Is it possible to relocate a kernel page in physical memory?

Jeff Haran jharan at bytemobile.com
Fri Aug 19 14:05:20 EDT 2011


> -----Original Message-----
> From: kernelnewbies-bounces at kernelnewbies.org [mailto:kernelnewbies-
> bounces at kernelnewbies.org] On Behalf Of Arvid Brodin
> Sent: Friday, August 19, 2011 10:35 AM
> To: kernelnewbies at kernelnewbies.org
> Subject: Is it possible to relocate a kernel page in physical memory?
> 
> I want to do memory checks (à la memtest86) on a running system. I know
> using
> ECC memory would be a better approach, but unfortunately that is not an
> option
> in this case. Also, this seems like an excellent opportunity to learn more
> about the memory system in Linux.
> 
> This is on a AVR32 embedded system, BTW.
> 
> One approach is to use the AVR32's built-in SRAM pages to store and run
> kernel
> code that periodically takes a spinlock and checks a small part of the physical
> memory, before writing back its original value. This has numerous problems,
> among others that the SRAM pages are also used by the power management
> code on
> these processors. And of course, it's not exactly portable...
> 
> Another approach is to run the test as a part of the normal kernel. For
> memory
> allocated by user processes, this should be pretty straight-forward (I think):
> just copy the page data to another physical page and modify the page tables
> (right?). When in comes to the kernel, I might be able to skip testing of the
> (read-only) text segment by doing md5summing over it instead (would this
> have
> any drawbacks)? But how would one test writable pages allocated by the
> kernel?
> 
> Is there a way to "relocate" a kernel page in physical memory?
> 
> --
> Arvid Brodin
> Enea Services Stockholm AB
> 

I can't say that I understand why you want to do what you've described, but to the extent that it sounds a bit like what the EDAC driver has to do to in order to scrub single bit ECC errors from a page when they are detected by an ECC enabled memory controller (read the page, write it back), you might want to look at the EDAC driver and see how it does what it does.

See the code in drivers/edac.







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