scst/scripts/blockdev-perftest - backupdr - Git at Google

 #!/bin/bash

 ############################################################################
 #
 # Script for testing block device I/O performance. Running this script on a
 # block device that is connected to a remote SCST target device allows to
 # test the performance of the transport protocols implemented in SCST. The
 # operation of this script is similar to iozone, while this script is easier
 # to use.
 #
 # Copyright (C) 2009 Bart Van Assche <bvanassche@acm.org>.
 #
 # This program is free software; you can redistribute it and/or
 # modify it under the terms of the GNU General Public License
 # as published by the Free Software Foundation, version 2
 # of the License.
 #
 # This program is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 # GNU General Public License for more details.
 #
 ############################################################################

 #########################
 # Function definitions  #
 #########################

 usage() {
   echo "Usage: $0 [-a] [-d] [-f] [-i <i>] [-j] [-n] [-r] [-s <l2s>] [-t [user@]host] <dev>"
   echo "        -a - use asynchronous (buffered) I/O."
   echo "        -d - use direct (non-buffered) I/O."
   echo "        -f - force -- skip the test if there is still data present."
   echo "        -i - number times each test is iterated."
   echo "        -j - use fio instead of dd for benchmarking."
   echo "        -m <l2min> - log2 of the smallest block size to use."
   echo "        -M <l2max> - log2 of the largest block size to use."
   echo "        -n - do not verify the data on <dev> before overwriting it."
   echo "        -r - only perform the read test."
   echo "        -s - logarithm base two of the I/O size."
   echo "        -t - username and hostname of the target to drop the caches on."
   echo "        -w - only perform the write test."
   echo "        <dev> - block device to run the I/O performance test on."
 }

 # Compute two raised to the power $1.
 pow2() {
   if [ $1 = 0 ]; then
     echo 1
   else
     echo $((2 * $(pow2 $(($1 - 1)) ) ))
   fi
 }

 # Report via the exit status whether or not the current user has sufficient
 # privileges to drop the VM caches.
 can_drop_cache() {
   [ -w /proc/sys/vm/drop_caches ]
 }

 drop_caches() {
   sync
   if can_drop_cache; then
     echo 3 > /proc/sys/vm/drop_caches
   fi
   if [ "${target_login}" != "" ]; then
     ssh -n ${target_login} 'sync; if [ -w /proc/sys/vm/drop_caches ]; then echo 3 > /proc/sys/vm/drop_caches; fi'
   fi
 }

 # Set the scaling governor, minimum and maximum frequency to $1, $2 and $3
 # respectively or disable frequency scaling when no arguments have been
 # provided.
 set_frequency_scaling() {
   local syscpu=/sys/devices/system/cpu
   if [ ! -e $syscpu/cpufreq ]; then
     return
   fi
   local governor=$(cat $syscpu/cpu0/cpufreq/scaling_governor)
   local cpuinfo_min_freq=$(cat $syscpu/cpu0/cpufreq/cpuinfo_min_freq)
   local cpuinfo_max_freq=$(cat $syscpu/cpu0/cpufreq/cpuinfo_max_freq)
   local scaling_min_freq=$(cat $syscpu/cpu0/cpufreq/scaling_min_freq)
   local scaling_max_freq=$(cat $syscpu/cpu0/cpufreq/scaling_max_freq)
   if [ -w $syscpu/cpu0/cpufreq/scaling_governor ]; then
     for d in $syscpu/cpu*/cpufreq
     do
       echo "${1:-userspace}"         >"$d/scaling_governor"
       echo "${2:-$cpuinfo_max_freq}" >"$d/scaling_min_freq"
       echo "${3:-$cpuinfo_max_freq}" >"$d/scaling_max_freq"
     done
   fi
   echo $governor $scaling_min_freq $scaling_max_freq
 }

