func walkKey(t *testing.T, k registry.Key, kname string) { names, err := k.ReadValueNames(-1) if err != nil { t.Fatalf("reading value names of %s failed: %v", kname, err) } for _, name := range names { _, valtype, err := k.GetValue(name, nil) if err != nil { t.Fatalf("reading value type of %s of %s failed: %v", name, kname, err) } switch valtype { case registry.NONE: case registry.SZ: _, _, err := k.GetStringValue(name) if err != nil { t.Error(err) } case registry.EXPAND_SZ: s, _, err := k.GetStringValue(name) if err != nil { t.Error(err) } _, err = registry.ExpandString(s) if err != nil { t.Error(err) } case registry.DWORD, registry.QWORD: _, _, err := k.GetIntegerValue(name) if err != nil { t.Error(err) } case registry.BINARY: _, _, err := k.GetBinaryValue(name) if err != nil { t.Error(err) } case registry.MULTI_SZ: _, _, err := k.GetStringsValue(name) if err != nil { t.Error(err) } case registry.FULL_RESOURCE_DESCRIPTOR, registry.RESOURCE_LIST, registry.RESOURCE_REQUIREMENTS_LIST: // TODO: not implemented default: t.Fatalf("value type %d of %s of %s failed: %v", valtype, name, kname, err) } } names, err = k.ReadSubKeyNames(-1) if err != nil { t.Fatalf("reading sub-keys of %s failed: %v", kname, err) } for _, name := range names { func() { subk, err := registry.OpenKey(k, name, registry.ENUMERATE_SUB_KEYS|registry.QUERY_VALUE) if err != nil { if err == syscall.ERROR_ACCESS_DENIED { // ignore error, if we are not allowed to access this key return } t.Fatalf("opening sub-keys %s of %s failed: %v", name, kname, err) } defer subk.Close() walkKey(t, subk, kname+`\`+name) }() } }
func testValues(t *testing.T, k registry.Key) { for _, test := range ValueTests { switch test.Type { case registry.SZ, registry.EXPAND_SZ: if test.WillFail { _, _, err := k.GetStringValue(test.Name) testErrNotExist(t, test.Name, err) } else { testGetStringValue(t, k, test) _, gottype, err := k.GetIntegerValue(test.Name) testErrUnexpectedType(t, test, gottype, err) // Size of utf16 string in bytes is not perfect, // but correct for current test values. // Size also includes terminating 0. testGetValue(t, k, test, (len(test.Value.(string))+1)*2) } _, _, err := k.GetStringValue(test.Name + "_string_not_created") testErrNotExist(t, test.Name+"_string_not_created", err) case registry.DWORD, registry.QWORD: testGetIntegerValue(t, k, test) _, gottype, err := k.GetBinaryValue(test.Name) testErrUnexpectedType(t, test, gottype, err) _, _, err = k.GetIntegerValue(test.Name + "_int_not_created") testErrNotExist(t, test.Name+"_int_not_created", err) size := 8 if test.Type == registry.DWORD { size = 4 } testGetValue(t, k, test, size) case registry.BINARY: testGetBinaryValue(t, k, test) _, gottype, err := k.GetStringsValue(test.Name) testErrUnexpectedType(t, test, gottype, err) _, _, err = k.GetBinaryValue(test.Name + "_byte_not_created") testErrNotExist(t, test.Name+"_byte_not_created", err) testGetValue(t, k, test, len(test.Value.([]byte))) case registry.MULTI_SZ: if test.WillFail { _, _, err := k.GetStringsValue(test.Name) testErrNotExist(t, test.Name, err) } else { testGetStringsValue(t, k, test) _, gottype, err := k.GetStringValue(test.Name) testErrUnexpectedType(t, test, gottype, err) size := 0 for _, s := range test.Value.([]string) { size += len(s) + 1 // nil terminated } size += 1 // extra nil at the end size *= 2 // count bytes, not uint16 testGetValue(t, k, test, size) } _, _, err := k.GetStringsValue(test.Name + "_strings_not_created") testErrNotExist(t, test.Name+"_strings_not_created", err) default: t.Errorf("unsupported type %d for %s value", test.Type, test.Name) continue } } }
