In fact, I got a C++ (working) DLL that I want to import into my C# project to call it's functions.

It does work when I specify the full path to the DLL, like this :

string str = "C:\\Users\\userName\\AppData\\Local\\myLibFolder\\myDLL.dll";
[DllImport(str, CallingConvention = CallingConvention.Cdecl)]
public static extern int DLLFunction(int Number1, int Number2);

The problem is that it's gonna be an installable project, so the user's folder will not be the same (ex : pierre, paul, jack, mum, dad, ...) depending computer/session where it'd be runned on.

So I'd like my code to be a little more generic, like this :

goes right to the temp folder of the user 
then go to parent folder
and finally go to the DLL's folder

string str = Path.GetTempPath() + "..\\myLibFolder\\myDLL.dll"; 
[DllImport(str, CallingConvention = CallingConvention.Cdecl)]
public static extern int DLLFunction(int Number1, int Number2);

The big deal is that "DllImport" desire a "const string" parameter for the DLL's directory.

So my question is :: What could be done in this case ?

  • 16
    Just deploy the DLL in the same folder as the EXE so you don't have to do anything but specify the DLL name without the path. Other schemes are possible but are all troublesome. – Hans Passant Jan 12 '12 at 14:04
  • 2
    The thing is that it's gonna be a MS Office Excel Add In, so I don't thing putting the dll in the exe's directory would be the best solution... – Jsncrdnl Jan 12 '12 at 14:11
  • 8
    Your solution is the wrong one. Don't place files in the Windows or system folders. They chose those names for a reason: because they're for Windows system files. You're not creating one of those because you don't work for Microsoft on the Windows team. Remember what you learned in kindergarten about using things that don't belong to you without permission, and put your files anywhere but there. – Cody Gray Jan 13 '12 at 0:30
  • Your solution is still wrong. Well-behaved applications that don't actually do administrative stuff shouldn't require administrative access. The other issue is that you don't know your application will actually be installed in that folder. I might move it somewhere else, or change the install path during setup (I do that kind of stuff for fun, just to break badly-behaved applications). Hard-coding paths is the epitome of bad behavior, and it's completely unnecessary. If you're using your application's folder, then that's the first path in the default search order for DLLs. All automatic. – Cody Gray Jan 14 '12 at 11:30
  • 3
    putting it in program files is NOT constant. 64bit machines have Program File (x86) instead, for example. – Louis Kottmann Jan 14 '12 at 11:30

Contrary to the suggestions by some of the other answers, using the DllImport attribute is still the correct approach.

I honestly don't understand why you can't do just like everyone else in the world and specify a relative path to your DLL. Yes, the path in which your application will be installed differs on different people's computers, but that's basically a universal rule when it comes to deployment. The DllImport mechanism is designed with this in mind.

In fact, it isn't even DllImport that handles it. It's the native Win32 DLL loading rules that govern things, regardless of whether you're using the handy managed wrappers (the P/Invoke marshaller just calls LoadLibrary). Those rules are enumerated in great detail here, but the important ones are excerpted here:

Before the system searches for a DLL, it checks the following:

  • If a DLL with the same module name is already loaded in memory, the system uses the loaded DLL, no matter which directory it is in. The system does not search for the DLL.
  • If the DLL is on the list of known DLLs for the version of Windows on which the application is running, the system uses its copy of the known DLL (and the known DLL's dependent DLLs, if any). The system does not search for the DLL.

If SafeDllSearchMode is enabled (the default), the search order is as follows:

  1. The directory from which the application loaded.
  2. The system directory. Use the GetSystemDirectory function to get the path of this directory.
  3. The 16-bit system directory. There is no function that obtains the path of this directory, but it is searched.
  4. The Windows directory. Use the GetWindowsDirectory function to get the path of this directory.
  5. The current directory.
  6. The directories that are listed in the PATH environment variable. Note that this does not include the per-application path specified by the App Paths registry key. The App Paths key is not used when computing the DLL search path.

So, unless you're naming your DLL the same thing as a system DLL (which you should obviously not be doing, ever, under any circumstances), the default search order will start looking in the directory from which your application was loaded. If you place the DLL there during the install, it will be found. All of the complicated problems go away if you just use relative paths.

Just write:

[DllImport("MyAppDll.dll")] // relative path; just give the DLL's name
static extern bool MyGreatFunction(int myFirstParam, int mySecondParam);

But if that doesn't work for whatever reason, and you need to force the application to look in a different directory for the DLL, you can modify the default search path using the SetDllDirectory function.
Note that, as per the documentation:

After calling SetDllDirectory, the standard DLL search path is:

  1. The directory from which the application loaded.
  2. The directory specified by the lpPathName parameter.
  3. The system directory. Use the GetSystemDirectory function to get the path of this directory.
  4. The 16-bit system directory. There is no function that obtains the path of this directory, but it is searched.
  5. The Windows directory. Use the GetWindowsDirectory function to get the path of this directory.
  6. The directories that are listed in the PATH environment variable.

