LCOV - code coverage report
Current view: top level - mm - readahead.c (source / functions) Hit Total Coverage
Test: fstests of 6.5.0-rc3-djwx @ Mon Jul 31 20:08:22 PDT 2023 Lines: 246 290 84.8 %
Date: 2023-07-31 20:08:22 Functions: 15 17 88.2 %

          Line data    Source code
       1             : // SPDX-License-Identifier: GPL-2.0-only
       2             : /*
       3             :  * mm/readahead.c - address_space-level file readahead.
       4             :  *
       5             :  * Copyright (C) 2002, Linus Torvalds
       6             :  *
       7             :  * 09Apr2002    Andrew Morton
       8             :  *              Initial version.
       9             :  */
      10             : 
      11             : /**
      12             :  * DOC: Readahead Overview
      13             :  *
      14             :  * Readahead is used to read content into the page cache before it is
      15             :  * explicitly requested by the application.  Readahead only ever
      16             :  * attempts to read folios that are not yet in the page cache.  If a
      17             :  * folio is present but not up-to-date, readahead will not try to read
      18             :  * it. In that case a simple ->read_folio() will be requested.
      19             :  *
      20             :  * Readahead is triggered when an application read request (whether a
      21             :  * system call or a page fault) finds that the requested folio is not in
      22             :  * the page cache, or that it is in the page cache and has the
      23             :  * readahead flag set.  This flag indicates that the folio was read
      24             :  * as part of a previous readahead request and now that it has been
      25             :  * accessed, it is time for the next readahead.
      26             :  *
      27             :  * Each readahead request is partly synchronous read, and partly async
      28             :  * readahead.  This is reflected in the struct file_ra_state which
      29             :  * contains ->size being the total number of pages, and ->async_size
      30             :  * which is the number of pages in the async section.  The readahead
      31             :  * flag will be set on the first folio in this async section to trigger
      32             :  * a subsequent readahead.  Once a series of sequential reads has been
      33             :  * established, there should be no need for a synchronous component and
      34             :  * all readahead request will be fully asynchronous.
      35             :  *
      36             :  * When either of the triggers causes a readahead, three numbers need
      37             :  * to be determined: the start of the region to read, the size of the
      38             :  * region, and the size of the async tail.
      39             :  *
      40             :  * The start of the region is simply the first page address at or after
      41             :  * the accessed address, which is not currently populated in the page
      42             :  * cache.  This is found with a simple search in the page cache.
      43             :  *
      44             :  * The size of the async tail is determined by subtracting the size that
      45             :  * was explicitly requested from the determined request size, unless
      46             :  * this would be less than zero - then zero is used.  NOTE THIS
      47             :  * CALCULATION IS WRONG WHEN THE START OF THE REGION IS NOT THE ACCESSED
      48             :  * PAGE.  ALSO THIS CALCULATION IS NOT USED CONSISTENTLY.
      49             :  *
      50             :  * The size of the region is normally determined from the size of the
      51             :  * previous readahead which loaded the preceding pages.  This may be
      52             :  * discovered from the struct file_ra_state for simple sequential reads,
      53             :  * or from examining the state of the page cache when multiple
      54             :  * sequential reads are interleaved.  Specifically: where the readahead
      55             :  * was triggered by the readahead flag, the size of the previous
      56             :  * readahead is assumed to be the number of pages from the triggering
      57             :  * page to the start of the new readahead.  In these cases, the size of
      58             :  * the previous readahead is scaled, often doubled, for the new
      59             :  * readahead, though see get_next_ra_size() for details.
      60             :  *
      61             :  * If the size of the previous read cannot be determined, the number of
      62             :  * preceding pages in the page cache is used to estimate the size of
      63             :  * a previous read.  This estimate could easily be misled by random
      64             :  * reads being coincidentally adjacent, so it is ignored unless it is
      65             :  * larger than the current request, and it is not scaled up, unless it
      66             :  * is at the start of file.
      67             :  *
      68             :  * In general readahead is accelerated at the start of the file, as
      69             :  * reads from there are often sequential.  There are other minor
      70             :  * adjustments to the readahead size in various special cases and these
      71             :  * are best discovered by reading the code.
      72             :  *
      73             :  * The above calculation, based on the previous readahead size,
      74             :  * determines the size of the readahead, to which any requested read
      75             :  * size may be added.
      76             :  *
      77             :  * Readahead requests are sent to the filesystem using the ->readahead()
      78             :  * address space operation, for which mpage_readahead() is a canonical
      79             :  * implementation.  ->readahead() should normally initiate reads on all
      80             :  * folios, but may fail to read any or all folios without causing an I/O
      81             :  * error.  The page cache reading code will issue a ->read_folio() request
      82             :  * for any folio which ->readahead() did not read, and only an error
      83             :  * from this will be final.
      84             :  *
      85             :  * ->readahead() will generally call readahead_folio() repeatedly to get
      86             :  * each folio from those prepared for readahead.  It may fail to read a
      87             :  * folio by:
      88             :  *
      89             :  * * not calling readahead_folio() sufficiently many times, effectively
      90             :  *   ignoring some folios, as might be appropriate if the path to
      91             :  *   storage is congested.
