Adding upstream version 6.6.15.upstream/6.6.15

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

6 files changed, 1137 insertions, 0 deletions

diff --git a/tools/testing/selftests/amd-pstate/Makefile b/tools/testing/selftests/amd-pstate/Makefile
new file mode 100644
index 0000000000..c382f579fe
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/Makefile
@@ -0,0 +1,18 @@
+# SPDX-License-Identifier: GPL-2.0-only
+# Makefile for amd-pstate/ function selftests
+
+# No binaries, but make sure arg-less "make" doesn't trigger "run_tests"
+all:
+
+ARCH ?= $(shell uname -m 2>/dev/null || echo not)
+ARCH := $(shell echo $(ARCH) | sed -e s/i.86/x86/ -e s/x86_64/x86/)
+
+ifeq (x86,$(ARCH))
+TEST_FILES += ../../../power/x86/amd_pstate_tracer/amd_pstate_trace.py
+TEST_FILES += ../../../power/x86/intel_pstate_tracer/intel_pstate_tracer.py
+endif
+
+TEST_PROGS += run.sh
+TEST_FILES += basic.sh tbench.sh gitsource.sh
+
+include ../lib.mk
diff --git a/tools/testing/selftests/amd-pstate/basic.sh b/tools/testing/selftests/amd-pstate/basic.sh
new file mode 100755
index 0000000000..e4c43193e4
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/basic.sh
@@ -0,0 +1,38 @@
+#!/bin/sh
+# SPDX-License-Identifier: GPL-2.0
+
+# amd-pstate-ut is a test module for testing the amd-pstate driver.
+# It can only run on x86 architectures and current cpufreq driver
+# must be amd-pstate.
+# (1) It can help all users to verify their processor support
+# (SBIOS/Firmware or Hardware).
+# (2) Kernel can have a basic function test to avoid the kernel
+# regression during the update.
+# (3) We can introduce more functional or performance tests to align
+# the result together, it will benefit power and performance scale optimization.
+
+# protect against multiple inclusion
+if [ $FILE_BASIC ]; then
+	return 0
+else
+	FILE_BASIC=DONE
+fi
+
+amd_pstate_basic()
+{
+	printf "\n---------------------------------------------\n"
+	printf "*** Running AMD P-state ut                ***"
+	printf "\n---------------------------------------------\n"
+
+	if ! /sbin/modprobe -q -n amd-pstate-ut; then
+		echo "amd-pstate-ut: module amd-pstate-ut is not found [SKIP]"
+		exit $ksft_skip
+	fi
+	if /sbin/modprobe -q amd-pstate-ut; then
+		/sbin/modprobe -q -r amd-pstate-ut
+		echo "amd-pstate-basic: ok"
+	else
+		echo "amd-pstate-basic: [FAIL]"
+		exit 1
+	fi
+}
diff --git a/tools/testing/selftests/amd-pstate/config b/tools/testing/selftests/amd-pstate/config
new file mode 100644
index 0000000000..f43103c9ad
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/config
@@ -0,0 +1 @@
+CONFIG_X86_AMD_PSTATE_UT=m
diff --git a/tools/testing/selftests/amd-pstate/gitsource.sh b/tools/testing/selftests/amd-pstate/gitsource.sh
new file mode 100755
index 0000000000..5f2171f011
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/gitsource.sh
@@ -0,0 +1,354 @@
+#!/bin/sh
+# SPDX-License-Identifier: GPL-2.0
+
+# Testing and monitor the cpu desire performance, frequency, load,
+# power consumption and throughput etc. when this script trigger
+# gitsource test.
+# 1) Download and tar gitsource codes.
+# 2) Run gitsource benchmark on specific governors, ondemand or schedutil.
+# 3) Run tbench benchmark comparative test on acpi-cpufreq kernel driver.
+# 4) Get desire performance, frequency, load by perf.
+# 5) Get power consumption and throughput by amd_pstate_trace.py.
+# 6) Get run time by /usr/bin/time.
+# 7) Analyse test results and save it in file selftest.gitsource.csv.
+#8) Plot png images about time, energy and performance per watt for each test.
+
+# protect against multiple inclusion
+if [ $FILE_GITSOURCE ]; then
+	return 0
+else
+	FILE_GITSOURCE=DONE
+fi
+
+git_name="git-2.15.1"
+git_tar="$git_name.tar.gz"
+gitsource_url="https://github.com/git/git/archive/refs/tags/v2.15.1.tar.gz"
+gitsource_governors=("ondemand" "schedutil")
+
+# $1: governor, $2: round, $3: des-perf, $4: freq, $5: load, $6: time $7: energy, $8: PPW
+store_csv_gitsource()
+{
+	echo "$1, $2, $3, $4, $5, $6, $7, $8" | tee -a $OUTFILE_GIT.csv > /dev/null 2>&1
+}
+
+# clear some special lines
+clear_csv_gitsource()
+{
+	if [ -f $OUTFILE_GIT.csv ]; then
+		sed -i '/Comprison(%)/d' $OUTFILE_GIT.csv
+		sed -i "/$(scaling_name)/d" $OUTFILE_GIT.csv
+	fi
+}
+
+# find string $1 in file csv and get the number of lines
+get_lines_csv_gitsource()
+{
+	if [ -f $OUTFILE_GIT.csv ]; then
+		return `grep -c "$1" $OUTFILE_GIT.csv`
+	else
+		return 0
+	fi
+}
+
+pre_clear_gitsource()
+{
+	post_clear_gitsource
+	rm -rf gitsource_*.png
+	clear_csv_gitsource
+}
+
+post_clear_gitsource()
+{
+	rm -rf results/tracer-gitsource*
+	rm -rf $OUTFILE_GIT*.log
+	rm -rf $OUTFILE_GIT*.result
+}
+
+install_gitsource()
+{
+	if [ ! -d $git_name ]; then
+		printf "Download gitsource, please wait a moment ...\n\n"
+		wget -O $git_tar $gitsource_url > /dev/null 2>&1
+
+		printf "Tar gitsource ...\n\n"
+		tar -xzf $git_tar
+	fi
+}
+
+# $1: governor, $2: loop
+run_gitsource()
+{
+	echo "Launching amd pstate tracer for $1 #$2 tracer_interval: $TRACER_INTERVAL"
+	./amd_pstate_trace.py -n tracer-gitsource-$1-$2 -i $TRACER_INTERVAL > /dev/null 2>&1 &
+
+	printf "Make and test gitsource for $1 #$2 make_cpus: $MAKE_CPUS\n"
+	cd $git_name
+	perf stat -a --per-socket -I 1000 -e power/energy-pkg/ /usr/bin/time -o ../$OUTFILE_GIT.time-gitsource-$1-$2.log make test -j$MAKE_CPUS > ../$OUTFILE_GIT-perf-$1-$2.log 2>&1
+	cd ..
