Lib/test/test_winreg.py - platform/external/python/cpython3 - Gitiles

 # Test the windows specific win32reg module.
 # Only win32reg functions not hit here: FlushKey, LoadKey and SaveKey

 from _winreg import *
 import os, sys
 import unittest

 from test import test_support

 test_key_name = "SOFTWARE\\Python Registry Test Key - Delete Me"

 test_data = [
     ("Int Value",     45,                                      REG_DWORD),
     ("String Val",    "A string value",                        REG_SZ),
     ("StringExpand",  "The path is %path%",                    REG_EXPAND_SZ),
     ("Multi-string",  ["Lots", "of", "string", "values"],      REG_MULTI_SZ),
     ("Raw Data",      b"binary\x00data",                       REG_BINARY),
     ("Big String",    "x"*(2**14-1),                           REG_SZ),
     ("Big Binary",    b"x"*(2**14),                            REG_BINARY),
 ]

 class WinregTests(unittest.TestCase):
     remote_name = None

     def WriteTestData(self, root_key):
         # Set the default value for this key.
         SetValue(root_key, test_key_name, REG_SZ, "Default value")
         key = CreateKey(root_key, test_key_name)
         # Create a sub-key
         sub_key = CreateKey(key, "sub_key")
         # Give the sub-key some named values

         for value_name, value_data, value_type in test_data:
             SetValueEx(sub_key, value_name, 0, value_type, value_data)

         # Check we wrote as many items as we thought.
         nkeys, nvalues, since_mod = QueryInfoKey(key)
         self.assertEquals(nkeys, 1, "Not the correct number of sub keys")
         self.assertEquals(nvalues, 1, "Not the correct number of values")
         nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
         self.assertEquals(nkeys, 0, "Not the correct number of sub keys")
         self.assertEquals(nvalues, len(test_data),
                           "Not the correct number of values")
         # Close this key this way...
         # (but before we do, copy the key as an integer - this allows
         # us to test that the key really gets closed).
         int_sub_key = int(sub_key)
         CloseKey(sub_key)
         try:
             QueryInfoKey(int_sub_key)
             self.fail("It appears the CloseKey() function does "
                       "not close the actual key!")
         except EnvironmentError:
             pass
         # ... and close that key that way :-)
         int_key = int(key)
         key.Close()
         try:
             QueryInfoKey(int_key)
             self.fail("It appears the key.Close() function "
                       "does not close the actual key!")
         except EnvironmentError:
             pass

     def ReadTestData(self, root_key):
         # Check we can get default value for this key.
         val = QueryValue(root_key, test_key_name)
         self.assertEquals(val, "Default value",
                           "Registry didn't give back the correct value")

         key = OpenKey(root_key, test_key_name)
         # Read the sub-keys
         sub_key = OpenKey(key, "sub_key")
         # Check I can enumerate over the values.
         index = 0
         while 1:
             try:
                 data = EnumValue(sub_key, index)
             except EnvironmentError:
                 break
             self.assertEquals(data in test_data, True,
                               "Didn't read back the correct test data")
             index = index + 1
         self.assertEquals(index, len(test_data),
                           "Didn't read the correct number of items")
         # Check I can directly access each item
         for value_name, value_data, value_type in test_data:
             read_val, read_typ = QueryValueEx(sub_key, value_name)
             self.assertEquals(read_val, value_data,
                               "Could not directly read the value")
             self.assertEquals(read_typ, value_type,
                               "Could not directly read the value")
         sub_key.Close()
         # Enumerate our main key.
         read_val = EnumKey(key, 0)
         self.assertEquals(read_val, "sub_key", "Read subkey value wrong")
         try:
             EnumKey(key, 1)
             self.fail("Was able to get a second key when I only have one!")
         except EnvironmentError:
             pass

         key.Close()