      92             :  *
      93             :  * * failing to actually submit a read request for a given folio,
      94             :  *   possibly due to insufficient resources, or
      95             :  *
      96             :  * * getting an error during subsequent processing of a request.
      97             :  *
      98             :  * In the last two cases, the folio should be unlocked by the filesystem
      99             :  * to indicate that the read attempt has failed.  In the first case the
     100             :  * folio will be unlocked by the VFS.
     101             :  *
     102             :  * Those folios not in the final ``async_size`` of the request should be
     103             :  * considered to be important and ->readahead() should not fail them due
     104             :  * to congestion or temporary resource unavailability, but should wait
     105             :  * for necessary resources (e.g.  memory or indexing information) to
     106             :  * become available.  Folios in the final ``async_size`` may be
     107             :  * considered less urgent and failure to read them is more acceptable.
     108             :  * In this case it is best to use filemap_remove_folio() to remove the
     109             :  * folios from the page cache as is automatically done for folios that
     110             :  * were not fetched with readahead_folio().  This will allow a
     111             :  * subsequent synchronous readahead request to try them again.  If they
     112             :  * are left in the page cache, then they will be read individually using
     113             :  * ->read_folio() which may be less efficient.
     114             :  */
     115             : 
     116             : #include <linux/blkdev.h>
     117             : #include <linux/kernel.h>
     118             : #include <linux/dax.h>
     119             : #include <linux/gfp.h>
     120             : #include <linux/export.h>
     121             : #include <linux/backing-dev.h>
     122             : #include <linux/task_io_accounting_ops.h>
     123             : #include <linux/pagemap.h>
     124             : #include <linux/psi.h>
     125             : #include <linux/syscalls.h>
     126             : #include <linux/file.h>
     127             : #include <linux/mm_inline.h>
     128             : #include <linux/blk-cgroup.h>
     129             : #include <linux/fadvise.h>
     130             : #include <linux/sched/mm.h>
     131             : 
     132             : #include "internal.h"
     133             : 
     134             : /*
     135             :  * Initialise a struct file's readahead state.  Assumes that the caller has
     136             :  * memset *ra to zero.
     137             :  */
     138             : void
     139   980672694 : file_ra_state_init(struct file_ra_state *ra, struct address_space *mapping)
     140             : {
     141   980672694 :         ra->ra_pages = inode_to_bdi(mapping->host)->ra_pages;
     142   980647612 :         ra->prev_pos = -1;
     143   980647612 : }
     144             : EXPORT_SYMBOL_GPL(file_ra_state_init);
     145             : 
     146   371414068 : static void read_pages(struct readahead_control *rac)
     147             : {
     148   371414068 :         const struct address_space_operations *aops = rac->mapping->a_ops;
     149   371414068 :         struct folio *folio;
     150   371414068 :         struct blk_plug plug;
     151             : 
     152   371414068 :         if (!readahead_count(rac))
     153   326795963 :                 return;
     154             : 
     155    44618105 :         if (unlikely(rac->_workingset))
     156      467330 :                 psi_memstall_enter(&rac->_pflags);
     157    44618104 :         blk_start_plug(&plug);
     158             : 
     159    44616637 :         if (aops->readahead) {
     160    44616637 :                 aops->readahead(rac);
     161             :                 /*
     162             :                  * Clean up the remaining folios.  The sizes in ->ra
     163             :                  * may be used to size the next readahead, so make sure
     164             :                  * they accurately reflect what happened.
     165             :                  */
     166    44625730 :                 while ((folio = readahead_folio(rac)) != NULL) {
     167        9093 :                         unsigned long nr = folio_nr_pages(folio);
     168             : 
     169        9093 :                         folio_get(folio);
     170        9093 :                         rac->ra->size -= nr;
     171        9093 :                         if (rac->ra->async_size >= nr) {
     172        4722 :                                 rac->ra->async_size -= nr;
     173        4722 :                                 filemap_remove_folio(folio);
     174             :                         }
     175        9093 :                         folio_unlock(folio);
     176        9093 :                         folio_put(folio);
     177             :                 }
     178             :         } else {
     179           0 :                 while ((folio = readahead_folio(rac)) != NULL)
     180           0 :                         aops->read_folio(rac->file, folio);
     181             :         }
     182             : 
     183    44611444 :         blk_finish_plug(&plug);
     184    44622786 :         if (unlikely(rac->_workingset))
     185      467330 :                 psi_memstall_leave(&rac->_pflags);
     186    44622786 :         rac->_workingset = false;
     187             : 
     188    44622786 :         BUG_ON(readahead_count(rac));
     189             : }
     190             : 
     191             : /**
     192             :  * page_cache_ra_unbounded - Start unchecked readahead.
     193             :  * @ractl: Readahead control.
     194             :  * @nr_to_read: The number of pages to read.
     195             :  * @lookahead_size: Where to start the next readahead.
