229 lines
9.5 KiB
Text
229 lines
9.5 KiB
Text
============
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Fiemap Ioctl
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============
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The fiemap ioctl is an efficient method for userspace to get file
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extent mappings. Instead of block-by-block mapping (such as bmap), fiemap
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returns a list of extents.
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Request Basics
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--------------
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A fiemap request is encoded within struct fiemap:
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struct fiemap {
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__u64 fm_start; /* logical offset (inclusive) at
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* which to start mapping (in) */
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__u64 fm_length; /* logical length of mapping which
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* userspace cares about (in) */
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__u32 fm_flags; /* FIEMAP_FLAG_* flags for request (in/out) */
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__u32 fm_mapped_extents; /* number of extents that were
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* mapped (out) */
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__u32 fm_extent_count; /* size of fm_extents array (in) */
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__u32 fm_reserved;
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struct fiemap_extent fm_extents[0]; /* array of mapped extents (out) */
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};
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fm_start, and fm_length specify the logical range within the file
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which the process would like mappings for. Extents returned mirror
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those on disk - that is, the logical offset of the 1st returned extent
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may start before fm_start, and the range covered by the last returned
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extent may end after fm_length. All offsets and lengths are in bytes.
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Certain flags to modify the way in which mappings are looked up can be
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set in fm_flags. If the kernel doesn't understand some particular
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flags, it will return EBADR and the contents of fm_flags will contain
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the set of flags which caused the error. If the kernel is compatible
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with all flags passed, the contents of fm_flags will be unmodified.
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It is up to userspace to determine whether rejection of a particular
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flag is fatal to its operation. This scheme is intended to allow the
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fiemap interface to grow in the future but without losing
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compatibility with old software.
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fm_extent_count specifies the number of elements in the fm_extents[] array
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that can be used to return extents. If fm_extent_count is zero, then the
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fm_extents[] array is ignored (no extents will be returned), and the
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fm_mapped_extents count will hold the number of extents needed in
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fm_extents[] to hold the file's current mapping. Note that there is
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nothing to prevent the file from changing between calls to FIEMAP.
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The following flags can be set in fm_flags:
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* FIEMAP_FLAG_SYNC
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If this flag is set, the kernel will sync the file before mapping extents.
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* FIEMAP_FLAG_XATTR
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If this flag is set, the extents returned will describe the inodes
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extended attribute lookup tree, instead of its data tree.
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Extent Mapping
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--------------
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Extent information is returned within the embedded fm_extents array
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which userspace must allocate along with the fiemap structure. The
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number of elements in the fiemap_extents[] array should be passed via
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fm_extent_count. The number of extents mapped by kernel will be
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returned via fm_mapped_extents. If the number of fiemap_extents
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allocated is less than would be required to map the requested range,
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the maximum number of extents that can be mapped in the fm_extent[]
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array will be returned and fm_mapped_extents will be equal to
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fm_extent_count. In that case, the last extent in the array will not
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complete the requested range and will not have the FIEMAP_EXTENT_LAST
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flag set (see the next section on extent flags).
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Each extent is described by a single fiemap_extent structure as
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returned in fm_extents.
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struct fiemap_extent {
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__u64 fe_logical; /* logical offset in bytes for the start of
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* the extent */
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__u64 fe_physical; /* physical offset in bytes for the start
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* of the extent */
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__u64 fe_length; /* length in bytes for the extent */
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__u64 fe_reserved64[2];
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__u32 fe_flags; /* FIEMAP_EXTENT_* flags for this extent */
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__u32 fe_reserved[3];
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};
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All offsets and lengths are in bytes and mirror those on disk. It is valid
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for an extents logical offset to start before the request or its logical
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length to extend past the request. Unless FIEMAP_EXTENT_NOT_ALIGNED is
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returned, fe_logical, fe_physical, and fe_length will be aligned to the
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block size of the file system. With the exception of extents flagged as
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FIEMAP_EXTENT_MERGED, adjacent extents will not be merged.
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The fe_flags field contains flags which describe the extent returned.
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A special flag, FIEMAP_EXTENT_LAST is always set on the last extent in
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the file so that the process making fiemap calls can determine when no
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more extents are available, without having to call the ioctl again.
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Some flags are intentionally vague and will always be set in the
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presence of other more specific flags. This way a program looking for
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a general property does not have to know all existing and future flags
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which imply that property.
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For example, if FIEMAP_EXTENT_DATA_INLINE or FIEMAP_EXTENT_DATA_TAIL
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are set, FIEMAP_EXTENT_NOT_ALIGNED will also be set. A program looking
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for inline or tail-packed data can key on the specific flag. Software
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which simply cares not to try operating on non-aligned extents
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however, can just key on FIEMAP_EXTENT_NOT_ALIGNED, and not have to
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worry about all present and future flags which might imply unaligned
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data. Note that the opposite is not true - it would be valid for
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FIEMAP_EXTENT_NOT_ALIGNED to appear alone.
