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launch_time.py
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import SimpleHTTPServer
import SocketServer
import argparse
import logging
from math import sqrt
from operator import mul
import os
import json
from subprocess import call, check_output
import sys
import threading
import time
# Supress logs from feedback server
logging.getLogger().setLevel(logging.FATAL)
class DefaultLaunchTimeHandler(SimpleHTTPServer.SimpleHTTPRequestHandler):
def get_test_page(self):
return '''<!DOCTYPE html>
<html>
<head>
<title>Launch Time Benchmark</title>
<meta http-equiv="Content-Type" content="text/html" />
<script>
function sendDone() {
const time = performance.timing.navigationStart
const request = new XMLHttpRequest();
request.open("POST", "done", false);
request.setRequestHeader('Content-Type', 'application/json');
request.send(JSON.stringify(time));
}
window.onload = sendDone;
</script>
</head>
<body>
<h1>New Tab Benchmark</h1>
</body>
</html>
'''
def on_receive_stop_signal(self, data):
pass
def do_HEAD(self):
self.send_response(200)
self.send_header('Content-type', 'text/html')
self.end_headers()
def do_GET(self):
self.send_response(200)
self.send_header('Content-type', 'text/html')
self.end_headers()
if not self.path.startswith('/blank'):
self.wfile.write(self.get_test_page())
self.wfile.close()
def do_POST(self):
self.send_response(200)
self.send_header('Content-type', 'text/html')
self.end_headers()
self.wfile.write('done')
self.wfile.close()
data_string = self.rfile.read(int(self.headers['Content-Length']))
self.on_receive_stop_signal(data_string)
def log_message(self, format, *args):
pass
class LaunchTimeBenchmark:
def __init__(self):
self._server_ready = threading.Semaphore(0)
self._server = None
self._server_thread = None
self._port = 8080
self._feedback_port = None
self._feedback_server = None
self._open_count = 0
self._app_name = None
self._verbose = False
self._feedback_in_browser = False
self._save_results_to_json = False
self._json_results_path = None
self._do_not_ignore_first_result = False
self._iterations = 5
self._browser_bundle_path = '/Applications/Safari.app'
self.response_handler = None
self.benchmark_description = None
self.use_geometric_mean = False
self.wait_time_high = 1
self.wait_time_low = 0.1
self.iteration_groups = 1
self.initialize()
def _parse_browser_bundle_path(self, path):
if not os.path.isdir(path) or not path.endswith('.app'):
raise argparse.ArgumentTypeError(
'Invalid app bundle path: "{}"'.format(path))
return path
def _parse_args(self):
self.argument_parser = argparse.ArgumentParser(description=self.benchmark_description)
self.argument_parser.add_argument('-p', '--path', type=self._parse_browser_bundle_path,
help='path for browser application bundle (default: {})'.format(self._browser_bundle_path))
self.argument_parser.add_argument('-n', '--iterations', type=int,
help='number of iterations of test (default: {})'.format(self._iterations))
self.argument_parser.add_argument('-v', '--verbose', action='store_true',
help="print each iteration's time")
self.argument_parser.add_argument('-f', '--feedback-in-browser', action='store_true',
help="show benchmark results in browser (default: {})".format(self._feedback_in_browser))
self.argument_parser.add_argument('-o', '--output', type=self._json_results_path,
help='saves benchmark results in json format (default: {})'.format(self._json_results_path))
self.will_parse_arguments()
args = self.argument_parser.parse_args()
if args.iterations:
self._iterations = args.iterations
if args.path:
self._browser_bundle_path = args.path
if args.verbose is not None:
self._verbose = args.verbose
if args.feedback_in_browser is not None:
self._feedback_in_browser = args.feedback_in_browser
if args.output:
self._save_results_to_json = True
self._json_results_path = args.output
path_len = len(self._browser_bundle_path)
start_index = self._browser_bundle_path.rfind('/', 0, path_len)
end_index = self._browser_bundle_path.rfind('.', 0, path_len)
self._app_name = self._browser_bundle_path[start_index + 1:end_index]
self.did_parse_arguments(args)
def _run_server(self):
self._server_ready.release()
self._server.serve_forever()
def _setup_servers(self):
while True:
try:
self._server = SocketServer.TCPServer(
('0.0.0.0', self._port), self.response_handler)
break
except:
self._port += 1
print 'Running test server at http://localhost:{}'.format(self._port)
self._server_thread = threading.Thread(target=self._run_server)
self._server_thread.start()
self._server_ready.acquire()
if self._feedback_in_browser:
from feedback_server import FeedbackServer
self._feedback_server = FeedbackServer()
self._feedback_port = self._feedback_server.start()
def _clean_up(self):
self._server.shutdown()
self._server_thread.join()
if self._feedback_in_browser:
self._feedback_server.stop()
def _exit_due_to_exception(self, reason):
self.log(reason)
self._clean_up()
sys.exit(1)
