src/third_party/mozjs-45/python/psutil/test/_windows.py - cobalt - Git at Google

 #!/usr/bin/env python

 # Copyright (c) 2009, Giampaolo Rodola'. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Windows specific tests.  These are implicitly run by test_psutil.py."""

 import errno
 import os
 import platform
 import signal
 import subprocess
 import sys
 import time
 import traceback

 from test_psutil import APPVEYOR, WINDOWS
 from test_psutil import get_test_subprocess, reap_children, unittest

 import mock
 try:
     import wmi
 except ImportError:
     wmi = None
 try:
     import win32api
     import win32con
 except ImportError:
     win32api = win32con = None

 from psutil._compat import PY3, callable, long
 import psutil


 cext = psutil._psplatform.cext


 def wrap_exceptions(fun):
     def wrapper(self, *args, **kwargs):
         try:
             return fun(self, *args, **kwargs)
         except OSError as err:
             from psutil._pswindows import ACCESS_DENIED_SET
             if err.errno in ACCESS_DENIED_SET:
                 raise psutil.AccessDenied(None, None)
             if err.errno == errno.ESRCH:
                 raise psutil.NoSuchProcess(None, None)
             raise
     return wrapper


 @unittest.skipUnless(WINDOWS, "not a Windows system")
 class WindowsSpecificTestCase(unittest.TestCase):

     @classmethod
     def setUpClass(cls):
         cls.pid = get_test_subprocess().pid

     @classmethod
     def tearDownClass(cls):
         reap_children()

     def test_issue_24(self):
         p = psutil.Process(0)
         self.assertRaises(psutil.AccessDenied, p.kill)

     def test_special_pid(self):
         p = psutil.Process(4)
         self.assertEqual(p.name(), 'System')
         # use __str__ to access all common Process properties to check
         # that nothing strange happens
         str(p)
         p.username()
         self.assertTrue(p.create_time() >= 0.0)
         try:
             rss, vms = p.memory_info()
         except psutil.AccessDenied:
             # expected on Windows Vista and Windows 7
             if not platform.uname()[1] in ('vista', 'win-7', 'win7'):
                 raise
         else:
             self.assertTrue(rss > 0)

     def test_send_signal(self):
         p = psutil.Process(self.pid)
         self.assertRaises(ValueError, p.send_signal, signal.SIGINT)

     def test_nic_names(self):
         p = subprocess.Popen(['ipconfig', '/all'], stdout=subprocess.PIPE)
         out = p.communicate()[0]
         if PY3:
             out = str(out, sys.stdout.encoding)
         nics = psutil.net_io_counters(pernic=True).keys()
         for nic in nics:
             if "pseudo-interface" in nic.replace(' ', '-').lower():
                 continue
             if nic not in out:
                 self.fail(
                     "%r nic wasn't found in 'ipconfig /all' output" % nic)

     def test_exe(self):
         for p in psutil.process_iter():
             try:
                 self.assertEqual(os.path.basename(p.exe()), p.name())
             except psutil.Error:
                 pass

     # --- Process class tests

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_name(self):
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         self.assertEqual(p.name(), w.Caption)

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_exe(self):
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         # Note: wmi reports the exe as a lower case string.
         # Being Windows paths case-insensitive we ignore that.
         self.assertEqual(p.exe().lower(), w.ExecutablePath.lower())

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_cmdline(self):
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         self.assertEqual(' '.join(p.cmdline()),
                          w.CommandLine.replace('"', ''))

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_username(self):
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         domain, _, username = w.GetOwner()
         username = "%s\\%s" % (domain, username)
         self.assertEqual(p.username(), username)

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_rss_memory(self):
         time.sleep(0.1)
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         rss = p.memory_info().rss
         self.assertEqual(rss, int(w.WorkingSetSize))

