I have some Visual C++ code that receives a pointer to a buffer with data that needs to be processed by my code and the length of that buffer. Due to a bug outside my control, sometimes this pointer comes into my code uninitialized or otherwise unsuitable for reading (i.e. it causes a crash when I try to access the data in the buffer.)

So, I need to verify this pointer before I use it. I don't want to use IsBadReadPtr or IsBadWritePtr because everyone agrees that they're buggy. (Google them for examples.) They're also not thread-safe -- that's probably not a concern in this case, though a thread-safe solution would be nice.

I've seen suggestions on the net of accomplishing this by using VirtualQuery, or by just doing a memcpy inside an exception handler. However, the code where this check needs to be done is time sensitive so I need the most efficient check possible that is also 100% effective. Any ideas would be appreciated.

Just to be clear: I know that the best practice would be to just read the bad pointer, let it cause an exception, then trace that back to the source and fix the actual problem. However, in this case the bad pointers are coming from Microsoft code that I don't have control over so I have to verify them.

Note also that I don't care if the data pointed at is valid. My code is looking for specific data patterns and will ignore the data if it doesn't find them. I'm just trying to prevent the crash that occurs when running memcpy on this data, and handling the exception at the point memcpy is attempted would require changing a dozen places in legacy code (but if I had something like IsBadReadPtr to call I would only have to change code in one place).

  • Can you post a callstack (all the way up to main or WinMain)? – MSN Jan 30 '09 at 16:25
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    I added a paragraph to my answer: maybe you can use IsBadReadPtr safely, if you previously touch all your stack pages. – ChrisW Jan 30 '09 at 17:41
  • I don't know, off-hand, what's wrong with your sample code using VirtualQuery. A generic problem is that even if VirtualQuery says the memory is good, another thread might release the memory after you test it but before you try to read it: so, given multi-threading, testing it in advance isn't ... – ChrisW Jan 30 '09 at 20:40
  • ,,, a substitute for protecting your read-attempt within an exception-handler. – ChrisW Jan 30 '09 at 20:41

10 Answers 10


a thread-safe solution would be nice

I'm guessing it's only IsBadWritePtr that isn't thread-safe.

just doing a memcpy inside an exception handler

This is effectively what IsBadReadPtr is doing ... and if you did it in your code, then your code would have the same bug as the IsBadReadPtr implementation: http://blogs.msdn.com/oldnewthing/archive/2006/09/27/773741.aspx


The only problem with IsBadReadPtr that I've read about is that the bad pointer might be pointing to (and so you might accidentally touch) a stack's guard page. Perhaps you could avoid this problem (and therefore use IsBadReadPtr safely), by:

  • Know what threads are running in your process
  • Know where the threads' stacks are, and how big they are
  • Walk down each stack, delberately touching each page of the stack at least once, before you begin to call isBadReadPtr

Also, the some of the comments associated with the URL above also suggest using VirtualQuery.

  • Thanks. I think the VirtualQuery idea is the most promising, but I don't really understand it. Do you have any idea why the code above doesn't work reliably? – jeffm Jan 30 '09 at 17:56
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    This wouldn't work in general. When you touch the stack guard page it will grow the stack only if you touched it from the thread that owns it! – Hrvoje Prgeša Jul 4 '10 at 9:05
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    One problem is if you get a bogus pointer that points to real memory, it may be that while the first few reads from that area of memory are ok a few bytes down (where it crosses a page boundary) may be unallocated and invalid memory. – James Mar 3 '12 at 13:30
bool IsBadReadPtr(void* p)
    if (::VirtualQuery(p, &mbi, sizeof(mbi)))
        bool b = !(mbi.Protect & mask);
        // check the page is not a guard page
        if (mbi.Protect & (PAGE_GUARD|PAGE_NOACCESS)) b = true;

        return b;
    return true;
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    Explain your answer, don't just write code. – Martin Feb 23 '16 at 11:51
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    I personally found this code very useful and understandable. – Eugene K Jun 27 '16 at 4:05
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    Explain your usage and understanding, don't just write comments. :P – Andrew Sep 24 '16 at 7:25
  • it prints valid ptr is i will write (LPVOID) base + 0xFFFFFFF 0xFFFFFFF is invalid location from base address of process. . – HaSeeB MiR Apr 3 '18 at 22:30
  • @HaSeeBMiR That depends, in a 64-bit application this could be a valid address. I would also like to add that 0xFFFFFFF is not the 32-bit max. There's only 7 F's, 32-bit goes until 8 or 0xFFFFFFFF. – Edward Severinsen Sep 10 '18 at 12:49

The reason these functions are bad to use is that the problem can't be solved reliably.

