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RegOpenKey (advapi32)
.
C# Signature:
[DllImport("advapi32.dll", CharSet = CharSet.Auto)]
public static extern int RegOpenKeyEx(
UIntPtr hKey,
string subKey,
int ulOptions,
int samDesired,
out UIntPtr hkResult);
C# Signature:
[DllImport("advapi32.dll", SetLastError=true)]
static extern int RegOpenKeyA(int hKey, string lpSubKey, ref int phkResult)
VB Signature:
Declare Auto Function RegOpenKeyEx Lib "advapi32.dll" (
ByVal hKey As IntPtr,
ByVal lpSubKey As String,
ByVal ulOptions As Integer,
ByVal samDesired As Integer,
ByRef phkResult As Integer
) As Integer
Declare Function RegOpenKey Lib "advapi32.dll" (TODO) As TODO
User-Defined Types:
None.
Change Notes:
- Changed IntPtr to UIntPtr: When invoking with IntPtr for the handles, you will run into an Overflow. UIntPtr is the right choice if you wish this to work correctly on 32 and 64 bit platforms.
Alternative Managed API:
Do you know one? Please contribute it!
Notes:
The current managed versions of OpenSubKey do not support read/writing from the different registry "views" on 64-bit operating systems. So, you're forced to the the APIs to accomplish this feat. See the example below for a "drop in" replacement for OpenSubKey
None.
If the function fails, the return value is a nonzero error code defined in Winerror.h. You can use the FormatMessage function with the FORMAT_MESSAGE_FROM_SYSTEM flag to get a generic description of the error.
Tips & Tricks:
Please add some!
uint options: reserved, must be zero.
int sam: access mask that specifies the desired access rights to the key.
Sample Code:
Please add some!
values for hKey (C#):
public static UIntPtr HKEY_LOCAL_MACHINE = new UIntPtr(0x80000002u);
public static UIntPtr HKEY_CURRENT_USER = new UIntPtr(0x80000001u);
For compatibility with 16-bit versions of Windows only 'RegOpenKey' is available.
Tips & Tricks:
Please add some!!
Note that the root key should specify the registry path above where WOW6432node gets inserted, otherwise the KEY_WOW64_64 flag is ignored when used in a 32 bit application running on a 64 bit machine. So
does not actually get the 64 bit key if its a 32 bit app.
Sample Code (VB):
Public Enum RegWow64Options As Integer
None = 0
KEY_WOW64_64KEY = &H100
KEY_WOW64_32KEY = &H200
End Enum
Public Enum RegistryRights As Integer
ReadKey = 131097
WriteKey = 131078
End Enum
' overloaded, see below
Public Function OpenSubKey(ByVal Name As String) As RegistryKey
Return OpenSubKey(Name, False, RegWow64Options.None)
End Function
' overloaded, see below
Public Function OpenSubKey(ByVal Name As String, ByVal Writeable As Boolean) As RegistryKey
Return OpenSubKey(Name, Writeable, RegWow64Options.None)
End Function
' open a SubKey
Public Function OpenSubKey(ByVal Name As String, ByVal Writeable As Boolean, ByVal Options As RegWow64Options) As RegistryKey
Dim ret, Rights As Integer
Dim hSubKey As IntPtr
' quick sanity check
If hKey.Equals(IntPtr.Zero) Then
Throw New ApplicationException("Cannot access a closed registry key")
End If
Rights = RegistryRights.ReadKey
If Writeable Then
Rights = RegistryRights.WriteKey
End If
' Ignore the 64-bit flags when running from <= Win2k
If CDbl(Environment.OSVersion.Version.Major & "." & Environment.OSVersion.Version.Minor) <= 5.0 Then
Options = RegWow64Options.None
End If
ret = RegOpenKeyEx(hKey, Name, 0, Rights Or Options, hSubKey)
If ret <> 0 Then
Return Nothing
End If
Dim ans As New RegistryKey
ans.hKey = hSubKey
ans.RegKeyName = Name
ans.IsRootHive = False
