Typically, each thread has a fixed stack when the thread is created. Run
ulimit -a to see the default stack size for your system. On my system, it is 8 MiB. When you create new threads, you can give them smaller or larger stacks (see
When the stack grows beyond 8 MiB, the program will write to an invalid memory location and crash. The kernel makes sure that the memory locations next to the stack are all invalid, to ensure that programs crash when their stacks overflow.
You may think that a fixed size is a waste, but that 8 MiB is virtual memory and not physical memory. The difference is important, see below.
On Unix systems, memory allocation has two layers to it. The user-space layer is
free). This is just part of the C library, and can be replaced with your own code -- Firefox does this, and many programming languages use their own allocation scheme other than
malloc implementations are cross-platform.
The lower layer is
mmap function is a system call which alters your program's address space. One of the things it can do is add new anonymous, private pages into your program's memory.
The purpose of
malloc is to get large chunks of virtual memory from the kernel using
sbrk) and divide them up efficiently for your program. The
mmap system call only works in multiples of 4 KiB (on most systems).
Memory: virtual versus real
Remember that the stack and all of the memory returned by
mmap is just virtual memory, not physical RAM. The kernel doesn't allocate physical RAM to your process until you actually use it.
When you get anonymous memory from the kernel, either on the heap or the stack, it's filled with zeroes. Instead of giving you hundreds of pages of physical RAM pre-filled with zeroes, however, the kernel makes all of that virtual memory share one single page of physical RAM. The virtual memory is marked read only. As soon as you write to it, the CPU throws an exception, transfers control to the kernel, and the kernel allocates a fresh, writable, zeroed page for your program.
This explains why:
calloc is faster than
calloc knows that the
mmap'd pages are pre-zeroed, and
memset forces the allocation of physical RAM)
- You can allocate much more memory than combined RAM + swap (because it's not used until you write to it)