+
+	for job in `jobs -p`
+	do
+		echo "Waiting for job id $job"
+		wait $job
+	done
+}
+
+# $1: governor, $2: loop
+parse_gitsource()
+{
+	awk '{print $5}' results/tracer-gitsource-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_GIT-des-perf-$1-$2.log
+	avg_des_perf=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_GIT-des-perf-$1-$2.log)
+	printf "Gitsource-$1-#$2 avg des perf: $avg_des_perf\n" | tee -a $OUTFILE_GIT.result
+
+	awk '{print $7}' results/tracer-gitsource-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_GIT-freq-$1-$2.log
+	avg_freq=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_GIT-freq-$1-$2.log)
+	printf "Gitsource-$1-#$2 avg freq: $avg_freq\n" | tee -a $OUTFILE_GIT.result
+
+	awk '{print $11}' results/tracer-gitsource-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_GIT-load-$1-$2.log
+	avg_load=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_GIT-load-$1-$2.log)
+	printf "Gitsource-$1-#$2 avg load: $avg_load\n" | tee -a $OUTFILE_GIT.result
+
+	grep user $OUTFILE_GIT.time-gitsource-$1-$2.log | awk '{print $1}' | sed -e 's/user//' > $OUTFILE_GIT-time-$1-$2.log
+	time_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_GIT-time-$1-$2.log)
+	printf "Gitsource-$1-#$2 user time(s): $time_sum\n" | tee -a $OUTFILE_GIT.result
+
+	grep Joules $OUTFILE_GIT-perf-$1-$2.log | awk '{print $4}' > $OUTFILE_GIT-energy-$1-$2.log
+	en_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_GIT-energy-$1-$2.log)
+	printf "Gitsource-$1-#$2 power consumption(J): $en_sum\n" | tee -a $OUTFILE_GIT.result
+
+	# Permance is the number of run gitsource per second, denoted 1/t, where 1 is the number of run gitsource in t
+	# seconds. It is well known that P=E/t, where P is power measured in watts(W), E is energy measured in joules(J),
+	# and t is time measured in seconds(s). This means that performance per watt becomes
+	#        1/t     1/t     1
+	#       ----- = ----- = ---
+	#         P      E/t     E
+	# with unit given by 1 per joule.
+	ppw=`echo "scale=9;1/$en_sum" | bc | awk '{printf "%.9f", $0}'`
+	printf "Gitsource-$1-#$2 performance per watt(1/J): $ppw\n" | tee -a $OUTFILE_GIT.result
+	printf "\n" | tee -a $OUTFILE_GIT.result
+
+	driver_name=`echo $(scaling_name)`
+	store_csv_gitsource "$driver_name-$1" $2 $avg_des_perf $avg_freq $avg_load $time_sum $en_sum $ppw
+}
+
+# $1: governor
+loop_gitsource()
+{
+	printf "\nGitsource total test times is $LOOP_TIMES for $1\n\n"
+	for i in `seq 1 $LOOP_TIMES`
+	do
+		run_gitsource $1 $i
+		parse_gitsource $1 $i
+	done
+}
+
+# $1: governor
+gather_gitsource()
+{
+	printf "Gitsource test result for $1 (loops:$LOOP_TIMES)" | tee -a $OUTFILE_GIT.result
+	printf "\n--------------------------------------------------\n" | tee -a $OUTFILE_GIT.result
+
+	grep "Gitsource-$1-#" $OUTFILE_GIT.result | grep "avg des perf:" | awk '{print $NF}' > $OUTFILE_GIT-des-perf-$1.log
+	avg_des_perf=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_GIT-des-perf-$1.log)
+	printf "Gitsource-$1 avg des perf: $avg_des_perf\n" | tee -a $OUTFILE_GIT.result
+
+	grep "Gitsource-$1-#" $OUTFILE_GIT.result | grep "avg freq:" | awk '{print $NF}' > $OUTFILE_GIT-freq-$1.log
+	avg_freq=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_GIT-freq-$1.log)
+	printf "Gitsource-$1 avg freq: $avg_freq\n" | tee -a $OUTFILE_GIT.result
+
+	grep "Gitsource-$1-#" $OUTFILE_GIT.result | grep "avg load:" | awk '{print $NF}' > $OUTFILE_GIT-load-$1.log
+	avg_load=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_GIT-load-$1.log)
+	printf "Gitsource-$1 avg load: $avg_load\n" | tee -a $OUTFILE_GIT.result
+
+	grep "Gitsource-$1-#" $OUTFILE_GIT.result | grep "user time(s):" | awk '{print $NF}' > $OUTFILE_GIT-time-$1.log
+	time_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_GIT-time-$1.log)
+	printf "Gitsource-$1 total user time(s): $time_sum\n" | tee -a $OUTFILE_GIT.result
+
+	avg_time=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_GIT-time-$1.log)
+	printf "Gitsource-$1 avg user times(s): $avg_time\n" | tee -a $OUTFILE_GIT.result
+
+	grep "Gitsource-$1-#" $OUTFILE_GIT.result | grep "power consumption(J):" | awk '{print $NF}' > $OUTFILE_GIT-energy-$1.log
+	en_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_GIT-energy-$1.log)
+	printf "Gitsource-$1 total power consumption(J): $en_sum\n" | tee -a $OUTFILE_GIT.result
+
+	avg_en=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_GIT-energy-$1.log)
+	printf "Gitsource-$1 avg power consumption(J): $avg_en\n" | tee -a $OUTFILE_GIT.result
+
+	# Permance is the number of run gitsource per second, denoted 1/t, where 1 is the number of run gitsource in t
+	# seconds. It is well known that P=E/t, where P is power measured in watts(W), E is energy measured in joules(J),
+	# and t is time measured in seconds(s). This means that performance per watt becomes
+	#        1/t     1/t     1
+	#       ----- = ----- = ---
+	#         P      E/t     E
+	# with unit given by 1 per joule.
