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# Copyright (c) 2016, Intel Corporation.
#
# This program is free software; you can redistribute it and/or modify it
# under the terms and conditions of the GNU General Public License,
# version 2, as published by the Free Software Foundation.
#
# This program is distributed in the hope it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
#
"""Build performance test base classes and functionality"""
import json
import logging
import os
import re
import resource
import socket
import time
import unittest
import xml.etree.ElementTree as ET
from datetime import datetime, timedelta
from functools import partial
from multiprocessing import Process
from multiprocessing import SimpleQueue
from xml.dom import minidom
import oe.path
from oeqa.utils.commands import CommandError, runCmd, get_bb_vars
from oeqa.utils.git import GitError, GitRepo
# Get logger for this module
log = logging.getLogger('build-perf')
# Our own version of runCmd which does not raise AssertErrors which would cause
# errors to interpreted as failures
runCmd2 = partial(runCmd, assert_error=False)
class KernelDropCaches(object):
"""Container of the functions for dropping kernel caches"""
sudo_passwd = None
@classmethod
def check(cls):
"""Check permssions for dropping kernel caches"""
from getpass import getpass
from locale import getdefaultlocale
cmd = ['sudo', '-k', '-n', 'tee', '/proc/sys/vm/drop_caches']
ret = runCmd2(cmd, ignore_status=True, data=b'0')
if ret.output.startswith('sudo:'):
pass_str = getpass(
"\nThe script requires sudo access to drop caches between "
"builds (echo 3 > /proc/sys/vm/drop_caches).\n"
"Please enter your sudo password: ")
cls.sudo_passwd = bytes(pass_str, getdefaultlocale()[1])
@classmethod
def drop(cls):
"""Drop kernel caches"""
cmd = ['sudo', '-k']
if cls.sudo_passwd:
cmd.append('-S')
input_data = cls.sudo_passwd + b'\n'
else:
cmd.append('-n')
input_data = b''
cmd += ['tee', '/proc/sys/vm/drop_caches']
input_data += b'3'
runCmd2(cmd, data=input_data)
def str_to_fn(string):
"""Convert string to a sanitized filename"""
return re.sub(r'(\W+)', '-', string, flags=re.LOCALE)
class ResultsJsonEncoder(json.JSONEncoder):
"""Extended encoder for build perf test results"""
unix_epoch = datetime.utcfromtimestamp(0)
def default(self, obj):
"""Encoder for our types"""
if isinstance(obj, datetime):
# NOTE: we assume that all timestamps are in UTC time
return (obj - self.unix_epoch).total_seconds()
if isinstance(obj, timedelta):
return obj.total_seconds()
return json.JSONEncoder.default(self, obj)
class BuildPerfTestResult(unittest.TextTestResult):
"""Runner class for executing the individual tests"""
# List of test cases to run
test_run_queue = []
def __init__(self, out_dir, *args, **kwargs):
super(BuildPerfTestResult, self).__init__(*args, **kwargs)
self.out_dir = out_dir
self.hostname = socket.gethostname()
self.product = os.getenv('OE_BUILDPERFTEST_PRODUCT', 'oe-core')
self.start_time = self.elapsed_time = None
self.successes = []
def addSuccess(self, test):
"""Record results from successful tests"""
super(BuildPerfTestResult, self).addSuccess(test)
self.successes.append(test)
def addError(self, test, err):
"""Record results from crashed test"""
test.err = err
super(BuildPerfTestResult, self).addError(test, err)
def addFailure(self, test, err):
"""Record results from failed test"""
test.err = err
super(BuildPerfTestResult, self).addFailure(test, err)
def addExpectedFailure(self, test, err):
"""Record results from expectedly failed test"""
test.err = err
super(BuildPerfTestResult, self).addExpectedFailure(test, err)
def startTest(self, test):
"""Pre-test hook"""
test.base_dir = self.out_dir
os.mkdir(test.out_dir)
log.info("Executing test %s: %s", test.name, test.shortDescription())
self.stream.write(datetime.now().strftime("[%Y-%m-%d %H:%M:%S] "))
super(BuildPerfTestResult, self).startTest(test)
def startTestRun(self):
