mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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503 lines
19 KiB
Go
503 lines
19 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 base // import "github.com/cockroachdb/pebble/internal/base"
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import (
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"encoding/binary"
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"fmt"
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"strconv"
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"strings"
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"github.com/cockroachdb/redact"
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"github.com/cockroachdb/pebble/shims/cmp"
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)
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const (
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// SeqNumZero is the zero sequence number, set by compactions if they can
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// guarantee there are no keys underneath an internal key.
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SeqNumZero = uint64(0)
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// SeqNumStart is the first sequence number assigned to a key. Sequence
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// numbers 1-9 are reserved for potential future use.
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SeqNumStart = uint64(10)
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)
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// InternalKeyKind enumerates the kind of key: a deletion tombstone, a set
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// value, a merged value, etc.
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type InternalKeyKind uint8
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// These constants are part of the file format, and should not be changed.
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const (
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InternalKeyKindDelete InternalKeyKind = 0
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InternalKeyKindSet InternalKeyKind = 1
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InternalKeyKindMerge InternalKeyKind = 2
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InternalKeyKindLogData InternalKeyKind = 3
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//InternalKeyKindColumnFamilyDeletion InternalKeyKind = 4
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//InternalKeyKindColumnFamilyValue InternalKeyKind = 5
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//InternalKeyKindColumnFamilyMerge InternalKeyKind = 6
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// InternalKeyKindSingleDelete (SINGLEDEL) is a performance optimization
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// solely for compactions (to reduce write amp and space amp). Readers other
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// than compactions should treat SINGLEDEL as equivalent to a DEL.
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// Historically, it was simpler for readers other than compactions to treat
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// SINGLEDEL as equivalent to DEL, but as of the introduction of
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// InternalKeyKindSSTableInternalObsoleteBit, this is also necessary for
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// correctness.
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InternalKeyKindSingleDelete InternalKeyKind = 7
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//InternalKeyKindColumnFamilySingleDelete InternalKeyKind = 8
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//InternalKeyKindBeginPrepareXID InternalKeyKind = 9
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//InternalKeyKindEndPrepareXID InternalKeyKind = 10
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//InternalKeyKindCommitXID InternalKeyKind = 11
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//InternalKeyKindRollbackXID InternalKeyKind = 12
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//InternalKeyKindNoop InternalKeyKind = 13
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//InternalKeyKindColumnFamilyRangeDelete InternalKeyKind = 14
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InternalKeyKindRangeDelete InternalKeyKind = 15
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//InternalKeyKindColumnFamilyBlobIndex InternalKeyKind = 16
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//InternalKeyKindBlobIndex InternalKeyKind = 17
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// InternalKeyKindSeparator is a key used for separator / successor keys
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// written to sstable block indexes.
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//
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// NOTE: the RocksDB value has been repurposed. This was done to ensure that
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// keys written to block indexes with value "17" (when 17 happened to be the
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// max value, and InternalKeyKindMax was therefore set to 17), remain stable
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// when new key kinds are supported in Pebble.
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InternalKeyKindSeparator InternalKeyKind = 17
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// InternalKeyKindSetWithDelete keys are SET keys that have met with a
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// DELETE or SINGLEDEL key in a prior compaction. This key kind is
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// specific to Pebble. See
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// https://github.com/cockroachdb/pebble/issues/1255.
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InternalKeyKindSetWithDelete InternalKeyKind = 18
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// InternalKeyKindRangeKeyDelete removes all range keys within a key range.
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// See the internal/rangekey package for more details.
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InternalKeyKindRangeKeyDelete InternalKeyKind = 19
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// InternalKeyKindRangeKeySet and InternalKeyKindRangeUnset represent
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// keys that set and unset values associated with ranges of key
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// space. See the internal/rangekey package for more details.
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InternalKeyKindRangeKeyUnset InternalKeyKind = 20
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InternalKeyKindRangeKeySet InternalKeyKind = 21
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// InternalKeyKindIngestSST is used to distinguish a batch that corresponds to
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// the WAL entry for ingested sstables that are added to the flushable
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// queue. This InternalKeyKind cannot appear, amongst other key kinds in a
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// batch, or in an sstable.
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InternalKeyKindIngestSST InternalKeyKind = 22
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// InternalKeyKindDeleteSized keys behave identically to
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// InternalKeyKindDelete keys, except that they hold an associated uint64
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// value indicating the (len(key)+len(value)) of the shadowed entry the
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// tombstone is expected to delete. This value is used to inform compaction
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// heuristics, but is not required to be accurate for correctness.
