IExtractImage works from a console application but not a plug-in? - c#

I'm writing a program that needs to be able to extract the thumbnail image from a file. I've gotten a hold of a class, ThumbnailCreator, which is able to do this. The source of this Class is below.
using System;
using System.Drawing;
using System.Runtime.InteropServices;
using System.Text;
using System.IO;
using System.Drawing.Imaging;
internal class ThumbnailCreator : IDisposable
{
// Fields
private IMalloc alloc;
private Size desiredSize;
private bool disposed;
private static readonly string fileExtention = ".jpg";
private Bitmap thumbnail;
// Methods
public ThumbnailCreator()
{
this.desiredSize = new Size(100, 100);
}
public ThumbnailCreator(Size desiredSize)
{
this.desiredSize = new Size(100, 100);
this.DesiredSize = desiredSize;
}
public void Dispose()
{
if (!this.disposed)
{
if (this.alloc != null)
{
Marshal.ReleaseComObject(this.alloc);
}
this.alloc = null;
if (this.thumbnail != null)
{
this.thumbnail.Dispose();
}
this.disposed = true;
}
}
~ThumbnailCreator()
{
this.Dispose();
}
private bool getThumbNail(string file, IntPtr pidl, IShellFolder item)
{
bool CS;
IntPtr hBmp = IntPtr.Zero;
IExtractImage extractImage = null;
try
{
if (Path.GetFileName(PathFromPidl(pidl)).ToUpper().Equals(Path.GetFileName(file).ToUpper()))
{
int prgf;
IUnknown iunk = null;
Guid iidExtractImage = new Guid("BB2E617C-0920-11d1-9A0B-00C04FC2D6C1");
item.GetUIObjectOf(IntPtr.Zero, 1, ref pidl, ref iidExtractImage, out prgf, ref iunk);
extractImage = (IExtractImage) iunk;
if (extractImage != null)
{
SIZE sz = new SIZE {
cx = this.desiredSize.Width,
cy = this.desiredSize.Height
};
StringBuilder location = new StringBuilder(260, 260);
int priority = 0;
int requestedColourDepth = 0x20;
EIEIFLAG flags = EIEIFLAG.IEIFLAG_SCREEN | EIEIFLAG.IEIFLAG_ASPECT;
int uFlags = (int) flags;
extractImage.GetLocation(location, location.Capacity, ref priority, ref sz, requestedColourDepth, ref uFlags);
extractImage.Extract(out hBmp);
if (hBmp != IntPtr.Zero)
{
this.thumbnail = Image.FromHbitmap(hBmp);
}
Marshal.ReleaseComObject(extractImage);
extractImage = null;
}
return true;
}
CS = false;
}
catch (Exception)
{
if (hBmp != IntPtr.Zero)
{
UnManagedMethods.DeleteObject(hBmp);
}
if (extractImage != null)
{
Marshal.ReleaseComObject(extractImage);
}
throw;
}
return CS;
}
public Bitmap GetThumbNail(string file)
{
if (!File.Exists(file) && !Directory.Exists(file))
{
throw new FileNotFoundException(string.Format("The file '{0}' does not exist", file), file);
}
if (this.thumbnail != null)
{
this.thumbnail.Dispose();
this.thumbnail = null;
}
IShellFolder folder = getDesktopFolder;
if (folder != null)
{
IntPtr pidlMain;
try
{
int cParsed;
int pdwAttrib;
string filePath = Path.GetDirectoryName(file);
folder.ParseDisplayName(IntPtr.Zero, IntPtr.Zero, filePath, out cParsed, out pidlMain, out pdwAttrib);
}
catch (Exception)
{
Marshal.ReleaseComObject(folder);
throw;
}
if (pidlMain != IntPtr.Zero)
{
Guid iidShellFolder = new Guid("000214E6-0000-0000-C000-000000000046");
IShellFolder item = null;
try
{
folder.BindToObject(pidlMain, IntPtr.Zero, ref iidShellFolder, ref item);
}
catch (Exception)
{
Marshal.ReleaseComObject(folder);
this.Allocator.Free(pidlMain);
throw;
}
if (item != null)
{
IEnumIDList idEnum = null;
try
{
item.EnumObjects(IntPtr.Zero, ESHCONTF.SHCONTF_NONFOLDERS | ESHCONTF.SHCONTF_FOLDERS, ref idEnum);
}
catch (Exception)
{
Marshal.ReleaseComObject(folder);
this.Allocator.Free(pidlMain);
throw;
}
if (idEnum != null)
{
IntPtr pidl = IntPtr.Zero;
bool complete = false;
while (!complete)
{
int fetched;
if (idEnum.Next(1, ref pidl, out fetched) != 0)
{
pidl = IntPtr.Zero;
complete = true;
}
else if (this.getThumbNail(file, pidl, item))
{
complete = true;
}
if (pidl != IntPtr.Zero)
{
this.Allocator.Free(pidl);
}
}
Marshal.ReleaseComObject(idEnum);
}
Marshal.ReleaseComObject(item);
}
this.Allocator.Free(pidlMain);
}
Marshal.ReleaseComObject(folder);
}
return this.thumbnail;
}
private static string PathFromPidl(IntPtr pidl)
{
StringBuilder path = new StringBuilder(260, 260);
if (UnManagedMethods.SHGetPathFromIDList(pidl, path) != 0)
{
return path.ToString();
}
return string.Empty;
}
// Properties
private IMalloc Allocator
{
get
{
if (!this.disposed && (this.alloc == null))
{
UnManagedMethods.SHGetMalloc(out this.alloc);
}
return this.alloc;
}
}
public Size DesiredSize
{
get
{
return this.desiredSize;
}
set
{
this.desiredSize = value;
}
}
private static IShellFolder getDesktopFolder
{
get
{
IShellFolder ppshf;
UnManagedMethods.SHGetDesktopFolder(out ppshf);
return ppshf;
}
}
public Bitmap ThumbNail
{
get
{
return this.thumbnail;
}
}
// Nested Types
private enum EIEIFLAG
{
IEIFLAG_ASPECT = 4,
IEIFLAG_ASYNC = 1,
IEIFLAG_CACHE = 2,
IEIFLAG_GLEAM = 0x10,
IEIFLAG_NOBORDER = 0x100,
IEIFLAG_NOSTAMP = 0x80,
IEIFLAG_OFFLINE = 8,
IEIFLAG_ORIGSIZE = 0x40,
IEIFLAG_QUALITY = 0x200,
IEIFLAG_SCREEN = 0x20
}
[Flags]
private enum ESFGAO
{
SFGAO_CANCOPY = 1,
SFGAO_CANDELETE = 0x20,
SFGAO_CANLINK = 4,
SFGAO_CANMOVE = 2,
SFGAO_CANRENAME = 0x10,
SFGAO_CAPABILITYMASK = 0x177,
SFGAO_COMPRESSED = 0x4000000,
SFGAO_CONTENTSMASK = -2147483648,
SFGAO_DISPLAYATTRMASK = 0xf0000,
SFGAO_DROPTARGET = 0x100,
SFGAO_FILESYSANCESTOR = 0x10000000,
SFGAO_FILESYSTEM = 0x40000000,
SFGAO_FOLDER = 0x20000000,
SFGAO_GHOSTED = 0x80000,
SFGAO_HASPROPSHEET = 0x40,
SFGAO_HASSUBFOLDER = -2147483648,
SFGAO_LINK = 0x10000,
SFGAO_READONLY = 0x40000,
SFGAO_REMOVABLE = 0x2000000,
SFGAO_SHARE = 0x20000,
SFGAO_VALIDATE = 0x1000000
}
[Flags]
private enum ESHCONTF
{
SHCONTF_FOLDERS = 0x20,
SHCONTF_INCLUDEHIDDEN = 0x80,
SHCONTF_NONFOLDERS = 0x40
}
[Flags]
private enum ESHGDN
{
SHGDN_FORADDRESSBAR = 0x4000,
SHGDN_FORPARSING = 0x8000,
SHGDN_INFOLDER = 1,
SHGDN_NORMAL = 0
}
[Flags]
private enum ESTRRET
{
STRRET_WSTR,
STRRET_OFFSET,
STRRET_CSTR
}
[ComImport, Guid("000214F2-0000-0000-C000-000000000046"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
private interface IEnumIDList
{
[PreserveSig]
int Next(int celt, ref IntPtr rgelt, out int pceltFetched);
void Skip(int celt);
void Reset();
void Clone(ref ThumbnailCreator.IEnumIDList ppenum);
}
[ComImport, InterfaceType(ComInterfaceType.InterfaceIsIUnknown), Guid("BB2E617C-0920-11d1-9A0B-00C04FC2D6C1")]
private interface IExtractImage
{
void GetLocation([Out, MarshalAs(UnmanagedType.LPWStr)] StringBuilder pszPathBuffer, int cch, ref int pdwPriority, ref ThumbnailCreator.SIZE prgSize, int dwRecClrDepth, ref int pdwFlags);
void Extract(out IntPtr phBmpThumbnail);
}
[ComImport, Guid("00000002-0000-0000-C000-000000000046"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
private interface IMalloc
{
[PreserveSig]
IntPtr Alloc(int cb);
[PreserveSig]
IntPtr Realloc(IntPtr pv, int cb);
[PreserveSig]
void Free(IntPtr pv);
[PreserveSig]
int GetSize(IntPtr pv);
[PreserveSig]
int DidAlloc(IntPtr pv);
[PreserveSig]
void HeapMinimize();
}
[ComImport, InterfaceType(ComInterfaceType.InterfaceIsIUnknown), Guid("000214E6-0000-0000-C000-000000000046")]
private interface IShellFolder
{
void ParseDisplayName(IntPtr hwndOwner, IntPtr pbcReserved, [MarshalAs(UnmanagedType.LPWStr)] string lpszDisplayName, out int pchEaten, out IntPtr ppidl, out int pdwAttributes);
void EnumObjects(IntPtr hwndOwner, [MarshalAs(UnmanagedType.U4)] ThumbnailCreator.ESHCONTF grfFlags, ref ThumbnailCreator.IEnumIDList ppenumIDList);
void BindToObject(IntPtr pidl, IntPtr pbcReserved, ref Guid riid, ref ThumbnailCreator.IShellFolder ppvOut);
void BindToStorage(IntPtr pidl, IntPtr pbcReserved, ref Guid riid, IntPtr ppvObj);
[PreserveSig]
int CompareIDs(IntPtr lParam, IntPtr pidl1, IntPtr pidl2);
void CreateViewObject(IntPtr hwndOwner, ref Guid riid, IntPtr ppvOut);
void GetAttributesOf(int cidl, IntPtr apidl, [MarshalAs(UnmanagedType.U4)] ref ThumbnailCreator.ESFGAO rgfInOut);
void GetUIObjectOf(IntPtr hwndOwner, int cidl, ref IntPtr apidl, ref Guid riid, out int prgfInOut, ref ThumbnailCreator.IUnknown ppvOut);
void GetDisplayNameOf(IntPtr pidl, [MarshalAs(UnmanagedType.U4)] ThumbnailCreator.ESHGDN uFlags, ref ThumbnailCreator.STRRET_CSTR lpName);
void SetNameOf(IntPtr hwndOwner, IntPtr pidl, [MarshalAs(UnmanagedType.LPWStr)] string lpszName, [MarshalAs(UnmanagedType.U4)] ThumbnailCreator.ESHCONTF uFlags, ref IntPtr ppidlOut);
}
[ComImport, InterfaceType(ComInterfaceType.InterfaceIsIUnknown), Guid("00000000-0000-0000-C000-000000000046")]
private interface IUnknown
{
[PreserveSig]
IntPtr QueryInterface(ref Guid riid, out IntPtr pVoid);
[PreserveSig]
IntPtr AddRef();
[PreserveSig]
IntPtr Release();
}
[StructLayout(LayoutKind.Sequential)]
private struct SIZE
{
public int cx;
public int cy;
}
[StructLayout(LayoutKind.Explicit, CharSet=CharSet.Auto)]
private struct STRRET_ANY
{
// Fields
[FieldOffset(4)]
public IntPtr pOLEString;
[FieldOffset(0)]
public ThumbnailCreator.ESTRRET uType;
}
[StructLayout(LayoutKind.Sequential, CharSet=CharSet.Auto, Pack=4)]
private struct STRRET_CSTR
{
public ThumbnailCreator.ESTRRET uType;
[MarshalAs(UnmanagedType.ByValArray, SizeConst=520)]
public byte[] cStr;
}
private class UnManagedMethods
{
// Methods
[DllImport("gdi32", CharSet=CharSet.Auto)]
internal static extern int DeleteObject(IntPtr hObject);
[DllImport("shell32", CharSet=CharSet.Auto)]
internal static extern int SHGetDesktopFolder(out ThumbnailCreator.IShellFolder ppshf);
[DllImport("shell32", CharSet=CharSet.Auto)]
internal static extern int SHGetMalloc(out ThumbnailCreator.IMalloc ppMalloc);
[DllImport("shell32", CharSet=CharSet.Auto)]
internal static extern int SHGetPathFromIDList(IntPtr pidl, StringBuilder pszPath);
}
}
As a test I created a quick console application, the code of which is below. This test worked fine and was able to extract a thumbnail, and saved it to a PNG file.
static void Main(string[] args)
{
try
{
Console.WriteLine("press a key to extract");
System.Console.ReadKey();
string path = #"C:\somefile.xyz";
ThumbnailCreator creator = new ThumbnailCreator();
creator.DesiredSize = new Size(600, 600);
Bitmap bm = creator.GetThumbNail(path);
bm.Save(#"C:\blah.png", System.Drawing.Imaging.ImageFormat.Png);
Console.WriteLine("press a key to exit");
System.Console.ReadKey();
}
catch (Exception exp)
{
Console.WriteLine(exp.Message);
}
}
My problem is the real application I want to use this in runs as a plug-in for another application. When I try to run the same test code in the plug-in creator.GetThumbNail(path); returns null.
I debugged a little further and found that in the method ThumbnailCreator.getThumbNail(string file, IntPtr pidl,IshellFolder item) the line extractImage.Extract(out hBmp); returns IntPtr.Zero. Whereas in the console application that works this method actually returns a number. Maybe this is the problem? Or maybe this problem happens before this. Honestly, I'm completely lost when it comes to Interop and Windows API stuff.
Does anyone know of any possible reasons why this class would work in a standalone console application, but not as part of a plug-in for another application?
Update
Here's a bit more detail of how this plug-in is created. To add a custom command to this program you create a class that implements an ICommand interface from is API. The interface has a single Execute() method where code is place that should run when the user executes the custom command from the program. The native application, however, is what actualy instantiates my command class and calls the execute method.
What could be different about the way that the native app instantiates my command class and or calls the Execute() method that would prevent the thumbnail extraction from working?

Just ran across this issue myself and I do say, it took some time to figure out that it was a bitness issue. In your scenario your console app was probably compiled as x64 and your Windows app as x86.
The ExtractImage interface (BB2E617C-0920-11d1-9A0B-00C04FC2D6C1) on a 64bit OS is only accessible from 64bit applications (because explorer is 64bit), thus resulting in a "Class not registered (Exception from HRESULT: 0x80040154 (REGDB_E_CLASSNOTREG))" exception in applications compiled as x86.

Code that calls the Shell API must be in a COM Single Threaded Apartment, try putting [STAThread] attribute on the thread that calls this.

