client/cros/http_speed.py - chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """A tool to measure single-stream link bandwidth using HTTP connections."""

 import logging, random, time, urllib2

 import numpy.random

 TIMEOUT = 90


 class Error(Exception):
   pass


 def TimeTransfer(url, data):
     """Transfers data to/from url.  Returns (time, url contents)."""
     start_time = time.time()
     result = urllib2.urlopen(url, data=data, timeout=TIMEOUT)
     got = result.read()
     transfer_time = time.time() - start_time
     if transfer_time <= 0:
         raise Error("Transfer of %s bytes took nonsensical time %s"
                     % (url, transfer_time))
     return (transfer_time, got)


 def TimeTransferDown(url_pattern, size):
     url = url_pattern % {'size': size}
     (transfer_time, got) = TimeTransfer(url, data=None)
     if len(got) != size:
       raise Error('Got %d bytes, expected %d' % (len(got), size))
     return transfer_time


 def TimeTransferUp(url, size):
     """If size > 0, POST size bytes to URL, else GET url.  Return time taken."""
     data = numpy.random.bytes(size)
     (transfer_time, _) = TimeTransfer(url, data)
     return transfer_time


 def BenchmarkOneDirection(latency, label, url, benchmark_function):
     """Transfer a reasonable amount of data and record the speed.

     Args:
         latency:  Time for a 1-byte transfer
         label:  Label to add to perf keyvals
         url:  URL (or pattern) to transfer at
         benchmark_function:  Function to perform actual transfer
     Returns:
         Key-value dictionary, suitable for reporting to write_perf_keyval.
         """

     size = 1 << 15              # Start with a small download
     maximum_size = 1 << 24      # Go large, if necessary
     multiple = 1

     remaining = 2
     transfer_time = 0

     # Long enough that startup latency shouldn't dominate.
     target = max(20 * latency, 10)
     logging.info('Target time: %s' % target)

     while remaining > 0:
         size = min(int(size * multiple), maximum_size)
         transfer_time = benchmark_function(url, size)
         logging.info('Transfer of %s took %s (%s b/s)'
                      % (size, transfer_time, 8 * size / transfer_time))
         if transfer_time >= target:
             break
         remaining -= 1

         # Take the latency into account when guessing a size for a
         # larger transfer.  This is a pretty simple model, but it
         # appears to work.
         adjusted_transfer_time = max(transfer_time - latency, 0.01)
         multiple = target / adjusted_transfer_time

     if remaining == 0:
         logging.warning(
             'Max size transfer still took less than minimum desired time %s'
             % target)

     return {'seconds_%s_fetch_time' % label: transfer_time,
             'bytes_%s_bytes_transferred' % label: size,
             'bits_second_%s_speed' % label: 8 * size / transfer_time,
             }


 def HttpSpeed(download_url_format_string,
               upload_url):
     """Measures upload and download performance to the supplied URLs.

     Args:
         download_url_format_string:  URL pattern with %(size) for payload bytes
         upload_url:  URL that accepts large POSTs
     Returns:
         A dict of perf_keyval
     """
     # We want the download to be substantially longer than the
     # one-byte fetch time that we can isolate bandwidth instead of
     # latency.
     latency = TimeTransferDown(download_url_format_string, 1)

     logging.info('Latency is %s'  % latency)

     down = BenchmarkOneDirection(
         latency,
         'downlink',
         download_url_format_string,
         TimeTransferDown)

     up = BenchmarkOneDirection(
         latency,
         'uplink',
         upload_url,
         TimeTransferUp)

     up.update(down)
     return up
	# Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""A tool to measure single-stream link bandwidth using HTTP connections."""

	import logging, random, time, urllib2

	import numpy.random

	TIMEOUT = 90


	class Error(Exception):
	pass


	def TimeTransfer(url, data):
	"""Transfers data to/from url. Returns (time, url contents)."""
	start_time = time.time()
	result = urllib2.urlopen(url, data=data, timeout=TIMEOUT)
	got = result.read()
	transfer_time = time.time() - start_time
	if transfer_time <= 0:
	raise Error("Transfer of %s bytes took nonsensical time %s"
	% (url, transfer_time))
	return (transfer_time, got)


	def TimeTransferDown(url_pattern, size):
	url = url_pattern % {'size': size}
	(transfer_time, got) = TimeTransfer(url, data=None)
	if len(got) != size:
	raise Error('Got %d bytes, expected %d' % (len(got), size))
	return transfer_time


	def TimeTransferUp(url, size):
	"""If size > 0, POST size bytes to URL, else GET url. Return time taken."""
	data = numpy.random.bytes(size)
	(transfer_time, _) = TimeTransfer(url, data)
	return transfer_time


	def BenchmarkOneDirection(latency, label, url, benchmark_function):
	"""Transfer a reasonable amount of data and record the speed.

	Args:
	latency: Time for a 1-byte transfer
	label: Label to add to perf keyvals
	url: URL (or pattern) to transfer at
	benchmark_function: Function to perform actual transfer
	Returns:
	Key-value dictionary, suitable for reporting to write_perf_keyval.
	"""

	size = 1 << 15 # Start with a small download
	maximum_size = 1 << 24 # Go large, if necessary
	multiple = 1

	remaining = 2
	transfer_time = 0

	# Long enough that startup latency shouldn't dominate.
	target = max(20 * latency, 10)
	logging.info('Target time: %s' % target)

	while remaining > 0:
	size = min(int(size * multiple), maximum_size)
	transfer_time = benchmark_function(url, size)
	logging.info('Transfer of %s took %s (%s b/s)'
	% (size, transfer_time, 8 * size / transfer_time))
	if transfer_time >= target:
	break
	remaining -= 1

	# Take the latency into account when guessing a size for a
	# larger transfer. This is a pretty simple model, but it
	# appears to work.
	adjusted_transfer_time = max(transfer_time - latency, 0.01)
	multiple = target / adjusted_transfer_time

	if remaining == 0:
	logging.warning(
	'Max size transfer still took less than minimum desired time %s'
	% target)

	return {'seconds_%s_fetch_time' % label: transfer_time,
	'bytes_%s_bytes_transferred' % label: size,
	'bits_second_%s_speed' % label: 8 * size / transfer_time,
	}


	def HttpSpeed(download_url_format_string,
	upload_url):
	"""Measures upload and download performance to the supplied URLs.

	Args:
	download_url_format_string: URL pattern with %(size) for payload bytes
	upload_url: URL that accepts large POSTs
	Returns:
	A dict of perf_keyval
	"""
	# We want the download to be substantially longer than the
	# one-byte fetch time that we can isolate bandwidth instead of
	# latency.
	latency = TimeTransferDown(download_url_format_string, 1)

	logging.info('Latency is %s' % latency)

	down = BenchmarkOneDirection(
	latency,
	'downlink',
	download_url_format_string,
	TimeTransferDown)

	up = BenchmarkOneDirection(
	latency,
	'uplink',
	upload_url,
	TimeTransferUp)

	up.update(down)
	return up