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InternalKeyKindDeleteSized InternalKeyKind = 23
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// This maximum value isn't part of the file format. Future extensions may
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// increase this value.
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//
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// When constructing an internal key to pass to DB.Seek{GE,LE},
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// internalKeyComparer sorts decreasing by kind (after sorting increasing by
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// user key and decreasing by sequence number). Thus, use InternalKeyKindMax,
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// which sorts 'less than or equal to' any other valid internalKeyKind, when
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// searching for any kind of internal key formed by a certain user key and
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// seqNum.
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InternalKeyKindMax InternalKeyKind = 23
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// Internal to the sstable format. Not exposed by any sstable iterator.
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// Declared here to prevent definition of valid key kinds that set this bit.
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InternalKeyKindSSTableInternalObsoleteBit InternalKeyKind = 64
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InternalKeyKindSSTableInternalObsoleteMask InternalKeyKind = 191
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// InternalKeyZeroSeqnumMaxTrailer is the largest trailer with a
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// zero sequence number.
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InternalKeyZeroSeqnumMaxTrailer = uint64(255)
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// A marker for an invalid key.
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InternalKeyKindInvalid InternalKeyKind = InternalKeyKindSSTableInternalObsoleteMask
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// InternalKeySeqNumBatch is a bit that is set on batch sequence numbers
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// which prevents those entries from being excluded from iteration.
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InternalKeySeqNumBatch = uint64(1 << 55)
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// InternalKeySeqNumMax is the largest valid sequence number.
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InternalKeySeqNumMax = uint64(1<<56 - 1)
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// InternalKeyRangeDeleteSentinel is the marker for a range delete sentinel
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// key. This sequence number and kind are used for the upper stable boundary
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// when a range deletion tombstone is the largest key in an sstable. This is
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// necessary because sstable boundaries are inclusive, while the end key of a
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// range deletion tombstone is exclusive.
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InternalKeyRangeDeleteSentinel = (InternalKeySeqNumMax << 8) | uint64(InternalKeyKindRangeDelete)
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// InternalKeyBoundaryRangeKey is the marker for a range key boundary. This
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// sequence number and kind are used during interleaved range key and point
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// iteration to allow an iterator to stop at range key start keys where
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// there exists no point key.
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InternalKeyBoundaryRangeKey = (InternalKeySeqNumMax << 8) | uint64(InternalKeyKindRangeKeySet)
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)
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// Assert InternalKeyKindSSTableInternalObsoleteBit > InternalKeyKindMax
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const _ = uint(InternalKeyKindSSTableInternalObsoleteBit - InternalKeyKindMax - 1)
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var internalKeyKindNames = []string{
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InternalKeyKindDelete: "DEL",
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InternalKeyKindSet: "SET",
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InternalKeyKindMerge: "MERGE",
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InternalKeyKindLogData: "LOGDATA",
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InternalKeyKindSingleDelete: "SINGLEDEL",
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InternalKeyKindRangeDelete: "RANGEDEL",
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InternalKeyKindSeparator: "SEPARATOR",
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InternalKeyKindSetWithDelete: "SETWITHDEL",
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InternalKeyKindRangeKeySet: "RANGEKEYSET",
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InternalKeyKindRangeKeyUnset: "RANGEKEYUNSET",
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InternalKeyKindRangeKeyDelete: "RANGEKEYDEL",
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InternalKeyKindIngestSST: "INGESTSST",
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InternalKeyKindDeleteSized: "DELSIZED",
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InternalKeyKindInvalid: "INVALID",
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}
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func (k InternalKeyKind) String() string {
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if int(k) < len(internalKeyKindNames) {
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return internalKeyKindNames[k]
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}
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return fmt.Sprintf("UNKNOWN:%d", k)
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}
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// SafeFormat implements redact.SafeFormatter.
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func (k InternalKeyKind) SafeFormat(w redact.SafePrinter, _ rune) {
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w.Print(redact.SafeString(k.String()))
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}
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// InternalKey is a key used for the in-memory and on-disk partial DBs that
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// make up a pebble DB.
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//
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// It consists of the user key (as given by the code that uses package pebble)
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// followed by 8-bytes of metadata:
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// - 1 byte for the type of internal key: delete or set,
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// - 7 bytes for a uint56 sequence number, in little-endian format.
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type InternalKey struct {
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UserKey []byte
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Trailer uint64
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}
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// InvalidInternalKey is an invalid internal key for which Valid() will return
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// false.