So as long as you call this function before you call the function imported from the DLL for the first time, you can modify the default search path used to locate DLLs. The benefit, of course, is that you can pass a dynamic value to this function that is computed at run-time. That isn't possible with the DllImport attribute, so you will still use a relative path (the name of the DLL only) there, and rely on the new search order to find it for you.

You'll have to P/Invoke this function. The declaration looks like this:

[DllImport("kernel32.dll", CharSet = CharSet.Auto, SetLastError = true)]
static extern bool SetDllDirectory(string lpPathName);
| improve this answer | |
  • 16
    Another minor improvement on this may be to drop the extension from the DLL name. Windows will automatically add .dll and other systems will add the appropriate extension under Mono (e.g. .so on Linux). This may help if portability is a concern. – jheddings Oct 10 '12 at 12:54
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    +1 for the SetDllDirectory. You can also just change Environment.CurrentDirectory and all relative pathes will be evaluated from that path! – GameScripting Jul 23 '13 at 7:20
  • 2
    Even before this was posted, the OP clarified that he's making a plugin, so putting the DLLs in Microsoft's program files is sort of a non-starter. Also, altering the process DllDirectory or CWD might not be a good idea, they could cause the process to fail. Now AddDllDirectory on the other hand... – Mooing Duck Apr 24 '15 at 23:49
  • 3
    Relying on the working directory is a potentially serious security vulnerability, @GameScripting, and especially ill-advised for something running with superuser permissions. Worth writing the code and doing the design work to get it right. – Cody Gray Aug 11 '17 at 18:45
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    Note that DllImport is more than just a wrapper on LoadLibrary. It also considers the directory of the assembly the extern method is defined in. The DllImport search paths can be additionally limited using DefaultDllImportSearchPath. – Mitch May 30 '18 at 16:29

Even better than Ran's suggestion of using GetProcAddress, simply make the call to LoadLibrary before any calls to the DllImport functions (with only a filename without a path) and they'll use the loaded module automatically.

I've used this method to choose at runtime whether to load a 32-bit or 64-bit native DLL without having to modify a bunch of P/Invoke-d functions. Stick the loading code in a static constructor for the type that has the imported functions and it'll all work fine.

| improve this answer | |
  • 1
    I'm not sure if this is guaranteed to work. Or if it just happens to on the current version of the framework. – CodesInChaos Jan 13 '12 at 14:03
  • 3
    @Code: Seems guaranteed to me: Dynamic-Link Library Search Order. Specifically, "Factors That Affect Searching", point one. – Cody Gray Jan 14 '12 at 11:11
  • Nice. Well my solution has a small additional advantage, as even the function name doesn't have to be static and known at compile time. If you have 2 functions with the same signature and a different name, you can invoke them using my FunctionLoader code. – Ran Jan 14 '12 at 21:10
  • This sounds like what I want. I was hoping to use filenames like mylibrary32.dll and mylibrary64.dll, but I guess I can live with them having the same name but in different folders. – yoyo Apr 27 '15 at 22:45

If you need a .dll file that is not on the path or on the application's location, then I don't think you can do just that, because DllImport is an attribute, and attributes are only metadata that is set on types, members and other language elements.

An alternative that can help you accomplish what I think you're trying, is to use the native LoadLibrary through P/Invoke, in order to load a .dll from the path you need, and then use GetProcAddress to get a reference to the function you need from that .dll. Then use these to create a delegate that you can invoke.

To make it easier to use, you can then set this delegate to a field in your class, so that using it looks like calling a member method.


Here is a code snippet that works, and shows what I meant.

class Program
    static void Main(string[] args)
        var a = new MyClass();
        var result = a.ShowMessage();

class FunctionLoader
    private static extern IntPtr LoadLibrary(string path);

    private static extern IntPtr GetProcAddress(IntPtr hModule, string procName);

    public static Delegate LoadFunction<T>(string dllPath, string functionName)
        var hModule = LoadLibrary(dllPath);
        var functionAddress = GetProcAddress(hModule, functionName);
        return Marshal.GetDelegateForFunctionPointer(functionAddress, typeof (T));

public class MyClass
    static MyClass()
        // Load functions and set them up as delegates
        // This is just an example - you could load the .dll from any path,
        // and you could even determine the file location at runtime.
        MessageBox = (MessageBoxDelegate) 
                @"c:\windows\system32\user32.dll", "MessageBoxA");

    private delegate int MessageBoxDelegate(
        IntPtr hwnd, string title, string message, int buttons); 

    /// <summary>
    /// This is the dynamic P/Invoke alternative
    /// </summary>
    static private MessageBoxDelegate MessageBox;

    /// <summary>
    /// Example for a method that uses the "dynamic P/Invoke"
    /// </summary>
    public int ShowMessage()
        // 3 means "yes/no/cancel" buttons, just to show that it works...
        return MessageBox(IntPtr.Zero, "Hello world", "Loaded dynamically", 3);

Note: I did not bother to use FreeLibrary, so this code is not complete. In a real application, you should take care to release the loaded modules to avoid a memory leak.

