netperf-2.4.5/doc/examples/packet_byte_script - nest-learning-thermostat/5.1.8/netperf - Git at Google

 #!/bin/sh
 #
 # This script runs a series of netperf tests intended to gather the
 # raw material necessary to arrive at estimates for the cost of
 # sending and receiving a TCP segment, the cost of each additional byte
 # and the cost of each incremental segment.
 #
 # there are a number of data points gathered by this script - it might
 # run for a considerable length of time.
 #
 # rick jones 4/99
 #
 # teach it about processor affinity and the TCP_MSS test
 # rick jones 2007-11-08
 #

 if [ $# -gt 2 ]; then
   echo "try again, correctly -> packet_byte_script hostname [CPU]"
   exit 1
 fi

 if [ $# -eq 0 ]; then
   echo "try again, correctly -> packet_byte_script hostname [CPU]"
   exit 1
 fi

 # where is netperf
 NETPERF_DIR=${NETPERF_DIR:=/opt/netperf2/bin}


 # at what port will netserver be waiting? If you decide to run
 # netserver at a differnet port than the default of 12865, then set
 # the value of NETPERF_PORT apropriately
 # NETPERF_PORT="-p some_other_portnum"
 NETPERF_PORT=${NETPERF_PORT:=""}


 # The test length in seconds
 NETPERF_TIME=${NETPERF_TIME:=30}

 # How accurate we want the estimate of performance:
 #      maximum and minimum test iterations (-i)
 #      confidence level (99 or 95) and interval (percent)
 NETPERF_STATS=${NETPERF_STATS:="-i 30,3 -I 99,5"}

 # The socket sizes that we will be testing - using -1 will let it
 # be the system default.
 NETPERF_SKTS=${NETPERF_SKTS:="-1"}

 # The CPU affinity to be applied
 NETPERF_AFFINITY=${NETPERF_AFFINITY:=""}

 # NETPERF_CMD is an amalgam of previous variables
 NETPERF_CMD="${NETPERF_DIR}/netperf ${NETPERF_AFFINITY}"

 # if there are two parms, parm one it the hostname and parm two will
 # be a CPU indicator. actually, anything as a second parm will cause
 # the CPU to be measured, but we will "advertise" it should be "CPU"

 if [ $# -eq 2 ]; then
   REM_HOST=$1
   LOC_CPU="-c"
   REM_CPU="-C"
 fi

 if [ $# -eq 1 ]; then
   REM_HOST=$1
 fi

 MSS=`$NETPERF_CMD -H $REM_HOST -t TCP_MSS -P 0 -v 0`

 # The request,response sizes that we will be using. The netperf
 # command parser will treat "1" the same as "1,1" - I use 1,1 to
 # remember that it is "request,response"

 # start at one and multiply by two on our way to the MSS
 bar=1
 while [ $bar -lt $MSS ]
 do
  NETPERF_REQS="${NETPERF_REQS} $bar"
  bar=`expr $bar \* 2`
 done

 # and now multiples of the mss and that plus one
 for i in 1 2 3
 do
  bar=`expr $MSS \* $i`
  NETPERF_REQS="${NETPERF_REQS} $bar"
  NETPERF_REQS="${NETPERF_REQS} `expr $bar + 1`"
 done

 bar=1
 while [ $bar -lt $MSS ]
 do
   NETPERF_RESP="${NETPERF_RESP} $bar"
   bar=`expr $bar \* 2`
 done

 for i in 1 2 3
 do
  bar=`expr $MSS \* $i`
  NETPERF_RESP="${NETPERF_RESP} $bar"
  NETPERF_RESP="${NETPERF_RESP} `expr $bar + 1`"
 done


 # If we are measuring CPU utilization, then we can save beaucoup
 # time by saving the results of the CPU calibration and passing
 # them in during the real tests. So, we execute the new CPU "tests"
 # of netperf and put the values into shell vars.
 case $LOC_CPU in
 \-c) LOC_RATE=`$NETPERF_CMD $PORT -t LOC_CPU`;;
 *) LOC_RATE=""
 esac

 case $REM_CPU in
 \-C) REM_RATE=`$NETPERF_CMD $PORT -t REM_CPU -H $REM_HOST`;;
 *) REM_RATE=""
 esac

 # This disables header display
 NO_HDR="-P 0"
 NO_HDR=""

 for SOCKET_SIZE in $NETPERF_SKTS
  do
   echo
   echo ------------------------------------------------------
   echo Testing with the following command line:
   # we echo the command line for cut and paste to th database
   echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_RR \
        $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
        -s $SOCKET_SIZE -S $SOCKET_SIZE
   echo
   echo and these settings for send sizes $NETPERF_REQS
   echo