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var InvalidInternalKey = MakeInternalKey(nil, 0, InternalKeyKindInvalid)
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// MakeInternalKey constructs an internal key from a specified user key,
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// sequence number and kind.
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func MakeInternalKey(userKey []byte, seqNum uint64, kind InternalKeyKind) InternalKey {
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return InternalKey{
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UserKey: userKey,
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Trailer: (seqNum << 8) | uint64(kind),
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}
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}
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// MakeTrailer constructs an internal key trailer from the specified sequence
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// number and kind.
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func MakeTrailer(seqNum uint64, kind InternalKeyKind) uint64 {
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return (seqNum << 8) | uint64(kind)
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}
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// MakeSearchKey constructs an internal key that is appropriate for searching
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// for a the specified user key. The search key contain the maximal sequence
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// number and kind ensuring that it sorts before any other internal keys for
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// the same user key.
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func MakeSearchKey(userKey []byte) InternalKey {
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return InternalKey{
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UserKey: userKey,
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Trailer: (InternalKeySeqNumMax << 8) | uint64(InternalKeyKindMax),
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}
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}
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// MakeRangeDeleteSentinelKey constructs an internal key that is a range
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// deletion sentinel key, used as the upper boundary for an sstable when a
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// range deletion is the largest key in an sstable.
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func MakeRangeDeleteSentinelKey(userKey []byte) InternalKey {
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return InternalKey{
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UserKey: userKey,
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Trailer: InternalKeyRangeDeleteSentinel,
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}
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}
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// MakeExclusiveSentinelKey constructs an internal key that is an
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// exclusive sentinel key, used as the upper boundary for an sstable
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// when a ranged key is the largest key in an sstable.
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func MakeExclusiveSentinelKey(kind InternalKeyKind, userKey []byte) InternalKey {
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return InternalKey{
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UserKey: userKey,
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Trailer: (InternalKeySeqNumMax << 8) | uint64(kind),
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}
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}
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var kindsMap = map[string]InternalKeyKind{
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"DEL": InternalKeyKindDelete,
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"SINGLEDEL": InternalKeyKindSingleDelete,
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"RANGEDEL": InternalKeyKindRangeDelete,
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"LOGDATA": InternalKeyKindLogData,
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"SET": InternalKeyKindSet,
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"MERGE": InternalKeyKindMerge,
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"INVALID": InternalKeyKindInvalid,
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"SEPARATOR": InternalKeyKindSeparator,
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"SETWITHDEL": InternalKeyKindSetWithDelete,
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"RANGEKEYSET": InternalKeyKindRangeKeySet,
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"RANGEKEYUNSET": InternalKeyKindRangeKeyUnset,
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"RANGEKEYDEL": InternalKeyKindRangeKeyDelete,
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"INGESTSST": InternalKeyKindIngestSST,
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"DELSIZED": InternalKeyKindDeleteSized,
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}
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// ParseInternalKey parses the string representation of an internal key. The
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// format is <user-key>.<kind>.<seq-num>. If the seq-num starts with a "b" it
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// is marked as a batch-seq-num (i.e. the InternalKeySeqNumBatch bit is set).
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func ParseInternalKey(s string) InternalKey {
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x := strings.Split(s, ".")
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ukey := x[0]
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kind, ok := kindsMap[x[1]]
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if !ok {
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panic(fmt.Sprintf("unknown kind: %q", x[1]))
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}
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j := 0
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if x[2][0] == 'b' {
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j = 1
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}
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seqNum, _ := strconv.ParseUint(x[2][j:], 10, 64)
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if x[2][0] == 'b' {
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seqNum |= InternalKeySeqNumBatch
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}
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return MakeInternalKey([]byte(ukey), seqNum, kind)
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}
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// ParseKind parses the string representation of an internal key kind.
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func ParseKind(s string) InternalKeyKind {
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kind, ok := kindsMap[s]
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if !ok {
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panic(fmt.Sprintf("unknown kind: %q", s))
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}
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return kind
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}
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// InternalTrailerLen is the number of bytes used to encode InternalKey.Trailer.
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const InternalTrailerLen = 8
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// DecodeInternalKey decodes an encoded internal key. See InternalKey.Encode().