Related

Drag & drop from Windows Portable Device to WPF Application

I'm working on a WPF app which allows user to drag and drop files from Windows Explorer. For normal files, I'm able to access the path using
string[] fileNames = (string[])e.Data.GetData(DataFormats.FileDrop, false);
But for WPD files, its returning null. Have tried to follow the solution given in http://us.generation-nt.com/answer/drag-drop-pictures-wpd-camera-help-31497882.html#r , but i couldn't make it work. I'm getting AccessVoilationException when trying to get the count of items from the Shell array. I have posted the question in MSDN(http://social.msdn.microsoft.com/Forums/vstudio/en-US/ef7fc152-dd1b-4774-adb7-47b48726daea/drag-drop-from-windows-portable-device-to-wpf-application?forum=wpf), but didn't get any leads.
Is there something that I'm missing here? Could you please help me solve this issue?
Following is the relevant part my code.
public enum SIGDN : uint
{
NORMALDISPLAY = 0,
PARENTRELATIVEPARSING = 0x80018001,
PARENTRELATIVEFORADDRESSBAR = 0x8001c001,
DESKTOPABSOLUTEPARSING = 0x80028000,
PARENTRELATIVEEDITING = 0x80031001,
DESKTOPABSOLUTEEDITING = 0x8004c000,
FILESYSPATH = 0x80058000,
URL = 0x80068000
}
internal class IIDGuid
{
private IIDGuid() { } // Avoid FxCop violation AvoidUninstantiatedInternalClasses
// IID GUID strings for relevant COM interfaces
internal const string IModalWindow = "b4db1657-70d7-485e-8e3e-6fcb5a5c1802";
internal const string IFileDialog = "42f85136-db7e-439c-85f1-e4075d135fc8";
internal const string IFileOpenDialog = "d57c7288-d4ad-4768-be02-9d969532d960";
internal const string IFileSaveDialog = "84bccd23-5fde-4cdb-aea4-af64b83d78ab";
internal const string IFileDialogEvents = "973510DB-7D7F-452B-8975-74A85828D354";
internal const string IShellItem = "43826D1E-E718-42EE-BC55-A1E261C37BFE";
internal const string IShellItemArray = "B63EA76D-1F85-456F-A19C-48159EFA858B";
}
[ComImport]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
[Guid("43826d1e-e718-42ee-bc55-a1e261c37bfe")]
public interface IShellItem
{
void BindToHandler(IntPtr pbc,
[MarshalAs(UnmanagedType.LPStruct)]Guid bhid,
[MarshalAs(UnmanagedType.LPStruct)]Guid riid,
out IntPtr ppv);
void GetParent(out IShellItem ppsi);
void GetDisplayName(SIGDN sigdnName, out IntPtr ppszName);
void GetAttributes(uint sfgaoMask, out uint psfgaoAttribs);
void Compare(IShellItem psi, uint hint, out int piOrder);
};
[ComImport]
[Guid(IIDGuid.IShellItemArray)]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface IShellItemArray
{
// Not supported: IBindCtx
void BindToHandler([In, MarshalAs(UnmanagedType.Interface)] IntPtr pbc, [In] ref Guid rbhid, [In] ref Guid riid, out IntPtr ppvOut);
void GetPropertyStore([In] int Flags, [In] ref Guid riid, out IntPtr ppv);
void GetCount(out uint pdwNumItems);
void GetItemAt([In] uint dwIndex, [MarshalAs(UnmanagedType.Interface)] out IShellItem ppsi);
void EnumItems([MarshalAs(UnmanagedType.Interface)] out IntPtr ppenumShellItems);
}
[DllImport("shell32.dll", CharSet = CharSet.Unicode, SetLastError = true)]
static extern int SHCreateShellItemArrayFromDataObject(
System.Runtime.InteropServices.ComTypes.IDataObject pdo,
ref Guid riid,
[MarshalAs(UnmanagedType.Interface)] out IShellItemArray ppv);
[DllImport("kernel32.dll", SetLastError = true)]
static extern Int32 GetLastError();
private void OnFileDrop(object sender, DragEventArgs e)
{
string[] fileNames = (string[])e.Data.GetData(DataFormats.FileDrop, false);// null
System.Runtime.InteropServices.ComTypes.IDataObject mydata = e.Data as System.Runtime.InteropServices.ComTypes.IDataObject;
IShellItemArray nativeShellItemArray;
Guid guid = new Guid(IIDGuid.IShellItemArray);
int retCode = SHCreateShellItemArrayFromDataObject(mydata, ref guid, out nativeShellItemArray);
IShellItem nativeShellItem;
if (retCode == 0)
{
IntPtr displayname;
uint items = 0;
try
{
nativeShellItemArray.GetCount(out items); //Getting AccessVoilationException in this line
}
catch (Exception ex)
{
}
if (items > 0)
{
for (uint item = 0; item < items; item++)
{
nativeShellItemArray.GetItemAt(item, out nativeShellItem);
nativeShellItem.GetDisplayName(SIGDN.DESKTOPABSOLUTEPARSING, out displayname);
//Do something
}
}
}
}

WebBrowser: Drag&Drop

I want to intercept drag&drop action on WebBrowser control. To be more precise, I want to be able to cancel or approve drag&drop event based on file extension (and process that file outside WebBrowser) and I want to make drag&drop icon look like regular icon: http://snag.gy/DUjMc.jpg, not like this one: http://snag.gy/ExX19.jpg.
I believe for this I need to implement custom IDocHostUIHandler and intercept GetDropTarget. Unfortunately, I have no success in doing that. I am using this code as my 'base' code: https://stackoverflow.com/a/19739699/2758677 and this part, that I made: http://pastebin.com/Ux947Eck. GetDropTarget is never called.
Here's a complete WinForms-based example that works, IDocHostUIHandler.GetDropTarget does get called.
using System;
using System.Diagnostics;
using System.Linq;
using System.Runtime.InteropServices;
using System.Windows.Forms;
namespace CustomWebBrowser
{
public partial class MainForm : Form
{
public MainForm()
{
InitializeComponent();
}
private void MainForm_Load(object sender, EventArgs e)
{
var wb = new ImprovedWebBrowser();
wb.Dock = DockStyle.Fill;
this.Controls.Add(wb);
wb.Visible = true;
wb.DocumentText = "<body contentEditable='true'><b>Hello from ImprovedWebBrowser!</b></body>";
}
}
public class ImprovedWebBrowser : WebBrowser
{
/// <summary>
/// provide custom WebBrowserSite,
/// where we override IDocHostUIHandler and call the base implementation
/// More info: http://stackoverflow.com/a/19739699/1768303
/// </summary>
protected override WebBrowserSiteBase CreateWebBrowserSiteBase()
{
return new ImprovedWebBrowserSite(this);
}
#region ImprovedWebBrowserSite
[ClassInterface(ClassInterfaceType.None)]
protected class ImprovedWebBrowserSite :
WebBrowserSite,
NativeMethods.IDocHostUIHandler,
IDisposable,
ICustomQueryInterface
{
ImprovedWebBrowser _host;
NativeMethods.IDocHostUIHandler _baseIDocHostUIHandler;
IntPtr _unkInnerAggregated;
IntPtr _unkOuter;
Inner _inner;
// constructor
public ImprovedWebBrowserSite(WebBrowser host) :
base(host)
{
_host = (ImprovedWebBrowser)host;
// get the CCW object for this
_unkOuter = Marshal.GetIUnknownForObject(this);
Marshal.AddRef(_unkOuter);
try
{
// aggregate the CCW object with the helper Inner object
_inner = new Inner(this);
_unkInnerAggregated = Marshal.CreateAggregatedObject(_unkOuter, _inner);
// obtain private WebBrowserSite COM interfaces
_baseIDocHostUIHandler = (NativeMethods.IDocHostUIHandler)Marshal.GetTypedObjectForIUnknown(_unkInnerAggregated, typeof(NativeMethods.IDocHostUIHandler));
}
finally
{
Marshal.Release(_unkOuter);
}
}
~ImprovedWebBrowserSite()
{
// need to work out the reference counting for GC to work correctly
Debug.Print("ImprovedWebBrowserSite object finalized.");
}
void IDisposable.Dispose()
{
base.Dispose();
_baseIDocHostUIHandler = null;
if (_unkInnerAggregated != IntPtr.Zero)
{
Marshal.Release(_unkInnerAggregated);
_unkInnerAggregated = IntPtr.Zero;
}
if (_unkOuter != IntPtr.Zero)
{
Marshal.Release(_unkOuter);
_unkOuter = IntPtr.Zero;
}
}
#region Inner
// Inner as aggregated object
class Inner :
ICustomQueryInterface,
IDisposable
{
object _outer;
Type[] _interfaces;
public Inner(object outer)
{
_outer = outer;
_interfaces = _outer.GetType().BaseType.GetInterfaces();
}
public CustomQueryInterfaceResult GetInterface(ref Guid iid, out IntPtr ppv)
{
if (_outer != null)
{
var guid = iid;
var iface = _interfaces.FirstOrDefault((t) => t.GUID == guid);
if (iface != null)
{
var unk = Marshal.GetComInterfaceForObject(_outer, iface, CustomQueryInterfaceMode.Ignore);
if (unk != IntPtr.Zero)
{
ppv = unk;
return CustomQueryInterfaceResult.Handled;
}
}
}
ppv = IntPtr.Zero;
return CustomQueryInterfaceResult.Failed;
}
~Inner()
{
// need to work out the reference counting for GC to work correctly
Debug.Print("Inner object finalized.");
}
public void Dispose()
{
_outer = null;
_interfaces = null;
}
}
#endregion
#region ICustomQueryInterface
public CustomQueryInterfaceResult GetInterface(ref Guid iid, out IntPtr ppv)
{
// CustomQueryInterfaceMode.Ignore is to avoid infinite loop during QI.
if (iid == typeof(NativeMethods.IDocHostUIHandler).GUID)
{
ppv = Marshal.GetComInterfaceForObject(this, typeof(NativeMethods.IDocHostUIHandler), CustomQueryInterfaceMode.Ignore);
}
else
{
ppv = IntPtr.Zero;
return CustomQueryInterfaceResult.NotHandled;
}
return CustomQueryInterfaceResult.Handled;
}
#endregion
#region IDocHostUIHandler
int NativeMethods.IDocHostUIHandler.ShowContextMenu(int dwID, ref NativeMethods.POINT pt, IntPtr pcmdtReserved, IntPtr pdispReserved)
{
return _baseIDocHostUIHandler.ShowContextMenu(dwID, ref pt, pcmdtReserved, pdispReserved);
}
int NativeMethods.IDocHostUIHandler.GetHostInfo(ref NativeMethods.DOCHOSTUIINFO info)
{
Debug.Print("IDocHostUIHandler.GetHostInfo");
return _baseIDocHostUIHandler.GetHostInfo(ref info);
}
int NativeMethods.IDocHostUIHandler.ShowUI(int dwID, IntPtr activeObject, IntPtr commandTarget, IntPtr frame, IntPtr doc)
{
return _baseIDocHostUIHandler.ShowUI(dwID, activeObject, commandTarget, frame, doc);
}
int NativeMethods.IDocHostUIHandler.HideUI()
{
return _baseIDocHostUIHandler.HideUI();
}
int NativeMethods.IDocHostUIHandler.UpdateUI()
{
return _baseIDocHostUIHandler.UpdateUI();
}
int NativeMethods.IDocHostUIHandler.EnableModeless(bool fEnable)
{
return _baseIDocHostUIHandler.EnableModeless(fEnable);
}
int NativeMethods.IDocHostUIHandler.OnDocWindowActivate(bool fActivate)
{
return _baseIDocHostUIHandler.OnDocWindowActivate(fActivate);
}
int NativeMethods.IDocHostUIHandler.OnFrameWindowActivate(bool fActivate)
{
return _baseIDocHostUIHandler.OnFrameWindowActivate(fActivate);
}
int NativeMethods.IDocHostUIHandler.ResizeBorder(ref NativeMethods.COMRECT rect, IntPtr doc, bool fFrameWindow)
{
return _baseIDocHostUIHandler.ResizeBorder(ref rect, doc, fFrameWindow);
}
int NativeMethods.IDocHostUIHandler.TranslateAccelerator(ref NativeMethods.MSG msg, ref Guid group, int nCmdID)
{
return _baseIDocHostUIHandler.TranslateAccelerator(ref msg, ref group, nCmdID);
}
int NativeMethods.IDocHostUIHandler.GetOptionKeyPath(string[] pbstrKey, int dw)
{
return _baseIDocHostUIHandler.GetOptionKeyPath(pbstrKey, dw);
}
int NativeMethods.IDocHostUIHandler.GetDropTarget(IntPtr pDropTarget, out IntPtr ppDropTarget)
{
Debug.Print("IDocHostUIHandler.GetDropTarget");
return _baseIDocHostUIHandler.GetDropTarget(pDropTarget, out ppDropTarget);
}
int NativeMethods.IDocHostUIHandler.GetExternal(out object ppDispatch)
{
return _baseIDocHostUIHandler.GetExternal(out ppDispatch);
}
int NativeMethods.IDocHostUIHandler.TranslateUrl(int dwTranslate, string strURLIn, out string pstrURLOut)
{
return _baseIDocHostUIHandler.TranslateUrl(dwTranslate, strURLIn, out pstrURLOut);
}
int NativeMethods.IDocHostUIHandler.FilterDataObject(IntPtr pDO, out IntPtr ppDORet)
{
return _baseIDocHostUIHandler.FilterDataObject(pDO, out ppDORet);
}
#endregion
}
#endregion
}
public static class NativeMethods
{
#region IDocHostUIHandler
public enum DOCHOSTUIDBLCLICK
{
DEFAULT = 0x0,
SHOWPROPERTIES = 0x1,
SHOWCODE = 0x2
}
public enum DOCHOSTUIFLAG
{
DIALOG = 0x1,
DISABLE_HELP_MENU = 0x2,
NO3DBORDER = 0x4,
SCROLL_NO = 0x8,
DISABLE_SCRIPT_INACTIVE = 0x10,
OPENNEWWIN = 0x20,
DISABLE_OFFSCREEN = 0x40,
FLAT_SCROLLBAR = 0x80,
DIV_BLOCKDEFAULT = 0x100,
ACTIVATE_CLIENTHIT_ONLY = 0x200,
NO3DOUTERBORDER = 0x00200000,
THEME = 0x00040000,
NOTHEME = 0x80000,
DISABLE_COOKIE = 0x400
}
[StructLayout(LayoutKind.Sequential)]
public struct DOCHOSTUIINFO
{
[MarshalAs(UnmanagedType.U4)]
public int cbSize;
[MarshalAs(UnmanagedType.I4)]
public int dwFlags;
[MarshalAs(UnmanagedType.I4)]
public int dwDoubleClick;
[MarshalAs(UnmanagedType.I4)]
public int dwReserved1;
[MarshalAs(UnmanagedType.I4)]
public int dwReserved2;
}
[StructLayout(LayoutKind.Sequential)]
public struct COMRECT
{
public int left;
public int top;
public int right;
public int bottom;
}
[StructLayout(LayoutKind.Sequential)]
public struct POINT
{
public int x;
public int y;
}
[StructLayout(LayoutKind.Sequential)]
public struct MSG
{
public IntPtr hwnd;
public int message;
public IntPtr wParam;
public IntPtr lParam;
public int time;
POINT pt;
}
[ComImport(), Guid("BD3F23C0-D43E-11CF-893B-00AA00BDCE1A"),
InterfaceTypeAttribute(ComInterfaceType.InterfaceIsIUnknown)]
public interface IDocHostUIHandler
{
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int ShowContextMenu(
[In, MarshalAs(UnmanagedType.U4)]
int dwID,
[In]
ref POINT pt,
[In]
IntPtr pcmdtReserved,
[In]
IntPtr pdispReserved);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int GetHostInfo(
[In, Out]
ref DOCHOSTUIINFO info);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int ShowUI(
[In, MarshalAs(UnmanagedType.I4)]
int dwID,
[In]
IntPtr activeObject,
[In]
IntPtr commandTarget,
[In]
IntPtr frame,
[In]
IntPtr doc);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int HideUI();
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int UpdateUI();
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int EnableModeless(
[In, MarshalAs(UnmanagedType.Bool)]
bool fEnable);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int OnDocWindowActivate(
[In, MarshalAs(UnmanagedType.Bool)]
bool fActivate);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int OnFrameWindowActivate(
[In, MarshalAs(UnmanagedType.Bool)]
bool fActivate);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int ResizeBorder(
[In]
ref COMRECT rect,
[In]
IntPtr doc,
bool fFrameWindow);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int TranslateAccelerator(
[In]
ref MSG msg,
[In]
ref Guid group,
[In, MarshalAs(UnmanagedType.I4)]
int nCmdID);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int GetOptionKeyPath(
[Out, MarshalAs(UnmanagedType.LPArray)]
String[] pbstrKey,
[In, MarshalAs(UnmanagedType.U4)]
int dw);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int GetDropTarget(
[In]
IntPtr pDropTarget,
[Out]
out IntPtr ppDropTarget);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int GetExternal(
[Out, MarshalAs(UnmanagedType.IDispatch)]
out object ppDispatch);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int TranslateUrl(
[In, MarshalAs(UnmanagedType.U4)]
int dwTranslate,
[In, MarshalAs(UnmanagedType.LPWStr)]
string strURLIn,
[Out, MarshalAs(UnmanagedType.LPWStr)]
out string pstrURLOut);
[return: MarshalAs(UnmanagedType.I4)]
[PreserveSig]
int FilterDataObject(
[In]
IntPtr pDO,
[Out]
out IntPtr ppDORet);
}
#endregion
}
}

How to deactivate "right click" on WPF Webbrowser Control?

