#!/usr/bin/env python3 # -*- coding: utf-8 -*- #*************************************************************************** # _ _ ____ _ # Project ___| | | | _ \| | # / __| | | | |_) | | # | (__| |_| | _ <| |___ # \___|\___/|_| \_\_____| # # Copyright (C) Daniel Stenberg, , et al. # # This software is licensed as described in the file COPYING, which # you should have received as part of this distribution. The terms # are also available at https://curl.se/docs/copyright.html. # # You may opt to use, copy, modify, merge, publish, distribute and/or sell # copies of the Software, and permit persons to whom the Software is # furnished to do so, under the terms of the COPYING file. # # This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY # KIND, either express or implied. # # SPDX-License-Identifier: curl # ########################################################################### # import argparse import json import logging import os import re import sys from statistics import mean from typing import Dict, Any, Optional, List from testenv import Env, Httpd, Nghttpx, CurlClient, Caddy, ExecResult log = logging.getLogger(__name__) class ScoreCardException(Exception): pass class ScoreCard: def __init__(self, env: Env, httpd: Optional[Httpd], nghttpx: Optional[Nghttpx], caddy: Optional[Caddy], verbose: int, curl_verbose: int): self.verbose = verbose self.env = env self.httpd = httpd self.nghttpx = nghttpx self.caddy = caddy self._silent_curl = not curl_verbose def info(self, msg): if self.verbose > 0: sys.stderr.write(msg) sys.stderr.flush() def handshakes(self, proto: str) -> Dict[str, Any]: props = {} sample_size = 5 self.info(f'TLS Handshake\n') for authority in [ f'{self.env.authority_for(self.env.domain1, proto)}' ]: self.info(' localhost...') c_samples = [] hs_samples = [] errors = [] for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) url = f'https://{authority}/' r = curl.http_download(urls=[url], alpn_proto=proto, no_save=True) if r.exit_code == 0 and len(r.stats) == 1: c_samples.append(r.stats[0]['time_connect']) hs_samples.append(r.stats[0]['time_appconnect']) else: errors.append(f'exit={r.exit_code}') props['localhost'] = { 'ipv4-connect': mean(c_samples), 'ipv4-handshake': mean(hs_samples), 'ipv4-errors': errors, 'ipv6-connect': 0, 'ipv6-handshake': 0, 'ipv6-errors': [], } self.info('ok.\n') for authority in [ 'curl.se', 'nghttp2.org', ]: self.info(f' {authority}...') props[authority] = {} for ipv in ['ipv4', 'ipv6']: self.info(f'{ipv}...') c_samples = [] hs_samples = [] errors = [] for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) args = [ '--http3-only' if proto == 'h3' else '--http2', f'--{ipv}', f'https://{authority}/' ] r = curl.run_direct(args=args, with_stats=True) if r.exit_code == 0 and len(r.stats) == 1: c_samples.append(r.stats[0]['time_connect']) hs_samples.append(r.stats[0]['time_appconnect']) else: errors.append(f'exit={r.exit_code}') props[authority][f'{ipv}-connect'] = mean(c_samples) \ if len(c_samples) else -1 props[authority][f'{ipv}-handshake'] = mean(hs_samples) \ if len(hs_samples) else -1 props[authority][f'{ipv}-errors'] = errors self.info('ok.\n') return props def _make_docs_file(self, docs_dir: str, fname: str, fsize: int): fpath = os.path.join(docs_dir, fname) data1k = 1024*'x' flen = 0 with open(fpath, 'w') as fd: while flen < fsize: fd.write(data1k) flen += len(data1k) return flen def _check_downloads(self, r: ExecResult, count: int): error = '' if r.exit_code != 0: error += f'exit={r.exit_code} ' if r.exit_code != 0 or len(r.stats) != count: error += f'stats={len(r.stats)}/{count} ' fails = [s for s in r.stats if s['response_code'] != 200] if len(fails) > 0: error += f'{len(fails)} failed' return error if len(error) > 0 else None def transfer_single(self, url: str, proto: str, count: int): sample_size = count count = 1 samples = [] errors = [] self.info(f'single...') for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) r = curl.http_download(urls=[url], alpn_proto=proto, no_save=True, with_headers=False) err = self._check_downloads(r, count) if err: errors.append(err) else: total_size = sum([s['size_download'] for s in r.stats]) samples.append(total_size / r.duration.total_seconds()) return { 'count': count, 'samples': sample_size, 'speed': mean(samples) if len(samples) else -1, 'errors': errors } def transfer_serial(self, url: str, proto: str, count: int): sample_size = 1 samples = [] errors = [] url = f'{url}?