Documentation/filesystems/fuse-io.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 ==============
 Fuse I/O Modes
 ==============

 Fuse supports the following I/O modes:

 - direct-io
 - cached
   + write-through
   + writeback-cache

 The direct-io mode can be selected with the FOPEN_DIRECT_IO flag in the
 FUSE_OPEN reply.

 In direct-io mode the page cache is completely bypassed for reads and writes.
 No read-ahead takes place. Shared mmap is disabled.

 In cached mode reads may be satisfied from the page cache, and data may be
 read-ahead by the kernel to fill the cache.  The cache is always kept consistent
 after any writes to the file.  All mmap modes are supported.

 The cached mode has two sub modes controlling how writes are handled.  The
 write-through mode is the default and is supported on all kernels.  The
 writeback-cache mode may be selected by the FUSE_WRITEBACK_CACHE flag in the
 FUSE_INIT reply.

 In write-through mode each write is immediately sent to userspace as one or more
 WRITE requests, as well as updating any cached pages (and caching previously
 uncached, but fully written pages).  No READ requests are ever sent for writes,
 so when an uncached page is partially written, the page is discarded.

 In writeback-cache mode (enabled by the FUSE_WRITEBACK_CACHE flag) writes go to
 the cache only, which means that the write(2) syscall can often complete very
 fast.  Dirty pages are written back implicitly (background writeback or page
 reclaim on memory pressure) or explicitly (invoked by close(2), fsync(2) and
 when the last ref to the file is being released on munmap(2)).  This mode
 assumes that all changes to the filesystem go through the FUSE kernel module
 (size and atime/ctime/mtime attributes are kept up-to-date by the kernel), so
 it's generally not suitable for network filesystems.  If a partial page is
 written, then the page needs to be first read from userspace.  This means, that
 even for files opened for O_WRONLY it is possible that READ requests will be
 generated by the kernel.
	.. SPDX-License-Identifier: GPL-2.0

	==============
	Fuse I/O Modes
	==============

	Fuse supports the following I/O modes:

	- direct-io
	- cached
	+ write-through
	+ writeback-cache

	The direct-io mode can be selected with the FOPEN_DIRECT_IO flag in the
	FUSE_OPEN reply.

	In direct-io mode the page cache is completely bypassed for reads and writes.
	No read-ahead takes place. Shared mmap is disabled.

	In cached mode reads may be satisfied from the page cache, and data may be
	read-ahead by the kernel to fill the cache. The cache is always kept consistent
	after any writes to the file. All mmap modes are supported.

	The cached mode has two sub modes controlling how writes are handled. The
	write-through mode is the default and is supported on all kernels. The
	writeback-cache mode may be selected by the FUSE_WRITEBACK_CACHE flag in the
	FUSE_INIT reply.

	In write-through mode each write is immediately sent to userspace as one or more
	WRITE requests, as well as updating any cached pages (and caching previously
	uncached, but fully written pages). No READ requests are ever sent for writes,
	so when an uncached page is partially written, the page is discarded.

	In writeback-cache mode (enabled by the FUSE_WRITEBACK_CACHE flag) writes go to
	the cache only, which means that the write(2) syscall can often complete very
	fast. Dirty pages are written back implicitly (background writeback or page
	reclaim on memory pressure) or explicitly (invoked by close(2), fsync(2) and
	when the last ref to the file is being released on munmap(2)). This mode
	assumes that all changes to the filesystem go through the FUSE kernel module
	(size and atime/ctime/mtime attributes are kept up-to-date by the kernel), so
	it's generally not suitable for network filesystems. If a partial page is
	written, then the page needs to be first read from userspace. This means, that
	even for files opened for O_WRONLY it is possible that READ requests will be
	generated by the kernel.