+	ppw=`echo "scale=9;1/$avg_en" | bc | awk '{printf "%.9f", $0}'`
+	printf "Gitsource-$1 performance per watt(1/J): $ppw\n" | tee -a $OUTFILE_GIT.result
+	printf "\n" | tee -a $OUTFILE_GIT.result
+
+	driver_name=`echo $(scaling_name)`
+	store_csv_gitsource "$driver_name-$1" "Average" $avg_des_perf $avg_freq $avg_load $avg_time $avg_en $ppw
+}
+
+# $1: base scaling_driver $2: base governor $3: comparison scaling_driver $4: comparison governor
+__calc_comp_gitsource()
+{
+	base=`grep "$1-$2" $OUTFILE_GIT.csv | grep "Average"`
+	comp=`grep "$3-$4" $OUTFILE_GIT.csv | grep "Average"`
+
+	if [ -n "$base" -a -n "$comp" ]; then
+		printf "\n==================================================\n" | tee -a $OUTFILE_GIT.result
+		printf "Gitsource comparison $1-$2 VS $3-$4" | tee -a $OUTFILE_GIT.result
+		printf "\n==================================================\n" | tee -a $OUTFILE_GIT.result
+
+		# get the base values
+		des_perf_base=`echo "$base" | awk '{print $3}' | sed s/,//`
+		freq_base=`echo "$base" | awk '{print $4}' | sed s/,//`
+		load_base=`echo "$base" | awk '{print $5}' | sed s/,//`
+		time_base=`echo "$base" | awk '{print $6}' | sed s/,//`
+		energy_base=`echo "$base" | awk '{print $7}' | sed s/,//`
+		ppw_base=`echo "$base" | awk '{print $8}' | sed s/,//`
+
+		# get the comparison values
+		des_perf_comp=`echo "$comp" | awk '{print $3}' | sed s/,//`
+		freq_comp=`echo "$comp" | awk '{print $4}' | sed s/,//`
+		load_comp=`echo "$comp" | awk '{print $5}' | sed s/,//`
+		time_comp=`echo "$comp" | awk '{print $6}' | sed s/,//`
+		energy_comp=`echo "$comp" | awk '{print $7}' | sed s/,//`
+		ppw_comp=`echo "$comp" | awk '{print $8}' | sed s/,//`
+
+		# compare the base and comp values
+		des_perf_drop=`echo "scale=4;($des_perf_comp-$des_perf_base)*100/$des_perf_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 des perf base: $des_perf_base comprison: $des_perf_comp percent: $des_perf_drop\n" | tee -a $OUTFILE_GIT.result
+
+		freq_drop=`echo "scale=4;($freq_comp-$freq_base)*100/$freq_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 freq base: $freq_base comprison: $freq_comp percent: $freq_drop\n" | tee -a $OUTFILE_GIT.result
+
+		load_drop=`echo "scale=4;($load_comp-$load_base)*100/$load_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 load base: $load_base comprison: $load_comp percent: $load_drop\n" | tee -a $OUTFILE_GIT.result
+
+		time_drop=`echo "scale=4;($time_comp-$time_base)*100/$time_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 time base: $time_base comprison: $time_comp percent: $time_drop\n" | tee -a $OUTFILE_GIT.result
+
+		energy_drop=`echo "scale=4;($energy_comp-$energy_base)*100/$energy_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 energy base: $energy_base comprison: $energy_comp percent: $energy_drop\n" | tee -a $OUTFILE_GIT.result
+
+		ppw_drop=`echo "scale=4;($ppw_comp-$ppw_base)*100/$ppw_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Gitsource-$1 performance per watt base: $ppw_base comprison: $ppw_comp percent: $ppw_drop\n" | tee -a $OUTFILE_GIT.result
+		printf "\n" | tee -a $OUTFILE_GIT.result
+
+		store_csv_gitsource "$1-$2 VS $3-$4" "Comprison(%)" "$des_perf_drop" "$freq_drop" "$load_drop" "$time_drop" "$energy_drop" "$ppw_drop"
+	fi
+}
+
+# calculate the comparison(%)
+calc_comp_gitsource()
+{
+	# acpi-cpufreq-ondemand VS acpi-cpufreq-schedutil
+	__calc_comp_gitsource ${all_scaling_names[0]} ${gitsource_governors[0]} ${all_scaling_names[0]} ${gitsource_governors[1]}
+
+	# amd-pstate-ondemand VS amd-pstate-schedutil
+	__calc_comp_gitsource ${all_scaling_names[1]} ${gitsource_governors[0]} ${all_scaling_names[1]} ${gitsource_governors[1]}
+
+	# acpi-cpufreq-ondemand VS amd-pstate-ondemand
+	__calc_comp_gitsource ${all_scaling_names[0]} ${gitsource_governors[0]} ${all_scaling_names[1]} ${gitsource_governors[0]}
+
+	# acpi-cpufreq-schedutil VS amd-pstate-schedutil
+	__calc_comp_gitsource ${all_scaling_names[0]} ${gitsource_governors[1]} ${all_scaling_names[1]} ${gitsource_governors[1]}
+}
+
+# $1: file_name, $2: title, $3: ylable, $4: column
+plot_png_gitsource()
+{
+	# all_scaling_names[1] all_scaling_names[0] flag
+	#    amd-pstate           acpi-cpufreq
+	#         N                   N             0
+	#         N                   Y             1
+	#         Y                   N             2
+	#         Y                   Y             3
+	ret=`grep -c "${all_scaling_names[1]}" $OUTFILE_GIT.csv`
+	if [ $ret -eq 0 ]; then
+		ret=`grep -c "${all_scaling_names[0]}" $OUTFILE_GIT.csv`
+		if [ $ret -eq 0 ]; then
+			flag=0
+		else
+			flag=1
+		fi
+	else
+		ret=`grep -c "${all_scaling_names[0]}" $OUTFILE_GIT.csv`
+		if [ $ret -eq 0 ]; then
+			flag=2
+		else
+			flag=3
+		fi
+	fi
+
+	gnuplot << EOF
+		set term png
+		set output "$1"
+
+		set title "$2"
+		set xlabel "Test Cycles (round)"
+		set ylabel "$3"
+
+		set grid
+		set style data histogram
+		set style fill solid 0.5 border
+		set boxwidth 0.8
+
+		if ($flag == 1) {
+			plot \
+			"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${gitsource_governors[0]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${gitsource_governors[0]}", \
+			"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${gitsource_governors[1]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${gitsource_governors[1]}"