 # Read times in seconds from stdin, one number per line, echo each number
 # using format $1, and also echo the average transfer size in MB/s, its
 # standard deviation and the number of IOPS using the total I/O size $2 and
 # the block transfer size $3.
 echo_and_calc_avg() {
   awk -v fmt="$1" -v iosize="$2" -v blocksize="$3" 'BEGIN{pow_2_20=1024*1024}{if ($1 != 0){n++;sum+=iosize/$1;sumsq+=iosize*iosize/($1*$1)};printf fmt, $1} END{d=(n>0?sumsq/n-sum*sum/n/n:0);avg=(n>0?sum/n:0);stddev=(d>0?sqrt(d):0);iops=avg/blocksize;printf fmt fmt fmt,avg/pow_2_20,stddev/pow_2_20,iops}'
 }

 time_write() {
   if [ "${use_fio}" = "true" ]; then
     if [ "${iotype}" = "direct" ]; then
       fio_flags="--direct=1"
     else
       fio_flags="--direct=0 --end_fsync=1"
     fi
     fio  --rw=write --filename="${device}" --bs=$1 --size=$(($1*$2)) --ioengine=psync --end_fsync=1 --invalidate=1 ${fio_flags} --name=writeperftest \
     | sed -n 's/.*runt= *\([0-9]*\)msec.*/\1/p' \
     | awk '{print $1/1000}'
   else
     drop_caches
     if [ "${iotype}" = "direct" ]; then
       dd_oflags="oflag=direct conv=notrunc"
     else
       dd_oflags=""
     fi
     { dd if=/dev/zero of="${device}" bs=$1 count=$2 ${dd_oflags} 2>&1; sync; } \
       | sed -n -e 's/.* \([0-9.]*\) s[econds]*,.*/\1/p' | sed 's/^$/0/'
   fi
 }

 time_read() {
   if [ "${use_fio}" = "true" ]; then
     if [ "${iotype}" = "direct" ]; then
       fio_flags="--direct=1"
     else
       fio_flags="--direct=0"
     fi
     fio  --rw=read --filename="${device}" --bs=$1 --size=$(($1*$2)) --ioengine=psync --end_fsync=1 --invalidate=1 ${fio_flags} --name=readperftest \
     | sed -n 's/.*runt= *\([0-9]*\)msec.*/\1/p' \
     | awk '{print $1/1000}'
   else
     drop_caches
     if [ "${iotype}" = "direct" ]; then
       dd_iflags="iflag=direct"
     else
       dd_iflags=""
     fi
     dd if="${device}" of=/dev/null bs=$1 count=$2 ${dd_iflags} 2>&1 \
       | sed -n -e 's/.* \([0-9.]*\) s[econds]*,.*/\1/p' | sed 's/^$/0/'
   fi
 }


 #########################
 # Default settings      #
 #########################

 force=false
 iterations=3
 log2_io_size=30       # 1 GB
 log2_min_blocksize=9  # 512 bytes
 log2_max_blocksize=26 # 64 MB
 iotype=direct
 perform_read_test=true
 perform_write_test=true
 target_login=""
 use_fio=false
 verify_device_data=true


 #########################
 # Argument processing   #
 #########################

 set -- $(/usr/bin/getopt "adfhi:jm:M:nrs:t:w" "$@")
 while [ "$1" != "${1#-}" ]
 do
   case "$1" in
     '-a') iotype="buffered"; shift;;
     '-d') iotype="direct"; shift;;
     '-f') force="true"; shift;;
     '-i') iterations="$2"; shift; shift;;
     '-j') use_fio=true; shift;;
     '-m') log2_min_blocksize="$2"; shift; shift;;
     '-M') log2_max_blocksize="$2"; shift; shift;;
     '-n') verify_device_data="false"; shift;;
     '-r') perform_write_test="false"; shift;;
     '-s') log2_io_size="$2"; shift; shift;;
     '-t') target_login="$2"; shift; shift;;
     '-w') perform_read_test="false"; shift;;
     '--') shift;;
     *)    usage; exit 1;;
   esac
 done

 if [ "$#" != 1 ]; then
   usage
   exit 1
 fi

 device="$1"


