third_party/catapult/devil/devil/android/ports.py - platform/external/libmojo - Git at Google

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

 """Functions that deal with local and device ports."""

 import contextlib
 import fcntl
 import httplib
 import logging
 import os
 import socket
 import traceback

 logger = logging.getLogger(__name__)

 # The net test server is started from port 10201.
 _TEST_SERVER_PORT_FIRST = 10201
 _TEST_SERVER_PORT_LAST = 30000
 # A file to record next valid port of test server.
 _TEST_SERVER_PORT_FILE = '/tmp/test_server_port'
 _TEST_SERVER_PORT_LOCKFILE = '/tmp/test_server_port.lock'


 # The following two methods are used to allocate the port source for various
 # types of test servers. Because some net-related tests can be run on shards at
 # same time, it's important to have a mechanism to allocate the port
 # process-safe. In here, we implement the safe port allocation by leveraging
 # flock.
 def ResetTestServerPortAllocation():
   """Resets the port allocation to start from TEST_SERVER_PORT_FIRST.

   Returns:
     Returns True if reset successes. Otherwise returns False.
   """
   try:
     with open(_TEST_SERVER_PORT_FILE, 'w') as fp:
       fp.write('%d' % _TEST_SERVER_PORT_FIRST)
     return True
   except Exception:  # pylint: disable=broad-except
     logger.exception('Error while resetting port allocation')
   return False


 def AllocateTestServerPort():
   """Allocates a port incrementally.

   Returns:
     Returns a valid port which should be in between TEST_SERVER_PORT_FIRST and
     TEST_SERVER_PORT_LAST. Returning 0 means no more valid port can be used.
   """
   port = 0
   ports_tried = []
   try:
     fp_lock = open(_TEST_SERVER_PORT_LOCKFILE, 'w')
     fcntl.flock(fp_lock, fcntl.LOCK_EX)
     # Get current valid port and calculate next valid port.
     if not os.path.exists(_TEST_SERVER_PORT_FILE):
       ResetTestServerPortAllocation()
     with open(_TEST_SERVER_PORT_FILE, 'r+') as fp:
       port = int(fp.read())
       ports_tried.append(port)
       while not IsHostPortAvailable(port):
         port += 1
         ports_tried.append(port)
       if (port > _TEST_SERVER_PORT_LAST or
           port < _TEST_SERVER_PORT_FIRST):
         port = 0
       else:
         fp.seek(0, os.SEEK_SET)
         fp.write('%d' % (port + 1))
   except Exception:  # pylint: disable=broad-except
     logger.exception('Error while allocating port')
   finally:
     if fp_lock:
       fcntl.flock(fp_lock, fcntl.LOCK_UN)
       fp_lock.close()
   if port:
     logger.info('Allocate port %d for test server.', port)
   else:
     logger.error('Could not allocate port for test server. '
                  'List of ports tried: %s', str(ports_tried))
   return port


 def IsHostPortAvailable(host_port):
   """Checks whether the specified host port is available.

   Args:
     host_port: Port on host to check.

   Returns:
     True if the port on host is available, otherwise returns False.
   """
   s = socket.socket()
   try:
     s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
     s.bind(('', host_port))
     s.close()
     return True
   except socket.error:
     return False


 def IsDevicePortUsed(device, device_port, state=''):
   """Checks whether the specified device port is used or not.

   Args:
     device: A DeviceUtils instance.
     device_port: Port on device we want to check.
     state: String of the specified state. Default is empty string, which
            means any state.

   Returns:
     True if the port on device is already used, otherwise returns False.
   """
   base_urls = ('127.0.0.1:%d' % device_port, 'localhost:%d' % device_port)
   netstat_results = device.RunShellCommand(
       ['netstat', '-a'], check_return=True, large_output=True)
   for single_connect in netstat_results:
     # Column 3 is the local address which we want to check with.
     connect_results = single_connect.split()
     if connect_results[0] != 'tcp':
       continue
     if len(connect_results) < 6:
       raise Exception('Unexpected format while parsing netstat line: ' +
                       single_connect)
     is_state_match = connect_results[5] == state if state else True
     if connect_results[3] in base_urls and is_state_match:
       return True
   return False


 def IsHttpServerConnectable(host, port, tries=3, command='GET', path='/',
                             expected_read='', timeout=2):
   """Checks whether the specified http server is ready to serve request or not.

