
     grand_total_KB=0
     for i in $list_of_pids
     do
 	echo "PID: $i"
 	total_pid_KB=0
 	# Get just the tracepoints for this pid
 	fgrep -w "$i" $infile > subtrace
 	# Get all the pids doing IO on this file
 	get_unique_files_bypid subtrace
 	list_of_files=`cat uniq_files_bypid`
 	# $list_of_files is a list of all the files IO'ed by this pid
 	for j in $list_of_files
 	do
 	    i_size=`fgrep -w "$j" subtrace | tail -n1 | awk '{ if ($12 > 1024) printf "%d KB", ($12/1024); else printf "%d bytes", $12; }' `
 	    file_KB=`fgrep -w "$j" subtrace | awk '{ bytes += $6 } END { print bytes }' `
 	    file_KB=`expr $file_KB / 1024`
 	    echo "            $j $read_write: $file_KB KB i_size: $i_size"
 	    total_pid_KB=`expr $total_pid_KB + $file_KB`
 	done
 	echo "            Total $read_write: $total_pid_KB KB"
 	grand_total_KB=`expr $grand_total_KB + $total_pid_KB`
     done
     echo "Grand Total File DATA KB $read_write $grand_total_KB"
 }

 # main() starts here :

 if [ $# -lt 1 ]; then
     usage
 fi

 bdev_set=false
 infile=tracefile.$$

 parseoptions $@
 adb root && sleep 2
 getmodel

 found_f2fs=`adb shell 'mount | grep f2fs > /dev/null; echo $?' `

 if [ $found_f2fs == 0 ]; then
     f2fs_fs=1
 else
     f2fs_fs=0
 fi

 if [ $f2fs_fs == 0 ] && [ $trace_writepages == true ]; then
     echo "Writepages is only supported with f2fs, please use -r, -w"
     exit 1
 fi

 prep_to_do_something

 clean_up_tracepoints
 disk_stats_before
 # Start streaming the trace into the tracefile
 streamtrace_start &

 do_something

 streamtrace_end
 disk_stats_after

 copyout_trace

 if [ $trace_reads == true ]; then
     echo
     echo "READS :"
     echo "_______"
     echo
     prep_tracefile_rd
     # Get file specific stats - for each file, how many pids read that file ?
     echo "FILE VIEW:"
     process_files_rw Reads
     if [ $pid_view == true ]; then
 	# Get pid specific stats - for each pid, what files do they do IO on ?
 	echo "PID VIEW:"
 	process_pids Reads
     fi
     disk_stats_delta_rd $grand_total_KB

     debug_FileKB_rd=`cat $infile | awk '{ bytes += $6 } END { printf "%d", bytes/1024 }' `
     echo Debug Grand Total KB READ $debug_FileKB_rd
 fi

 if [ $trace_writes == true ]; then
     echo
     echo "Writes :"
     echo "_______"
     echo
     prep_tracefile_wr
     # Get file specific stats - for each file, how many pids read that file ?

     echo "FILE VIEW:"
     process_files_rw Writes
     if [ $pid_view == true ]; then
 	# Get pid specific stats - for each pid, what files do they do IO on ?
 	echo "PID VIEW:"
 	process_pids Writes
     fi
     disk_stats_delta_wr $grand_total_KB

     if [ $f2fs_fs == 1 ] ; then
 	echo f2fs GC_KB delta = $F2FS_GC_KB_DELTA
     fi
 fi

 if [ $f2fs_fs == 1 ] && [ $trace_writepages == true ] ; then
     echo
     echo "Writepages :"
     echo "__________"
     echo
     prep_tracefile_writepages
     # Get file specific stats - for each file, how much did we writepage ?