     196             :  *
     197             :  * This function is for filesystems to call when they want to start
     198             :  * readahead beyond a file's stated i_size.  This is almost certainly
     199             :  * not the function you want to call.  Use page_cache_async_readahead()
     200             :  * or page_cache_sync_readahead() instead.
     201             :  *
     202             :  * Context: File is referenced by caller.  Mutexes may be held by caller.
     203             :  * May sleep, but will not reenter filesystem to reclaim memory.
     204             :  */
     205    29396475 : void page_cache_ra_unbounded(struct readahead_control *ractl,
     206             :                 unsigned long nr_to_read, unsigned long lookahead_size)
     207             : {
     208    29396475 :         struct address_space *mapping = ractl->mapping;
     209    29396475 :         unsigned long index = readahead_index(ractl);
     210    29396475 :         gfp_t gfp_mask = readahead_gfp_mask(mapping);
     211    29396475 :         unsigned long i;
     212             : 
     213             :         /*
     214             :          * Partway through the readahead operation, we will have added
     215             :          * locked pages to the page cache, but will not yet have submitted
     216             :          * them for I/O.  Adding another page may need to allocate memory,
     217             :          * which can trigger memory reclaim.  Telling the VM we're in
     218             :          * the middle of a filesystem operation will cause it to not
     219             :          * touch file-backed pages, preventing a deadlock.  Most (all?)
     220             :          * filesystems already specify __GFP_NOFS in their mapping's
     221             :          * gfp_mask, but let's be explicit here.
     222             :          */
     223    29396475 :         unsigned int nofs = memalloc_nofs_save();
     224             : 
     225    29396475 :         filemap_invalidate_lock_shared(mapping);
     226             :         /*
     227             :          * Preallocate as many pages as we will need.
     228             :          */
     229  1232580417 :         for (i = 0; i < nr_to_read; i++) {
     230  1173788590 :                 struct folio *folio = xa_load(&mapping->i_pages, index + i);
     231             : 
     232  1173827078 :                 if (folio && !xa_is_value(folio)) {
     233             :                         /*
     234             :                          * Page already present?  Kick off the current batch
     235             :                          * of contiguous pages before continuing with the
     236             :                          * next batch.  This page may be the one we would
     237             :                          * have intended to mark as Readahead, but we don't
     238             :                          * have a stable reference to this page, and it's
     239             :                          * not worth getting one just for that.
     240             :                          */
     241   332516703 :                         read_pages(ractl);
     242   332514216 :                         ractl->_index++;
     243   332514216 :                         i = ractl->_index + ractl->_nr_pages - index - 1;
     244   332514216 :                         continue;
     245             :                 }
     246             : 
     247   841310375 :                 folio = filemap_alloc_folio(gfp_mask, 0);
     248   841273006 :                 if (!folio)
     249             :                         break;
     250   841273006 :                 if (filemap_add_folio(mapping, folio, index + i,
     251             :                                         gfp_mask) < 0) {
     252       38599 :                         folio_put(folio);
     253       38601 :                         read_pages(ractl);
     254       38597 :                         ractl->_index++;
     255       38597 :                         i = ractl->_index + ractl->_nr_pages - index - 1;
     256       38597 :                         continue;
     257             :                 }
     258   841264848 :                 if (i == nr_to_read - lookahead_size)
     259     2411716 :                         folio_set_readahead(folio);
     260   841264852 :                 ractl->_workingset |= folio_test_workingset(folio);
     261   841237495 :                 ractl->_nr_pages++;
     262             :         }
     263             : 
     264             :         /*
     265             :          * Now start the IO.  We ignore I/O errors - if the folio is not
     266             :          * uptodate then the caller will launch read_folio again, and
     267             :          * will then handle the error.
     268             :          */
     269    29395352 :         read_pages(ractl);
     270    29401242 :         filemap_invalidate_unlock_shared(mapping);
     271    29401268 :         memalloc_nofs_restore(nofs);
     272    29401268 : }
     273             : EXPORT_SYMBOL_GPL(page_cache_ra_unbounded);
     274             : 
     275             : /*
     276             :  * do_page_cache_ra() actually reads a chunk of disk.  It allocates
     277             :  * the pages first, then submits them for I/O. This avoids the very bad
     278             :  * behaviour which would occur if page allocations are causing VM writeback.
     279             :  * We really don't want to intermingle reads and writes like that.
     280             :  */
     281    29457752 : static void do_page_cache_ra(struct readahead_control *ractl,
     282             :                 unsigned long nr_to_read, unsigned long lookahead_size)
     283             : {
     284    29457752 :         struct inode *inode = ractl->mapping->host;
     285    29457752 :         unsigned long index = readahead_index(ractl);
     286    29457752 :         loff_t isize = i_size_read(inode);
     287    29457752 :         pgoff_t end_index;      /* The last page we want to read */
     288             : 
     289    29457752 :         if (isize == 0)
     290             :                 return;
     291             : 
     292    29457752 :         end_index = (isize - 1) >> PAGE_SHIFT;
     293    29457752 :         if (index > end_index)
     294             :                 return;
     295             :         /* Don't read past the page containing the last byte of the file */
     296    29396061 :         if (nr_to_read > end_index - index)
     297     6148544 :                 nr_to_read = end_index - index + 1;
     298             : 
     299    29396061 :         page_cache_ra_unbounded(ractl, nr_to_read, lookahead_size);
     300             : }
     301             : 
     302             : /*
     303             :  * Chunk the readahead into 2 megabyte units, so that we don't pin too much
     304             :  * memory at once.