I can't seem to find an answer to this.
Does anyone know?
Thanks
Here is the code of a utility class that allows you to deactivate WPF's WebBrowser context menu. It also allows you to suppress script errors (WPF WebBrowser control - how to supress script errors?) and change IE's DOCHOSTUIFLAG.
Usage sample:
public partial class Player : Window
{
private WebBrowserHostUIHandler _wbHandler;
public Player()
{
InitializeComponent();
...
_wbHandler = new WebBrowserHostUIHandler(MyWebBrower);
_wbHandler.IsWebBrowserContextMenuEnabled = false;
}
}
Utility code:
public class WebBrowserHostUIHandler : Native.IDocHostUIHandler
{
private const uint E_NOTIMPL = 0x80004001;
private const uint S_OK = 0;
private const uint S_FALSE = 1;
public WebBrowserHostUIHandler(WebBrowser browser)
{
if (browser == null)
throw new ArgumentNullException("browser");
Browser = browser;
browser.LoadCompleted += OnLoadCompleted;
browser.Navigated += OnNavigated;
IsWebBrowserContextMenuEnabled = true;
Flags |= HostUIFlags.ENABLE_REDIRECT_NOTIFICATION;
}
public WebBrowser Browser { get; private set; }
public HostUIFlags Flags { get; set; }
public bool IsWebBrowserContextMenuEnabled { get; set; }
public bool ScriptErrorsSuppressed { get; set; }
private void OnNavigated(object sender, NavigationEventArgs e)
{
SetSilent(Browser, ScriptErrorsSuppressed);
}
private void OnLoadCompleted(object sender, NavigationEventArgs e)
{
Native.ICustomDoc doc = Browser.Document as Native.ICustomDoc;
if (doc != null)
{
doc.SetUIHandler(this);
}
}
uint Native.IDocHostUIHandler.ShowContextMenu(int dwID, Native.POINT pt, object pcmdtReserved, object pdispReserved)
{
return IsWebBrowserContextMenuEnabled ? S_FALSE : S_OK;
}
uint Native.IDocHostUIHandler.GetHostInfo(ref Native.DOCHOSTUIINFO info)
{
info.dwFlags = (int)Flags;
info.dwDoubleClick = 0;
return S_OK;
}
uint Native.IDocHostUIHandler.ShowUI(int dwID, object activeObject, object commandTarget, object frame, object doc)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.HideUI()
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.UpdateUI()
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.EnableModeless(bool fEnable)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.OnDocWindowActivate(bool fActivate)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.OnFrameWindowActivate(bool fActivate)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.ResizeBorder(Native.COMRECT rect, object doc, bool fFrameWindow)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.TranslateAccelerator(ref System.Windows.Forms.Message msg, ref Guid group, int nCmdID)
{
return S_FALSE;
}
uint Native.IDocHostUIHandler.GetOptionKeyPath(string[] pbstrKey, int dw)
{
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.GetDropTarget(object pDropTarget, out object ppDropTarget)
{
ppDropTarget = null;
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.GetExternal(out object ppDispatch)
{
ppDispatch = Browser.ObjectForScripting;
return S_OK;
}
uint Native.IDocHostUIHandler.TranslateUrl(int dwTranslate, string strURLIn, out string pstrURLOut)
{
pstrURLOut = null;
return E_NOTIMPL;
}
uint Native.IDocHostUIHandler.FilterDataObject(IDataObject pDO, out IDataObject ppDORet)
{
ppDORet = null;
return E_NOTIMPL;
}
public static void SetSilent(WebBrowser browser, bool silent)
{
Native.IOleServiceProvider sp = browser.Document as Native.IOleServiceProvider;
if (sp != null)
{
Guid IID_IWebBrowserApp = new Guid("0002DF05-0000-0000-C000-000000000046");
Guid IID_IWebBrowser2 = new Guid("D30C1661-CDAF-11d0-8A3E-00C04FC9E26E");
object webBrowser;
sp.QueryService(ref IID_IWebBrowserApp, ref IID_IWebBrowser2, out webBrowser);
if (webBrowser != null)
{
webBrowser.GetType().InvokeMember("Silent", BindingFlags.Instance | BindingFlags.Public | BindingFlags.PutDispProperty, null, webBrowser, new object[] { silent });
}
}
}
}
internal static class Native
{
[ComImport, Guid("BD3F23C0-D43E-11CF-893B-00AA00BDCE1A"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface IDocHostUIHandler
{
[PreserveSig]
uint ShowContextMenu(int dwID, POINT pt, [MarshalAs(UnmanagedType.Interface)] object pcmdtReserved, [MarshalAs(UnmanagedType.Interface)] object pdispReserved);
[PreserveSig]
uint GetHostInfo(ref DOCHOSTUIINFO info);
[PreserveSig]
uint ShowUI(int dwID, [MarshalAs(UnmanagedType.Interface)] object activeObject, [MarshalAs(UnmanagedType.Interface)] object commandTarget, [MarshalAs(UnmanagedType.Interface)] object frame, [MarshalAs(UnmanagedType.Interface)] object doc);
[PreserveSig]
uint HideUI();
[PreserveSig]
uint UpdateUI();
[PreserveSig]
uint EnableModeless(bool fEnable);
[PreserveSig]
uint OnDocWindowActivate(bool fActivate);
[PreserveSig]
uint OnFrameWindowActivate(bool fActivate);
[PreserveSig]
uint ResizeBorder(COMRECT rect, [MarshalAs(UnmanagedType.Interface)] object doc, bool fFrameWindow);
[PreserveSig]
uint TranslateAccelerator(ref System.Windows.Forms.Message msg, ref Guid group, int nCmdID);
[PreserveSig]
uint GetOptionKeyPath([Out, MarshalAs(UnmanagedType.LPArray)] string[] pbstrKey, int dw);
[PreserveSig]
uint GetDropTarget([In, MarshalAs(UnmanagedType.Interface)] object pDropTarget, [MarshalAs(UnmanagedType.Interface)] out object ppDropTarget);
[PreserveSig]
uint GetExternal([MarshalAs(UnmanagedType.IDispatch)] out object ppDispatch);
[PreserveSig]
uint TranslateUrl(int dwTranslate, [MarshalAs(UnmanagedType.LPWStr)] string strURLIn, [MarshalAs(UnmanagedType.LPWStr)] out string pstrURLOut);
[PreserveSig]
uint FilterDataObject(IDataObject pDO, out IDataObject ppDORet);
}
[StructLayout(LayoutKind.Sequential)]
internal struct DOCHOSTUIINFO
{
public int cbSize;
public int dwFlags;
public int dwDoubleClick;
public IntPtr dwReserved1;
public IntPtr dwReserved2;
}
[StructLayout(LayoutKind.Sequential)]
internal struct COMRECT
{
public int left;
public int top;
public int right;
public int bottom;
}
[StructLayout(LayoutKind.Sequential)]
internal class POINT
{
public int x;
public int y;
}
[ComImport, Guid("3050F3F0-98B5-11CF-BB82-00AA00BDCE0B"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface ICustomDoc
{
[PreserveSig]
int SetUIHandler(IDocHostUIHandler pUIHandler);
}
[ComImport, Guid("6D5140C1-7436-11CE-8034-00AA006009FA"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface IOleServiceProvider
{
[PreserveSig]
uint QueryService([In] ref Guid guidService, [In] ref Guid riid, [MarshalAs(UnmanagedType.IDispatch)] out object ppvObject);
}
}
[Flags]
public enum HostUIFlags
{
DIALOG = 0x00000001,
DISABLE_HELP_MENU = 0x00000002,
NO3DBORDER = 0x00000004,
SCROLL_NO = 0x00000008,
DISABLE_SCRIPT_INACTIVE = 0x00000010,
OPENNEWWIN = 0x00000020,
DISABLE_OFFSCREEN = 0x00000040,
FLAT_SCROLLBAR = 0x00000080,
DIV_BLOCKDEFAULT = 0x00000100,
ACTIVATE_CLIENTHIT_ONLY = 0x00000200,
OVERRIDEBEHAVIORFACTORY = 0x00000400,
CODEPAGELINKEDFONTS = 0x00000800,
URL_ENCODING_DISABLE_UTF8 = 0x00001000,
URL_ENCODING_ENABLE_UTF8 = 0x00002000,
ENABLE_FORMS_AUTOCOMPLETE = 0x00004000,
ENABLE_INPLACE_NAVIGATION = 0x00010000,
IME_ENABLE_RECONVERSION = 0x00020000,
THEME = 0x00040000,
NOTHEME = 0x00080000,
NOPICS = 0x00100000,
NO3DOUTERBORDER = 0x00200000,
DISABLE_EDIT_NS_FIXUP = 0x00400000,
LOCAL_MACHINE_ACCESS_CHECK = 0x00800000,
DISABLE_UNTRUSTEDPROTOCOL = 0x01000000,
HOST_NAVIGATES = 0x02000000,
ENABLE_REDIRECT_NOTIFICATION = 0x04000000,
USE_WINDOWLESS_SELECTCONTROL = 0x08000000,
USE_WINDOWED_SELECTCONTROL = 0x10000000,
ENABLE_ACTIVEX_INACTIVATE_MODE = 0x20000000,
DPI_AWARE = 0x40000000
}
Reference mshtml
using mshtml;
Then you can do this by accessing the document:
MainBrowser.Navigate("https://www.domain.com");
MainBrowser.LoadCompleted += (o, args) =>
{
var doc = (HTMLDocumentEvents2_Event) MainBrowser.Document;
doc.oncontextmenu += obj => false;
};
From the internal WebBrowserSite class:
int UnsafeNativeMethods.IDocHostUIHandler.ShowContextMenu(int dwID, NativeMethods.POINT pt, object pcmdtReserved, object pdispReserved)
{
// Returning S_FALSE will allow the native control to do default processing,
// i.e., execute the shortcut key. Returning S_OK will cancel the context menu
return NativeMethods.S_FALSE;
}
Hard-baked, you cannot override this. Putting the Winforms WebBrower inside a WindowsFormsHost would be a workaround, it's got a smarter implementation of this method that uses the IsWebBrowserContextMenuEnabled property and allows you to create your own context menu.
This is an old question, but I had a unique problem in that I wanted/needed to use the newer CSProj file format with the .Net Core SDK but it has a known issue with not being able to reference extension libraries, such as mshtml. So I finally found a solution that's possible without a reference to mshtml.
Some inspiration came from https://stackoverflow.com/a/28464764/2646868 where the user cast the WebBrowser.Document property to dynamic.
Assuming webView is the name of your WebBrowser control, hook up the LoadCompleted event like such:
private void webView_LoadCompleted(object sender, NavigationEventArgs e)
{
dynamic document = webView.Document;
document.oncontextmenu += new Func<bool>(() => false);
}
Digging graves it seems, but...
Based on e.g. answer here https://stackoverflow.com/a/6979961/4537127 get IWebBrowser2 interface, then get DWebBrowserEvents2_Event interface, and attach handler to DocumentComplete event
SHDocVw.DWebBrowserEvents2_Event wbEvents = (SHDocVw.DWebBrowserEvents2_Event)myWebBrowser2;
wbEvents.DocumentComplete += new SHDocVw.DWebBrowserEvents2_DocumentCompleteEventHandler(OnWebBrowserDocumentComplete);
(Above must to be done only once on WebBrowser LoadCompleted event, so add some logic to run it only on first one)
And then in this handler, run sone JavaScript to attach event listener to document, and as bonus, to the iframe in this document
private void OnWebBrowserDocumentComplete(object pDisp, ref object URL)
{
/* try-catch wrap this if you get e.g. DISP_E_EXCEPTION */
MyBrowser.InvokeScript("execScript", new Object[]
{
"document.addEventListener('contextmenu', function(e){ e.preventDefault(); }, false);" +
"var frm = document.getElementById('frm');" +
"frm.onload = function() { frm.contentDocument.body.addEventListener('contextmenu', function(e){ e.preventDefault(); }, false); };",
"JavaScript"
});
}
This will work even if the iframe content is changed. I use this with DITA WebHelp classic running in WPF WebBrowser.
And no mshtml reference needed.

Forcing closed an open file by C# [duplicate]

