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40348acc18
Instead of explicitly enumerate test classes for run_unittest() use the unittest ability to discover tests. This also makes these tests discoverable and runnable with unittest. load_tests() can be used for dynamic generating tests and adding doctests. setUpModule(), tearDownModule() and addModuleCleanup() can be used for running code before and after all module tests.
497 lines
21 KiB
Python
497 lines
21 KiB
Python
# Test the windows specific win32reg module.
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# Only win32reg functions not hit here: FlushKey, LoadKey and SaveKey
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import os, sys, errno
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import unittest
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from test.support import import_helper
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import threading
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from platform import machine, win32_edition
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# Do this first so test will be skipped if module doesn't exist
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import_helper.import_module('winreg', required_on=['win'])
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# Now import everything
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from winreg import *
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try:
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REMOTE_NAME = sys.argv[sys.argv.index("--remote")+1]
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except (IndexError, ValueError):
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REMOTE_NAME = None
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# tuple of (major, minor)
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WIN_VER = sys.getwindowsversion()[:2]
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# Some tests should only run on 64-bit architectures where WOW64 will be.
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WIN64_MACHINE = True if machine() == "AMD64" else False
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# Starting with Windows 7 and Windows Server 2008 R2, WOW64 no longer uses
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# registry reflection and formerly reflected keys are shared instead.
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# Windows 7 and Windows Server 2008 R2 are version 6.1. Due to this, some
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# tests are only valid up until 6.1
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HAS_REFLECTION = True if WIN_VER < (6, 1) else False
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# Use a per-process key to prevent concurrent test runs (buildbot!) from
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# stomping on each other.
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test_key_base = "Python Test Key [%d] - Delete Me" % (os.getpid(),)
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test_key_name = "SOFTWARE\\" + test_key_base
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# On OS'es that support reflection we should test with a reflected key
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test_reflect_key_name = "SOFTWARE\\Classes\\" + test_key_base
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test_data = [
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("Int Value", 45, REG_DWORD),
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("Qword Value", 0x1122334455667788, REG_QWORD),
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("String Val", "A string value", REG_SZ),
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("StringExpand", "The path is %path%", REG_EXPAND_SZ),
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("Multi-string", ["Lots", "of", "string", "values"], REG_MULTI_SZ),
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("Multi-nul", ["", "", "", ""], REG_MULTI_SZ),
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("Raw Data", b"binary\x00data", REG_BINARY),
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("Big String", "x"*(2**14-1), REG_SZ),
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("Big Binary", b"x"*(2**14), REG_BINARY),
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# Two and three kanjis, meaning: "Japan" and "Japanese")
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("Japanese 日本", "日本語", REG_SZ),
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]
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class BaseWinregTests(unittest.TestCase):
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def setUp(self):
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# Make sure that the test key is absent when the test
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# starts.
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self.delete_tree(HKEY_CURRENT_USER, test_key_name)
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def delete_tree(self, root, subkey):
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try:
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hkey = OpenKey(root, subkey, 0, KEY_ALL_ACCESS)
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except OSError:
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# subkey does not exist
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return
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while True:
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try:
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subsubkey = EnumKey(hkey, 0)
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except OSError:
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# no more subkeys
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break
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self.delete_tree(hkey, subsubkey)
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CloseKey(hkey)
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DeleteKey(root, subkey)
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def _write_test_data(self, root_key, subkeystr="sub_key",
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CreateKey=CreateKey):
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# Set the default value for this key.
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SetValue(root_key, test_key_name, REG_SZ, "Default value")
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key = CreateKey(root_key, test_key_name)
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self.assertTrue(key.handle != 0)
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# Create a sub-key
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sub_key = CreateKey(key, subkeystr)
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# Give the sub-key some named values
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for value_name, value_data, value_type in test_data:
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SetValueEx(sub_key, value_name, 0, value_type, value_data)
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# Check we wrote as many items as we thought.
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nkeys, nvalues, since_mod = QueryInfoKey(key)
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self.assertEqual(nkeys, 1, "Not the correct number of sub keys")
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self.assertEqual(nvalues, 1, "Not the correct number of values")
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nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
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self.assertEqual(nkeys, 0, "Not the correct number of sub keys")
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self.assertEqual(nvalues, len(test_data),
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"Not the correct number of values")
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# Close this key this way...
