Documentation/core-api/gfp_mask-from-fs-io.rst
Source file repositories/reference/linux-study-clean/Documentation/core-api/gfp_mask-from-fs-io.rst
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- Linux kernel
- Corpus path
Documentation/core-api/gfp_mask-from-fs-io.rst- Extension
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- 3154 bytes
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- 71
- Domain
- Support Tooling And Documentation
- Bucket
- Documentation
- Inferred role
- Support Tooling And Documentation: documentation
- Status
- atlas-only
Why This File Exists
Repository support layer: documentation, build tooling, samples, user-space helper tools, generated initramfs support, licenses, and validation utilities.
- Repository support layer: documentation, build tooling, samples, user-space helper tools, generated initramfs support, licenses, and validation utilities.
- Allocates kernel memory; connect allocation flags and lifetime to context constraints.
Dependency Surface
- No C-style include directives detected by the generator.
Detected Declarations
- No top-level syscall, struct, function, initcall, or export declaration detected by the generator.
Annotated Snippet
.. _gfp_mask_from_fs_io:
=================================
GFP masks used from FS/IO context
=================================
:Date: May, 2018
:Author: Michal Hocko <mhocko@kernel.org>
Introduction
============
Code paths in the filesystem and IO stacks must be careful when
allocating memory to prevent recursion deadlocks caused by direct
memory reclaim calling back into the FS or IO paths and blocking on
already held resources (e.g. locks - most commonly those used for the
transaction context).
The traditional way to avoid this deadlock problem is to clear __GFP_FS
respectively __GFP_IO (note the latter implies clearing the first as well) in
the gfp mask when calling an allocator. GFP_NOFS respectively GFP_NOIO can be
used as shortcut. It turned out though that above approach has led to
abuses when the restricted gfp mask is used "just in case" without a
deeper consideration which leads to problems because an excessive use
of GFP_NOFS/GFP_NOIO can lead to memory over-reclaim or other memory
reclaim issues.
New API
========
Since 4.12 we do have a generic scope API for both NOFS and NOIO context
``memalloc_nofs_save``, ``memalloc_nofs_restore`` respectively ``memalloc_noio_save``,
``memalloc_noio_restore`` which allow to mark a scope to be a critical
section from a filesystem or I/O point of view. Any allocation from that
scope will inherently drop __GFP_FS respectively __GFP_IO from the given
mask so no memory allocation can recurse back in the FS/IO.
.. kernel-doc:: include/linux/sched/mm.h
:functions: memalloc_nofs_save memalloc_nofs_restore
.. kernel-doc:: include/linux/sched/mm.h
:functions: memalloc_noio_save memalloc_noio_restore
FS/IO code then simply calls the appropriate save function before
any critical section with respect to the reclaim is started - e.g.
lock shared with the reclaim context or when a transaction context
nesting would be possible via reclaim. The restore function should be
called when the critical section ends. All that ideally along with an
explanation what is the reclaim context for easier maintenance.
Please note that the proper pairing of save/restore functions
allows nesting so it is safe to call ``memalloc_noio_save`` or
``memalloc_noio_restore`` respectively from an existing NOIO or NOFS
scope.
What about __vmalloc(GFP_NOFS)
==============================
Since v5.17, and specifically after the commit 451769ebb7e79 ("mm/vmalloc:
alloc GFP_NO{FS,IO} for vmalloc"), GFP_NOFS/GFP_NOIO are now supported in
``[k]vmalloc`` by implicitly using scope API.
In earlier kernels ``vmalloc`` didn't support GFP_NOFS semantic because there
were hardcoded GFP_KERNEL allocations deep inside the allocator. That means
that calling ``vmalloc`` with GFP_NOFS/GFP_NOIO was almost always a bug.
In the ideal world, upper layers should already mark dangerous contexts
and so no special care is required and ``vmalloc`` should be called without any
problems. Sometimes if the context is not really clear or there are layering
violations then the recommended way around that (on pre-v5.17 kernels) is to
wrap ``vmalloc`` by the scope API with a comment explaining the problem.
Annotation
- Atlas domain: Support Tooling And Documentation / Documentation.
- Implementation status: atlas-only.
Implementation Notes
- This generated page is the file-by-file coverage layer; curated subsystem chapters should link here when they synthesize a multi-file control flow.
- Core OS pages should be promoted from atlas-only to deep-reviewed when they explain data structures, invariants, locking, lifecycle, and C implementation snippets.
- Driver-family pages are intentionally pattern-oriented unless they are part of the selected PCIe/NVMe representative device path.