     echo "FILE VIEW:"
     process_files_writepages

     disk_stats_delta_wr $grand_total_KB

     echo f2fs GC_KB delta = $F2FS_GC_KB_DELTA
 fi

 rm -rf tracefile* uniq_* subtrace trace_saved
	#!/bin/sh -u

	parseoptions() {
	trace_reads=false
	trace_writes=false
	trace_writepages=false
	pid_view=false

	while [ $# -ge 1 ]
	do
	case $1 in
	-r)
	trace_reads=true
	;;
	-w)
	trace_writes=true
	;;
	-p)
	trace_writepages=true
	;;
	-v)
	pid_view=true
	;;
	*)
	usage
	;;
	esac
	shift
	done
	}

	usage() {
	echo "Usage: $0 [-r\|-w\|-p\|-v]"
	exit 1
	}

	getmodel() {
	model=`adb shell getprop ro.product.name`
	# Releases are inconsistent with various trailing characters, remove them all
	model=`echo $model \| sed 's/[ \t\r\n]*$//' `
	echo Found $model Device

	case $model in
	aosp_gobo \| gobo \| gobo_512)
	get_go_devnames
	;;
	marlin \| sailfish \| walleye \| taimen \| blueline \| crosshatch)
	get_marlin_sailfish_devnames
	;;
	angler)
	get_angler_devnames
	;;
	bullhead)
	get_bullhead_devnames
	;;
	volantis \| volantisg)
	get_volantis_devnames
	;;
	*)
	echo Unknown Device $model -- trying Pixel config
	get_marlin_sailfish_devnames
	;;
	esac
	}

	get_go_devnames () {
	# Hardcoding all of the mmcblk0 device for now
	block_device=mmcblk0
	bdev_set=true
	}

	get_volantis_devnames() {
	bdev_set=true
	block_device=mmcblk0
	}

	get_bullhead_devnames() {
	bdev_set=true
	block_device=mmcblk0
	}

	get_marlin_sailfish_devnames() {
	bdev_set=true
	block_device=sda
	}

	get_angler_devnames () {
	# Get the underlying bdev from the "by-name" mapping
	block_device=`adb shell 'find /dev/block/platform -name by-name \| xargs ls -l' \| grep system \| awk '{ print $10 }' `
	# extract the last component of the absolute device pathname we got above
	block_device=`echo $block_device \| awk 'BEGIN { FS ="/" } ; { print $4 }' \| sed 's/p.*//g' `
	bdev_set=true
	}

	disk_stats_before() {
	if [ $bdev_set == true ]; then
	DISKSTATS=`adb shell 'cat /proc/diskstats' \| fgrep -w $block_device `
	# Get BEFORE read stats for bdev
	BEFORE_RD_IOS=`echo $DISKSTATS \| awk '{ print $4 }' `
	BEFORE_RD_SECTORS=`echo $DISKSTATS \| awk '{ print $6 }' `
	# Get BEFORE write stats for bdev
	BEFORE_WR_IOS=`echo $DISKSTATS \| awk '{ print $8 }' `
	BEFORE_WR_SECTORS=`echo $DISKSTATS \| awk '{ print $10 }' `
	fi
	if [ $f2fs_fs == 1 ] ; then
	adb shell 'mount -o remount,background_gc=off /data'
	F2FS_GC_SEGMENTS_BEFORE=`adb shell 'cat /sys/kernel/debug/f2fs/status' \| grep segments \| egrep 'data\|node' \| awk '{ segments += $5 } END { print segments }' `
	fi
	}

	disk_stats_after() {
	if [ $bdev_set == true ]; then
	DISKSTATS=`adb shell 'cat /proc/diskstats' \| fgrep -w $block_device `
	# Get AFTER read stats for bdev
	AFTER_RD_IOS=`echo $DISKSTATS \| awk '{ print $4 }' `
	AFTER_RD_SECTORS=`echo $DISKSTATS \| awk '{ print $6 }' `
	# Get BEFORE write stats for bdev
	AFTER_WR_IOS=`echo $DISKSTATS \| awk '{ print $8 }' `
	AFTER_WR_SECTORS=`echo $DISKSTATS \| awk '{ print $10 }' `
	fi
	if [ $f2fs_fs == 1 ] ; then
	F2FS_GC_SEGMENTS_AFTER=`adb shell 'cat /sys/kernel/debug/f2fs/status' \| grep segments \| egrep 'data\|node' \| awk '{ segments += $5 } END { print segments }' `
	adb shell 'mount -o remount,background_gc=on /data'
	fi
	}

