In order to find more easily buffer overflows I am changing our custom memory allocator so that it allocates a full 4KB page instead of only the wanted number of bytes. Then I change the page protection and size so that if the caller writes before or after its allocated piece of memory, the application immediately crashes.
Problem is that although I have enough memory, the application never starts up completely because it runs out of memory. This has two causes:
- since every allocation needs 4 KB, we probably reach the 2 GB limit very soon. This problem could be solved if I would make a 64-bit executable (didn't try it yet).
- even when I only need a few hundreds of megabytes, the allocations fail at a certain moment.
The second problem is the biggest one, and I think it's related to the maximum number of PTE's (page table entries, which store information on how Virtual Memory is mapped to physical memory, and whether pages should be read-only or not) you can have in a process.
My questions (or a cry-for-tips):
- Where can I find information about the maximum number of PTE's in a process?
- Is this different (higher) for 64-bit systems/applications or not?
- Can the number of PTE's be configured in the application or in Windows?
PS. note for those who will try to argument that you shouldn't write your own memory manager:
- My application is rather specific so I really want full control over memory management (can't give any more details)
- Last week we had a memory overwrite which we couldn't find using the standard C++ allocator and the debugging functionality of the C/C++ run time (it only said "block corrupt" minutes after the actual corruption")
- We also tried standard Windows utilities (like GFLAGS, ...) but they slowed down the application by a factor of 100, and couldn't find the exact position of the overwrite either
- We also tried the "Full Page Heap" functionality of Application Verifier, but then the application doesn't start up either (probably also running out of PTE's)