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Consider a complex, memory hungry, multi threaded application running within a 32bit address space on windows XP.

Certain operations require n large buffers of fixed size, where only one buffer needs to be accessed at a time.

The application uses a pattern where some address space the size of one buffer is reserved early and is used to contain the currently needed buffer.

This follows the sequence: (initial run) VirtualAlloc -> VirtualFree -> MapViewOfFileEx (buffer changes) UnMapViewOfFile -> MapViewOfFileEx

Here the pointer to the buffer location is provided by the call to VirtualAlloc and then that same location is used on each call to MapViewOfFileEx.

The problem is that windows does not (as far as I know) provide any handshake type operation for passing the memory space between the different users.

Therefore there is a small opportunity (at each -> in my above sequence) where the memory is not locked and another thread can jump in and perform an allocation within the buffer.

The next call to MapViewOfFileEx is broken and the system can no longer guarantee that there will be a big enough space in the address space for a buffer.

Obviously refactoring to use smaller buffers reduces the rate of failures to reallocate space.

Some use of HeapLock has had some success but this still has issues - something still manages to steal some memory from within the address space. (We tried Calling GetProcessHeaps then using HeapLock to lock all of the heaps)

What I'd like to know is there anyway to lock a specific block of address space that is compatible with MapViewOfFileEx?

Edit: I should add that ultimately this code lives in a library that gets called by an application outside of my control

share|improve this question
And why do you call VirtualFree before MapViewOfFileEx? – Sebastian Nov 24 '09 at 13:07
Is there some reason you do not use a mutex for the whole memory block or a list of mutexs for predefined address spaces within that initially allocated memory? – Noctis Skytower Nov 24 '09 at 13:08
Ah I think I understand. You want to optimize MapViewOfFileEx behind its back by guaranteeing the same heap block is always free. – Sebastian Nov 24 '09 at 13:10
Sebastian: yes - where optimize actually means guarantee success in environment where contiguous address space is unlikely to last out in the open – morechilli Nov 24 '09 at 14:02
Noctis:how would that help? - I can't mutex every allocation made by any code in the process – morechilli Nov 24 '09 at 14:08

You could brute force it; suspend every thread in the process that isn't the one performing the mapping, Unmap/Remap, unsuspend the suspended threads. It ain't elegant, but it's the only way I can think of off-hand to provide the kind of mutual exclusion you need.

share|improve this answer
How would you suspend all threads in a thread safe manner? – morechilli Dec 1 '09 at 10:25
Enumerate all threads: Since there's a race (a thread could spawn another thread after you take the snapshot but before you suspend it) you will need to repeat the process until each snapshot identifies no further threads. From the snapshot (which gives you thread IDs) you can OpenThread each thread to get a handle, and then call SuspendThread on that handle. – DrPizza Dec 1 '09 at 10:51
I appreciate the suggestion but I worry this is a hack for hack replacement - I've realised the original problem is also open to VirtualAllocEx calls from another process. I believe the API is not going to help me out. – morechilli Dec 1 '09 at 12:28
I meant to add that, yes, you could get memory allocated by another process. But this is an uncommon event, to say the least. I suppose the real point is: there's no way within the API to do this (at least, not that I know of), so just how hard do you want to try to prevent it? The mechanism I suggested will at least stop the common case (a thread within the process performing an allocation that uses the block you need), which strikes me as "good enough", but your needs may differ. – DrPizza Dec 1 '09 at 12:32
I understand - my hope had been that I had overlooked a rigorous solution - it'll take some more thought to decid the best way forward – morechilli Dec 1 '09 at 13:37

Have you looked at creating your own private heap via HeapCreate? You could set the heap to your desired buffer size. The only remaining problem is then how to get MapViewOfFileto use your private heap instead of the default heap.

I'd assume that MapViewOfFile internally calls GetProcessHeap to get the default heap and then it requests a contiguous block of memory. You can surround the call to MapViewOfFile with a detour, i.e., you rewire the GetProcessHeap call by overwriting the method in memory effectively inserting a jump to your own code which can return your private heap.