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# (but before we do, copy the key as an integer - this allows
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# us to test that the key really gets closed).
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int_sub_key = int(sub_key)
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CloseKey(sub_key)
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try:
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QueryInfoKey(int_sub_key)
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self.fail("It appears the CloseKey() function does "
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"not close the actual key!")
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except OSError:
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pass
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# ... and close that key that way :-)
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int_key = int(key)
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key.Close()
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try:
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QueryInfoKey(int_key)
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self.fail("It appears the key.Close() function "
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"does not close the actual key!")
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except OSError:
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pass
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def _read_test_data(self, root_key, subkeystr="sub_key", OpenKey=OpenKey):
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# Check we can get default value for this key.
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val = QueryValue(root_key, test_key_name)
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self.assertEqual(val, "Default value",
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"Registry didn't give back the correct value")
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key = OpenKey(root_key, test_key_name)
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# Read the sub-keys
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with OpenKey(key, subkeystr) as sub_key:
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# Check I can enumerate over the values.
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index = 0
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while 1:
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try:
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data = EnumValue(sub_key, index)
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except OSError:
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break
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self.assertEqual(data in test_data, True,
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"Didn't read back the correct test data")
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index = index + 1
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self.assertEqual(index, len(test_data),
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"Didn't read the correct number of items")
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# Check I can directly access each item
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for value_name, value_data, value_type in test_data:
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read_val, read_typ = QueryValueEx(sub_key, value_name)
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self.assertEqual(read_val, value_data,
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"Could not directly read the value")
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self.assertEqual(read_typ, value_type,
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"Could not directly read the value")
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sub_key.Close()
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# Enumerate our main key.
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read_val = EnumKey(key, 0)
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self.assertEqual(read_val, subkeystr, "Read subkey value wrong")
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try:
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EnumKey(key, 1)
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self.fail("Was able to get a second key when I only have one!")
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except OSError:
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pass
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key.Close()
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def _delete_test_data(self, root_key, subkeystr="sub_key"):
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key = OpenKey(root_key, test_key_name, 0, KEY_ALL_ACCESS)
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sub_key = OpenKey(key, subkeystr, 0, KEY_ALL_ACCESS)
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# It is not necessary to delete the values before deleting
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# the key (although subkeys must not exist). We delete them
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# manually just to prove we can :-)
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for value_name, value_data, value_type in test_data:
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DeleteValue(sub_key, value_name)
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nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
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self.assertEqual(nkeys, 0, "subkey not empty before delete")
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self.assertEqual(nvalues, 0, "subkey not empty before delete")
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sub_key.Close()
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DeleteKey(key, subkeystr)
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try:
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# Shouldn't be able to delete it twice!
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DeleteKey(key, subkeystr)
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self.fail("Deleting the key twice succeeded")
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except OSError:
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pass
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key.Close()
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DeleteKey(root_key, test_key_name)
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# Opening should now fail!
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try:
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key = OpenKey(root_key, test_key_name)
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self.fail("Could open the non-existent key")
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except OSError: # Use this error name this time
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pass
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def _test_all(self, root_key, subkeystr="sub_key"):
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self._write_test_data(root_key, subkeystr)
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self._read_test_data(root_key, subkeystr)
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self._delete_test_data(root_key, subkeystr)
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def _test_named_args(self, key, sub_key):
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with CreateKeyEx(key=key, sub_key=sub_key, reserved=0,
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access=KEY_ALL_ACCESS) as ckey:
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self.assertTrue(ckey.handle != 0)
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with OpenKeyEx(key=key, sub_key=sub_key, reserved=0,
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access=KEY_ALL_ACCESS) as okey:
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self.assertTrue(okey.handle != 0)
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class LocalWinregTests(BaseWinregTests):
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def test_registry_works(self):
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self._test_all(HKEY_CURRENT_USER)
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self._test_all(HKEY_CURRENT_USER, "日本-subkey")
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def test_registry_works_extended_functions(self):
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# Substitute the regular CreateKey and OpenKey calls with their
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# extended counterparts.
