nsIWindowsRegKey

This interface is designed to provide scriptable access to the Windows registry system.
1.0
66
Introduced
Gecko 1.8
Inherits from: nsISupports Last changed in Gecko 1.8 (Firefox 1.5 / Thunderbird 1.5 / SeaMonkey 1.0)

The interface represents a single key in the registry.

This interface is highly Win32 specific.

Method overview

void close();
void create(in unsigned long rootKey, in AString relPath, in unsigned long mode);
nsIWindowsRegKey createChild(in AString relPath, in unsigned long mode);
AString getChildName(in unsigned long index);
AString getValueName(in unsigned long index);
unsigned long getValueType(in AString name);
boolean hasChanged();
boolean hasChild(in AString name);
boolean hasValue(in AString name);
boolean isWatching();
void open(in unsigned long rootKey, in AString relPath, in unsigned long mode);
nsIWindowsRegKey openChild(in AString relPath, in unsigned long mode);
ACString readBinaryValue(in AString name);
unsigned long long readInt64Value(in AString name);
unsigned long readIntValue(in AString name);
AString readStringValue(in AString name);
void removeChild(in AString relPath);
void removeValue(in AString name);
void startWatching(in boolean recurse);
void stopWatching();
void writeBinaryValue(in AString name, in ACString data);
void writeInt64Value(in AString name, in unsigned long long data);
void writeIntValue(in AString name, in unsigned long data);
void writeStringValue(in AString name, in AString data);

Attributes

Attribute Type Description
childCount unsigned long This attribute returns the number of child keys. Read only.
key HKEY

This attribute exposes the native HKEY and is available to provide C++ consumers with the flexibility of making other Windows registry API calls that are not exposed via this interface.

It is possible to initialize this object by setting an HKEY on it. In that case, it is the responsibility of the consumer setting the HKEY to ensure that it is a valid HKEY.

WARNING: Setting the key does not close() the old key. Native code only!
valueCount unsigned long This attribute returns the number of values under this key. Read only.

Constants

Root key constants

The values for these keys correspond to the values from WinReg.h in the MS Platform SDK. The ROOT_KEY_ prefix corresponds to the HKEY_ prefix in the MS Platform SDK.

This interface is not restricted to using only these root keys.

Constant Value Description
ROOT_KEY_CLASSES_ROOT 0x80000000
ROOT_KEY_CURRENT_USER 0x80000001
ROOT_KEY_LOCAL_MACHINE 0x80000002

Access constants

Values for the mode parameter passed to the open() and create() methods. The values defined here correspond to the REGSAM values defined in WinNT.h in the MS Platform SDK, where ACCESS_ is replaced with KEY_.

This interface is not restricted to using only these access types.

Constant Value Description
ACCESS_BASIC 0x00020000
ACCESS_QUERY_VALUE 0x00000001
ACCESS_SET_VALUE 0x00000002
ACCESS_CREATE_SUB_KEY 0x00000004
ACCESS_ENUMERATE_SUB_KEYS 0x00000008
ACCESS_NOTIFY 0x00000010
ACCESS_READ ACCESS_BASIC | ACCESS_QUERY_VALUE | ACCESS_ENUMERATE_SUB_KEYS | ACCESS_NOTIFY
ACCESS_WRITE ACCESS_BASIC | ACCESS_SET_VALUE | ACCESS_CREATE_SUB_KEY
ACCESS_ALL ACCESS_READ | ACCESS_WRITE
WOW64_32 0x00000200
WOW64_64 0x00000100

Type constants

Values for the type of a registry value. The numeric values of these constants are taken directly from WinNT.h in the MS Platform SDK. The Microsoft documentation should be consulted for the exact meaning of these value types.

This interface is somewhat restricted to using only these value types. There is no method that is directly equivalent to RegQueryValueEx or RegSetValueEx. In particular, this interface does not support the REG_MULTI_SZ and REG_EXPAND_SZ value types. It is still possible to enumerate values that have other types (that is, getValueType() may return a type not defined below).

Constant Value Description
TYPE_NONE 0 REG_NONE
TYPE_STRING 1 REG_SZ
TYPE_BINARY 3 REG_BINARY
TYPE_INT 4 REG_DWORD
TYPE_INT64 11 REG_QWORD

Methods

close()

This method closes the key. If the key is already closed, then this method does nothing.

void close();
Parameters

None.

create()

This method opens an existing key or creates a new key.

Note: On 32-bit Windows, it is valid to pass any HKEY as the rootKey parameter of this function. However, for compatibility with 64-bit Windows, that usage should probably be avoided in favor of createChild().

void create(
  in unsigned long rootKey,
  in AString relPath,
  in unsigned long mode
);
Parameters
rootKey
A root key defined above or any valid HKEY on 32-bit Windows.
relPath
A relative path from the given root key.
mode
Access mode, which is a bit-wise OR of the ACCESS_ values defined above.

createChild()

This method opens or creates a subkey relative to this key.

nsIWindowsRegKey createChild(
  in AString relPath,
  in unsigned long mode
);
Parameters
relPath
mode
Return value

nsIWindowsRegKey for the newly opened or created subkey.

getChildName()

This method returns the name of the n'th child key.

AString getChildName(
  in unsigned long index
);
Parameters
index
The index of the requested child key.
Return value

The name of the n'th child key.

getValueName()

This method returns the name of the n'th value under this key.