[0-{count - 1}]' self.info(f'serial...') for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) r = curl.http_download(urls=[url], alpn_proto=proto, no_save=True, with_headers=False) err = self._check_downloads(r, count) if err: errors.append(err) else: total_size = sum([s['size_download'] for s in r.stats]) samples.append(total_size / r.duration.total_seconds()) return { 'count': count, 'samples': sample_size, 'speed': mean(samples) if len(samples) else -1, 'errors': errors } def transfer_parallel(self, url: str, proto: str, count: int): sample_size = 1 samples = [] errors = [] url = f'{url}?[0-{count - 1}]' self.info(f'parallel...') for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) r = curl.http_download(urls=[url], alpn_proto=proto, no_save=True, with_headers=False, extra_args=['--parallel', '--parallel-max', str(count)]) err = self._check_downloads(r, count) if err: errors.append(err) else: total_size = sum([s['size_download'] for s in r.stats]) samples.append(total_size / r.duration.total_seconds()) return { 'count': count, 'samples': sample_size, 'speed': mean(samples) if len(samples) else -1, 'errors': errors } def download_url(self, label: str, url: str, proto: str, count: int): self.info(f' {count}x{label}: ') props = { 'single': self.transfer_single(url=url, proto=proto, count=10), 'serial': self.transfer_serial(url=url, proto=proto, count=count), 'parallel': self.transfer_parallel(url=url, proto=proto, count=count), } self.info(f'ok.\n') return props def downloads(self, proto: str, count: int, fsizes: List[int]) -> Dict[str, Any]: scores = {} if self.httpd: if proto == 'h3': port = self.env.h3_port via = 'nghttpx' descr = f'port {port}, proxying httpd' else: port = self.env.https_port via = 'httpd' descr = f'port {port}' self.info(f'{via} downloads\n') scores[via] = { 'description': descr, } for fsize in fsizes: label = f'{int(fsize / 1024)}KB' if fsize < 1024*1024 else \ f'{int(fsize / (1024 * 1024))}MB' fname = f'score{label}.data' self._make_docs_file(docs_dir=self.httpd.docs_dir, fname=fname, fsize=fsize) url = f'https://{self.env.domain1}:{port}/{fname}' results = self.download_url(label=label, url=url, proto=proto, count=count) scores[via][label] = results if self.caddy: port = self.caddy.port via = 'caddy' descr = f'port {port}' self.info('caddy downloads\n') scores[via] = { 'description': descr, } for fsize in fsizes: label = f'{int(fsize / 1024)}KB' if fsize < 1024*1024 else \ f'{int(fsize / (1024 * 1024))}MB' fname = f'score{label}.data' self._make_docs_file(docs_dir=self.caddy.docs_dir, fname=fname, fsize=fsize) url = f'https://{self.env.domain1}:{port}/{fname}' results = self.download_url(label=label, url=url, proto=proto, count=count) scores[via][label] = results return scores def do_requests(self, url: str, proto: str, count: int, max_parallel: int = 1): sample_size = 1 samples = [] errors = [] url = f'{url}?[0-{count - 1}]' extra_args = ['--parallel', '--parallel-max', str(max_parallel)] \ if max_parallel > 1 else [] self.info(f'{max_parallel}...') for i in range(sample_size): curl = CurlClient(env=self.env, silent=self._silent_curl) r = curl.http_download(urls=[url], alpn_proto=proto, no_save=True, with_headers=False, extra_args=extra_args) err = self._check_downloads(r, count) if err: errors.append(err) else: for _ in r.stats: samples.append(count / r.duration.total_seconds()) return { 'count': count, 'samples': sample_size, 'speed': mean(samples) if len(samples) else -1, 'errors': errors } def requests_url(self, url: str, proto: str, count: int): self.info(f' {url}: ') props = { 'serial': self.do_requests(url=url, proto=proto, count=count), 'par-6': self.do_requests(url=url, proto=proto, count=count, max_parallel=6), 'par-25': self.do_requests(url=url, proto=proto, count=count, max_parallel=25), 'par-50': self.do_requests(url=url, proto=proto, count=count, max_parallel=50), 'par-100': self.do_requests(url=url, proto=proto, count=count, max_parallel=100), } self.info(f'ok.