Reserve a large block of virtual address space, and have that be the pool from which
my_malloc() allocates. Once you have reserved a large contiguous region of memory from the OS, then subsequent calls to
malloc() have to come from elsewhere.
For example, on Windows, you can use VirtualAlloc() to reserve a 256mb block of space. The memory won't actually be allocated until you "commit" it with a subsequent call, but it will reserve an address range (such as 0x4000000-0x5000000) which subsequent
malloc() will not use. Then your
my_malloc() can commit blocks out of this reserved range as requested, and subdivide them by whatever allocation scheme you've written.
I'm told the equivalent Linux call is mmap(). (edit: I previously said "kmalloc or vmalloc, depending on whether you need the memory to be physically contiguous or not," but those are kernel-level functions.)
We use this mechanism in our app to redirect all allocations of a certain size into our own custom pooled-block allocator for speed and efficiency. Among other things, it lets us reserve virtual pages in certain specific sizes that are more efficient for the CPU to handle.