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xen-devel
Your questions are answered in the following [].
-----Original Message-----
From: xen-devel-bounces@xxxxxxxxxxxxxxxxxxx
[mailto:xen-devel-bounces@xxxxxxxxxxxxxxxxxxx] On Behalf Of PUCCETTI
Armand
Sent: Wednesday, August 02, 2006 10:55 AM
To: xen-devel@xxxxxxxxxxxxxxxxxxx
Subject: [Xen-devel] paging
I have a few easy questions about the xen code doing paging on AMD64.
How is the page translation function virt-to-phys (AMD64 arch programmer
manual, page 147)
implemented ? Refining,
- In file /xen/include/asm-x86/page.h: what are the functions
lXe_get_pfn, lXe_get_intpte, lXe_get_paddr, lXe_get_page, lXe_from_paddr
(for X=1,..4) doing?
[[[[
lXe_get_pfn: this function returns physical frame number (PFN) pointed
by this pagetable entry.
lXe_get_intpte: this function returns the integer representation of
pagetable entry. For instance, in 4-Kbyte Non-PAE paging,
l1e_get_intpte() gives you a 32-bit integer same as Figure 5.5 on page
153.
lXe_get_paddr: returns the physical address of page table pointed by
this entry. "Usually", paddr = (pfn << PAGE_SHIFT).
lXe_get_page: returns a pointer of struct page_info. Xen maintains an
array of page_info (Xen frame structure array). Each page of machine
memory has one corresponding element in this array.
lXe_from_paddr: generate a pagetable entry using a given physical
address.
]]]]
- One set of functions puzzles me: l4e_to_l3e, l3e_to_l2e and
l2e_to_l1e. The comment says "Pagetable
walking"... but what does this mean? do they help to move from one
page map to another?
[[[
The answer is yes. They will help you get to the first entry of
next-level page tables. The steps are: 1) figure out the physical
address (paddr) implied in this entry; 2) translate it into a virtual
address; and 3) cast into type of the next-level pagetable entry.
]]]
- In what variables are the real page tables (l4 to l1) stored?
[[[[
Not sure what you are asking about. The physical address of
highest-level page table is stored in CR3. Each entry of page table
contains a physical address pointing to next level page table (well, if
it is present). Whenever there is a page fault, CPU will walk the table
starting from CR3.
The manual clearly describes the implementation of different paging
modes.
]]]]
- Does the code implement only long-mode page translation for AMD64?
[[[[
page.h (in asm-x86) is generic enough for different page translations.
Some AMD64 specific implementations can be found inside page.h in
x86_64.
]]]]
- Is there anything explaining page.h, page_alloc.c and mm.c ?....
[[[[
As far as I know, the answer is no. You have to either read the code
yourself or ask questions in this mailing list.
]]]]
thanks and sorry for the trivial questions.
Armand
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