   for REQ in $NETPERF_REQS
   do
    # since we have the confidence interval stuff, we do not
    # need to repeat a test multiple times from the shell
    $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
    -t TCP_RR $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
    -r ${REQ},1 -s $SOCKET_SIZE -S $SOCKET_SIZE
    NO_HDR="-P 0"
   done
   echo
   echo ------------------------------------------------------
   NO_HDR=""
   echo Testing with the following command line:
   # we echo the command line for cut and paste to th database
   echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_RR \
        $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
        -s $SOCKET_SIZE -S $SOCKET_SIZE
   echo and these settings for response sizes $NETPERF_RESP
   echo
   for RESP in $NETPERF_RESP
    do
    # since we have the confidence interval stuff, we do not
    # need to repeat a test multiple times from the shell
    $NETPERF_CMD $PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
    -t TCP_RR $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
    -r 1,${RESP} -s $SOCKET_SIZE -S $SOCKET_SIZE
    NO_HDR="-P 0"
  done
   echo
   echo ------------------------------------------------------
   NO_HDR=""
   echo Testing with the following command line:
   # we echo the command line for cut and paste to th database
   echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_STREAM\
        $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
        -s $SOCKET_SIZE -S $SOCKET_SIZE
   echo and these settings for response sizes $NETPERF_RESP
   echo
   for REQ in $NETPERF_REQS
    do
    # since we have the confidence interval stuff, we do not
    # need to repeat a test multiple times from the shell
    $NETPERF_CMD $PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
    -t TCP_STREAM $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
    -m ${REQ} -s $SOCKET_SIZE -S $SOCKET_SIZE -D
    NO_HDR="-P 0"
  done
 done

 # The test length in seconds for the CRR test, which needs to be
 #    longer for a connect/request/response test

 NETPERF_CRR_TIME=${NETPERF_CRR_TIME:=120}

 # now we do the TCP_CRR test
 echo
 echo ------------------------------------------------------
 echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_CRR_TIME -H $REM_HOST -t TCP_CRR\
        $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
        -s $SOCKET_SIZE -S $SOCKET_SIZE
 echo
 $NETPERF_CMD $NETPERF_PORT -l $NETPERF_CRR_TIME -H $REM_HOST -t TCP_CRR\
        $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
        -s $SOCKET_SIZE -S $SOCKET_SIZE
	#!/bin/sh
	#
	# This script runs a series of netperf tests intended to gather the
	# raw material necessary to arrive at estimates for the cost of
	# sending and receiving a TCP segment, the cost of each additional byte
	# and the cost of each incremental segment.
	#
	# there are a number of data points gathered by this script - it might
	# run for a considerable length of time.
	#
	# rick jones 4/99
	#
	# teach it about processor affinity and the TCP_MSS test
	# rick jones 2007-11-08
	#

	if [ $# -gt 2 ]; then
	echo "try again, correctly -> packet_byte_script hostname [CPU]"
	exit 1
	fi

	if [ $# -eq 0 ]; then
	echo "try again, correctly -> packet_byte_script hostname [CPU]"
	exit 1
	fi

	# where is netperf
	NETPERF_DIR=${NETPERF_DIR:=/opt/netperf2/bin}


	# at what port will netserver be waiting? If you decide to run
	# netserver at a differnet port than the default of 12865, then set
	# the value of NETPERF_PORT apropriately
	# NETPERF_PORT="-p some_other_portnum"
	NETPERF_PORT=${NETPERF_PORT:=""}


	# The test length in seconds
	NETPERF_TIME=${NETPERF_TIME:=30}

	# How accurate we want the estimate of performance:
	# maximum and minimum test iterations (-i)
	# confidence level (99 or 95) and interval (percent)
	NETPERF_STATS=${NETPERF_STATS:="-i 30,3 -I 99,5"}

	# The socket sizes that we will be testing - using -1 will let it
	# be the system default.
	NETPERF_SKTS=${NETPERF_SKTS:="-1"}

	# The CPU affinity to be applied
	NETPERF_AFFINITY=${NETPERF_AFFINITY:=""}

	# NETPERF_CMD is an amalgam of previous variables
	NETPERF_CMD="${NETPERF_DIR}/netperf ${NETPERF_AFFINITY}"

	# if there are two parms, parm one it the hostname and parm two will
	# be a CPU indicator. actually, anything as a second parm will cause
	# the CPU to be measured, but we will "advertise" it should be "CPU"

	if [ $# -eq 2 ]; then
	REM_HOST=$1
	LOC_CPU="-c"
	REM_CPU="-C"
	fi

	if [ $# -eq 1 ]; then
	REM_HOST=$1
	fi

	MSS=`$NETPERF_CMD -H $REM_HOST -t TCP_MSS -P 0 -v 0`

	# The request,response sizes that we will be using. The netperf
	# command parser will treat "1" the same as "1,1" - I use 1,1 to
	# remember that it is "request,response"

