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Creating a shell extension with C#

, 28 Oct 2001
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Demonstrates building a Windows Explorer shell extension using C# and COM Interop.

Shell Hook

Introduction

C# and .NET have been hailed by Microsoft as the Windows programming environment of the future. Just what does that actually mean? Is the programmer shielded so much from Windows that attempting to do anything useful is difficult if not impossible? Is it just another VB? This article demonstrates a Windows Shell hook/extension in C#, demonstrating how easy it is to consume COM interfaces and to deploy the final code as though it is a bona-fida COM object.

Hooking into the Shell

One of the simplest forms of shell extension is to hook into all the ShellExecuteEx Win32 calls made. Windows Explorer uses this function for almost everything it does. From the Start->Run dialog to double clicking on a file, they are all invoked using ShellExecuteEx. To hook into this, the shell uses a chain-of-responsibility pattern and will call every registered COM component which implements the IShellExecuteHook interface. The IShellExecuteHook interface contains just one method:

HRESULT Execute(
    LPSHELLEXECUTEINFO pei
);

To register a concrete implementation of this interface, we need to register the CLSID of our component in the ShellExecuteHooks list which can be found in HKLM\Software\Microsoft\Windows\CurrentVersion\Explorer\ShellExecuteHooks in the Windows Registry.

So, now that we know what the shell expects us to do, how do we do it from C#? First of all, we need to create a C# object which implements IShellExecuteHook. Looking in the C++ include shlguid.h, we see DEFINE_SHLGUID(IID_IShellExecuteHookW, 0x000214FBL, 0, 0);. Or in a more readable way, 000214FB-0000-0000-C000-000000000046. This gives us the GUID of the interface we need to implement. What we actually do now, is create a C# version of this interface in our code. We mark this implementation as being defined by COM using the special ComImport attribute. Our C# interface now looks like:

[ComImport, InterfaceType(ComInterfaceType.InterfaceIsIUnknown), 
        Guid("000214FB-0000-0000-C000-000000000046")]
public interface IShellExecuteHook{
    [PreserveSig()]
    int Execute(SHELLEXECUTEINFO sei);
}

Notice the PreserveSig attribute. This stops COM Interop from treating the return value as an out param and uses the return value as the COM HRESULT.

The Execute method takes a single parameter, which is a SHELLEXECUTEINFO structure. After a bit of experimentation, the following C# structure meets our requirements:

[StructLayout(LayoutKind.Sequential)]
public class SHELLEXECUTEINFO {
    public int cbSize;
    public int fMask;
    public int hwnd;
    [MarshalAs(UnmanagedType.LPWStr)]
    public string lpVerb;
    [MarshalAs(UnmanagedType.LPWStr)]
    public string lpFile;
    [MarshalAs(UnmanagedType.LPWStr)]
    public string lpParameters;
    [MarshalAs(UnmanagedType.LPWStr)]
    public string lpDirectory;
    public int nShow;
    public int hInstApp;
    public int lpIDList;
    public string lpClass;
    public int hkeyClass;
    public int dwHotKey;
    public int hIcon;
    public int hProcess;
}

For our sample, we are only interested in fields up to lpParameters, so as long as they are correct, everything will work fine.

We've now got a fully defined interface which is declared to be a COM interface. As a quick test, this should all compile fine. We're still missing a concrete implementation of this interface, so let's declare one:

[Guid("6156C6FC-4DD9-4f82-8200-0446DABB7F35"), ComVisible(true)]
public class DateParser : IShellExecuteHook {
}

Here, we've said that DateParser (our shell extension) implements IShellExecuteHook. The class is visible to COM and has the CLSID specified in the Guid attribute. Filling in the single concrete method is just a case of writing plain C#. For this example, I've created a method which will recognize dates entered into the Start->Run dialog and show a messagebox with the ISO 8601 equivalent. The code is:

public int Execute(SHELLEXECUTEINFO sei) {
    try {
        DateTime oTime=DateTime.Parse(sei.lpFile + " " + sei.lpParameters);

        MessageBox.Show(null, "Date '" + sei.lpFile + " " + 
                        sei.lpParameters + "' in ISO 8601 is " + 
                        oTime.ToString("s"), "ISO 8601 Date", 
                        MessageBoxButtons.OK, MessageBoxIcon.Information);
        return S_OK;
    }
    catch(FormatException) {
        return S_FALSE;
    } catch(Exception e) {
        // Unknown exception. Report it to stderr
        Console.Error.WriteLine("Unknown exception parsing Date: " + e.ToString());
    }

    return S_FALSE;
}

The shell treats the first space-delimited word in the command line as the filename and everything after the first space as parameters. We want to parse the whole command line, so we concatenate the filename and parameters together.