| improve this answer | |
  • There is managed counterpart for LoadLibrary (in the Assembly class). – Luca Jan 12 '12 at 14:17
  • If you had some code example, it would be easier for me to understand ! ^^ (Actually, it's a bit misty) – Jsncrdnl Jan 12 '12 at 14:48
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    @Luca Piccioni: If you meant Assembly.LoadFrom, this only loads .NET assemblies, not native libraries. What did you mean? – Ran Jan 12 '12 at 15:54
  • 1
    I was meaning that, but I didn't know about this limitation. Sigh. – Luca Jan 12 '12 at 17:48
  • 1
    Of course not. That was just a sample to show that you can call a function in a native dll without using P/Invoke which requires a static path. – Ran Jan 14 '12 at 21:06

As long as you know the directory where your C++ libraries could be found at run time, this should be simple. I can clearly see that this is the case in your code. Your myDll.dll would be present inside myLibFolder directory inside temporary folder of the current user.

string str = Path.GetTempPath() + "..\\myLibFolder\\myDLL.dll"; 

Now you can continue using the DllImport statement using a const string as shown below:

[DllImport("myDLL.dll", CallingConvention = CallingConvention.Cdecl)]
public static extern int DLLFunction(int Number1, int Number2);

Just at run time before you call the DLLFunction function (present in C++ library) add this line of code in C# code:

string assemblyProbeDirectory = Path.GetTempPath() + "..\\myLibFolder\\myDLL.dll"; 

This simply instructs the CLR to look for the unmanaged C++ libraries at the directory path which you obtained at run time of your program. Directory.SetCurrentDirectory call sets the application's current working directory to the specified directory. If your myDLL.dll is present at path represented by assemblyProbeDirectory path then it will get loaded and the desired function will get called through p/invoke.

| improve this answer | |
  • 3
    This worked for me. I have a folder "Modules" located in the "bin" directory of my executing application. There I'm placing a managed dll and some unmanaged dll's that the managed dll requires. Using this solution AND setting the probing path in my app.config allows me to dynamically load the required assemblies. – WBuck Sep 26 '17 at 12:01
  • For people using Azure Functions: string workingDirectory = Path.GetFullPath(Path.Combine(executionContext.FunctionDirectory, @"..\bin")); – Red Riding Hood Feb 23 '18 at 9:56

set the dll path in the config file

<add key="dllPath" value="C:\Users\UserName\YourApp\myLibFolder\myDLL.dll" />

before calling the dll in you app, do the following

string dllPath= ConfigurationManager.AppSettings["dllPath"];    
   string appDirectory = Path.GetDirectoryName(dllPath);

then call the dll and you can use like below

 [DllImport("myDLL.dll", CallingConvention = CallingConvention.Cdecl)]
public static extern int DLLFunction(int Number1, int Number2);
| improve this answer | |

DllImport will work fine without the complete path specified as long as the dll is located somewhere on the system path. You may be able to temporarily add the user's folder to the path.

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  • I tried placing it in the system Environment variables BUT it's still considered as non constant (logical, I think) – Jsncrdnl Jan 12 '12 at 14:17

If all fails, simply put the DLL in the windows\system32 folder . The compiler will find it. Specify the DLL to load from with: DllImport("user32.dll"..., set EntryPoint = "my_unmanaged_function" to import your desired unmanaged function to your C# app:

 using System;
using System.Runtime.InteropServices;

class Example
   // Use DllImport to import the Win32 MessageBox function.

   [DllImport ("user32.dll", CharSet = CharSet.Auto)]
   public static extern int MessageBox 
      (IntPtr hWnd, String text, String caption, uint type);

   static void Main()
      // Call the MessageBox function using platform invoke.
      MessageBox (new IntPtr(0), "Hello, World!", "Hello Dialog", 0);    

Source and even more DllImport examples : http://msdn.microsoft.com/en-us/library/aa288468(v=vs.71).aspx

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  • Ok, I agree with your solution of using the win32 folder (simplest way of doing it) but how do you grant access to that folder to the Visual Studio debugger (and also to the compiled application) ? (Except manually running it as admin) – Jsncrdnl Jan 12 '12 at 14:29
  • If that is used for anything more than a debugging aid, it would fall through any review (security or otherwise) in my book. – Christian.K Jan 12 '12 at 15:11
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    This is a pretty terrible solution. The system folder is for system DLLs. Now you require admin privileges and are relying on bad practices just because you're lazy. – MikeP Jan 12 '12 at 15:50
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    +1 for MikeP, -1 for this answer. This is a terrible solution, anyone who does this should be flogged repeatedly while being forced to read The Old New Thing. Just like you learned in kindergarten: the system folder does not belong to you, so you should not use it without permission. – Cody Gray Jan 13 '12 at 0:28
  • Okok, I agree with you, but my problem isn't resolved so... Which location would you recommend me then ?(Knowing that I can't use variables to set it up -Because it's waiting for a constant string-, so that I MUST use a location that's gonna be the same on every computer?) (Or is there any way to use a variables, instead of a constant, to perform it ?) – Jsncrdnl Jan 13 '12 at 8:38

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