HTree

Short description: Tree data structure for directory indexing

An HTree is a specialized tree data structure for directory indexing, similar to a B-tree. They are constant depth of either one or two levels, have a high fanout factor, use a hash of the filename, and do not require balancing.^[1] The HTree algorithm is distinguished from standard B-tree methods by its treatment of hash collisions, which may overflow across multiple leaf and index blocks. HTree indexes are used in the ext3 and ext4 Linux filesystems, and were incorporated into the Linux kernel around 2.5.40.^[2] HTree indexing improved the scalability of Linux ext2 based filesystems from a practical limit of a few thousand files, into the range of tens of millions of files per directory.

History

The HTree index data structure and algorithm were developed by Daniel Phillips in 2000 and implemented for the ext2 filesystem in February 2001. A port to the ext3 filesystem by Christopher Li and Andrew Morton in 2002 during the 2.5 kernel series added journal based crash consistency. With minor improvements, HTree continues to be used in ext4 in the Linux 3.x.x kernel series.

Use

ext2 HTree indexes were originally developed for ext2 but the patch never made it to the official branch. The dir_index feature can be enabled when creating an ext2 filesystem, but the ext2 code won't act on it.
ext3 HTree indexes are available in ext3 when the dir_index feature is enabled.
ext4 HTree indexes are turned on by default in ext4. This feature is implemented in Linux kernel 2.6.23. HTree indexes is also used for file extents when a file needs more than the 4 extents stored in the inode. The large_dir feature of ext4 is implemented in Linux kernel 4.13.

PHTree

PHTree (Physically stable HTree) is a derivation intended as a successor.^[3]^{[unreliable source?]} It fixes all the known issues with HTree except for write multiplication.^{[citation needed]} It is used in the Tux3 filesystem.^[4]

References

↑ Mingming Cao. "Directory indexing". Features found in Linux 2.6. https://www.kernel.org/doc/ols/2005/ols2005v1-pages-77-104.pdf.
↑ tytso@mit.edu. "Add ext3 indexed directory (htree) support". https://lwn.net/Articles/11481/.
↑ "PHTree design refresh". 4 January 2013. http://phunq.net/pipermail/tux3/2013-January/000026.html.
↑ "Tux3 Versioning Filesystem". http://tux3.org/design.html.

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Original source: https://en.wikipedia.org/wiki/HTree. Read more

[1] Mingming Cao. "Directory indexing". Features found in Linux 2.6. https://www.kernel.org/doc/ols/2005/ols2005v1-pages-77-104.pdf.

[2] tytso@mit.edu. "Add ext3 indexed directory (htree) support". https://lwn.net/Articles/11481/.

[3] "PHTree design refresh". 4 January 2013. http://phunq.net/pipermail/tux3/2013-January/000026.html.

[4] "Tux3 Versioning Filesystem". http://tux3.org/design.html.

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v t e Tree data structures
Search trees (dynamic sets/associative arrays)	2–3 2–3–4 AA (a,b) AVL B B+ B* B^x (Optimal) Binary search Dancing HTree Interval Order statistic (Left-leaning) Red-black Scapegoat Splay T Treap UB Weight-balanced
Heaps	Binary Binomial Brodal Fibonacci Leftist Pairing Skew van Emde Boas Weak
Tries	Ctrie C-trie (compressed ADT) Hash Radix Suffix Ternary search X-fast Y-fast
Spatial data partitioning trees	Ball BK BSP Cartesian Hilbert R k-d (implicit k-d) M Metric MVP Octree Priority R Quad R R+ R* Segment VP X
Other trees	Cover Exponential Fenwick Finger Fractal tree index Fusion Hash calendar iDistance K-ary Left-child right-sibling Link/cut Log-structured merge Merkle PQ Range SPQR Top

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