+		} else {
+			if ($flag == 2) {
+				plot \
+				"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${gitsource_governors[0]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${gitsource_governors[0]}", \
+				"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${gitsource_governors[1]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${gitsource_governors[1]}"
+			} else {
+				if ($flag == 3 ) {
+					plot \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${gitsource_governors[0]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${gitsource_governors[0]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${gitsource_governors[1]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${gitsource_governors[1]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${gitsource_governors[0]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${gitsource_governors[0]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${gitsource_governors[1]}/p' $OUTFILE_GIT.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${gitsource_governors[1]}"
+				}
+			}
+		}
+		quit
+EOF
+}
+
+amd_pstate_gitsource()
+{
+	printf "\n---------------------------------------------\n"
+	printf "*** Running gitsource                     ***"
+	printf "\n---------------------------------------------\n"
+
+	pre_clear_gitsource
+
+	install_gitsource
+
+	get_lines_csv_gitsource "Governor"
+	if [ $? -eq 0 ]; then
+		# add titles and unit for csv file
+		store_csv_gitsource "Governor" "Round" "Des-perf" "Freq" "Load" "Time" "Energy" "Performance Per Watt"
+		store_csv_gitsource "Unit" "" "" "GHz" "" "s" "J" "1/J"
+	fi
+
+	backup_governor
+	for governor in ${gitsource_governors[*]} ; do
+		printf "\nSpecified governor is $governor\n\n"
+		switch_governor $governor
+		loop_gitsource $governor
+		gather_gitsource $governor
+	done
+	restore_governor
+
+	plot_png_gitsource "gitsource_time.png" "Gitsource Benchmark Time" "Time (s)" 6
+	plot_png_gitsource "gitsource_energy.png" "Gitsource Benchmark Energy" "Energy (J)" 7
+	plot_png_gitsource "gitsource_ppw.png" "Gitsource Benchmark Performance Per Watt" "Performance Per Watt (1/J)" 8
+
+	calc_comp_gitsource
+
+	post_clear_gitsource
+}
diff --git a/tools/testing/selftests/amd-pstate/run.sh b/tools/testing/selftests/amd-pstate/run.sh
new file mode 100755
index 0000000000..de4d8e9c95
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/run.sh
@@ -0,0 +1,387 @@
+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+
+# protect against multiple inclusion
+if [ $FILE_MAIN ]; then
+	return 0
+else
+	FILE_MAIN=DONE
+fi
+
+source basic.sh
+source tbench.sh
+source gitsource.sh
+
+# amd-pstate-ut only run on x86/x86_64 AMD systems.
+ARCH=$(uname -m 2>/dev/null | sed -e 's/i.86/x86/' -e 's/x86_64/x86/')
+VENDOR=$(cat /proc/cpuinfo | grep -m 1 'vendor_id' | awk '{print $NF}')
+
+msg="Skip all tests:"
+FUNC=all
+OUTFILE=selftest
+OUTFILE_TBENCH="$OUTFILE.tbench"
+OUTFILE_GIT="$OUTFILE.gitsource"
+
+SYSFS=
+CPUROOT=
+CPUFREQROOT=
+MAKE_CPUS=
+
+TIME_LIMIT=100
+PROCESS_NUM=128
+LOOP_TIMES=3
+TRACER_INTERVAL=10
+CURRENT_TEST=amd-pstate
+COMPARATIVE_TEST=
+
+# Kselftest framework requirement - SKIP code is 4.
+ksft_skip=4
+all_scaling_names=("acpi-cpufreq" "amd-pstate")
+
+# Get current cpufreq scaling driver name
+scaling_name()
+{
+	if [ "$COMPARATIVE_TEST" = "" ]; then
+		echo "$CURRENT_TEST"
+	else
+		echo "$COMPARATIVE_TEST"
+	fi
+}
+
+# Counts CPUs with cpufreq directories
+count_cpus()
+{
+	count=0;
+
+	for cpu in `ls $CPUROOT | grep "cpu[0-9].*"`; do
+		if [ -d $CPUROOT/$cpu/cpufreq ]; then
+			let count=count+1;
+		fi
+	done
+
+	echo $count;
+}
+
+# $1: policy
+find_current_governor()
+{
+	cat $CPUFREQROOT/$1/scaling_governor
+}
+
+backup_governor()
+{
+	policies=$(ls $CPUFREQROOT| grep "policy[0-9].*")
+	for policy in $policies; do
+		cur_gov=$(find_current_governor $policy)
+		echo "$policy $cur_gov" >> $OUTFILE.backup_governor.log
+	done
+
+	printf "Governor $cur_gov backup done.\n"
+}
+
+restore_governor()
+{
+	i=0;
+
+	policies=$(awk '{print $1}' $OUTFILE.backup_governor.log)
+	for policy in $policies; do
+		let i++;
+		governor=$(sed -n ''$i'p' $OUTFILE.backup_governor.log | awk '{print $2}')
+
+		# switch governor
+		echo $governor > $CPUFREQROOT/$policy/scaling_governor
+	done
+
+	printf "Governor restored to $governor.\n"
+}
+
+# $1: governor
+switch_governor()
+{
+	policies=$(ls $CPUFREQROOT| grep "policy[0-9].*")
+	for policy in $policies; do
+		filepath=$CPUFREQROOT/$policy/scaling_available_governors
+
+		# Exit if cpu isn't managed by cpufreq core
+		if [ ! -f $filepath ]; then
+			return;
+		fi
+
+		echo $1 > $CPUFREQROOT/$policy/scaling_governor
+	done
+
+	printf "Switched governor to $1.\n"
+}
+
+# All amd-pstate tests
+amd_pstate_all()
+{
+	printf "\n=============================================\n"
+	printf "***** Running AMD P-state Sanity Tests  *****\n"
+	printf "=============================================\n\n"
+
+	count=$(count_cpus)
+	if [ $count = 0 ]; then
+		printf "No cpu is managed by cpufreq core, exiting\n"
+		exit;
+	else
+		printf "AMD P-state manages: $count CPUs\n"
+	fi
+
+	# unit test for amd-pstate kernel driver
+	amd_pstate_basic
+
+	# tbench
+	amd_pstate_tbench
+
+	# gitsource
+	amd_pstate_gitsource
+}
+
+help()
+{
+	printf "Usage: $0 [OPTION...]