	disk_stats_delta_rd() {
	file_data_KB=$1
	if [ $bdev_set == true ]; then
	# Sectors to KB
	READ_KB=`expr $AFTER_RD_SECTORS - $BEFORE_RD_SECTORS`
	READ_KB=`expr $READ_KB / 2`
	echo "Total (ALL) Read KB $block_device = "$READ_KB
	BLOCK_MINUS_FILE=`expr $READ_KB - $file_data_KB`
	echo "READ DELTA: Total Blockdev Reads KB - Total File Data Reads KB = "$BLOCK_MINUS_FILE KB
	echo "Total (ALL) Read IOs $block_device = "`expr $AFTER_RD_IOS - $BEFORE_RD_IOS`
	fi
	}

	disk_stats_delta_wr() {
	file_data_KB=$1
	if [ $bdev_set == true ]; then
	# Sectors to KB
	WRITE_KB=`expr $AFTER_WR_SECTORS - $BEFORE_WR_SECTORS`
	WRITE_KB=`expr $WRITE_KB / 2`
	BLOCK_MINUS_FILE=`expr $WRITE_KB - $file_data_KB`
	echo "WRITE DELTA: Total Blockdev Writes KB - Total File Data Writes KB = "$BLOCK_MINUS_FILE KB
	echo "Total (ALL) Write IOs $block_device = "`expr $AFTER_WR_IOS - $BEFORE_WR_IOS`
	fi
	if [ $f2fs_fs == 1 ] ; then
	F2FS_GC_SEGMENTS_DELTA=`expr $F2FS_GC_SEGMENTS_AFTER - $F2FS_GC_SEGMENTS_BEFORE`
	F2FS_GC_KB_DELTA=`expr $F2FS_GC_SEGMENTS_DELTA \\* 2048`
	fi
	}

	# For good measure clean up traces and reenable traces
	clean_up_tracepoints() {
	# This is a good point to check if the Android FS tracepoints are enabled in the
	# kernel or not
	tracepoint_exists=`adb shell 'if [ -d /sys/kernel/debug/tracing/events/f2fs ]; then echo 0; else echo 1; fi' `
	if [ $tracepoint_exists == 1 ]; then
	echo "Android FS tracepoints not enabled in kernel. Exiting..."
	exit 1
	fi
	adb shell 'echo 0 > /sys/kernel/debug/tracing/tracing_on'
	adb shell 'echo 0 > /sys/kernel/debug/tracing/trace'
	if [ $trace_reads == true ]; then
	adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_dataread_start/enable'
	fi
	if [ $trace_writes == true ]; then
	adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_datawrite_start/enable'
	fi
	if [ $f2fs_fs == 1 ] ; then
	if [ $trace_writepages == true ]; then
	adb shell 'echo 1 > /sys/kernel/debug/tracing/events/f2fs/f2fs_writepages/enable'
	fi
	fi
	adb shell 'echo 1 > /sys/kernel/debug/tracing/tracing_on'
	}

	# stream trace out of trace_pipe
	# Start this in the background ('&')
	streamtrace_start() {
	adb shell cat /sys/kernel/debug/tracing/trace_pipe > trace_saved
	}

