tools/testing/selftests/damon/damos_apply_interval.py - linux - Git at Google

 #!/usr/bin/env python3
 # SPDX-License-Identifier: GPL-2.0

 import subprocess
 import time

 import _damon_sysfs

 def main():
     # access two 10 MiB memory regions, 2 second per each
     sz_region = 10 * 1024 * 1024
     proc = subprocess.Popen(['./access_memory', '2', '%d' % sz_region, '2000'])

     # Set quota up to 1 MiB per 100 ms
     kdamonds = _damon_sysfs.Kdamonds([_damon_sysfs.Kdamond(
             contexts=[_damon_sysfs.DamonCtx(
                 ops='vaddr',
                 targets=[_damon_sysfs.DamonTarget(pid=proc.pid)],
                 schemes=[
                     _damon_sysfs.Damos(
                         access_pattern=_damon_sysfs.DamosAccessPattern(
                             # >= 25% access rate, >= 200ms age
                             nr_accesses=[5, 20], age=[2, 2**64 - 1]),
                         # aggregation interval (100 ms) is used
                         apply_interval_us=0),
                     # use 10ms apply interval
                     _damon_sysfs.Damos(
                         access_pattern=_damon_sysfs.DamosAccessPattern(
                             # >= 25% access rate, >= 200ms age
                             nr_accesses=[5, 20], age=[2, 2**64 - 1]),
                         # explicitly set 10 ms apply interval
                         apply_interval_us=10 * 1000)
                     ] # schemes
                 )] # contexts
             )]) # kdamonds

     err = kdamonds.start()
     if err != None:
         print('kdamond start failed: %s' % err)
         exit(1)

     wss_collected = []
     nr_quota_exceeds = 0
     while proc.poll() == None:
         time.sleep(0.1)
         err = kdamonds.kdamonds[0].update_schemes_stats()
         if err != None:
             print('stats update failed: %s' % err)
             exit(1)
     schemes = kdamonds.kdamonds[0].contexts[0].schemes
     nr_tried_stats = [s.stats.nr_tried for s in schemes]
     if nr_tried_stats[0] == 0 or nr_tried_stats[1] == 0:
         print('scheme(s) are not tried')
         exit(1)

     # Because the second scheme was having the apply interval that is ten times
     # lower than that of the first scheme, the second scheme should be tried
     # about ten times more frequently than the first scheme.  For possible
     # timing errors, check if it was at least nine times more freuqnetly tried.
     ratio = nr_tried_stats[1] / nr_tried_stats[0]
     if ratio < 9:
         print('%d / %d = %f (< 9)' %
               (nr_tried_stats[1], nr_tried_stats[0], ratio))
         exit(1)

 if __name__ == '__main__':
     main()
	#!/usr/bin/env python3
	# SPDX-License-Identifier: GPL-2.0

	import subprocess
	import time

	import _damon_sysfs

	def main():
	# access two 10 MiB memory regions, 2 second per each
	sz_region = 10 * 1024 * 1024
	proc = subprocess.Popen(['./access_memory', '2', '%d' % sz_region, '2000'])

	# Set quota up to 1 MiB per 100 ms
	kdamonds = _damon_sysfs.Kdamonds([_damon_sysfs.Kdamond(
	contexts=[_damon_sysfs.DamonCtx(
	ops='vaddr',
	targets=[_damon_sysfs.DamonTarget(pid=proc.pid)],
	schemes=[
	_damon_sysfs.Damos(
	access_pattern=_damon_sysfs.DamosAccessPattern(
	# >= 25% access rate, >= 200ms age
	nr_accesses=[5, 20], age=[2, 2**64 - 1]),
	# aggregation interval (100 ms) is used
	apply_interval_us=0),
	# use 10ms apply interval
	_damon_sysfs.Damos(
	access_pattern=_damon_sysfs.DamosAccessPattern(
	# >= 25% access rate, >= 200ms age
	nr_accesses=[5, 20], age=[2, 2**64 - 1]),
	# explicitly set 10 ms apply interval
	apply_interval_us=10 * 1000)
	] # schemes
	)] # contexts
	)]) # kdamonds

	err = kdamonds.start()
	if err != None:
	print('kdamond start failed: %s' % err)
	exit(1)

	wss_collected = []
	nr_quota_exceeds = 0
	while proc.poll() == None:
	time.sleep(0.1)
	err = kdamonds.kdamonds[0].update_schemes_stats()
	if err != None:
	print('stats update failed: %s' % err)
	exit(1)
	schemes = kdamonds.kdamonds[0].contexts[0].schemes
	nr_tried_stats = [s.stats.nr_tried for s in schemes]
	if nr_tried_stats[0] == 0 or nr_tried_stats[1] == 0:
	print('scheme(s) are not tried')
	exit(1)

	# Because the second scheme was having the apply interval that is ten times
	# lower than that of the first scheme, the second scheme should be tried
	# about ten times more frequently than the first scheme. For possible
	# timing errors, check if it was at least nine times more freuqnetly tried.
	ratio = nr_tried_stats[1] / nr_tried_stats[0]
	if ratio < 9:
	print('%d / %d = %f (< 9)' %
	(nr_tried_stats[1], nr_tried_stats[0], ratio))
	exit(1)

	if __name__ == '__main__':
	main()