 ####################
 # Performance test #
 ####################

 if [ ! -e "${device}" ]; then
   echo "Error: device ${device} does not exist."
   exit 1
 fi

 if [ "${perform_write_test}" = "true" -a ! -w "${device}" ]; then
   echo "Error: device ${device} is not writeable."
   exit 1
 fi

 if [ "${perform_read_test}" = "true" -a                              \
      "$(($(cat /sys/class/block/$(basename $device)/size) * 512))" -lt $(pow2 $log2_io_size) ]
 then
   echo "Error: device ${device} contains less than $(pow2 $log2_io_size) bytes."
   exit 1
 fi

 if [ "${perform_write_test}" = "true" -a "${verify_device_data}" = "true" ] \
    && [ "${force}" != "true" ] \
    && ! cmp -s -n $(pow2 $log2_io_size) "${device}" /dev/zero
 then
   echo "Error: device ${device} still contains data."
   exit 1
 fi

 if ! can_drop_cache; then
   echo ""
   echo "WARNING: insufficient privileges to drop the file system cache"
   echo "-- results will be unreliable."
   echo ""
 fi

 # Disable frequency scaling
 if [ -e /sys/devices/system/cpu/cpu0/cpufreq ]; then
   if [ -w /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then
     frequency_scaling_params="$(set_frequency_scaling)"
   else
     echo ""
     echo "WARNING: insufficient privileges to disable CPU frequency scaling"
     echo "-- results will be unreliable."
     echo ""
   fi
 fi

 # Header, line 1
 printf "%9s " blocksize
 i=0
 while [ $i -lt ${iterations} ]
 do
   printf "%8s " "W"
   i=$((i+1))
 done
 printf "%8s %8s %8s " "W(avg," "W(std," "W"
 i=0
 while [ $i -lt ${iterations} ]
 do
   printf "%8s " "R"
   i=$((i+1))
 done
 printf "%8s %8s %8s" "R(avg," "R(std," "R"
 printf "\n"

 # Header, line 2
 printf "%9s " "(bytes)"
 i=0
 while [ $i -lt ${iterations} ]
 do
   printf "%8s " "(s)"
   i=$((i+1))
 done
 printf "%8s %8s %8s " "MB/s)" "MB/s)" "(IOPS)"
 i=0
 while [ $i -lt ${iterations} ]
 do
   printf "%8s " "(s)"
   i=$((i+1))
 done
 printf "%8s %8s %8s" "MB/s)" "MB/s)" "(IOPS)"
 printf "\n"

 # Measurements
 log2_blocksize=${log2_max_blocksize}
 while [ ! $log2_blocksize -lt $log2_min_blocksize ]
 do
   if [ $log2_blocksize -gt $log2_io_size ]; then
     log2_blocksize=$((log2_blocksize - 1))
     continue
   fi
   iosize=$(pow2 $log2_io_size)
   bs=$(pow2 $log2_blocksize)
   count=$(pow2 $(($log2_io_size - $log2_blocksize)))
   printf "%9d " ${bs}
   i=0
   while [ $i -lt ${iterations} ]
   do
     if [ "${perform_write_test}" = "true" ]; then
       time_write ${bs} ${count}
     else
       echo " 0 s,"
     fi
     i=$((i+1))
   done | echo_and_calc_avg "%8.3f " ${iosize} ${bs}

   i=0
   while [ $i -lt ${iterations} ]
   do
     if [ "${perform_read_test}" = "true" ]; then
       time_read ${bs} ${count}
     else
       echo " 0 s,"
     fi
     i=$((i+1))
   done | echo_and_calc_avg "%8.3f " ${iosize} ${bs}
   printf "\n"
   log2_blocksize=$((log2_blocksize - 1))
 done

