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214 lines
8.2 KiB
Go
214 lines
8.2 KiB
Go
// Copyright 2011 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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"context"
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"github.com/cockroachdb/pebble/internal/base"
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"github.com/cockroachdb/pebble/internal/keyspan"
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"github.com/cockroachdb/pebble/internal/manifest"
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)
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// VirtualReader wraps Reader. Its purpose is to restrict functionality of the
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// Reader which should be inaccessible to virtual sstables, and enforce bounds
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// invariants associated with virtual sstables. All reads on virtual sstables
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// should go through a VirtualReader.
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//
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// INVARIANT: Any iterators created through a virtual reader will guarantee that
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// they don't expose keys outside the virtual sstable bounds.
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type VirtualReader struct {
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vState virtualState
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reader *Reader
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Properties CommonProperties
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}
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// Lightweight virtual sstable state which can be passed to sstable iterators.
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type virtualState struct {
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lower InternalKey
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upper InternalKey
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fileNum base.FileNum
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Compare Compare
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isForeign bool
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}
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func ceilDiv(a, b uint64) uint64 {
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return (a + b - 1) / b
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}
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// MakeVirtualReader is used to contruct a reader which can read from virtual
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// sstables.
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func MakeVirtualReader(
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reader *Reader, meta manifest.VirtualFileMeta, isForeign bool,
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) VirtualReader {
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if reader.fileNum != meta.FileBacking.DiskFileNum {
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panic("pebble: invalid call to MakeVirtualReader")
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}
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vState := virtualState{
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lower: meta.Smallest,
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upper: meta.Largest,
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fileNum: meta.FileNum,
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Compare: reader.Compare,
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isForeign: isForeign,
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}
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v := VirtualReader{
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vState: vState,
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reader: reader,
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}
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v.Properties.RawKeySize = ceilDiv(reader.Properties.RawKeySize*meta.Size, meta.FileBacking.Size)
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v.Properties.RawValueSize = ceilDiv(reader.Properties.RawValueSize*meta.Size, meta.FileBacking.Size)
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v.Properties.NumEntries = ceilDiv(reader.Properties.NumEntries*meta.Size, meta.FileBacking.Size)
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v.Properties.NumDeletions = ceilDiv(reader.Properties.NumDeletions*meta.Size, meta.FileBacking.Size)
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v.Properties.NumRangeDeletions = ceilDiv(reader.Properties.NumRangeDeletions*meta.Size, meta.FileBacking.Size)
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v.Properties.NumRangeKeyDels = ceilDiv(reader.Properties.NumRangeKeyDels*meta.Size, meta.FileBacking.Size)
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// Note that we rely on NumRangeKeySets for correctness. If the sstable may
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// contain range keys, then NumRangeKeySets must be > 0. ceilDiv works because
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// meta.Size will not be 0 for virtual sstables.
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v.Properties.NumRangeKeySets = ceilDiv(reader.Properties.NumRangeKeySets*meta.Size, meta.FileBacking.Size)
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v.Properties.ValueBlocksSize = ceilDiv(reader.Properties.ValueBlocksSize*meta.Size, meta.FileBacking.Size)
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v.Properties.NumSizedDeletions = ceilDiv(reader.Properties.NumSizedDeletions*meta.Size, meta.FileBacking.Size)
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v.Properties.RawPointTombstoneKeySize = ceilDiv(reader.Properties.RawPointTombstoneKeySize*meta.Size, meta.FileBacking.Size)
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v.Properties.RawPointTombstoneValueSize = ceilDiv(reader.Properties.RawPointTombstoneValueSize*meta.Size, meta.FileBacking.Size)
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return v
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}
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// NewCompactionIter is the compaction iterator function for virtual readers.
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func (v *VirtualReader) NewCompactionIter(
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bytesIterated *uint64,
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categoryAndQoS CategoryAndQoS,
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statsCollector *CategoryStatsCollector,
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rp ReaderProvider,
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bufferPool *BufferPool,
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) (Iterator, error) {
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return v.reader.newCompactionIter(
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bytesIterated, categoryAndQoS, statsCollector, rp, &v.vState, bufferPool)
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}
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// NewIterWithBlockPropertyFiltersAndContextEtc wraps
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// Reader.NewIterWithBlockPropertyFiltersAndContext. We assume that the passed
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// in [lower, upper) bounds will have at least some overlap with the virtual
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// sstable bounds. No overlap is not currently supported in the iterator.
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func (v *VirtualReader) NewIterWithBlockPropertyFiltersAndContextEtc(
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ctx context.Context,
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lower, upper []byte,
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filterer *BlockPropertiesFilterer,
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hideObsoletePoints, useFilterBlock bool,
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stats *base.InternalIteratorStats,
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categoryAndQoS CategoryAndQoS,
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statsCollector *CategoryStatsCollector,
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rp ReaderProvider,
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) (Iterator, error) {
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return v.reader.newIterWithBlockPropertyFiltersAndContext(
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ctx, lower, upper, filterer, hideObsoletePoints, useFilterBlock, stats,
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categoryAndQoS, statsCollector, rp, &v.vState)
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}
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// ValidateBlockChecksumsOnBacking will call ValidateBlockChecksumsOnBacking on the underlying reader.
