mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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149 lines
4.5 KiB
Go
149 lines
4.5 KiB
Go
// Copyright 2023 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package sstable
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import (
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"github.com/cockroachdb/errors"
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"github.com/cockroachdb/pebble/internal/cache"
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)
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// A bufferHandle is a handle to manually-managed memory. The handle may point
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// to a block in the block cache (h.Get() != nil), or a buffer that exists
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// outside the block cache allocated from a BufferPool (b.Valid()).
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type bufferHandle struct {
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h cache.Handle
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b Buf
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}
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// Get retrieves the underlying buffer referenced by the handle.
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func (bh bufferHandle) Get() []byte {
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if v := bh.h.Get(); v != nil {
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return v
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} else if bh.b.p != nil {
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return bh.b.p.pool[bh.b.i].b
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}
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return nil
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}
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// Release releases the buffer, either back to the block cache or BufferPool.
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func (bh bufferHandle) Release() {
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bh.h.Release()
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bh.b.Release()
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}
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// A BufferPool holds a pool of buffers for holding sstable blocks. An initial
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// size of the pool is provided on Init, but a BufferPool will grow to meet the
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// largest working set size. It'll never shrink. When a buffer is released, the
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// BufferPool recycles the buffer for future allocations.
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//
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// A BufferPool should only be used for short-lived allocations with
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// well-understood working set sizes to avoid excessive memory consumption.
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//
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// BufferPool is not thread-safe.
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type BufferPool struct {
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// pool contains all the buffers held by the pool, including buffers that
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// are in-use. For every i < len(pool): pool[i].v is non-nil.
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pool []allocedBuffer
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}
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type allocedBuffer struct {
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v *cache.Value
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// b holds the current byte slice. It's backed by v, but may be a subslice
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// of v's memory while the buffer is in-use [ len(b) ≤ len(v.Buf()) ].
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//
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// If the buffer is not currently in-use, b is nil. When being recycled, the
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// BufferPool.Alloc will reset b to be a subslice of v.Buf().
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b []byte
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}
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// Init initializes the pool with an initial working set buffer size of
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// `initialSize`.
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func (p *BufferPool) Init(initialSize int) {
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*p = BufferPool{
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pool: make([]allocedBuffer, 0, initialSize),
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}
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}
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// initPreallocated is like Init but for internal sstable package use in
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// instances where a pre-allocated slice of []allocedBuffer already exists. It's
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// used to avoid an extra allocation initializing BufferPool.pool.
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func (p *BufferPool) initPreallocated(pool []allocedBuffer) {
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*p = BufferPool{
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pool: pool[:0],
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}
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}
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// Release releases all buffers held by the pool and resets the pool to an
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// uninitialized state.
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func (p *BufferPool) Release() {
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for i := range p.pool {
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if p.pool[i].b != nil {
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panic(errors.AssertionFailedf("Release called on a BufferPool with in-use buffers"))
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}
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cache.Free(p.pool[i].v)
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}
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*p = BufferPool{}
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}
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// Alloc allocates a new buffer of size n. If the pool already holds a buffer at
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// least as large as n, the pooled buffer is used instead.
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//
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// Alloc is O(MAX(N,M)) where N is the largest number of concurrently in-use
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// buffers allocated and M is the initialSize passed to Init.
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func (p *BufferPool) Alloc(n int) Buf {
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unusableBufferIdx := -1
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for i := 0; i < len(p.pool); i++ {
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if p.pool[i].b == nil {
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if len(p.pool[i].v.Buf()) >= n {
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p.pool[i].b = p.pool[i].v.Buf()[:n]
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return Buf{p: p, i: i}
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}
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unusableBufferIdx = i
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}
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}
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// If we would need to grow the size of the pool to allocate another buffer,
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// but there was a slot available occupied by a buffer that's just too
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// small, replace the too-small buffer.
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if len(p.pool) == cap(p.pool) && unusableBufferIdx >= 0 {
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i := unusableBufferIdx
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cache.Free(p.pool[i].v)
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p.pool[i].v = cache.Alloc(n)
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p.pool[i].b = p.pool[i].v.Buf()
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return Buf{p: p, i: i}
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}
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// Allocate a new buffer.
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v := cache.Alloc(n)
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p.pool = append(p.pool, allocedBuffer{v: v, b: v.Buf()[:n]})
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return Buf{p: p, i: len(p.pool) - 1}
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}
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// A Buf holds a reference to a manually-managed, pooled byte buffer.
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type Buf struct {
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p *BufferPool
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// i holds the index into p.pool where the buffer may be found. This scheme
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// avoids needing to allocate the handle to the buffer on the heap at the
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// cost of copying two words instead of one.
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i int
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}
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// Valid returns true if the buf holds a valid buffer.
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func (b Buf) Valid() bool {
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return b.p != nil
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}
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// Release releases the buffer back to the pool.
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func (b *Buf) Release() {
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if b.p == nil {
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return
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}
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// Clear the allocedBuffer's byte slice. This signals the allocated buffer
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// is no longer in use and a future call to BufferPool.Alloc may reuse this
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// buffer.
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b.p.pool[b.i].b = nil
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b.p = nil
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}
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