I've seen several of answers about using Handle or Process Monitor, but I would like to be able to find out in my own code (C#)
which process is locking a file.
I have a nasty feeling that I'm going to have to spelunk around in the win32 API, but if anyone has already done this and can put me on the right track, I'd really appreciate the help.
Update
Links to similar questions
How does one figure out what process locked a file using c#?
Command line tool
Across a Network
Locking a USB device
Unit test fails with locked file
deleting locked file
Long ago it was impossible to reliably get the list of processes locking a file because Windows simply did not track that information. To support the Restart Manager API, that information is now tracked.
I put together code that takes the path of a file and returns a List<Process> of all processes that are locking that file.
using System.Runtime.InteropServices;
using System.Diagnostics;
using System;
using System.Collections.Generic;
static public class FileUtil
{
[StructLayout(LayoutKind.Sequential)]
struct RM_UNIQUE_PROCESS
{
public int dwProcessId;
public System.Runtime.InteropServices.ComTypes.FILETIME ProcessStartTime;
}
const int RmRebootReasonNone = 0;
const int CCH_RM_MAX_APP_NAME = 255;
const int CCH_RM_MAX_SVC_NAME = 63;
enum RM_APP_TYPE
{
RmUnknownApp = 0,
RmMainWindow = 1,
RmOtherWindow = 2,
RmService = 3,
RmExplorer = 4,
RmConsole = 5,
RmCritical = 1000
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
struct RM_PROCESS_INFO
{
public RM_UNIQUE_PROCESS Process;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_APP_NAME + 1)]
public string strAppName;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_SVC_NAME + 1)]
public string strServiceShortName;
public RM_APP_TYPE ApplicationType;
public uint AppStatus;
public uint TSSessionId;
[MarshalAs(UnmanagedType.Bool)]
public bool bRestartable;
}
[DllImport("rstrtmgr.dll", CharSet = CharSet.Unicode)]
static extern int RmRegisterResources(uint pSessionHandle,
UInt32 nFiles,
string[] rgsFilenames,
UInt32 nApplications,
[In] RM_UNIQUE_PROCESS[] rgApplications,
UInt32 nServices,
string[] rgsServiceNames);
[DllImport("rstrtmgr.dll", CharSet = CharSet.Auto)]
static extern int RmStartSession(out uint pSessionHandle, int dwSessionFlags, string strSessionKey);
[DllImport("rstrtmgr.dll")]
static extern int RmEndSession(uint pSessionHandle);
[DllImport("rstrtmgr.dll")]
static extern int RmGetList(uint dwSessionHandle,
out uint pnProcInfoNeeded,
ref uint pnProcInfo,
[In, Out] RM_PROCESS_INFO[] rgAffectedApps,
ref uint lpdwRebootReasons);
/// <summary>
/// Find out what process(es) have a lock on the specified file.
/// </summary>
/// <param name="path">Path of the file.</param>
/// <returns>Processes locking the file</returns>
/// <remarks>See also:
/// http://msdn.microsoft.com/en-us/library/windows/desktop/aa373661(v=vs.85).aspx
/// http://wyupdate.googlecode.com/svn-history/r401/trunk/frmFilesInUse.cs (no copyright in code at time of viewing)
///
/// </remarks>
static public List<Process> WhoIsLocking(string path)
{
uint handle;
string key = Guid.NewGuid().ToString();
List<Process> processes = new List<Process>();
int res = RmStartSession(out handle, 0, key);
if (res != 0) throw new Exception("Could not begin restart session. Unable to determine file locker.");
try
{
const int ERROR_MORE_DATA = 234;
uint pnProcInfoNeeded = 0,
pnProcInfo = 0,
lpdwRebootReasons = RmRebootReasonNone;
string[] resources = new string[] { path }; // Just checking on one resource.
res = RmRegisterResources(handle, (uint)resources.Length, resources, 0, null, 0, null);
if (res != 0) throw new Exception("Could not register resource.");
//Note: there's a race condition here -- the first call to RmGetList() returns
// the total number of process. However, when we call RmGetList() again to get
// the actual processes this number may have increased.
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, null, ref lpdwRebootReasons);
if (res == ERROR_MORE_DATA)
{
// Create an array to store the process results
RM_PROCESS_INFO[] processInfo = new RM_PROCESS_INFO[pnProcInfoNeeded];
pnProcInfo = pnProcInfoNeeded;
// Get the list
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, processInfo, ref lpdwRebootReasons);
if (res == 0)
{
processes = new List<Process>((int)pnProcInfo);
// Enumerate all of the results and add them to the
// list to be returned
for (int i = 0; i < pnProcInfo; i++)
{
try
{
processes.Add(Process.GetProcessById(processInfo[i].Process.dwProcessId));
}
// catch the error -- in case the process is no longer running
catch (ArgumentException) { }
}
}
else throw new Exception("Could not list processes locking resource.");
}
else if (res != 0) throw new Exception("Could not list processes locking resource. Failed to get size of result.");
}
finally
{
RmEndSession(handle);
}
return processes;
}
}
Using from Limited Permission (e.g. IIS)
This call accesses the registry. If the process does not have permission to do so, you will get ERROR_WRITE_FAULT, meaning An operation was unable to read or write to the registry. You could selectively grant permission to your restricted account to the necessary part of the registry. It is more secure though to have your limited access process set a flag (e.g. in the database or the file system, or by using an interprocess communication mechanism such as queue or named pipe) and have a second process call the Restart Manager API.
Granting other-than-minimal permissions to the IIS user is a security risk.
This question had an original answer that is now over 7 years old. That code is preserved at https://gist.github.com/i-e-b/2290426
This old version might work for you if you need to use Windows XP for some reason.
A much better answer is at How to check for file lock?
I've replicated Eric J's answer below (with using statements added, and class & method names to match the old code that was here) Please note that the comments to this answer may be out-of-date.
Research by user 'Walkman' is ongoing to improve the older code, as there are some conditions where the Restart Manager does not list all locks. See Github repo: https://github.com/Walkman100/FileLocks
Use like:
List<Process> locks = Win32Processes.GetProcessesLockingFile(#"C:\Hello.docx");
Code:
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Runtime.InteropServices;
namespace FileLockInfo
{
public static class Win32Processes
{
/// <summary>
/// Find out what process(es) have a lock on the specified file.
/// </summary>
/// <param name="path">Path of the file.</param>
/// <returns>Processes locking the file</returns>
/// <remarks>See also:
/// http://msdn.microsoft.com/en-us/library/windows/desktop/aa373661(v=vs.85).aspx
/// http://wyupdate.googlecode.com/svn-history/r401/trunk/frmFilesInUse.cs (no copyright in code at time of viewing)
/// </remarks>
public static List<Process> GetProcessesLockingFile(string path)
{
uint handle;
string key = Guid.NewGuid().ToString();
int res = RmStartSession(out handle, 0, key);
if (res != 0) throw new Exception("Could not begin restart session. Unable to determine file locker.");
try
{
const int MORE_DATA = 234;
uint pnProcInfoNeeded, pnProcInfo = 0, lpdwRebootReasons = RmRebootReasonNone;
string[] resources = {path}; // Just checking on one resource.
res = RmRegisterResources(handle, (uint) resources.Length, resources, 0, null, 0, null);
if (res != 0) throw new Exception("Could not register resource.");
//Note: there's a race condition here -- the first call to RmGetList() returns
// the total number of process. However, when we call RmGetList() again to get
// the actual processes this number may have increased.
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, null, ref lpdwRebootReasons);
if (res == MORE_DATA)
{
return EnumerateProcesses(pnProcInfoNeeded, handle, lpdwRebootReasons);
}
else if (res != 0) throw new Exception("Could not list processes locking resource. Failed to get size of result.");
}
finally
{
RmEndSession(handle);
}
return new List<Process>();
}
[StructLayout(LayoutKind.Sequential)]
public struct RM_UNIQUE_PROCESS
{
public int dwProcessId;
public System.Runtime.InteropServices.ComTypes.FILETIME ProcessStartTime;
}
const int RmRebootReasonNone = 0;
const int CCH_RM_MAX_APP_NAME = 255;
const int CCH_RM_MAX_SVC_NAME = 63;
public enum RM_APP_TYPE
{
RmUnknownApp = 0,
RmMainWindow = 1,
RmOtherWindow = 2,
RmService = 3,
RmExplorer = 4,
RmConsole = 5,
RmCritical = 1000
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
public struct RM_PROCESS_INFO
{
public RM_UNIQUE_PROCESS Process;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_APP_NAME + 1)] public string strAppName;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_SVC_NAME + 1)] public string strServiceShortName;
public RM_APP_TYPE ApplicationType;
public uint AppStatus;
public uint TSSessionId;
[MarshalAs(UnmanagedType.Bool)] public bool bRestartable;
}
[DllImport("rstrtmgr.dll", CharSet = CharSet.Unicode)]
static extern int RmRegisterResources(uint pSessionHandle, uint nFiles, string[] rgsFilenames,
uint nApplications, [In] RM_UNIQUE_PROCESS[] rgApplications, uint nServices,
string[] rgsServiceNames);
[DllImport("rstrtmgr.dll", CharSet = CharSet.Auto)]
static extern int RmStartSession(out uint pSessionHandle, int dwSessionFlags, string strSessionKey);
[DllImport("rstrtmgr.dll")]
static extern int RmEndSession(uint pSessionHandle);
[DllImport("rstrtmgr.dll")]
static extern int RmGetList(uint dwSessionHandle, out uint pnProcInfoNeeded,
ref uint pnProcInfo, [In, Out] RM_PROCESS_INFO[] rgAffectedApps,
ref uint lpdwRebootReasons);
private static List<Process> EnumerateProcesses(uint pnProcInfoNeeded, uint handle, uint lpdwRebootReasons)
{
var processes = new List<Process>(10);
// Create an array to store the process results
var processInfo = new RM_PROCESS_INFO[pnProcInfoNeeded];
var pnProcInfo = pnProcInfoNeeded;
// Get the list
var res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, processInfo, ref lpdwRebootReasons);
if (res != 0) throw new Exception("Could not list processes locking resource.");
for (int i = 0; i < pnProcInfo; i++)
{
try
{
processes.Add(Process.GetProcessById(processInfo[i].Process.dwProcessId));
}
catch (ArgumentException) { } // catch the error -- in case the process is no longer running
}
return processes;
}
}
}
It is very complex to invoke Win32 from C#.
You should use the tool Handle.exe.
After that your C# code have to be the following:
string fileName = #"c:\aaa.doc";//Path to locked file
Process tool = new Process();
tool.StartInfo.FileName = "handle.exe";
tool.StartInfo.Arguments = fileName+" /accepteula";
tool.StartInfo.UseShellExecute = false;
tool.StartInfo.RedirectStandardOutput = true;
tool.Start();
tool.WaitForExit();
string outputTool = tool.StandardOutput.ReadToEnd();
string matchPattern = #"(?<=\s+pid:\s+)\b(\d+)\b(?=\s+)";
foreach(Match match in Regex.Matches(outputTool, matchPattern))
{
Process.GetProcessById(int.Parse(match.Value)).Kill();
}
One of the good things about handle.exe is that you can run it as a subprocess and parse the output.
We do this in our deployment script - works like a charm.
The code I found here,
https://vmccontroller.svn.codeplex.com/svn/VmcController/VmcServices/DetectOpenFiles.cs
Works for me much better than the code provided by Iain. Iain's code seemed to be acquiring a lock of its own. Here is my slightly modified version of the code above modified to return the string path of the files locked instead of the FileSystemInfo object,
using System;
using System.Collections.Generic;
//using System.EnterpriseServices;
using System.IO;
using System.Runtime.CompilerServices;
using System.Runtime.ConstrainedExecution;
using System.Runtime.InteropServices;
using System.Security.Permissions;
using System.Text;
using System.Threading;
using Microsoft.Win32.SafeHandles;
namespace Crmc.Core.BuildTasks
{
using System.Diagnostics;
using System.Linq;
#region ENUMs
internal enum NT_STATUS
{
STATUS_SUCCESS = 0x00000000,
STATUS_BUFFER_OVERFLOW = unchecked((int)0x80000005L),
STATUS_INFO_LENGTH_MISMATCH = unchecked((int)0xC0000004L)
}
internal enum SYSTEM_INFORMATION_CLASS
{
SystemBasicInformation = 0,
SystemPerformanceInformation = 2,
SystemTimeOfDayInformation = 3,
SystemProcessInformation = 5,
SystemProcessorPerformanceInformation = 8,
SystemHandleInformation = 16,
SystemInterruptInformation = 23,
SystemExceptionInformation = 33,
SystemRegistryQuotaInformation = 37,
SystemLookasideInformation = 45
}
internal enum OBJECT_INFORMATION_CLASS
{
ObjectBasicInformation = 0,
ObjectNameInformation = 1,
ObjectTypeInformation = 2,
ObjectAllTypesInformation = 3,
ObjectHandleInformation = 4
}
[Flags]
internal enum ProcessAccessRights
{
PROCESS_DUP_HANDLE = 0x00000040
}
[Flags]
internal enum DuplicateHandleOptions
{
DUPLICATE_CLOSE_SOURCE = 0x1,
DUPLICATE_SAME_ACCESS = 0x2
}
#endregion
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode = true)]
internal sealed class SafeObjectHandle : SafeHandleZeroOrMinusOneIsInvalid
{
private SafeObjectHandle()
: base(true)
{ }
internal SafeObjectHandle(IntPtr preexistingHandle, bool ownsHandle)
: base(ownsHandle)
{
base.SetHandle(preexistingHandle);
}
protected override bool ReleaseHandle()
{
return NativeMethods.CloseHandle(base.handle);
}
}
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode = true)]
internal sealed class SafeProcessHandle : SafeHandleZeroOrMinusOneIsInvalid
{
private SafeProcessHandle()
: base(true)
{ }
internal SafeProcessHandle(IntPtr preexistingHandle, bool ownsHandle)
: base(ownsHandle)
{
base.SetHandle(preexistingHandle);
}
protected override bool ReleaseHandle()
{
return NativeMethods.CloseHandle(base.handle);
}
}
#region Native Methods
internal static class NativeMethods
{
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQuerySystemInformation(
[In] SYSTEM_INFORMATION_CLASS SystemInformationClass,
[In] IntPtr SystemInformation,
[In] int SystemInformationLength,
[Out] out int ReturnLength);
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQueryObject(
[In] IntPtr Handle,
[In] OBJECT_INFORMATION_CLASS ObjectInformationClass,
[In] IntPtr ObjectInformation,
[In] int ObjectInformationLength,
[Out] out int ReturnLength);
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern SafeProcessHandle OpenProcess(
[In] ProcessAccessRights dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwProcessId);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool DuplicateHandle(
[In] IntPtr hSourceProcessHandle,
[In] IntPtr hSourceHandle,
[In] IntPtr hTargetProcessHandle,
[Out] out SafeObjectHandle lpTargetHandle,
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] DuplicateHandleOptions dwOptions);
[DllImport("kernel32.dll")]
internal static extern IntPtr GetCurrentProcess();
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern int GetProcessId(
[In] IntPtr Process);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool CloseHandle(
[In] IntPtr hObject);
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern int QueryDosDevice(
[In] string lpDeviceName,
[Out] StringBuilder lpTargetPath,
[In] int ucchMax);
}
#endregion
//[ComVisible(true), EventTrackingEnabled(true)]
public class DetectOpenFiles// : ServicedComponent
{
private static Dictionary<string, string> deviceMap;
private const string networkDevicePrefix = "\\Device\\LanmanRedirector\\";
private const int MAX_PATH = 260;
private enum SystemHandleType
{
OB_TYPE_UNKNOWN = 0,
OB_TYPE_TYPE = 1,
OB_TYPE_DIRECTORY,
OB_TYPE_SYMBOLIC_LINK,
OB_TYPE_TOKEN,
OB_TYPE_PROCESS,
OB_TYPE_THREAD,
OB_TYPE_UNKNOWN_7,
OB_TYPE_EVENT,
OB_TYPE_EVENT_PAIR,
OB_TYPE_MUTANT,
OB_TYPE_UNKNOWN_11,
OB_TYPE_SEMAPHORE,
OB_TYPE_TIMER,
OB_TYPE_PROFILE,
OB_TYPE_WINDOW_STATION,
OB_TYPE_DESKTOP,
OB_TYPE_SECTION,
OB_TYPE_KEY,
OB_TYPE_PORT,
OB_TYPE_WAITABLE_PORT,
OB_TYPE_UNKNOWN_21,
OB_TYPE_UNKNOWN_22,
OB_TYPE_UNKNOWN_23,
OB_TYPE_UNKNOWN_24,
//OB_TYPE_CONTROLLER,
//OB_TYPE_DEVICE,
//OB_TYPE_DRIVER,
OB_TYPE_IO_COMPLETION,
OB_TYPE_FILE
};
private const int handleTypeTokenCount = 27;
private static readonly string[] handleTypeTokens = new string[] {
"", "", "Directory", "SymbolicLink", "Token",
"Process", "Thread", "Unknown7", "Event", "EventPair", "Mutant",
"Unknown11", "Semaphore", "Timer", "Profile", "WindowStation",
"Desktop", "Section", "Key", "Port", "WaitablePort",
"Unknown21", "Unknown22", "Unknown23", "Unknown24",
"IoCompletion", "File"
};
[StructLayout(LayoutKind.Sequential)]
private struct SYSTEM_HANDLE_ENTRY
{
public int OwnerPid;
public byte ObjectType;
public byte HandleFlags;
public short HandleValue;
public int ObjectPointer;
public int AccessMask;
}
/// <summary>
/// Gets the open files enumerator.
/// </summary>
/// <param name="processId">The process id.</param>
/// <returns></returns>
public static IEnumerable<String> GetOpenFilesEnumerator(int processId)
{
return new OpenFiles(processId);
}
public static List<Process> GetProcessesUsingFile(string fName)
{
List<Process> result = new List<Process>();
foreach (var p in Process.GetProcesses())
{
try
{
if (DetectOpenFiles.GetOpenFilesEnumerator(p.Id).Contains(fName))
{
result.Add(p);
}
}
catch { }//some processes will fail
}
return result;
}
private sealed class OpenFiles : IEnumerable<String>
{
private readonly int processId;
internal OpenFiles(int processId)
{
this.processId = processId;
}
#region IEnumerable<FileSystemInfo> Members
public IEnumerator<String> GetEnumerator()
{
NT_STATUS ret;
int length = 0x10000;
// Loop, probing for required memory.
do
{
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees that the address of the allocated
// memory is actually assigned to ptr if an
// asynchronous exception occurs.
ptr = Marshal.AllocHGlobal(length);
}
int returnLength;
ret = NativeMethods.NtQuerySystemInformation(SYSTEM_INFORMATION_CLASS.SystemHandleInformation, ptr, length, out returnLength);
if (ret == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH)
{
// Round required memory up to the nearest 64KB boundary.
length = ((returnLength + 0xffff) & ~0xffff);
}
else if (ret == NT_STATUS.STATUS_SUCCESS)
{
int handleCount = Marshal.ReadInt32(ptr);
int offset = sizeof(int);
int size = Marshal.SizeOf(typeof(SYSTEM_HANDLE_ENTRY));
for (int i = 0; i < handleCount; i++)
{
SYSTEM_HANDLE_ENTRY handleEntry = (SYSTEM_HANDLE_ENTRY)Marshal.PtrToStructure((IntPtr)((int)ptr + offset), typeof(SYSTEM_HANDLE_ENTRY));
if (handleEntry.OwnerPid == processId)
{
IntPtr handle = (IntPtr)handleEntry.HandleValue;
SystemHandleType handleType;
if (GetHandleType(handle, handleEntry.OwnerPid, out handleType) && handleType == SystemHandleType.OB_TYPE_FILE)
{
string devicePath;
if (GetFileNameFromHandle(handle, handleEntry.OwnerPid, out devicePath))
{
string dosPath;
if (ConvertDevicePathToDosPath(devicePath, out dosPath))
{
if (File.Exists(dosPath))
{
yield return dosPath; // return new FileInfo(dosPath);
}
else if (Directory.Exists(dosPath))
{
yield return dosPath; // new DirectoryInfo(dosPath);
}
}
}
}
}
offset += size;
}
}
}
finally
{
// CER guarantees that the allocated memory is freed,
// if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
//sw.Flush();
//sw.Close();
}
}
while (ret == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH);
}
#endregion
#region IEnumerable Members
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
#endregion
}
#region Private Members
private static bool GetFileNameFromHandle(IntPtr handle, int processId, out string fileName)
{
IntPtr currentProcess = NativeMethods.GetCurrentProcess();
bool remote = (processId != NativeMethods.GetProcessId(currentProcess));
SafeProcessHandle processHandle = null;
SafeObjectHandle objectHandle = null;
try
{
if (remote)
{
processHandle = NativeMethods.OpenProcess(ProcessAccessRights.PROCESS_DUP_HANDLE, true, processId);
if (NativeMethods.DuplicateHandle(processHandle.DangerousGetHandle(), handle, currentProcess, out objectHandle, 0, false, DuplicateHandleOptions.DUPLICATE_SAME_ACCESS))
{
handle = objectHandle.DangerousGetHandle();
}
}
return GetFileNameFromHandle(handle, out fileName, 200);
}
finally
{
if (remote)
{
if (processHandle != null)
{
processHandle.Close();
}
if (objectHandle != null)
{
objectHandle.Close();
}
}
}
}
private static bool GetFileNameFromHandle(IntPtr handle, out string fileName, int wait)
{
using (FileNameFromHandleState f = new FileNameFromHandleState(handle))
{
ThreadPool.QueueUserWorkItem(new WaitCallback(GetFileNameFromHandle), f);
if (f.WaitOne(wait))
{
fileName = f.FileName;
return f.RetValue;
}
else
{
fileName = string.Empty;
return false;
}
}
}
private class FileNameFromHandleState : IDisposable
{
private ManualResetEvent _mr;
private IntPtr _handle;
private string _fileName;
private bool _retValue;
public IntPtr Handle
{
get
{
return _handle;
}
}
public string FileName
{
get
{
return _fileName;
}
set
{
_fileName = value;
}
}
public bool RetValue
{
get
{
return _retValue;
}
set
{
_retValue = value;
}
}
public FileNameFromHandleState(IntPtr handle)
{
_mr = new ManualResetEvent(false);
this._handle = handle;
}
public bool WaitOne(int wait)
{
return _mr.WaitOne(wait, false);
}
public void Set()
{
try
{
_mr.Set();
}
catch{}
}
#region IDisposable Members
public void Dispose()
{
if (_mr != null)
_mr.Close();
}
#endregion
}
private static void GetFileNameFromHandle(object state)
{
FileNameFromHandleState s = (FileNameFromHandleState)state;
string fileName;
s.RetValue = GetFileNameFromHandle(s.Handle, out fileName);
s.FileName = fileName;
s.Set();
}
private static bool GetFileNameFromHandle(IntPtr handle, out string fileName)
{
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
int length = 0x200; // 512 bytes
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees the assignment of the allocated
// memory address to ptr, if an ansynchronous exception
// occurs.
ptr = Marshal.AllocHGlobal(length);