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_vms_memory(self):
         time.sleep(0.1)
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         vms = p.memory_info().vms
         # http://msdn.microsoft.com/en-us/library/aa394372(VS.85).aspx
         # ...claims that PageFileUsage is represented in Kilo
         # bytes but funnily enough on certain platforms bytes are
         # returned instead.
         wmi_usage = int(w.PageFileUsage)
         if (vms != wmi_usage) and (vms != wmi_usage * 1024):
             self.fail("wmi=%s, psutil=%s" % (wmi_usage, vms))

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_process_create_time(self):
         w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
         p = psutil.Process(self.pid)
         wmic_create = str(w.CreationDate.split('.')[0])
         psutil_create = time.strftime("%Y%m%d%H%M%S",
                                       time.localtime(p.create_time()))
         self.assertEqual(wmic_create, psutil_create)

     # --- psutil namespace functions and constants tests

     @unittest.skipUnless('NUMBER_OF_PROCESSORS' in os.environ,
                          'NUMBER_OF_PROCESSORS env var is not available')
     def test_cpu_count(self):
         num_cpus = int(os.environ['NUMBER_OF_PROCESSORS'])
         self.assertEqual(num_cpus, psutil.cpu_count())

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_total_phymem(self):
         w = wmi.WMI().Win32_ComputerSystem()[0]
         self.assertEqual(int(w.TotalPhysicalMemory),
                          psutil.virtual_memory().total)

     # @unittest.skipIf(wmi is None, "wmi module is not installed")
     # def test__UPTIME(self):
     #     # _UPTIME constant is not public but it is used internally
     #     # as value to return for pid 0 creation time.
     #     # WMI behaves the same.
     #     w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
     #     p = psutil.Process(0)
     #     wmic_create = str(w.CreationDate.split('.')[0])
     #     psutil_create = time.strftime("%Y%m%d%H%M%S",
     #                                   time.localtime(p.create_time()))
     #

     # Note: this test is not very reliable
     @unittest.skipIf(wmi is None, "wmi module is not installed")
     @unittest.skipIf(APPVEYOR, "test not relieable on appveyor")
     def test_pids(self):
         # Note: this test might fail if the OS is starting/killing
         # other processes in the meantime
         w = wmi.WMI().Win32_Process()
         wmi_pids = set([x.ProcessId for x in w])
         psutil_pids = set(psutil.pids())
         self.assertEqual(wmi_pids, psutil_pids)

     @unittest.skipIf(wmi is None, "wmi module is not installed")
     def test_disks(self):
         ps_parts = psutil.disk_partitions(all=True)
         wmi_parts = wmi.WMI().Win32_LogicalDisk()
         for ps_part in ps_parts:
             for wmi_part in wmi_parts:
                 if ps_part.device.replace('\\', '') == wmi_part.DeviceID:
                     if not ps_part.mountpoint:
                         # this is usually a CD-ROM with no disk inserted
                         break
                     try:
                         usage = psutil.disk_usage(ps_part.mountpoint)
                     except OSError as err:
                         if err.errno == errno.ENOENT:
                             # usually this is the floppy
                             break
                         else:
                             raise
                     self.assertEqual(usage.total, int(wmi_part.Size))
                     wmi_free = int(wmi_part.FreeSpace)
                     self.assertEqual(usage.free, wmi_free)
                     # 10 MB tollerance
                     if abs(usage.free - wmi_free) > 10 * 1024 * 1024:
                         self.fail("psutil=%s, wmi=%s" % (
                             usage.free, wmi_free))
                     break
             else:
                 self.fail("can't find partition %s" % repr(ps_part))

     @unittest.skipIf(win32api is None, "pywin32 module is not installed")
     def test_num_handles(self):
         p = psutil.Process(os.getpid())
         before = p.num_handles()
         handle = win32api.OpenProcess(win32con.PROCESS_QUERY_INFORMATION,
                                       win32con.FALSE, os.getpid())
         after = p.num_handles()
         self.assertEqual(after, before + 1)
         win32api.CloseHandle(handle)
         self.assertEqual(p.num_handles(), before)