     305             :  */
     306    14215674 : void force_page_cache_ra(struct readahead_control *ractl,
     307             :                 unsigned long nr_to_read)
     308             : {
     309    14215674 :         struct address_space *mapping = ractl->mapping;
     310    14215674 :         struct file_ra_state *ra = ractl->ra;
     311    14215674 :         struct backing_dev_info *bdi = inode_to_bdi(mapping->host);
     312    14218292 :         unsigned long max_pages, index;
     313             : 
     314    14218292 :         if (unlikely(!mapping->a_ops->read_folio && !mapping->a_ops->readahead))
     315             :                 return;
     316             : 
     317             :         /*
     318             :          * If the request exceeds the readahead window, allow the read to
     319             :          * be up to the optimal hardware IO size
     320             :          */
     321    14218292 :         index = readahead_index(ractl);
     322    14218292 :         max_pages = max_t(unsigned long, bdi->io_pages, ra->ra_pages);
     323    14218292 :         nr_to_read = min_t(unsigned long, nr_to_read, max_pages);
     324    28440702 :         while (nr_to_read) {
     325    14218297 :                 unsigned long this_chunk = (2 * 1024 * 1024) / PAGE_SIZE;
     326             : 
     327    14218297 :                 if (this_chunk > nr_to_read)
     328    14217815 :                         this_chunk = nr_to_read;
     329    14218297 :                 ractl->_index = index;
     330    14218297 :                 do_page_cache_ra(ractl, this_chunk, 0);
     331             : 
     332    14222410 :                 index += this_chunk;
     333    14222410 :                 nr_to_read -= this_chunk;
     334             :         }
     335             : }
     336             : 
     337             : /*
     338             :  * Set the initial window size, round to next power of 2 and square
     339             :  * for small size, x 4 for medium, and x 2 for large
     340             :  * for 128k (32 page) max ra
     341             :  * 1-2 page = 16k, 3-4 page 32k, 5-8 page = 64k, > 8 page = 128k initial
     342             :  */
     343     5475789 : static unsigned long get_init_ra_size(unsigned long size, unsigned long max)
     344             : {
     345     5475789 :         unsigned long newsize = roundup_pow_of_two(size);
     346             : 
     347     5475789 :         if (newsize <= max / 32)
     348     4155062 :                 newsize = newsize * 4;
     349     1320727 :         else if (newsize <= max / 4)
     350     1069437 :                 newsize = newsize * 2;
     351             :         else
     352             :                 newsize = max;
     353             : 
     354     5475789 :         return newsize;
     355             : }
     356             : 
     357             : /*
     358             :  *  Get the previous window size, ramp it up, and
     359             :  *  return it as the new window size.
     360             :  */
     361             : static unsigned long get_next_ra_size(struct file_ra_state *ra,
     362             :                                       unsigned long max)
     363             : {
     364     1983366 :         unsigned long cur = ra->size;
     365             : 
     366     1983366 :         if (cur < max / 16)
     367      487580 :                 return 4 * cur;
     368     1495786 :         if (cur <= max / 2)
     369      666574 :                 return 2 * cur;
     370             :         return max;
     371             : }
     372             : 
     373             : /*
     374             :  * On-demand readahead design.
     375             :  *
     376             :  * The fields in struct file_ra_state represent the most-recently-executed
     377             :  * readahead attempt:
     378             :  *
     379             :  *                        |<----- async_size ---------|
     380             :  *     |------------------- size -------------------->|
     381             :  *     |==================#===========================|
     382             :  *     ^start             ^page marked with PG_readahead
     383             :  *
     384             :  * To overlap application thinking time and disk I/O time, we do
     385             :  * `readahead pipelining': Do not wait until the application consumed all
     386             :  * readahead pages and stalled on the missing page at readahead_index;
     387             :  * Instead, submit an asynchronous readahead I/O as soon as there are
     388             :  * only async_size pages left in the readahead window. Normally async_size
     389             :  * will be equal to size, for maximum pipelining.
     390             :  *
     391             :  * In interleaved sequential reads, concurrent streams on the same fd can
     392             :  * be invalidating each other's readahead state. So we flag the new readahead
     393             :  * page at (start+size-async_size) with PG_readahead, and use it as readahead
     394             :  * indicator. The flag won't be set on already cached pages, to avoid the
     395             :  * readahead-for-nothing fuss, saving pointless page cache lookups.
     396             :  *
     397             :  * prev_pos tracks the last visited byte in the _previous_ read request.