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// Note that block checksum validation is NOT restricted to virtual sstable bounds.
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func (v *VirtualReader) ValidateBlockChecksumsOnBacking() error {
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return v.reader.ValidateBlockChecksums()
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}
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// NewRawRangeDelIter wraps Reader.NewRawRangeDelIter.
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func (v *VirtualReader) NewRawRangeDelIter() (keyspan.FragmentIterator, error) {
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iter, err := v.reader.NewRawRangeDelIter()
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if err != nil {
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return nil, err
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}
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if iter == nil {
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return nil, nil
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}
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// Truncation of spans isn't allowed at a user key that also contains points
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// in the same virtual sstable, as it would lead to covered points getting
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// uncovered. Set panicOnUpperTruncate to true if the file's upper bound
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// is not an exclusive sentinel.
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//
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// As an example, if an sstable contains a rangedel a-c and point keys at
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// a.SET.2 and b.SET.3, the file bounds [a#2,SET-b#RANGEDELSENTINEL] are
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// allowed (as they exclude b.SET.3), or [a#2,SET-c#RANGEDELSENTINEL] (as it
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// includes both point keys), but not [a#2,SET-b#3,SET] (as it would truncate
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// the rangedel at b and lead to the point being uncovered).
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return keyspan.Truncate(
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v.reader.Compare, iter, v.vState.lower.UserKey, v.vState.upper.UserKey,
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&v.vState.lower, &v.vState.upper, !v.vState.upper.IsExclusiveSentinel(), /* panicOnUpperTruncate */
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), nil
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}
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// NewRawRangeKeyIter wraps Reader.NewRawRangeKeyIter.
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func (v *VirtualReader) NewRawRangeKeyIter() (keyspan.FragmentIterator, error) {
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iter, err := v.reader.NewRawRangeKeyIter()
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if err != nil {
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return nil, err
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}
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if iter == nil {
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return nil, nil
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}
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// Truncation of spans isn't allowed at a user key that also contains points
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// in the same virtual sstable, as it would lead to covered points getting
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// uncovered. Set panicOnUpperTruncate to true if the file's upper bound
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// is not an exclusive sentinel.
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//
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// As an example, if an sstable contains a range key a-c and point keys at
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// a.SET.2 and b.SET.3, the file bounds [a#2,SET-b#RANGEKEYSENTINEL] are
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// allowed (as they exclude b.SET.3), or [a#2,SET-c#RANGEKEYSENTINEL] (as it
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// includes both point keys), but not [a#2,SET-b#3,SET] (as it would truncate
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// the range key at b and lead to the point being uncovered).
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return keyspan.Truncate(
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v.reader.Compare, iter, v.vState.lower.UserKey, v.vState.upper.UserKey,
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&v.vState.lower, &v.vState.upper, !v.vState.upper.IsExclusiveSentinel(), /* panicOnUpperTruncate */
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), nil
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}
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// Constrain bounds will narrow the start, end bounds if they do not fit within
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// the virtual sstable. The function will return if the new end key is
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// inclusive.
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func (v *virtualState) constrainBounds(
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start, end []byte, endInclusive bool,
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) (lastKeyInclusive bool, first []byte, last []byte) {
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first = start
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if start == nil || v.Compare(start, v.lower.UserKey) < 0 {
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first = v.lower.UserKey
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}
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// Note that we assume that start, end has some overlap with the virtual
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// sstable bounds.
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last = v.upper.UserKey
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lastKeyInclusive = !v.upper.IsExclusiveSentinel()
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if end != nil {
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cmp := v.Compare(end, v.upper.UserKey)
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switch {
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case cmp == 0:
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lastKeyInclusive = !v.upper.IsExclusiveSentinel() && endInclusive
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last = v.upper.UserKey
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case cmp > 0:
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lastKeyInclusive = !v.upper.IsExclusiveSentinel()
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last = v.upper.UserKey
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default:
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lastKeyInclusive = endInclusive
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last = end
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}
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}
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// TODO(bananabrick): What if someone passes in bounds completely outside of
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// virtual sstable bounds?
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return lastKeyInclusive, first, last
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}
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// EstimateDiskUsage just calls VirtualReader.reader.EstimateDiskUsage after
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// enforcing the virtual sstable bounds.
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func (v *VirtualReader) EstimateDiskUsage(start, end []byte) (uint64, error) {
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_, f, l := v.vState.constrainBounds(start, end, true /* endInclusive */)
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return v.reader.EstimateDiskUsage(f, l)
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}
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// CommonProperties implements the CommonReader interface.
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func (v *VirtualReader) CommonProperties() *CommonProperties {
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return &v.Properties
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}
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