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-rw-r--r--Documentation/core-api/mm-api.rst19
-rw-r--r--Documentation/filesystems/vfs.rst16
-rw-r--r--include/linux/fs.h9
-rw-r--r--mm/readahead.c99
4 files changed, 133 insertions, 10 deletions
diff --git a/Documentation/core-api/mm-api.rst b/Documentation/core-api/mm-api.rst
index 395835f9289f..f5b2f92822c8 100644
--- a/Documentation/core-api/mm-api.rst
+++ b/Documentation/core-api/mm-api.rst
@@ -58,15 +58,30 @@ Virtually Contiguous Mappings
File Mapping and Page Cache
===========================
-.. kernel-doc:: mm/readahead.c
- :export:
+Filemap
+-------
.. kernel-doc:: mm/filemap.c
:export:
+Readahead
+---------
+
+.. kernel-doc:: mm/readahead.c
+ :doc: Readahead Overview
+
+.. kernel-doc:: mm/readahead.c
+ :export:
+
+Writeback
+---------
+
.. kernel-doc:: mm/page-writeback.c
:export:
+Truncate
+--------
+
.. kernel-doc:: mm/truncate.c
:export:
diff --git a/Documentation/filesystems/vfs.rst b/Documentation/filesystems/vfs.rst
index bf5c48066fac..b4a0baa46dcc 100644
--- a/Documentation/filesystems/vfs.rst
+++ b/Documentation/filesystems/vfs.rst
@@ -806,12 +806,16 @@ cache in your filesystem. The following members are defined:
object. The pages are consecutive in the page cache and are
locked. The implementation should decrement the page refcount
after starting I/O on each page. Usually the page will be
- unlocked by the I/O completion handler. If the filesystem decides
- to stop attempting I/O before reaching the end of the readahead
- window, it can simply return. The caller will decrement the page
- refcount and unlock the remaining pages for you. Set PageUptodate
- if the I/O completes successfully. Setting PageError on any page
- will be ignored; simply unlock the page if an I/O error occurs.
+ unlocked by the I/O completion handler. The set of pages are
+ divided into some sync pages followed by some async pages,
+ rac->ra->async_size gives the number of async pages. The
+ filesystem should attempt to read all sync pages but may decide
+ to stop once it reaches the async pages. If it does decide to
+ stop attempting I/O, it can simply return. The caller will
+ remove the remaining pages from the address space, unlock them
+ and decrement the page refcount. Set PageUptodate if the I/O
+ completes successfully. Setting PageError on any page will be
+ ignored; simply unlock the page if an I/O error occurs.
``readpages``
called by the VM to read pages associated with the address_space
diff --git a/include/linux/fs.h b/include/linux/fs.h
index e2d892b201b0..8b5c486bd4a2 100644
--- a/include/linux/fs.h
+++ b/include/linux/fs.h
@@ -930,10 +930,15 @@ struct fown_struct {
* struct file_ra_state - Track a file's readahead state.
* @start: Where the most recent readahead started.
* @size: Number of pages read in the most recent readahead.
- * @async_size: Start next readahead when this many pages are left.
- * @ra_pages: Maximum size of a readahead request.
+ * @async_size: Numer of pages that were/are not needed immediately
+ * and so were/are genuinely "ahead". Start next readahead when
+ * the first of these pages is accessed.
+ * @ra_pages: Maximum size of a readahead request, copied from the bdi.
* @mmap_miss: How many mmap accesses missed in the page cache.
* @prev_pos: The last byte in the most recent read request.
+ *
+ * When this structure is passed to ->readahead(), the "most recent"
+ * readahead means the current readahead.
*/
struct file_ra_state {
pgoff_t start;
diff --git a/mm/readahead.c b/mm/readahead.c
index cf0dcf89eb69..73b2bc5302e0 100644
--- a/mm/readahead.c
+++ b/mm/readahead.c
@@ -8,6 +8,105 @@
* Initial version.
*/
+/**
+ * DOC: Readahead Overview
+ *
+ * Readahead is used to read content into the page cache before it is
+ * explicitly requested by the application. Readahead only ever
+ * attempts to read pages that are not yet in the page cache. If a
+ * page is present but not up-to-date, readahead will not try to read
+ * it. In that case a simple ->readpage() will be requested.