Return ans
End Function
Public Shared Function PointerToRegistryKey(ByVal hKey As IntPtr, ByVal writable As Boolean, ByVal ownsHandle As Boolean) As RegistryKey
' Create a SafeHandles.SafeRegistryHandle from this pointer - this is a private class
Dim privateConstructors = Reflection.BindingFlags.Instance Or Reflection.BindingFlags.NonPublic
Dim safeRegistryHandleType = GetType(SafeHandles.SafeHandleZeroOrMinusOneIsInvalid).Assembly.GetType("Microsoft.Win32.SafeHandles.SafeRegistryHandle")
Dim safeRegistryHandleConstructorTypes As System.Type() = {GetType(IntPtr), GetType(Boolean)}
Dim safeRegistryHandleConstructor = safeRegistryHandleType.GetConstructor(privateConstructors, Nothing, safeRegistryHandleConstructorTypes, Nothing)
Dim safeHandle = safeRegistryHandleConstructor.Invoke(New Object() {hKey, ownsHandle})
' Create a new Registry key using the private constructor using the safeHandle - this should then behave like a .NET natively opened handle and disposed of correctly
Dim registryKeyType = GetType(RegistryKey)
Dim registryKeyConstructorTypes As System.Type() = {safeRegistryHandleType, GetType(Boolean)}
Dim registryKeyConstructor = registryKeyType.GetConstructor(privateConstructors, Nothing, registryKeyConstructorTypes, Nothing)
Dim result = DirectCast(registryKeyConstructor.Invoke(New Object() {safeHandle, writable}), RegistryKey)
Return result
End Function
Sample Code (C#) to read a string value
string example = ReadRegKey(HKEY_LOCAL_MACHINE, @"Software\SomeCompany\OurProduct", "InstalledVersion");
The code above didn't compile for me - this code compiles and works for my needs:
' Basis from http://blogs.msdn.com/cumgranosalis/archive/2005/12/09/Win64RegistryPart1.aspx
Private Function GetRegistryKeyHandle(ByVal RegisteryKey As Microsoft.Win32.RegistryKey) As System.IntPtr
Dim Type As System.Type = System.Type.GetType("Microsoft.Win32.RegistryKey")
Dim Info As System.Reflection.FieldInfo = Type.GetField("hkey", System.Reflection.BindingFlags.NonPublic Or System.Reflection.BindingFlags.Instance)
Dim Handle As System.Runtime.InteropServices.SafeHandle = CType(Info.GetValue(RegisteryKey), System.Runtime.InteropServices.SafeHandle)
Dim RealHandle As System.IntPtr = Handle.DangerousGetHandle
Return Handle.DangerousGetHandle
End Function
' Basis from: http://www.pinvoke.net/default.aspx/advapi32/RegOpenKeyEx.html
Public Enum RegWow64Options As System.Int32
None = 0
KEY_WOW64_64KEY = &H100
KEY_WOW64_32KEY = &H200
End Enum
Private Enum RegistryRights As System.Int32
ReadKey = 131097
WriteKey = 131078
End Enum
Private Declare Auto Function RegOpenKeyEx Lib "advapi32.dll" (ByVal hKey As System.IntPtr, ByVal lpSubKey As System.String, ByVal ulOptions As System.Int32, ByVal samDesired As System.Int32, ByRef phkResult As System.Int32) As System.Int32
Public Function OpenSubKey(ByVal ParentKey As Microsoft.Win32.RegistryKey, ByVal SubKeyName As String, ByVal Writeable As Boolean, ByVal Options As RegWow64Options) As Microsoft.Win32.RegistryKey
If ParentKey Is Nothing OrElse GetRegistryKeyHandle(ParentKey).Equals(System.IntPtr.Zero) Then
Throw New System.Exception("OpenSubKey: Parent key is not open")
End If
Dim Rights As System.Int32 = RegistryRights.ReadKey
If Writeable Then
Rights = RegistryRights.WriteKey
End If
Dim SubKeyHandle As System.Int32
Dim Result As System.Int32 = RegOpenKeyEx(GetRegistryKeyHandle(ParentKey), SubKeyName, 0, Rights Or Options, SubKeyHandle)
If Result <> 0 Then
Dim W32ex As New System.ComponentModel.Win32Exception()
