xref: /linux/Documentation/filesystems/iomap/porting.rst (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
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2.. _iomap_porting:
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10=======================
11Porting Your Filesystem
12=======================
13
14.. contents:: Table of Contents
15   :local:
16
17Why Convert?
18============
19
20There are several reasons to convert a filesystem to iomap:
21
22 1. The classic Linux I/O path is not terribly efficient.
23    Pagecache operations lock a single base page at a time and then call
24    into the filesystem to return a mapping for only that page.
25    Direct I/O operations build I/O requests a single file block at a
26    time.
27    This worked well enough for direct/indirect-mapped filesystems such
28    as ext2, but is very inefficient for extent-based filesystems such
29    as XFS.
30
31 2. Large folios are only supported via iomap; there are no plans to
32    convert the old buffer_head path to use them.
33
34 3. Direct access to storage on memory-like devices (fsdax) is only
35    supported via iomap.
36
37 4. Lower maintenance overhead for individual filesystem maintainers.
38    iomap handles common pagecache related operations itself, such as
39    allocating, instantiating, locking, and unlocking of folios.
40    No ->write_begin(), ->write_end() or direct_IO
41    address_space_operations are required to be implemented by
42    filesystem using iomap.
43
44How Do I Convert a Filesystem?
45==============================
46
47First, add ``#include <linux/iomap.h>`` from your source code and add
48``select FS_IOMAP`` to your filesystem's Kconfig option.
49Build the kernel, run fstests with the ``-g all`` option across a wide
50variety of your filesystem's supported configurations to build a
51baseline of which tests pass and which ones fail.
52
53The recommended approach is first to implement ``->iomap_begin`` (and
54``->iomap_end`` if necessary) to allow iomap to obtain a read-only
55mapping of a file range.
56In most cases, this is a relatively trivial conversion of the existing
57``get_block()`` function for read-only mappings.
58``FS_IOC_FIEMAP`` is a good first target because it is trivial to
59implement support for it and then to determine that the extent map
60iteration is correct from userspace.
61If FIEMAP is returning the correct information, it's a good sign that
62other read-only mapping operations will do the right thing.
63
64Next, modify the filesystem's ``get_block(create = false)``
65implementation to use the new ``->iomap_begin`` implementation to map
66file space for selected read operations.
67Hide behind a debugging knob the ability to switch on the iomap mapping
68functions for selected call paths.
69It is necessary to write some code to fill out the bufferhead-based
70mapping information from the ``iomap`` structure, but the new functions
71can be tested without needing to implement any iomap APIs.
72
73Once the read-only functions are working like this, convert each high
74level file operation one by one to use iomap native APIs instead of
75going through ``get_block()``.
76Done one at a time, regressions should be self evident.
77You *do* have a regression test baseline for fstests, right?
78It is suggested to convert swap file activation, ``SEEK_DATA``, and
79``SEEK_HOLE`` before tackling the I/O paths.
80A likely complexity at this point will be converting the buffered read
81I/O path because of bufferheads.
82The buffered read I/O paths doesn't need to be converted yet, though the
83direct I/O read path should be converted in this phase.
84
85At this point, you should look over your ``->iomap_begin`` function.
86If it switches between large blocks of code based on dispatching of the
87``flags`` argument, you should consider breaking it up into
88per-operation iomap ops with smaller, more cohesive functions.
89XFS is a good example of this.
90
91The next thing to do is implement ``get_blocks(create == true)``
92functionality in the ``->iomap_begin``/``->iomap_end`` methods.
93It is strongly recommended to create separate mapping functions and
94iomap ops for write operations.
95Then convert the direct I/O write path to iomap, and start running fsx
96w/ DIO enabled in earnest on filesystem.
97This will flush out lots of data integrity corner case bugs that the new
98write mapping implementation introduces.
99
100Now, convert any remaining file operations to call the iomap functions.
101This will get the entire filesystem using the new mapping functions, and
102they should largely be debugged and working correctly after this step.
103
104Most likely at this point, the buffered read and write paths will still
105need to be converted.
106The mapping functions should all work correctly, so all that needs to be
107done is rewriting all the code that interfaces with bufferheads to
108interface with iomap and folios.
109It is much easier first to get regular file I/O (without any fancy
110features like fscrypt, fsverity, compression, or data=journaling)
111converted to use iomap.
112Some of those fancy features (fscrypt and compression) aren't
113implemented yet in iomap.
114For unjournalled filesystems that use the pagecache for symbolic links
115and directories, you might also try converting their handling to iomap.
116
117The rest is left as an exercise for the reader, as it will be different
118for every filesystem.
119If you encounter problems, email the people and lists in
120``get_maintainers.pl`` for help.
121