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linux - Where are the stacks for the other threads located in a process virtual address space?

The following image shows where the sections of a process are laid out in the process's virtual address space (in Linux):

enter image description here

You can see that there is only one stack section (since this process only has one thread I assume).

But what if this process has another thread, where will the stack for this second thread be located? will it be located immediately below the first stack?

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Stack space for a new thread is created by the parent thread with mmap(MAP_ANONYMOUS|MAP_STACK). So they're in the "memory map segment", as your diagram labels it. It can end up anywhere that a large malloc() could go. (glibc malloc(3) uses mmap(MAP_ANONYMOUS) for large allocations.)

(MAP_STACK is currently a no-op, and exists in case some future architecture needs special handling).

You pass a pointer to the new thread's stack space to the clone(2) system call which actually creates the thread. (Try using strace -f on a multi-threaded process sometime). See also this blog post about creating a thread using raw Linux syscalls.

See this answer on a related question for some more details about mmaping stacks. e.g. MAP_GROWSDOWN doesn't prevent another mmap() from picking the address right below the thread stack, so you can't depend on it to dynamically grow a small stack the way you can for the main thread's stack (where the kernel reserves the address space even though it's not mapped yet).

So even though mmap(MAP_GROWSDOWN) was designed for allocating stacks, it's so bad that Ulrich Drepper proposed removing it in 2.6.29.


Also, note that your memory-map diagram is for a 32-bit kernel. A 64-bit kernel doesn't have to reserve any user virtual-address space for mapping kernel memory, so a 32-bit process running on an amd64 kernel can use the full 4GB of virtual address space. (Except for the low 64k by default (sysctl vm.mmap_min_addr = 65536), so NULL-pointer dereference does actually fault.)


related:

See Relation between stack limit and threads for more about stack-size for pthreads. getrlimit(RLIMIT_STACK) is the main thread's stack size. Linux pthreads uses RLIMIT_STACK as the stack size for new threads, too.


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