mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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263 lines
6.9 KiB
Go
263 lines
6.9 KiB
Go
// Copyright 2018 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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"encoding/binary"
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"sort"
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"unsafe"
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"github.com/cockroachdb/pebble/internal/base"
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)
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type rawBlockWriter struct {
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blockWriter
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}
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func (w *rawBlockWriter) add(key InternalKey, value []byte) {
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w.curKey, w.prevKey = w.prevKey, w.curKey
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size := len(key.UserKey)
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if cap(w.curKey) < size {
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w.curKey = make([]byte, 0, size*2)
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}
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w.curKey = w.curKey[:size]
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copy(w.curKey, key.UserKey)
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w.storeWithOptionalValuePrefix(
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size, value, len(key.UserKey), false, 0, false)
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}
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// rawBlockIter is an iterator over a single block of data. Unlike blockIter,
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// keys are stored in "raw" format (i.e. not as internal keys). Note that there
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// is significant similarity between this code and the code in blockIter. Yet
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// reducing duplication is difficult due to the blockIter being performance
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// critical. rawBlockIter must only be used for blocks where the value is
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// stored together with the key.
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type rawBlockIter struct {
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cmp Compare
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offset int32
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nextOffset int32
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restarts int32
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numRestarts int32
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ptr unsafe.Pointer
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data []byte
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key, val []byte
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ikey InternalKey
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cached []blockEntry
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cachedBuf []byte
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}
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func newRawBlockIter(cmp Compare, block block) (*rawBlockIter, error) {
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i := &rawBlockIter{}
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return i, i.init(cmp, block)
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}
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func (i *rawBlockIter) init(cmp Compare, block block) error {
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numRestarts := int32(binary.LittleEndian.Uint32(block[len(block)-4:]))
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if numRestarts == 0 {
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return base.CorruptionErrorf("pebble/table: invalid table (block has no restart points)")
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}
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i.cmp = cmp
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i.restarts = int32(len(block)) - 4*(1+numRestarts)
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i.numRestarts = numRestarts
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i.ptr = unsafe.Pointer(&block[0])
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i.data = block
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if i.key == nil {
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i.key = make([]byte, 0, 256)
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} else {
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i.key = i.key[:0]
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}
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i.val = nil
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i.clearCache()
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return nil
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}
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func (i *rawBlockIter) readEntry() {
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ptr := unsafe.Pointer(uintptr(i.ptr) + uintptr(i.offset))
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shared, ptr := decodeVarint(ptr)
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unshared, ptr := decodeVarint(ptr)
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value, ptr := decodeVarint(ptr)
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i.key = append(i.key[:shared], getBytes(ptr, int(unshared))...)
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i.key = i.key[:len(i.key):len(i.key)]
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ptr = unsafe.Pointer(uintptr(ptr) + uintptr(unshared))
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i.val = getBytes(ptr, int(value))
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i.nextOffset = int32(uintptr(ptr)-uintptr(i.ptr)) + int32(value)
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}
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func (i *rawBlockIter) loadEntry() {
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i.readEntry()
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i.ikey.UserKey = i.key
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}
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func (i *rawBlockIter) clearCache() {
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i.cached = i.cached[:0]
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i.cachedBuf = i.cachedBuf[:0]
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}
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func (i *rawBlockIter) cacheEntry() {
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var valStart int32
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valSize := int32(len(i.val))
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if valSize > 0 {
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valStart = int32(uintptr(unsafe.Pointer(&i.val[0])) - uintptr(i.ptr))
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}
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i.cached = append(i.cached, blockEntry{
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offset: i.offset,
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keyStart: int32(len(i.cachedBuf)),
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keyEnd: int32(len(i.cachedBuf) + len(i.key)),
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valStart: valStart,
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valSize: valSize,
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})
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i.cachedBuf = append(i.cachedBuf, i.key...)
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}
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// SeekGE implements internalIterator.SeekGE, as documented in the pebble
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// package.
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func (i *rawBlockIter) SeekGE(key []byte) bool {
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// Find the index of the smallest restart point whose key is > the key
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// sought; index will be numRestarts if there is no such restart point.
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i.offset = 0
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index := sort.Search(int(i.numRestarts), func(j int) bool {
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offset := int32(binary.LittleEndian.Uint32(i.data[int(i.restarts)+4*j:]))
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// For a restart point, there are 0 bytes shared with the previous key.