"""Pre-run hook"""
self.start_time = datetime.utcnow()
def stopTestRun(self):
"""Pre-run hook"""
self.elapsed_time = datetime.utcnow() - self.start_time
def all_results(self):
compound = [('SUCCESS', t, None) for t in self.successes] + \
[('FAILURE', t, m) for t, m in self.failures] + \
[('ERROR', t, m) for t, m in self.errors] + \
[('EXPECTED_FAILURE', t, m) for t, m in self.expectedFailures] + \
[('UNEXPECTED_SUCCESS', t, None) for t in self.unexpectedSuccesses] + \
[('SKIPPED', t, m) for t, m in self.skipped]
return sorted(compound, key=lambda info: info[1].start_time)
def write_results_json(self):
"""Write test results into a json-formatted file"""
results = {'tester_host': self.hostname,
'start_time': self.start_time,
'elapsed_time': self.elapsed_time}
tests = {}
for status, test, reason in self.all_results():
tests[test.name] = {'name': test.name,
'description': test.shortDescription(),
'status': status,
'start_time': test.start_time,
'elapsed_time': test.elapsed_time,
'cmd_log_file': os.path.relpath(test.cmd_log_file,
self.out_dir),
'measurements': test.measurements}
if status in ('ERROR', 'FAILURE', 'EXPECTED_FAILURE'):
tests[test.name]['message'] = str(test.err[1])
tests[test.name]['err_type'] = test.err[0].__name__
tests[test.name]['err_output'] = reason
elif reason:
tests[test.name]['message'] = reason
results['tests'] = tests
with open(os.path.join(self.out_dir, 'results.json'), 'w') as fobj:
json.dump(results, fobj, indent=4, sort_keys=True,
cls=ResultsJsonEncoder)
def write_results_xml(self):
"""Write test results into a JUnit XML file"""
top = ET.Element('testsuites')
suite = ET.SubElement(top, 'testsuite')
suite.set('name', 'oeqa.buildperf')
suite.set('timestamp', self.start_time.isoformat())
suite.set('time', str(self.elapsed_time.total_seconds()))
suite.set('hostname', self.hostname)
suite.set('failures', str(len(self.failures) + len(self.expectedFailures)))
suite.set('errors', str(len(self.errors)))
suite.set('skipped', str(len(self.skipped)))
test_cnt = 0
for status, test, reason in self.all_results():
test_cnt += 1
testcase = ET.SubElement(suite, 'testcase')
testcase.set('classname', test.__module__ + '.' + test.__class__.__name__)
testcase.set('name', test.name)
testcase.set('description', test.shortDescription())
testcase.set('timestamp', test.start_time.isoformat())
testcase.set('time', str(test.elapsed_time.total_seconds()))
if status in ('ERROR', 'FAILURE', 'EXP_FAILURE'):
if status in ('FAILURE', 'EXP_FAILURE'):
result = ET.SubElement(testcase, 'failure')
else:
result = ET.SubElement(testcase, 'error')
result.set('message', str(test.err[1]))
result.set('type', test.err[0].__name__)
result.text = reason
elif status == 'SKIPPED':
result = ET.SubElement(testcase, 'skipped')
result.text = reason
elif status not in ('SUCCESS', 'UNEXPECTED_SUCCESS'):
raise TypeError("BUG: invalid test status '%s'" % status)
for data in test.measurements:
measurement = ET.SubElement(testcase, data['type'])
measurement.set('name', data['name'])
measurement.set('legend', data['legend'])
vals = data['values']
if data['type'] == BuildPerfTestCase.SYSRES:
ET.SubElement(measurement, 'time',
timestamp=vals['start_time'].isoformat()).text = \
str(vals['elapsed_time'].total_seconds())
if 'buildstats_file' in vals:
ET.SubElement(measurement, 'buildstats_file').text = vals['buildstats_file']
attrib = dict((k, str(v)) for k, v in vals['iostat'].items())
ET.SubElement(measurement, 'iostat', attrib=attrib)
attrib = dict((k, str(v)) for k, v in vals['rusage'].items())
ET.SubElement(measurement, 'rusage', attrib=attrib)
elif data['type'] == BuildPerfTestCase.DISKUSAGE:
ET.SubElement(measurement, 'size').text = str(vals['size'])
else:
raise TypeError('BUG: unsupported measurement type')
suite.set('tests', str(test_cnt))
# Use minidom for pretty-printing
dom_doc = minidom.parseString(ET.tostring(top, 'utf-8'))
with open(os.path.join(self.out_dir, 'results.xml'), 'w') as fobj:
dom_doc.writexml(fobj, addindent=' ', newl='\n', encoding='utf-8')
return
class BuildPerfTestCase(unittest.TestCase):
"""Base class for build performance tests"""
SYSRES = 'sysres'
DISKUSAGE = 'diskusage'
build_target = None
def __init__(self, *args, **kwargs):
super(BuildPerfTestCase, self).__init__(*args, **kwargs)
self.name = self._testMethodName
self.base_dir = None
self.start_time = None
self.elapsed_time = None
self.measurements = []
# self.err is supposed to be a tuple from sys.exc_info()
self.err = None
self.bb_vars = get_bb_vars()
# TODO: remove 'times' and 'sizes' arrays when globalres support is
# removed
self.times = []
self.sizes = []
@property
def out_dir(self):
return os.path.join(self.base_dir, self.name)
@property
def cmd_log_file(self):
return os.path.join(self.out_dir, 'commands.log')
def shortDescription(self):
return super(BuildPerfTestCase, self).shortDescription() or ""
def setUp(self):
"""Set-up fixture for each test"""
if self.build_target:
self.log_cmd_output(['bitbake', self.build_target,
'-c', 'fetchall'])
def run(self, *args, **kwargs):
"""Run test"""
self.start_time = datetime.now()
super(BuildPerfTestCase, self).run(*args, **kwargs)
self.elapsed_time = datetime.now() - self.start_time
def log_cmd_output(self, cmd):
"""Run a command and log it's output"""
cmd_str = cmd if isinstance(cmd, str) else ' '.join(cmd)
log.info("Logging command: %s", cmd_str)
try:
with open(self.cmd_log_file, 'a') as fobj:
runCmd2(cmd, stdout=fobj)
except CommandError as err:
log.error("Command failed: %s", err.retcode)
raise
def measure_cmd_resources(self, cmd, name, legend, save_bs=False):
"""Measure system resource usage of a command"""
def _worker(data_q, cmd, **kwargs):
"""Worker process for measuring resources"""
try:
start_time = datetime.now()
ret = runCmd2(cmd, **kwargs)
etime = datetime.now() - start_time
rusage_struct = resource.getrusage(resource.RUSAGE_CHILDREN)
iostat = {}
with open('/proc/{}/io'.format(os.getpid())) as fobj:
for line in fobj.readlines():
key, val = line.split(':')
iostat[key] = int(val)
rusage = {}
# Skip unused fields, (i.e. 'ru_ixrss', 'ru_idrss', 'ru_isrss',
# 'ru_nswap', 'ru_msgsnd', 'ru_msgrcv' and 'ru_nsignals')
for key in ['ru_utime', 'ru_stime', 'ru_maxrss', 'ru_minflt',
'ru_majflt', 'ru_inblock', 'ru_oublock',
'ru_nvcsw', 'ru_nivcsw']:
rusage[key] = getattr(rusage_struct, key)
data_q.put({'ret': ret,
'start_time': start_time,
'elapsed_time': etime,
'rusage': rusage,
'iostat': iostat})
except Exception as err:
data_q.put(err)
cmd_str = cmd if isinstance(cmd, str) else ' '.join(cmd)
log.info("Timing command: %s", cmd_str)
data_q = SimpleQueue()
try:
with open(self.cmd_log_file, 'a') as fobj:
proc = Process(target=_worker, args=(data_q, cmd,),
kwargs={'stdout': fobj})
proc.start()
data = data_q.get()
proc.join()
if isinstance(data, Exception):
raise data
except CommandError:
log.error("Command '%s' failed, see %s for more details", cmd_str,
self.cmd_log_file)
raise
etime = data['elapsed_time']
measurement = {'type': self.SYSRES,
'name': name,
'legend': legend}
measurement['values'] = {'start_time': data['start_time'],
'elapsed_time': etime,
'rusage': data['rusage'],
'iostat': data['iostat']}
if save_bs:
bs_file = self.save_buildstats(legend)
measurement['values']['buildstats_file'] = \
os.path.relpath(bs_file, self.base_dir)
self.measurements.append(measurement)
# Append to 'times' array for globalres log
e_sec = etime.total_seconds()
self.times.append('{:d}:{:02d}:{:05.2f}'.format(int(e_sec / 3600),
int((e_sec % 3600) / 60),
e_sec % 60))
def measure_disk_usage(self, path, name, legend, apparent_size=False):
"""Estimate disk usage of a file or directory"""
cmd = ['du', '-s', '--block-size', '1024']
if apparent_size:
cmd.append('--apparent-size')
cmd.append(path)
ret = runCmd2(cmd)
size = int(ret.output.split()[0])
log.debug("Size of %s path is %s", path, size)
