提交 e66d5b67 编写于 作者: V Viresh Kumar 提交者: Shuah Khan

selftest: cpufreq: Add support for cpufreq tests

This patch adds supports for basic cpufreq tests, which can be performed
independent of any platform.

It does basic tests for now, like
- reading all cpufreq files
- trying to update them
- switching frequencies
- switching governors

This can be extended to have more specific tests later on.
Signed-off-by: NViresh Kumar <viresh.kumar@linaro.org>
Signed-off-by: NShuah Khan <shuahkh@osg.samsung.com>
上级 6320303f
TARGETS = bpf
TARGETS += breakpoints
TARGETS += capabilities
TARGETS += cpufreq
TARGETS += cpu-hotplug
TARGETS += efivarfs
TARGETS += exec
......
all:
TEST_PROGS := main.sh
TEST_FILES := cpu.sh cpufreq.sh governor.sh
include ../lib.mk
clean:
#!/bin/bash
#
# CPU helpers
# protect against multiple inclusion
if [ $FILE_CPU ]; then
return 0
else
FILE_CPU=DONE
fi
source cpufreq.sh
for_each_cpu()
{
cpus=$(ls $CPUROOT | grep "cpu[0-9].*")
for cpu in $cpus; do
$@ $cpu
done
}
for_each_non_boot_cpu()
{
cpus=$(ls $CPUROOT | grep "cpu[1-9].*")
for cpu in $cpus; do
$@ $cpu
done
}
#$1: cpu
offline_cpu()
{
printf "Offline $1\n"
echo 0 > $CPUROOT/$1/online
}
#$1: cpu
online_cpu()
{
printf "Online $1\n"
echo 1 > $CPUROOT/$1/online
}
#$1: cpu
reboot_cpu()
{
offline_cpu $1
online_cpu $1
}
# Reboot CPUs
# param: number of times we want to run the loop
reboot_cpus()
{
printf "** Test: Running ${FUNCNAME[0]} for $1 loops **\n\n"
for i in `seq 1 $1`; do
for_each_non_boot_cpu offline_cpu
for_each_non_boot_cpu online_cpu
printf "\n"
done
printf "\n%s\n\n" "------------------------------------------------"
}
# Prints warning for all CPUs with missing cpufreq directory
print_unmanaged_cpus()
{
for_each_cpu cpu_should_have_cpufreq_directory
}
# Counts CPUs with cpufreq directories
count_cpufreq_managed_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;
}
#!/bin/bash
# protect against multiple inclusion
if [ $FILE_CPUFREQ ]; then
return 0
else
FILE_CPUFREQ=DONE
fi
source cpu.sh
# $1: cpu
cpu_should_have_cpufreq_directory()
{
if [ ! -d $CPUROOT/$1/cpufreq ]; then
printf "Warning: No cpufreq directory present for $1\n"
fi
}
cpu_should_not_have_cpufreq_directory()
{
if [ -d $CPUROOT/$1/cpufreq ]; then
printf "Warning: cpufreq directory present for $1\n"
fi
}
for_each_policy()
{
policies=$(ls $CPUFREQROOT| grep "policy[0-9].*")
for policy in $policies; do
$@ $policy
done
}
for_each_policy_concurrent()
{
policies=$(ls $CPUFREQROOT| grep "policy[0-9].*")
for policy in $policies; do
$@ $policy &
done
}
# $1: Path
read_cpufreq_files_in_dir()
{
local files=`ls $1`
printf "Printing directory: $1\n\n"
for file in $files; do
if [ -f $1/$file ]; then
printf "$file:"
cat $1/$file
else
printf "\n"
read_cpufreq_files_in_dir "$1/$file"
fi
done
printf "\n"
}
read_all_cpufreq_files()
{
printf "** Test: Running ${FUNCNAME[0]} **\n\n"
read_cpufreq_files_in_dir $CPUFREQROOT
printf "%s\n\n" "------------------------------------------------"
}
# UPDATE CPUFREQ FILES
# $1: directory path
update_cpufreq_files_in_dir()
{
local files=`ls $1`
printf "Updating directory: $1\n\n"
