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