}
NT_STATUS ret = NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length);
if (ret == NT_STATUS.STATUS_BUFFER_OVERFLOW)
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees that the previous allocation is freed,
// and that the newly allocated memory address is
// assigned to ptr if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
ptr = Marshal.AllocHGlobal(length);
}
ret = NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length);
}
if (ret == NT_STATUS.STATUS_SUCCESS)
{
fileName = Marshal.PtrToStringUni((IntPtr)((int)ptr + 8), (length - 9) / 2);
return fileName.Length != 0;
}
}
finally
{
// CER guarantees that the allocated memory is freed,
// if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
}
fileName = string.Empty;
return false;
}
private static bool GetHandleType(IntPtr handle, int processId, out SystemHandleType handleType)
{
string token = GetHandleTypeToken(handle, processId);
return GetHandleTypeFromToken(token, out handleType);
}
private static bool GetHandleType(IntPtr handle, out SystemHandleType handleType)
{
string token = GetHandleTypeToken(handle);
return GetHandleTypeFromToken(token, out handleType);
}
private static bool GetHandleTypeFromToken(string token, out SystemHandleType handleType)
{
for (int i = 1; i < handleTypeTokenCount; i++)
{
if (handleTypeTokens[i] == token)
{
handleType = (SystemHandleType)i;
return true;
}
}
handleType = SystemHandleType.OB_TYPE_UNKNOWN;
return false;
}
private static string GetHandleTypeToken(IntPtr handle, int processId)
{
IntPtr currentProcess = NativeMethods.GetCurrentProcess();
bool remote = (processId != NativeMethods.GetProcessId(currentProcess));
SafeProcessHandle processHandle = null;
SafeObjectHandle objectHandle = null;
try
{
if (remote)
{
processHandle = NativeMethods.OpenProcess(ProcessAccessRights.PROCESS_DUP_HANDLE, true, processId);
if (NativeMethods.DuplicateHandle(processHandle.DangerousGetHandle(), handle, currentProcess, out objectHandle, 0, false, DuplicateHandleOptions.DUPLICATE_SAME_ACCESS))
{
handle = objectHandle.DangerousGetHandle();
}
}
return GetHandleTypeToken(handle);
}
finally
{
if (remote)
{
if (processHandle != null)
{
processHandle.Close();
}
if (objectHandle != null)
{
objectHandle.Close();
}
}
}
}
private static string GetHandleTypeToken(IntPtr handle)
{
int length;
NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
ptr = Marshal.AllocHGlobal(length);
}
if (NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, ptr, length, out length) == NT_STATUS.STATUS_SUCCESS)
{
return Marshal.PtrToStringUni((IntPtr)((int)ptr + 0x60));
}
}
finally
{
Marshal.FreeHGlobal(ptr);
}
return string.Empty;
}
private static bool ConvertDevicePathToDosPath(string devicePath, out string dosPath)
{
EnsureDeviceMap();
int i = devicePath.Length;
while (i > 0 && (i = devicePath.LastIndexOf('\\', i - 1)) != -1)
{
string drive;
if (deviceMap.TryGetValue(devicePath.Substring(0, i), out drive))
{
dosPath = string.Concat(drive, devicePath.Substring(i));
return dosPath.Length != 0;
}
}
dosPath = string.Empty;
return false;
}
private static void EnsureDeviceMap()
{
if (deviceMap == null)
{
Dictionary<string, string> localDeviceMap = BuildDeviceMap();
Interlocked.CompareExchange<Dictionary<string, string>>(ref deviceMap, localDeviceMap, null);
}
}
private static Dictionary<string, string> BuildDeviceMap()
{
string[] logicalDrives = Environment.GetLogicalDrives();
Dictionary<string, string> localDeviceMap = new Dictionary<string, string>(logicalDrives.Length);
StringBuilder lpTargetPath = new StringBuilder(MAX_PATH);
foreach (string drive in logicalDrives)
{
string lpDeviceName = drive.Substring(0, 2);
NativeMethods.QueryDosDevice(lpDeviceName, lpTargetPath, MAX_PATH);
localDeviceMap.Add(NormalizeDeviceName(lpTargetPath.ToString()), lpDeviceName);
}
localDeviceMap.Add(networkDevicePrefix.Substring(0, networkDevicePrefix.Length - 1), "\\");
return localDeviceMap;
}
private static string NormalizeDeviceName(string deviceName)
{
if (string.Compare(deviceName, 0, networkDevicePrefix, 0, networkDevicePrefix.Length, StringComparison.InvariantCulture) == 0)
{
string shareName = deviceName.Substring(deviceName.IndexOf('\\', networkDevicePrefix.Length) + 1);
return string.Concat(networkDevicePrefix, shareName);
}
return deviceName;
}
#endregion
}
}
Not very straightforward, but on Windows Vista and above you can use the Restart Manager APIs to see who is using a file. Internet Explorer caches settings includes details on using this to detect which process has iexplore.exe open.
Omitting a lot of detail:
// Start an RM session
RmStartSession(&sessionHandle, 0, sessionKey);
// Register the file you are checking
RmRegisterResources(sessionHandle, 1, filePathArray, 0, NULL, 0, NULL);
// Get all processes that have that file open.
RmGetList(sessionHAndle, &nProcInfoNeeded, &nProcInfo, processes, &rebootReason);
RmEndSession(sessionHandle);
Handle, from Windows Sysinternals. This is a free command-line utility provided by Microsoft.
You could run it, and parse the result.
I had issues with stefan's solution. Below is a modified version which seems to work well.
using System;
using System.Collections;
using System.Diagnostics;
using System.Management;
using System.IO;
static class Module1
{
static internal ArrayList myProcessArray = new ArrayList();
private static Process myProcess;
public static void Main()
{
string strFile = "c:\\windows\\system32\\msi.dll";
ArrayList a = getFileProcesses(strFile);
foreach (Process p in a)
{
Debug.Print(p.ProcessName);
}
}
private static ArrayList getFileProcesses(string strFile)
{
myProcessArray.Clear();
Process[] processes = Process.GetProcesses();
int i = 0;
for (i = 0; i <= processes.GetUpperBound(0) - 1; i++)
{
myProcess = processes[i];
//if (!myProcess.HasExited) //This will cause an "Access is denied" error
if (myProcess.Threads.Count > 0)
{
try
{
ProcessModuleCollection modules = myProcess.Modules;
int j = 0;
for (j = 0; j <= modules.Count - 1; j++)
{
if ((modules[j].FileName.ToLower().CompareTo(strFile.ToLower()) == 0))
{
myProcessArray.Add(myProcess);
break;
// TODO: might not be correct. Was : Exit For
}
}
}
catch (Exception exception)
{
//MsgBox(("Error : " & exception.Message))
}
}
}
return myProcessArray;
}
}
UPDATE
If you just want to know which process(es) are locking a particular DLL, you can execute and parse the output of tasklist /m YourDllName.dll. Works on Windows XP and later. See
What does this do? tasklist /m "mscor*"
This works for DLLs locked by other processes. This routine will not find out for example that a text file is locked by a word process.
C#:
using System.Management;
using System.IO;
static class Module1
{
static internal ArrayList myProcessArray = new ArrayList();
private static Process myProcess;
public static void Main()
{
string strFile = "c:\\windows\\system32\\msi.dll";
ArrayList a = getFileProcesses(strFile);
foreach (Process p in a) {
Debug.Print(p.ProcessName);
}
}
private static ArrayList getFileProcesses(string strFile)
{
myProcessArray.Clear();
Process[] processes = Process.GetProcesses;
int i = 0;
for (i = 0; i <= processes.GetUpperBound(0) - 1; i++) {
myProcess = processes(i);
if (!myProcess.HasExited) {
try {
ProcessModuleCollection modules = myProcess.Modules;
int j = 0;
for (j = 0; j <= modules.Count - 1; j++) {
if ((modules.Item(j).FileName.ToLower.CompareTo(strFile.ToLower) == 0)) {
myProcessArray.Add(myProcess);
break; // TODO: might not be correct. Was : Exit For
}
}
}
catch (Exception exception) {
}
//MsgBox(("Error : " & exception.Message))
}
}
return myProcessArray;
}
}
VB.Net:
Imports System.Management
Imports System.IO
Module Module1
Friend myProcessArray As New ArrayList
Private myProcess As Process
Sub Main()
Dim strFile As String = "c:\windows\system32\msi.dll"
Dim a As ArrayList = getFileProcesses(strFile)
For Each p As Process In a
Debug.Print(p.ProcessName)
Next
End Sub
Private Function getFileProcesses(ByVal strFile As String) As ArrayList
myProcessArray.Clear()
Dim processes As Process() = Process.GetProcesses
Dim i As Integer
For i = 0 To processes.GetUpperBound(0) - 1
myProcess = processes(i)
If Not myProcess.HasExited Then
Try
Dim modules As ProcessModuleCollection = myProcess.Modules
Dim j As Integer
For j = 0 To modules.Count - 1
If (modules.Item(j).FileName.ToLower.CompareTo(strFile.ToLower) = 0) Then
myProcessArray.Add(myProcess)
Exit For
End If
Next j
Catch exception As Exception
'MsgBox(("Error : " & exception.Message))
End Try
End If
Next i
Return myProcessArray
End Function
End Module
The following was produced based on Iain Ballard's code dump. It is broken: it will occasionally lock up when you retrieve the handle name. This code doesn't contain any work-arounds for that issue, and .NET leaves few options: Thread.Abort can no longer abort a thread that's currently in a native method.
So, with that disclaimer, here is the code to retrieve handles which has been adapted to work (apart from the occasional lock-up) both in 32 and 64 bit modes:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.ConstrainedExecution;
using System.Runtime.InteropServices;
namespace BrokenHandleRetrieval
{
class Program
{
static void Main(string[] args)
{
Console.WriteLine("Enumerates open handles.");
Console.WriteLine("This *will* lock up on calling HandleInfo.Name from time to time. Thread.Abort() won't help.");
foreach (var hi in HandleUtil.GetHandles().Where(hi => hi.Type == HandleType.File))
Console.WriteLine("pid: " + hi.ProcessId + ", name: " + hi.Name);
}
}
public enum HandleType
{
Unknown,
Other,
File, Directory, SymbolicLink, Key,
Process, Thread, Job, Session, WindowStation,
Timer, Desktop, Semaphore, Token,
Mutant, Section, Event, KeyedEvent, IoCompletion, IoCompletionReserve,
TpWorkerFactory, AlpcPort, WmiGuid, UserApcReserve,
}
public class HandleInfo
{
public int ProcessId { get; private set; }
public ushort Handle { get; private set; }
public int GrantedAccess { get; private set; }
public byte RawType { get; private set; }
public HandleInfo(int processId, ushort handle, int grantedAccess, byte rawType)
{
ProcessId = processId;
Handle = handle;
GrantedAccess = grantedAccess;
RawType = rawType;
}
private static Dictionary<byte, string> _rawTypeMap = new Dictionary<byte, string>();
private string _name, _typeStr;
private HandleType _type;
public string Name { get { if (_name == null) initTypeAndName(); return _name; } }
public string TypeString { get { if (_typeStr == null) initType(); return _typeStr; } }
public HandleType Type { get { if (_typeStr == null) initType(); return _type; } }
private void initType()
{
if (_rawTypeMap.ContainsKey(RawType))
{
_typeStr = _rawTypeMap[RawType];
_type = HandleTypeFromString(_typeStr);
}
else
initTypeAndName();
}
bool _typeAndNameAttempted = false;
private void initTypeAndName()
{
if (_typeAndNameAttempted)
return;
_typeAndNameAttempted = true;
IntPtr sourceProcessHandle = IntPtr.Zero;
IntPtr handleDuplicate = IntPtr.Zero;
try
{
sourceProcessHandle = NativeMethods.OpenProcess(0x40 /* dup_handle */, true, ProcessId);
// To read info about a handle owned by another process we must duplicate it into ours
// For simplicity, current process handles will also get duplicated; remember that process handles cannot be compared for equality
if (!NativeMethods.DuplicateHandle(sourceProcessHandle, (IntPtr) Handle, NativeMethods.GetCurrentProcess(), out handleDuplicate, 0, false, 2 /* same_access */))
return;
// Query the object type
if (_rawTypeMap.ContainsKey(RawType))
_typeStr = _rawTypeMap[RawType];
else
{
int length;
NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
try
{
ptr = Marshal.AllocHGlobal(length);
if (NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, ptr, length, out length) != NT_STATUS.STATUS_SUCCESS)
return;
_typeStr = Marshal.PtrToStringUni((IntPtr) ((int) ptr + 0x58 + 2 * IntPtr.Size));
_rawTypeMap[RawType] = _typeStr;
}
finally
{
Marshal.FreeHGlobal(ptr);
}
}
_type = HandleTypeFromString(_typeStr);
// Query the object name
if (_typeStr != null && GrantedAccess != 0x0012019f && GrantedAccess != 0x00120189 && GrantedAccess != 0x120089) // don't query some objects that could get stuck
{
int length;
NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectNameInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
try
{
ptr = Marshal.AllocHGlobal(length);
if (NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length) != NT_STATUS.STATUS_SUCCESS)
return;
_name = Marshal.PtrToStringUni((IntPtr) ((int) ptr + 2 * IntPtr.Size));
}
finally
{
Marshal.FreeHGlobal(ptr);
}
}
}
finally
{
NativeMethods.CloseHandle(sourceProcessHandle);
if (handleDuplicate != IntPtr.Zero)
NativeMethods.CloseHandle(handleDuplicate);
}
}
public static HandleType HandleTypeFromString(string typeStr)
{
switch (typeStr)
{
case null: return HandleType.Unknown;
case "File": return HandleType.File;
case "IoCompletion": return HandleType.IoCompletion;
case "TpWorkerFactory": return HandleType.TpWorkerFactory;
case "ALPC Port": return HandleType.AlpcPort;
case "Event": return HandleType.Event;
case "Section": return HandleType.Section;
case "Directory": return HandleType.Directory;
case "KeyedEvent": return HandleType.KeyedEvent;
case "Process": return HandleType.Process;
case "Key": return HandleType.Key;
case "SymbolicLink": return HandleType.SymbolicLink;
case "Thread": return HandleType.Thread;
case "Mutant": return HandleType.Mutant;
case "WindowStation": return HandleType.WindowStation;
case "Timer": return HandleType.Timer;
case "Semaphore": return HandleType.Semaphore;
case "Desktop": return HandleType.Desktop;
case "Token": return HandleType.Token;
case "Job": return HandleType.Job;
case "Session": return HandleType.Session;
case "IoCompletionReserve": return HandleType.IoCompletionReserve;
case "WmiGuid": return HandleType.WmiGuid;
case "UserApcReserve": return HandleType.UserApcReserve;
default: return HandleType.Other;
}
}
}
public static class HandleUtil
{
public static IEnumerable<HandleInfo> GetHandles()
{
// Attempt to retrieve the handle information
int length = 0x10000;
IntPtr ptr = IntPtr.Zero;
try
{
while (true)
{
ptr = Marshal.AllocHGlobal(length);
int wantedLength;
var result = NativeMethods.NtQuerySystemInformation(SYSTEM_INFORMATION_CLASS.SystemHandleInformation, ptr, length, out wantedLength);
if (result == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH)
{
length = Math.Max(length, wantedLength);
Marshal.FreeHGlobal(ptr);
ptr = IntPtr.Zero;
}
else if (result == NT_STATUS.STATUS_SUCCESS)
break;
else
throw new Exception("Failed to retrieve system handle information.");
}
int handleCount = IntPtr.Size == 4 ? Marshal.ReadInt32(ptr) : (int) Marshal.ReadInt64(ptr);
int offset = IntPtr.Size;
int size = Marshal.SizeOf(typeof(SystemHandleEntry));
for (int i = 0; i < handleCount; i++)
{
var struc = (SystemHandleEntry) Marshal.PtrToStructure((IntPtr) ((int) ptr + offset), typeof(SystemHandleEntry));
yield return new HandleInfo(struc.OwnerProcessId, struc.Handle, struc.GrantedAccess, struc.ObjectTypeNumber);
offset += size;
}
}
finally
{
if (ptr != IntPtr.Zero)
Marshal.FreeHGlobal(ptr);
}
}
[StructLayout(LayoutKind.Sequential)]
private struct SystemHandleEntry
{
public int OwnerProcessId;
public byte ObjectTypeNumber;
public byte Flags;
public ushort Handle;
public IntPtr Object;
public int GrantedAccess;
}
}
enum NT_STATUS
{
STATUS_SUCCESS = 0x00000000,
STATUS_BUFFER_OVERFLOW = unchecked((int) 0x80000005L),
STATUS_INFO_LENGTH_MISMATCH = unchecked((int) 0xC0000004L)
}
enum SYSTEM_INFORMATION_CLASS
{
SystemBasicInformation = 0,
SystemPerformanceInformation = 2,
SystemTimeOfDayInformation = 3,
SystemProcessInformation = 5,
SystemProcessorPerformanceInformation = 8,
SystemHandleInformation = 16,
SystemInterruptInformation = 23,
SystemExceptionInformation = 33,
SystemRegistryQuotaInformation = 37,
SystemLookasideInformation = 45
}
enum OBJECT_INFORMATION_CLASS
{
ObjectBasicInformation = 0,
ObjectNameInformation = 1,
ObjectTypeInformation = 2,
ObjectAllTypesInformation = 3,
ObjectHandleInformation = 4
}
static class NativeMethods
{
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQuerySystemInformation(
[In] SYSTEM_INFORMATION_CLASS SystemInformationClass,
[In] IntPtr SystemInformation,
[In] int SystemInformationLength,
[Out] out int ReturnLength);
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQueryObject(
[In] IntPtr Handle,
[In] OBJECT_INFORMATION_CLASS ObjectInformationClass,
[In] IntPtr ObjectInformation,
[In] int ObjectInformationLength,
[Out] out int ReturnLength);
[DllImport("kernel32.dll")]
internal static extern IntPtr GetCurrentProcess();
[DllImport("kernel32.dll", SetLastError = true)]
public static extern IntPtr OpenProcess(
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwProcessId);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool CloseHandle(
[In] IntPtr hObject);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
public static extern bool DuplicateHandle(
[In] IntPtr hSourceProcessHandle,
[In] IntPtr hSourceHandle,
[In] IntPtr hTargetProcessHandle,
[Out] out IntPtr lpTargetHandle,
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwOptions);
}
}
This is probably irrelevant and if it is please someone comment but there was a work-around I've used in explorer before to get around file locks.
If a file was locked by a process that had died Windows often wouldn't let you delete it but if you created a new file of the same name somewhere else, moved it to the folder it would succeed. You could then delete the new file and all was well.
To use this for your app you'd have to be able to read the file and hold it in memory before you did this then you write it back out after you'd got rid of the old one.
Maybe it will help, maybe not but it's worth trying.
Try Unlocker. If you try and delete the file that is locked by another process, it will list the process(es) that have the file locked. You can then unlock the file by shutting down those processes.
foreach (var process in Process.GetProcessesByName("excel")) //whatever you need to close
{
if (process.MainWindowTitle.Contains("test.xlsx"))
{
process.Kill();
break;
}
}
or
foreach (var process in Process.GetProcesses())
{
if (process.MainWindowTitle.Contains("test.dat"))
{
process.Kill();
break;
}
}
I believe that you need code running in kernel mode to completely answer the question (but I haven't looked at the restart manager API).
You can enumerate all processes and their modules - so if the file you're looking for is a module (DLL, EXE, OCX...), you're good to go. But if it's a text file for example, you have to look at the kernel handle table which you cannot see from user mode. Handle.exe has a kernel driver in order to do that.
I rewrote the GetProcessesLockingFile() method in the solution. The code was not working.
For example, you have a folder "C:\folder1\folder2" and a process in folder2 (process1). If the process was running, GetProcessesLockingFile() was returning "C:\folder1\folder2". So the condition if (files.Contains(filePath)) => if ("C:\folder1\folder2".contains("C:\folder1\folder2\process1")) was never true.
So this is my solution:
public static List<Process> GetProcessesLockingFile(FileInfo file)
{
var procs = new List<Process>();
var processListSnapshot = Process.GetProcesses();
foreach (var process in processListSnapshot)
{
if (process.Id <= 4) { continue; } // system processes
List<string> paths = GetFilesLockedBy(process);
foreach (string path in paths)
{
string pathDirectory = path;
if (!pathDirectory.EndsWith(Constants.DOUBLE_BACKSLASH))
{
pathDirectory = pathDirectory + Constants.DOUBLE_BACKSLASH;
}
string lastFolderName = Path.GetFileName(Path.GetDirectoryName(pathDirectory));
if (file.FullName.Contains(lastFolderName))
{
procs.Add(process);
}
}
}
return procs;
}
Or with a string parameter:
public static List<Process> GetProcessesLockingFile(string filePath)
{
var procs = new List<Process>();
var processListSnapshot = Process.GetProcesses();
foreach (var process in processListSnapshot)
{
if (process.Id <= 4) { continue; } // system processes
List<string> paths = GetFilesLockedBy(process);
foreach (string path in paths)
{
string pathDirectory = path;
if (!pathDirectory.EndsWith(Constants.DOUBLE_BACKSLASH))
{
pathDirectory = pathDirectory + Constants.DOUBLE_BACKSLASH;
}
string lastFolderName = Path.GetFileName(Path.GetDirectoryName(pathDirectory));
if (filePath.Contains(lastFolderName))
{
procs.Add(process);
}
}
}
return procs;
}
You absolutely don't need to run in Kernel mode (!!!)
It's a Win32 FAQ since Windows 95 (!) (in C, Google groups, Win32) : read the handle table, from User mode of course, and get the PID from the File handle ...
Using dotnet core (net6) I solved this problem by using the win32 restart manager (as others have also mentioned). However some of the linked articles have elaborate code importing DLLs and calling those.
After finding an app to kill processes that lock a file written by meziantou. I found out that he publishes .Net wrappers for win32 dlls (including the restart manager).
Leveraging his work, I was able to fix this problem with the following code:
using Meziantou.Framework.Win32;
public static IEnumerable<Process> GetProcessesLockingFile(string filePath)
{
using var session = RestartManager.CreateSession();
session.RegisterFile(filePath);
return session.GetProcessesLockingResources();
}
simpler with linq:
public void KillProcessesAssociatedToFile(string file)
{
GetProcessesAssociatedToFile(file).ForEach(x =>
{
x.Kill();
x.WaitForExit(10000);
});
}
public List<Process> GetProcessesAssociatedToFile(string file)
{
return Process.GetProcesses()
.Where(x => !x.HasExited
&& x.Modules.Cast<ProcessModule>().ToList()
.Exists(y => y.FileName.ToLowerInvariant() == file.ToLowerInvariant())
).ToList();
}