for file in $files; do
if [ -f $1/$file ]; then
# file is writable ?
local wfile=$(ls -l $1/$file | awk '$1 ~ /^.*w.*/ { print $NF; }')
if [ ! -z $wfile ]; then
# scaling_setspeed is a special file and we
# should skip updating it
if [ $file != "scaling_setspeed" ]; then
local val=$(cat $1/$file)
printf "Writing $val to: $file\n"
echo $val > $1/$file
fi
fi
else
printf "\n"
update_cpufreq_files_in_dir "$1/$file"
fi
done
printf "\n"
}
# Update all writable files with their existing values
update_all_cpufreq_files()
{
printf "** Test: Running ${FUNCNAME[0]} **\n\n"
update_cpufreq_files_in_dir $CPUFREQROOT
printf "%s\n\n" "------------------------------------------------"
}
# CHANGE CPU FREQUENCIES
# $1: policy
find_current_freq()
{
cat $CPUFREQROOT/$1/scaling_cur_freq
}
# $1: policy
# $2: frequency
set_cpu_frequency()
{
printf "Change frequency for $1 to $2\n"
echo $2 > $CPUFREQROOT/$1/scaling_setspeed
}
# $1: policy
test_all_frequencies()
{
local filepath="$CPUFREQROOT/$1"
backup_governor $1
local found=$(switch_governor $1 "userspace")
if [ $found = 1 ]; then
printf "${FUNCNAME[0]}: userspace governor not available for: $1\n"
return;
fi
printf "Switched governor for $1 to userspace\n\n"
local freqs=$(cat $filepath/scaling_available_frequencies)
printf "Available frequencies for $1: $freqs\n\n"
# Set all frequencies one-by-one
for freq in $freqs; do
set_cpu_frequency $1 $freq
done
printf "\n"
restore_governor $1
}
# $1: loop count
shuffle_frequency_for_all_cpus()
{
printf "** Test: Running ${FUNCNAME[0]} for $1 loops **\n\n"
for i in `seq 1 $1`; do
for_each_policy test_all_frequencies
done
printf "\n%s\n\n" "------------------------------------------------"
}
# Basic cpufreq tests
cpufreq_basic_tests()
{
printf "*** RUNNING CPUFREQ SANITY TESTS ***\n"
printf "====================================\n\n"
count=$(count_cpufreq_managed_cpus)
if [ $count = 0 ]; then
printf "No cpu is managed by cpufreq core, exiting\n"
exit;
else
printf "CPUFreq manages: $count CPUs\n\n"
fi
# Detect & print which CPUs are not managed by cpufreq
print_unmanaged_cpus
# read/update all cpufreq files
read_all_cpufreq_files
update_all_cpufreq_files
# hotplug cpus
reboot_cpus 5
# Test all frequencies
shuffle_frequency_for_all_cpus 2
# Test all governors
shuffle_governors_for_all_cpus 1
}
#!/bin/bash
#
# Test governors
# protect against multiple inclusion
if [ $FILE_GOVERNOR ]; then
return 0
else
FILE_GOVERNOR=DONE
fi
source cpu.sh
source cpufreq.sh
CUR_GOV=
CUR_FREQ=
# Find governor's directory path
# $1: policy, $2: governor
find_gov_directory()
{
if [ -d $CPUFREQROOT/$2 ]; then
printf "$CPUFREQROOT/$2\n"
elif [ -d $CPUFREQROOT/$1/$2 ]; then
printf "$CPUFREQROOT/$1/$2\n"
else
printf "INVALID\n"
fi
}
# $1: policy
find_current_governor()
{
cat $CPUFREQROOT/$1/scaling_governor
}
# $1: policy
backup_governor()
{
CUR_GOV=$(find_current_governor $1)
printf "Governor backup done for $1: $CUR_GOV\n"
if [ $CUR_GOV == "userspace" ]; then
CUR_FREQ=$(find_current_freq $1)
printf "Governor frequency backup done for $1: $CUR_FREQ\n"
fi
printf "\n"
}
# $1: policy
restore_governor()
{
__switch_governor $1 $CUR_GOV
printf "Governor restored for $1 to $CUR_GOV\n"
