# Copyright (c) 2010 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
import os
from autotest_lib.client.bin import test, utils
from autotest_lib.client.common_lib import error
from autotest_lib.client.cros import perf
from autotest_lib.client.cros import service_stopper
from autotest_lib.client.cros.graphics import graphics_utils
class graphics_GLBench(graphics_utils.GraphicsTest):
"""Run glbench, a benchmark that times graphics intensive activities."""
version = 1
preserve_srcdir = True
_services = None
# Good images.
reference_images_file = 'deps/glbench/glbench_reference_images.txt'
# Images that are bad but for which the bug has not been fixed yet.
knownbad_images_file = 'deps/glbench/glbench_knownbad_images.txt'
# Images that are bad and for which a fix has been submitted.
fixedbad_images_file = 'deps/glbench/glbench_fixedbad_images.txt'
# These tests do not draw anything, they can only be used to check
# performance.
no_checksum_tests = set([
'compositing_no_fill',
'pixel_read',
'texture_reuse_luminance_teximage2d',
'texture_reuse_luminance_texsubimage2d',
'texture_reuse_rgba_teximage2d',
'texture_reuse_rgba_texsubimage2d',
'context_glsimple',
'swap_glsimple',
])
blacklist = ''
unit_higher_is_better = {
'mbytes_sec': True,
'mpixels_sec': True,
'mtexel_sec': True,
'mtri_sec': True,
'mvtx_sec': True,
'us': False,
'1280x768_fps': True
}
def setup(self):
self.job.setup_dep(['glbench'])
def initialize(self):
super(graphics_GLBench, self).initialize()
# If UI is running, we must stop it and restore later.
self._services = service_stopper.ServiceStopper(['ui'])
self._services.stop_services()
def cleanup(self):
if self._services:
self._services.restore_services()
super(graphics_GLBench, self).cleanup()
def report_temperature(self, keyname):
"""Report current max observed temperature with given keyname.
@param keyname: key to be used when reporting perf value.
"""
temperature = utils.get_temperature_input_max()
logging.info('%s = %f degree Celsius', keyname, temperature)
self.output_perf_value(
description=keyname,
value=temperature,
units='Celsius',
higher_is_better=False)
def report_temperature_critical(self, keyname):
"""Report temperature at which we will see throttling with given keyname.
@param keyname: key to be used when reporting perf value.
"""
temperature = utils.get_temperature_critical()
logging.info('%s = %f degree Celsius', keyname, temperature)
self.output_perf_value(
description=keyname,
value=temperature,
units='Celsius',
higher_is_better=False)
def is_no_checksum_test(self, testname):
"""Check if given test requires no screenshot checksum.
@param testname: name of test to check.
"""
for prefix in self.no_checksum_tests:
if testname.startswith(prefix):
return True
return False
def load_imagenames(self, filename):
"""Loads text file with MD5 file names.
@param filename: name of file to load.
"""
imagenames = os.path.join(self.autodir, filename)
with open(imagenames, 'r') as f:
imagenames = f.read()
return imagenames
@graphics_utils.GraphicsTest.failure_report_decorator('graphics_GLBench')
def run_once(self, options='', hasty=False):
dep = 'glbench'
dep_dir = os.path.join(self.autodir, 'deps', dep)
self.job.install_pkg(dep, 'dep', dep_dir)
options += self.blacklist
# Run the test, saving is optional and helps with debugging
# and reference image management. If unknown images are
# encountered one can take them from the outdir and copy
# them (after verification) into the reference image dir.
exefile = os.path.join(self.autodir, 'deps/glbench/glbench')
outdir = self.outputdir
options += ' -save -outdir=' + outdir
# Using the -hasty option we run only a subset of tests without waiting
# for thermals to normalize. Test should complete in 15-20 seconds.
if hasty:
options += ' -hasty'
cmd = '%s %s' % (exefile, options)
summary = None
pc_error_reason = None
try:
if hasty:
# On BVT the test will not monitor thermals so we will not verify its
# correct status using PerfControl
summary = utils.run(cmd,
stderr_is_expected=False,
stdout_tee=utils.TEE_TO_LOGS,
stderr_tee=utils.TEE_TO_LOGS).stdout
else:
self.report_temperature_critical('temperature_critical')
self.report_temperature('temperature_1_start')
# Wrap the test run inside of a PerfControl instance to make machine
# behavior more consistent.
with perf.PerfControl() as pc:
if not pc.verify_is_valid():
raise error.TestFail('Failed: %s' % pc.get_error_reason())
self.report_temperature('temperature_2_before_test')
# Run the test. If it gets the CPU too hot pc should notice.
summary = utils.run(cmd,
stderr_is_expected=False,
stdout_tee=utils.TEE_TO_LOGS,
stderr_tee=utils.TEE_TO_LOGS).stdout
if not pc.verify_is_valid():