How do I find out which process is locking a file using .NET?

I've seen several of answers about using Handle or Process Monitor, but I would like to be able to find out in my own code (C#)
which process is locking a file.
I have a nasty feeling that I'm going to have to spelunk around in the win32 API, but if anyone has already done this and can put me on the right track, I'd really appreciate the help.
Update
Links to similar questions
How does one figure out what process locked a file using c#?
Command line tool
Across a Network
Locking a USB device
Unit test fails with locked file
deleting locked file
Long ago it was impossible to reliably get the list of processes locking a file because Windows simply did not track that information. To support the Restart Manager API, that information is now tracked.
I put together code that takes the path of a file and returns a List<Process> of all processes that are locking that file.
using System.Runtime.InteropServices;
using System.Diagnostics;
using System;
using System.Collections.Generic;
static public class FileUtil
{
[StructLayout(LayoutKind.Sequential)]
struct RM_UNIQUE_PROCESS
{
public int dwProcessId;
public System.Runtime.InteropServices.ComTypes.FILETIME ProcessStartTime;
}
const int RmRebootReasonNone = 0;
const int CCH_RM_MAX_APP_NAME = 255;
const int CCH_RM_MAX_SVC_NAME = 63;
enum RM_APP_TYPE
{
RmUnknownApp = 0,
RmMainWindow = 1,
RmOtherWindow = 2,
RmService = 3,
RmExplorer = 4,
RmConsole = 5,
RmCritical = 1000
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
struct RM_PROCESS_INFO
{
public RM_UNIQUE_PROCESS Process;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_APP_NAME + 1)]
public string strAppName;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_SVC_NAME + 1)]
public string strServiceShortName;
public RM_APP_TYPE ApplicationType;
public uint AppStatus;
public uint TSSessionId;
[MarshalAs(UnmanagedType.Bool)]
public bool bRestartable;
}
[DllImport("rstrtmgr.dll", CharSet = CharSet.Unicode)]
static extern int RmRegisterResources(uint pSessionHandle,
UInt32 nFiles,
string[] rgsFilenames,
UInt32 nApplications,
[In] RM_UNIQUE_PROCESS[] rgApplications,
UInt32 nServices,
string[] rgsServiceNames);
[DllImport("rstrtmgr.dll", CharSet = CharSet.Auto)]
static extern int RmStartSession(out uint pSessionHandle, int dwSessionFlags, string strSessionKey);
[DllImport("rstrtmgr.dll")]
static extern int RmEndSession(uint pSessionHandle);
[DllImport("rstrtmgr.dll")]
static extern int RmGetList(uint dwSessionHandle,
out uint pnProcInfoNeeded,
ref uint pnProcInfo,
[In, Out] RM_PROCESS_INFO[] rgAffectedApps,
ref uint lpdwRebootReasons);
/// <summary>
/// Find out what process(es) have a lock on the specified file.
/// </summary>
/// <param name="path">Path of the file.</param>
/// <returns>Processes locking the file</returns>
/// <remarks>See also:
/// http://msdn.microsoft.com/en-us/library/windows/desktop/aa373661(v=vs.85).aspx
/// http://wyupdate.googlecode.com/svn-history/r401/trunk/frmFilesInUse.cs (no copyright in code at time of viewing)
///
/// </remarks>
static public List<Process> WhoIsLocking(string path)
{
uint handle;
string key = Guid.NewGuid().ToString();
List<Process> processes = new List<Process>();
int res = RmStartSession(out handle, 0, key);
if (res != 0) throw new Exception("Could not begin restart session. Unable to determine file locker.");
try
{
const int ERROR_MORE_DATA = 234;
uint pnProcInfoNeeded = 0,
pnProcInfo = 0,
lpdwRebootReasons = RmRebootReasonNone;
string[] resources = new string[] { path }; // Just checking on one resource.
res = RmRegisterResources(handle, (uint)resources.Length, resources, 0, null, 0, null);
if (res != 0) throw new Exception("Could not register resource.");
//Note: there's a race condition here -- the first call to RmGetList() returns
// the total number of process. However, when we call RmGetList() again to get
// the actual processes this number may have increased.
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, null, ref lpdwRebootReasons);
if (res == ERROR_MORE_DATA)
{
// Create an array to store the process results
RM_PROCESS_INFO[] processInfo = new RM_PROCESS_INFO[pnProcInfoNeeded];
pnProcInfo = pnProcInfoNeeded;
// Get the list
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, processInfo, ref lpdwRebootReasons);
if (res == 0)
{
processes = new List<Process>((int)pnProcInfo);
// Enumerate all of the results and add them to the
// list to be returned
for (int i = 0; i < pnProcInfo; i++)
{
try
{
processes.Add(Process.GetProcessById(processInfo[i].Process.dwProcessId));
}
// catch the error -- in case the process is no longer running
catch (ArgumentException) { }
}
}
else throw new Exception("Could not list processes locking resource.");
}
else if (res != 0) throw new Exception("Could not list processes locking resource. Failed to get size of result.");
}
finally
{
RmEndSession(handle);
}
return processes;
}
}
Using from Limited Permission (e.g. IIS)
This call accesses the registry. If the process does not have permission to do so, you will get ERROR_WRITE_FAULT, meaning An operation was unable to read or write to the registry. You could selectively grant permission to your restricted account to the necessary part of the registry. It is more secure though to have your limited access process set a flag (e.g. in the database or the file system, or by using an interprocess communication mechanism such as queue or named pipe) and have a second process call the Restart Manager API.
Granting other-than-minimal permissions to the IIS user is a security risk.
This question had an original answer that is now over 7 years old. That code is preserved at https://gist.github.com/i-e-b/2290426
This old version might work for you if you need to use Windows XP for some reason.
A much better answer is at How to check for file lock?
I've replicated Eric J's answer below (with using statements added, and class & method names to match the old code that was here) Please note that the comments to this answer may be out-of-date.
Research by user 'Walkman' is ongoing to improve the older code, as there are some conditions where the Restart Manager does not list all locks. See Github repo: https://github.com/Walkman100/FileLocks
Use like:
List<Process> locks = Win32Processes.GetProcessesLockingFile(#"C:\Hello.docx");
Code:
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Runtime.InteropServices;
namespace FileLockInfo
{
public static class Win32Processes
{
/// <summary>
/// Find out what process(es) have a lock on the specified file.
/// </summary>
/// <param name="path">Path of the file.</param>
/// <returns>Processes locking the file</returns>
/// <remarks>See also:
/// http://msdn.microsoft.com/en-us/library/windows/desktop/aa373661(v=vs.85).aspx
/// http://wyupdate.googlecode.com/svn-history/r401/trunk/frmFilesInUse.cs (no copyright in code at time of viewing)
/// </remarks>
public static List<Process> GetProcessesLockingFile(string path)
{
uint handle;
string key = Guid.NewGuid().ToString();
int res = RmStartSession(out handle, 0, key);
if (res != 0) throw new Exception("Could not begin restart session. Unable to determine file locker.");
try
{
const int MORE_DATA = 234;
uint pnProcInfoNeeded, pnProcInfo = 0, lpdwRebootReasons = RmRebootReasonNone;
string[] resources = {path}; // Just checking on one resource.
res = RmRegisterResources(handle, (uint) resources.Length, resources, 0, null, 0, null);
if (res != 0) throw new Exception("Could not register resource.");
//Note: there's a race condition here -- the first call to RmGetList() returns
// the total number of process. However, when we call RmGetList() again to get
// the actual processes this number may have increased.
res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, null, ref lpdwRebootReasons);
if (res == MORE_DATA)
{
return EnumerateProcesses(pnProcInfoNeeded, handle, lpdwRebootReasons);
}
else if (res != 0) throw new Exception("Could not list processes locking resource. Failed to get size of result.");
}
finally
{
RmEndSession(handle);
}
return new List<Process>();
}
[StructLayout(LayoutKind.Sequential)]
public struct RM_UNIQUE_PROCESS
{
public int dwProcessId;
public System.Runtime.InteropServices.ComTypes.FILETIME ProcessStartTime;
}
const int RmRebootReasonNone = 0;
const int CCH_RM_MAX_APP_NAME = 255;
const int CCH_RM_MAX_SVC_NAME = 63;
public enum RM_APP_TYPE
{
RmUnknownApp = 0,
RmMainWindow = 1,
RmOtherWindow = 2,
RmService = 3,
RmExplorer = 4,
RmConsole = 5,
RmCritical = 1000
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
public struct RM_PROCESS_INFO
{
public RM_UNIQUE_PROCESS Process;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_APP_NAME + 1)] public string strAppName;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = CCH_RM_MAX_SVC_NAME + 1)] public string strServiceShortName;
public RM_APP_TYPE ApplicationType;
public uint AppStatus;
public uint TSSessionId;
[MarshalAs(UnmanagedType.Bool)] public bool bRestartable;
}
[DllImport("rstrtmgr.dll", CharSet = CharSet.Unicode)]
static extern int RmRegisterResources(uint pSessionHandle, uint nFiles, string[] rgsFilenames,
uint nApplications, [In] RM_UNIQUE_PROCESS[] rgApplications, uint nServices,
string[] rgsServiceNames);
[DllImport("rstrtmgr.dll", CharSet = CharSet.Auto)]
static extern int RmStartSession(out uint pSessionHandle, int dwSessionFlags, string strSessionKey);
[DllImport("rstrtmgr.dll")]
static extern int RmEndSession(uint pSessionHandle);
[DllImport("rstrtmgr.dll")]
static extern int RmGetList(uint dwSessionHandle, out uint pnProcInfoNeeded,
ref uint pnProcInfo, [In, Out] RM_PROCESS_INFO[] rgAffectedApps,
ref uint lpdwRebootReasons);
private static List<Process> EnumerateProcesses(uint pnProcInfoNeeded, uint handle, uint lpdwRebootReasons)
{
var processes = new List<Process>(10);
// Create an array to store the process results
var processInfo = new RM_PROCESS_INFO[pnProcInfoNeeded];
var pnProcInfo = pnProcInfoNeeded;
// Get the list
var res = RmGetList(handle, out pnProcInfoNeeded, ref pnProcInfo, processInfo, ref lpdwRebootReasons);
if (res != 0) throw new Exception("Could not list processes locking resource.");
for (int i = 0; i < pnProcInfo; i++)
{
try
{
processes.Add(Process.GetProcessById(processInfo[i].Process.dwProcessId));
}
catch (ArgumentException) { } // catch the error -- in case the process is no longer running
}
return processes;
}
}
}
It is very complex to invoke Win32 from C#.
You should use the tool Handle.exe.
After that your C# code have to be the following:
string fileName = #"c:\aaa.doc";//Path to locked file
Process tool = new Process();
tool.StartInfo.FileName = "handle.exe";
tool.StartInfo.Arguments = fileName+" /accepteula";
tool.StartInfo.UseShellExecute = false;
tool.StartInfo.RedirectStandardOutput = true;
tool.Start();
tool.WaitForExit();
string outputTool = tool.StandardOutput.ReadToEnd();
string matchPattern = #"(?<=\s+pid:\s+)\b(\d+)\b(?=\s+)";
foreach(Match match in Regex.Matches(outputTool, matchPattern))
{
Process.GetProcessById(int.Parse(match.Value)).Kill();
}
One of the good things about handle.exe is that you can run it as a subprocess and parse the output.
We do this in our deployment script - works like a charm.
The code I found here,
https://vmccontroller.svn.codeplex.com/svn/VmcController/VmcServices/DetectOpenFiles.cs
Works for me much better than the code provided by Iain. Iain's code seemed to be acquiring a lock of its own. Here is my slightly modified version of the code above modified to return the string path of the files locked instead of the FileSystemInfo object,
using System;
using System.Collections.Generic;
//using System.EnterpriseServices;
using System.IO;
using System.Runtime.CompilerServices;
using System.Runtime.ConstrainedExecution;
using System.Runtime.InteropServices;
using System.Security.Permissions;
using System.Text;
using System.Threading;
using Microsoft.Win32.SafeHandles;
namespace Crmc.Core.BuildTasks
{
using System.Diagnostics;
using System.Linq;
#region ENUMs
internal enum NT_STATUS
{
STATUS_SUCCESS = 0x00000000,
STATUS_BUFFER_OVERFLOW = unchecked((int)0x80000005L),
STATUS_INFO_LENGTH_MISMATCH = unchecked((int)0xC0000004L)
}
internal enum SYSTEM_INFORMATION_CLASS
{
SystemBasicInformation = 0,
SystemPerformanceInformation = 2,
SystemTimeOfDayInformation = 3,
SystemProcessInformation = 5,
SystemProcessorPerformanceInformation = 8,
SystemHandleInformation = 16,
SystemInterruptInformation = 23,
SystemExceptionInformation = 33,
SystemRegistryQuotaInformation = 37,
SystemLookasideInformation = 45
}
internal enum OBJECT_INFORMATION_CLASS
{
ObjectBasicInformation = 0,
ObjectNameInformation = 1,
ObjectTypeInformation = 2,
ObjectAllTypesInformation = 3,
ObjectHandleInformation = 4
}
[Flags]
internal enum ProcessAccessRights
{
PROCESS_DUP_HANDLE = 0x00000040
}
[Flags]
internal enum DuplicateHandleOptions
{
DUPLICATE_CLOSE_SOURCE = 0x1,
DUPLICATE_SAME_ACCESS = 0x2
}
#endregion
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode = true)]
internal sealed class SafeObjectHandle : SafeHandleZeroOrMinusOneIsInvalid
{
private SafeObjectHandle()
: base(true)
{ }
internal SafeObjectHandle(IntPtr preexistingHandle, bool ownsHandle)
: base(ownsHandle)
{
base.SetHandle(preexistingHandle);
}
protected override bool ReleaseHandle()
{
return NativeMethods.CloseHandle(base.handle);
}
}
[SecurityPermission(SecurityAction.LinkDemand, UnmanagedCode = true)]
internal sealed class SafeProcessHandle : SafeHandleZeroOrMinusOneIsInvalid
{
private SafeProcessHandle()
: base(true)
{ }
internal SafeProcessHandle(IntPtr preexistingHandle, bool ownsHandle)
: base(ownsHandle)
{
base.SetHandle(preexistingHandle);
}
protected override bool ReleaseHandle()
{
return NativeMethods.CloseHandle(base.handle);
}
}
#region Native Methods
internal static class NativeMethods
{
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQuerySystemInformation(
[In] SYSTEM_INFORMATION_CLASS SystemInformationClass,
[In] IntPtr SystemInformation,
[In] int SystemInformationLength,
[Out] out int ReturnLength);
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQueryObject(
[In] IntPtr Handle,
[In] OBJECT_INFORMATION_CLASS ObjectInformationClass,
[In] IntPtr ObjectInformation,
[In] int ObjectInformationLength,
[Out] out int ReturnLength);
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern SafeProcessHandle OpenProcess(
[In] ProcessAccessRights dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwProcessId);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool DuplicateHandle(
[In] IntPtr hSourceProcessHandle,
[In] IntPtr hSourceHandle,
[In] IntPtr hTargetProcessHandle,
[Out] out SafeObjectHandle lpTargetHandle,
