xref: /linux/Documentation/filesystems/iomap/operations.rst (revision 8e1bb4a41aa78d6105e59186af3dcd545fc66e70)
1.. SPDX-License-Identifier: GPL-2.0
2.. _iomap_operations:
3
4..
5        Dumb style notes to maintain the author's sanity:
6        Please try to start sentences on separate lines so that
7        sentence changes don't bleed colors in diff.
8        Heading decorations are documented in sphinx.rst.
9
10=========================
11Supported File Operations
12=========================
13
14.. contents:: Table of Contents
15   :local:
16
17Below are a discussion of the high level file operations that iomap
18implements.
19
20Buffered I/O
21============
22
23Buffered I/O is the default file I/O path in Linux.
24File contents are cached in memory ("pagecache") to satisfy reads and
25writes.
26Dirty cache will be written back to disk at some point that can be
27forced via ``fsync`` and variants.
28
29iomap implements nearly all the folio and pagecache management that
30filesystems have to implement themselves under the legacy I/O model.
31This means that the filesystem need not know the details of allocating,
32mapping, managing uptodate and dirty state, or writeback of pagecache
33folios.
34Under the legacy I/O model, this was managed very inefficiently with
35linked lists of buffer heads instead of the per-folio bitmaps that iomap
36uses.
37Unless the filesystem explicitly opts in to buffer heads, they will not
38be used, which makes buffered I/O much more efficient, and the pagecache
39maintainer much happier.
40
41``struct address_space_operations``
42-----------------------------------
43
44The following iomap functions can be referenced directly from the
45address space operations structure:
46
47 * ``iomap_dirty_folio``
48 * ``iomap_release_folio``
49 * ``iomap_invalidate_folio``
50 * ``iomap_is_partially_uptodate``
51
52The following address space operations can be wrapped easily:
53
54 * ``read_folio``
55 * ``readahead``
56 * ``writepages``
57 * ``bmap``
58 * ``swap_activate``
59
60``struct iomap_folio_ops``
61--------------------------
62
63The ``->iomap_begin`` function for pagecache operations may set the
64``struct iomap::folio_ops`` field to an ops structure to override
65default behaviors of iomap:
66
67.. code-block:: c
68
69 struct iomap_folio_ops {
70     struct folio *(*get_folio)(struct iomap_iter *iter, loff_t pos,
71                                unsigned len);
72     void (*put_folio)(struct inode *inode, loff_t pos, unsigned copied,
73                       struct folio *folio);
74     bool (*iomap_valid)(struct inode *inode, const struct iomap *iomap);
75 };
76
77iomap calls these functions:
78
79  - ``get_folio``: Called to allocate and return an active reference to
80    a locked folio prior to starting a write.
81    If this function is not provided, iomap will call
82    ``iomap_get_folio``.
83    This could be used to `set up per-folio filesystem state
84    <https://lore.kernel.org/all/20190429220934.10415-5-agruenba@redhat.com/>`_
85    for a write.
86
87  - ``put_folio``: Called to unlock and put a folio after a pagecache
88    operation completes.
89    If this function is not provided, iomap will ``folio_unlock`` and
90    ``folio_put`` on its own.
91    This could be used to `commit per-folio filesystem state
92    <https://lore.kernel.org/all/20180619164137.13720-6-hch@lst.de/>`_
93    that was set up by ``->get_folio``.
94
95  - ``iomap_valid``: The filesystem may not hold locks between
96    ``->iomap_begin`` and ``->iomap_end`` because pagecache operations
97    can take folio locks, fault on userspace pages, initiate writeback
98    for memory reclamation, or engage in other time-consuming actions.
99    If a file's space mapping data are mutable, it is possible that the
100    mapping for a particular pagecache folio can `change in the time it
101    takes
102    <https://lore.kernel.org/all/20221123055812.747923-8-david@fromorbit.com/>`_
103    to allocate, install, and lock that folio.
104
105    For the pagecache, races can happen if writeback doesn't take
106    ``i_rwsem`` or ``invalidate_lock`` and updates mapping information.