     @unittest.skipIf(win32api is None, "pywin32 module is not installed")
     def test_num_handles_2(self):
         # Note: this fails from time to time; I'm keen on thinking
         # it doesn't mean something is broken
         def call(p, attr):
             attr = getattr(p, name, None)
             if attr is not None and callable(attr):
                 attr()
             else:
                 attr

         p = psutil.Process(self.pid)
         failures = []
         for name in dir(psutil.Process):
             if name.startswith('_') \
                 or name in ('terminate', 'kill', 'suspend', 'resume',
                             'nice', 'send_signal', 'wait', 'children',
                             'as_dict'):
                 continue
             else:
                 try:
                     call(p, name)
                     num1 = p.num_handles()
                     call(p, name)
                     num2 = p.num_handles()
                 except (psutil.NoSuchProcess, psutil.AccessDenied):
                     pass
                 else:
                     if num2 > num1:
                         fail = \
                             "failure while processing Process.%s method " \
                             "(before=%s, after=%s)" % (name, num1, num2)
                         failures.append(fail)
         if failures:
             self.fail('\n' + '\n'.join(failures))

     def test_name_always_available(self):
         # On Windows name() is never supposed to raise AccessDenied,
         # see https://github.com/giampaolo/psutil/issues/627
         for p in psutil.process_iter():
             try:
                 p.name()
             except psutil.NoSuchProcess():
                 pass


 @unittest.skipUnless(WINDOWS, "not a Windows system")
 class TestDualProcessImplementation(unittest.TestCase):
     """
     Certain APIs on Windows have 2 internal implementations, one
     based on documented Windows APIs, another one based
     NtQuerySystemInformation() which gets called as fallback in
     case the first fails because of limited permission error.
     Here we test that the two methods return the exact same value,
     see:
     https://github.com/giampaolo/psutil/issues/304
     """

     fun_names = [
         # function name, tolerance
         ('proc_cpu_times', 0.2),
         ('proc_create_time', 0.5),
         ('proc_num_handles', 1),  # 1 because impl #1 opens a handle
         ('proc_memory_info', 1024),  # KB
         ('proc_io_counters', 0),
     ]

     def test_compare_values(self):
         def assert_ge_0(obj):
             if isinstance(obj, tuple):
                 for value in obj:
                     self.assertGreaterEqual(value, 0, msg=obj)
             elif isinstance(obj, (int, long, float)):
                 self.assertGreaterEqual(obj, 0)
             else:
                 assert 0  # case not handled which needs to be fixed

         def compare_with_tolerance(ret1, ret2, tolerance):
             if ret1 == ret2:
                 return
             else:
                 if isinstance(ret2, (int, long, float)):
                     diff = abs(ret1 - ret2)
                     self.assertLessEqual(diff, tolerance)
                 elif isinstance(ret2, tuple):
                     for a, b in zip(ret1, ret2):
                         diff = abs(a - b)
                         self.assertLessEqual(diff, tolerance)

         from psutil._pswindows import ntpinfo
         failures = []
         for p in psutil.process_iter():
             try:
                 nt = ntpinfo(*cext.proc_info(p.pid))
             except psutil.NoSuchProcess:
                 continue
             assert_ge_0(nt)