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# Note: DeleteKeyEx is not used here because it is platform dependent
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cke = lambda key, sub_key: CreateKeyEx(key, sub_key, 0, KEY_ALL_ACCESS)
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self._write_test_data(HKEY_CURRENT_USER, CreateKey=cke)
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oke = lambda key, sub_key: OpenKeyEx(key, sub_key, 0, KEY_READ)
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self._read_test_data(HKEY_CURRENT_USER, OpenKey=oke)
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self._delete_test_data(HKEY_CURRENT_USER)
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def test_named_arguments(self):
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self._test_named_args(HKEY_CURRENT_USER, test_key_name)
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# Use the regular DeleteKey to clean up
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# DeleteKeyEx takes named args and is tested separately
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_connect_registry_to_local_machine_works(self):
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# perform minimal ConnectRegistry test which just invokes it
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h = ConnectRegistry(None, HKEY_LOCAL_MACHINE)
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self.assertNotEqual(h.handle, 0)
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h.Close()
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self.assertEqual(h.handle, 0)
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def test_nonexistent_remote_registry(self):
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connect = lambda: ConnectRegistry("abcdefghijkl", HKEY_CURRENT_USER)
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self.assertRaises(OSError, connect)
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def testExpandEnvironmentStrings(self):
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r = ExpandEnvironmentStrings("%windir%\\test")
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self.assertEqual(type(r), str)
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self.assertEqual(r, os.environ["windir"] + "\\test")
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def test_context_manager(self):
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# ensure that the handle is closed if an exception occurs
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try:
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with ConnectRegistry(None, HKEY_LOCAL_MACHINE) as h:
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self.assertNotEqual(h.handle, 0)
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raise OSError
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except OSError:
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self.assertEqual(h.handle, 0)
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def test_changing_value(self):
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# Issue2810: A race condition in 2.6 and 3.1 may cause
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# EnumValue or QueryValue to raise "WindowsError: More data is
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# available"
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done = False
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class VeryActiveThread(threading.Thread):
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def run(self):
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as key:
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use_short = True
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long_string = 'x'*2000
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while not done:
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s = 'x' if use_short else long_string
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use_short = not use_short
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SetValue(key, 'changing_value', REG_SZ, s)
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thread = VeryActiveThread()
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thread.start()
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try:
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with CreateKey(HKEY_CURRENT_USER,
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test_key_name+'\\changing_value') as key:
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for _ in range(1000):
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num_subkeys, num_values, t = QueryInfoKey(key)
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for i in range(num_values):
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name = EnumValue(key, i)
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QueryValue(key, name[0])
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finally:
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done = True
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thread.join()
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DeleteKey(HKEY_CURRENT_USER, test_key_name+'\\changing_value')
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_long_key(self):
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# Issue2810, in 2.6 and 3.1 when the key name was exactly 256
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# characters, EnumKey raised "WindowsError: More data is
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# available"
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name = 'x'*256
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as key:
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SetValue(key, name, REG_SZ, 'x')
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num_subkeys, num_values, t = QueryInfoKey(key)
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EnumKey(key, 0)
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finally:
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DeleteKey(HKEY_CURRENT_USER, '\\'.join((test_key_name, name)))
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_dynamic_key(self):
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# Issue2810, when the value is dynamically generated, these
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# raise "WindowsError: More data is available" in 2.6 and 3.1
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try:
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EnumValue(HKEY_PERFORMANCE_DATA, 0)
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except OSError as e:
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if e.errno in (errno.EPERM, errno.EACCES):
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self.skipTest("access denied to registry key "
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"(are you running in a non-interactive session?)")
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raise
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QueryValueEx(HKEY_PERFORMANCE_DATA, "")
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# Reflection requires XP x64/Vista at a minimum. XP doesn't have this stuff
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# or DeleteKeyEx so make sure their use raises NotImplementedError
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@unittest.skipUnless(WIN_VER < (5, 2), "Requires Windows XP")
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def test_reflection_unsupported(self):
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as ck:
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self.assertNotEqual(ck.handle, 0)
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key = OpenKey(HKEY_CURRENT_USER, test_key_name)
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self.assertNotEqual(key.handle, 0)
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with self.assertRaises(NotImplementedError):
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DisableReflectionKey(key)
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with self.assertRaises(NotImplementedError):
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EnableReflectionKey(key)
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with self.assertRaises(NotImplementedError):
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QueryReflectionKey(key)
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with self.assertRaises(NotImplementedError):
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DeleteKeyEx(HKEY_CURRENT_USER, test_key_name)
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finally:
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_setvalueex_value_range(self):
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# Test for Issue #14420, accept proper ranges for SetValueEx.