107    Races can also happen if the filesytem allows concurrent writes.
108    For such files, the mapping *must* be revalidated after the folio
109    lock has been taken so that iomap can manage the folio correctly.
110
111    fsdax does not need this revalidation because there's no writeback
112    and no support for unwritten extents.
113
114    Filesystems subject to this kind of race must provide a
115    ``->iomap_valid`` function to decide if the mapping is still valid.
116    If the mapping is not valid, the mapping will be sampled again.
117
118    To support making the validity decision, the filesystem's
119    ``->iomap_begin`` function may set ``struct iomap::validity_cookie``
120    at the same time that it populates the other iomap fields.
121    A simple validation cookie implementation is a sequence counter.
122    If the filesystem bumps the sequence counter every time it modifies
123    the inode's extent map, it can be placed in the ``struct
124    iomap::validity_cookie`` during ``->iomap_begin``.
125    If the value in the cookie is found to be different to the value
126    the filesystem holds when the mapping is passed back to
127    ``->iomap_valid``, then the iomap should considered stale and the
128    validation failed.
129
130These ``struct kiocb`` flags are significant for buffered I/O with iomap:
131
132 * ``IOCB_NOWAIT``: Turns on ``IOMAP_NOWAIT``.
133
134Internal per-Folio State
135------------------------
136
137If the fsblock size matches the size of a pagecache folio, it is assumed
138that all disk I/O operations will operate on the entire folio.
139The uptodate (memory contents are at least as new as what's on disk) and
140dirty (memory contents are newer than what's on disk) status of the
141folio are all that's needed for this case.
142
143If the fsblock size is less than the size of a pagecache folio, iomap
144tracks the per-fsblock uptodate and dirty state itself.
145This enables iomap to handle both "bs < ps" `filesystems
146<https://lore.kernel.org/all/20230725122932.144426-1-ritesh.list@gmail.com/>`_
147and large folios in the pagecache.
148
149iomap internally tracks two state bits per fsblock:
150
151 * ``uptodate``: iomap will try to keep folios fully up to date.
152   If there are read(ahead) errors, those fsblocks will not be marked
153   uptodate.
154   The folio itself will be marked uptodate when all fsblocks within the
155   folio are uptodate.
156
157 * ``dirty``: iomap will set the per-block dirty state when programs
158   write to the file.
159   The folio itself will be marked dirty when any fsblock within the
160   folio is dirty.
161
162iomap also tracks the amount of read and write disk IOs that are in
163flight.
164This structure is much lighter weight than ``struct buffer_head``
165because there is only one per folio, and the per-fsblock overhead is two
166bits vs. 104 bytes.
167
168Filesystems wishing to turn on large folios in the pagecache should call
169``mapping_set_large_folios`` when initializing the incore inode.
170
171Buffered Readahead and Reads
172----------------------------
173
174The ``iomap_readahead`` function initiates readahead to the pagecache.
175The ``iomap_read_folio`` function reads one folio's worth of data into
176the pagecache.
177The ``flags`` argument to ``->iomap_begin`` will be set to zero.
178The pagecache takes whatever locks it needs before calling the
179filesystem.
180
181Buffered Writes
182---------------
183
184The ``iomap_file_buffered_write`` function writes an ``iocb`` to the
185pagecache.
186``IOMAP_WRITE`` or ``IOMAP_WRITE`` | ``IOMAP_NOWAIT`` will be passed as
187the ``flags`` argument to ``->iomap_begin``.
188Callers commonly take ``i_rwsem`` in either shared or exclusive mode
189before calling this function.
190
191mmap Write Faults
192~~~~~~~~~~~~~~~~~
193
194The ``iomap_page_mkwrite`` function handles a write fault to a folio in
195the pagecache.
196``IOMAP_WRITE | IOMAP_FAULT`` will be passed as the ``flags`` argument
197to ``->iomap_begin``.
198Callers commonly take the mmap ``invalidate_lock`` in shared or
199exclusive mode before calling this function.
200
201Buffered Write Failures
202~~~~~~~~~~~~~~~~~~~~~~~
203
204After a short write to the pagecache, the areas not written will not
205become marked dirty.
