qemu/scripts/simplebench/simplebench.py
Vladimir Sementsov-Ogievskiy 8c8407fe45 simplebench/bench-backup: add --drop-caches argument
Add an option to drop caches before each test run. It may probably
improve reliability of results when testing in cached mode.

Signed-off-by: Vladimir Sementsov-Ogievskiy <vsementsov@virtuozzo.com>
2021-05-04 11:37:26 +03:00

141 lines
5.0 KiB
Python

#!/usr/bin/env python
#
# Simple benchmarking framework
#
# Copyright (c) 2019 Virtuozzo International GmbH.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that 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.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import statistics
import subprocess
import time
def do_drop_caches():
subprocess.run('sync; echo 3 > /proc/sys/vm/drop_caches', shell=True,
check=True)
def bench_one(test_func, test_env, test_case, count=5, initial_run=True,
slow_limit=100, drop_caches=False):
"""Benchmark one test-case
test_func -- benchmarking function with prototype
test_func(env, case), which takes test_env and test_case
arguments and on success returns dict with 'seconds' or
'iops' (or both) fields, specifying the benchmark result.
If both 'iops' and 'seconds' provided, the 'iops' is
considered the main, and 'seconds' is just an additional
info. On failure test_func should return {'error': str}.
Returned dict may contain any other additional fields.
test_env -- test environment - opaque first argument for test_func
test_case -- test case - opaque second argument for test_func
count -- how many times to call test_func, to calculate average
initial_run -- do initial run of test_func, which don't get into result
slow_limit -- stop at slow run (that exceedes the slow_limit by seconds).
(initial run is not measured)
drop_caches -- drop caches before each run
Returns dict with the following fields:
'runs': list of test_func results
'dimension': dimension of results, may be 'seconds' or 'iops'
'average': average value (iops or seconds) per run (exists only if at
least one run succeeded)
'stdev': standard deviation of results
(exists only if at least one run succeeded)
'n-failed': number of failed runs (exists only if at least one run
failed)
"""
if initial_run:
print(' #initial run:')
do_drop_caches()
print(' ', test_func(test_env, test_case))
runs = []
for i in range(count):
t = time.time()
print(' #run {}'.format(i+1))
do_drop_caches()
res = test_func(test_env, test_case)
print(' ', res)
runs.append(res)
if time.time() - t > slow_limit:
print(' - run is too slow, stop here')
break
count = len(runs)
result = {'runs': runs}
succeeded = [r for r in runs if ('seconds' in r or 'iops' in r)]
if succeeded:
if 'iops' in succeeded[0]:
assert all('iops' in r for r in succeeded)
dim = 'iops'
else:
assert all('seconds' in r for r in succeeded)
assert all('iops' not in r for r in succeeded)
dim = 'seconds'
result['dimension'] = dim
result['average'] = statistics.mean(r[dim] for r in succeeded)
if len(succeeded) == 1:
result['stdev'] = 0
else:
result['stdev'] = statistics.stdev(r[dim] for r in succeeded)
if len(succeeded) < count:
result['n-failed'] = count - len(succeeded)
return result
def bench(test_func, test_envs, test_cases, *args, **vargs):
"""Fill benchmark table
test_func -- benchmarking function, see bench_one for description
test_envs -- list of test environments, see bench_one
test_cases -- list of test cases, see bench_one
args, vargs -- additional arguments for bench_one
Returns dict with the following fields:
'envs': test_envs
'cases': test_cases
'tab': filled 2D array, where cell [i][j] is bench_one result for
test_cases[i] for test_envs[j] (i.e., rows are test cases and
columns are test environments)
"""
tab = {}
results = {
'envs': test_envs,
'cases': test_cases,
'tab': tab
}
n = 1
n_tests = len(test_envs) * len(test_cases)
for env in test_envs:
for case in test_cases:
print('Testing {}/{}: {} :: {}'.format(n, n_tests,
env['id'], case['id']))
if case['id'] not in tab:
tab[case['id']] = {}
tab[case['id']][env['id']] = bench_one(test_func, env, case,
*args, **vargs)
n += 1
print('Done')
return results