+	[-h <help>]
+	[-o <output-file-for-dump>]
+	[-c <all: All testing,
+	     basic: Basic testing,
+	     tbench: Tbench testing,
+	     gitsource: Gitsource testing.>]
+	[-t <tbench time limit>]
+	[-p <tbench process number>]
+	[-l <loop times for tbench>]
+	[-i <amd tracer interval>]
+	[-m <comparative test: acpi-cpufreq>]
+	\n"
+	exit 2
+}
+
+parse_arguments()
+{
+	while getopts ho:c:t:p:l:i:m: arg
+	do
+		case $arg in
+			h) # --help
+				help
+				;;
+
+			c) # --func_type (Function to perform: basic, tbench, gitsource (default: all))
+				FUNC=$OPTARG
+				;;
+
+			o) # --output-file (Output file to store dumps)
+				OUTFILE=$OPTARG
+				;;
+
+			t) # --tbench-time-limit
+				TIME_LIMIT=$OPTARG
+				;;
+
+			p) # --tbench-process-number
+				PROCESS_NUM=$OPTARG
+				;;
+
+			l) # --tbench/gitsource-loop-times
+				LOOP_TIMES=$OPTARG
+				;;
+
+			i) # --amd-tracer-interval
+				TRACER_INTERVAL=$OPTARG
+				;;
+
+			m) # --comparative-test
+				COMPARATIVE_TEST=$OPTARG
+				;;
+
+			*)
+				help
+				;;
+		esac
+	done
+}
+
+command_perf()
+{
+	if ! command -v perf > /dev/null; then
+		echo $msg please install perf. >&2
+		exit $ksft_skip
+	fi
+}
+
+command_tbench()
+{
+	if ! command -v tbench > /dev/null; then
+		if apt policy dbench > /dev/null 2>&1; then
+			echo $msg apt install dbench >&2
+			exit $ksft_skip
+		elif yum list available | grep dbench > /dev/null 2>&1; then
+			echo $msg yum install dbench >&2
+			exit $ksft_skip
+		fi
+	fi
+
+	if ! command -v tbench > /dev/null; then
+		echo $msg please install tbench. >&2
+		exit $ksft_skip
+	fi
+}
+
+prerequisite()
+{
+	if ! echo "$ARCH" | grep -q x86; then
+		echo "$0 # Skipped: Test can only run on x86 architectures."
+		exit $ksft_skip
+	fi
+
+	if ! echo "$VENDOR" | grep -iq amd; then
+		echo "$0 # Skipped: Test can only run on AMD CPU."
+		echo "$0 # Current cpu vendor is $VENDOR."
+		exit $ksft_skip
+	fi
+
+	scaling_driver=$(cat /sys/devices/system/cpu/cpufreq/policy0/scaling_driver)
+	if [ "$COMPARATIVE_TEST" = "" ]; then
+		if [ "$scaling_driver" != "$CURRENT_TEST" ]; then
+			echo "$0 # Skipped: Test can only run on $CURRENT_TEST driver or run comparative test."
+			echo "$0 # Please set X86_AMD_PSTATE enabled or run comparative test."
+			echo "$0 # Current cpufreq scaling driver is $scaling_driver."
+			exit $ksft_skip
+		fi
+	else
+		case "$FUNC" in
+			"tbench" | "gitsource")
+				if [ "$scaling_driver" != "$COMPARATIVE_TEST" ]; then
+					echo "$0 # Skipped: Comparison test can only run on $COMPARISON_TEST driver."
+					echo "$0 # Current cpufreq scaling driver is $scaling_driver."
+					exit $ksft_skip
+				fi
+				;;
+
+			*)
+				echo "$0 # Skipped: Comparison test are only for tbench or gitsource."
+				echo "$0 # Current comparative test is for $FUNC."
+				exit $ksft_skip
+				;;
+		esac
+	fi
+
+	if [ ! -w /dev ]; then
+		echo $msg please run this as root >&2
+		exit $ksft_skip
+	fi
+
+	case "$FUNC" in
+		"all")
+			command_perf
+			command_tbench
+			;;
+
+		"tbench")
+			command_perf
+			command_tbench
+			;;
+
+		"gitsource")
+			command_perf
+			;;
+	esac
+
+	SYSFS=`mount -t sysfs | head -1 | awk '{ print $3 }'`
+
+	if [ ! -d "$SYSFS" ]; then
+		echo $msg sysfs is not mounted >&2
+		exit 2
+	fi
+
+	CPUROOT=$SYSFS/devices/system/cpu
+	CPUFREQROOT="$CPUROOT/cpufreq"
+
+	if ! ls $CPUROOT/cpu* > /dev/null 2>&1; then
+		echo $msg cpus not available in sysfs >&2
+		exit 2
+	fi
+
+	if ! ls $CPUROOT/cpufreq > /dev/null 2>&1; then
+		echo $msg cpufreq directory not available in sysfs >&2
+		exit 2
+	fi
+}
+
+do_test()
+{
+	# Check if CPUs are managed by cpufreq or not
+	count=$(count_cpus)
+	MAKE_CPUS=$((count*2))
+
+	if [ $count = 0 ]; then
+		echo "No cpu is managed by cpufreq core, exiting"
+		exit 2;
+	fi
+
+	case "$FUNC" in
+		"all")
+			amd_pstate_all
+			;;
+
+		"basic")
+			amd_pstate_basic
+			;;
+
+		"tbench")
+			amd_pstate_tbench
+			;;
+
+		"gitsource")
+			amd_pstate_gitsource
+			;;
+
+		*)
+			echo "Invalid [-f] function type"
+			help
+			;;
+	esac
+}
+
+# clear dumps
+pre_clear_dumps()
+{
+	case "$FUNC" in
+		"all")
+			rm -rf $OUTFILE.log
+			rm -rf $OUTFILE.backup_governor.log
+			rm -rf *.png
+			;;
+
+		"tbench")
+			rm -rf $OUTFILE.log
+			rm -rf $OUTFILE.backup_governor.log
+			rm -rf tbench_*.png
+			;;
+
+		"gitsource")
+			rm -rf $OUTFILE.log
+			rm -rf $OUTFILE.backup_governor.log
+			rm -rf gitsource_*.png
+			;;
+
+		*)
+			;;
+	esac
+}
+
+post_clear_dumps()
+{
+	rm -rf $OUTFILE.log
+	rm -rf $OUTFILE.backup_governor.log
+}
+
+# Parse arguments
+parse_arguments $@
+
+# Make sure all requirements are met
+prerequisite
+
+# Run requested functions
+pre_clear_dumps
+do_test | tee -a $OUTFILE.log
+post_clear_dumps
diff --git a/tools/testing/selftests/amd-pstate/tbench.sh b/tools/testing/selftests/amd-pstate/tbench.sh
new file mode 100755
index 0000000000..49c9850341
--- /dev/null
+++ b/tools/testing/selftests/amd-pstate/tbench.sh
@@ -0,0 +1,339 @@
+#!/bin/sh
+# SPDX-License-Identifier: GPL-2.0
+
+# Testing and monitor the cpu desire performance, frequency, load,
+# power consumption and throughput etc.when this script trigger tbench
+# test cases.