\n') return props def requests(self, proto: str) -> Dict[str, Any]: scores = {} if self.httpd: if proto == 'h3': port = self.env.h3_port via = 'nghttpx' descr = f'port {port}, proxying httpd' else: port = self.env.https_port via = 'httpd' descr = f'port {port}' self.info(f'{via} requests\n') self._make_docs_file(docs_dir=self.httpd.docs_dir, fname='reqs10.data', fsize=10*1024) url1 = f'https://{self.env.domain1}:{port}/reqs10.data' scores[via] = { 'description': descr, '10KB': self.requests_url(url=url1, proto=proto, count=10000), } if self.caddy: port = self.caddy.port via = 'caddy' descr = f'port {port}' self.info('caddy requests\n') self._make_docs_file(docs_dir=self.caddy.docs_dir, fname='req10.data', fsize=10 * 1024) url1 = f'https://{self.env.domain1}:{port}/req10.data' scores[via] = { 'description': descr, '10KB': self.requests_url(url=url1, proto=proto, count=5000), } return scores def score_proto(self, proto: str, handshakes: bool = True, downloads: Optional[List[int]] = None, download_count: int = 50, requests: bool = True): self.info(f"scoring {proto}\n") p = {} if proto == 'h3': p['name'] = 'h3' if not self.env.have_h3_curl(): raise ScoreCardException('curl does not support HTTP/3') for lib in ['ngtcp2', 'quiche', 'msh3']: if self.env.curl_uses_lib(lib): p['implementation'] = lib break elif proto == 'h2': p['name'] = 'h2' if not self.env.have_h2_curl(): raise ScoreCardException('curl does not support HTTP/2') for lib in ['nghttp2', 'hyper']: if self.env.curl_uses_lib(lib): p['implementation'] = lib break elif proto == 'h1' or proto == 'http/1.1': proto = 'http/1.1' p['name'] = proto p['implementation'] = 'hyper' if self.env.curl_uses_lib('hyper')\ else 'native' else: raise ScoreCardException(f"unknown protocol: {proto}") if 'implementation' not in p: raise ScoreCardException(f'did not recognized {p} lib') p['version'] = Env.curl_lib_version(p['implementation']) score = { 'curl': self.env.curl_fullname(), 'os': self.env.curl_os(), 'protocol': p, } if handshakes: score['handshakes'] = self.handshakes(proto=proto) if downloads and len(downloads) > 0: score['downloads'] = self.downloads(proto=proto, count=download_count, fsizes=downloads) if requests: score['requests'] = self.requests(proto=proto) self.info("\n") return score def fmt_ms(self, tval): return f'{int(tval*1000)} ms' if tval >= 0 else '--' def fmt_mb(self, val): return f'{val/(1024*1024):0.000f} MB' if val >= 0 else '--' def fmt_mbs(self, val): return f'{val/(1024*1024):0.000f} MB/s' if val >= 0 else '--' def fmt_reqs(self, val): return f'{val:0.000f} r/s' if val >= 0 else '--' def print_score(self, score): print(f'{score["protocol"]["name"].upper()} in {score["curl"]}') if 'handshakes' in score: print(f'{"Handshakes":<24} {"ipv4":25} {"ipv6":28}') print(f' {"Host":<17} {"Connect":>12} {"Handshake":>12} ' f'{"Connect":>12} {"Handshake":>12} {"Errors":<20}') for key, val in score["handshakes"].items(): print(f' {key:<17} {self.fmt_ms(val["ipv4-connect"]):>12} ' f'{self.fmt_ms(val["ipv4-handshake"]):>12} ' f'{self.fmt_ms(val["ipv6-connect"]):>12} ' f'{self.fmt_ms(val["ipv6-handshake"]):>12} ' f'{"/".join(val["ipv4-errors"] + val["ipv6-errors"]):<20}' ) if 'downloads' in score: print('Downloads') print(f' {"Server":<8} {"Size":>8} {"Single":>12} {"Serial":>12}' f' {"Parallel":>12} {"Errors":<20}') skeys = {} for dkey, dval in score["downloads"].items(): for k in dval.keys(): skeys[k] = True for skey in skeys: for dkey, dval in score["downloads"].items(): if skey in dval: sval = dval[skey] if isinstance(sval, str): continue errors = [] for key, val in sval.items(): if 'errors' in val: errors.extend(val['errors']) print(f' {dkey:<8} {skey:>8} ' f'{self.fmt_mbs(sval["single"]["speed"]):>12} ' f'{self.fmt_mbs(sval["serial"]["speed"]):>12} ' f'{self.fmt_mbs(sval["parallel"]["speed"]):>12} ' f' {"/".join(errors):<20}') if 