Throw New System.Exception("OpenSubKey: Exception encountered opening key", W32ex)
End If
Return PointerToRegistryKey(CType(SubKeyHandle, System.IntPtr), Writeable, False)
End Function
Private Function PointerToRegistryKey(ByVal hKey As System.IntPtr, ByVal writable As Boolean, ByVal ownsHandle As Boolean) As Microsoft.Win32.RegistryKey
' Create a SafeHandles.SafeRegistryHandle from this pointer - this is a private class
Dim privateConstructors As System.Reflection.BindingFlags = System.Reflection.BindingFlags.Instance Or System.Reflection.BindingFlags.NonPublic
Dim safeRegistryHandleType As System.Type = GetType(Microsoft.Win32.SafeHandles.SafeHandleZeroOrMinusOneIsInvalid).Assembly.GetType("Microsoft.Win32.SafeHandles.SafeRegistryHandle")
Dim safeRegistryHandleConstructorTypes As System.Type() = {GetType(System.IntPtr), GetType(System.Boolean)}
Dim safeRegistryHandleConstructor As System.Reflection.ConstructorInfo = safeRegistryHandleType.GetConstructor(privateConstructors, Nothing, safeRegistryHandleConstructorTypes, Nothing)
Dim safeHandle As System.Object = safeRegistryHandleConstructor.Invoke(New System.Object() {hKey, ownsHandle})
' Create a new Registry key using the private constructor using the safeHandle - this should then behave like a .NET natively opened handle and disposed of correctly
Dim registryKeyType As System.Type = GetType(Microsoft.Win32.RegistryKey)
Dim registryKeyConstructorTypes As System.Type() = {safeRegistryHandleType, GetType(System.Boolean)}
Dim registryKeyConstructor As System.Reflection.ConstructorInfo = registryKeyType.GetConstructor(privateConstructors, Nothing, registryKeyConstructorTypes, Nothing)
Dim result As Microsoft.Win32.RegistryKey = DirectCast(registryKeyConstructor.Invoke(New Object() {safeHandle, writable}), Microsoft.Win32.RegistryKey)
Return result
End Function
Sample usage:
Dim Config As Microsoft.Win32.RegistryKey = Nothing
If Is64Bit() Then
Config = OpenSubKey(Microsoft.Win32.Registry.LocalMachine, "SOFTWARE\" & BaseName, False, RegWow64Options.KEY_WOW64_64KEY)
Else
Config = Microsoft.Win32.Registry.LocalMachine.OpenSubKey("SOFTWARE\" & BaseName, False)
End If
Working C#.NET Code + Usage
This is essentially a C# port of the VB.NET example above.
/// <summary>
/// Open a registry key using the Wow64 node instead of the default 32-bit node.
/// </summary>
/// <param name="parentKey">Parent key to the key to be opened.</param>
/// <param name="subKeyName">Name of the key to be opened</param>
/// <param name="writable">Whether or not this key is writable</param>
/// <param name="options">32-bit node or 64-bit node</param>
/// <returns></returns>
RegistryKey _openSubKey(RegistryKey parentKey, string subKeyName, bool writable, RegWow64Options options)
{
//Sanity check
if (parentKey == null || _getRegistryKeyHandle(parentKey) == IntPtr.Zero)
{
return null;
}
//Set rights
int rights = (int)RegistryRights.ReadKey;
if (writable)
rights = (int)RegistryRights.WriteKey;
//Call the native function >.<
int subKeyHandle, result = RegOpenKeyEx(_getRegistryKeyHandle(parentKey), subKeyName, 0, rights | (int)options, out subKeyHandle);
//If we errored, throw an exception
if (result != 0)
{
throw new Exception("Exception encountered opening registry key.", new System.ComponentModel.Win32Exception(result));
}
//Get the key represented by the pointer returned by RegOpenKeyEx
RegistryKey subKey = _pointerToRegistryKey((IntPtr)subKeyHandle, writable, true);
return subKey;
}
/// <summary>
/// Get a pointer to a registry key.