What if the function you're calling returns a pointer to memory that is allocated, so it looks valid, but it's pointing to other, unrelated data, and will corrupt your application if you use it.

Most likely, the function you're calling actually behaves correctly, and you are misusing it. (Not guaranteed, but that is often the case.)

Which function is it?

  • It's actually probably not a problem if the data can be read from but is bogus, because my code is looking for some specific data patterns and if they aren't there it will just ignore the data. It's the random crashes I'm trying to fix. :-) – jeffm Jan 30 '09 at 16:36
  • But it still means that the function you called has ventured into undefined territory. You can't really rely on it to not corrupt your program state any more. But of course the if you're willing to put up with that, simply catch the acccess violation and pretend nothing happened. – jalf Jan 30 '09 at 17:27
  • There's also the risk that these bit patterns are found in the random data it pointed to, which means you'll be the one corrupting your program state ;) – jalf Jan 30 '09 at 17:27

Why can't you call the api

AfxIsValidAddress((p), sizeof(type), FALSE));


Any implementation of checking the validity of memory is subject to the same constriants that make IsBadReadPtr fail. Can you post an example callstack of where you want to check the validity of memory of a pointer passed to you from Windows? That might help other people (including me) diagnose why you need to do this in the first place.


The fastest solution I can think of is to consult the virtual memory manager using VirtualQuery to see if there is a readable page at the given address, and cache the results (however any caching will reduce the accuracy of the check).

Example (without caching):

  mbi.Protect = 0;
  ::VirtualQuery(((LPCSTR)p) + len - 1, &mbi, sizeof(mbi));
  return ((mbi.Protect & 0xE6) != 0 && (mbi.Protect & PAGE_GUARD) == 0);

If the variable is uninitialized you are hosed. Sooner or later it's going to be an address for something you don't want to play with (like your own stack).

If you think you need this, and (uintptr_t)var < 65536 does not suffice (Windows does not allow allocating the bottom 64k), there is no real solution. VirtualQuery, etc. appear to "work" but sooner or later will burn you.


If you have to resort to checking patterns in data, here are a few tips:

  • If you mention using IsBadReadPtr, you are probably developing for Windows x86 or x64.

  • You may be able to range check the pointer. Pointers to objects will be word aligned. In 32-bit windows, user-space pointers are in the range of 0x00401000-0x7FFFFFFF, or for large-address-aware applications, 0x00401000-0xBFFFFFFF instead. The upper 2GB/1GB is reserved for kernel-space pointers.

  • The object itself will live in Read/Write memory which is not executable. It may live in the heap, or it may be a global variable. If it is a global variable, you can validate that it lives in the correct module.

  • If your object has a VTable, and you are not using other classes, compare its VTable pointer with another VTable pointer from a known good object.

  • Range check the variables to see if they are possibly valid. For example, bools can only be 1 or 0, so if you see one with a value of 242, that's obviously wrong. Pointers can also be range checked and checked for alignment as well.

  • If there are objects contained within, check their VTables and data as well.

  • If there are pointers to other objects, you can check that the object lives in memory that is Read/Write and not executable, check the VTable if applicable, and range check the data as well.

If you do not have a good object with a known VTable address, you can use these rules to check if a VTable is valid:

  • While the object lives in Read/Write memory, and the VTable pointer is part of the object, the VTable itself will live in memory that is Read Only and not executable, and will be aligned to a word boundary. It will also belong to the module.
  • The entries of the VTable are pointers to code, which will be Read Only and Executable, and not writable. There is no alignment restrictions for code addresses. Code will belong to the module.

I am afraid you are out of luck - there is no way to reliably check the validity of a pointer. What Microsoft code is giving you bad pointers?

  • It's the Winsock 2 layered service provider (LSP) sample code. – jeffm Jan 30 '09 at 16:18
  • If you're working on an LSP, get ready for many days of hair pulling. And get a good Dev Support contract from Microsoft. – Michael Burr Jan 30 '09 at 16:44

if you are using VC++ then I suggest to use microsoft specific keywords __try __except to and catch HW exceptions

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