+# 1) Run tbench benchmark on specific governors, ondemand or schedutil.
+# 2) Run tbench benchmark comparative test on acpi-cpufreq kernel driver.
+# 3) Get desire performance, frequency, load by perf.
+# 4) Get power consumption and throughput by amd_pstate_trace.py.
+# 5) Analyse test results and save it in file selftest.tbench.csv.
+# 6) Plot png images about performance, energy and performance per watt for each test.
+
+# protect against multiple inclusion
+if [ $FILE_TBENCH ]; then
+	return 0
+else
+	FILE_TBENCH=DONE
+fi
+
+tbench_governors=("ondemand" "schedutil")
+
+# $1: governor, $2: round, $3: des-perf, $4: freq, $5: load, $6: performance, $7: energy, $8: performance per watt
+store_csv_tbench()
+{
+	echo "$1, $2, $3, $4, $5, $6, $7, $8" | tee -a $OUTFILE_TBENCH.csv > /dev/null 2>&1
+}
+
+# clear some special lines
+clear_csv_tbench()
+{
+	if [ -f $OUTFILE_TBENCH.csv ]; then
+		sed -i '/Comprison(%)/d' $OUTFILE_TBENCH.csv
+		sed -i "/$(scaling_name)/d" $OUTFILE_TBENCH.csv
+	fi
+}
+
+# find string $1 in file csv and get the number of lines
+get_lines_csv_tbench()
+{
+	if [ -f $OUTFILE_TBENCH.csv ]; then
+		return `grep -c "$1" $OUTFILE_TBENCH.csv`
+	else
+		return 0
+	fi
+}
+
+pre_clear_tbench()
+{
+	post_clear_tbench
+	rm -rf tbench_*.png
+	clear_csv_tbench
+}
+
+post_clear_tbench()
+{
+	rm -rf results/tracer-tbench*
+	rm -rf $OUTFILE_TBENCH*.log
+	rm -rf $OUTFILE_TBENCH*.result
+
+}
+
+# $1: governor, $2: loop
+run_tbench()
+{
+	echo "Launching amd pstate tracer for $1 #$2 tracer_interval: $TRACER_INTERVAL"
+	./amd_pstate_trace.py -n tracer-tbench-$1-$2 -i $TRACER_INTERVAL > /dev/null 2>&1 &
+
+	printf "Test tbench for $1 #$2 time_limit: $TIME_LIMIT procs_num: $PROCESS_NUM\n"
+	tbench_srv > /dev/null 2>&1 &
+	perf stat -a --per-socket -I 1000 -e power/energy-pkg/ tbench -t $TIME_LIMIT $PROCESS_NUM > $OUTFILE_TBENCH-perf-$1-$2.log 2>&1
+
+	pid=`pidof tbench_srv`
+	kill $pid
+
+	for job in `jobs -p`
+	do
+		echo "Waiting for job id $job"
+		wait $job
+	done
+}
+
+# $1: governor, $2: loop
+parse_tbench()
+{
+	awk '{print $5}' results/tracer-tbench-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_TBENCH-des-perf-$1-$2.log
+	avg_des_perf=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_TBENCH-des-perf-$1-$2.log)
+	printf "Tbench-$1-#$2 avg des perf: $avg_des_perf\n" | tee -a $OUTFILE_TBENCH.result
+
+	awk '{print $7}' results/tracer-tbench-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_TBENCH-freq-$1-$2.log
+	avg_freq=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_TBENCH-freq-$1-$2.log)
+	printf "Tbench-$1-#$2 avg freq: $avg_freq\n" | tee -a $OUTFILE_TBENCH.result
+
+	awk '{print $11}' results/tracer-tbench-$1-$2/cpu.csv | sed -e '1d' | sed s/,// > $OUTFILE_TBENCH-load-$1-$2.log
+	avg_load=$(awk 'BEGIN {i=0; sum=0};{i++; sum += $1};END {print sum/i}' $OUTFILE_TBENCH-load-$1-$2.log)
+	printf "Tbench-$1-#$2 avg load: $avg_load\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep Throughput $OUTFILE_TBENCH-perf-$1-$2.log | awk '{print $2}' > $OUTFILE_TBENCH-throughput-$1-$2.log
+	tp_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_TBENCH-throughput-$1-$2.log)
+	printf "Tbench-$1-#$2 throughput(MB/s): $tp_sum\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep Joules $OUTFILE_TBENCH-perf-$1-$2.log | awk '{print $4}' > $OUTFILE_TBENCH-energy-$1-$2.log
+	en_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_TBENCH-energy-$1-$2.log)
+	printf "Tbench-$1-#$2 power consumption(J): $en_sum\n" | tee -a $OUTFILE_TBENCH.result
+
+	# Permance is throughput per second, denoted T/t, where T is throught rendered in t seconds.
+	# It is well known that P=E/t, where P is power measured in watts(W), E is energy measured in joules(J),
+	# and t is time measured in seconds(s). This means that performance per watt becomes
+	#       T/t   T/t    T
+	#       --- = --- = ---
+	#        P    E/t    E
+	# with unit given by MB per joule.