206The filesystem must arrange to `cancel
207<https://lore.kernel.org/all/20221123055812.747923-6-david@fromorbit.com/>`_
208such `reservations
209<https://lore.kernel.org/linux-xfs/20220817093627.GZ3600936@dread.disaster.area/>`_
210because writeback will not consume the reservation.
211The ``iomap_file_buffered_write_punch_delalloc`` can be called from a
212``->iomap_end`` function to find all the clean areas of the folios
213caching a fresh (``IOMAP_F_NEW``) delalloc mapping.
214It takes the ``invalidate_lock``.
215
216The filesystem must supply a function ``punch`` to be called for
217each file range in this state.
218This function must *only* remove delayed allocation reservations, in
219case another thread racing with the current thread writes successfully
220to the same region and triggers writeback to flush the dirty data out to
221disk.
222
223Zeroing for File Operations
224~~~~~~~~~~~~~~~~~~~~~~~~~~~
225
226Filesystems can call ``iomap_zero_range`` to perform zeroing of the
227pagecache for non-truncation file operations that are not aligned to
228the fsblock size.
229``IOMAP_ZERO`` will be passed as the ``flags`` argument to
230``->iomap_begin``.
231Callers typically hold ``i_rwsem`` and ``invalidate_lock`` in exclusive
232mode before calling this function.
233
234Unsharing Reflinked File Data
235~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
236
237Filesystems can call ``iomap_file_unshare`` to force a file sharing
238storage with another file to preemptively copy the shared data to newly
239allocate storage.
240``IOMAP_WRITE | IOMAP_UNSHARE`` will be passed as the ``flags`` argument
241to ``->iomap_begin``.
242Callers typically hold ``i_rwsem`` and ``invalidate_lock`` in exclusive
243mode before calling this function.
244
245Truncation
246----------
247
248Filesystems can call ``iomap_truncate_page`` to zero the bytes in the
249pagecache from EOF to the end of the fsblock during a file truncation
250operation.
251``truncate_setsize`` or ``truncate_pagecache`` will take care of
252everything after the EOF block.
253``IOMAP_ZERO`` will be passed as the ``flags`` argument to
254``->iomap_begin``.
255Callers typically hold ``i_rwsem`` and ``invalidate_lock`` in exclusive
256mode before calling this function.
257
258Pagecache Writeback
259-------------------
260
261Filesystems can call ``iomap_writepages`` to respond to a request to
262write dirty pagecache folios to disk.
263The ``mapping`` and ``wbc`` parameters should be passed unchanged.
264The ``wpc`` pointer should be allocated by the filesystem and must
265be initialized to zero.
266
267The pagecache will lock each folio before trying to schedule it for
268writeback.
269It does not lock ``i_rwsem`` or ``invalidate_lock``.
270
271The dirty bit will be cleared for all folios run through the
272``->map_blocks`` machinery described below even if the writeback fails.
273This is to prevent dirty folio clots when storage devices fail; an
274``-EIO`` is recorded for userspace to collect via ``fsync``.
275
276The ``ops`` structure must be specified and is as follows:
277
278``struct iomap_writeback_ops``
279~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
280
281.. code-block:: c
282
283 struct iomap_writeback_ops {
284     int (*map_blocks)(struct iomap_writepage_ctx *wpc, struct inode *inode,
285                       loff_t offset, unsigned len);
286     int (*prepare_ioend)(struct iomap_ioend *ioend, int status);
287     void (*discard_folio)(struct folio *folio, loff_t pos);
288 };
289
290The fields are as follows:
291
292  - ``map_blocks``: Sets ``wpc->iomap`` to the space mapping of the file
293    range (in bytes) given by ``offset`` and ``len``.
294    iomap calls this function for each dirty fs block in each dirty folio,
295    though it will `reuse mappings
296    <https://lore.kernel.org/all/20231207072710.176093-15-hch@lst.de/>`_
297    for runs of contiguous dirty fsblocks within a folio.
298    Do not return ``IOMAP_INLINE`` mappings here; the ``->iomap_end``
299    function must deal with persisting written data.
300    Do not return ``IOMAP_DELALLOC`` mappings here; iomap currently
301    requires mapping to allocated space.