     def DeleteTestData(self, root_key):
         key = OpenKey(root_key, test_key_name, 0, KEY_ALL_ACCESS)
         sub_key = OpenKey(key, "sub_key", 0, KEY_ALL_ACCESS)
         # It is not necessary to delete the values before deleting
         # the key (although subkeys must not exist).  We delete them
         # manually just to prove we can :-)
         for value_name, value_data, value_type in test_data:
             DeleteValue(sub_key, value_name)

         nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
         self.assertEquals(nkeys, 0, "subkey not empty before delete")
         self.assertEquals(nvalues, 0, "subkey not empty before delete")
         sub_key.Close()
         DeleteKey(key, "sub_key")

         try:
             # Shouldnt be able to delete it twice!
             DeleteKey(key, "sub_key")
             self.fail("Deleting the key twice succeeded")
         except EnvironmentError:
             pass
         key.Close()
         DeleteKey(root_key, test_key_name)
         # Opening should now fail!
         try:
             key = OpenKey(root_key, test_key_name)
             self.fail("Could open the non-existent key")
         except WindowsError: # Use this error name this time
             pass

     def TestAll(self, root_key):
         self.WriteTestData(root_key)
         self.ReadTestData(root_key)
         self.DeleteTestData(root_key)

     def testLocalMachineRegistryWorks(self):
         self.TestAll(HKEY_CURRENT_USER)

     def testConnectRegistryToLocalMachineWorks(self):
         # perform minimal ConnectRegistry test which just invokes it
         h = ConnectRegistry(None, HKEY_LOCAL_MACHINE)
         h.Close()

     def testRemoteMachineRegistryWorks(self):
         if not self.remote_name:
             return # remote machine name not specified
         remote_key = ConnectRegistry(self.remote_name, HKEY_CURRENT_USER)
         self.TestAll(remote_key)

 def test_main():
     test_support.run_unittest(WinregTests)

 if __name__ == "__main__":
     try:
         WinregTests.remote_name = sys.argv[sys.argv.index("--remote")+1]
     except (IndexError, ValueError):
         print("Remote registry calls can be tested using",
               "'test_winreg.py --remote \\\\machine_name'")
         WinregTests.remote_name = None
     test_main()
	# Test the windows specific win32reg module.
	# Only win32reg functions not hit here: FlushKey, LoadKey and SaveKey

	from _winreg import *
	import os, sys
	import unittest

	from test import test_support

	test_key_name = "SOFTWARE\\Python Registry Test Key - Delete Me"

	test_data = [
	("Int Value", 45, REG_DWORD),
	("String Val", "A string value", REG_SZ),
	("StringExpand", "The path is %path%", REG_EXPAND_SZ),
	("Multi-string", ["Lots", "of", "string", "values"], REG_MULTI_SZ),
	("Raw Data", b"binary\x00data", REG_BINARY),
	("Big String", "x"(2*14-1), REG_SZ),
	("Big Binary", b"x"(2*14), REG_BINARY),
	]

	class WinregTests(unittest.TestCase):
	remote_name = None

	def WriteTestData(self, root_key):
	# Set the default value for this key.
	SetValue(root_key, test_key_name, REG_SZ, "Default value")
	key = CreateKey(root_key, test_key_name)
	# Create a sub-key
	sub_key = CreateKey(key, "sub_key")
	# Give the sub-key some named values

	for value_name, value_data, value_type in test_data:
	SetValueEx(sub_key, value_name, 0, value_type, value_data)

	# Check we wrote as many items as we thought.
	nkeys, nvalues, since_mod = QueryInfoKey(key)
	self.assertEquals(nkeys, 1, "Not the correct number of sub keys")
	self.assertEquals(nvalues, 1, "Not the correct number of values")
	nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
	self.assertEquals(nkeys, 0, "Not the correct number of sub keys")
	self.assertEquals(nvalues, len(test_data),
	"Not the correct number of values")
	# Close this key this way...
	# (but before we do, copy the key as an integer - this allows
	# us to test that the key really gets closed).
	int_sub_key = int(sub_key)
	CloseKey(sub_key)
	try:
	QueryInfoKey(int_sub_key)
	self.fail("It appears the CloseKey() function does "
	"not close the actual key!")
	except EnvironmentError:
	pass
	# ... and close that key that way :-)
	int_key = int(key)
	key.Close()
	try:
	QueryInfoKey(int_key)
	self.fail("It appears the key.Close() function "
	"does not close the actual key!")
	except EnvironmentError:
	pass

