restic/internal/index/indexmap.go
Michael Eischer b217f38ee7 index: Remove pointers from within indexentrys
The indexEntry objects are now allocated in a separate array. References
to an indexEntry are now stored as array indices. This has the benefit
of allowing the garbage collector to ignore the indexEntry objects as
these do not contain pointers and are part of a single large allocation.
2023-05-29 00:24:15 +02:00

162 lines
3.6 KiB
Go

package index
import (
"hash/maphash"
"github.com/restic/restic/internal/restic"
)
// An indexMap is a chained hash table that maps blob IDs to indexEntries.
// It allows storing multiple entries with the same key.
//
// IndexMap uses some optimizations that are not compatible with supporting
// deletions.
//
// The buckets in this hash table contain only pointers, rather than inlined
// key-value pairs like the standard Go map. This way, only a pointer array
// needs to be resized when the table grows, preventing memory usage spikes.
type indexMap struct {
// The number of buckets is always a power of two and never zero.
buckets []uint
numentries uint
mh maphash.Hash
blockList []indexEntry
}
const (
growthFactor = 2 // Must be a power of 2.
maxLoad = 4 // Max. number of entries per bucket.
)
// add inserts an indexEntry for the given arguments into the map,
// using id as the key.
func (m *indexMap) add(id restic.ID, packIdx int, offset, length uint32, uncompressedLength uint32) {
switch {
case m.numentries == 0: // Lazy initialization.
m.init()
case m.numentries >= maxLoad*uint(len(m.buckets)):
m.grow()
}
h := m.hash(id)
e, idx := m.newEntry()
e.id = id
e.next = m.buckets[h] // Prepend to existing chain.
e.packIndex = packIdx
e.offset = offset
e.length = length
e.uncompressedLength = uncompressedLength
m.buckets[h] = idx
m.numentries++
}
// foreach calls fn for all entries in the map, until fn returns false.
func (m *indexMap) foreach(fn func(*indexEntry) bool) {
for _, ei := range m.buckets {
for ei != 0 {
e := m.resolve(ei)
if !fn(e) {
return
}
ei = e.next
}
}
}
// foreachWithID calls fn for all entries with the given id.
func (m *indexMap) foreachWithID(id restic.ID, fn func(*indexEntry)) {
if len(m.buckets) == 0 {
return
}
h := m.hash(id)
ei := m.buckets[h]
for ei != 0 {
e := m.resolve(ei)
ei = e.next
if e.id != id {
continue
}
fn(e)
}
}
// get returns the first entry for the given id.
func (m *indexMap) get(id restic.ID) *indexEntry {
if len(m.buckets) == 0 {
return nil
}
h := m.hash(id)
ei := m.buckets[h]
for ei != 0 {
e := m.resolve(ei)
if e.id == id {
return e
}
ei = e.next
}
return nil
}
func (m *indexMap) grow() {
old := m.buckets
m.buckets = make([]uint, growthFactor*len(m.buckets))
for _, ei := range old {
for ei != 0 {
e := m.resolve(ei)
h := m.hash(e.id)
next := e.next
e.next = m.buckets[h]
m.buckets[h] = ei
ei = next
}
}
}
func (m *indexMap) hash(id restic.ID) uint {
// We use maphash to prevent backups of specially crafted inputs
// from degrading performance.
// While SHA-256 should be collision-resistant, for hash table indices
// we use only a few bits of it and finding collisions for those is
// much easier than breaking the whole algorithm.
m.mh.Reset()
_, _ = m.mh.Write(id[:])
h := uint(m.mh.Sum64())
return h & uint(len(m.buckets)-1)
}
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)
}
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
}
func (m *indexMap) resolve(idx uint) *indexEntry {
return &m.blockList[idx]
}
type indexEntry struct {
id restic.ID
next uint
packIndex int // Position in containing Index's packs field.
offset uint32
length uint32
uncompressedLength uint32
}