client/site_tests/kernel_Lmbench/kernel_Lmbench.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.


 import logging
 from autotest_lib.client.bin import test, utils


 class kernel_Lmbench(test.test):
     """Run some benchmarks from the lmbench3 suite.

     lmbench is a series of micro benchmarks intended to measure basic operating
     system and hardware system metrics.

     For further details about lmbench refer to:
     http://lmbench.sourceforge.net/man/lmbench.8.html

     This test is copied from from client/tests to avoid depending on make and
     perl. Here we can also tune the individual benchmarks to be more
     deterministic using taskset, nice, etc.

     Example benchmark runs and outputs on a Lumpy device:
     ./lat_pagefault -N 100 -W 10000 /usr/local/zeros 2>&1
     Pagefaults on /usr/local/zeros: 1.5215 microseconds

     ./lat_syscall -N 100 -W 10000 null 2>&1
     Simple syscall: 0.1052 microseconds

     ./lat_syscall -N 100 -W 10000 read /usr/local/zeros 2>&1
     Simple read: 0.2422 microseconds

     ./lat_syscall -N 100 -W 10000 write /usr/local/zeros 2>&1
     Simple write: 0.2036 microseconds

     ./lat_proc -N 100 -W 10000 fork 2>&1
     Process fork+exit: 250.9048 microseconds

     ./lat_proc -N 100 -W 10000 exec 2>&1
     Process fork+execve: 270.8000 microseconds

     ./lat_mmap -N 100 -W 10000 128M /usr/local/zeros 2>&1
     134.217728 1644

     ./lat_mmap -P 2 -W 10000 128M /usr/local/zeros 2>&1
     134.217728 2932

     ./lat_pipe -N 100 -W 10000 2>&1
     Pipe latency: 14.3242 microseconds

     taskset 0x1 nice -20 ./lat_ctx -s 0 -W 10000  8 2>&1
     "size=0k ovr=1.09
     8 1.80
     """

     version = 1

     def _run_benchmarks(self):
         """Run the benchmarks.

         For details and output format refer to individual benchmark man pages:
         http://lmbench.sourceforge.net/man/

         To improve determinism, we sometimes use taskset to pin to a CPU and
         nice.
         """

         benchmarks = [
             ('lat_pagefault',
              'lat_pagefault -N %(N)d -W %(W)d %(fname)s 2>&1'),
             ('lat_syscall_null',
              'lat_syscall -N %(N)d -W %(W)d null 2>&1'),
             ('lat_syscall_read',
              'lat_syscall -N %(N)d -W %(W)d read %(fname)s 2>&1'),
             ('lat_syscall_write',
              'lat_syscall -N %(N)d -W %(W)d write %(fname)s 2>&1'),
             ('lat_proc_fork',
              'lat_proc -N %(N)d -W %(W)d fork 2>&1'),
             ('lat_proc_exec',
              'lat_proc -N %(N)d -W %(W)d exec 2>&1'),
             ('lat_mmap',
              ('lat_mmap -N %(N)d -W %(W)d '
               '%(fsize)dM %(fname)s 2>&1')),
             ('lat_mmap_P2',
              'lat_mmap -P 2 -W %(W)d %(fsize)dM %(fname)s 2>&1'),
             ('lat_pipe',
              'lat_pipe -N %(N)d -W %(W)d 2>&1'),
             ('lat_ctx_s0',
              ('taskset 0x1 nice -20 '
               'lat_ctx -s 0 -W %(W)d  %(procs)d 2>&1'))
         ]

         keyvals = {}

         # Create a file with <fsize> MB of zeros in /usr/local
         cmd = 'dd if=/dev/zero of=%(fname)s bs=1M count=%(fsize)d'
         cmd = cmd % self.lmparams
         utils.system(cmd)

         for (bm, cmd) in benchmarks:
             cmd = cmd % self.lmparams
             logging.info('Running: %s, cmd: %s', bm, cmd)
             out = utils.system_output(cmd)
             logging.info('Output: %s', out)

             # See class doc string for output examples
             lst = out.split()
             idx = -2
             if '_mmap' in bm or '_ctx' in bm:
                 idx = -1
             useconds = float(lst[idx])
             keyvals['us_' + bm] = useconds

         self.lmkeyvals.update(keyvals)


     def initialize(self):
         self.job.require_gcc()
         self.lmkeyvals = {}

         # Common parameters for the benchmarks. More details here:
         # http://lmbench.sourceforge.net/man/lmbench.8.html
         # N - number of repetitions
         # P - parallelism
         # W - warmup time in microseconds
         # fname - file to operate on
         # fsize - size of the above file in MB
         # procs - number of processes for context switch benchmark - lat_ctx
         self.lmparams = {
             'N':100,
             'P':2,
             'fname':'/usr/local/zeros',
             'fsize':128,
             'W':10000,
             'procs':8}

         # Write out the params as kevals now to keep them even if test fails
         param_kvals = [('param_%s' % p,v) for (p,v) in self.lmparams.items()]
         self.write_perf_keyval(dict(param_kvals))

     def run_once(self):
         self._run_benchmarks()
         self.write_perf_keyval(self.lmkeyvals)
	# Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.


	import logging
	from autotest_lib.client.bin import test, utils


	class kernel_Lmbench(test.test):
	"""Run some benchmarks from the lmbench3 suite.

	lmbench is a series of micro benchmarks intended to measure basic operating
	system and hardware system metrics.

