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Add new directory and move ther all exisisting documentation meant for developers. Signed-off-by: David Sterba <dsterba@suse.com>
112 lines
4.0 KiB
ReStructuredText
112 lines
4.0 KiB
ReStructuredText
Btrees
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======
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Btrees Introduction
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-------------------
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Btrfs uses a single set of btree manipulation code for all metadata in
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the filesystem. For performance or organizational purposes, the trees
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are broken up into a few different types, and each type of tree will
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hold a few different types of keys. The super block holds pointers to
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the tree roots of the tree of tree roots and the chunk tree.
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Tree of Tree roots
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------------------
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This tree is used for indexing and finding the root of most of the other
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trees in the filesystem. It attaches names to subvolumes and snapshots,
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and stores the location of the extent allocation tree root. It also
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stores pointers to all of the subvolumes or snapshots that are being
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deleted by the transaction code. This allows the deletion to pick up
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where it left off after a crash.
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Chunk Tree
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----------
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The chunk tree does all of the logical to physical block address mapping
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for the filesystem, and it stores information about all of the devices
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in the FS. In order to bootstrap lookup in the chunk tree, the super
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block also duplicates the chunk items needed to resolve blocks in the
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chunk tree. Over time, the chunk tree will be split into multiple roots
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to allow access of larger storage pools.
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There are back references from the chunk items to the extent tree that
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allocated them. Only a single extent tree can allocate extents out of a
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given chunk.
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Two types of key are stored in the chunk tree:
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- DEV_ITEM (where the offset field is the internal devid), which
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contain information on all of the underlying block devices in the
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filesystem
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- CHUNK_ITEM (where the offset field is the start of the chunk as a
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virtual address), which maps a section of the virtual address space
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(a chunk) into physical storage.
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Device Allocation Tree
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----------------------
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The device allocation tree records which parts of each physical device
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have been allocated into chunks. This is a relatively small tree that is
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only updated as new chunks are allocated. It stores back references to
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the chunk tree that allocated each physical extent on the device.
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Extent Allocation Tree
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----------------------
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The extent allocation tree records byte ranges that are in use,
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maintains reference counts on each extent and records back references to
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the tree or file that is using each extent. Logical block groups are
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created inside the extent allocation tree, and these reference large
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logical extents from the chunk tree.
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Each block group can only store a specific type of extent. This might
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include metadata, or mirrored metadata, or striped data blocks etc.
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Currently there is only one extent allocation tree shared by all the
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other trees. This will change in order to scale better under load.
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Keys for the extent tree use the start of the extent as the objectid. A BLOCK_GROUP_ITEM key will be followed by the EXTENT_ITEM keys for extents within that block group.
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FS Trees
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--------
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These store files and directories, and all of the normal metadata you
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would expect to find in a filesystem. There is one root for each
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subvolume or snapshot, but snapshots will share blocks between roots.
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Keys in FS trees always use the inode number of the filesystem object as the objectid.
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Each object will have one or more of:
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- Inode.
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- Inode ref, indicating what name this object is known as, and in which
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directory.
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- For files, a set of extent information, indicating where on the
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filesystem this file's data is.
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- For directories, two sequences of dir_items, one indexed by a hash of
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the object name, and one indexed by a unique sequential index number.
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Checksum Tree
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-------------
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The checksum tree stores block checksums. Every 4k block of data stored
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on disk has a checksum associated with it. The "offset" part of the keys
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in the checksum tree indicates the start of the checksummed data on
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disk. The value stored with the key is a sequence of (currently 4-byte)
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checksums, for the 4k blocks starting at the offset.
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Data Relocation Tree
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--------------------
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Log Root Tree
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-------------
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