#!/usr/bin/env python # -*- coding: utf-8 -*- """ Benchmark test script for OpenSlides. :copyright: 2012 by OpenSlides team, see AUTHORS. :license: GNU GPL, see LICENSE for more details. """ import argparse import multiprocessing import random import signal import sys import time import urlparse import pycurl URL_SETS = { "projector": [ dict( path = "/projector/", headers = [ "X-Requested-With: XMLHttpRequest", ] ), ], "home": [ "/", "/jsi18n/", "/static/styles/base.css", "/static/javascript/utils.js", "/static/javascript/jquery.min.js", "/static/images/bg-submenu.gif", "/static/images/bg-header.gif", "/static/images/logo.png", "/static/images/icons/dialog-information.png", "/static/images/icons/cross.png", ], "agenda": [ "/agenda/", "/static/styles/base.css", "/static/styles/tabledrag.css", "/static/javascript/utils.js", "/static/styles/agenda.css", "/static/javascript/jquery.min.js", "/jsi18n/", "/static/images/bg-header.gif", "/static/images/bg-submenu.gif", "/static/images/logo.png", "/static/images/icons/application-pdf.png", "/static/images/icons/cross.png", ], "application": [ "/application/", "/static/styles/base.css", "/static/javascript/utils.js", "/static/javascript/jquery.min.js", "/jsi18n/", "/static/images/bg-header.gif", "/static/images/bg-submenu.gif", "/static/images/icons/cross.png", "/static/images/logo.png", "/static/images/icons/application-pdf.png", ] } def nop_write(data): return len(data) class Client(object): def __init__(self): self._c = pycurl.Curl() self._c.setopt(pycurl.FAILONERROR, 1) self._c.setopt(pycurl.FOLLOWLOCATION, 1) self._c.setopt(pycurl.TIMEOUT, 10) self._c.setopt(pycurl.WRITEFUNCTION, nop_write) self._c.setopt(pycurl.AUTOREFERER, 1) def request(self, r): if isinstance(r, basestring): self._c.setopt(pycurl.URL, r) else: self._c.setopt(pycurl.URL, r["url"]) self._c.setopt(pycurl.HTTPHEADER, r["headers"]) try: self._c.perform() except pycurl.error as e: return False return True def request_loop(pause, repeat, urls, should_quit): c = Client() requests, errors = 0, 0 max_time = 0 sum_time = 0 urls = list(urls) random.shuffle(urls) for x in xrange(repeat): if should_quit.value: break if pause: time.sleep(pause) for url in urls: if should_quit.value: break requests += 1 t0 = time.time() if not c.request(url): errors += 1 t1 = time.time() dt = t1 - t0 sum_time += dt if dt > max_time: max_time = dt return requests, errors, max_time, sum_time def worker(params, should_quit, lock): signal.signal(signal.SIGINT, signal.SIG_IGN) opts = params["opts"] pause = opts.pause / 1000.0 res = request_loop(pause, opts.repeat, params["urls"], should_quit) with lock: params["requests"].value += res[0] params["errors"].value += res[1] params["max_request_time"].value = max((res[2], params["max_request_time"].value)) params["sum_request_time"].value += res[3] def main(): parser = argparse.ArgumentParser() parser.add_argument("-d", "--delay", type = int, default = 100) parser.add_argument("-j", "--jobs", type = int, default = 10) parser.add_argument("-p", "--pause", type = int, default = 500) parser.add_argument("-r", "--repeat", type = int, default = 100) parser.add_argument("-s", "--url-set", choices = list(URL_SETS), default = "projector") parser.add_argument("base_url") opts = parser.parse_args() base_url = opts.base_url urls = [] for u in URL_SETS[opts.url_set]: if isinstance(u, basestring): u = urlparse.urljoin(base_url, u) else: u["url"] = urlparse.urljoin(base_url, u["path"]) urls.append(u) data = dict( opts = opts, urls = urls, requests = multiprocessing.Value("i", 0), errors = multiprocessing.Value("i", 0), max_request_time = multiprocessing.Value("d", 0), sum_request_time = multiprocessing.Value("d", 0), ) lock = multiprocessing.Lock() quit = multiprocessing.Value("i", 0) t0 = time.time() workers = [] for job in xrange(opts.jobs): p = multiprocessing.Process(target = worker, args = (data, quit, lock)) p.daemon = True p.start() workers.append(p) # spread out the start of each worker a bit delay = opts.delay if delay != 0: if delay < 0: time.sleep(random.randint(0, -delay) / 1000.0) else: time.sleep(delay / 1000.0) try: for p in workers: p.join() except KeyboardInterrupt: quit.value = 1 for p in workers: p.join() t1 = time.time() data["total_time"] = t1 - t0 data["avg_request_time"] = data["sum_request_time"].value / data["requests"].value print("Total Requests: {requests.value}\n" "Errors: {errors.value}\n" "Jobs: {opts.jobs}\n" "Time: {total_time:.1f}s\n" "Max time per request: {max_request_time.value:.4f}s\n" "Avg time per request: {avg_request_time:.4f}s\n".format(**data)) if __name__ == "__main__": main()