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3faa52c03f
Add tracking of pages that were pinned via FOLL_PIN. This tracking is
implemented via overloading of page->_refcount: pins are added by adding
GUP_PIN_COUNTING_BIAS (1024) to the refcount. This provides a fuzzy
indication of pinning, and it can have false positives (and that's OK).
Please see the pre-existing Documentation/core-api/pin_user_pages.rst for
details.
As mentioned in pin_user_pages.rst, callers who effectively set FOLL_PIN
(typically via pin_user_pages*()) are required to ultimately free such
pages via unpin_user_page().
Please also note the limitation, discussed in pin_user_pages.rst under the
"TODO: for 1GB and larger huge pages" section. (That limitation will be
removed in a following patch.)
The effect of a FOLL_PIN flag is similar to that of FOLL_GET, and may be
thought of as "FOLL_GET for DIO and/or RDMA use".
Pages that have been pinned via FOLL_PIN are identifiable via a new
function call:
bool page_maybe_dma_pinned(struct page *page);
What to do in response to encountering such a page, is left to later
patchsets. There is discussion about this in [1], [2], [3], and [4].
This also changes a BUG_ON(), to a WARN_ON(), in follow_page_mask().
[1] Some slow progress on get_user_pages() (Apr 2, 2019):
https://lwn.net/Articles/784574/
[2] DMA and get_user_pages() (LPC: Dec 12, 2018):
https://lwn.net/Articles/774411/
[3] The trouble with get_user_pages() (Apr 30, 2018):
https://lwn.net/Articles/753027/
[4] LWN kernel index: get_user_pages():
https://lwn.net/Kernel/Index/#Memory_management-get_user_pages
[jhubbard@nvidia.com: add kerneldoc]
Link: http://lkml.kernel.org/r/20200307021157.235726-1-jhubbard@nvidia.com
[imbrenda@linux.ibm.com: if pin fails, we need to unpin, a simple put_page will not be enough]
Link: http://lkml.kernel.org/r/20200306132537.783769-2-imbrenda@linux.ibm.com
[akpm@linux-foundation.org: fix put_compound_head defined but not used]
Suggested-by: Jan Kara <jack@suse.cz>
Suggested-by: Jérôme Glisse <jglisse@redhat.com>
Signed-off-by: John Hubbard <jhubbard@nvidia.com>
Signed-off-by: Claudio Imbrenda <imbrenda@linux.ibm.com>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Reviewed-by: Jan Kara <jack@suse.cz>
Acked-by: Kirill A. Shutemov <kirill.shutemov@linux.intel.com>
Cc: Ira Weiny <ira.weiny@intel.com>
Cc: "Matthew Wilcox (Oracle)" <willy@infradead.org>
Cc: Al Viro <viro@zeniv.linux.org.uk>
Cc: Christoph Hellwig <hch@infradead.org>
Cc: Dan Williams <dan.j.williams@intel.com>
Cc: Dave Chinner <david@fromorbit.com>
Cc: Jason Gunthorpe <jgg@ziepe.ca>
Cc: Jonathan Corbet <corbet@lwn.net>
Cc: Michal Hocko <mhocko@suse.com>
Cc: Mike Kravetz <mike.kravetz@oracle.com>
Cc: Shuah Khan <shuah@kernel.org>
Cc: Vlastimil Babka <vbabka@suse.cz>
Link: http://lkml.kernel.org/r/20200211001536.1027652-7-jhubbard@nvidia.com
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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.. SPDX-License-Identifier: GPL-2.0
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====================================================
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pin_user_pages() and related calls
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====================================================
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.. contents:: :local:
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Overview
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========
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This document describes the following functions::
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pin_user_pages()
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pin_user_pages_fast()
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pin_user_pages_remote()
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Basic description of FOLL_PIN
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=============================
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FOLL_PIN and FOLL_LONGTERM are flags that can be passed to the get_user_pages*()
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("gup") family of functions. FOLL_PIN has significant interactions and
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interdependencies with FOLL_LONGTERM, so both are covered here.
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FOLL_PIN is internal to gup, meaning that it should not appear at the gup call
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sites. This allows the associated wrapper functions (pin_user_pages*() and
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others) to set the correct combination of these flags, and to check for problems
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as well.
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FOLL_LONGTERM, on the other hand, *is* allowed to be set at the gup call sites.