func testStat(t *testing.T, k registry.Key) { subk, _, err := registry.CreateKey(k, "subkey", registry.CREATE_SUB_KEY) if err != nil { t.Error(err) return } defer subk.Close() defer registry.DeleteKey(k, "subkey") ki, err := k.Stat() if err != nil { t.Error(err) return } if ki.SubKeyCount != 1 { t.Error("key must have 1 subkey") } if ki.MaxSubKeyLen != 6 { t.Error("key max subkey name length must be 6") } if ki.ValueCount != 24 { t.Errorf("key must have 24 values, but is %d", ki.ValueCount) } if ki.MaxValueNameLen != 12 { t.Errorf("key max value name length must be 10, but is %d", ki.MaxValueNameLen) } if ki.MaxValueLen != 38 { t.Errorf("key max value length must be 38, but is %d", ki.MaxValueLen) } if mt, ct := ki.ModTime(), time.Now(); ct.Sub(mt) > 100*time.Millisecond { t.Errorf("key mod time is not close to current time: mtime=%v current=%v delta=%v", mt, ct, ct.Sub(mt)) } }
func enumerateValues(t *testing.T, k registry.Key) { names, err := k.ReadValueNames(-1) if err != nil { t.Error(err) return } haveNames := make(map[string]bool) for _, n := range names { haveNames[n] = false } for _, test := range ValueTests { wantFound := !test.WillFail _, haveFound := haveNames[test.Name] if wantFound && !haveFound { t.Errorf("value %s is not found while enumerating", test.Name) } if haveFound && !wantFound { t.Errorf("value %s is found while enumerating, but expected to fail", test.Name) } if haveFound { delete(haveNames, test.Name) } } for n, v := range haveNames { t.Errorf("value %s (%v) is found while enumerating, but has not been cretaed", n, v) } }
func testGetStringsValue(t *testing.T, k registry.Key, test ValueTest) { got, gottype, err := k.GetStringsValue(test.Name) if err != nil { t.Errorf("GetStringsValue(%s) failed: %v", test.Name, err) return } if !equalStringSlice(got, test.Value.([]string)) { t.Errorf("want %s value %#v, got %#v", test.Name, test.Value, got) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } }
func testGetBinaryValue(t *testing.T, k registry.Key, test ValueTest) { got, gottype, err := k.GetBinaryValue(test.Name) if err != nil { t.Errorf("GetBinaryValue(%s) failed: %v", test.Name, err) return } if !bytes.Equal(got, test.Value.([]byte)) { t.Errorf("want %s value %v, got %v", test.Name, test.Value, got) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } }
func testGetIntegerValue(t *testing.T, k registry.Key, test ValueTest) { got, gottype, err := k.GetIntegerValue(test.Name) if err != nil { t.Errorf("GetIntegerValue(%s) failed: %v", test.Name, err) return } if got != test.Value.(uint64) { t.Errorf("want %s value %v, got %v", test.Name, test.Value, got) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } }
func (wnic windowsManager) setInterfaceMACAddress(hwAddr string) error { var interfaceRegKey registry.Key var err error //open registry if interfaceRegKey, err = registry.OpenKey(registry.LOCAL_MACHINE, wnic.interfaceRegKey, registry.WRITE); err != nil { return fmt.Errorf("Unable to open registry key for writing: '%s'\n%s\n", wnic.interfaceRegKey, err) } defer interfaceRegKey.Close() //write spoofed mac to registry hwAddr = wnic.formatMacAddress(hwAddr) if err = interfaceRegKey.SetStringValue("NetworkAddress", hwAddr); err != nil { return fmt.Errorf("Unable to write MAC to registry: '%s'\n%s\n", wnic.interfaceRegKey, err) } return nil }
// readCredentialSpecRegistry is a helper function to read a credential spec from // the registry. If not found, we return an empty string and warn in the log. // This allows for staging on machines which do not have the necessary components. func readCredentialSpecRegistry(id, name string) (string, error) { var ( k registry.Key err error val string ) if k, err = registry.OpenKey(registry.LOCAL_MACHINE, credentialSpecRegistryLocation, registry.QUERY_VALUE); err != nil { return "", fmt.Errorf("failed handling spec %q for container %s - %s could not be opened", name, id, credentialSpecRegistryLocation) } if val, _, err = k.GetStringValue(name); err != nil { if err == registry.ErrNotExist { return "", fmt.Errorf("credential spec %q for container %s as it was not found", name, id) } return "", fmt.Errorf("error %v reading credential spec %q from registry for container %s", err, name, id) } return val, nil }