             for name, tolerance in self.fun_names:
                 if name == 'proc_memory_info' and p.pid == os.getpid():
                     continue
                 if name == 'proc_create_time' and p.pid in (0, 4):
                     continue
                 meth = wrap_exceptions(getattr(cext, name))
                 try:
                     ret = meth(p.pid)
                 except (psutil.NoSuchProcess, psutil.AccessDenied):
                     continue
                 # compare values
                 try:
                     if name == 'proc_cpu_times':
                         compare_with_tolerance(ret[0], nt.user_time, tolerance)
                         compare_with_tolerance(ret[1],
                                                nt.kernel_time, tolerance)
                     elif name == 'proc_create_time':
                         compare_with_tolerance(ret, nt.create_time, tolerance)
                     elif name == 'proc_num_handles':
                         compare_with_tolerance(ret, nt.num_handles, tolerance)
                     elif name == 'proc_io_counters':
                         compare_with_tolerance(ret[0], nt.io_rcount, tolerance)
                         compare_with_tolerance(ret[1], nt.io_wcount, tolerance)
                         compare_with_tolerance(ret[2], nt.io_rbytes, tolerance)
                         compare_with_tolerance(ret[3], nt.io_wbytes, tolerance)
                     elif name == 'proc_memory_info':
                         try:
                             rawtupl = cext.proc_memory_info_2(p.pid)
                         except psutil.NoSuchProcess:
                             continue
                         compare_with_tolerance(ret, rawtupl, tolerance)
                 except AssertionError:
                     trace = traceback.format_exc()
                     msg = '%s\npid=%s, method=%r, ret_1=%r, ret_2=%r' % (
                         trace, p.pid, name, ret, nt)
                     failures.append(msg)
                     break

         if failures:
             self.fail('\n\n'.join(failures))

     # ---
     # same tests as above but mimicks the AccessDenied failure of
     # the first (fast) method failing with AD.
     # TODO: currently does not take tolerance into account.

     def test_name(self):
         name = psutil.Process().name()
         with mock.patch("psutil._psplatform.cext.proc_exe",
                         side_effect=psutil.AccessDenied(os.getpid())) as fun:
             psutil.Process().name() == name
             assert fun.called

     def test_memory_info(self):
         mem = psutil.Process().memory_info()
         with mock.patch("psutil._psplatform.cext.proc_memory_info",
                         side_effect=OSError(errno.EPERM, "msg")) as fun:
             psutil.Process().memory_info() == mem
             assert fun.called

     def test_create_time(self):
         ctime = psutil.Process().create_time()
         with mock.patch("psutil._psplatform.cext.proc_create_time",
                         side_effect=OSError(errno.EPERM, "msg")) as fun:
             psutil.Process().create_time() == ctime
             assert fun.called

     def test_cpu_times(self):
         cpu_times = psutil.Process().cpu_times()
         with mock.patch("psutil._psplatform.cext.proc_cpu_times",
                         side_effect=OSError(errno.EPERM, "msg")) as fun:
             psutil.Process().cpu_times() == cpu_times
             assert fun.called

     def test_io_counters(self):
         io_counters = psutil.Process().io_counters()
         with mock.patch("psutil._psplatform.cext.proc_io_counters",
                         side_effect=OSError(errno.EPERM, "msg")) as fun:
             psutil.Process().io_counters() == io_counters
             assert fun.called

     def test_num_handles(self):
         io_counters = psutil.Process().io_counters()
         with mock.patch("psutil._psplatform.cext.proc_io_counters",
                         side_effect=OSError(errno.EPERM, "msg")) as fun:
             psutil.Process().io_counters() == io_counters
             assert fun.called

     # --- other tests

     def test_compare_name_exe(self):
         for p in psutil.process_iter():
             try:
                 a = os.path.basename(p.exe())
                 b = p.name()
             except (psutil.NoSuchProcess, psutil.AccessDenied):
                 pass
             else:
                 self.assertEqual(a, b)

     def test_zombies(self):
         # test that NPS is raised by the 2nd implementation in case a
         # process no longer exists
         ZOMBIE_PID = max(psutil.pids()) + 5000
         for name, _ in self.fun_names:
             meth = wrap_exceptions(getattr(cext, name))
             self.assertRaises(psutil.NoSuchProcess, meth, ZOMBIE_PID)


 def main():
     test_suite = unittest.TestSuite()
     test_suite.addTest(unittest.makeSuite(WindowsSpecificTestCase))
     test_suite.addTest(unittest.makeSuite(TestDualProcessImplementation))
     result = unittest.TextTestRunner(verbosity=2).run(test_suite)
     return result.wasSuccessful()

 if __name__ == '__main__':
     if not main():
         sys.exit(1)
	#!/usr/bin/env python