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This is in order to avoid creating a large number of wrapper functions to cover
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all combinations of get*(), pin*(), FOLL_LONGTERM, and more. Also, the
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pin_user_pages*() APIs are clearly distinct from the get_user_pages*() APIs, so
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that's a natural dividing line, and a good point to make separate wrapper calls.
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In other words, use pin_user_pages*() for DMA-pinned pages, and
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get_user_pages*() for other cases. There are four cases described later on in
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this document, to further clarify that concept.
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FOLL_PIN and FOLL_GET are mutually exclusive for a given gup call. However,
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multiple threads and call sites are free to pin the same struct pages, via both
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FOLL_PIN and FOLL_GET. It's just the call site that needs to choose one or the
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other, not the struct page(s).
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The FOLL_PIN implementation is nearly the same as FOLL_GET, except that FOLL_PIN
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uses a different reference counting technique.
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FOLL_PIN is a prerequisite to FOLL_LONGTERM. Another way of saying that is,
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FOLL_LONGTERM is a specific case, more restrictive case of FOLL_PIN.
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Which flags are set by each wrapper
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===================================
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For these pin_user_pages*() functions, FOLL_PIN is OR'd in with whatever gup
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flags the caller provides. The caller is required to pass in a non-null struct
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pages* array, and the function then pin pages by incrementing each by a special
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value. For now, that value is +1, just like get_user_pages*().::
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Function
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--------
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pin_user_pages FOLL_PIN is always set internally by this function.
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pin_user_pages_fast FOLL_PIN is always set internally by this function.
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pin_user_pages_remote FOLL_PIN is always set internally by this function.
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For these get_user_pages*() functions, FOLL_GET might not even be specified.
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Behavior is a little more complex than above. If FOLL_GET was *not* specified,
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but the caller passed in a non-null struct pages* array, then the function
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sets FOLL_GET for you, and proceeds to pin pages by incrementing the refcount
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of each page by +1.::
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Function
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--------
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get_user_pages FOLL_GET is sometimes set internally by this function.
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get_user_pages_fast FOLL_GET is sometimes set internally by this function.
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get_user_pages_remote FOLL_GET is sometimes set internally by this function.
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Tracking dma-pinned pages
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=========================
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Some of the key design constraints, and solutions, for tracking dma-pinned
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pages:
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* An actual reference count, per struct page, is required. This is because
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multiple processes may pin and unpin a page.
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* False positives (reporting that a page is dma-pinned, when in fact it is not)
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are acceptable, but false negatives are not.
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* struct page may not be increased in size for this, and all fields are already
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used.
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* Given the above, we can overload the page->_refcount field by using, sort of,
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the upper bits in that field for a dma-pinned count. "Sort of", means that,
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rather than dividing page->_refcount into bit fields, we simple add a medium-
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large value (GUP_PIN_COUNTING_BIAS, initially chosen to be 1024: 10 bits) to
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page->_refcount. This provides fuzzy behavior: if a page has get_page() called
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on it 1024 times, then it will appear to have a single dma-pinned count.
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And again, that's acceptable.
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This also leads to limitations: there are only 31-10==21 bits available for a
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counter that increments 10 bits at a time.
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TODO: for 1GB and larger huge pages, this is cutting it close. That's because
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when pin_user_pages() follows such pages, it increments the head page by "1"
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(where "1" used to mean "+1" for get_user_pages(), but now means "+1024" for
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pin_user_pages()) for each tail page. So if you have a 1GB huge page:
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* There are 256K (18 bits) worth of 4 KB tail pages.
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* There are 21 bits available to count up via GUP_PIN_COUNTING_BIAS (that is,
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10 bits at a time)
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* There are 21 - 18 == 3 bits available to count. Except that there aren't,
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because you need to allow for a few normal get_page() calls on the head page,
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as well. Fortunately, the approach of using addition, rather than "hard"
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bitfields, within page->_refcount, allows for sharing these bits gracefully.
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But we're still looking at about 8 references.
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This, however, is a missing feature more than anything else, because it's easily
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solved by addressing an obvious inefficiency in the original get_user_pages()
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approach of retrieving pages: stop treating all the pages as if they were
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PAGE_SIZE. Retrieve huge pages as huge pages. The callers need to be aware of
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this, so some work is required. Once that's in place, this limitation mostly
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disappears from view, because there will be ample refcounting range available.
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* Callers must specifically request "dma-pinned tracking of pages". In other
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words, just calling get_user_pages() will not suffice; a new set of functions,
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pin_user_page() and related, must be used.
