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I'm experiencing some extremely weird behavior when calling ReadProcessMemory in C# through this P/Invoke signature:

[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
public static extern bool ReadProcessMemory(
    IntPtr hProcess,
    IntPtr lpBaseAddress,
    [Out] byte[] lpBuffer,
    int dwSize,
    out int lpNumberOfBytesRead

In my application I'm scanning the entire memory of memory regions that have read and write access (and some more filters applied, that's another part though).

The code in the scanning part is something like this:

int numberOfBytes;
if (!NativeMethods.ReadProcessMemory(handle, region.StartAddress,
    buffer, (int)region.RegionSize, out numberOfBytes))
// The handle, region (custom struct containing some fields from the
// MEMORY_BASIC_INFORMATION struct), and buffer come from parameters.

And the code works perfectly. It scans the entire memory for a sequence of bytes. No problems there.

A bit further in my program's flow I have this code:
Note: it's using the same handle IntPtr as the previous code (checked it) and it runs in the same thread

int bytesRead;
byte[] buffer = new byte[128]; // In my real app this is some calculated value
                            // however that irrelevant. It's calculated 128.
if (!NativeMethods.ReadProcessMemory(handle, location.Location,
    buffer, buffer.Length, out bytesRead))
    continue; // Error while reading
// At this point buffer == null, so the next line causes an exception
if (bytesRead != buffer.Length) continue;

The code is very much alike, but for some reason the reference to buffer is lost and buffer is set to null. If it wouldn't be an external call I'd be 100% sure it's a bug, because buffer isn't passed as a ref or out parameter. However I know .NET does some vodoo stuff when it comes to external calls (marshaling for example).

What makes the situation even weirder is that when I replace that code with:

int bytesRead;
byte[] buffer = new byte[128];
byte[] bufferRef = buffer;
if (!NativeMethods.ReadProcessMemory(handle, location.Location,
    buffer, buffer.Length, out bytesRead))
    continue; // Error while reading
buffer = bufferRef;
if (bytesRead != buffer.Length) continue;

The code simply works. Memory read and all! So all that happens is that for some reason the buffer variable loses it's reference to the actual buffer. And it confuses the hell out of me.

Is this behavior a result of something I did wrong (such as a faulty P/Invoke), is it dangerous (leaking memory?), and explainable?

My configuration:

  • .NET Framework 4.0
  • Visual Studio Professional 2012 (Version 11.0.51106.01 Update 1)
  • Installed .NET Framework 4.5.50709
  • Running as administrator
  • Occurs in both release and debug builds, both in the visual studio host executable and the regular build executable.
  • Windows 7 64-bits
  • Process I'm reading memory from is 32-bits
  • Build configuration: Platform: Any CPU

Edit: The complete NativeMethods class I'm using can be found here: http://paste2.org/p/2770271

Edit2: I added the simple steps I followed to fix the problem as an answer which can be found here.

share|improve this question
A sidenote: Marshal.GetLastWin32Error() returns 1008, same code it returns at startup. – Aidiakapi Jan 19 '13 at 1:28
Your MEMORY_BASIC_INFORMATION declaration is wrong, RegionSize is an UIntPtr, not an ulong. Not sure how that could corrupt the stack. – Hans Passant Jan 19 '13 at 1:56
@HansPassant Thanks, that pointed me in the direction of fixing the problem :)! – Aidiakapi Jan 19 '13 at 2:01
up vote 2 down vote accepted

Probably since you are a 64-bit app, your lpNumberOfBytesRead should have been "long" and so the call to ReadProcessMemory overwrites (part of your) buffer pointer on return.

share|improve this answer
Just changed platform to x86, it doesn't work at all now :P. – Aidiakapi Jan 19 '13 at 1:25
Where does it fail? On 64-bit, did you try changing your interop declaration to use long for the size read? – 500 - Internal Server Error Jan 19 '13 at 1:27
My complete native methods class can be found here. – Aidiakapi Jan 19 '13 at 1:33
And yes my application is built with x64 in mind, however I'm reading memory from a x86 application. But for some reason VirtualQueryEx doesn't work then. – Aidiakapi Jan 19 '13 at 1:41

The OutAttribute of byte[] lpBuffer declared in your ReadProcessMemory import (which is the correct porting of _Out_ LPVOID lpBuffer) specifies that data should be marshaled from callee back to caller... so your byte array is probably being null referenced by the callee itself (Kernel32).