Microsoft has published the Detour Library that I'm not directly familiar with however. I know that detouring is surprisingly common. Security software, virus scanners etc all use such frameworks. It's not pretty, but may work:

HANDLE g_hndPrivateHeap;

HANDLE WINAPI GetProcessHeapImpl() {
    return g_hndPrivateHeap;

struct SDetourGetProcessHeap { // object for exception safety 
   SDetourGetProcessHeap() {
       // put detour in place

   ~SDetourGetProcessHeap() {
       // remove detour again

void MapFile() {
    g_hndPrivateHeap = HeapCreate( ... );

        SDetourGetProcessHeap d;

These may also help:

share|improve this answer
What i would like is to reserve (but not commit) the address space in the same manner as VirtualAlloc can but to then safely hand it over to MapViewOfFileEx – morechilli Nov 24 '09 at 14:07
OK, you don't actually need the performance benefit of having an in-memory buffer, you only want to guarantee the memory is available. – Sebastian Nov 24 '09 at 15:38
Yes - and that's the hard bit... – morechilli Nov 24 '09 at 16:52
I see where you're coming from - but this may well be a leap too far -> I'm guessing I hadn't overlooked anything obvious:) – morechilli Dec 1 '09 at 10:27

Imagine if I came to you with a piece of code like this:

void *foo;

foo = malloc(n);
if (foo)
foo = malloc(n);

Then I came to you and said, help! foo does not have the same address on the second allocation!

I'd be crazy, right?

It seems to me like you've already demonstrated clear knowledge of why this doesn't work. There's a reason that the documention for any API that takes an explicit address to map into lets you know that the address is just a suggestion, and it can't be guaranteed. This also goes for mmap() on POSIX.

I would suggest you write the program in such a way that a change in address doesn't matter. That is, don't store too many pointers to quantities inside the buffer, or if you do, patch them up after reallocation. Similar to the way you'd treat a buffer that you were going to pass into realloc().

Even the documentation for MapViewOfFileEx() explicitly suggests this:

While it is possible to specify an address that is safe now (not used by the operating system), there is no guarantee that the address will remain safe over time. Therefore, it is better to let the operating system choose the address. In this case, you would not store pointers in the memory mapped file, you would store offsets from the base of the file mapping so that the mapping can be used at any address.

Update from your comments

In that case, I suppose you could:

  • Not map into contiguous blocks. Perhaps you could map in chunks and write some intermediate function to decide which to read from/write to?

  • Try porting to 64 bit.

share|improve this answer
Unfortunately the value of the pointer is not the problem - the problem is guaranteeing a large enough hole in the address space. Easy at startup hard later on. – morechilli Nov 24 '09 at 18:39
I'd also add I'm supporting a mature system rather than designing a new one. – morechilli Nov 24 '09 at 18:40
Unfortunately 32bit support will be required for a while yet - I agree the refactor is a possibility (I hinted at it in my question) - I was hoping this question might discover an alternative - thanks for the second opinion, much appreciated. – morechilli Nov 25 '09 at 10:13
-1 for the malloc analogy. malloc is much higher level interface. On the system level the address space and the physical memory are separate. WinAPI gives you the ability to reserve an address space and then allocate (commit) a physical memory that is addressed by this region. MapViewOfFileEx was intended to allow exactly this, unfortunately it looks like the employee that started implementing it was fired before she finished, leaving us with yet another completely useless function... – ybungalobill Jul 2 '11 at 13:01
@ybungalobill - "On the system level the address space and the physical memory are separate" -- when did I suggest otherwise? I think you should chill out and re-read what I say, because the analogy holds. Expecting to reserve a chunk of address space and resize it without moving is extremely silly because something unrelated going on in your process might end up using the virtual address you end up requesting later. Especially re-read my quote from MSDN. This approach is asking for pain. To use another analogy to malloc, it's like using realloc(p, n) and assuming it always returns p. – asveikau Jul 2 '11 at 23:35

As the earlier post suggests, you can suspend every thread in the process while you change the memory mappings. You can use SuspendThread()/ResumeThread() for that. This has the disadvantage that your code has to know about all the other threads and hold thread handles for them.

An alternative is to use the Windows debug API to suspend all threads. If a process has a debugger attached, then every time the process faults, Windows will suspend all of the process's threads until the debugger handles the fault and resumes the process.

Also see this question which is very similar, but phrased differently: Replacing memory mappings atomically on Windows

share|improve this answer
Thanks for the cross link and suggestions. Thankfully we have finally been allowed by our customer to phase out 32 bit support (for new work) so our address restrictions are less important - but the missing API functionality still frustrates me and remains a legacy issue. – morechilli Dec 18 '12 at 10:17

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