func deleteValues(t *testing.T, k registry.Key) { for _, test := range ValueTests { if test.WillFail { continue } err := k.DeleteValue(test.Name) if err != nil { t.Error(err) continue } } names, err := k.ReadValueNames(-1) if err != nil { t.Error(err) return } if len(names) != 0 { t.Errorf("some values remain after deletion: %v", names) } }
func testGetStringValue(t *testing.T, k registry.Key, test ValueTest) { got, gottype, err := k.GetStringValue(test.Name) if err != nil { t.Errorf("GetStringValue(%s) failed: %v", test.Name, err) return } if got != test.Value { t.Errorf("want %s value %q, got %q", test.Name, test.Value, got) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } if gottype == registry.EXPAND_SZ { _, err = registry.ExpandString(got) if err != nil { t.Errorf("ExpandString(%s) failed: %v", got, err) return } } }
func testGetValue(t *testing.T, k registry.Key, test ValueTest, size int) { if size <= 0 { return } // read data with no buffer gotsize, gottype, err := k.GetValue(test.Name, nil) if err != nil { t.Errorf("GetValue(%s, [%d]byte) failed: %v", test.Name, size, err) return } if gotsize != size { t.Errorf("want %s value size of %d, got %v", test.Name, size, gotsize) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } // read data with short buffer gotsize, gottype, err = k.GetValue(test.Name, make([]byte, size-1)) if err == nil { t.Errorf("GetValue(%s, [%d]byte) should fail, but suceeded", test.Name, size-1) return } if err != registry.ErrShortBuffer { t.Errorf("reading %s value should return 'short buffer' error, but got: %s", test.Name, err) return } if gotsize != size { t.Errorf("want %s value size of %d, got %v", test.Name, size, gotsize) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } // read full data gotsize, gottype, err = k.GetValue(test.Name, make([]byte, size)) if err != nil { t.Errorf("GetValue(%s, [%d]byte) failed: %v", test.Name, size, err) return } if gotsize != size { t.Errorf("want %s value size of %d, got %v", test.Name, size, gotsize) return } if gottype != test.Type { t.Errorf("want %s value type %v, got %v", test.Name, test.Type, gottype) return } // check GetValue returns ErrNotExist as required _, _, err = k.GetValue(test.Name+"_not_there", make([]byte, size)) if err == nil { t.Errorf("GetValue(%q) should not succeed", test.Name) return } if err != registry.ErrNotExist { t.Errorf("GetValue(%q) should return 'not exist' error, but got: %s", test.Name, err) return } }
func setValues(t *testing.T, k registry.Key) { for _, test := range ValueTests { var err error switch test.Type { case registry.SZ: err = k.SetStringValue(test.Name, test.Value.(string)) case registry.EXPAND_SZ: err = k.SetExpandStringValue(test.Name, test.Value.(string)) case registry.MULTI_SZ: err = k.SetStringsValue(test.Name, test.Value.([]string)) case registry.BINARY: err = k.SetBinaryValue(test.Name, test.Value.([]byte)) case registry.DWORD: err = k.SetDWordValue(test.Name, uint32(test.Value.(uint64))) case registry.QWORD: err = k.SetQWordValue(test.Name, test.Value.(uint64)) default: t.Fatalf("unsupported type %d for %s value", test.Type, test.Name) } if test.WillFail { if err == nil { t.Fatalf("setting %s value %q should fail, but succeeded", test.Name, test.Value) } } else { if err != nil { t.Fatal(err) } } } }