	# Copyright (c) 2009, Giampaolo Rodola'. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Windows specific tests. These are implicitly run by test_psutil.py."""

	import errno
	import os
	import platform
	import signal
	import subprocess
	import sys
	import time
	import traceback

	from test_psutil import APPVEYOR, WINDOWS
	from test_psutil import get_test_subprocess, reap_children, unittest

	import mock
	try:
	import wmi
	except ImportError:
	wmi = None
	try:
	import win32api
	import win32con
	except ImportError:
	win32api = win32con = None

	from psutil._compat import PY3, callable, long
	import psutil


	cext = psutil._psplatform.cext


	def wrap_exceptions(fun):
	def wrapper(self, args, *kwargs):
	try:
	return fun(self, args, *kwargs)
	except OSError as err:
	from psutil._pswindows import ACCESS_DENIED_SET
	if err.errno in ACCESS_DENIED_SET:
	raise psutil.AccessDenied(None, None)
	if err.errno == errno.ESRCH:
	raise psutil.NoSuchProcess(None, None)
	raise
	return wrapper


	@unittest.skipUnless(WINDOWS, "not a Windows system")
	class WindowsSpecificTestCase(unittest.TestCase):

	@classmethod
	def setUpClass(cls):
	cls.pid = get_test_subprocess().pid

	@classmethod
	def tearDownClass(cls):
	reap_children()

	def test_issue_24(self):
	p = psutil.Process(0)
	self.assertRaises(psutil.AccessDenied, p.kill)

	def test_special_pid(self):
	p = psutil.Process(4)
	self.assertEqual(p.name(), 'System')
	# use __str__ to access all common Process properties to check
	# that nothing strange happens
	str(p)
	p.username()
	self.assertTrue(p.create_time() >= 0.0)
	try:
	rss, vms = p.memory_info()
	except psutil.AccessDenied:
	# expected on Windows Vista and Windows 7
	if not platform.uname()[1] in ('vista', 'win-7', 'win7'):
	raise
	else:
	self.assertTrue(rss > 0)

	def test_send_signal(self):
	p = psutil.Process(self.pid)
	self.assertRaises(ValueError, p.send_signal, signal.SIGINT)

	def test_nic_names(self):
	p = subprocess.Popen(['ipconfig', '/all'], stdout=subprocess.PIPE)
	out = p.communicate()[0]
	if PY3:
	out = str(out, sys.stdout.encoding)
	nics = psutil.net_io_counters(pernic=True).keys()
	for nic in nics:
	if "pseudo-interface" in nic.replace(' ', '-').lower():
	continue
	if nic not in out:
	self.fail(
	"%r nic wasn't found in 'ipconfig /all' output" % nic)

	def test_exe(self):
	for p in psutil.process_iter():
	try:
	self.assertEqual(os.path.basename(p.exe()), p.name())
	except psutil.Error:
	pass

	# --- Process class tests

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_name(self):
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	self.assertEqual(p.name(), w.Caption)

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_exe(self):
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	# Note: wmi reports the exe as a lower case string.
	# Being Windows paths case-insensitive we ignore that.
	self.assertEqual(p.exe().lower(), w.ExecutablePath.lower())

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_cmdline(self):
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	self.assertEqual(' '.join(p.cmdline()),
	w.CommandLine.replace('"', ''))

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_username(self):
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	domain, _, username = w.GetOwner()
	username = "%s\\%s" % (domain, username)
	self.assertEqual(p.username(), username)

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_rss_memory(self):
	time.sleep(0.1)
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	rss = p.memory_info().rss
	self.assertEqual(rss, int(w.WorkingSetSize))