'requests' in score: print('Requests, max in parallel') print(f' {"Server":<8} {"Size":>8} ' f'{"1 ":>12} {"6 ":>12} {"25 ":>12} ' f'{"50 ":>12} {"100 ":>12} {"Errors":<20}') for dkey, dval in score["requests"].items(): for skey, sval in dval.items(): if isinstance(sval, str): continue errors = [] for key, val in sval.items(): if 'errors' in val: errors.extend(val['errors']) line = f' {dkey:<8} {skey:>8} ' for k in sval.keys(): line += f'{self.fmt_reqs(sval[k]["speed"]):>12} ' line += f' {"/".join(errors):<20}' print(line) def parse_size(s): m = re.match(r'(\d+)(mb|kb|gb)?', s, re.IGNORECASE) if m is None: raise Exception(f'unrecognized size: {s}') size = int(m.group(1)) if m.group(2).lower() == 'kb': size *= 1024 elif m.group(2).lower() == 'mb': size *= 1024 * 1024 elif m.group(2).lower() == 'gb': size *= 1024 * 1024 * 1024 return size def main(): parser = argparse.ArgumentParser(prog='scorecard', description=""" Run a range of tests to give a scorecard for a HTTP protocol 'h3' or 'h2' implementation in curl. """) parser.add_argument("-v", "--verbose", action='count', default=1, help="log more output on stderr") parser.add_argument("-j", "--json", action='store_true', default=False, help="print json instead of text") parser.add_argument("-H", "--handshakes", action='store_true', default=False, help="evaluate handshakes only") parser.add_argument("-d", "--downloads", action='store_true', default=False, help="evaluate downloads only") parser.add_argument("--download", action='append', type=str, default=None, help="evaluate download size") parser.add_argument("--download-count", action='store', type=int, default=50, help="perform that many downloads") parser.add_argument("-r", "--requests", action='store_true', default=False, help="evaluate requests only") parser.add_argument("--httpd", action='store_true', default=False, help="evaluate httpd server only") parser.add_argument("--caddy", action='store_true', default=False, help="evaluate caddy server only") parser.add_argument("--curl-verbose", action='store_true', default=False, help="run curl with `-v`") parser.add_argument("protocol", default='h2', nargs='?', help="Name of protocol to score") args = parser.parse_args() if args.verbose > 0: console = logging.StreamHandler() console.setLevel(logging.INFO) console.setFormatter(logging.Formatter(logging.BASIC_FORMAT)) logging.getLogger('').addHandler(console) protocol = args.protocol handshakes = True downloads = [1024*1024, 10*1024*1024, 100*1024*1024] requests = True test_httpd = protocol != 'h3' test_caddy = True if args.handshakes: downloads = None requests = False if args.downloads: handshakes = False requests = False if args.download: downloads = sorted([parse_size(x) for x in args.download]) handshakes = False requests = False if args.requests: handshakes = False downloads = None if args.caddy: test_caddy = True test_httpd = False if args.httpd: test_caddy = False test_httpd = True rv = 0 env = Env() env.setup() env.test_timeout = None httpd = None nghttpx = None caddy = None try: if test_httpd: httpd = Httpd(env=env) assert httpd.exists(), \ f'httpd not found: {env.httpd}' httpd.clear_logs() assert httpd.start() if 'h3' == protocol: nghttpx = Nghttpx(env=env) nghttpx.clear_logs() assert nghttpx.start() if test_caddy and env.caddy: caddy = Caddy(env=env) caddy.clear_logs() assert caddy.start() card = ScoreCard(env=env, httpd=httpd, nghttpx=nghttpx, caddy=caddy, verbose=args.verbose, curl_verbose=args.curl_verbose) score = card.score_proto(proto=protocol, handshakes=handshakes, downloads=downloads, download_count=args.download_count, requests=requests) if args.json: print(json.JSONEncoder(indent=2).encode(score)) else: card.print_score(score) except ScoreCardException as ex: sys.stderr.write(f"ERROR: {str(ex)}\n") rv = 1 except KeyboardInterrupt: log.warning("aborted") rv = 1 finally: if caddy: caddy.stop() if nghttpx: nghttpx.stop(wait_dead=False) if httpd: httpd.stop() sys.exit(rv) if __name__ == "__main__": main()