/// </summary>
/// <param name="registryKey">Registry key to obtain the pointer of.</param>
/// <returns>Pointer to the given registry key.</returns>
IntPtr _getRegistryKeyHandle(RegistryKey registryKey)
{
//Get the type of the RegistryKey
Type registryKeyType = typeof(RegistryKey);
//Get the FieldInfo of the 'hkey' member of RegistryKey
System.Reflection.FieldInfo fieldInfo =
registryKeyType.GetField("hkey", System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance);
//Get the handle held by hkey
SafeHandle handle = (SafeHandle)fieldInfo.GetValue(registryKey);
/// <summary>
/// Get a registry key from a pointer.
/// </summary>
/// <param name="hKey">Pointer to the registry key</param>
/// <param name="writable">Whether or not the key is writable.</param>
/// <param name="ownsHandle">Whether or not we own the handle.</param>
/// <returns>Registry key pointed to by the given pointer.</returns>
RegistryKey _pointerToRegistryKey(IntPtr hKey, bool writable, bool ownsHandle)
{
//Get the BindingFlags for private contructors
System.Reflection.BindingFlags privateConstructors = System.Reflection.BindingFlags.Instance | System.Reflection.BindingFlags.NonPublic;
//Get the Type for the SafeRegistryHandle
Type safeRegistryHandleType =
typeof(Microsoft.Win32.SafeHandles.SafeHandleZeroOrMinusOneIsInvalid).Assembly.GetType("Microsoft.Win32.SafeHandles.SafeRegistryHandle");
//Get the array of types matching the args of the ctor we want
Type[] safeRegistryHandleCtorTypes = new Type[] { typeof(IntPtr), typeof(bool) };
//Get the constructorinfo for our object
System.Reflection.ConstructorInfo safeRegistryHandleCtorInfo = safeRegistryHandleType.GetConstructor(
privateConstructors, null, safeRegistryHandleCtorTypes, null);
//Invoke the constructor, getting us a SafeRegistryHandle
Object safeHandle = safeRegistryHandleCtorInfo.Invoke(new Object[] { hKey, ownsHandle });
//Get the type of a RegistryKey
Type registryKeyType = typeof(RegistryKey);
//Get the array of types matching the args of the ctor we want
Type[] registryKeyConstructorTypes = new Type[] { safeRegistryHandleType, typeof(bool) };
//Get the constructorinfo for our object
System.Reflection.ConstructorInfo registryKeyCtorInfo = registryKeyType.GetConstructor(
privateConstructors, null, registryKeyConstructorTypes, null);
//Invoke the constructor, getting us a RegistryKey
RegistryKey resultKey = (RegistryKey)registryKeyCtorInfo.Invoke(new Object[] { safeHandle, writable });
//return the resulting key
return resultKey;
}
[DllImport("advapi32.dll", CharSet = CharSet.Auto)]
public static extern int RegOpenKeyEx(IntPtr hKey, string subKey, int ulOptions, int samDesired, out int phkResult);
When I tested this API code in a tight loop, to get a value, and using the traditional RegistryKey.Close() on the returned subkey, I found that it leaked RegistryHandles.
To correct this, I changed the call to pointerToRegistryKey in openSubKey to pass true (ownsHandle).