302    Filesystems can skip a potentially expensive mapping lookup if the
303    mappings have not changed.
304    This revalidation must be open-coded by the filesystem; it is
305    unclear if ``iomap::validity_cookie`` can be reused for this
306    purpose.
307    This function must be supplied by the filesystem.
308
309  - ``prepare_ioend``: Enables filesystems to transform the writeback
310    ioend or perform any other preparatory work before the writeback I/O
311    is submitted.
312    This might include pre-write space accounting updates, or installing
313    a custom ``->bi_end_io`` function for internal purposes, such as
314    deferring the ioend completion to a workqueue to run metadata update
315    transactions from process context.
316    This function is optional.
317
318  - ``discard_folio``: iomap calls this function after ``->map_blocks``
319    fails to schedule I/O for any part of a dirty folio.
320    The function should throw away any reservations that may have been
321    made for the write.
322    The folio will be marked clean and an ``-EIO`` recorded in the
323    pagecache.
324    Filesystems can use this callback to `remove
325    <https://lore.kernel.org/all/20201029163313.1766967-1-bfoster@redhat.com/>`_
326    delalloc reservations to avoid having delalloc reservations for
327    clean pagecache.
328    This function is optional.
329
330Pagecache Writeback Completion
331~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
332
333To handle the bookkeeping that must happen after disk I/O for writeback
334completes, iomap creates chains of ``struct iomap_ioend`` objects that
335wrap the ``bio`` that is used to write pagecache data to disk.
336By default, iomap finishes writeback ioends by clearing the writeback
337bit on the folios attached to the ``ioend``.
338If the write failed, it will also set the error bits on the folios and
339the address space.
340This can happen in interrupt or process context, depending on the
341storage device.
342
343Filesystems that need to update internal bookkeeping (e.g. unwritten
344extent conversions) should provide a ``->prepare_ioend`` function to
345set ``struct iomap_end::bio::bi_end_io`` to its own function.
346This function should call ``iomap_finish_ioends`` after finishing its
347own work (e.g. unwritten extent conversion).
348
349Some filesystems may wish to `amortize the cost of running metadata
350transactions
351<https://lore.kernel.org/all/20220120034733.221737-1-david@fromorbit.com/>`_
352for post-writeback updates by batching them.
353They may also require transactions to run from process context, which
354implies punting batches to a workqueue.
355iomap ioends contain a ``list_head`` to enable batching.
356
357Given a batch of ioends, iomap has a few helpers to assist with
358amortization:
359
360 * ``iomap_sort_ioends``: Sort all the ioends in the list by file
361   offset.
362
363 * ``iomap_ioend_try_merge``: Given an ioend that is not in any list and
364   a separate list of sorted ioends, merge as many of the ioends from
365   the head of the list into the given ioend.
366   ioends can only be merged if the file range and storage addresses are
367   contiguous; the unwritten and shared status are the same; and the
368   write I/O outcome is the same.
369   The merged ioends become their own list.
370
371 * ``iomap_finish_ioends``: Finish an ioend that possibly has other
372   ioends linked to it.
373
374Direct I/O
375==========
376
377In Linux, direct I/O is defined as file I/O that is issued directly to
378storage, bypassing the pagecache.
379The ``iomap_dio_rw`` function implements O_DIRECT (direct I/O) reads and
380writes for files.
381
382.. code-block:: c
383
384 ssize_t iomap_dio_rw(struct kiocb *iocb, struct iov_iter *iter,
385                      const struct iomap_ops *ops,
386                      const struct iomap_dio_ops *dops,
387                      unsigned int dio_flags, void *private,
388                      size_t done_before);
389
390The filesystem can provide the ``dops`` parameter if it needs to perform
391extra work before or after the I/O is issued to storage.
392The ``done_before`` parameter tells the how much of the request has
393already been transferred.
394It is used to continue a request asynchronously when `part of the
395request
396<https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=c03098d4b9ad76bca2966a8769dcfe59f7f85103>`_
397has already been completed synchronously.
398
399The ``done_before`` parameter should be set if writes for the ``iocb``
400have been initiated prior to the call.
