summaryrefslogtreecommitdiffstats
path: root/Lib/test/test_winreg.py
blob: 3f73c74b02330cefda69f393c9006116f0be458f (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
# -*- coding: utf-8 -*-
# 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),
    # Two and three kanjis, meaning: "Japan" and "Japanese")
    ("Japanese 日本", "日本語", REG_SZ),
]

class WinregTests(unittest.TestCase):
    remote_name = None

    def WriteTestData(self, root_key, subkeystr="sub_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, subkeystr)
        # 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, subkeystr="sub_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
        with OpenKey(key, "sub_key") as 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, subkeystr, "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, subkeystr="sub_key"):
        key = OpenKey(root_key, test_key_name, 0, KEY_ALL_ACCESS)
        sub_key = OpenKey(key, subkeystr, 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, subkeystr)

        try:
            # Shouldnt be able to delete it twice!
            DeleteKey(key, subkeystr)
            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, subkeystr="sub_key"):
        self.WriteTestData(root_key, subkeystr)
        self.ReadTestData(root_key, subkeystr)
        self.DeleteTestData(root_key, subkeystr)

    def testLocalMachineRegistryWorks(self):
        self.TestAll(HKEY_CURRENT_USER)
        self.TestAll(HKEY_CURRENT_USER, "日本-subkey")

    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 testExpandEnvironmentStrings(self):
        r = ExpandEnvironmentStrings("%windir%\\test")
        self.assertEqual(type(r), str)
        self.assertEqual(r, os.environ["windir"] + "\\test")

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()