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] DuplicateHandleOptions dwOptions);
[DllImport("kernel32.dll")]
internal static extern IntPtr GetCurrentProcess();
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern int GetProcessId(
[In] IntPtr Process);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool CloseHandle(
[In] IntPtr hObject);
[DllImport("kernel32.dll", SetLastError = true)]
internal static extern int QueryDosDevice(
[In] string lpDeviceName,
[Out] StringBuilder lpTargetPath,
[In] int ucchMax);
}
#endregion
//[ComVisible(true), EventTrackingEnabled(true)]
public class DetectOpenFiles// : ServicedComponent
{
private static Dictionary<string, string> deviceMap;
private const string networkDevicePrefix = "\\Device\\LanmanRedirector\\";
private const int MAX_PATH = 260;
private enum SystemHandleType
{
OB_TYPE_UNKNOWN = 0,
OB_TYPE_TYPE = 1,
OB_TYPE_DIRECTORY,
OB_TYPE_SYMBOLIC_LINK,
OB_TYPE_TOKEN,
OB_TYPE_PROCESS,
OB_TYPE_THREAD,
OB_TYPE_UNKNOWN_7,
OB_TYPE_EVENT,
OB_TYPE_EVENT_PAIR,
OB_TYPE_MUTANT,
OB_TYPE_UNKNOWN_11,
OB_TYPE_SEMAPHORE,
OB_TYPE_TIMER,
OB_TYPE_PROFILE,
OB_TYPE_WINDOW_STATION,
OB_TYPE_DESKTOP,
OB_TYPE_SECTION,
OB_TYPE_KEY,
OB_TYPE_PORT,
OB_TYPE_WAITABLE_PORT,
OB_TYPE_UNKNOWN_21,
OB_TYPE_UNKNOWN_22,
OB_TYPE_UNKNOWN_23,
OB_TYPE_UNKNOWN_24,
//OB_TYPE_CONTROLLER,
//OB_TYPE_DEVICE,
//OB_TYPE_DRIVER,
OB_TYPE_IO_COMPLETION,
OB_TYPE_FILE
};
private const int handleTypeTokenCount = 27;
private static readonly string[] handleTypeTokens = new string[] {
"", "", "Directory", "SymbolicLink", "Token",
"Process", "Thread", "Unknown7", "Event", "EventPair", "Mutant",
"Unknown11", "Semaphore", "Timer", "Profile", "WindowStation",
"Desktop", "Section", "Key", "Port", "WaitablePort",
"Unknown21", "Unknown22", "Unknown23", "Unknown24",
"IoCompletion", "File"
};
[StructLayout(LayoutKind.Sequential)]
private struct SYSTEM_HANDLE_ENTRY
{
public int OwnerPid;
public byte ObjectType;
public byte HandleFlags;
public short HandleValue;
public int ObjectPointer;
public int AccessMask;
}
/// <summary>
/// Gets the open files enumerator.
/// </summary>
/// <param name="processId">The process id.</param>
/// <returns></returns>
public static IEnumerable<String> GetOpenFilesEnumerator(int processId)
{
return new OpenFiles(processId);
}
public static List<Process> GetProcessesUsingFile(string fName)
{
List<Process> result = new List<Process>();
foreach (var p in Process.GetProcesses())
{
try
{
if (DetectOpenFiles.GetOpenFilesEnumerator(p.Id).Contains(fName))
{
result.Add(p);
}
}
catch { }//some processes will fail
}
return result;
}
private sealed class OpenFiles : IEnumerable<String>
{
private readonly int processId;
internal OpenFiles(int processId)
{
this.processId = processId;
}
#region IEnumerable<FileSystemInfo> Members
public IEnumerator<String> GetEnumerator()
{
NT_STATUS ret;
int length = 0x10000;
// Loop, probing for required memory.
do
{
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees that the address of the allocated
// memory is actually assigned to ptr if an
// asynchronous exception occurs.
ptr = Marshal.AllocHGlobal(length);
}
int returnLength;
ret = NativeMethods.NtQuerySystemInformation(SYSTEM_INFORMATION_CLASS.SystemHandleInformation, ptr, length, out returnLength);
if (ret == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH)
{
// Round required memory up to the nearest 64KB boundary.
length = ((returnLength + 0xffff) & ~0xffff);
}
else if (ret == NT_STATUS.STATUS_SUCCESS)
{
int handleCount = Marshal.ReadInt32(ptr);
int offset = sizeof(int);
int size = Marshal.SizeOf(typeof(SYSTEM_HANDLE_ENTRY));
for (int i = 0; i < handleCount; i++)
{
SYSTEM_HANDLE_ENTRY handleEntry = (SYSTEM_HANDLE_ENTRY)Marshal.PtrToStructure((IntPtr)((int)ptr + offset), typeof(SYSTEM_HANDLE_ENTRY));
if (handleEntry.OwnerPid == processId)
{
IntPtr handle = (IntPtr)handleEntry.HandleValue;
SystemHandleType handleType;
if (GetHandleType(handle, handleEntry.OwnerPid, out handleType) && handleType == SystemHandleType.OB_TYPE_FILE)
{
string devicePath;
if (GetFileNameFromHandle(handle, handleEntry.OwnerPid, out devicePath))
{
string dosPath;
if (ConvertDevicePathToDosPath(devicePath, out dosPath))
{
if (File.Exists(dosPath))
{
yield return dosPath; // return new FileInfo(dosPath);
}
else if (Directory.Exists(dosPath))
{
yield return dosPath; // new DirectoryInfo(dosPath);
}
}
}
}
}
offset += size;
}
}
}
finally
{
// CER guarantees that the allocated memory is freed,
// if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
//sw.Flush();
//sw.Close();
}
}
while (ret == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH);
}
#endregion
#region IEnumerable Members
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
#endregion
}
#region Private Members
private static bool GetFileNameFromHandle(IntPtr handle, int processId, out string fileName)
{
IntPtr currentProcess = NativeMethods.GetCurrentProcess();
bool remote = (processId != NativeMethods.GetProcessId(currentProcess));
SafeProcessHandle processHandle = null;
SafeObjectHandle objectHandle = null;
try
{
if (remote)
{
processHandle = NativeMethods.OpenProcess(ProcessAccessRights.PROCESS_DUP_HANDLE, true, processId);
if (NativeMethods.DuplicateHandle(processHandle.DangerousGetHandle(), handle, currentProcess, out objectHandle, 0, false, DuplicateHandleOptions.DUPLICATE_SAME_ACCESS))
{
handle = objectHandle.DangerousGetHandle();
}
}
return GetFileNameFromHandle(handle, out fileName, 200);
}
finally
{
if (remote)
{
if (processHandle != null)
{
processHandle.Close();
}
if (objectHandle != null)
{
objectHandle.Close();
}
}
}
}
private static bool GetFileNameFromHandle(IntPtr handle, out string fileName, int wait)
{
using (FileNameFromHandleState f = new FileNameFromHandleState(handle))
{
ThreadPool.QueueUserWorkItem(new WaitCallback(GetFileNameFromHandle), f);
if (f.WaitOne(wait))
{
fileName = f.FileName;
return f.RetValue;
}
else
{
fileName = string.Empty;
return false;
}
}
}
private class FileNameFromHandleState : IDisposable
{
private ManualResetEvent _mr;
private IntPtr _handle;
private string _fileName;
private bool _retValue;
public IntPtr Handle
{
get
{
return _handle;
}
}
public string FileName
{
get
{
return _fileName;
}
set
{
_fileName = value;
}
}
public bool RetValue
{
get
{
return _retValue;
}
set
{
_retValue = value;
}
}
public FileNameFromHandleState(IntPtr handle)
{
_mr = new ManualResetEvent(false);
this._handle = handle;
}
public bool WaitOne(int wait)
{
return _mr.WaitOne(wait, false);
}
public void Set()
{
try
{
_mr.Set();
}
catch{}
}
#region IDisposable Members
public void Dispose()
{
if (_mr != null)
_mr.Close();
}
#endregion
}
private static void GetFileNameFromHandle(object state)
{
FileNameFromHandleState s = (FileNameFromHandleState)state;
string fileName;
s.RetValue = GetFileNameFromHandle(s.Handle, out fileName);
s.FileName = fileName;
s.Set();
}
private static bool GetFileNameFromHandle(IntPtr handle, out string fileName)
{
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
int length = 0x200; // 512 bytes
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees the assignment of the allocated
// memory address to ptr, if an ansynchronous exception
// occurs.
ptr = Marshal.AllocHGlobal(length);
}
NT_STATUS ret = NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length);
if (ret == NT_STATUS.STATUS_BUFFER_OVERFLOW)
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
// CER guarantees that the previous allocation is freed,
// and that the newly allocated memory address is
// assigned to ptr if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
ptr = Marshal.AllocHGlobal(length);
}
ret = NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length);
}
if (ret == NT_STATUS.STATUS_SUCCESS)
{
fileName = Marshal.PtrToStringUni((IntPtr)((int)ptr + 8), (length - 9) / 2);
return fileName.Length != 0;
}
}
finally
{
// CER guarantees that the allocated memory is freed,
// if an asynchronous exception occurs.
Marshal.FreeHGlobal(ptr);
}
fileName = string.Empty;
return false;
}
private static bool GetHandleType(IntPtr handle, int processId, out SystemHandleType handleType)
{
string token = GetHandleTypeToken(handle, processId);
return GetHandleTypeFromToken(token, out handleType);
}
private static bool GetHandleType(IntPtr handle, out SystemHandleType handleType)
{
string token = GetHandleTypeToken(handle);
return GetHandleTypeFromToken(token, out handleType);
}
private static bool GetHandleTypeFromToken(string token, out SystemHandleType handleType)
{
for (int i = 1; i < handleTypeTokenCount; i++)
{
if (handleTypeTokens[i] == token)
{
handleType = (SystemHandleType)i;
return true;
}
}
handleType = SystemHandleType.OB_TYPE_UNKNOWN;
return false;
}
private static string GetHandleTypeToken(IntPtr handle, int processId)
{
IntPtr currentProcess = NativeMethods.GetCurrentProcess();
bool remote = (processId != NativeMethods.GetProcessId(currentProcess));
SafeProcessHandle processHandle = null;
SafeObjectHandle objectHandle = null;
try
{
if (remote)
{
processHandle = NativeMethods.OpenProcess(ProcessAccessRights.PROCESS_DUP_HANDLE, true, processId);
if (NativeMethods.DuplicateHandle(processHandle.DangerousGetHandle(), handle, currentProcess, out objectHandle, 0, false, DuplicateHandleOptions.DUPLICATE_SAME_ACCESS))
{
handle = objectHandle.DangerousGetHandle();
}
}
return GetHandleTypeToken(handle);
}
finally
{
if (remote)
{
if (processHandle != null)
{
processHandle.Close();
}
if (objectHandle != null)
{
objectHandle.Close();
}
}
}
}
private static string GetHandleTypeToken(IntPtr handle)
{
int length;
NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
RuntimeHelpers.PrepareConstrainedRegions();
try
{
RuntimeHelpers.PrepareConstrainedRegions();
try { }
finally
{
ptr = Marshal.AllocHGlobal(length);
}
if (NativeMethods.NtQueryObject(handle, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, ptr, length, out length) == NT_STATUS.STATUS_SUCCESS)
{
return Marshal.PtrToStringUni((IntPtr)((int)ptr + 0x60));
}
}
finally
{
Marshal.FreeHGlobal(ptr);
}
return string.Empty;
}
private static bool ConvertDevicePathToDosPath(string devicePath, out string dosPath)
{
EnsureDeviceMap();
int i = devicePath.Length;
while (i > 0 && (i = devicePath.LastIndexOf('\\', i - 1)) != -1)
{
string drive;
if (deviceMap.TryGetValue(devicePath.Substring(0, i), out drive))
{
dosPath = string.Concat(drive, devicePath.Substring(i));
return dosPath.Length != 0;
}
}
dosPath = string.Empty;
return false;
}
private static void EnsureDeviceMap()
{
if (deviceMap == null)
{
Dictionary<string, string> localDeviceMap = BuildDeviceMap();
Interlocked.CompareExchange<Dictionary<string, string>>(ref deviceMap, localDeviceMap, null);
}
}
private static Dictionary<string, string> BuildDeviceMap()
{
string[] logicalDrives = Environment.GetLogicalDrives();
Dictionary<string, string> localDeviceMap = new Dictionary<string, string>(logicalDrives.Length);
StringBuilder lpTargetPath = new StringBuilder(MAX_PATH);
foreach (string drive in logicalDrives)
{
string lpDeviceName = drive.Substring(0, 2);
NativeMethods.QueryDosDevice(lpDeviceName, lpTargetPath, MAX_PATH);
localDeviceMap.Add(NormalizeDeviceName(lpTargetPath.ToString()), lpDeviceName);
}
localDeviceMap.Add(networkDevicePrefix.Substring(0, networkDevicePrefix.Length - 1), "\\");
return localDeviceMap;
}
private static string NormalizeDeviceName(string deviceName)
{
if (string.Compare(deviceName, 0, networkDevicePrefix, 0, networkDevicePrefix.Length, StringComparison.InvariantCulture) == 0)
{
string shareName = deviceName.Substring(deviceName.IndexOf('\\', networkDevicePrefix.Length) + 1);
return string.Concat(networkDevicePrefix, shareName);
}
return deviceName;
}
#endregion
}
}
Not very straightforward, but on Windows Vista and above you can use the Restart Manager APIs to see who is using a file. Internet Explorer caches settings includes details on using this to detect which process has iexplore.exe open.
Omitting a lot of detail:
// Start an RM session
RmStartSession(&sessionHandle, 0, sessionKey);
// Register the file you are checking
RmRegisterResources(sessionHandle, 1, filePathArray, 0, NULL, 0, NULL);
// Get all processes that have that file open.
RmGetList(sessionHAndle, &nProcInfoNeeded, &nProcInfo, processes, &rebootReason);
RmEndSession(sessionHandle);
Handle, from Windows Sysinternals. This is a free command-line utility provided by Microsoft.
You could run it, and parse the result.
I had issues with stefan's solution. Below is a modified version which seems to work well.
using System;
using System.Collections;
using System.Diagnostics;
using System.Management;
using System.IO;
static class Module1
{
static internal ArrayList myProcessArray = new ArrayList();
private static Process myProcess;
public static void Main()
{
string strFile = "c:\\windows\\system32\\msi.dll";
ArrayList a = getFileProcesses(strFile);
foreach (Process p in a)
{
Debug.Print(p.ProcessName);
}
}
private static ArrayList getFileProcesses(string strFile)
{
myProcessArray.Clear();
Process[] processes = Process.GetProcesses();
int i = 0;
for (i = 0; i <= processes.GetUpperBound(0) - 1; i++)
{
myProcess = processes[i];
//if (!myProcess.HasExited) //This will cause an "Access is denied" error
if (myProcess.Threads.Count > 0)
{
try
{
ProcessModuleCollection modules = myProcess.Modules;
int j = 0;
for (j = 0; j <= modules.Count - 1; j++)
{
if ((modules[j].FileName.ToLower().CompareTo(strFile.ToLower()) == 0))
{
myProcessArray.Add(myProcess);
break;
// TODO: might not be correct. Was : Exit For
}
}
}
catch (Exception exception)
{
//MsgBox(("Error : " & exception.Message))
}
}
}
return myProcessArray;
}
}
UPDATE
If you just want to know which process(es) are locking a particular DLL, you can execute and parse the output of tasklist /m YourDllName.dll. Works on Windows XP and later. See
What does this do? tasklist /m "mscor*"
This works for DLLs locked by other processes. This routine will not find out for example that a text file is locked by a word process.
C#:
using System.Management;
using System.IO;
static class Module1
{
static internal ArrayList myProcessArray = new ArrayList();
private static Process myProcess;
public static void Main()
{
string strFile = "c:\\windows\\system32\\msi.dll";
ArrayList a = getFileProcesses(strFile);
foreach (Process p in a) {
Debug.Print(p.ProcessName);
}
}
private static ArrayList getFileProcesses(string strFile)
{
myProcessArray.Clear();
Process[] processes = Process.GetProcesses;
int i = 0;
for (i = 0; i <= processes.GetUpperBound(0) - 1; i++) {
myProcess = processes(i);
if (!myProcess.HasExited) {
try {
ProcessModuleCollection modules = myProcess.Modules;
int j = 0;
for (j = 0; j <= modules.Count - 1; j++) {
