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This is actually a theoretical question about memory management. Since different operating systems implement things differently, I'll have to relieve my thirst for knowledge asking how things work in only one of them :( Preferably the open source and widely used one: Linux.

Here is the list of things I know in the whole puzzle:

  • malloc() is user space. libc is responsible for the syscall job (calling brk/sbrk/mmap...). It manages to get big chunks of memory, described by ranges of virtual addresses. The library slices these chunks and manages to respond the user application requests.
  • I know what brk/sbrk syscalls do. I know what 'program break' means. These calls basically push the program break offset. And this is how libc gets its virtual memory chunks.
  • Now that user application has a new virtual address to manipulate, it simply writes some value to it. Like: *allocated_integer = 5;. Ok. Now, what? If brk/sbrk only updates offsets in the process' entry in the process table, or whatever, how the physical memory is actually allocated?
  • I know about virtual memory, page tables, page faults, etc. But I wanna know exactly how these things are related to this situation that I depicted. For example: is the process' page table modified? How? When? A page fault occurs? When? Why? With what purpose? When is this 'buddy algorithm' called, and this free_area data structure accessed? (http://www.tldp.org/LDP/tlk/mm/memory.html, section 3.4.1 Page Allocation)
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  • page table is modified in sbrk/brk syscall, so the user could access the memory legally(without segmentation fault). But physical page frame is allocated when page fault occurs for performance consideration.
    – Chris Tsui
    Commented Mar 6, 2016 at 7:19
  • so, when you create/merge VMAs, you actually create PTEs? I'm searching the source code for that part, but I can't find the point when PTEs are created... Commented Mar 6, 2016 at 9:50
  • see my answer, brk do not changes the page table. check link1, link2 and link3 Commented Mar 6, 2016 at 11:49
  • Thank you, it's very clear.
    – Chris Tsui
    Commented Mar 7, 2016 at 14:52

1 Answer 1

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Well, after finally finding an excellent guide (http://duartes.org/gustavo/blog/post/how-the-kernel-manages-your-memory/) and some hours digging the Linux kernel, I found the answers...

  • Indeed, brk only pushes the virtual memory area.
  • When the user application hits *allocated_integer = 5;, a page fault occurs.
  • The page fault routine will search for the virtual memory area responsible for the address and then call the page table handler.
  • The page table handler goes through each level (2 levels in x86 and 4 levels in x86_64), allocating entries if they're not present (2nd, 3rd and 4th), and then finally calls the real handler.
  • The real handler actually calls the function responsible for allocating page frames.

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