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+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.