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_vms_memory(self):
	time.sleep(0.1)
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	vms = p.memory_info().vms
	# http://msdn.microsoft.com/en-us/library/aa394372(VS.85).aspx
	# ...claims that PageFileUsage is represented in Kilo
	# bytes but funnily enough on certain platforms bytes are
	# returned instead.
	wmi_usage = int(w.PageFileUsage)
	if (vms != wmi_usage) and (vms != wmi_usage * 1024):
	self.fail("wmi=%s, psutil=%s" % (wmi_usage, vms))

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_process_create_time(self):
	w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	p = psutil.Process(self.pid)
	wmic_create = str(w.CreationDate.split('.')[0])
	psutil_create = time.strftime("%Y%m%d%H%M%S",
	time.localtime(p.create_time()))
	self.assertEqual(wmic_create, psutil_create)

	# --- psutil namespace functions and constants tests

	@unittest.skipUnless('NUMBER_OF_PROCESSORS' in os.environ,
	'NUMBER_OF_PROCESSORS env var is not available')
	def test_cpu_count(self):
	num_cpus = int(os.environ['NUMBER_OF_PROCESSORS'])
	self.assertEqual(num_cpus, psutil.cpu_count())

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_total_phymem(self):
	w = wmi.WMI().Win32_ComputerSystem()[0]
	self.assertEqual(int(w.TotalPhysicalMemory),
	psutil.virtual_memory().total)

	# @unittest.skipIf(wmi is None, "wmi module is not installed")
	# def test__UPTIME(self):
	# # _UPTIME constant is not public but it is used internally
	# # as value to return for pid 0 creation time.
	# # WMI behaves the same.
	# w = wmi.WMI().Win32_Process(ProcessId=self.pid)[0]
	# p = psutil.Process(0)
	# wmic_create = str(w.CreationDate.split('.')[0])
	# psutil_create = time.strftime("%Y%m%d%H%M%S",
	# time.localtime(p.create_time()))
	#

	# Note: this test is not very reliable
	@unittest.skipIf(wmi is None, "wmi module is not installed")
	@unittest.skipIf(APPVEYOR, "test not relieable on appveyor")
	def test_pids(self):
	# Note: this test might fail if the OS is starting/killing
	# other processes in the meantime
	w = wmi.WMI().Win32_Process()
	wmi_pids = set([x.ProcessId for x in w])
	psutil_pids = set(psutil.pids())
	self.assertEqual(wmi_pids, psutil_pids)

	@unittest.skipIf(wmi is None, "wmi module is not installed")
	def test_disks(self):
	ps_parts = psutil.disk_partitions(all=True)
	wmi_parts = wmi.WMI().Win32_LogicalDisk()
	for ps_part in ps_parts:
	for wmi_part in wmi_parts:
	if ps_part.device.replace('\\', '') == wmi_part.DeviceID:
	if not ps_part.mountpoint:
	# this is usually a CD-ROM with no disk inserted
	break
	try:
	usage = psutil.disk_usage(ps_part.mountpoint)
	except OSError as err:
	if err.errno == errno.ENOENT:
	# usually this is the floppy
	break
	else:
	raise
	self.assertEqual(usage.total, int(wmi_part.Size))
	wmi_free = int(wmi_part.FreeSpace)
	self.assertEqual(usage.free, wmi_free)
	# 10 MB tollerance
	if abs(usage.free - wmi_free) > 10 * 1024 * 1024:
	self.fail("psutil=%s, wmi=%s" % (
	usage.free, wmi_free))
	break
	else:
	self.fail("can't find partition %s" % repr(ps_part))

	@unittest.skipIf(win32api is None, "pywin32 module is not installed")
	def test_num_handles(self):
	p = psutil.Process(os.getpid())
	before = p.num_handles()
	handle = win32api.OpenProcess(win32con.PROCESS_QUERY_INFORMATION,
	win32con.FALSE, os.getpid())
	after = p.num_handles()
	self.assertEqual(after, before + 1)
	win32api.CloseHandle(handle)
	self.assertEqual(p.num_handles(), before)