share|improve this answer
Why'd it be nulled by kernel32 when it's correctly filled with data AND it returns a nonzero value (or with other words, no error was raised)? Edit: It does marshal correctly though because all the data is available in the buffer (some code after that checks the data and it's validated correctly). So the read goes through correctly. And why does it work in the first code I provided but not in the second? – Aidiakapi Jan 19 '13 at 1:07
Have you tried attaching the process to the debugger to see what's happening? – Zarathos Jan 19 '13 at 1:15
To Visual Studio's debugger yes, to OllyDbg debugger no, do you think that will help? – Aidiakapi Jan 19 '13 at 1:22
It could yes. Why not. – Zarathos Jan 19 '13 at 1:27
OllyDbg won't attach altogether (it gives some not supported error), most likely cause it's running under a VM. – Aidiakapi Jan 19 '13 at 1:31

Due to tips from Hans Passant and 500 - Internal Server Error (whom I marked as accepted answer) I managed to solve the problem.

These are the steps I took:

  1. I chose to use 32-bit instead of Any CPU. (Mostly for backwards compatibility.)
  2. Then I updated the P/Invoke signatures using the MSDN pages for the functions and this page about windows data types. And chose for the 32-bit variants of the signatures.
  3. I ran the code again and the buffer reference wasn't cleared.

Thanks for the help.

share|improve this answer
For what concerns 1), if I'm under x64 environment and I run yout code using 32-bit target platform I get exactly your error. – Zarathos Jan 19 '13 at 13:16
That's because I didn't post the fixed P/Invoke signatures. The ones in this topic are faulty, and they caused the issue (silently). – Aidiakapi Jan 19 '13 at 18:56

Do not mark the byte[] buffer as an [Out] parameter. It's more akin to ref than out, which is already implied since it is a byte array. Since integers (int here) are a value-type, it needs the out parameter for numberOfBytesRead. That's the only one that should be marked with out.

When something is marked as an out parameter, the Marshal class expects the callee (ReadProcessMemory here) to supply a value back. A byte array is merely a pointer (address) to a location in memory where bytes are contained. You do not want this pointer to be written to by the callee.

share|improve this answer
OutAttribute is completely unrelated to ref and out parameter invoking. Besides that, your point about int (or I assume other value types) being the only parameters that should be marked ref or out is complete rubbish, there's many good designs where reference types are marked as such. The OutAttribute relates to marshaling and is required. – Aidiakapi Jan 19 '13 at 1:50
The [OutAttribute] is not completely unrelated. AFAIK out is synonymous with [Out] ref. You can say what you want, but I have written tons of code using ReadProcessMemory and the like via P/Invoke and never had them marked as ref or [Out] on the buffer. I have seen a lot of strange things happen with these functions (typically Win32 errors or zero reads) but not the buffer getting overwritten with NULL. I am trying to help you by pointing out things that are different than my working code. – Erik Jan 19 '13 at 1:56
That's because the VM uses different interop techniques that go beyond the default C# behavior. Like I said in my question, if this wasn't an external function I'd file it as a bug. [Out] however is not the same as [Out] ref. Ref and out parameters are a features of CIL and do not relate to the attribute that hints the VM like the OutAttribute does. No matter how much the result of them are similar they're fundamentally different and it should not be taught that they're the same. – Aidiakapi Jan 19 '13 at 2:13
Here is a good resource: MSDN: CLR Inside Out: Marshaling Judging from the information there, out corresponds to [OutAttribute] and ref corresponds to [InAttribute], [OutAttribute]. There are some object types that have 'defaults' such as StringBuilder which defaults to [In], [Out] without you having to specify that. The point being that I doubt you need to pass [Out] for the byte[] type as it is actually a byte* behind the scenes which you do NOT want the callee to change. (out byte* could translate to byte**) – Erik Jan 19 '13 at 20:35
That resource if you read it carefully only says that marshaling behavior is similar to those keywords, however it does not imply that they're the same, nor that they're even technically related. As to your argument about byte[] being byte* that too isn't true. Since the byte array is a reference types, not a pointer to. Even though at CPU level they may be treated the same, at language level they're fundamentally different. (And reference types are very useful for code security.) – Aidiakapi Jan 19 '13 at 20:53

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