	# When signal is received, the trace_pipe reader will get killed
	# Call this (just to make sure anyway)
	streamtrace_end() {
	ps_line=`ps -ef \| grep trace_pipe \| grep adb `
	if [ $? == 0 ]; then
	echo Killing `echo $ps_line \| awk '{s = ""; for (i=8; i <= NF ; i++) s = s $i " "; print s}' `
	kill `echo $ps_line \| awk '{print $2}' `
	fi
	}

	copyout_trace() {
	streamtrace_end
	if [ $trace_reads == true ]; then
	adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_dataread_start/enable'
	fi
	if [ $trace_writes == true ]; then
	adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_datawrite_start/enable'
	fi
	if [ $f2fs_fs == 1 ] ; then
	if [ $trace_writepages == true ]; then
	adb shell 'echo 0 > /sys/kernel/debug/tracing/events/f2fs/f2fs_writepages/enable'
	fi
	fi
	adb shell 'echo 0 > /sys/kernel/debug/tracing/tracing_on'
	}

	prep_tracefile_common() {
	cp trace_saved $infile
	# Strip away all the extraneous stuff first
	fgrep $1 $infile \| sed 's/^.* \[.*\] //' \| sed s/://g \| sed s/,//g > foo
	mv foo $infile
	}

	prep_tracefile_rd() {
	prep_tracefile_common f2fs_dataread
	# Strip away unnecessary stuff so we can compute latencies easily
	fgrep f2fs_dataread_start $infile > foo0
	# Throw away everything upto and including f2fs_dataread:
	cat foo0 \| sed -n -e 's/^.*f2fs_dataread_start //p' > foo1
	mv foo1 $infile
	# At this stage, $infile should the following format :
	# entry_name <filename> offset <offset> bytes <bytes> cmdline <cmdline> pid <pid> i_size <i_size> ino <ino>
	rm foo0
	}

	prep_tracefile_writepages() {
	prep_tracefile_common f2fs_writepages
	# Throw away everything up to and including f2fs_writepages_start:
	cat $infile \| sed -n -e 's/^.*f2fs_writepages //p' > foo1
	mv foo1 $infile
	# At this stage, $infile should the following format :
	# entry_name <filename> bytes <bytes> ino <ino>
	}

	# Latencies not supported for Writes. 'Write End' is just when the data has been
	# written back to page cache.
	prep_tracefile_wr() {
	prep_tracefile_common f2fs_datawrite
	fgrep f2fs_datawrite_start $infile > foo0
	# Throw away everything upto and including f2fs_datawrite:
	cat foo0 \| sed -n -e 's/^.*f2fs_datawrite_start //p' > foo1
	mv foo1 $infile
	# At this stage, $infile should the following format :
	# entry_name <filename> offset <offset> bytes <bytes> cmdline <cmdline> pid <pid> i_size <i_size> ino <ino>
	rm foo0
	}

	get_unique_files_rw() {
	# Sort first by filename, then by pid
	cat $infile \| sed s/,//g \| sort -d -k2,2 -k8,8 > foo1
	mv foo1 $infile
	# $infile now contains lines sorted by <filename, pid>
	# How many unique files are there ?
	cat $infile \| awk '{ print $2 }' > foo1
	cat foo1 \| uniq > uniq_files
	rm foo1
	}

	get_unique_files_writepages() {
	cat $infile \| sed s/,//g \| sort -d -k2,2 > foo1
	# $infile now contains lines sorted by <filename>
	mv foo1 $infile
	# How many unique files are there ?
	cat $infile \| awk '{ print $2 }' > foo1
	cat foo1 \| uniq > uniq_files
	rm foo1
	}

	get_unique_pids_byfile() {
	# How many unique pids are there reading this file ?
	cat $1 \| awk '{ print $8 }' > foo1
	cat foo1 \| uniq > uniq_pids_byfile
	rm foo1
	}

	get_unique_pids() {
	# Sort first by pid, then by filename
	cat $infile \| sed s/,//g \| sort -d -k8,8 -k2,2 > foo1
	mv foo1 $infile
	# $infile now contains lines sorted by <pid, filename>
	# How many unique pids are there ?
	cat $infile \| awk '{ print $8 }' > foo1
	cat foo1 \| uniq > uniq_pids
	rm foo1
	}