	# start at one and multiply by two on our way to the MSS
	bar=1
	while [ $bar -lt $MSS ]
	do
	NETPERF_REQS="${NETPERF_REQS} $bar"
	bar=`expr $bar \* 2`
	done

	# and now multiples of the mss and that plus one
	for i in 1 2 3
	do
	bar=`expr $MSS \* $i`
	NETPERF_REQS="${NETPERF_REQS} $bar"
	NETPERF_REQS="${NETPERF_REQS} `expr $bar + 1`"
	done

	bar=1
	while [ $bar -lt $MSS ]
	do
	NETPERF_RESP="${NETPERF_RESP} $bar"
	bar=`expr $bar \* 2`
	done

	for i in 1 2 3
	do
	bar=`expr $MSS \* $i`
	NETPERF_RESP="${NETPERF_RESP} $bar"
	NETPERF_RESP="${NETPERF_RESP} `expr $bar + 1`"
	done



	# If we are measuring CPU utilization, then we can save beaucoup
	# time by saving the results of the CPU calibration and passing
	# them in during the real tests. So, we execute the new CPU "tests"
	# of netperf and put the values into shell vars.
	case $LOC_CPU in
	\-c) LOC_RATE=`$NETPERF_CMD $PORT -t LOC_CPU`;;
	*) LOC_RATE=""
	esac

	case $REM_CPU in
	\-C) REM_RATE=`$NETPERF_CMD $PORT -t REM_CPU -H $REM_HOST`;;
	*) REM_RATE=""
	esac

	# This disables header display
	NO_HDR="-P 0"
	NO_HDR=""

	for SOCKET_SIZE in $NETPERF_SKTS
	do
	echo
	echo ------------------------------------------------------
	echo Testing with the following command line:
	# we echo the command line for cut and paste to th database
	echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_RR \
	$LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-s $SOCKET_SIZE -S $SOCKET_SIZE
	echo
	echo and these settings for send sizes $NETPERF_REQS
	echo

	for REQ in $NETPERF_REQS
	do
	# since we have the confidence interval stuff, we do not
	# need to repeat a test multiple times from the shell
	$NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
	-t TCP_RR $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-r ${REQ},1 -s $SOCKET_SIZE -S $SOCKET_SIZE
	NO_HDR="-P 0"
	done
	echo
	echo ------------------------------------------------------
	NO_HDR=""
	echo Testing with the following command line:
	# we echo the command line for cut and paste to th database
	echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_RR \
	$LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-s $SOCKET_SIZE -S $SOCKET_SIZE
	echo and these settings for response sizes $NETPERF_RESP
	echo
	for RESP in $NETPERF_RESP
	do
	# since we have the confidence interval stuff, we do not
	# need to repeat a test multiple times from the shell
	$NETPERF_CMD $PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
	-t TCP_RR $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-r 1,${RESP} -s $SOCKET_SIZE -S $SOCKET_SIZE
	NO_HDR="-P 0"
	done
	echo
	echo ------------------------------------------------------
	NO_HDR=""
	echo Testing with the following command line:
	# we echo the command line for cut and paste to th database
	echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_TIME -H $REM_HOST -t TCP_STREAM\
	$LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-s $SOCKET_SIZE -S $SOCKET_SIZE
	echo and these settings for response sizes $NETPERF_RESP
	echo
	for REQ in $NETPERF_REQS
	do
	# since we have the confidence interval stuff, we do not
	# need to repeat a test multiple times from the shell
	$NETPERF_CMD $PORT -l $NETPERF_TIME -H $REM_HOST $NO_HDR \
	-t TCP_STREAM $LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-m ${REQ} -s $SOCKET_SIZE -S $SOCKET_SIZE -D
	NO_HDR="-P 0"
	done
	done

	# The test length in seconds for the CRR test, which needs to be
	# longer for a connect/request/response test

	NETPERF_CRR_TIME=${NETPERF_CRR_TIME:=120}

	# now we do the TCP_CRR test
	echo
	echo ------------------------------------------------------
	echo $NETPERF_CMD $NETPERF_PORT -l $NETPERF_CRR_TIME -H $REM_HOST -t TCP_CRR\
	$LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-s $SOCKET_SIZE -S $SOCKET_SIZE
	echo
	$NETPERF_CMD $NETPERF_PORT -l $NETPERF_CRR_TIME -H $REM_HOST -t TCP_CRR\
	$LOC_CPU $LOC_RATE $REM_CPU $REM_RATE $NETPERF_STATS --\
	-s $SOCKET_SIZE -S $SOCKET_SIZE