	@unittest.skipIf(win32api is None, "pywin32 module is not installed")
	def test_num_handles_2(self):
	# Note: this fails from time to time; I'm keen on thinking
	# it doesn't mean something is broken
	def call(p, attr):
	attr = getattr(p, name, None)
	if attr is not None and callable(attr):
	attr()
	else:
	attr

	p = psutil.Process(self.pid)
	failures = []
	for name in dir(psutil.Process):
	if name.startswith('_') \
	or name in ('terminate', 'kill', 'suspend', 'resume',
	'nice', 'send_signal', 'wait', 'children',
	'as_dict'):
	continue
	else:
	try:
	call(p, name)
	num1 = p.num_handles()
	call(p, name)
	num2 = p.num_handles()
	except (psutil.NoSuchProcess, psutil.AccessDenied):
	pass
	else:
	if num2 > num1:
	fail = \
	"failure while processing Process.%s method " \
	"(before=%s, after=%s)" % (name, num1, num2)
	failures.append(fail)
	if failures:
	self.fail('\n' + '\n'.join(failures))

	def test_name_always_available(self):
	# On Windows name() is never supposed to raise AccessDenied,
	# see https://github.com/giampaolo/psutil/issues/627
	for p in psutil.process_iter():
	try:
	p.name()
	except psutil.NoSuchProcess():
	pass


	@unittest.skipUnless(WINDOWS, "not a Windows system")
	class TestDualProcessImplementation(unittest.TestCase):
	"""
	Certain APIs on Windows have 2 internal implementations, one
	based on documented Windows APIs, another one based
	NtQuerySystemInformation() which gets called as fallback in
	case the first fails because of limited permission error.
	Here we test that the two methods return the exact same value,
	see:
	https://github.com/giampaolo/psutil/issues/304
	"""

	fun_names = [
	# function name, tolerance
	('proc_cpu_times', 0.2),
	('proc_create_time', 0.5),
	('proc_num_handles', 1), # 1 because impl #1 opens a handle
	('proc_memory_info', 1024), # KB
	('proc_io_counters', 0),
	]

	def test_compare_values(self):
	def assert_ge_0(obj):
	if isinstance(obj, tuple):
	for value in obj:
	self.assertGreaterEqual(value, 0, msg=obj)
	elif isinstance(obj, (int, long, float)):
	self.assertGreaterEqual(obj, 0)
	else:
	assert 0 # case not handled which needs to be fixed

	def compare_with_tolerance(ret1, ret2, tolerance):
	if ret1 == ret2:
	return
	else:
	if isinstance(ret2, (int, long, float)):
	diff = abs(ret1 - ret2)
	self.assertLessEqual(diff, tolerance)
	elif isinstance(ret2, tuple):
	for a, b in zip(ret1, ret2):
	diff = abs(a - b)
	self.assertLessEqual(diff, tolerance)

	from psutil._pswindows import ntpinfo
	failures = []
	for p in psutil.process_iter():
	try:
	nt = ntpinfo(*cext.proc_info(p.pid))
	except psutil.NoSuchProcess:
	continue
	assert_ge_0(nt)