if ((modules.Item(j).FileName.ToLower.CompareTo(strFile.ToLower) == 0)) {
myProcessArray.Add(myProcess);
break; // TODO: might not be correct. Was : Exit For
}
}
}
catch (Exception exception) {
}
//MsgBox(("Error : " & exception.Message))
}
}
return myProcessArray;
}
}
VB.Net:
Imports System.Management
Imports System.IO
Module Module1
Friend myProcessArray As New ArrayList
Private myProcess As Process
Sub Main()
Dim strFile As String = "c:\windows\system32\msi.dll"
Dim a As ArrayList = getFileProcesses(strFile)
For Each p As Process In a
Debug.Print(p.ProcessName)
Next
End Sub
Private Function getFileProcesses(ByVal strFile As String) As ArrayList
myProcessArray.Clear()
Dim processes As Process() = Process.GetProcesses
Dim i As Integer
For i = 0 To processes.GetUpperBound(0) - 1
myProcess = processes(i)
If Not myProcess.HasExited Then
Try
Dim modules As ProcessModuleCollection = myProcess.Modules
Dim j As Integer
For j = 0 To modules.Count - 1
If (modules.Item(j).FileName.ToLower.CompareTo(strFile.ToLower) = 0) Then
myProcessArray.Add(myProcess)
Exit For
End If
Next j
Catch exception As Exception
'MsgBox(("Error : " & exception.Message))
End Try
End If
Next i
Return myProcessArray
End Function
End Module
The following was produced based on Iain Ballard's code dump. It is broken: it will occasionally lock up when you retrieve the handle name. This code doesn't contain any work-arounds for that issue, and .NET leaves few options: Thread.Abort can no longer abort a thread that's currently in a native method.
So, with that disclaimer, here is the code to retrieve handles which has been adapted to work (apart from the occasional lock-up) both in 32 and 64 bit modes:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.ConstrainedExecution;
using System.Runtime.InteropServices;
namespace BrokenHandleRetrieval
{
class Program
{
static void Main(string[] args)
{
Console.WriteLine("Enumerates open handles.");
Console.WriteLine("This *will* lock up on calling HandleInfo.Name from time to time. Thread.Abort() won't help.");
foreach (var hi in HandleUtil.GetHandles().Where(hi => hi.Type == HandleType.File))
Console.WriteLine("pid: " + hi.ProcessId + ", name: " + hi.Name);
}
}
public enum HandleType
{
Unknown,
Other,
File, Directory, SymbolicLink, Key,
Process, Thread, Job, Session, WindowStation,
Timer, Desktop, Semaphore, Token,
Mutant, Section, Event, KeyedEvent, IoCompletion, IoCompletionReserve,
TpWorkerFactory, AlpcPort, WmiGuid, UserApcReserve,
}
public class HandleInfo
{
public int ProcessId { get; private set; }
public ushort Handle { get; private set; }
public int GrantedAccess { get; private set; }
public byte RawType { get; private set; }
public HandleInfo(int processId, ushort handle, int grantedAccess, byte rawType)
{
ProcessId = processId;
Handle = handle;
GrantedAccess = grantedAccess;
RawType = rawType;
}
private static Dictionary<byte, string> _rawTypeMap = new Dictionary<byte, string>();
private string _name, _typeStr;
private HandleType _type;
public string Name { get { if (_name == null) initTypeAndName(); return _name; } }
public string TypeString { get { if (_typeStr == null) initType(); return _typeStr; } }
public HandleType Type { get { if (_typeStr == null) initType(); return _type; } }
private void initType()
{
if (_rawTypeMap.ContainsKey(RawType))
{
_typeStr = _rawTypeMap[RawType];
_type = HandleTypeFromString(_typeStr);
}
else
initTypeAndName();
}
bool _typeAndNameAttempted = false;
private void initTypeAndName()
{
if (_typeAndNameAttempted)
return;
_typeAndNameAttempted = true;
IntPtr sourceProcessHandle = IntPtr.Zero;
IntPtr handleDuplicate = IntPtr.Zero;
try
{
sourceProcessHandle = NativeMethods.OpenProcess(0x40 /* dup_handle */, true, ProcessId);
// To read info about a handle owned by another process we must duplicate it into ours
// For simplicity, current process handles will also get duplicated; remember that process handles cannot be compared for equality
if (!NativeMethods.DuplicateHandle(sourceProcessHandle, (IntPtr) Handle, NativeMethods.GetCurrentProcess(), out handleDuplicate, 0, false, 2 /* same_access */))
return;
// Query the object type
if (_rawTypeMap.ContainsKey(RawType))
_typeStr = _rawTypeMap[RawType];
else
{
int length;
NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
try
{
ptr = Marshal.AllocHGlobal(length);
if (NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectTypeInformation, ptr, length, out length) != NT_STATUS.STATUS_SUCCESS)
return;
_typeStr = Marshal.PtrToStringUni((IntPtr) ((int) ptr + 0x58 + 2 * IntPtr.Size));
_rawTypeMap[RawType] = _typeStr;
}
finally
{
Marshal.FreeHGlobal(ptr);
}
}
_type = HandleTypeFromString(_typeStr);
// Query the object name
if (_typeStr != null && GrantedAccess != 0x0012019f && GrantedAccess != 0x00120189 && GrantedAccess != 0x120089) // don't query some objects that could get stuck
{
int length;
NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectNameInformation, IntPtr.Zero, 0, out length);
IntPtr ptr = IntPtr.Zero;
try
{
ptr = Marshal.AllocHGlobal(length);
if (NativeMethods.NtQueryObject(handleDuplicate, OBJECT_INFORMATION_CLASS.ObjectNameInformation, ptr, length, out length) != NT_STATUS.STATUS_SUCCESS)
return;
_name = Marshal.PtrToStringUni((IntPtr) ((int) ptr + 2 * IntPtr.Size));
}
finally
{
Marshal.FreeHGlobal(ptr);
}
}
}
finally
{
NativeMethods.CloseHandle(sourceProcessHandle);
if (handleDuplicate != IntPtr.Zero)
NativeMethods.CloseHandle(handleDuplicate);
}
}
public static HandleType HandleTypeFromString(string typeStr)
{
switch (typeStr)
{
case null: return HandleType.Unknown;
case "File": return HandleType.File;
case "IoCompletion": return HandleType.IoCompletion;
case "TpWorkerFactory": return HandleType.TpWorkerFactory;
case "ALPC Port": return HandleType.AlpcPort;
case "Event": return HandleType.Event;
case "Section": return HandleType.Section;
case "Directory": return HandleType.Directory;
case "KeyedEvent": return HandleType.KeyedEvent;
case "Process": return HandleType.Process;
case "Key": return HandleType.Key;
case "SymbolicLink": return HandleType.SymbolicLink;
case "Thread": return HandleType.Thread;
case "Mutant": return HandleType.Mutant;
case "WindowStation": return HandleType.WindowStation;
case "Timer": return HandleType.Timer;
case "Semaphore": return HandleType.Semaphore;
case "Desktop": return HandleType.Desktop;
case "Token": return HandleType.Token;
case "Job": return HandleType.Job;
case "Session": return HandleType.Session;
case "IoCompletionReserve": return HandleType.IoCompletionReserve;
case "WmiGuid": return HandleType.WmiGuid;
case "UserApcReserve": return HandleType.UserApcReserve;
default: return HandleType.Other;
}
}
}
public static class HandleUtil
{
public static IEnumerable<HandleInfo> GetHandles()
{
// Attempt to retrieve the handle information
int length = 0x10000;
IntPtr ptr = IntPtr.Zero;
try
{
while (true)
{
ptr = Marshal.AllocHGlobal(length);
int wantedLength;
var result = NativeMethods.NtQuerySystemInformation(SYSTEM_INFORMATION_CLASS.SystemHandleInformation, ptr, length, out wantedLength);
if (result == NT_STATUS.STATUS_INFO_LENGTH_MISMATCH)
{
length = Math.Max(length, wantedLength);
Marshal.FreeHGlobal(ptr);
ptr = IntPtr.Zero;
}
else if (result == NT_STATUS.STATUS_SUCCESS)
break;
else
throw new Exception("Failed to retrieve system handle information.");
}
int handleCount = IntPtr.Size == 4 ? Marshal.ReadInt32(ptr) : (int) Marshal.ReadInt64(ptr);
int offset = IntPtr.Size;
int size = Marshal.SizeOf(typeof(SystemHandleEntry));
for (int i = 0; i < handleCount; i++)
{
var struc = (SystemHandleEntry) Marshal.PtrToStructure((IntPtr) ((int) ptr + offset), typeof(SystemHandleEntry));
yield return new HandleInfo(struc.OwnerProcessId, struc.Handle, struc.GrantedAccess, struc.ObjectTypeNumber);
offset += size;
}
}
finally
{
if (ptr != IntPtr.Zero)
Marshal.FreeHGlobal(ptr);
}
}
[StructLayout(LayoutKind.Sequential)]
private struct SystemHandleEntry
{
public int OwnerProcessId;
public byte ObjectTypeNumber;
public byte Flags;
public ushort Handle;
public IntPtr Object;
public int GrantedAccess;
}
}
enum NT_STATUS
{
STATUS_SUCCESS = 0x00000000,
STATUS_BUFFER_OVERFLOW = unchecked((int) 0x80000005L),
STATUS_INFO_LENGTH_MISMATCH = unchecked((int) 0xC0000004L)
}
enum SYSTEM_INFORMATION_CLASS
{
SystemBasicInformation = 0,
SystemPerformanceInformation = 2,
SystemTimeOfDayInformation = 3,
SystemProcessInformation = 5,
SystemProcessorPerformanceInformation = 8,
SystemHandleInformation = 16,
SystemInterruptInformation = 23,
SystemExceptionInformation = 33,
SystemRegistryQuotaInformation = 37,
SystemLookasideInformation = 45
}
enum OBJECT_INFORMATION_CLASS
{
ObjectBasicInformation = 0,
ObjectNameInformation = 1,
ObjectTypeInformation = 2,
ObjectAllTypesInformation = 3,
ObjectHandleInformation = 4
}
static class NativeMethods
{
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQuerySystemInformation(
[In] SYSTEM_INFORMATION_CLASS SystemInformationClass,
[In] IntPtr SystemInformation,
[In] int SystemInformationLength,
[Out] out int ReturnLength);
[DllImport("ntdll.dll")]
internal static extern NT_STATUS NtQueryObject(
[In] IntPtr Handle,
[In] OBJECT_INFORMATION_CLASS ObjectInformationClass,
[In] IntPtr ObjectInformation,
[In] int ObjectInformationLength,
[Out] out int ReturnLength);
[DllImport("kernel32.dll")]
internal static extern IntPtr GetCurrentProcess();
[DllImport("kernel32.dll", SetLastError = true)]
public static extern IntPtr OpenProcess(
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwProcessId);
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.Success)]
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool CloseHandle(
[In] IntPtr hObject);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
public static extern bool DuplicateHandle(
[In] IntPtr hSourceProcessHandle,
[In] IntPtr hSourceHandle,
[In] IntPtr hTargetProcessHandle,
[Out] out IntPtr lpTargetHandle,
[In] int dwDesiredAccess,
[In, MarshalAs(UnmanagedType.Bool)] bool bInheritHandle,
[In] int dwOptions);
}
}
This is probably irrelevant and if it is please someone comment but there was a work-around I've used in explorer before to get around file locks.
If a file was locked by a process that had died Windows often wouldn't let you delete it but if you created a new file of the same name somewhere else, moved it to the folder it would succeed. You could then delete the new file and all was well.
To use this for your app you'd have to be able to read the file and hold it in memory before you did this then you write it back out after you'd got rid of the old one.
Maybe it will help, maybe not but it's worth trying.
Try Unlocker. If you try and delete the file that is locked by another process, it will list the process(es) that have the file locked. You can then unlock the file by shutting down those processes.
foreach (var process in Process.GetProcessesByName("excel")) //whatever you need to close
{
if (process.MainWindowTitle.Contains("test.xlsx"))
{
process.Kill();
break;
}
}
or
foreach (var process in Process.GetProcesses())
{
if (process.MainWindowTitle.Contains("test.dat"))
{
process.Kill();
break;
}
}
I believe that you need code running in kernel mode to completely answer the question (but I haven't looked at the restart manager API).
You can enumerate all processes and their modules - so if the file you're looking for is a module (DLL, EXE, OCX...), you're good to go. But if it's a text file for example, you have to look at the kernel handle table which you cannot see from user mode. Handle.exe has a kernel driver in order to do that.
I rewrote the GetProcessesLockingFile() method in the solution. The code was not working.
For example, you have a folder "C:\folder1\folder2" and a process in folder2 (process1). If the process was running, GetProcessesLockingFile() was returning "C:\folder1\folder2". So the condition if (files.Contains(filePath)) => if ("C:\folder1\folder2".contains("C:\folder1\folder2\process1")) was never true.
So this is my solution:
public static List<Process> GetProcessesLockingFile(FileInfo file)
{
var procs = new List<Process>();
var processListSnapshot = Process.GetProcesses();
foreach (var process in processListSnapshot)
{
if (process.Id <= 4) { continue; } // system processes
List<string> paths = GetFilesLockedBy(process);
foreach (string path in paths)
{
string pathDirectory = path;
if (!pathDirectory.EndsWith(Constants.DOUBLE_BACKSLASH))
{
pathDirectory = pathDirectory + Constants.DOUBLE_BACKSLASH;
}
string lastFolderName = Path.GetFileName(Path.GetDirectoryName(pathDirectory));
if (file.FullName.Contains(lastFolderName))
{
procs.Add(process);
}
}
}
return procs;
}
Or with a string parameter:
public static List<Process> GetProcessesLockingFile(string filePath)
{
var procs = new List<Process>();
var processListSnapshot = Process.GetProcesses();
foreach (var process in processListSnapshot)
{
if (process.Id <= 4) { continue; } // system processes
List<string> paths = GetFilesLockedBy(process);
foreach (string path in paths)
{
string pathDirectory = path;
if (!pathDirectory.EndsWith(Constants.DOUBLE_BACKSLASH))
{
pathDirectory = pathDirectory + Constants.DOUBLE_BACKSLASH;
}
string lastFolderName = Path.GetFileName(Path.GetDirectoryName(pathDirectory));
if (filePath.Contains(lastFolderName))
{
procs.Add(process);
}
}
}
return procs;
}
You absolutely don't need to run in Kernel mode (!!!)
It's a Win32 FAQ since Windows 95 (!) (in C, Google groups, Win32) : read the handle table, from User mode of course, and get the PID from the File handle ...
Using dotnet core (net6) I solved this problem by using the win32 restart manager (as others have also mentioned). However some of the linked articles have elaborate code importing DLLs and calling those.
After finding an app to kill processes that lock a file written by meziantou. I found out that he publishes .Net wrappers for win32 dlls (including the restart manager).
Leveraging his work, I was able to fix this problem with the following code:
using Meziantou.Framework.Win32;
public static IEnumerable<Process> GetProcessesLockingFile(string filePath)
{
using var session = RestartManager.CreateSession();
session.RegisterFile(filePath);
return session.GetProcessesLockingResources();
}
simpler with linq:
public void KillProcessesAssociatedToFile(string file)
{
GetProcessesAssociatedToFile(file).ForEach(x =>
{
x.Kill();
x.WaitForExit(10000);
});
}
public List<Process> GetProcessesAssociatedToFile(string file)
{
return Process.GetProcesses()
.Where(x => !x.HasExited
&& x.Modules.Cast<ProcessModule>().ToList()
.Exists(y => y.FileName.ToLowerInvariant() == file.ToLowerInvariant())
).ToList();
}

Categories

Resources