measurement = {'type': self.DISKUSAGE,
'name': name,
'legend': legend}
measurement['values'] = {'size': size}
self.measurements.append(measurement)
# Append to 'sizes' array for globalres log
self.sizes.append(str(size))
def save_buildstats(self, label=None):
"""Save buildstats"""
def split_nevr(nevr):
"""Split name and version information from recipe "nevr" string"""
n_e_v, revision = nevr.rsplit('-', 1)
match = re.match(r'^(?P<name>\S+)-((?P<epoch>[0-9]{1,5})_)?(?P<version>[0-9]\S*)$',
n_e_v)
if not match:
# If we're not able to parse a version starting with a number, just
# take the part after last dash
match = re.match(r'^(?P<name>\S+)-((?P<epoch>[0-9]{1,5})_)?(?P<version>[^-]+)$',
n_e_v)
name = match.group('name')
version = match.group('version')
epoch = match.group('epoch')
return name, epoch, version, revision
def bs_to_json(filename):
"""Convert (task) buildstats file into json format"""
bs_json = {'iostat': {},
'rusage': {},
'child_rusage': {}}
with open(filename) as fobj:
for line in fobj.readlines():
key, val = line.split(':', 1)
val = val.strip()
if key == 'Started':
start_time = datetime.utcfromtimestamp(float(val))
bs_json['start_time'] = start_time
elif key == 'Ended':
end_time = datetime.utcfromtimestamp(float(val))
elif key.startswith('IO '):
split = key.split()
bs_json['iostat'][split[1]] = int(val)
elif key.find('rusage') >= 0:
split = key.split()
ru_key = split[-1]
if ru_key in ('ru_stime', 'ru_utime'):
val = float(val)
else:
val = int(val)
ru_type = 'rusage' if split[0] == 'rusage' else \
'child_rusage'
bs_json[ru_type][ru_key] = val
elif key == 'Status':
bs_json['status'] = val
bs_json['elapsed_time'] = end_time - start_time
return bs_json
log.info('Saving buildstats in JSON format')
bs_dirs = sorted(os.listdir(self.bb_vars['BUILDSTATS_BASE']))
if len(bs_dirs) > 1:
log.warning("Multiple buildstats found for test %s, only "
"archiving the last one", self.name)
bs_dir = os.path.join(self.bb_vars['BUILDSTATS_BASE'], bs_dirs[-1])
buildstats = []
for fname in os.listdir(bs_dir):
recipe_dir = os.path.join(bs_dir, fname)
if not os.path.isdir(recipe_dir):
continue
name, epoch, version, revision = split_nevr(fname)
recipe_bs = {'name': name,
'epoch': epoch,
'version': version,
'revision': revision,
'tasks': {}}
for task in os.listdir(recipe_dir):
recipe_bs['tasks'][task] = bs_to_json(os.path.join(recipe_dir,
task))
buildstats.append(recipe_bs)
# Write buildstats into json file
postfix = '.' + str_to_fn(label) if label else ''
postfix += '.json'
outfile = os.path.join(self.out_dir, 'buildstats' + postfix)
with open(outfile, 'w') as fobj:
json.dump(buildstats, fobj, indent=4, sort_keys=True,
cls=ResultsJsonEncoder)
return outfile
def rm_tmp(self):
"""Cleanup temporary/intermediate files and directories"""
log.debug("Removing temporary and cache files")
for name in ['bitbake.lock', 'conf/sanity_info',
self.bb_vars['TMPDIR']]:
oe.path.remove(name, recurse=True)
def rm_sstate(self):
"""Remove sstate directory"""
log.debug("Removing sstate-cache")
oe.path.remove(self.bb_vars['SSTATE_DIR'], recurse=True)
def rm_cache(self):
"""Drop bitbake caches"""
oe.path.remove(self.bb_vars['PERSISTENT_DIR'], recurse=True)
@staticmethod
def sync():
"""Sync and drop kernel caches"""
log.debug("Syncing and dropping kernel caches""")
KernelDropCaches.drop()
os.sync()
# Wait a bit for all the dirty blocks to be written onto disk
time.sleep(3)
class BuildPerfTestLoader(unittest.TestLoader):
"""Test loader for build performance tests"""
sortTestMethodsUsing = None
class BuildPerfTestRunner(unittest.TextTestRunner):
"""Test loader for build performance tests"""
sortTestMethodsUsing = None
def __init__(self, out_dir, *args, **kwargs):
super(BuildPerfTestRunner, self).__init__(*args, **kwargs)
self.out_dir = out_dir
def _makeResult(self):
return BuildPerfTestResult(self.out_dir, self.stream, self.descriptions,
self.verbosity)
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