[PATCH Resend] ARM: kdump: makes second kernel use strict pfn_valid

Wang Nan wangnan0 at huawei.com
Thu May 29 03:09:00 PDT 2014


On 2014/5/29 12:39, AKASHI Takahiro wrote:
> Wang, Will
> 
> I'm now working on kdump support for arm64 on top of Geoff's kexec patch.
> 
> On 05/20/2014 12:22 PM, Wang Nan wrote:
>> On 2014/5/20 0:09, Will Deacon wrote:
>>> On Mon, May 19, 2014 at 02:54:03AM +0100, Wang Nan wrote:
>>>> When SPARSEMEM and CRASH_DUMP both selected, simple pfn_valid prevents
>>>> the second kernel ioremap first kernel's memory if the address falls
>>>> into second kernel section. This limitation requires the second kernel
>>>> occupies a full section, and elfcorehdr must resides in another section.
>>>>
>>>> This patch makes crash dump kernel use strict pfn_valid, removes such
>>>> limitation.
>>>>
>>>> For example:
>>>>
>>>>    For a platform with SECTION_SIZE_BITS == 28 (256MiB) and
>>>>    crashkernel=128M at 0x28000000 in kernel cmdline, the second
>>>>    kernel is loaded at 0x28000000. Kexec puts elfcorehdr at
>>>>    0x2ff00000, and passes 'elfcorehdr=0x2ff00000 mem=130048K' to
>>>>    second kernel. When second kernel start, it tries to use
>>>>    ioremap to retrive its elfcorehrd. In this case, elfcodehdr is at the
>>>>    same section of the second kernel, pfn_valid will recongnize
>>>>    the page as valid, so ioremap will refuse to map it.
>>>
>>> So isn't the issue here that you're passing an incorrect mem= parameter
>>> to the crash kernel?
>>>
>>
>> mem= parameter is generated by kexec-tools according to /proc/iomem, it is the size
>> of reserved memory minus 1MiB. So I think what you mean is I passing an incorrect
>> crashkernel= parameter?
> 
> Just FYI, kexec-tools doesn't seem to be implemented in proper way to support device-tree.
> Once device-tree is handled correctly, we don't need to pass "mem=" parameter.
> (Of course, only on machines that support device-tree.)
> 
>> I'll explain limitations on crash kernel reserved memory in the case of SPARSEMEM
>> enabled, and show how *impractical* the 'correct' crashkernel will be.
>>
>> Use realview board for example.
>>
>> Limitation 1: crash kernel reservation kernel must be aligned with 0x08000000 (128MiB).
>>
>>    This is because zImage determine final kernel address by (pc & 0xf8000000). If,
>>    for example, set crashkernel=64M at 0x29000000, then the second kernel itself
>>    overwrites first kernel's memory. We'll lost some memory in /proc/vmcore.
>>
>> Limitation 2: crash kernel must resides in different section with the first kernel.
>>
>>    This is because the second kernel use ioremap for accessing first kernel's memory,
>>    and arm prevent a valid pfn be ioremapped. Which means a whole section must be reserved
>>    for the secton kernel. On realview, which is 256MiB.
>>
>> Limitation 3: the last 1MiB of reserved memory must be ioremappable.
>>
>>    This is because the second kernel depeneds kexec-tools passing an elfheader as
>>    'elfcorehdr' to instructs it generating /proc/vmcore. See fs/proc/vmcore.c. Kexec-tools
>>    simply uses the last 1MiB for it. The second kernel use ioremap to access it, force
>>    the header be put in another section.
> 
> We can avoid "Limitation 3" just by implementing arm's own elfcorehdr_read() with memcpy().
> I can submit a patch, but can't test it for now.
> 
> -Takahiro AKASHI
> 

However you still need pfn_valid to check whether elfcorehdr resides in a valid area.

Furthermore, simply replacing ioremap to memcpy seems breaks things. Configurations work
before replacement will fail. Finally you will find you still need strict pfn_valid to
check whether to use ioremap or use memcpy.

> 
>> In realview board, the only possible correct setting should be 'crashkernel=257M at 0x20000000'.
>> However, realview has only 1GiB memory, crash kernel consumes a quarter plus 1MiB. In addition, even
>> set this parameter, crash kernel is still unusable because:
>>
>>    crashkernel reservation failed - memory is in use (0x20000000)
>>
>>> Will
>>>
>>
>>
>>
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>>





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