def _geometric_mean(self, values):
product = reduce(mul, values)
return product ** (1.0 / len(values))
def _standard_deviation(self, results, mean=None):
if mean is None:
mean = sum(results) / float(len(results))
divisor = float(len(results) - 1) if len(results) > 1 else float(len(results))
variance = sum((x - mean) ** 2 for x in results) / divisor
return sqrt(variance)
def _compute_results(self, results):
if not results:
self._exit_due_to_exception('No results to compute.\n')
if len(results) > 1 and not self._do_not_ignore_first_result:
results = results[1:]
mean = sum(results) / float(len(results))
stdev = self._standard_deviation(results, mean)
return mean, stdev
def _wait_times(self):
if self.iteration_groups == 1:
yield self.wait_time_high
return
increment_per_group = float(self.wait_time_high - self.wait_time_low) / (self.iteration_groups - 1)
for i in range(self.iteration_groups):
yield self.wait_time_low + increment_per_group * i
def open_tab(self, blank=False):
if blank:
call(['open', '-a', self._browser_bundle_path,
'http://localhost:{}/blank/{}'.format(self._port, self._open_count)])
else:
call(['open', '-a', self._browser_bundle_path,
'http://localhost:{}/{}'.format(self._port, self._open_count)])
self._open_count += 1
def launch_browser(self):
if self._feedback_in_browser:
call(['open', '-a', self._browser_bundle_path,
'http://localhost:{}'.format(self._feedback_port), '-F'])
self._feedback_server.wait_until_client_has_loaded()
else:
call(['open', '-a', self._browser_bundle_path,
'http://localhost:{}/blank'.format(self._port), '-F'])
self.wait(2)
def quit_browser(self):
def quit_app():
call(['osascript', '-e', 'quit app "{}"'.format(self._browser_bundle_path)])
def is_app_closed():
out = check_output(['osascript', '-e', 'tell application "System Events"',
'-e', 'copy (get name of every process whose name is "{}") to stdout'.format(self._app_name),
'-e', 'end tell'])
return len(out.strip()) == 0
while not is_app_closed():
quit_app()
self.wait(1)
def close_tab(self):
call(['osascript', '-e',
'tell application "System Events" to keystroke "w" using command down'])
def wait(self, duration):
wait_start = time.time()
while time.time() - wait_start < duration:
pass
def log(self, message):
if self._feedback_in_browser:
self._feedback_server.send_message(message)
sys.stdout.write(message)
sys.stdout.flush()
def log_verbose(self, message):
if self._verbose:
self.log(message)
def run(self):
self._parse_args()
self._setup_servers()
self.quit_browser()
print ''
try:
group_means = []
if self._save_results_to_json:
resultsDict = {self.get_test_name(): {"metrics": {"Time": {"current": []}}}}
results_by_iteration_number = [[] for _ in range(self._iterations)]
group = 1
for wait_duration in self._wait_times():
self.group_init()
if self.iteration_groups > 1:
self.log('Running group {}{}'.format(group, ':\n' if self._verbose else '...'))
results = []
for i in range(self._iterations):
try:
if not self._verbose:
self.log('.')
result_in_ms = self.run_iteration()
self.log_verbose('({}) {} ms\n'.format(i + 1, result_in_ms))
self.wait(wait_duration)
results.append(result_in_ms)
results_by_iteration_number[i].append(result_in_ms)
except KeyboardInterrupt:
raise KeyboardInterrupt
except Exception as error:
self._exit_due_to_exception('(Test {} failed) {}: {}\n'.format(i + 1 if self._verbose else i, type(error).__name__, error))
if not self._verbose:
print ''
if self._save_results_to_json:
resultsDict[self.get_test_name()]["metrics"]["Time"]["current"].append(results)
mean, stdev = self._compute_results(results)
self.log_verbose('RESULTS:\n')
self.log_verbose('mean: {} ms\n'.format(mean))
self.log_verbose('std dev: {} ms ({}%)\n\n'.format(stdev, (stdev / mean) * 100))
if self._verbose:
self.wait(1)
group_means.append(mean)
group += 1
self.quit_browser()
if not self._verbose:
print '\n'
if self._feedback_in_browser:
self.launch_browser()
if self._save_results_to_json and self._json_results_path:
with open(self._json_results_path, "w") as jsonFile:
json.dump(resultsDict, jsonFile, indent=4, separators=(',', ': '))
means_by_iteration_number = []
if len(results_by_iteration_number) > 1 and not self._do_not_ignore_first_result:
results_by_iteration_number = results_by_iteration_number[1:]
for iteration_results in results_by_iteration_number:
means_by_iteration_number.append(self._geometric_mean(iteration_results))
final_mean = self._geometric_mean(group_means)
final_stdev = self._standard_deviation(means_by_iteration_number)
self.log('FINAL RESULTS\n')
self.log('Mean:\n-> {} ms\n'.format(final_mean))
self.log('Standard Deviation:\n-> {} ms ({}%)\n'.format(final_stdev, (final_stdev / final_mean) * 100))
except KeyboardInterrupt:
self._clean_up()
sys.exit(1)
finally:
self._clean_up()
def group_init(self):
pass
def run_iteration(self):
pass
def initialize(self):
pass
def will_parse_arguments(self):
pass
def did_parse_arguments(self, args):
pass
def get_test_name(self):
return "LaunchTimeBenchmark"