     398             :  * It should be maintained by the caller, and will be used for detecting
     399             :  * small random reads. Note that the readahead algorithm checks loosely
     400             :  * for sequential patterns. Hence interleaved reads might be served as
     401             :  * sequential ones.
     402             :  *
     403             :  * There is a special-case: if the first page which the application tries to
     404             :  * read happens to be the first page of the file, it is assumed that a linear
     405             :  * read is about to happen and the window is immediately set to the initial size
     406             :  * based on I/O request size and the max_readahead.
     407             :  *
     408             :  * The code ramps up the readahead size aggressively at first, but slow down as
     409             :  * it approaches max_readhead.
     410             :  */
     411             : 
     412             : /*
     413             :  * Count contiguously cached pages from @index-1 to @index-@max,
     414             :  * this count is a conservative estimation of
     415             :  *      - length of the sequential read sequence, or
     416             :  *      - thrashing threshold in memory tight systems
     417             :  */
     418     7543584 : static pgoff_t count_history_pages(struct address_space *mapping,
     419             :                                    pgoff_t index, unsigned long max)
     420             : {
     421     7543584 :         pgoff_t head;
     422             : 
     423     7543584 :         rcu_read_lock();
     424     7543521 :         head = page_cache_prev_miss(mapping, index - 1, max);
     425     7543691 :         rcu_read_unlock();
     426             : 
     427     7543625 :         return index - 1 - head;
     428             : }
     429             : 
     430             : /*
     431             :  * page cache context based readahead
     432             :  */
     433     7543661 : static int try_context_readahead(struct address_space *mapping,
     434             :                                  struct file_ra_state *ra,
     435             :                                  pgoff_t index,
     436             :                                  unsigned long req_size,
     437             :                                  unsigned long max)
     438             : {
     439     7543661 :         pgoff_t size;
     440             : 
     441     7543661 :         size = count_history_pages(mapping, index, max);
     442             : 
     443             :         /*
     444             :          * not enough history pages:
     445             :          * it could be a random read
     446             :          */
     447     7543601 :         if (size <= req_size)
     448             :                 return 0;
     449             : 
     450             :         /*
     451             :          * starts from beginning of file:
     452             :          * it is a strong indication of long-run stream (or whole-file-read)
     453             :          */
     454       63414 :         if (size >= index)
     455       20422 :                 size *= 2;
     456             : 
     457       63414 :         ra->start = index;
     458       63414 :         ra->size = min(size + req_size, max);
     459       63414 :         ra->async_size = 1;
     460             : 
     461       63414 :         return 1;
     462             : }
     463             : 
     464   128669932 : static inline int ra_alloc_folio(struct readahead_control *ractl, pgoff_t index,
     465             :                 pgoff_t mark, unsigned int order, gfp_t gfp)
     466             : {
     467   128669932 :         int err;
     468   128669932 :         struct folio *folio = filemap_alloc_folio(gfp, order);
     469             : 
     470   128665152 :         if (!folio)
     471             :                 return -ENOMEM;
     472   128665141 :         mark = round_up(mark, 1UL << order);
     473   128665141 :         if (index == mark)
     474     3968806 :                 folio_set_readahead(folio);
     475   128665203 :         err = filemap_add_folio(ractl->mapping, folio, index, gfp);
     476   128671099 :         if (err) {
     477     5522898 :                 folio_put(folio);
     478     5522898 :                 return err;
     479             :         }
     480             : 
     481   123148201 :         ractl->_nr_pages += 1UL << order;
     482   123148201 :         ractl->_workingset |= folio_test_workingset(folio);
     483   123146972 :         return 0;
     484             : }
     485             : 
     486    11699430 : void page_cache_ra_order(struct readahead_control *ractl,
     487             :                 struct file_ra_state *ra, unsigned int new_order)
     488             : {
     489    11699430 :         struct address_space *mapping = ractl->mapping;
     490    11699430 :         pgoff_t index = readahead_index(ractl);
     491    11699430 :         pgoff_t limit = (i_size_read(mapping->host) - 1) >> PAGE_SHIFT;
     492    11699430 :         pgoff_t mark = index + ra->size - ra->async_size;
     493    11699430 :         int err = 0;
     494    11699430 :         gfp_t gfp = readahead_gfp_mask(mapping);
     495             : 
     496    23398860 :         if (!mapping_large_folio_support(mapping) || ra->size < 4)
     497     2236226 :                 goto fallback;
     498             : 
     499     9463204 :         limit = min(limit, index + ra->size - 1);
     500             : 
     501     9463204 :         if (new_order < MAX_PAGECACHE_ORDER) {
     502     9347285 :                 new_order += 2;
     503     9347285 :                 if (new_order > MAX_PAGECACHE_ORDER)
     504       17162 :                         new_order = MAX_PAGECACHE_ORDER;
     505     9357887 :                 while ((1 << new_order) > ra->size)
     506       10602 :                         new_order--;
     507             :         }
     508             : 
     509     9463204 :         filemap_invalidate_lock_shared(mapping);
     510   132610408 :         while (index <= limit) {
     511   128669560 :                 unsigned int order = new_order;
     512             : 
     513             :                 /* Align with smaller pages if needed */
     514   128669560 :                 if (index & ((1UL << order) - 1)) {
     515    10717673 :                         order = __ffs(index);
     516    10717673 :                         if (order == 1)
     517     3455972 :                                 order = 0;
     518             :                 }
     519             :                 /* Don't allocate pages past EOF */
     520   131453634 :                 while (index + (1UL << order) - 1 > limit) {
     521     2784074 :                         if (--order == 1)
     522             :                                 order = 0;
     523             :                 }
     524   128669560 :                 err = ra_alloc_folio(ractl, index, mark, order, gfp);
     525   128670007 :                 if (err)
     526             :                         break;
     527             :                 index += 1UL << order;
     528             :         }
     529             : 
     530     9463734 :         if (index > limit) {
     531     3940848 :                 ra->size += index - limit - 1;
     532     3940848 :                 ra->async_size += index - limit - 1;
     533             :         }
     534             : 
     535     9463734 :         read_pages(ractl);
     536     9463705 :         filemap_invalidate_unlock_shared(mapping);
     537             : 
     538             :         /*
     539             :          * If there were already pages in the page cache, then we may have
     540             :          * left some gaps.  Let the regular readahead code take care of this
     541             :          * situation.