401The direction of the I/O is determined from the ``iocb`` passed in.
402
403The ``dio_flags`` argument can be set to any combination of the
404following values:
405
406 * ``IOMAP_DIO_FORCE_WAIT``: Wait for the I/O to complete even if the
407   kiocb is not synchronous.
408
409 * ``IOMAP_DIO_OVERWRITE_ONLY``: Perform a pure overwrite for this range
410   or fail with ``-EAGAIN``.
411   This can be used by filesystems with complex unaligned I/O
412   write paths to provide an optimised fast path for unaligned writes.
413   If a pure overwrite can be performed, then serialisation against
414   other I/Os to the same filesystem block(s) is unnecessary as there is
415   no risk of stale data exposure or data loss.
416   If a pure overwrite cannot be performed, then the filesystem can
417   perform the serialisation steps needed to provide exclusive access
418   to the unaligned I/O range so that it can perform allocation and
419   sub-block zeroing safely.
420   Filesystems can use this flag to try to reduce locking contention,
421   but a lot of `detailed checking
422   <https://lore.kernel.org/linux-ext4/20230314130759.642710-1-bfoster@redhat.com/>`_
423   is required to do it `correctly
424   <https://lore.kernel.org/linux-ext4/20230810165559.946222-1-bfoster@redhat.com/>`_.
425
426 * ``IOMAP_DIO_PARTIAL``: If a page fault occurs, return whatever
427   progress has already been made.
428   The caller may deal with the page fault and retry the operation.
429   If the caller decides to retry the operation, it should pass the
430   accumulated return values of all previous calls as the
431   ``done_before`` parameter to the next call.
432
433These ``struct kiocb`` flags are significant for direct I/O with iomap:
434
435 * ``IOCB_NOWAIT``: Turns on ``IOMAP_NOWAIT``.
436
437 * ``IOCB_SYNC``: Ensure that the device has persisted data to disk
438   before completing the call.
439   In the case of pure overwrites, the I/O may be issued with FUA
440   enabled.
441
442 * ``IOCB_HIPRI``: Poll for I/O completion instead of waiting for an
443   interrupt.
444   Only meaningful for asynchronous I/O, and only if the entire I/O can
445   be issued as a single ``struct bio``.
446
447 * ``IOCB_DIO_CALLER_COMP``: Try to run I/O completion from the caller's
448   process context.
449   See ``linux/fs.h`` for more details.
450
451Filesystems should call ``iomap_dio_rw`` from ``->read_iter`` and
452``->write_iter``, and set ``FMODE_CAN_ODIRECT`` in the ``->open``
453function for the file.
454They should not set ``->direct_IO``, which is deprecated.
455
456If a filesystem wishes to perform its own work before direct I/O
457completion, it should call ``__iomap_dio_rw``.
458If its return value is not an error pointer or a NULL pointer, the
459filesystem should pass the return value to ``iomap_dio_complete`` after
460finishing its internal work.
461
462Return Values
463-------------
464
465``iomap_dio_rw`` can return one of the following:
466
467 * A non-negative number of bytes transferred.
468
469 * ``-ENOTBLK``: Fall back to buffered I/O.
470   iomap itself will return this value if it cannot invalidate the page
471   cache before issuing the I/O to storage.
472   The ``->iomap_begin`` or ``->iomap_end`` functions may also return
473   this value.
474
475 * ``-EIOCBQUEUED``: The asynchronous direct I/O request has been
476   queued and will be completed separately.
477
478 * Any of the other negative error codes.
479
480Direct Reads
481------------
482
483A direct I/O read initiates a read I/O from the storage device to the
484caller's buffer.
485Dirty parts of the pagecache are flushed to storage before initiating
486the read io.
487The ``flags`` value for ``->iomap_begin`` will be ``IOMAP_DIRECT`` with
488any combination of the following enhancements:
489
490 * ``IOMAP_NOWAIT``, as defined previously.
491
492Callers commonly hold ``i_rwsem`` in shared mode before calling this
493function.
494
495Direct Writes
496-------------
497
498A direct I/O write initiates a write I/O to the storage device from the
499caller's buffer.
