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author | Linus Torvalds <torvalds@linux-foundation.org> | 2017-05-02 08:54:56 +0200 |
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committer | Linus Torvalds <torvalds@linux-foundation.org> | 2017-05-02 08:54:56 +0200 |
commit | d3b5d35290d729a2518af00feca867385a1b08fa (patch) | |
tree | 7b56c0863d59bc57f7c7dcf5d5665c56b05f1d1b /Documentation/x86 | |
parent | Merge branch 'x86-vdso-for-linus' of git://git.kernel.org/pub/scm/linux/kerne... (diff) | |
parent | mm, zone_device: Replace {get, put}_zone_device_page() with a single referenc... (diff) | |
download | linux-d3b5d35290d729a2518af00feca867385a1b08fa.tar.xz linux-d3b5d35290d729a2518af00feca867385a1b08fa.zip |
Merge branch 'x86-mm-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip
Pull x86 mm updates from Ingo Molnar:
"The main x86 MM changes in this cycle were:
- continued native kernel PCID support preparation patches to the TLB
flushing code (Andy Lutomirski)
- various fixes related to 32-bit compat syscall returning address
over 4Gb in applications, launched from 64-bit binaries - motivated
by C/R frameworks such as Virtuozzo. (Dmitry Safonov)
- continued Intel 5-level paging enablement: in particular the
conversion of x86 GUP to the generic GUP code. (Kirill A. Shutemov)
- x86/mpx ABI corner case fixes/enhancements (Joerg Roedel)
- ... plus misc updates, fixes and cleanups"
* 'x86-mm-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (62 commits)
mm, zone_device: Replace {get, put}_zone_device_page() with a single reference to fix pmem crash
x86/mm: Fix flush_tlb_page() on Xen
x86/mm: Make flush_tlb_mm_range() more predictable
x86/mm: Remove flush_tlb() and flush_tlb_current_task()
x86/vm86/32: Switch to flush_tlb_mm_range() in mark_screen_rdonly()
x86/mm/64: Fix crash in remove_pagetable()
Revert "x86/mm/gup: Switch GUP to the generic get_user_page_fast() implementation"
x86/boot/e820: Remove a redundant self assignment
x86/mm: Fix dump pagetables for 4 levels of page tables
x86/mpx, selftests: Only check bounds-vs-shadow when we keep shadow
x86/mpx: Correctly report do_mpx_bt_fault() failures to user-space
Revert "x86/mm/numa: Remove numa_nodemask_from_meminfo()"
x86/espfix: Add support for 5-level paging
x86/kasan: Extend KASAN to support 5-level paging
x86/mm: Add basic defines/helpers for CONFIG_X86_5LEVEL=y
x86/paravirt: Add 5-level support to the paravirt code
x86/mm: Define virtual memory map for 5-level paging
x86/asm: Remove __VIRTUAL_MASK_SHIFT==47 assert
x86/boot: Detect 5-level paging support
x86/mm/numa: Remove numa_nodemask_from_meminfo()
...
Diffstat (limited to 'Documentation/x86')
-rw-r--r-- | Documentation/x86/x86_64/mm.txt | 36 |
1 files changed, 33 insertions, 3 deletions
diff --git a/Documentation/x86/x86_64/mm.txt b/Documentation/x86/x86_64/mm.txt index 5724092db811..b0798e281aa6 100644 --- a/Documentation/x86/x86_64/mm.txt +++ b/Documentation/x86/x86_64/mm.txt @@ -4,7 +4,7 @@ Virtual memory map with 4 level page tables: 0000000000000000 - 00007fffffffffff (=47 bits) user space, different per mm -hole caused by [48:63] sign extension +hole caused by [47:63] sign extension ffff800000000000 - ffff87ffffffffff (=43 bits) guard hole, reserved for hypervisor ffff880000000000 - ffffc7ffffffffff (=64 TB) direct mapping of all phys. memory ffffc80000000000 - ffffc8ffffffffff (=40 bits) hole @@ -19,16 +19,43 @@ ffffff0000000000 - ffffff7fffffffff (=39 bits) %esp fixup stacks ffffffef00000000 - fffffffeffffffff (=64 GB) EFI region mapping space ... unused hole ... ffffffff80000000 - ffffffff9fffffff (=512 MB) kernel text mapping, from phys 0 +ffffffffa0000000 - ffffffffff5fffff (=1526 MB) module mapping space (variable) +ffffffffff600000 - ffffffffffdfffff (=8 MB) vsyscalls +ffffffffffe00000 - ffffffffffffffff (=2 MB) unused hole + +Virtual memory map with 5 level page tables: + +0000000000000000 - 00ffffffffffffff (=56 bits) user space, different per mm +hole caused by [56:63] sign extension +ff00000000000000 - ff0fffffffffffff (=52 bits) guard hole, reserved for hypervisor +ff10000000000000 - ff8fffffffffffff (=55 bits) direct mapping of all phys. memory +ff90000000000000 - ff91ffffffffffff (=49 bits) hole +ff92000000000000 - ffd1ffffffffffff (=54 bits) vmalloc/ioremap space +ffd2000000000000 - ffd3ffffffffffff (=49 bits) hole +ffd4000000000000 - ffd5ffffffffffff (=49 bits) virtual memory map (512TB) +... unused hole ... +ffd8000000000000 - fff7ffffffffffff (=53 bits) kasan shadow memory (8PB) +... unused hole ... +ffffff0000000000 - ffffff7fffffffff (=39 bits) %esp fixup stacks +... unused hole ... +ffffffef00000000 - fffffffeffffffff (=64 GB) EFI region mapping space +... unused hole ... +ffffffff80000000 - ffffffff9fffffff (=512 MB) kernel text mapping, from phys 0 ffffffffa0000000 - ffffffffff5fffff (=1526 MB) module mapping space ffffffffff600000 - ffffffffffdfffff (=8 MB) vsyscalls ffffffffffe00000 - ffffffffffffffff (=2 MB) unused hole +Architecture defines a 64-bit virtual address. Implementations can support +less. Currently supported are 48- and 57-bit virtual addresses. Bits 63 +through to the most-significant implemented bit are set to either all ones +or all zero. This causes hole between user space and kernel addresses. + The direct mapping covers all memory in the system up to the highest memory address (this means in some cases it can also include PCI memory holes). -vmalloc space is lazily synchronized into the different PML4 pages of -the processes using the page fault handler, with init_level4_pgt as +vmalloc space is lazily synchronized into the different PML4/PML5 pages of +the processes using the page fault handler, with init_top_pgt as reference. Current X86-64 implementations support up to 46 bits of address space (64 TB), @@ -39,6 +66,9 @@ memory window (this size is arbitrary, it can be raised later if needed). The mappings are not part of any other kernel PGD and are only available during EFI runtime calls. +The module mapping space size changes based on the CONFIG requirements for the +following fixmap section. + Note that if CONFIG_RANDOMIZE_MEMORY is enabled, the direct mapping of all physical memory, vmalloc/ioremap space and virtual memory map are randomized. Their order is preserved but their base will be offset early at boot time. |