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FOLL_PIN, FOLL_GET, FOLL_LONGTERM: when to use which flags
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==========================================================
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Thanks to Jan Kara, Vlastimil Babka and several other -mm people, for describing
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these categories:
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CASE 1: Direct IO (DIO)
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-----------------------
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There are GUP references to pages that are serving
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as DIO buffers. These buffers are needed for a relatively short time (so they
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are not "long term"). No special synchronization with page_mkclean() or
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munmap() is provided. Therefore, flags to set at the call site are: ::
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FOLL_PIN
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...but rather than setting FOLL_PIN directly, call sites should use one of
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the pin_user_pages*() routines that set FOLL_PIN.
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CASE 2: RDMA
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------------
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There are GUP references to pages that are serving as DMA
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buffers. These buffers are needed for a long time ("long term"). No special
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synchronization with page_mkclean() or munmap() is provided. Therefore, flags
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to set at the call site are: ::
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FOLL_PIN | FOLL_LONGTERM
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NOTE: Some pages, such as DAX pages, cannot be pinned with longterm pins. That's
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because DAX pages do not have a separate page cache, and so "pinning" implies
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locking down file system blocks, which is not (yet) supported in that way.
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CASE 3: Hardware with page faulting support
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-------------------------------------------
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Here, a well-written driver doesn't normally need to pin pages at all. However,
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if the driver does choose to do so, it can register MMU notifiers for the range,
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and will be called back upon invalidation. Either way (avoiding page pinning, or
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using MMU notifiers to unpin upon request), there is proper synchronization with
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both filesystem and mm (page_mkclean(), munmap(), etc).
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Therefore, neither flag needs to be set.
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In this case, ideally, neither get_user_pages() nor pin_user_pages() should be
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called. Instead, the software should be written so that it does not pin pages.
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This allows mm and filesystems to operate more efficiently and reliably.
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CASE 4: Pinning for struct page manipulation only
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-------------------------------------------------
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Here, normal GUP calls are sufficient, so neither flag needs to be set.
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page_maybe_dma_pinned(): the whole point of pinning
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===================================================
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The whole point of marking pages as "DMA-pinned" or "gup-pinned" is to be able
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to query, "is this page DMA-pinned?" That allows code such as page_mkclean()
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(and file system writeback code in general) to make informed decisions about
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what to do when a page cannot be unmapped due to such pins.
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What to do in those cases is the subject of a years-long series of discussions
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and debates (see the References at the end of this document). It's a TODO item
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here: fill in the details once that's worked out. Meanwhile, it's safe to say
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that having this available: ::
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static inline bool page_maybe_dma_pinned(struct page *page)
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...is a prerequisite to solving the long-running gup+DMA problem.
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Another way of thinking about FOLL_GET, FOLL_PIN, and FOLL_LONGTERM
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===================================================================
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Another way of thinking about these flags is as a progression of restrictions:
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FOLL_GET is for struct page manipulation, without affecting the data that the
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struct page refers to. FOLL_PIN is a *replacement* for FOLL_GET, and is for
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short term pins on pages whose data *will* get accessed. As such, FOLL_PIN is
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a "more severe" form of pinning. And finally, FOLL_LONGTERM is an even more
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restrictive case that has FOLL_PIN as a prerequisite: this is for pages that
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will be pinned longterm, and whose data will be accessed.
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Unit testing
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============
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This file::
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tools/testing/selftests/vm/gup_benchmark.c
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has the following new calls to exercise the new pin*() wrapper functions:
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* PIN_FAST_BENCHMARK (./gup_benchmark -a)
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* PIN_BENCHMARK (./gup_benchmark -b)
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You can monitor how many total dma-pinned pages have been acquired and released
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since the system was booted, via two new /proc/vmstat entries: ::
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/proc/vmstat/nr_foll_pin_requested
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/proc/vmstat/nr_foll_pin_requested
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Those are both going to show zero, unless CONFIG_DEBUG_VM is set. This is
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because there is a noticeable performance drop in unpin_user_page(), when they
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are activated.
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References
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==========
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* `Some slow progress on get_user_pages() (Apr 2, 2019) <https://lwn.net/Articles/784574/>`_
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* `DMA and get_user_pages() (LPC: Dec 12, 2018) <https://lwn.net/Articles/774411/>`_
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* `The trouble with get_user_pages() (Apr 30, 2018) <https://lwn.net/Articles/753027/>`_
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John Hubbard, October, 2019
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