 # Restore frequency scaling
 set_frequency_scaling ${frequency_scaling_params} >/dev/null
	#!/bin/bash

	############################################################################
	#
	# Script for testing block device I/O performance. Running this script on a
	# block device that is connected to a remote SCST target device allows to
	# test the performance of the transport protocols implemented in SCST. The
	# operation of this script is similar to iozone, while this script is easier
	# to use.
	#
	# Copyright (C) 2009 Bart Van Assche <bvanassche@acm.org>.
	#
	# This program is free software; you can redistribute it and/or
	# modify it under the terms of the GNU General Public License
	# as published by the Free Software Foundation, version 2
	# of the License.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	############################################################################

	#########################
	# Function definitions #
	#########################

	usage() {
	echo "Usage: $0 [-a] [-d] [-f] [-i <i>] [-j] [-n] [-r] [-s <l2s>] [-t [user@]host] <dev>"
	echo " -a - use asynchronous (buffered) I/O."
	echo " -d - use direct (non-buffered) I/O."
	echo " -f - force -- skip the test if there is still data present."
	echo " -i - number times each test is iterated."
	echo " -j - use fio instead of dd for benchmarking."
	echo " -m <l2min> - log2 of the smallest block size to use."
	echo " -M <l2max> - log2 of the largest block size to use."
	echo " -n - do not verify the data on <dev> before overwriting it."
	echo " -r - only perform the read test."
	echo " -s - logarithm base two of the I/O size."
	echo " -t - username and hostname of the target to drop the caches on."
	echo " -w - only perform the write test."
	echo " <dev> - block device to run the I/O performance test on."
	}

	# Compute two raised to the power $1.
	pow2() {
	if [ $1 = 0 ]; then
	echo 1
	else
	echo $((2 * $(pow2 $(($1 - 1)) ) ))
	fi
	}

	# Report via the exit status whether or not the current user has sufficient
	# privileges to drop the VM caches.
	can_drop_cache() {
	[ -w /proc/sys/vm/drop_caches ]
	}

	drop_caches() {
	sync
	if can_drop_cache; then
	echo 3 > /proc/sys/vm/drop_caches
	fi
	if [ "${target_login}" != "" ]; then
	ssh -n ${target_login} 'sync; if [ -w /proc/sys/vm/drop_caches ]; then echo 3 > /proc/sys/vm/drop_caches; fi'
	fi
	}

	# Set the scaling governor, minimum and maximum frequency to $1, $2 and $3
	# respectively or disable frequency scaling when no arguments have been
	# provided.
	set_frequency_scaling() {
	local syscpu=/sys/devices/system/cpu
	if [ ! -e $syscpu/cpufreq ]; then
	return
	fi
	local governor=$(cat $syscpu/cpu0/cpufreq/scaling_governor)
	local cpuinfo_min_freq=$(cat $syscpu/cpu0/cpufreq/cpuinfo_min_freq)
	local cpuinfo_max_freq=$(cat $syscpu/cpu0/cpufreq/cpuinfo_max_freq)
	local scaling_min_freq=$(cat $syscpu/cpu0/cpufreq/scaling_min_freq)
	local scaling_max_freq=$(cat $syscpu/cpu0/cpufreq/scaling_max_freq)
	if [ -w $syscpu/cpu0/cpufreq/scaling_governor ]; then
	for d in $syscpu/cpu*/cpufreq
	do
	echo "${1:-userspace}" >"$d/scaling_governor"
	echo "${2:-$cpuinfo_max_freq}" >"$d/scaling_min_freq"
	echo "${3:-$cpuinfo_max_freq}" >"$d/scaling_max_freq"
	done
	fi
	echo $governor $scaling_min_freq $scaling_max_freq
	}