   Args:
     host: Host name of the HTTP server.
     port: Port number of the HTTP server.
     tries: How many times we want to test the connection. The default value is
            3.
     command: The http command we use to connect to HTTP server. The default
              command is 'GET'.
     path: The path we use when connecting to HTTP server. The default path is
           '/'.
     expected_read: The content we expect to read from the response. The default
                    value is ''.
     timeout: Timeout (in seconds) for each http connection. The default is 2s.

   Returns:
     Tuple of (connect status, client error). connect status is a boolean value
     to indicate whether the server is connectable. client_error is the error
     message the server returns when connect status is false.
   """
   assert tries >= 1
   for i in xrange(0, tries):
     client_error = None
     try:
       with contextlib.closing(httplib.HTTPConnection(
           host, port, timeout=timeout)) as http:
         # Output some debug information when we have tried more than 2 times.
         http.set_debuglevel(i >= 2)
         http.request(command, path)
         r = http.getresponse()
         content = r.read()
         if r.status == 200 and r.reason == 'OK' and content == expected_read:
           return (True, '')
         client_error = ('Bad response: %s %s version %s\n  ' %
                         (r.status, r.reason, r.version) +
                         '\n  '.join([': '.join(h) for h in r.getheaders()]))
     except (httplib.HTTPException, socket.error) as e:
       # Probably too quick connecting: try again.
       exception_error_msgs = traceback.format_exception_only(type(e), e)
       if exception_error_msgs:
         client_error = ''.join(exception_error_msgs)
   # Only returns last client_error.
   return (False, client_error or 'Timeout')
	# Copyright (c) 2012 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Functions that deal with local and device ports."""

	import contextlib
	import fcntl
	import httplib
	import logging
	import os
	import socket
	import traceback

	logger = logging.getLogger(__name__)

	# The net test server is started from port 10201.
	_TEST_SERVER_PORT_FIRST = 10201
	_TEST_SERVER_PORT_LAST = 30000
	# A file to record next valid port of test server.
	_TEST_SERVER_PORT_FILE = '/tmp/test_server_port'
	_TEST_SERVER_PORT_LOCKFILE = '/tmp/test_server_port.lock'


	# The following two methods are used to allocate the port source for various
	# types of test servers. Because some net-related tests can be run on shards at
	# same time, it's important to have a mechanism to allocate the port
	# process-safe. In here, we implement the safe port allocation by leveraging
	# flock.
	def ResetTestServerPortAllocation():
	"""Resets the port allocation to start from TEST_SERVER_PORT_FIRST.

	Returns:
	Returns True if reset successes. Otherwise returns False.
	"""
	try:
	with open(_TEST_SERVER_PORT_FILE, 'w') as fp:
	fp.write('%d' % _TEST_SERVER_PORT_FIRST)
	return True
	except Exception: # pylint: disable=broad-except
	logger.exception('Error while resetting port allocation')
	return False


	def AllocateTestServerPort():
	"""Allocates a port incrementally.

