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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [PATCH v2 3/4] x86/trampoline: Document how the trampoline is laid out
On 14/11/2024 11:17 am, Andrew Cooper wrote:
> On 14/11/2024 10:48 am, Alejandro Vallejo wrote:
>> On Thu Nov 14, 2024 at 9:08 AM GMT, Andrew Cooper wrote:
>>> diff --git a/xen/arch/x86/include/asm/trampoline.h
>>> b/xen/arch/x86/include/asm/trampoline.h
>>> index 8c1e0b48c2c9..559111d2ccfc 100644
>>> --- a/xen/arch/x86/include/asm/trampoline.h
>>> +++ b/xen/arch/x86/include/asm/trampoline.h
>>> @@ -37,12 +37,65 @@
>>> * manually as part of placement.
>>> */
>>>
>>> +/*
>>> + * Layout of the trampoline. Logical areas, in ascending order:
>>> + *
>>> + * 1) AP boot:
>>> + *
>>> + * The INIT-SIPI-SIPI entrypoint. This logic is stack-less so the
>>> identity
>>> + * mapping (which must be executable) can at least be Read Only.
>>> + *
>>> + * 2) S3 resume:
>>> + *
>>> + * The S3 wakeup logic may need to interact with the BIOS, so needs a
>>> + * stack. The stack pointer is set to trampoline_phys + 4k and
>>> clobbers an
>>> + * arbitrary part of the the boot trampoline. The stack is only used
>>> with
>>> + * paging disabled.
>>> + *
>>> + * 3) Boot trampoline:
>>> + *
>>> + * The boot trampoline collects data from the BIOS (E820/EDD/EDID/etc),
>>> so
>>> + * needs a stack. The stack pointer is set to trampoline_phys + 64k,
>>> is 4k
>>> + * in size, and only used with paging disabled.
>>> + *
>>> + * 4) Heap space:
>>> + *
>>> + * The first 1k of heap space is statically allocated scratch space for
>>> + * VESA information.
>>> + *
>>> + * The remainder of the heap is used by reloc(), logic which is
>>> otherwise
>>> + * outside of the trampoline, to collect the bootloader metadata
>>> (cmdline,
>> Wh> + * module list, etc). It does so with a bump allocator starting
>> from the
>>> + * end of the heap and allocating backwards.
> Was this a typo replying to the email?
>
>
>>> + *
>>> + * 5) Boot stack:
>>> + *
>>> + * The boot stack is 4k in size at the end of the trampoline, taking the
>>> + * total trampoline size to 64k.
>>> + *
>>> + * Therefore, when placed, it looks somewhat like this:
>>> + *
>>> + * +--- trampoline_phys
>>> + * v
>>> + * |<-------------------------------64K------------------------------->|
>>> + * |<-----4K----->| |<---4K--->|
>>> + * +-------+------+-+---------------------------------------+----------+
>>> + * | AP+S3 | Boot | Heap | Stack |
>>> + * +-------+------+-+---------------------------------------+----------+
>>> + * ^ ^ <~~^ ^ <~~^ <~~^
>>> + * | | | +- trampoline_end[] | |
>>> + * | | +--- wakeup_stack reloc() allocator -+ |
>>> + * | +---------- trampoline_perm_end Boot Stack ------------+
>>> + * +------------------ trampoline_start[]
>>> + */
>> Neat. Nothing like a pretty picture to properly explain things.
>>
>>> +
>>> #include <xen/compiler.h>
>>> #include <xen/types.h>
>>>
>>> /*
>>> - * Start and end of the trampoline section, as linked into Xen. It is
>>> within
>>> - * the .init section and reclaimed after boot.
>>> + * Start and end of the trampoline section, as linked into Xen. This
>>> covers
>>> + * the AP, S3 and Boot regions, but not the heap or stack. It is within
>>> the
>>> + * .init section and reclaimed after boot.
>> How can it be reclaimed after boot if it's used for S3 wakeups? I assume you
>> meant that the heap and stack are reclaimed after boot, but from that wording
>> it sounds like the other way around.
> This is the one bit that is slightly problematic to represent.
>
> trampoline_{start,end}[] describe the AP/S3/Boot text/data *in the Xen
> image*, which is in the .init section.
>
> trampoline_phys is where trampoline_start[] ends up when placed.
>
> Maybe I should have "Note: trampoline_start[] and trampoline_end[]
> represent the shown boundaries as linked in Xen" at the bottom of the
> diagram?
I'm going to go ahead and do this, and commit the series.
~Andrew
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