	# Read times in seconds from stdin, one number per line, echo each number
	# using format $1, and also echo the average transfer size in MB/s, its
	# standard deviation and the number of IOPS using the total I/O size $2 and
	# the block transfer size $3.
	echo_and_calc_avg() {
	awk -v fmt="$1" -v iosize="$2" -v blocksize="$3" 'BEGIN{pow_2_20=10241024}{if ($1 != 0){n++;sum+=iosize/$1;sumsq+=iosizeiosize/($1$1)};printf fmt, $1} END{d=(n>0?sumsq/n-sumsum/n/n:0);avg=(n>0?sum/n:0);stddev=(d>0?sqrt(d):0);iops=avg/blocksize;printf fmt fmt fmt,avg/pow_2_20,stddev/pow_2_20,iops}'
	}

	time_write() {
	if [ "${use_fio}" = "true" ]; then
	if [ "${iotype}" = "direct" ]; then
	fio_flags="--direct=1"
	else
	fio_flags="--direct=0 --end_fsync=1"
	fi
	fio --rw=write --filename="${device}" --bs=$1 --size=$(($1*$2)) --ioengine=psync --end_fsync=1 --invalidate=1 ${fio_flags} --name=writeperftest \
	\| sed -n 's/.runt= \([0-9]\)msec./\1/p' \
	\| awk '{print $1/1000}'
	else
	drop_caches
	if [ "${iotype}" = "direct" ]; then
	dd_oflags="oflag=direct conv=notrunc"
	else
	dd_oflags=""
	fi
	{ dd if=/dev/zero of="${device}" bs=$1 count=$2 ${dd_oflags} 2>&1; sync; } \
	\| sed -n -e 's/.* \([0-9.]\) s[econds],.*/\1/p' \| sed 's/^$/0/'
	fi
	}

	time_read() {
	if [ "${use_fio}" = "true" ]; then
	if [ "${iotype}" = "direct" ]; then
	fio_flags="--direct=1"
	else
	fio_flags="--direct=0"
	fi
	fio --rw=read --filename="${device}" --bs=$1 --size=$(($1*$2)) --ioengine=psync --end_fsync=1 --invalidate=1 ${fio_flags} --name=readperftest \
	\| sed -n 's/.runt= \([0-9]\)msec./\1/p' \
	\| awk '{print $1/1000}'
	else
	drop_caches
	if [ "${iotype}" = "direct" ]; then
	dd_iflags="iflag=direct"
	else
	dd_iflags=""
	fi
	dd if="${device}" of=/dev/null bs=$1 count=$2 ${dd_iflags} 2>&1 \
	\| sed -n -e 's/.* \([0-9.]\) s[econds],.*/\1/p' \| sed 's/^$/0/'
	fi
	}


	#########################
	# Default settings #
	#########################

	force=false
	iterations=3
	log2_io_size=30 # 1 GB
	log2_min_blocksize=9 # 512 bytes
	log2_max_blocksize=26 # 64 MB
	iotype=direct
	perform_read_test=true
	perform_write_test=true
	target_login=""
	use_fio=false
	verify_device_data=true


	#########################
	# Argument processing #
	#########################

	set -- $(/usr/bin/getopt "adfhi:jm:M:nrs:t:w" "$@")
	while [ "$1" != "${1#-}" ]
	do
	case "$1" in
	'-a') iotype="buffered"; shift;;
	'-d') iotype="direct"; shift;;
	'-f') force="true"; shift;;
	'-i') iterations="$2"; shift; shift;;
	'-j') use_fio=true; shift;;
	'-m') log2_min_blocksize="$2"; shift; shift;;
	'-M') log2_max_blocksize="$2"; shift; shift;;
	'-n') verify_device_data="false"; shift;;
	'-r') perform_write_test="false"; shift;;
	'-s') log2_io_size="$2"; shift; shift;;
	'-t') target_login="$2"; shift; shift;;
	'-w') perform_read_test="false"; shift;;
	'--') shift;;
	*) usage; exit 1;;
	esac
	done

	if [ "$#" != 1 ]; then
	usage
	exit 1
	fi

	device="$1"


