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- #!/usr/bin/env python3
- # -*- coding: utf-8 -*-
- #***************************************************************************
- # _ _ ____ _
- # Project ___| | | | _ \| |
- # / __| | | | |_) | |
- # | (__| |_| | _ <| |___
- # \___|\___/|_| \_\_____|
- #
- # Copyright (C) Daniel Stenberg, <daniel@haxx.se>, 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()
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