AString getValueName(
  in unsigned long index
);
Parameters
index
The index of the requested value.
Return value

The name of the n'th value under this key.

getValueType()

This method returns the type of the value with the given name.

unsigned long getValueType(
  in AString name
);
Parameters
name
The name of the value to query.
Return value

One of the "TYPE_" constants.

hasChanged()

boolean hasChanged();
Parameters

None.

Return value

This method returns true if the key has changed and false otherwise. This method will always return false if startWatching() was not called.

hasChild()

This method checks to see if the key has a child by the given name.

boolean hasChild(
  in AString name
);
Parameters
name
The name of the requested child key.
Return value

true if the key has a child by the given name.

hasValue()

This method checks to see if the key has a value by the given name.

boolean hasValue(
  in AString name
);
Parameters
name
The name of the requested value.
Return value

true if the key has a value by the given name.

isWatching()

This method returns true if the key is being watched for changes (that is, if startWatching() was called).

boolean isWatching();
Parameters

None.

Return value

true if the key is being watched for changes.

open()

This method opens an existing key. This method fails if the key does not exist.

Note: On 32-bit Windows, it is valid to pass any HKEY as the rootKey parameter of this function. However, for compatibility with 64-bit Windows, that usage should probably be avoided in favor of openChild().

void open(
  in unsigned long rootKey,
  in AString relPath,
  in unsigned long mode
);
Parameters
rootKey
A root key defined above or any valid HKEY on 32-bit Windows.
relPath
A relative path from the given root key.
mode
Access mode, which is a bit-wise OR of the ACCESS_ values defined above.

openChild()

This method opens a subkey relative to this key. This method fails if the key does not exist.

nsIWindowsRegKey openChild(
  in AString relPath,
  in unsigned long mode
);
Parameters
relPath
mode
Return value

nsIWindowsRegKey for the newly opened subkey.

readBinaryValue()

This method reads the binary contents of the named value under this key.

JavaScript callers should take care with the result of this method since it will be byte-expanded to form a JS string. (The binary data will be treated as an ISO-Latin-1 character string, which it is not).

ACString readBinaryValue(
  in AString name
);
Parameters
name
The name of the value to query.
Return value

The binary contents of the named value under this key.

readInt64Value()

This method reads the 64-bit integer contents of the named value.

unsigned long long readInt64Value(
  in AString name
);
Parameters
name
The name of the value to query.
Return value

The 64-bit integer contents of the named value.

readIntValue()

This method reads the integer contents of the named value.

unsigned long readIntValue(
  in AString name
);
Parameters
name
The name of the value to query.
Return value

The integer contents of the named value.

readStringValue()

This method reads the string contents of the named value as a Unicode string.

AString readStringValue(
  in AString name
);
Parameters
name
The name of the value to query. This parameter can be the empty string to request the key's default value.
Return value

The string contents of the named value as a Unicode string.

Note: Unlike writeStringValue(), readStringValue() will work with REG_MULTI_SZ and REG_EXPAND_SZ types.

Note: In Gecko 2.0, readStringValue() calls ExpandEnvironmentStrings() on a REG_EXPAND_SZ type.

removeChild()

This method removes a child key and all of its values. This method will fail if the key has any children of its own.

void removeChild(
  in AString relPath
);
Parameters
relPath
The relative path from this key to the key to be removed.

removeValue()

This method removes the value with the given name.

void removeValue(
  in AString name
);
Parameters
name
The name of the value to be removed.

startWatching()

This method starts watching the key to see if any of its values have changed. The key must have been opened with mode including ACCESS_NOTIFY. If recurse is true, then this key and any of its descendant keys are watched. Otherwise, only this key is watched.

void startWatching(
  in boolean recurse
);
Parameters
recurse
Indicates whether or not to also watch child keys.

stopWatching()

This method stops any watching of the key initiated by a call to startWatching(). This method does nothing if the key is not being watched.

void stopWatching();
Parameters

None.

writeBinaryValue()

This method writes the binary contents of the named value. The value will be created if it does not already exist.

JavaScript callers should take care with the value passed to this method since it will be truncated from a JS string (unicode) to a ISO-Latin-1 string. (The binary data will be treated as an ISO-Latin-1 character string, which it is not). So, JavaScript callers should only pass character values in the range \u0000 to \u00FF, or else data loss will occur.

void writeBinaryValue(
  in AString name,
  in ACString data
);
Parameters
name
The name of the value to modify.
data
The data for the value to modify.

writeInt64Value()

This method writes the 64-bit integer contents of the named value. The value will be created if it does not already exist.

void writeInt64Value(
  in AString name,
  in unsigned long long data
);
Parameters
name
The name of the value to modify.
data
The data for the value to modify.

writeIntValue()

This method writes the integer contents of the named value. The value will be created if it does not already exist.

void writeIntValue(
  in AString name,
  in unsigned long data
);
Parameters
name
The name of the value to modify.
data
The data for the value to modify.

writeStringValue()

This method writes the unicode string contents of the named value. The value will be created if it does not already exist.

void writeStringValue(
  in AString name,
  in AString data
);
Parameters
name
The name of the value to modify. This parameter can be the empty string to modify the key's default value.
data
The data for the value to modify.