	def ReadTestData(self, root_key):
	# Check we can get default value for this key.
	val = QueryValue(root_key, test_key_name)
	self.assertEquals(val, "Default value",
	"Registry didn't give back the correct value")

	key = OpenKey(root_key, test_key_name)
	# Read the sub-keys
	sub_key = OpenKey(key, "sub_key")
	# Check I can enumerate over the values.
	index = 0
	while 1:
	try:
	data = EnumValue(sub_key, index)
	except EnvironmentError:
	break
	self.assertEquals(data in test_data, True,
	"Didn't read back the correct test data")
	index = index + 1
	self.assertEquals(index, len(test_data),
	"Didn't read the correct number of items")
	# Check I can directly access each item
	for value_name, value_data, value_type in test_data:
	read_val, read_typ = QueryValueEx(sub_key, value_name)
	self.assertEquals(read_val, value_data,
	"Could not directly read the value")
	self.assertEquals(read_typ, value_type,
	"Could not directly read the value")
	sub_key.Close()
	# Enumerate our main key.
	read_val = EnumKey(key, 0)
	self.assertEquals(read_val, "sub_key", "Read subkey value wrong")
	try:
	EnumKey(key, 1)
	self.fail("Was able to get a second key when I only have one!")
	except EnvironmentError:
	pass

	key.Close()

	def DeleteTestData(self, root_key):
	key = OpenKey(root_key, test_key_name, 0, KEY_ALL_ACCESS)
	sub_key = OpenKey(key, "sub_key", 0, KEY_ALL_ACCESS)
	# It is not necessary to delete the values before deleting
	# the key (although subkeys must not exist). We delete them
	# manually just to prove we can :-)
	for value_name, value_data, value_type in test_data:
	DeleteValue(sub_key, value_name)

	nkeys, nvalues, since_mod = QueryInfoKey(sub_key)
	self.assertEquals(nkeys, 0, "subkey not empty before delete")
	self.assertEquals(nvalues, 0, "subkey not empty before delete")
	sub_key.Close()
	DeleteKey(key, "sub_key")

	try:
	# Shouldnt be able to delete it twice!
	DeleteKey(key, "sub_key")
	self.fail("Deleting the key twice succeeded")
	except EnvironmentError:
	pass
	key.Close()
	DeleteKey(root_key, test_key_name)
	# Opening should now fail!
	try:
	key = OpenKey(root_key, test_key_name)
	self.fail("Could open the non-existent key")
	except WindowsError: # Use this error name this time
	pass

	def TestAll(self, root_key):
	self.WriteTestData(root_key)
	self.ReadTestData(root_key)
	self.DeleteTestData(root_key)

	def testLocalMachineRegistryWorks(self):
	self.TestAll(HKEY_CURRENT_USER)

	def testConnectRegistryToLocalMachineWorks(self):
	# perform minimal ConnectRegistry test which just invokes it
	h = ConnectRegistry(None, HKEY_LOCAL_MACHINE)
	h.Close()

	def testRemoteMachineRegistryWorks(self):
	if not self.remote_name:
	return # remote machine name not specified
	remote_key = ConnectRegistry(self.remote_name, HKEY_CURRENT_USER)
	self.TestAll(remote_key)

	def test_main():
	test_support.run_unittest(WinregTests)

	if __name__ == "__main__":
	try:
	WinregTests.remote_name = sys.argv[sys.argv.index("--remote")+1]
	except (IndexError, ValueError):
	print("Remote registry calls can be tested using",
	"'test_winreg.py --remote \\\\machine_name'")
	WinregTests.remote_name = None
	test_main()