     542             :          */
     543     9463728 :         if (!err)
     544             :                 return;
     545     5522926 : fallback:
     546     7759152 :         do_page_cache_ra(ractl, ra->size, ra->async_size);
     547             : }
     548             : 
     549             : /*
     550             :  * A minimal readahead algorithm for trivial sequential/random reads.
     551             :  */
     552    14730668 : static void ondemand_readahead(struct readahead_control *ractl,
     553             :                 struct folio *folio, unsigned long req_size)
     554             : {
     555    14730668 :         struct backing_dev_info *bdi = inode_to_bdi(ractl->mapping->host);
     556    14730419 :         struct file_ra_state *ra = ractl->ra;
     557    14730419 :         unsigned long max_pages = ra->ra_pages;
     558    14730419 :         unsigned long add_pages;
     559    14730419 :         pgoff_t index = readahead_index(ractl);
     560    14730419 :         pgoff_t expected, prev_index;
     561    14730419 :         unsigned int order = folio ? folio_order(folio) : 0;
     562             : 
     563             :         /*
     564             :          * If the request exceeds the readahead window, allow the read to
     565             :          * be up to the optimal hardware IO size
     566             :          */
     567    14730564 :         if (req_size > max_pages && bdi->io_pages > max_pages)
     568      187491 :                 max_pages = min(req_size, bdi->io_pages);
     569             : 
     570             :         /*
     571             :          * start of file
     572             :          */
     573    14730564 :         if (!index)
     574     1099897 :                 goto initial_readahead;
     575             : 
     576             :         /*
     577             :          * It's the expected callback index, assume sequential access.
     578             :          * Ramp up sizes, and push forward the readahead window.
     579             :          */
     580    13630667 :         expected = round_up(ra->start + ra->size - ra->async_size,
     581             :                         1UL << order);
     582    13630667 :         if (index == expected || index == (ra->start + ra->size)) {
     583     1053166 :                 ra->start += ra->size;
     584     1053166 :                 ra->size = get_next_ra_size(ra, max_pages);
     585     1053166 :                 ra->async_size = ra->size;
     586     1053166 :                 goto readit;
     587             :         }
     588             : 
     589             :         /*
     590             :          * Hit a marked folio without valid readahead state.
     591             :          * E.g. interleaved reads.
     592             :          * Query the pagecache for async_size, which normally equals to
     593             :          * readahead size. Ramp it up and use it as the new readahead size.
     594             :          */
     595    12577501 :         if (folio) {
     596      657847 :                 pgoff_t start;
     597             : 
     598      657847 :                 rcu_read_lock();
     599      657804 :                 start = page_cache_next_miss(ractl->mapping, index + 1,
     600             :                                 max_pages);
     601      657826 :                 rcu_read_unlock();
     602             : 
     603      657851 :                 if (!start || start - index > max_pages)
     604             :                         return;
     605             : 
     606      657851 :                 ra->start = start;
     607      657851 :                 ra->size = start - index;    /* old async_size */
     608      657851 :                 ra->size += req_size;
     609      657851 :                 ra->size = get_next_ra_size(ra, max_pages);
     610      657851 :                 ra->async_size = ra->size;
     611      657851 :                 goto readit;
     612             :         }
     613             : 
     614             :         /*
     615             :          * oversize read
     616             :          */
     617    11919654 :         if (req_size > max_pages)
     618        2496 :                 goto initial_readahead;
     619             : 
     620             :         /*
     621             :          * sequential cache miss
     622             :          * trivial case: (index - prev_index) == 1
     623             :          * unaligned reads: (index - prev_index) == 0
     624             :          */
     625    11917158 :         prev_index = (unsigned long long)ra->prev_pos >> PAGE_SHIFT;
     626    11917158 :         if (index - prev_index <= 1UL)
     627     4373310 :                 goto initial_readahead;
     628             : 
     629             :         /*
     630             :          * Query the page cache and look for the traces(cached history pages)
     631             :          * that a sequential stream would leave behind.
