My project is to execute my own JVM on a little piece of kernel that i'm trying to code in C and assembly. So, I'm still learning how do the kernels do their main jobs.

Now, following some guides, I set up the paging

    mov         eax     , p3_t
    or          eax     , 0b11
    mov dword   [p4_t]  , eax
    mov         eax     , p2_t
    or          eax     , 0b11
    mov dword   [p3_t]  , eax

    mov        ecx      , 0
    mov        eax, 0x200000
    mul        ecx
    or         eax , 0b10000011
    mov        [p2_t+ecx*8] , eax
    inc        ecx
    cmp        ecx, 512
    jne        .map_pd

    mov        eax, p4_t
    mov        cr3, eax
    mov        eax, cr4
    or         eax, 1 << 5
    mov        cr4, eax

    mov        ecx, 0xC0000080
    or         eax, 1 << 8

    mov        eax, cr0
    or         eax, 1 << 31
    or         eax , 1 << 16
    mov        cr0, eax

That should set up and enable paging. These guides unfortunately give me little information.

Now, how do I manage paging and virtual addresses in the C kernel? Could you guys maybe give me some other guides that talks about paging?

  • 3
    Do you even require sophisticated paging, are you going to have multiple processes, virtual memory and such? Otherwise just map the whole physical memory and be done with it. – Jester Nov 8 at 16:37
  • Why do you have so much space in your instructions? That makes them really hard to read (for me, at least). – 1201ProgramAlarm Nov 8 at 17:53
  • @Jester for the moment I only need basic paging to load the JVM that will be the first process.Then i'll try upgrading memory management using Java. – Frank Soll Nov 8 at 19:19
  • @1201ProgramAlarm going to edit it :) – Frank Soll Nov 8 at 19:23
  • Good asm style is to indent your operands to a consistent column, far enough to the right of mnemonics so they're not ragged, but not too far (e.g. this codereview answer). (Treat dword as part of the operand). This is an improvement in some ways (no longer too far), but now you've removed too much indenting from some. Maybe you were using tabs instead of spaces for some of them? Stack Overflow eats those; you can see from looking at your question that it's messy. – Peter Cordes Nov 9 at 11:36

It sounds like you're only enabling paging because x86-64 requires it, and you don't really want to use it for anything like giving different processes their own virtual address space:

One simple choice is to identity map all of the RAM: physical = virtual address. https://wiki.osdev.org/Setting_Up_Long_Mode#Setting_up_the_Paging

See also https://wiki.osdev.org/Paging and https://wiki.osdev.org/Setting_Up_Paging_With_PAE (the x86-64 page-table entry format is the same as 32-bit PAE, but uses more levels.)

1GB hugepages give better performance (fewer TLB misses, and shorter page-walks when you do TLB miss) and mean fewer levels of page tables and fewer total PTEs you have to set up. On older hardware 2MB hugepages might have been a good choice, but modern CPUs have good TLB support for 1G pages as well.

  • Sorry, but what if I want to assign an huge page to a process. Can I assign the page to multiple processes? Because otherwise if I have a little process I would have a lot of wasted memory. That's unclear to me... – Frank Soll Nov 8 at 19:30
  • 1
    @FrankSoll: Oh, so you do want separate processes each to have their own virtual address space. Sure, you can do that as well as having the kernel map all the RAM. It's fine for a physical page to be accessible by the kernel at some virtual address as long as you don't actually use it for anything in the kernel while user-space "owns" that page. And yes you'd normally use 4k pages if you want to do memory protection. Your kernel's kmalloc or whatever you call it should keep track of which memory you're actually using. – Peter Cordes Nov 8 at 19:37
  • 1
    @FrankSoll: e.g. Linux direct-maps all of physical RAM to a contiguous range of kernel virtual addresses using hugepages, but also maps pages of user-space virtual address space to physical pages on an as-needed basis, according to user-space mmap and other allocations. See wiki.osdev.org/Higher_Half_Kernel and see kernel.org/doc/Documentation/x86/x86_64/mm.txt for details on what Linux does. – Peter Cordes Nov 8 at 19:39
  • thank you! You've been really helpful! – Frank Soll Nov 8 at 19:50

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