Code:
//Get the key represented by the pointer returned by RegOpenKeyEx
RegistryKey subKey = _pointerToRegistryKey((IntPtr)subKeyHandle, writable, true); // <-- last arg had been false
return subKey;
Microsoft .NET Framework 4.0
All code above is for versions of .NET Framework prior to 4.0. In version 4.0, Microsoft.Win32.SafeHandles.SafeRegistryHandle is now public instead of private causing the examples above to error. This was to added support for Microsoft.Win32.RegistryView which negates the need to directly call advapi32.dll and the RegOpenKeyEx function by making the process managed. Here are examples of how to access 32-bit registry keys from a 64-bit application using .NET Framework 4.0:
VB.NET:
' HKLM\SOFTWARE
Dim regkey As Microsoft.Win32.RegistryKey = Microsoft.Win32.RegistryKey.OpenBaseKey(Microsoft.Win32.RegistryHive.LocalMachine, Microsoft.Win32.RegistryView.Registry32).OpenSubKey("SOFTWARE")
In both cases, examples would take you to HKEY_LOCAL_MACHINE\SOFTWARE\Wow6432Node on 64-bit operating systems due to using RegistryView.Registry32.
Microsoft .NET Framework 4.0 - how to get the above sample running
You 'll only have to change the '_pointerToRegistryKey' function.
Code:
/// <summary>
/// Get a registry key from a pointer.
/// </summary>
/// <param name="hKey">Pointer to the registry key</param>
/// <param name="writable">Whether or not the key is writable.</param>
/// <param name="ownsHandle">Whether or not we own the handle.</param>
/// <returns>Registry key pointed to by the given pointer.</returns>
RegistryKey _pointerToRegistryKey(IntPtr hKey, bool writable, bool ownsHandle)
{
//Get the BindingFlags for public contructors
System.Reflection.BindingFlags publicConstructors = System.Reflection.BindingFlags.Instance | System.Reflection.BindingFlags.Public; // NOTE: this has been changed since .NET 3.5 (was 'private').
//Get the Type for the SafeRegistryHandle
Type safeRegistryHandleType =
typeof(Microsoft.Win32.SafeHandles.SafeHandleZeroOrMinusOneIsInvalid).Assembly.GetType("Microsoft.Win32.SafeHandles.SafeRegistryHandle");
//Get the array of types matching the args of the ctor we want
Type[] safeRegistryHandleCtorTypes = new Type[] { typeof(IntPtr), typeof(bool) };
//Get the constructorinfo for our object
System.Reflection.ConstructorInfo safeRegistryHandleCtorInfo = safeRegistryHandleType.GetConstructor(
publicConstructors, null, safeRegistryHandleCtorTypes, null);
//Get the RegistryKey
Microsoft.Win32.RegistryKey resultKey = Microsoft.Win32.RegistryKey.FromHandle(safeHandle); // ONLY possible under .NET 4.0! In .NET 3.5 there is no .FromHandle Method available!
//return the resulting key
return resultKey;
}
An IntPtr is a pointer to a memory location (unmanaged) that adapts to the platform it is running on (64-bit, etc.) UNLIKE a standard int/Integer. You should always use this type for unmanaged calls that require it, even though an int will appear to work on your development machine.
1/13/2008 4:00:13 AM - Damon Carr-72.43.165.29
Click to read this page
6/25/2010 2:17:25 PM - -90.152.60.34
An IntPtr is a pointer to a memory location (unmanaged) that adapts to the platform it is running on (64-bit, etc.) UNLIKE a standard int/Integer. You should always use this type for unmanaged calls that require it, even though an int will appear to work on your development machine.
1/13/2008 4:00:13 AM - Damon Carr-72.43.165.29
Click to read this page
6/25/2010 2:17:25 PM - -90.152.60.34
TODO - a short description
3/16/2007 8:11:30 AM - -61.11.98.124
The FormatMessage API
12/27/2020 2:24:15 AM - -84.110.53.106
Opens the specified registry key
6/12/2012 9:11:53 AM - born2c0de@dreamincode.net-125.99.58.184
An IntPtr is a pointer to a memory location (unmanaged) that adapts to the platform it is running on (64-bit, etc.) UNLIKE a standard int/Integer. You should always use this type for unmanaged calls that require it, even though an int will appear to work on your development machine.
1/13/2008 4:00:13 AM - Damon Carr-72.43.165.29
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