     632             :          */
     633     7543848 :         if (try_context_readahead(ractl->mapping, ra, index, req_size,
     634             :                         max_pages))
     635       63414 :                 goto readit;
     636             : 
     637             :         /*
     638             :          * standalone, small random read
     639             :          * Read as is, and do not pollute the readahead state.
     640             :          */
     641     7480192 :         do_page_cache_ra(ractl, req_size, 0);
     642     7480192 :         return;
     643             : 
     644     5475703 : initial_readahead:
     645     5475703 :         ra->start = index;
     646     5475703 :         ra->size = get_init_ra_size(req_size, max_pages);
     647     5475703 :         ra->async_size = ra->size > req_size ? ra->size - req_size : ra->size;
     648             : 
     649     7250134 : readit:
     650             :         /*
     651             :          * Will this read hit the readahead marker made by itself?
     652             :          * If so, trigger the readahead marker hit now, and merge
     653             :          * the resulted next readahead window into the current one.
     654             :          * Take care of maximum IO pages as above.
     655             :          */
     656     7250134 :         if (index == ra->start && ra->size == ra->async_size) {
     657      272349 :                 add_pages = get_next_ra_size(ra, max_pages);
     658      272349 :                 if (ra->size + add_pages <= max_pages) {
     659       73353 :                         ra->async_size = add_pages;
     660       73353 :                         ra->size += add_pages;
     661             :                 } else {
     662      198996 :                         ra->size = max_pages;
     663      198996 :                         ra->async_size = max_pages >> 1;
     664             :                 }
     665             :         }
     666             : 
     667     7250134 :         ractl->_index = ra->start;
     668     7250134 :         page_cache_ra_order(ractl, ra, order);
     669             : }
     670             : 
     671    27417262 : void page_cache_sync_ra(struct readahead_control *ractl,
     672             :                 unsigned long req_count)
     673             : {
     674    27417262 :         bool do_forced_ra = ractl->file && (ractl->file->f_mode & FMODE_RANDOM);
     675             : 
     676             :         /*
     677             :          * Even if readahead is disabled, issue this request as readahead
     678             :          * as we'll need it to satisfy the requested range. The forced
     679             :          * readahead will do the right thing and limit the read to just the
     680             :          * requested range, which we'll set to 1 page for this case.
     681             :          */
     682    27417262 :         if (!ractl->ra->ra_pages || blk_cgroup_congested()) {
     683        1024 :                 if (!ractl->file)
     684             :                         return;
     685             :                 req_count = 1;
     686             :                 do_forced_ra = true;
     687             :         }
     688             : 
     689             :         /* be dumb */
     690    27414403 :         if (do_forced_ra) {
     691    14159103 :                 force_page_cache_ra(ractl, req_count);
     692    14159103 :                 return;
     693             :         }
     694             : 
     695    13256324 :         ondemand_readahead(ractl, NULL, req_count);
     696             : }
     697             : EXPORT_SYMBOL_GPL(page_cache_sync_ra);
     698             : 
     699     1474171 : void page_cache_async_ra(struct readahead_control *ractl,
     700             :                 struct folio *folio, unsigned long req_count)
     701             : {
     702             :         /* no readahead */
     703     1474171 :         if (!ractl->ra->ra_pages)
     704             :                 return;
     705             : 
     706             :         /*
     707             :          * Same bit is used for PG_readahead and PG_reclaim.
     708             :          */
     709     1474154 :         if (folio_test_writeback(folio))
     710             :                 return;
     711             : 
     712     1473910 :         folio_clear_readahead(folio);
     713             : 
     714     1474113 :         if (blk_cgroup_congested())
     715             :                 return;
     716             : 
     717     1474015 :         ondemand_readahead(ractl, folio, req_count);
     718             : }
     719             : EXPORT_SYMBOL_GPL(page_cache_async_ra);
     720             : 
     721      238269 : ssize_t ksys_readahead(int fd, loff_t offset, size_t count)
     722             : {
     723      238269 :         ssize_t ret;
     724      238269 :         struct fd f;
     725             : 
     726      238269 :         ret = -EBADF;
     727      238269 :         f = fdget(fd);
     728      238269 :         if (!f.file || !(f.file->f_mode & FMODE_READ))
     729           0 :                 goto out;
     730             : 
     731             :         /*
     732             :          * The readahead() syscall is intended to run only on files
     733             :          * that can execute readahead. If readahead is not possible
     734             :          * on this file, then we must return -EINVAL.