	for name, tolerance in self.fun_names:
	if name == 'proc_memory_info' and p.pid == os.getpid():
	continue
	if name == 'proc_create_time' and p.pid in (0, 4):
	continue
	meth = wrap_exceptions(getattr(cext, name))
	try:
	ret = meth(p.pid)
	except (psutil.NoSuchProcess, psutil.AccessDenied):
	continue
	# compare values
	try:
	if name == 'proc_cpu_times':
	compare_with_tolerance(ret[0], nt.user_time, tolerance)
	compare_with_tolerance(ret[1],
	nt.kernel_time, tolerance)
	elif name == 'proc_create_time':
	compare_with_tolerance(ret, nt.create_time, tolerance)
	elif name == 'proc_num_handles':
	compare_with_tolerance(ret, nt.num_handles, tolerance)
	elif name == 'proc_io_counters':
	compare_with_tolerance(ret[0], nt.io_rcount, tolerance)
	compare_with_tolerance(ret[1], nt.io_wcount, tolerance)
	compare_with_tolerance(ret[2], nt.io_rbytes, tolerance)
	compare_with_tolerance(ret[3], nt.io_wbytes, tolerance)
	elif name == 'proc_memory_info':
	try:
	rawtupl = cext.proc_memory_info_2(p.pid)
	except psutil.NoSuchProcess:
	continue
	compare_with_tolerance(ret, rawtupl, tolerance)
	except AssertionError:
	trace = traceback.format_exc()
	msg = '%s\npid=%s, method=%r, ret_1=%r, ret_2=%r' % (
	trace, p.pid, name, ret, nt)
	failures.append(msg)
	break

	if failures:
	self.fail('\n\n'.join(failures))

	# ---
	# same tests as above but mimicks the AccessDenied failure of
	# the first (fast) method failing with AD.
	# TODO: currently does not take tolerance into account.

	def test_name(self):
	name = psutil.Process().name()
	with mock.patch("psutil._psplatform.cext.proc_exe",
	side_effect=psutil.AccessDenied(os.getpid())) as fun:
	psutil.Process().name() == name
	assert fun.called

	def test_memory_info(self):
	mem = psutil.Process().memory_info()
	with mock.patch("psutil._psplatform.cext.proc_memory_info",
	side_effect=OSError(errno.EPERM, "msg")) as fun:
	psutil.Process().memory_info() == mem
	assert fun.called

	def test_create_time(self):
	ctime = psutil.Process().create_time()
	with mock.patch("psutil._psplatform.cext.proc_create_time",
	side_effect=OSError(errno.EPERM, "msg")) as fun:
	psutil.Process().create_time() == ctime
	assert fun.called

	def test_cpu_times(self):
	cpu_times = psutil.Process().cpu_times()
	with mock.patch("psutil._psplatform.cext.proc_cpu_times",
	side_effect=OSError(errno.EPERM, "msg")) as fun:
	psutil.Process().cpu_times() == cpu_times
	assert fun.called

	def test_io_counters(self):
	io_counters = psutil.Process().io_counters()
	with mock.patch("psutil._psplatform.cext.proc_io_counters",
	side_effect=OSError(errno.EPERM, "msg")) as fun:
	psutil.Process().io_counters() == io_counters
	assert fun.called

	def test_num_handles(self):
	io_counters = psutil.Process().io_counters()
	with mock.patch("psutil._psplatform.cext.proc_io_counters",
	side_effect=OSError(errno.EPERM, "msg")) as fun:
	psutil.Process().io_counters() == io_counters
	assert fun.called

	# --- other tests

	def test_compare_name_exe(self):
	for p in psutil.process_iter():
	try:
	a = os.path.basename(p.exe())
	b = p.name()
	except (psutil.NoSuchProcess, psutil.AccessDenied):
	pass
	else:
	self.assertEqual(a, b)

	def test_zombies(self):
	# test that NPS is raised by the 2nd implementation in case a
	# process no longer exists
	ZOMBIE_PID = max(psutil.pids()) + 5000
	for name, _ in self.fun_names:
	meth = wrap_exceptions(getattr(cext, name))
	self.assertRaises(psutil.NoSuchProcess, meth, ZOMBIE_PID)


	def main():
	test_suite = unittest.TestSuite()
	test_suite.addTest(unittest.makeSuite(WindowsSpecificTestCase))
	test_suite.addTest(unittest.makeSuite(TestDualProcessImplementation))
	result = unittest.TextTestRunner(verbosity=2).run(test_suite)
	return result.wasSuccessful()

	if __name__ == '__main__':
	if not main():
	sys.exit(1)