	For further details about lmbench refer to:
	http://lmbench.sourceforge.net/man/lmbench.8.html

	This test is copied from from client/tests to avoid depending on make and
	perl. Here we can also tune the individual benchmarks to be more
	deterministic using taskset, nice, etc.

	Example benchmark runs and outputs on a Lumpy device:
	./lat_pagefault -N 100 -W 10000 /usr/local/zeros 2>&1
	Pagefaults on /usr/local/zeros: 1.5215 microseconds

	./lat_syscall -N 100 -W 10000 null 2>&1
	Simple syscall: 0.1052 microseconds

	./lat_syscall -N 100 -W 10000 read /usr/local/zeros 2>&1
	Simple read: 0.2422 microseconds

	./lat_syscall -N 100 -W 10000 write /usr/local/zeros 2>&1
	Simple write: 0.2036 microseconds

	./lat_proc -N 100 -W 10000 fork 2>&1
	Process fork+exit: 250.9048 microseconds

	./lat_proc -N 100 -W 10000 exec 2>&1
	Process fork+execve: 270.8000 microseconds

	./lat_mmap -N 100 -W 10000 128M /usr/local/zeros 2>&1
	134.217728 1644

	./lat_mmap -P 2 -W 10000 128M /usr/local/zeros 2>&1
	134.217728 2932

	./lat_pipe -N 100 -W 10000 2>&1
	Pipe latency: 14.3242 microseconds

	taskset 0x1 nice -20 ./lat_ctx -s 0 -W 10000 8 2>&1
	"size=0k ovr=1.09
	8 1.80
	"""

	version = 1

	def _run_benchmarks(self):
	"""Run the benchmarks.

	For details and output format refer to individual benchmark man pages:
	http://lmbench.sourceforge.net/man/

	To improve determinism, we sometimes use taskset to pin to a CPU and
	nice.
	"""

	benchmarks = [
	('lat_pagefault',
	'lat_pagefault -N %(N)d -W %(W)d %(fname)s 2>&1'),
	('lat_syscall_null',
	'lat_syscall -N %(N)d -W %(W)d null 2>&1'),
	('lat_syscall_read',
	'lat_syscall -N %(N)d -W %(W)d read %(fname)s 2>&1'),
	('lat_syscall_write',
	'lat_syscall -N %(N)d -W %(W)d write %(fname)s 2>&1'),
	('lat_proc_fork',
	'lat_proc -N %(N)d -W %(W)d fork 2>&1'),
	('lat_proc_exec',
	'lat_proc -N %(N)d -W %(W)d exec 2>&1'),
	('lat_mmap',
	('lat_mmap -N %(N)d -W %(W)d '
	'%(fsize)dM %(fname)s 2>&1')),
	('lat_mmap_P2',
	'lat_mmap -P 2 -W %(W)d %(fsize)dM %(fname)s 2>&1'),
	('lat_pipe',
	'lat_pipe -N %(N)d -W %(W)d 2>&1'),
	('lat_ctx_s0',
	('taskset 0x1 nice -20 '
	'lat_ctx -s 0 -W %(W)d %(procs)d 2>&1'))
	]

	keyvals = {}

	# Create a file with <fsize> MB of zeros in /usr/local
	cmd = 'dd if=/dev/zero of=%(fname)s bs=1M count=%(fsize)d'
	cmd = cmd % self.lmparams
	utils.system(cmd)

	for (bm, cmd) in benchmarks:
	cmd = cmd % self.lmparams
	logging.info('Running: %s, cmd: %s', bm, cmd)
	out = utils.system_output(cmd)
	logging.info('Output: %s', out)

	# See class doc string for output examples
	lst = out.split()
	idx = -2
	if '_mmap' in bm or '_ctx' in bm:
	idx = -1
	useconds = float(lst[idx])
	keyvals['us_' + bm] = useconds

	self.lmkeyvals.update(keyvals)


	def initialize(self):
	self.job.require_gcc()
	self.lmkeyvals = {}

	# Common parameters for the benchmarks. More details here:
	# http://lmbench.sourceforge.net/man/lmbench.8.html
	# N - number of repetitions
	# P - parallelism
	# W - warmup time in microseconds
	# fname - file to operate on
	# fsize - size of the above file in MB
	# procs - number of processes for context switch benchmark - lat_ctx
	self.lmparams = {
	'N':100,
	'P':2,
	'fname':'/usr/local/zeros',
	'fsize':128,
	'W':10000,
	'procs':8}

	# Write out the params as kevals now to keep them even if test fails
	param_kvals = [('param_%s' % p,v) for (p,v) in self.lmparams.items()]
	self.write_perf_keyval(dict(param_kvals))

	def run_once(self):
	self._run_benchmarks()
	self.write_perf_keyval(self.lmkeyvals)