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mirror of https://github.com/octoleo/restic.git synced 2024-12-22 10:58:55 +00:00

index: store indexEntries in hashed array tree

This data structure reduces the wasted memory to O(sqrt(n)). The
top-layer of the hashed array tree (HAT) also has a size of O(sqrt(n)),
which makes it cache efficient. The top-layer should be small enough to
easily fit into the CPU cache and thus only adds little overhead
compared to directly accessing an index entry via a pointer.
This commit is contained in:
Michael Eischer 2023-05-28 23:42:47 +02:00
parent b217f38ee7
commit fed33295c3

View File

@ -1,6 +1,7 @@
package index
import (
"fmt"
"hash/maphash"
"github.com/restic/restic/internal/restic"
@ -22,7 +23,7 @@ type indexMap struct {
mh maphash.Hash
blockList []indexEntry
blockList hashedArrayTree
}
const (
@ -134,22 +135,18 @@ func (m *indexMap) init() {
const initialBuckets = 64
m.buckets = make([]uint, initialBuckets)
// first entry in blockList serves as null byte
m.blockList = make([]indexEntry, 1)
m.blockList = *newHAT()
m.newEntry()
}
func (m *indexMap) len() uint { return m.numentries }
func (m *indexMap) newEntry() (*indexEntry, uint) {
m.blockList = append(m.blockList, indexEntry{})
idx := uint(len(m.blockList) - 1)
e := &m.blockList[idx]
return e, idx
return m.blockList.Alloc()
}
func (m *indexMap) resolve(idx uint) *indexEntry {
return &m.blockList[idx]
return m.blockList.Ref(idx)
}
type indexEntry struct {
@ -160,3 +157,82 @@ type indexEntry struct {
length uint32
uncompressedLength uint32
}
type hashedArrayTree struct {
mask uint
maskShift uint
blockSize uint
size uint
blockList [][]indexEntry
}
func newHAT() *hashedArrayTree {
// start with a small block size
blockSizePower := uint(2)
blockSize := uint(1 << blockSizePower)
return &hashedArrayTree{
mask: blockSize - 1,
maskShift: blockSizePower,
blockSize: blockSize,
size: 0,
blockList: make([][]indexEntry, blockSize),
}
}
func (h *hashedArrayTree) Alloc() (*indexEntry, uint) {
h.grow()
size := h.size
idx, subIdx := h.index(size)
h.size++
return &h.blockList[idx][subIdx], size
}
func (h *hashedArrayTree) index(pos uint) (idx uint, subIdx uint) {
subIdx = pos & h.mask
idx = pos >> h.maskShift
return
}
func (h *hashedArrayTree) Ref(pos uint) *indexEntry {
if pos >= h.size {
panic(fmt.Sprintf("array index %d out of bounds %d", pos, h.size))
}
idx, subIdx := h.index(pos)
return &h.blockList[idx][subIdx]
}
func (h *hashedArrayTree) Size() uint {
return h.size
}
func (h *hashedArrayTree) grow() {
idx, subIdx := h.index(h.size)
if int(idx) == len(h.blockList) {
// blockList is too small -> double list and block size
oldBlocks := h.blockList
h.blockList = make([][]indexEntry, h.blockSize)
h.blockSize *= 2
h.mask = h.mask*2 + 1
h.maskShift++
idx = idx / 2
// pairwise merging of blocks
for i := 0; i < len(oldBlocks); i += 2 {
block := make([]indexEntry, 0, h.blockSize)
block = append(block, oldBlocks[i]...)
block = append(block, oldBlocks[i+1]...)
h.blockList[i/2] = block
// allow GC
oldBlocks[i] = nil
oldBlocks[i+1] = nil
}
}
if subIdx == 0 {
// new index entry batch
h.blockList[idx] = make([]indexEntry, h.blockSize)
}
}