+ *
+ * Readahead is triggered when an application read request (whether a
+ * systemcall or a page fault) finds that the requested page is not in
+ * the page cache, or that it is in the page cache and has the
+ * %PG_readahead flag set. This flag indicates that the page was loaded
+ * as part of a previous read-ahead request and now that it has been
+ * accessed, it is time for the next read-ahead.
+ *
+ * Each readahead request is partly synchronous read, and partly async
+ * read-ahead. This is reflected in the struct file_ra_state which
+ * contains ->size being to total number of pages, and ->async_size
+ * which is the number of pages in the async section. The first page in
+ * this async section will have %PG_readahead set as a trigger for a
+ * subsequent read ahead. Once a series of sequential reads has been
+ * established, there should be no need for a synchronous component and
+ * all read ahead request will be fully asynchronous.
+ *
+ * When either of the triggers causes a readahead, three numbers need to
+ * be determined: the start of the region, the size of the region, and
+ * the size of the async tail.
+ *
+ * The start of the region is simply the first page address at or after
+ * the accessed address, which is not currently populated in the page
+ * cache. This is found with a simple search in the page cache.
+ *
+ * The size of the async tail is determined by subtracting the size that
+ * was explicitly requested from the determined request size, unless
+ * this would be less than zero - then zero is used. NOTE THIS
+ * CALCULATION IS WRONG WHEN THE START OF THE REGION IS NOT THE ACCESSED
+ * PAGE.
+ *
+ * The size of the region is normally determined from the size of the
+ * previous readahead which loaded the preceding pages. This may be
+ * discovered from the struct file_ra_state for simple sequential reads,
+ * or from examining the state of the page cache when multiple
+ * sequential reads are interleaved. Specifically: where the readahead
+ * was triggered by the %PG_readahead flag, the size of the previous
+ * readahead is assumed to be the number of pages from the triggering
+ * page to the start of the new readahead. In these cases, the size of
+ * the previous readahead is scaled, often doubled, for the new
+ * readahead, though see get_next_ra_size() for details.
+ *
+ * If the size of the previous read cannot be determined, the number of
+ * preceding pages in the page cache is used to estimate the size of
+ * a previous read. This estimate could easily be misled by random
+ * reads being coincidentally adjacent, so it is ignored unless it is
+ * larger than the current request, and it is not scaled up, unless it
+ * is at the start of file.
+ *
+ * In general read ahead is accelerated at the start of the file, as
+ * reads from there are often sequential. There are other minor
+ * adjustments to the read ahead size in various special cases and these
+ * are best discovered by reading the code.
+ *
+ * The above calculation determines the readahead, to which any requested
+ * read size may be added.
+ *
+ * Readahead requests are sent to the filesystem using the ->readahead()
+ * address space operation, for which mpage_readahead() is a canonical
+ * implementation. ->readahead() should normally initiate reads on all
+ * pages, but may fail to read any or all pages without causing an IO
+ * error. The page cache reading code will issue a ->readpage() request
+ * for any page which ->readahead() does not provided, and only an error
+ * from this will be final.
+ *
+ * ->readahead() will generally call readahead_page() repeatedly to get
+ * each page from those prepared for read ahead. It may fail to read a
+ * page by:
+ *
+ * * not calling readahead_page() sufficiently many times, effectively
+ * ignoring some pages, as might be appropriate if the path to
+ * storage is congested.
+ *
+ * * failing to actually submit a read request for a given page,
+ * possibly due to insufficient resources, or
+ *
+ * * getting an error during subsequent processing of a request.
+ *
+ * In the last two cases, the page should be unlocked to indicate that
+ * the read attempt has failed. In the first case the page will be
+ * unlocked by the caller.
+ *
+ * Those pages not in the final ``async_size`` of the request should be
+ * considered to be important and ->readahead() should not fail them due
+ * to congestion or temporary resource unavailability, but should wait
+ * for necessary resources (e.g. memory or indexing information) to
+ * become available. Pages in the final ``async_size`` may be
+ * considered less urgent and failure to read them is more acceptable.
+ * They will eventually be read individually using ->readpage().
+ */
+
#include <linux/kernel.h>
#include <linux/dax.h>
#include <linux/gfp.h>