	Returns:
	Returns a valid port which should be in between TEST_SERVER_PORT_FIRST and
	TEST_SERVER_PORT_LAST. Returning 0 means no more valid port can be used.
	"""
	port = 0
	ports_tried = []
	try:
	fp_lock = open(_TEST_SERVER_PORT_LOCKFILE, 'w')
	fcntl.flock(fp_lock, fcntl.LOCK_EX)
	# Get current valid port and calculate next valid port.
	if not os.path.exists(_TEST_SERVER_PORT_FILE):
	ResetTestServerPortAllocation()
	with open(_TEST_SERVER_PORT_FILE, 'r+') as fp:
	port = int(fp.read())
	ports_tried.append(port)
	while not IsHostPortAvailable(port):
	port += 1
	ports_tried.append(port)
	if (port > _TEST_SERVER_PORT_LAST or
	port < _TEST_SERVER_PORT_FIRST):
	port = 0
	else:
	fp.seek(0, os.SEEK_SET)
	fp.write('%d' % (port + 1))
	except Exception: # pylint: disable=broad-except
	logger.exception('Error while allocating port')
	finally:
	if fp_lock:
	fcntl.flock(fp_lock, fcntl.LOCK_UN)
	fp_lock.close()
	if port:
	logger.info('Allocate port %d for test server.', port)
	else:
	logger.error('Could not allocate port for test server. '
	'List of ports tried: %s', str(ports_tried))
	return port


	def IsHostPortAvailable(host_port):
	"""Checks whether the specified host port is available.

	Args:
	host_port: Port on host to check.

	Returns:
	True if the port on host is available, otherwise returns False.
	"""
	s = socket.socket()
	try:
	s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
	s.bind(('', host_port))
	s.close()
	return True
	except socket.error:
	return False


	def IsDevicePortUsed(device, device_port, state=''):
	"""Checks whether the specified device port is used or not.

	Args:
	device: A DeviceUtils instance.
	device_port: Port on device we want to check.
	state: String of the specified state. Default is empty string, which
	means any state.

	Returns:
	True if the port on device is already used, otherwise returns False.
	"""
	base_urls = ('127.0.0.1:%d' % device_port, 'localhost:%d' % device_port)
	netstat_results = device.RunShellCommand(
	['netstat', '-a'], check_return=True, large_output=True)
	for single_connect in netstat_results:
	# Column 3 is the local address which we want to check with.
	connect_results = single_connect.split()
	if connect_results[0] != 'tcp':
	continue
	if len(connect_results) < 6:
	raise Exception('Unexpected format while parsing netstat line: ' +
	single_connect)
	is_state_match = connect_results[5] == state if state else True
	if connect_results[3] in base_urls and is_state_match:
	return True
	return False


	def IsHttpServerConnectable(host, port, tries=3, command='GET', path='/',
	expected_read='', timeout=2):
	"""Checks whether the specified http server is ready to serve request or not.

	Args:
	host: Host name of the HTTP server.
	port: Port number of the HTTP server.
	tries: How many times we want to test the connection. The default value is
	3.
	command: The http command we use to connect to HTTP server. The default
	command is 'GET'.
	path: The path we use when connecting to HTTP server. The default path is
	'/'.
	expected_read: The content we expect to read from the response. The default
	value is ''.
	timeout: Timeout (in seconds) for each http connection. The default is 2s.

	Returns:
	Tuple of (connect status, client error). connect status is a boolean value
	to indicate whether the server is connectable. client_error is the error
	message the server returns when connect status is false.
	"""
	assert tries >= 1
	for i in xrange(0, tries):
	client_error = None
	try:
	with contextlib.closing(httplib.HTTPConnection(
	host, port, timeout=timeout)) as http:
	# Output some debug information when we have tried more than 2 times.
	http.set_debuglevel(i >= 2)
	http.request(command, path)
	r = http.getresponse()
	content = r.read()
	if r.status == 200 and r.reason == 'OK' and content == expected_read:
	return (True, '')
	client_error = ('Bad response: %s %s version %s\n ' %
	(r.status, r.reason, r.version) +
	'\n '.join([': '.join(h) for h in r.getheaders()]))
	except (httplib.HTTPException, socket.error) as e:
	# Probably too quick connecting: try again.
	exception_error_msgs = traceback.format_exception_only(type(e), e)
	if exception_error_msgs:
	client_error = ''.join(exception_error_msgs)
	# Only returns last client_error.
	return (False, client_error or 'Timeout')