+	ppw=`echo "scale=4;($TIME_LIMIT-1)*$tp_sum/$en_sum" | bc | awk '{printf "%.4f", $0}'`
+	printf "Tbench-$1-#$2 performance per watt(MB/J): $ppw\n" | tee -a $OUTFILE_TBENCH.result
+	printf "\n" | tee -a $OUTFILE_TBENCH.result
+
+	driver_name=`echo $(scaling_name)`
+	store_csv_tbench "$driver_name-$1" $2 $avg_des_perf $avg_freq $avg_load $tp_sum $en_sum $ppw
+}
+
+# $1: governor
+loop_tbench()
+{
+	printf "\nTbench total test times is $LOOP_TIMES for $1\n\n"
+	for i in `seq 1 $LOOP_TIMES`
+	do
+		run_tbench $1 $i
+		parse_tbench $1 $i
+	done
+}
+
+# $1: governor
+gather_tbench()
+{
+	printf "Tbench test result for $1 (loops:$LOOP_TIMES)" | tee -a $OUTFILE_TBENCH.result
+	printf "\n--------------------------------------------------\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep "Tbench-$1-#" $OUTFILE_TBENCH.result | grep "avg des perf:" | awk '{print $NF}' > $OUTFILE_TBENCH-des-perf-$1.log
+	avg_des_perf=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_TBENCH-des-perf-$1.log)
+	printf "Tbench-$1 avg des perf: $avg_des_perf\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep "Tbench-$1-#" $OUTFILE_TBENCH.result | grep "avg freq:" | awk '{print $NF}' > $OUTFILE_TBENCH-freq-$1.log
+	avg_freq=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_TBENCH-freq-$1.log)
+	printf "Tbench-$1 avg freq: $avg_freq\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep "Tbench-$1-#" $OUTFILE_TBENCH.result | grep "avg load:" | awk '{print $NF}' > $OUTFILE_TBENCH-load-$1.log
+	avg_load=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_TBENCH-load-$1.log)
+	printf "Tbench-$1 avg load: $avg_load\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep "Tbench-$1-#" $OUTFILE_TBENCH.result | grep "throughput(MB/s):" | awk '{print $NF}' > $OUTFILE_TBENCH-throughput-$1.log
+	tp_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_TBENCH-throughput-$1.log)
+	printf "Tbench-$1 total throughput(MB/s): $tp_sum\n" | tee -a $OUTFILE_TBENCH.result
+
+	avg_tp=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_TBENCH-throughput-$1.log)
+	printf "Tbench-$1 avg throughput(MB/s): $avg_tp\n" | tee -a $OUTFILE_TBENCH.result
+
+	grep "Tbench-$1-#" $OUTFILE_TBENCH.result | grep "power consumption(J):" | awk '{print $NF}' > $OUTFILE_TBENCH-energy-$1.log
+	en_sum=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum}' $OUTFILE_TBENCH-energy-$1.log)
+	printf "Tbench-$1 total power consumption(J): $en_sum\n" | tee -a $OUTFILE_TBENCH.result
+
+	avg_en=$(awk 'BEGIN {sum=0};{sum += $1};END {print sum/'$LOOP_TIMES'}' $OUTFILE_TBENCH-energy-$1.log)
+	printf "Tbench-$1 avg power consumption(J): $avg_en\n" | tee -a $OUTFILE_TBENCH.result
+
+	# Permance is throughput per second, denoted T/t, where T is throught rendered in t seconds.
+	# It is well known that P=E/t, where P is power measured in watts(W), E is energy measured in joules(J),
+	# and t is time measured in seconds(s). This means that performance per watt becomes
+	#       T/t   T/t    T
+	#       --- = --- = ---
+	#        P    E/t    E
+	# with unit given by MB per joule.
+	ppw=`echo "scale=4;($TIME_LIMIT-1)*$avg_tp/$avg_en" | bc | awk '{printf "%.4f", $0}'`
+	printf "Tbench-$1 performance per watt(MB/J): $ppw\n" | tee -a $OUTFILE_TBENCH.result
+	printf "\n" | tee -a $OUTFILE_TBENCH.result
+
+	driver_name=`echo $(scaling_name)`
+	store_csv_tbench "$driver_name-$1" "Average" $avg_des_perf $avg_freq $avg_load $avg_tp $avg_en $ppw
+}
+
+# $1: base scaling_driver $2: base governor $3: comparative scaling_driver $4: comparative governor
+__calc_comp_tbench()
+{
+	base=`grep "$1-$2" $OUTFILE_TBENCH.csv | grep "Average"`
+	comp=`grep "$3-$4" $OUTFILE_TBENCH.csv | grep "Average"`
+
+	if [ -n "$base" -a -n "$comp" ]; then
+		printf "\n==================================================\n" | tee -a $OUTFILE_TBENCH.result
+		printf "Tbench comparison $1-$2 VS $3-$4" | tee -a $OUTFILE_TBENCH.result
+		printf "\n==================================================\n" | tee -a $OUTFILE_TBENCH.result
+
+		# get the base values
+		des_perf_base=`echo "$base" | awk '{print $3}' | sed s/,//`
+		freq_base=`echo "$base" | awk '{print $4}' | sed s/,//`
+		load_base=`echo "$base" | awk '{print $5}' | sed s/,//`
+		perf_base=`echo "$base" | awk '{print $6}' | sed s/,//`
+		energy_base=`echo "$base" | awk '{print $7}' | sed s/,//`
+		ppw_base=`echo "$base" | awk '{print $8}' | sed s/,//`
+
+		# get the comparative values
+		des_perf_comp=`echo "$comp" | awk '{print $3}' | sed s/,//`
+		freq_comp=`echo "$comp" | awk '{print $4}' | sed s/,//`
+		load_comp=`echo "$comp" | awk '{print $5}' | sed s/,//`
+		perf_comp=`echo "$comp" | awk '{print $6}' | sed s/,//`
+		energy_comp=`echo "$comp" | awk '{print $7}' | sed s/,//`
+		ppw_comp=`echo "$comp" | awk '{print $8}' | sed s/,//`
+
+		# compare the base and comp values
+		des_perf_drop=`echo "scale=4;($des_perf_comp-$des_perf_base)*100/$des_perf_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 des perf base: $des_perf_base comprison: $des_perf_comp percent: $des_perf_drop\n" | tee -a $OUTFILE_TBENCH.result
+
+		freq_drop=`echo "scale=4;($freq_comp-$freq_base)*100/$freq_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 freq base: $freq_base comprison: $freq_comp percent: $freq_drop\n" | tee -a $OUTFILE_TBENCH.result