Registration

Now that we have our COM implementation, it needs to be registered. COM components have always needed registering, so this should come as no surprise; but this is .NET, so our components need to be registered in two places. The way it works is that your COM class is registered in the usual place, under HKCR\clsid and the InProcServer32 entry is set to mscoree.dll. In the same way that MSJava and MTS added proxies to intercept COM instantiation, the CLR needs to intercept this too. Once the CLR has control, it uses the value in the progid key to find your .NET assembly and instantiate your class.

CLSID entries

The progid key is in the following format: <namespace>.<class>. This is obviously a problem, because nowhere is there a file path to your assembly on disk. To allow the CLR to find your code, it needs to be registered. This registration location is called the Global Assembly Cache, or GAC. It's a location where all shared assemblies must be placed, and it resides in a series of folders underneath %windows%\assembly. You can inspect this through Windows Explorer and you'll see a nice, friendly list of all the assemblies placed into the GAC. Under the surface (through DOS), you can see how they are really stored. The GAC has the codename fusion during development and this name appears in several places, such as DLL names.

Registry Registration

Installing to the registry is pretty easy:

Assembly asm=Assembly.GetExecutingAssembly();
RegistrationServices reg=new RegistrationServices();
reg.RegisterAssembly(asm, 0);

This instructs the CLR to add the appropriate entries into HKCR\clsid and to call back into our code at predefined registration functions. We declare our registration function with the ComRegisterFunction attribute, and declare any un-registration function with the ComUnregisterFunction attribute:

[System.Runtime.InteropServices.ComRegisterFunctionAttribute()]
static void RegisterServer(String zRegKey) {
 try {
  RegistryKey root;
  RegistryKey rk;

  root = Registry.LocalMachine;
  rk = root.OpenSubKey(@"Software\Microsoft\Windows\" 
       "CurrentVersion\Explorer\ShellExecuteHooks", true);
  rk.SetValue(clsid, ".Net ISO 8601 Date Parser Shell Extension");
  rk.Close();
 }
 catch(Exception e) {
  System.Console.Error.WriteLine(e.ToString());
 }
}

In addition to the standard HKCR\clsid registration, we need to register ourselves as a ShellExecuteHook simply by adding the CLSID as a new value.

GAC Install

Installing to the GAC can be done in several ways. The easiest is to simply drag and drop into the %windows%\assembly folder. Another way is to use the GACUtil.exe tool provided with the .NET SDK. For an end user, neither of these methods are particularly intuitive, so we elect to install it programmatically. Included with a couple of the samples in the SDK is a file called fusioninstall.cs. As the name implies, this provides a couple of functions which use PInvoke to install an assembly in the GAC. Doing this is as simple as:

if (FusionInstall.AddAssemblyToCache("DateParser.exe") == 0) {
    Console.WriteLine("DateParser - shell extension successfully registered");
}

Viewing the GAC

Strong Naming

There is one final point I've missed from GAC installation. To prevent name clashes, the GAC requires each assembly to have a strong name. That is, a name constructed from a public key and assembly version attributes. The current VB.NET IDE provides a nice property page to add a strong name, whereas with C#, it has to be done manually. First of all, a public/private key pair is generated using sn.exe -k, the strong name utility in the SDK. Then, this key pair should be referenced in code using the key attribute:

[assembly: AssemblyKeyFile(@"..\..\KeyFile.snk")]

Finally, registering the built executable is simply a case of double-clicking the EXE. This will register the component, and Windows Explorer will load it into its process space and issue every ShellExecuteEx call to it. Our sample will parse every string passed to it. If it detects it is a date, a MessageBox will appear containing the ISO 8601 standard form of the date. Try typing 25 December 2001 into the Start->Run dialog to see the MessageBox. To un-register the component, run the EXE with /u as a command line switch. This won't free the DLL from within the Explorer process - you will need to kill Explorer from Task Manager to do that.

Invoking the extension

Conclusion

It's amazing just how short the finished code is. Probably shorter than the equivalent ATL C++ code. It shows that C# and .NET have very good COM interop and legacy integration story and could well become the preferred means of shell programming, taking over from C++.

License

This article, along with any associated source code and files, is licensed under The BSD License

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About the Author

Richard Birkby
Web Developer
United Kingdom United Kingdom
Richard Birkby is a software engineer from London, UK, specializing in .Net. Richard has coded for many different sized companies from small venture-capital funded start-ups, to multi-national corporations (ie Microsoft). When he's not programming, he enjoys driving his sports car or eating curry (although never at the same time!).
 
Richard helps run CurryPages.com and has several other covert ventures in development. Stay tuned!

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QuestionHow can I stop ToogleDesktop Command from executing using c# Pinmemberdmnreddy24-Oct-07 1:28 

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