# Defer error handling until after perf report.
pc_error_reason = pc.get_error_reason()
except error.CmdError:
raise error.TestFail('Failed: CmdError running %s' % cmd)
except error.CmdTimeoutError:
raise error.TestFail('Failed: CmdTimeout running %s' % cmd)
# Write a copy of stdout to help debug failures.
results_path = os.path.join(self.outputdir, 'summary.txt')
f = open(results_path, 'w+')
f.write('# ---------------------------------------------------\n')
f.write('# [' + cmd + ']\n')
f.write(summary)
f.write('\n# -------------------------------------------------\n')
f.write('# [graphics_GLBench.py postprocessing]\n')
# Analyze the output. Sample:
## board_id: NVIDIA Corporation - Quadro FX 380/PCI/SSE2
## Running: ../glbench -save -outdir=img
#swap_swap = 221.36 us [swap_swap.pixmd5-20dbc...f9c700d2f.png]
results = summary.splitlines()
if not results:
f.close()
raise error.TestFail('Failed: No output from test. Check /tmp/' +
'test_that_latest/graphics_GLBench/summary.txt' +
' for details.')
# The good images, the silenced and the zombie/recurring failures.
reference_imagenames = self.load_imagenames(self.reference_images_file)
knownbad_imagenames = self.load_imagenames(self.knownbad_images_file)
fixedbad_imagenames = self.load_imagenames(self.fixedbad_images_file)
# Check if we saw GLBench end as expected (without crashing).
test_ended_normal = False
for line in results:
if line.strip().startswith('@TEST_END'):
test_ended_normal = True
# Analyze individual test results in summary.
# TODO(pwang): Raise TestFail if an error is detected during glbench.
keyvals = {}
failed_tests = {}
for line in results:
if not line.strip().startswith('@RESULT: '):
continue
keyval, remainder = line[9:].split('[')
key, val = keyval.split('=')
testname = key.strip()
score, unit = val.split()
testrating = float(score)
imagefile = remainder.split(']')[0]
if not hasty:
higher = self.unit_higher_is_better.get(unit)
if higher is None:
raise error.TestFail('Failed: Unknown test unit "%s" for %s' %
(unit, testname))
# Prepend unit to test name to maintain backwards compatibility with
# existing per data.
perf_value_name = '%s_%s' % (unit, testname)
self.output_perf_value(
description=perf_value_name,
value=testrating,
units=unit,
higher_is_better=higher,
graph=perf_value_name)
# Add extra value to the graph distinguishing different boards.
variant = utils.get_board_with_frequency_and_memory()
desc = '%s-%s' % (perf_value_name, variant)
self.output_perf_value(
description=desc,
value=testrating,
units=unit,
higher_is_better=higher,
graph=perf_value_name)
# Classify result image.
if testrating == -1.0:
# Tests that generate GL Errors.
glerror = imagefile.split('=')[1]
f.write('# GLError ' + glerror + ' during test (perf set to -3.0)\n')
keyvals[testname] = -3.0
failed_tests[testname] = 'GLError'
elif testrating == 0.0:
# Tests for which glbench does not generate a meaningful perf score.
f.write('# No score for test\n')
keyvals[testname] = 0.0
elif imagefile in fixedbad_imagenames:
# We know the image looked bad at some point in time but we thought
# it was fixed. Throw an exception as a reminder.
keyvals[testname] = -2.0
f.write('# fixedbad [' + imagefile + '] (setting perf as -2.0)\n')
failed_tests[testname] = imagefile
elif imagefile in knownbad_imagenames:
# We have triaged the failure and have filed a tracking bug.
# Don't throw an exception and remind there is a problem.
keyvals[testname] = -1.0
f.write('# knownbad [' + imagefile + '] (setting perf as -1.0)\n')
# This failure is whitelisted so don't add to failed_tests.
elif imagefile in reference_imagenames:
# Known good reference images (default).
keyvals[testname] = testrating
elif imagefile == 'none':
# Tests that do not write images can't fail because of them.
keyvals[testname] = testrating
elif self.is_no_checksum_test(testname):
# TODO(ihf): these really should not write any images
keyvals[testname] = testrating
else:
# Completely unknown images. Raise a failure.
keyvals[testname] = -2.0
failed_tests[testname] = imagefile
f.write('# unknown [' + imagefile + '] (setting perf as -2.0)\n')
f.close()
if not hasty:
self.report_temperature('temperature_3_after_test')
self.write_perf_keyval(keyvals)
# Raise exception if images don't match.
if failed_tests:
logging.info('Some images are not matching their reference in %s.',
self.reference_images_file)
logging.info('Please verify that the output images are correct '
'and if so copy them to the reference directory.')
raise error.TestFail('Failed: Some images are not matching their '
'references. Check /tmp/'
'test_that_latest/graphics_GLBench/summary.txt'
' for details.')
if not test_ended_normal:
raise error.TestFail(
'Failed: No end marker. Presumed crash/missing images.')
if pc_error_reason:
raise error.TestFail('Failed: %s' % pc_error_reason)