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SubjectRe: How cma allocation works ?
On Mon, Aug 26, 2019 at 12:55 PM Michal Hocko <mhocko@kernel.org> wrote:
>
> On Fri 23-08-19 00:17:22, Pankaj Suryawanshi wrote:
> > On Thu, Aug 22, 2019 at 6:32 PM Michal Hocko <mhocko@kernel.org> wrote:
> > >
> > > On Wed 21-08-19 22:58:03, Pankaj Suryawanshi wrote:
> > > > Hello,
> > > >
> > > > Hard time to understand cma allocation how differs from normal
> > > > allocation ?
> > >
> > > The buddy allocator which is built for order-N sized allocations and it
> > > is highly optimized because it used from really hot paths. The allocator
> > > also involves memory reclaim to get memory when there is none
> > > immediatelly available.
> > >
> > > CMA allocator operates on a pre reserved physical memory range(s) and
> > > focuses on allocating areas that require physically contigous memory of
> > > larger sizes. Very broadly speaking. LWN usually contains nice writeups
> > > for many kernel internals. E.g. quick googling pointed to
> > > https://lwn.net/Articles/486301/
> > >
> > > > I know theoretically how cma works.
> > > >
> > > > 1. How it reserved the memory (start pfn to end pfn) ? what is bitmap_*
> > > > functions ?
> > >
> > > Not sure what you are asking here TBH
> > I know it reserved memory at boot time from start pfn to end pfn, but when
> > i am requesting memory from cma it has different bitmap_*() in cma_alloc()
> > what they are ?
> > because we pass pfn and pfn+count to alloc_contig_range and pfn is come
> > from bitmap_*() function.
> > lets say i have reserved 100MB cma memory at boot time (strart pfn to end
> > pfn) and i am requesting allocation of 30MB from cma area then what is pfn
> > passed to alloc_contig_range() it is same as start pfn or
> > different.(calucaled by bitmap_*()) ?
>
> I am not deeply familiar with the CMA implementation but from a very
> brief look it seems that the bitmap simply denotes which portions of the
> reserved area are used and therefore it is easy to find portions of the
> requested size by scanning it.
> okay
> > > Have you checked the code? It simply tries to reclaim and/or migrate
> > > pages off the pfn range.
> > >
> > What is difference between migration, isolation and reclamation of pages ?
>
> Isolation will set the migrate type to MIGRATE_ISOLATE, btw the comment
> in the code I referred to says this:
> * Making page-allocation-type to be MIGRATE_ISOLATE means free pages in
> * the range will never be allocated. Any free pages and pages freed in the
> * future will not be allocated again. If specified range includes migrate types
> * other than MOVABLE or CMA, this will fail with -EBUSY. For isolating all
> * pages in the range finally, the caller have to free all pages in the range.
> * test_page_isolated() can be used for test it.
>
> Reclaim part will simply drop all pages that are easily reclaimable
> (e.g. a clean pagecache) and migration will move existing allocations to
> a different physical location + update references to it from other data
> structures (e.g. page tables to point to a new location).


Okay Thanks michal, now it will easy to understand.
>
>
>
> > > > 5.what isolate_migratepages_range(), reclaim_clean_pages_from_list(),
> > > > migrate_pages() and shrink_page_list() is doing ?
> > >
> > > Again, have you checked the code/comments? What exactly is not clear?
> > >
> > Why again migrate_isolate_range() ?
> > (reclaim_clean_pages_fron_list) if we are reclaiming only clean pages then
> > pages will not contiguous ? we have only clean pages which are not
> > contiguous ?
>
> reclaim_clean_pages_from_list is a simple wrapper on top of shrink_page_list.
> It simply takes clean page cache pages to reclaim it because that might
> be less expensive than migrating that memory.
> okay
> > What is work of shrink_page_list() ?
>
> This is a core of the memory reclaim. It unmaps/frees pages and try to
> free them.
> okay
> > please explain all flow with taking
> > one allocation for example let say reserved cma 100MB and then request
> > allocation of 30MB then how all the flow/function will work ?
>
> I would recommend to read the code carefully and following the git
> history of the code is very helpful as well. This is not a rocket
> science, really.
hahaha rocket science !!! I think linux memory management should be
part of rocket science.
>
> --
> Michal Hocko
> SUSE Labs

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