	get_unique_files_bypid() {
	# How many unique files are there read by this pid ?
	cat $1 \| awk '{ print $2 }' > foo1
	cat foo1 \| uniq > uniq_files_bypid
	rm foo1
	}

	catch_sigint()
	{
	echo "signal INT received, killing streaming trace capture"
	streamtrace_end
	}


	prep_to_do_something() {
	# adb shell "am force-stop com.android.chrome"
	# adb shell "am force-stop com.google.android.gm"
	adb shell 'echo 3 > /proc/sys/vm/drop_caches'
	sleep 1
	}

	do_something() {
	# Arrange things so that the first SIGINT will kill the
	# child process (sleep), but will return to the parent.
	trap 'catch_sigint' INT
	echo "OK to kill sleep when test is done"
	sleep 30d
	# adb shell "am start -W -n com.android.chrome/com.google.android.apps.chrome.Main"
	# adb shell "am start -W -n com.google.android.gm/.ConversationListActivityGmail"
	}

	# Get the aggregate list of files read/written. For each file, break up the IOs by pid
	process_files_rw() {
	read_write=$1
	get_unique_files_rw
	# Loop over each file that was involved in IO
	# Find all the pids doing IO on that file
	# Aggregate the IO done by each pid on that file and dump it out
	grand_total_KB=0
	cp $infile tempfile
	for i in `cat uniq_files`
	do
	# Get just the tracepoints for this file
	fgrep -w "$i" tempfile > subtrace
	if [ -s subtrace ]; then
	echo "File: $i"
	total_file_KB=0
	# Remove the tracepoints we just picked up
	fgrep -v -w "$i" tempfile > foo
	mv foo tempfile
	# Get all the pids doing IO on this file
	get_unique_pids_byfile subtrace
	for j in `cat uniq_pids_byfile`
	do
	echo -n " $j $read_write: "
	pid_KB=`fgrep -w "$j" subtrace \| awk '{ bytes += $6 } END { print bytes }' `
	pid_KB=`expr $pid_KB / 1024`
	echo "$pid_KB KB"
	total_file_KB=`expr $total_file_KB + $pid_KB`
	done
	i_size=`tail -n1 subtrace \| awk '{ if ($12 > 1024) printf "%d KB", ($12/1024); else printf "%d bytes", $12; }' `
	echo " Total $read_write: $total_file_KB KB i_size: $i_size"
	grand_total_KB=`expr $grand_total_KB + $total_file_KB`
	fi
	done
	echo "Grand Total File DATA KB $read_write $grand_total_KB"
	rm tempfile
	}

	process_files_writepages() {
	get_unique_files_writepages
	# Loop over each file that was involved in IO
	# Aggregate the IO done on that file and dump it out
	grand_total_KB=0
	cp $infile tempfile
	for i in `cat uniq_files`
	do
	# Get just the tracepoints for this file
	fgrep -w "$i" tempfile > subtrace
	if [ -s subtrace ]; then
	fgrep -v -w "$i" tempfile > foo
	mv foo tempfile
	total_file_KB=`cat subtrace \| awk '{ bytes += $4 } END { print bytes }' `
	total_file_KB=`expr $total_file_KB / 1024`
	if [ $total_file_KB -gt 0 ]; then
	echo "File: $i Total $read_write: $total_file_KB KB"
	grand_total_KB=`expr $grand_total_KB + $total_file_KB`
	fi
	fi
	done
	echo "Grand Total File DATA KB Writepages $grand_total_KB"
	rm tempfile
	}