     735             :          */
     736      238269 :         ret = -EINVAL;
     737      238269 :         if (!f.file->f_mapping || !f.file->f_mapping->a_ops ||
     738      238269 :             !S_ISREG(file_inode(f.file)->i_mode))
     739      238269 :                 goto out;
     740             : 
     741           0 :         ret = vfs_fadvise(f.file, offset, count, POSIX_FADV_WILLNEED);
     742      238269 : out:
     743      238269 :         fdput(f);
     744      238269 :         return ret;
     745             : }
     746             : 
     747      476538 : SYSCALL_DEFINE3(readahead, int, fd, loff_t, offset, size_t, count)
     748             : {
     749      238269 :         return ksys_readahead(fd, offset, count);
     750             : }
     751             : 
     752             : #if defined(CONFIG_COMPAT) && defined(__ARCH_WANT_COMPAT_READAHEAD)
     753             : COMPAT_SYSCALL_DEFINE4(readahead, int, fd, compat_arg_u64_dual(offset), size_t, count)
     754             : {
     755             :         return ksys_readahead(fd, compat_arg_u64_glue(offset), count);
     756             : }
     757             : #endif
     758             : 
     759             : /**
     760             :  * readahead_expand - Expand a readahead request
     761             :  * @ractl: The request to be expanded
     762             :  * @new_start: The revised start
     763             :  * @new_len: The revised size of the request
     764             :  *
     765             :  * Attempt to expand a readahead request outwards from the current size to the
     766             :  * specified size by inserting locked pages before and after the current window
     767             :  * to increase the size to the new window.  This may involve the insertion of
     768             :  * THPs, in which case the window may get expanded even beyond what was
     769             :  * requested.
     770             :  *
     771             :  * The algorithm will stop if it encounters a conflicting page already in the
     772             :  * pagecache and leave a smaller expansion than requested.
     773             :  *
     774             :  * The caller must check for this by examining the revised @ractl object for a
     775             :  * different expansion than was requested.
     776             :  */
     777           0 : void readahead_expand(struct readahead_control *ractl,
     778             :                       loff_t new_start, size_t new_len)
     779             : {
     780           0 :         struct address_space *mapping = ractl->mapping;
     781           0 :         struct file_ra_state *ra = ractl->ra;
     782           0 :         pgoff_t new_index, new_nr_pages;
     783           0 :         gfp_t gfp_mask = readahead_gfp_mask(mapping);
     784             : 
     785           0 :         new_index = new_start / PAGE_SIZE;
     786             : 
     787             :         /* Expand the leading edge downwards */
     788           0 :         while (ractl->_index > new_index) {
     789           0 :                 unsigned long index = ractl->_index - 1;
     790           0 :                 struct folio *folio = xa_load(&mapping->i_pages, index);
     791             : 
     792           0 :                 if (folio && !xa_is_value(folio))
     793             :                         return; /* Folio apparently present */
     794             : 
     795           0 :                 folio = filemap_alloc_folio(gfp_mask, 0);
     796           0 :                 if (!folio)
     797             :                         return;
     798           0 :                 if (filemap_add_folio(mapping, folio, index, gfp_mask) < 0) {
     799           0 :                         folio_put(folio);
     800           0 :                         return;
     801             :                 }
     802           0 :                 if (unlikely(folio_test_workingset(folio)) &&
     803           0 :                                 !ractl->_workingset) {
     804           0 :                         ractl->_workingset = true;
     805           0 :                         psi_memstall_enter(&ractl->_pflags);
     806             :                 }
     807           0 :                 ractl->_nr_pages++;
     808           0 :                 ractl->_index = folio->index;
     809             :         }
     810             : 
     811           0 :         new_len += new_start - readahead_pos(ractl);
     812           0 :         new_nr_pages = DIV_ROUND_UP(new_len, PAGE_SIZE);
     813             : 
     814             :         /* Expand the trailing edge upwards */
     815           0 :         while (ractl->_nr_pages < new_nr_pages) {
     816           0 :                 unsigned long index = ractl->_index + ractl->_nr_pages;
     817           0 :                 struct folio *folio = xa_load(&mapping->i_pages, index);
     818             : 
     819           0 :                 if (folio && !xa_is_value(folio))
     820             :                         return; /* Folio apparently present */
     821             : 
     822           0 :                 folio = filemap_alloc_folio(gfp_mask, 0);
     823           0 :                 if (!folio)
     824             :                         return;
     825           0 :                 if (filemap_add_folio(mapping, folio, index, gfp_mask) < 0) {
     826           0 :                         folio_put(folio);
     827           0 :                         return;
     828             :                 }
     829           0 :                 if (unlikely(folio_test_workingset(folio)) &&
     830           0 :                                 !ractl->_workingset) {
     831           0 :                         ractl->_workingset = true;
     832           0 :                         psi_memstall_enter(&ractl->_pflags);
     833             :                 }
     834           0 :                 ractl->_nr_pages++;
     835           0 :                 if (ra) {
     836           0 :                         ra->size++;
     837           0 :                         ra->async_size++;
     838             :                 }
     839             :         }
     840             : }
     841             : EXPORT_SYMBOL(readahead_expand);

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