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# Py2Reg, which gets called by SetValueEx, was using PyLong_AsLong,
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# thus raising OverflowError. The implementation now uses
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# PyLong_AsUnsignedLong to match DWORD's size.
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as ck:
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self.assertNotEqual(ck.handle, 0)
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SetValueEx(ck, "test_name", None, REG_DWORD, 0x80000000)
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finally:
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_queryvalueex_return_value(self):
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# Test for Issue #16759, return unsigned int from QueryValueEx.
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# Reg2Py, which gets called by QueryValueEx, was returning a value
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# generated by PyLong_FromLong. The implementation now uses
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# PyLong_FromUnsignedLong to match DWORD's size.
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as ck:
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self.assertNotEqual(ck.handle, 0)
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test_val = 0x80000000
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SetValueEx(ck, "test_name", None, REG_DWORD, test_val)
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ret_val, ret_type = QueryValueEx(ck, "test_name")
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self.assertEqual(ret_type, REG_DWORD)
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self.assertEqual(ret_val, test_val)
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finally:
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_setvalueex_crash_with_none_arg(self):
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# Test for Issue #21151, segfault when None is passed to SetValueEx
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as ck:
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self.assertNotEqual(ck.handle, 0)
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test_val = None
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SetValueEx(ck, "test_name", 0, REG_BINARY, test_val)
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ret_val, ret_type = QueryValueEx(ck, "test_name")
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self.assertEqual(ret_type, REG_BINARY)
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self.assertEqual(ret_val, test_val)
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finally:
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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def test_read_string_containing_null(self):
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# Test for issue 25778: REG_SZ should not contain null characters
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try:
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with CreateKey(HKEY_CURRENT_USER, test_key_name) as ck:
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self.assertNotEqual(ck.handle, 0)
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test_val = "A string\x00 with a null"
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SetValueEx(ck, "test_name", 0, REG_SZ, test_val)
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ret_val, ret_type = QueryValueEx(ck, "test_name")
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self.assertEqual(ret_type, REG_SZ)
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self.assertEqual(ret_val, "A string")
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finally:
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DeleteKey(HKEY_CURRENT_USER, test_key_name)
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@unittest.skipUnless(REMOTE_NAME, "Skipping remote registry tests")
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class RemoteWinregTests(BaseWinregTests):
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def test_remote_registry_works(self):
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remote_key = ConnectRegistry(REMOTE_NAME, HKEY_CURRENT_USER)
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self._test_all(remote_key)
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@unittest.skipUnless(WIN64_MACHINE, "x64 specific registry tests")
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class Win64WinregTests(BaseWinregTests):
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def test_named_arguments(self):
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self._test_named_args(HKEY_CURRENT_USER, test_key_name)
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# Clean up and also exercise the named arguments
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DeleteKeyEx(key=HKEY_CURRENT_USER, sub_key=test_key_name,
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access=KEY_ALL_ACCESS, reserved=0)
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@unittest.skipIf(win32_edition() in ('WindowsCoreHeadless', 'IoTEdgeOS'), "APIs not available on WindowsCoreHeadless")
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def test_reflection_functions(self):
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# Test that we can call the query, enable, and disable functions
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# on a key which isn't on the reflection list with no consequences.
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with OpenKey(HKEY_LOCAL_MACHINE, "Software") as key:
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# HKLM\Software is redirected but not reflected in all OSes
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self.assertTrue(QueryReflectionKey(key))
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self.assertIsNone(EnableReflectionKey(key))
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self.assertIsNone(DisableReflectionKey(key))
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self.assertTrue(QueryReflectionKey(key))
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@unittest.skipUnless(HAS_REFLECTION, "OS doesn't support reflection")
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def test_reflection(self):
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# Test that we can create, open, and delete keys in the 32-bit
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# area. Because we are doing this in a key which gets reflected,
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# test the differences of 32 and 64-bit keys before and after the
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# reflection occurs (ie. when the created key is closed).