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func DecodeInternalKey(encodedKey []byte) InternalKey {
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n := len(encodedKey) - InternalTrailerLen
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var trailer uint64
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if n >= 0 {
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trailer = binary.LittleEndian.Uint64(encodedKey[n:])
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encodedKey = encodedKey[:n:n]
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} else {
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trailer = uint64(InternalKeyKindInvalid)
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encodedKey = nil
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}
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return InternalKey{
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UserKey: encodedKey,
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Trailer: trailer,
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}
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}
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// InternalCompare compares two internal keys using the specified comparison
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// function. For equal user keys, internal keys compare in descending sequence
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// number order. For equal user keys and sequence numbers, internal keys
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// compare in descending kind order (this may happen in practice among range
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// keys).
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func InternalCompare(userCmp Compare, a, b InternalKey) int {
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if x := userCmp(a.UserKey, b.UserKey); x != 0 {
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return x
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}
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// Reverse order for trailer comparison.
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return cmp.Compare(b.Trailer, a.Trailer)
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}
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// Encode encodes the receiver into the buffer. The buffer must be large enough
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// to hold the encoded data. See InternalKey.Size().
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func (k InternalKey) Encode(buf []byte) {
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i := copy(buf, k.UserKey)
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binary.LittleEndian.PutUint64(buf[i:], k.Trailer)
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}
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// EncodeTrailer returns the trailer encoded to an 8-byte array.
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func (k InternalKey) EncodeTrailer() [8]byte {
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var buf [8]byte
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binary.LittleEndian.PutUint64(buf[:], k.Trailer)
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return buf
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}
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// Separator returns a separator key such that k <= x && x < other, where less
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// than is consistent with the Compare function. The buf parameter may be used
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// to store the returned InternalKey.UserKey, though it is valid to pass a
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// nil. See the Separator type for details on separator keys.
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func (k InternalKey) Separator(
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cmp Compare, sep Separator, buf []byte, other InternalKey,
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) InternalKey {
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buf = sep(buf, k.UserKey, other.UserKey)
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if len(buf) <= len(k.UserKey) && cmp(k.UserKey, buf) < 0 {
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// The separator user key is physically shorter than k.UserKey (if it is
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// longer, we'll continue to use "k"), but logically after. Tack on the max
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// sequence number to the shortened user key. Note that we could tack on
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// any sequence number and kind here to create a valid separator key. We
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// use the max sequence number to match the behavior of LevelDB and
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// RocksDB.
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return MakeInternalKey(buf, InternalKeySeqNumMax, InternalKeyKindSeparator)
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}
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return k
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}
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// Successor returns a successor key such that k <= x. A simple implementation
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// may return k unchanged. The buf parameter may be used to store the returned
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// InternalKey.UserKey, though it is valid to pass a nil.
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func (k InternalKey) Successor(cmp Compare, succ Successor, buf []byte) InternalKey {
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buf = succ(buf, k.UserKey)
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if len(buf) <= len(k.UserKey) && cmp(k.UserKey, buf) < 0 {
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// The successor user key is physically shorter that k.UserKey (if it is
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// longer, we'll continue to use "k"), but logically after. Tack on the max
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// sequence number to the shortened user key. Note that we could tack on
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// any sequence number and kind here to create a valid separator key. We
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// use the max sequence number to match the behavior of LevelDB and
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// RocksDB.
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return MakeInternalKey(buf, InternalKeySeqNumMax, InternalKeyKindSeparator)
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}
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return k
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}
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// Size returns the encoded size of the key.
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func (k InternalKey) Size() int {
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return len(k.UserKey) + 8
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}
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// SetSeqNum sets the sequence number component of the key.
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func (k *InternalKey) SetSeqNum(seqNum uint64) {
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k.Trailer = (seqNum << 8) | (k.Trailer & 0xff)
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}
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// SeqNum returns the sequence number component of the key.
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func (k InternalKey) SeqNum() uint64 {
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return k.Trailer >> 8
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}
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// SeqNumFromTrailer returns the sequence number component of a trailer.
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func SeqNumFromTrailer(t uint64) uint64 {
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return t >> 8
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}
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// Visible returns true if the key is visible at the specified snapshot
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// sequence number.
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func (k InternalKey) Visible(snapshot, batchSnapshot uint64) bool {
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return Visible(k.SeqNum(), snapshot, batchSnapshot)
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}
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// Visible returns true if a key with the provided sequence number is visible at
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// the specified snapshot sequence numbers.
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func Visible(seqNum uint64, snapshot, batchSnapshot uint64) bool {
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// There are two snapshot sequence numbers, one for committed keys and one
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// for batch keys. If a seqNum is less than `snapshot`, then seqNum
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// corresponds to a committed key that is visible. If seqNum has its batch
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// bit set, then seqNum corresponds to an uncommitted batch key. Its
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// visible if its snapshot is less than batchSnapshot.