+
+		load_drop=`echo "scale=4;($load_comp-$load_base)*100/$load_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 load base: $load_base comprison: $load_comp percent: $load_drop\n" | tee -a $OUTFILE_TBENCH.result
+
+		perf_drop=`echo "scale=4;($perf_comp-$perf_base)*100/$perf_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 perf base: $perf_base comprison: $perf_comp percent: $perf_drop\n" | tee -a $OUTFILE_TBENCH.result
+
+		energy_drop=`echo "scale=4;($energy_comp-$energy_base)*100/$energy_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 energy base: $energy_base comprison: $energy_comp percent: $energy_drop\n" | tee -a $OUTFILE_TBENCH.result
+
+		ppw_drop=`echo "scale=4;($ppw_comp-$ppw_base)*100/$ppw_base" | bc | awk '{printf "%.4f", $0}'`
+		printf "Tbench-$1 performance per watt base: $ppw_base comprison: $ppw_comp percent: $ppw_drop\n" | tee -a $OUTFILE_TBENCH.result
+		printf "\n" | tee -a $OUTFILE_TBENCH.result
+
+		store_csv_tbench "$1-$2 VS $3-$4" "Comprison(%)" "$des_perf_drop" "$freq_drop" "$load_drop" "$perf_drop" "$energy_drop" "$ppw_drop"
+	fi
+}
+
+# calculate the comparison(%)
+calc_comp_tbench()
+{
+	# acpi-cpufreq-ondemand VS acpi-cpufreq-schedutil
+	__calc_comp_tbench ${all_scaling_names[0]} ${tbench_governors[0]} ${all_scaling_names[0]} ${tbench_governors[1]}
+
+	# amd-pstate-ondemand VS amd-pstate-schedutil
+	__calc_comp_tbench ${all_scaling_names[1]} ${tbench_governors[0]} ${all_scaling_names[1]} ${tbench_governors[1]}
+
+	# acpi-cpufreq-ondemand VS amd-pstate-ondemand
+	__calc_comp_tbench ${all_scaling_names[0]} ${tbench_governors[0]} ${all_scaling_names[1]} ${tbench_governors[0]}
+
+	# acpi-cpufreq-schedutil VS amd-pstate-schedutil
+	__calc_comp_tbench ${all_scaling_names[0]} ${tbench_governors[1]} ${all_scaling_names[1]} ${tbench_governors[1]}
+}
+
+# $1: file_name, $2: title, $3: ylable, $4: column
+plot_png_tbench()
+{
+	# all_scaling_names[1] all_scaling_names[0] flag
+	#    amd-pstate           acpi-cpufreq
+	#         N                   N             0
+	#         N                   Y             1
+	#         Y                   N             2
+	#         Y                   Y             3
+	ret=`grep -c "${all_scaling_names[1]}" $OUTFILE_TBENCH.csv`
+	if [ $ret -eq 0 ]; then
+		ret=`grep -c "${all_scaling_names[0]}" $OUTFILE_TBENCH.csv`
+		if [ $ret -eq 0 ]; then
+			flag=0
+		else
+			flag=1
+		fi
+	else
+		ret=`grep -c "${all_scaling_names[0]}" $OUTFILE_TBENCH.csv`
+		if [ $ret -eq 0 ]; then
+			flag=2
+		else
+			flag=3
+		fi
+	fi
+
+	gnuplot << EOF
+		set term png
+		set output "$1"
+
+		set title "$2"
+		set xlabel "Test Cycles (round)"
+		set ylabel "$3"
+
+		set grid
+		set style data histogram
+		set style fill solid 0.5 border
+		set boxwidth 0.8
+
+		if ($flag == 1) {
+			plot \
+			"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${tbench_governors[0]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${tbench_governors[0]}", \
+			"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${tbench_governors[1]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${tbench_governors[1]}"
+		} else {
+			if ($flag == 2) {
+				plot \
+				"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${tbench_governors[0]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${tbench_governors[0]}", \
+				"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${tbench_governors[1]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${tbench_governors[1]}"
+			} else {
+				if ($flag == 3 ) {
+					plot \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${tbench_governors[0]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${tbench_governors[0]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[0]}-${tbench_governors[1]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[0]}-${tbench_governors[1]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${tbench_governors[0]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${tbench_governors[0]}", \
+					"<(sed -n -e 's/,//g' -e '/${all_scaling_names[1]}-${tbench_governors[1]}/p' $OUTFILE_TBENCH.csv)" using $4:xtic(2) title "${all_scaling_names[1]}-${tbench_governors[1]}"
+				}
+			}
+		}
+		quit
+EOF
+}
+
+amd_pstate_tbench()
+{
+	printf "\n---------------------------------------------\n"
+	printf "*** Running tbench                        ***"
+	printf "\n---------------------------------------------\n"
+
+	pre_clear_tbench
+
+	get_lines_csv_tbench "Governor"
+	if [ $? -eq 0 ]; then
+		# add titles and unit for csv file
+		store_csv_tbench "Governor" "Round" "Des-perf" "Freq" "Load" "Performance" "Energy" "Performance Per Watt"
+		store_csv_tbench "Unit" "" "" "GHz" "" "MB/s" "J" "MB/J"
+	fi
+
+	backup_governor
+	for governor in ${tbench_governors[*]} ; do
+		printf "\nSpecified governor is $governor\n\n"
+		switch_governor $governor
+		loop_tbench $governor
+		gather_tbench $governor
+	done
+	restore_governor
+
+	plot_png_tbench "tbench_perfromance.png" "Tbench Benchmark Performance" "Performance" 6
+	plot_png_tbench "tbench_energy.png" "Tbench Benchmark Energy" "Energy (J)" 7
+	plot_png_tbench "tbench_ppw.png" "Tbench Benchmark Performance Per Watt" "Performance Per Watt (MB/J)" 8
+
+	calc_comp_tbench
+
+	post_clear_tbench
+}