	# Get the aggregate list of pids. For each pid, break up the IOs by file
	process_pids() {
	read_write=$1
	get_unique_pids
	list_of_pids=`cat uniq_pids`
	# $list_of_pids is a list of all the pids involved in IO
	#
	# Loop over each pid that was involved in IO
	# Find all the files the pid was doing IO on
	# Aggregate the IO done by the pid for each file and dump it out
	#
	grand_total_KB=0
	for i in $list_of_pids
	do
	echo "PID: $i"
	total_pid_KB=0
	# Get just the tracepoints for this pid
	fgrep -w "$i" $infile > subtrace
	# Get all the pids doing IO on this file
	get_unique_files_bypid subtrace
	list_of_files=`cat uniq_files_bypid`
	# $list_of_files is a list of all the files IO'ed by this pid
	for j in $list_of_files
	do
	i_size=`fgrep -w "$j" subtrace \| tail -n1 \| awk '{ if ($12 > 1024) printf "%d KB", ($12/1024); else printf "%d bytes", $12; }' `
	file_KB=`fgrep -w "$j" subtrace \| awk '{ bytes += $6 } END { print bytes }' `
	file_KB=`expr $file_KB / 1024`
	echo " $j $read_write: $file_KB KB i_size: $i_size"
	total_pid_KB=`expr $total_pid_KB + $file_KB`
	done
	echo " Total $read_write: $total_pid_KB KB"
	grand_total_KB=`expr $grand_total_KB + $total_pid_KB`
	done
	echo "Grand Total File DATA KB $read_write $grand_total_KB"
	}

	# main() starts here :

	if [ $# -lt 1 ]; then
	usage
	fi

	bdev_set=false
	infile=tracefile.$$

	parseoptions $@
	adb root && sleep 2
	getmodel

	found_f2fs=`adb shell 'mount \| grep f2fs > /dev/null; echo $?' `

	if [ $found_f2fs == 0 ]; then
	f2fs_fs=1
	else
	f2fs_fs=0
	fi

	if [ $f2fs_fs == 0 ] && [ $trace_writepages == true ]; then
	echo "Writepages is only supported with f2fs, please use -r, -w"
	exit 1
	fi

	prep_to_do_something

	clean_up_tracepoints
	disk_stats_before
	# Start streaming the trace into the tracefile
	streamtrace_start &

	do_something

	streamtrace_end
	disk_stats_after

	copyout_trace

	if [ $trace_reads == true ]; then
	echo
	echo "READS :"
	echo "_______"
	echo
	prep_tracefile_rd
	# Get file specific stats - for each file, how many pids read that file ?
	echo "FILE VIEW:"
	process_files_rw Reads
	if [ $pid_view == true ]; then
	# Get pid specific stats - for each pid, what files do they do IO on ?
	echo "PID VIEW:"
	process_pids Reads
	fi
	disk_stats_delta_rd $grand_total_KB

	debug_FileKB_rd=`cat $infile \| awk '{ bytes += $6 } END { printf "%d", bytes/1024 }' `
	echo Debug Grand Total KB READ $debug_FileKB_rd
	fi

	if [ $trace_writes == true ]; then
	echo
	echo "Writes :"
	echo "_______"
	echo
	prep_tracefile_wr
	# Get file specific stats - for each file, how many pids read that file ?

	echo "FILE VIEW:"
	process_files_rw Writes
	if [ $pid_view == true ]; then
	# Get pid specific stats - for each pid, what files do they do IO on ?
	echo "PID VIEW:"
	process_pids Writes
	fi
	disk_stats_delta_wr $grand_total_KB

	if [ $f2fs_fs == 1 ] ; then
	echo f2fs GC_KB delta = $F2FS_GC_KB_DELTA
	fi
	fi

	if [ $f2fs_fs == 1 ] && [ $trace_writepages == true ] ; then
	echo
	echo "Writepages :"
	echo "__________"
	echo
	prep_tracefile_writepages
	# Get file specific stats - for each file, how much did we writepage ?

	echo "FILE VIEW:"
	process_files_writepages

	disk_stats_delta_wr $grand_total_KB

	echo f2fs GC_KB delta = $F2FS_GC_KB_DELTA
	fi

	rm -rf tracefile* uniq_* subtrace trace_saved