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//
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// There's one complication. The maximal sequence number
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// (`InternalKeySeqNumMax`) is used across Pebble for exclusive sentinel
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// keys and other purposes. The maximal sequence number has its batch bit
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// set, but it can never be < `batchSnapshot`, since there is no expressible
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// larger snapshot. We dictate that the maximal sequence number is always
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// visible.
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return seqNum < snapshot ||
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((seqNum&InternalKeySeqNumBatch) != 0 && seqNum < batchSnapshot) ||
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seqNum == InternalKeySeqNumMax
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}
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// SetKind sets the kind component of the key.
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func (k *InternalKey) SetKind(kind InternalKeyKind) {
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k.Trailer = (k.Trailer &^ 0xff) | uint64(kind)
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}
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// Kind returns the kind component of the key.
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func (k InternalKey) Kind() InternalKeyKind {
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return TrailerKind(k.Trailer)
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}
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// TrailerKind returns the key kind of the key trailer.
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func TrailerKind(trailer uint64) InternalKeyKind {
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return InternalKeyKind(trailer & 0xff)
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}
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// Valid returns true if the key has a valid kind.
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func (k InternalKey) Valid() bool {
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return k.Kind() <= InternalKeyKindMax
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}
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// Clone clones the storage for the UserKey component of the key.
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func (k InternalKey) Clone() InternalKey {
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if len(k.UserKey) == 0 {
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return k
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}
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return InternalKey{
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UserKey: append([]byte(nil), k.UserKey...),
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Trailer: k.Trailer,
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}
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}
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// CopyFrom converts this InternalKey into a clone of the passed-in InternalKey,
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// reusing any space already used for the current UserKey.
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func (k *InternalKey) CopyFrom(k2 InternalKey) {
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k.UserKey = append(k.UserKey[:0], k2.UserKey...)
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k.Trailer = k2.Trailer
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}
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// String returns a string representation of the key.
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func (k InternalKey) String() string {
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return fmt.Sprintf("%s#%d,%d", FormatBytes(k.UserKey), k.SeqNum(), k.Kind())
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}
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// Pretty returns a formatter for the key.
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func (k InternalKey) Pretty(f FormatKey) fmt.Formatter {
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return prettyInternalKey{k, f}
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}
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// IsExclusiveSentinel returns whether this internal key excludes point keys
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// with the same user key if used as an end boundary. See the comment on
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// InternalKeyRangeDeletionSentinel.
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func (k InternalKey) IsExclusiveSentinel() bool {
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switch kind := k.Kind(); kind {
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case InternalKeyKindRangeDelete:
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return k.Trailer == InternalKeyRangeDeleteSentinel
|
|
case InternalKeyKindRangeKeyDelete, InternalKeyKindRangeKeyUnset, InternalKeyKindRangeKeySet:
|
|
return (k.Trailer >> 8) == InternalKeySeqNumMax
|
|
default:
|
|
return false
|
|
}
|
|
}
|
|
|
|
type prettyInternalKey struct {
|
|
InternalKey
|
|
formatKey FormatKey
|
|
}
|
|
|
|
func (k prettyInternalKey) Format(s fmt.State, c rune) {
|
|
if seqNum := k.SeqNum(); seqNum == InternalKeySeqNumMax {
|
|
fmt.Fprintf(s, "%s#inf,%s", k.formatKey(k.UserKey), k.Kind())
|
|
} else {
|
|
fmt.Fprintf(s, "%s#%d,%s", k.formatKey(k.UserKey), k.SeqNum(), k.Kind())
|
|
}
|
|
}
|
|
|
|
// ParsePrettyInternalKey parses the pretty string representation of an
|
|
// internal key. The format is <user-key>#<seq-num>,<kind>.
|
|
func ParsePrettyInternalKey(s string) InternalKey {
|
|
x := strings.FieldsFunc(s, func(c rune) bool { return c == '#' || c == ',' })
|
|
ukey := x[0]
|
|
kind, ok := kindsMap[x[2]]
|
|
if !ok {
|
|
panic(fmt.Sprintf("unknown kind: %q", x[2]))
|
|
}
|
|
var seqNum uint64
|
|
if x[1] == "max" || x[1] == "inf" {
|
|
seqNum = InternalKeySeqNumMax
|
|
} else {
|
|
seqNum, _ = strconv.ParseUint(x[1], 10, 64)
|
|
}
|
|
return MakeInternalKey([]byte(ukey), seqNum, kind)
|
|
}
|