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* FIEMAP_EXTENT_LAST
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This is the last extent in the file. A mapping attempt past this
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extent will return nothing.
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* FIEMAP_EXTENT_UNKNOWN
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The location of this extent is currently unknown. This may indicate
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the data is stored on an inaccessible volume or that no storage has
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been allocated for the file yet.
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* FIEMAP_EXTENT_DELALLOC
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- This will also set FIEMAP_EXTENT_UNKNOWN.
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Delayed allocation - while there is data for this extent, its
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physical location has not been allocated yet.
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* FIEMAP_EXTENT_ENCODED
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This extent does not consist of plain filesystem blocks but is
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encoded (e.g. encrypted or compressed). Reading the data in this
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extent via I/O to the block device will have undefined results.
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Note that it is *always* undefined to try to update the data
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in-place by writing to the indicated location without the
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assistance of the filesystem, or to access the data using the
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information returned by the FIEMAP interface while the filesystem
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is mounted. In other words, user applications may only read the
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extent data via I/O to the block device while the filesystem is
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unmounted, and then only if the FIEMAP_EXTENT_ENCODED flag is
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clear; user applications must not try reading or writing to the
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filesystem via the block device under any other circumstances.
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* FIEMAP_EXTENT_DATA_ENCRYPTED
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- This will also set FIEMAP_EXTENT_ENCODED
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The data in this extent has been encrypted by the file system.
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* FIEMAP_EXTENT_NOT_ALIGNED
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Extent offsets and length are not guaranteed to be block aligned.
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* FIEMAP_EXTENT_DATA_INLINE
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This will also set FIEMAP_EXTENT_NOT_ALIGNED
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Data is located within a meta data block.
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* FIEMAP_EXTENT_DATA_TAIL
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This will also set FIEMAP_EXTENT_NOT_ALIGNED
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Data is packed into a block with data from other files.
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* FIEMAP_EXTENT_UNWRITTEN
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Unwritten extent - the extent is allocated but its data has not been
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initialized. This indicates the extent's data will be all zero if read
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through the filesystem but the contents are undefined if read directly from
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the device.
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* FIEMAP_EXTENT_MERGED
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This will be set when a file does not support extents, i.e., it uses a block
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based addressing scheme. Since returning an extent for each block back to
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userspace would be highly inefficient, the kernel will try to merge most
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adjacent blocks into 'extents'.
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VFS -> File System Implementation
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---------------------------------
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File systems wishing to support fiemap must implement a ->fiemap callback on
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their inode_operations structure. The fs ->fiemap call is responsible for
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defining its set of supported fiemap flags, and calling a helper function on
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each discovered extent:
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struct inode_operations {
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...
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int (*fiemap)(struct inode *, struct fiemap_extent_info *, u64 start,
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u64 len);
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->fiemap is passed struct fiemap_extent_info which describes the
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fiemap request:
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struct fiemap_extent_info {
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unsigned int fi_flags; /* Flags as passed from user */
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unsigned int fi_extents_mapped; /* Number of mapped extents */
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unsigned int fi_extents_max; /* Size of fiemap_extent array */
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struct fiemap_extent *fi_extents_start; /* Start of fiemap_extent array */
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};
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It is intended that the file system should not need to access any of this
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structure directly. Filesystem handlers should be tolerant to signals and return
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EINTR once fatal signal received.
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Flag checking should be done at the beginning of the ->fiemap callback via the
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fiemap_check_flags() helper:
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int fiemap_check_flags(struct fiemap_extent_info *fieinfo, u32 fs_flags);
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The struct fieinfo should be passed in as received from ioctl_fiemap(). The
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set of fiemap flags which the fs understands should be passed via fs_flags. If
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fiemap_check_flags finds invalid user flags, it will place the bad values in
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fieinfo->fi_flags and return -EBADR. If the file system gets -EBADR, from
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fiemap_check_flags(), it should immediately exit, returning that error back to
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ioctl_fiemap().
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For each extent in the request range, the file system should call
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the helper function, fiemap_fill_next_extent():
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int fiemap_fill_next_extent(struct fiemap_extent_info *info, u64 logical,
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u64 phys, u64 len, u32 flags, u32 dev);
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fiemap_fill_next_extent() will use the passed values to populate the
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next free extent in the fm_extents array. 'General' extent flags will
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automatically be set from specific flags on behalf of the calling file
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system so that the userspace API is not broken.
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fiemap_fill_next_extent() returns 0 on success, and 1 when the
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user-supplied fm_extents array is full. If an error is encountered
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while copying the extent to user memory, -EFAULT will be returned.
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