	####################
	# Performance test #
	####################

	if [ ! -e "${device}" ]; then
	echo "Error: device ${device} does not exist."
	exit 1
	fi

	if [ "${perform_write_test}" = "true" -a ! -w "${device}" ]; then
	echo "Error: device ${device} is not writeable."
	exit 1
	fi

	if [ "${perform_read_test}" = "true" -a \
	"$(($(cat /sys/class/block/$(basename $device)/size) * 512))" -lt $(pow2 $log2_io_size) ]
	then
	echo "Error: device ${device} contains less than $(pow2 $log2_io_size) bytes."
	exit 1
	fi

	if [ "${perform_write_test}" = "true" -a "${verify_device_data}" = "true" ] \
	&& [ "${force}" != "true" ] \
	&& ! cmp -s -n $(pow2 $log2_io_size) "${device}" /dev/zero
	then
	echo "Error: device ${device} still contains data."
	exit 1
	fi

	if ! can_drop_cache; then
	echo ""
	echo "WARNING: insufficient privileges to drop the file system cache"
	echo "-- results will be unreliable."
	echo ""
	fi

	# Disable frequency scaling
	if [ -e /sys/devices/system/cpu/cpu0/cpufreq ]; then
	if [ -w /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then
	frequency_scaling_params="$(set_frequency_scaling)"
	else
	echo ""
	echo "WARNING: insufficient privileges to disable CPU frequency scaling"
	echo "-- results will be unreliable."
	echo ""
	fi
	fi

	# Header, line 1
	printf "%9s " blocksize
	i=0
	while [ $i -lt ${iterations} ]
	do
	printf "%8s " "W"
	i=$((i+1))
	done
	printf "%8s %8s %8s " "W(avg," "W(std," "W"
	i=0
	while [ $i -lt ${iterations} ]
	do
	printf "%8s " "R"
	i=$((i+1))
	done
	printf "%8s %8s %8s" "R(avg," "R(std," "R"
	printf "\n"

	# Header, line 2
	printf "%9s " "(bytes)"
	i=0
	while [ $i -lt ${iterations} ]
	do
	printf "%8s " "(s)"
	i=$((i+1))
	done
	printf "%8s %8s %8s " "MB/s)" "MB/s)" "(IOPS)"
	i=0
	while [ $i -lt ${iterations} ]
	do
	printf "%8s " "(s)"
	i=$((i+1))
	done
	printf "%8s %8s %8s" "MB/s)" "MB/s)" "(IOPS)"
	printf "\n"

	# Measurements
	log2_blocksize=${log2_max_blocksize}
	while [ ! $log2_blocksize -lt $log2_min_blocksize ]
	do
	if [ $log2_blocksize -gt $log2_io_size ]; then
	log2_blocksize=$((log2_blocksize - 1))
	continue
	fi
	iosize=$(pow2 $log2_io_size)
	bs=$(pow2 $log2_blocksize)
	count=$(pow2 $(($log2_io_size - $log2_blocksize)))
	printf "%9d " ${bs}
	i=0
	while [ $i -lt ${iterations} ]
	do
	if [ "${perform_write_test}" = "true" ]; then
	time_write ${bs} ${count}
	else
	echo " 0 s,"
	fi
	i=$((i+1))
	done \| echo_and_calc_avg "%8.3f " ${iosize} ${bs}

	i=0
	while [ $i -lt ${iterations} ]
	do
	if [ "${perform_read_test}" = "true" ]; then
	time_read ${bs} ${count}
	else
	echo " 0 s,"
	fi
	i=$((i+1))
	done \| echo_and_calc_avg "%8.3f " ${iosize} ${bs}
	printf "\n"
	log2_blocksize=$((log2_blocksize - 1))
	done

	# Restore frequency scaling
	set_frequency_scaling ${frequency_scaling_params} >/dev/null