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try:
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with CreateKeyEx(HKEY_CURRENT_USER, test_reflect_key_name, 0,
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KEY_ALL_ACCESS | KEY_WOW64_32KEY) as created_key:
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self.assertNotEqual(created_key.handle, 0)
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# The key should now be available in the 32-bit area
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with OpenKey(HKEY_CURRENT_USER, test_reflect_key_name, 0,
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KEY_ALL_ACCESS | KEY_WOW64_32KEY) as key:
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self.assertNotEqual(key.handle, 0)
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# Write a value to what currently is only in the 32-bit area
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SetValueEx(created_key, "", 0, REG_SZ, "32KEY")
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# The key is not reflected until created_key is closed.
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# The 64-bit version of the key should not be available yet.
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open_fail = lambda: OpenKey(HKEY_CURRENT_USER,
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test_reflect_key_name, 0,
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KEY_READ | KEY_WOW64_64KEY)
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self.assertRaises(OSError, open_fail)
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# Now explicitly open the 64-bit version of the key
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with OpenKey(HKEY_CURRENT_USER, test_reflect_key_name, 0,
|
|
KEY_ALL_ACCESS | KEY_WOW64_64KEY) as key:
|
|
self.assertNotEqual(key.handle, 0)
|
|
# Make sure the original value we set is there
|
|
self.assertEqual("32KEY", QueryValue(key, ""))
|
|
# Set a new value, which will get reflected to 32-bit
|
|
SetValueEx(key, "", 0, REG_SZ, "64KEY")
|
|
|
|
# Reflection uses a "last-writer wins policy, so the value we set
|
|
# on the 64-bit key should be the same on 32-bit
|
|
with OpenKey(HKEY_CURRENT_USER, test_reflect_key_name, 0,
|
|
KEY_READ | KEY_WOW64_32KEY) as key:
|
|
self.assertEqual("64KEY", QueryValue(key, ""))
|
|
finally:
|
|
DeleteKeyEx(HKEY_CURRENT_USER, test_reflect_key_name,
|
|
KEY_WOW64_32KEY, 0)
|
|
|
|
@unittest.skipUnless(HAS_REFLECTION, "OS doesn't support reflection")
|
|
def test_disable_reflection(self):
|
|
# Make use of a key which gets redirected and reflected
|
|
try:
|
|
with CreateKeyEx(HKEY_CURRENT_USER, test_reflect_key_name, 0,
|
|
KEY_ALL_ACCESS | KEY_WOW64_32KEY) as created_key:
|
|
# QueryReflectionKey returns whether or not the key is disabled
|
|
disabled = QueryReflectionKey(created_key)
|
|
self.assertEqual(type(disabled), bool)
|
|
# HKCU\Software\Classes is reflected by default
|
|
self.assertFalse(disabled)
|
|
|
|
DisableReflectionKey(created_key)
|
|
self.assertTrue(QueryReflectionKey(created_key))
|
|
|
|
# The key is now closed and would normally be reflected to the
|
|
# 64-bit area, but let's make sure that didn't happen.
|
|
open_fail = lambda: OpenKeyEx(HKEY_CURRENT_USER,
|
|
test_reflect_key_name, 0,
|
|
KEY_READ | KEY_WOW64_64KEY)
|
|
self.assertRaises(OSError, open_fail)
|
|
|
|
# Make sure the 32-bit key is actually there
|
|
with OpenKeyEx(HKEY_CURRENT_USER, test_reflect_key_name, 0,
|
|
KEY_READ | KEY_WOW64_32KEY) as key:
|
|
self.assertNotEqual(key.handle, 0)
|
|
finally:
|
|
DeleteKeyEx(HKEY_CURRENT_USER, test_reflect_key_name,
|
|
KEY_WOW64_32KEY, 0)
|
|
|
|
def test_exception_numbers(self):
|
|
with self.assertRaises(FileNotFoundError) as ctx:
|
|
QueryValue(HKEY_CLASSES_ROOT, 'some_value_that_does_not_exist')
|
|
|
|
|
|
if __name__ == "__main__":
|
|
if not REMOTE_NAME:
|
|
print("Remote registry calls can be tested using",
|
|
"'test_winreg.py --remote \\\\machine_name'")
|
|
unittest.main()
|