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// The varint encoding of 0 occupies 1 byte.
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ptr := unsafe.Pointer(uintptr(i.ptr) + uintptr(offset+1))
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// Decode the key at that restart point, and compare it to the key sought.
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v1, ptr := decodeVarint(ptr)
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_, ptr = decodeVarint(ptr)
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s := getBytes(ptr, int(v1))
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return i.cmp(key, s) < 0
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})
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// Since keys are strictly increasing, if index > 0 then the restart point at
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// index-1 will be the largest whose key is <= the key sought. If index ==
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// 0, then all keys in this block are larger than the key sought, and offset
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// remains at zero.
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if index > 0 {
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i.offset = int32(binary.LittleEndian.Uint32(i.data[int(i.restarts)+4*(index-1):]))
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}
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i.loadEntry()
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// Iterate from that restart point to somewhere >= the key sought.
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for valid := i.Valid(); valid; valid = i.Next() {
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if i.cmp(key, i.key) <= 0 {
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break
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}
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}
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return i.Valid()
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}
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// First implements internalIterator.First, as documented in the pebble
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// package.
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func (i *rawBlockIter) First() bool {
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i.offset = 0
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i.loadEntry()
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return i.Valid()
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}
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// Last implements internalIterator.Last, as documented in the pebble package.
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func (i *rawBlockIter) Last() bool {
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// Seek forward from the last restart point.
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i.offset = int32(binary.LittleEndian.Uint32(i.data[i.restarts+4*(i.numRestarts-1):]))
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i.readEntry()
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i.clearCache()
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i.cacheEntry()
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for i.nextOffset < i.restarts {
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i.offset = i.nextOffset
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i.readEntry()
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i.cacheEntry()
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}
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i.ikey.UserKey = i.key
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return i.Valid()
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}
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// Next implements internalIterator.Next, as documented in the pebble
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// package.
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func (i *rawBlockIter) Next() bool {
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i.offset = i.nextOffset
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if !i.Valid() {
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return false
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}
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i.loadEntry()
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return true
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}
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// Prev implements internalIterator.Prev, as documented in the pebble
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// package.
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func (i *rawBlockIter) Prev() bool {
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if n := len(i.cached) - 1; n > 0 && i.cached[n].offset == i.offset {
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i.nextOffset = i.offset
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e := &i.cached[n-1]
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i.offset = e.offset
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i.val = getBytes(unsafe.Pointer(uintptr(i.ptr)+uintptr(e.valStart)), int(e.valSize))
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i.ikey.UserKey = i.cachedBuf[e.keyStart:e.keyEnd]
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i.cached = i.cached[:n]
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return true
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}
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if i.offset == 0 {
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i.offset = -1
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i.nextOffset = 0
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return false
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}
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targetOffset := i.offset
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index := sort.Search(int(i.numRestarts), func(j int) bool {
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offset := int32(binary.LittleEndian.Uint32(i.data[int(i.restarts)+4*j:]))
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return offset >= targetOffset
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})
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i.offset = 0
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if index > 0 {
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i.offset = int32(binary.LittleEndian.Uint32(i.data[int(i.restarts)+4*(index-1):]))
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}
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i.readEntry()
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i.clearCache()
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i.cacheEntry()
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for i.nextOffset < targetOffset {
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i.offset = i.nextOffset
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i.readEntry()
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i.cacheEntry()
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}
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i.ikey.UserKey = i.key
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return true
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}
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// Key implements internalIterator.Key, as documented in the pebble package.
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func (i *rawBlockIter) Key() InternalKey {
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return i.ikey
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}
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// Value implements internalIterator.Value, as documented in the pebble
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// package.
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func (i *rawBlockIter) Value() []byte {
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return i.val
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}
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// Valid implements internalIterator.Valid, as documented in the pebble
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// package.
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func (i *rawBlockIter) Valid() bool {
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return i.offset >= 0 && i.offset < i.restarts
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}
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// Error implements internalIterator.Error, as documented in the pebble
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// package.
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func (i *rawBlockIter) Error() error {
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return nil
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}
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// Close implements internalIterator.Close, as documented in the pebble
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// package.
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func (i *rawBlockIter) Close() error {
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i.val = nil
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return nil
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}
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