500Dirty parts of the pagecache are flushed to storage before initiating
501the write io.
502The pagecache is invalidated both before and after the write io.
503The ``flags`` value for ``->iomap_begin`` will be ``IOMAP_DIRECT |
504IOMAP_WRITE`` with any combination of the following enhancements:
505
506 * ``IOMAP_NOWAIT``, as defined previously.
507
508 * ``IOMAP_OVERWRITE_ONLY``: Allocating blocks and zeroing partial
509   blocks is not allowed.
510   The entire file range must map to a single written or unwritten
511   extent.
512   The file I/O range must be aligned to the filesystem block size
513   if the mapping is unwritten and the filesystem cannot handle zeroing
514   the unaligned regions without exposing stale contents.
515
516Callers commonly hold ``i_rwsem`` in shared or exclusive mode before
517calling this function.
518
519``struct iomap_dio_ops:``
520-------------------------
521.. code-block:: c
522
523 struct iomap_dio_ops {
524     void (*submit_io)(const struct iomap_iter *iter, struct bio *bio,
525                       loff_t file_offset);
526     int (*end_io)(struct kiocb *iocb, ssize_t size, int error,
527                   unsigned flags);
528     struct bio_set *bio_set;
529 };
530
531The fields of this structure are as follows:
532
533  - ``submit_io``: iomap calls this function when it has constructed a
534    ``struct bio`` object for the I/O requested, and wishes to submit it
535    to the block device.
536    If no function is provided, ``submit_bio`` will be called directly.
537    Filesystems that would like to perform additional work before (e.g.
538    data replication for btrfs) should implement this function.
539
540  - ``end_io``: This is called after the ``struct bio`` completes.
541    This function should perform post-write conversions of unwritten
542    extent mappings, handle write failures, etc.
543    The ``flags`` argument may be set to a combination of the following:
544
545    * ``IOMAP_DIO_UNWRITTEN``: The mapping was unwritten, so the ioend
546      should mark the extent as written.
547
548    * ``IOMAP_DIO_COW``: Writing to the space in the mapping required a
549      copy on write operation, so the ioend should switch mappings.
550
551  - ``bio_set``: This allows the filesystem to provide a custom bio_set
552    for allocating direct I/O bios.
553    This enables filesystems to `stash additional per-bio information
554    <https://lore.kernel.org/all/20220505201115.937837-3-hch@lst.de/>`_
555    for private use.
556    If this field is NULL, generic ``struct bio`` objects will be used.
557
558Filesystems that want to perform extra work after an I/O completion
559should set a custom ``->bi_end_io`` function via ``->submit_io``.
560Afterwards, the custom endio function must call
561``iomap_dio_bio_end_io`` to finish the direct I/O.
562
563DAX I/O
564=======
565
566Some storage devices can be directly mapped as memory.
567These devices support a new access mode known as "fsdax" that allows
568loads and stores through the CPU and memory controller.
569
570fsdax Reads
571-----------
572
573A fsdax read performs a memcpy from storage device to the caller's
574buffer.
575The ``flags`` value for ``->iomap_begin`` will be ``IOMAP_DAX`` with any
576combination of the following enhancements:
577
578 * ``IOMAP_NOWAIT``, as defined previously.
579
580Callers commonly hold ``i_rwsem`` in shared mode before calling this
581function.
582
583fsdax Writes
584------------
585
586A fsdax write initiates a memcpy to the storage device from the caller's
587buffer.
588The ``flags`` value for ``->iomap_begin`` will be ``IOMAP_DAX |
589IOMAP_WRITE`` with any combination of the following enhancements:
590
591 * ``IOMAP_NOWAIT``, as defined previously.
592
593 * ``IOMAP_OVERWRITE_ONLY``: The caller requires a pure overwrite to be
594   performed from this mapping.
595   This requires the filesystem extent mapping to already exist as an
596   ``IOMAP_MAPPED`` type and span the entire range of the write I/O
597   request.
598   If the filesystem cannot map this request in a way that allows the
599   iomap infrastructure to perform a pure overwrite, it must fail the
600   mapping operation with ``-EAGAIN``.