if [ $CUR_GOV == "userspace" ]; then
set_cpu_frequency $1 $CUR_FREQ
printf "Governor frequency restored for $1: $CUR_FREQ\n"
fi
printf "\n"
}
# param:
# $1: policy, $2: governor
__switch_governor()
{
echo $2 > $CPUFREQROOT/$1/scaling_governor
}
# SWITCH GOVERNORS
# $1: cpu, $2: governor
switch_governor()
{
local filepath=$CPUFREQROOT/$1/scaling_available_governors
# check if governor is available
local found=$(cat $filepath | grep $2 | wc -l)
if [ $found = 0 ]; then
echo 1;
return
fi
__switch_governor $1 $2
echo 0;
}
# $1: policy, $2: governor
switch_show_governor()
{
cur_gov=find_current_governor
if [ $cur_gov == "userspace" ]; then
cur_freq=find_current_freq
fi
# switch governor
__switch_governor $1 $2
printf "\nSwitched governor for $1 to $2\n\n"
if [ $2 == "userspace" -o $2 == "powersave" -o $2 == "performance" ]; then
printf "No files to read for $2 governor\n\n"
return
fi
# show governor files
local govpath=$(find_gov_directory $1 $2)
read_cpufreq_files_in_dir $govpath
}
# $1: function to be called, $2: policy
call_for_each_governor()
{
local filepath=$CPUFREQROOT/$2/scaling_available_governors
# Exit if cpu isn't managed by cpufreq core
if [ ! -f $filepath ]; then
return;
fi
backup_governor $2
local governors=$(cat $filepath)
printf "Available governors for $2: $governors\n"
for governor in $governors; do
$1 $2 $governor
done
restore_governor $2
}
# $1: loop count
shuffle_governors_for_all_cpus()
{
printf "** Test: Running ${FUNCNAME[0]} for $1 loops **\n\n"
for i in `seq 1 $1`; do
for_each_policy call_for_each_governor switch_show_governor
done
printf "%s\n\n" "------------------------------------------------"
}
#!/bin/bash
source cpu.sh
source cpufreq.sh
source governor.sh
FUNC=basic # do basic tests by default
OUTFILE=cpufreq_selftest
SYSFS=
CPUROOT=
CPUFREQROOT=
helpme()
{
printf "Usage: $0 [-h] [-to args]
[-h <help>]
[-o <output-file-for-dump>]
[-t <basic: Basic cpufreq testing>]
\n"
exit 2
}
prerequisite()
{
msg="skip all tests:"
if [ $UID != 0 ]; then
echo $msg must be run as root >&2
exit 2
fi
taskset -p 01 $$
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
}
parse_arguments()
{
while getopts ht:o: arg
do
case $arg in
h) # --help
helpme
;;
t) # --func_type (Function to perform: basic (default: basic))
FUNC=$OPTARG
;;
o) # --output-file (Output file to store dumps)
OUTFILE=$OPTARG
;;
\?)
helpme
;;
esac
done
}
do_test()
{
# Check if CPUs are managed by cpufreq or not
count=$(count_cpufreq_managed_cpus)
if [ $count = 0 ]; then
echo "No cpu is managed by cpufreq core, exiting"
exit 2;
fi
case "$FUNC" in
"basic")
cpufreq_basic_tests
;;
*)
echo "Invalid [-f] function type"
helpme
;;
esac
}
# clear dumps
# $1: file name
clear_dumps()
{
echo "" > $1.txt
echo "" > $1.dmesg_cpufreq.txt
echo "" > $1.dmesg_full.txt
}
# $1: output file name
dmesg_dumps()
{
dmesg | grep cpufreq >> $1.dmesg_cpufreq.txt
# We may need the full logs as well
dmesg >> $1.dmesg_full.txt
}
# Parse arguments
parse_arguments $@
# Make sure all requirements are met
prerequisite
# Run requested functions
clear_dumps $OUTFILE
do_test >> $OUTFILE.txt
dmesg_dumps $OUTFILE
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