601
602Callers commonly hold ``i_rwsem`` in exclusive mode before calling this
603function.
604
605fsdax mmap Faults
606~~~~~~~~~~~~~~~~~
607
608The ``dax_iomap_fault`` function handles read and write faults to fsdax
609storage.
610For a read fault, ``IOMAP_DAX | IOMAP_FAULT`` will be passed as the
611``flags`` argument to ``->iomap_begin``.
612For a write fault, ``IOMAP_DAX | IOMAP_FAULT | IOMAP_WRITE`` will be
613passed as the ``flags`` argument to ``->iomap_begin``.
614
615Callers commonly hold the same locks as they do to call their iomap
616pagecache counterparts.
617
618fsdax Truncation, fallocate, and Unsharing
619------------------------------------------
620
621For fsdax files, the following functions are provided to replace their
622iomap pagecache I/O counterparts.
623The ``flags`` argument to ``->iomap_begin`` are the same as the
624pagecache counterparts, with ``IOMAP_DAX`` added.
625
626 * ``dax_file_unshare``
627 * ``dax_zero_range``
628 * ``dax_truncate_page``
629
630Callers commonly hold the same locks as they do to call their iomap
631pagecache counterparts.
632
633fsdax Deduplication
634-------------------
635
636Filesystems implementing the ``FIDEDUPERANGE`` ioctl must call the
637``dax_remap_file_range_prep`` function with their own iomap read ops.
638
639Seeking Files
640=============
641
642iomap implements the two iterating whence modes of the ``llseek`` system
643call.
644
645SEEK_DATA
646---------
647
648The ``iomap_seek_data`` function implements the SEEK_DATA "whence" value
649for llseek.
650``IOMAP_REPORT`` will be passed as the ``flags`` argument to
651``->iomap_begin``.
652
653For unwritten mappings, the pagecache will be searched.
654Regions of the pagecache with a folio mapped and uptodate fsblocks
655within those folios will be reported as data areas.
656
657Callers commonly hold ``i_rwsem`` in shared mode before calling this
658function.
659
660SEEK_HOLE
661---------
662
663The ``iomap_seek_hole`` function implements the SEEK_HOLE "whence" value
664for llseek.
665``IOMAP_REPORT`` will be passed as the ``flags`` argument to
666``->iomap_begin``.
667
668For unwritten mappings, the pagecache will be searched.
669Regions of the pagecache with no folio mapped, or a !uptodate fsblock
670within a folio will be reported as sparse hole areas.
671
672Callers commonly hold ``i_rwsem`` in shared mode before calling this
673function.
674
675Swap File Activation
676====================
677
678The ``iomap_swapfile_activate`` function finds all the base-page aligned
679regions in a file and sets them up as swap space.
680The file will be ``fsync()``'d before activation.
681``IOMAP_REPORT`` will be passed as the ``flags`` argument to
682``->iomap_begin``.
683All mappings must be mapped or unwritten; cannot be dirty or shared, and
684cannot span multiple block devices.
685Callers must hold ``i_rwsem`` in exclusive mode; this is already
686provided by ``swapon``.
687
688File Space Mapping Reporting
689============================
690
691iomap implements two of the file space mapping system calls.
692
693FS_IOC_FIEMAP
694-------------
695
696The ``iomap_fiemap`` function exports file extent mappings to userspace
697in the format specified by the ``FS_IOC_FIEMAP`` ioctl.
698``IOMAP_REPORT`` will be passed as the ``flags`` argument to
699``->iomap_begin``.
700Callers commonly hold ``i_rwsem`` in shared mode before calling this
701function.
702
703FIBMAP (deprecated)
704-------------------
705
706``iomap_bmap`` implements FIBMAP.
707The calling conventions are the same as for FIEMAP.
708This function is only provided to maintain compatibility for filesystems
709that implemented FIBMAP prior to conversion.
710This ioctl is deprecated; do **not** add a FIBMAP implementation to
711filesystems that do not have it.
712Callers should probably hold ``i_rwsem`` in shared mode before calling
713this function, but this is unclear.
714