mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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679 lines
28 KiB
Go
679 lines
28 KiB
Go
// Copyright 2021 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 pebble
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import (
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"fmt"
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"strconv"
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"github.com/cockroachdb/errors"
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"github.com/cockroachdb/pebble/internal/base"
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"github.com/cockroachdb/pebble/internal/manifest"
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"github.com/cockroachdb/pebble/sstable"
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"github.com/cockroachdb/pebble/vfs"
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"github.com/cockroachdb/pebble/vfs/atomicfs"
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)
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// FormatMajorVersion is a constant controlling the format of persisted
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// data. Backwards incompatible changes to durable formats are gated
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// behind new format major versions.
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//
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// At any point, a database's format major version may be bumped.
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// However, once a database's format major version is increased,
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// previous versions of Pebble will refuse to open the database.
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//
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// The zero value format is the FormatDefault constant. The exact
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// FormatVersion that the default corresponds to may change with time.
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type FormatMajorVersion uint64
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// SafeValue implements redact.SafeValue.
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func (v FormatMajorVersion) SafeValue() {}
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// String implements fmt.Stringer.
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func (v FormatMajorVersion) String() string {
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// NB: This must not change. It's used as the value for the on-disk
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// version marker file.
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//
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// Specifically, this value must always parse as a base 10 integer
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// that fits in a uint64. We format it as zero-padded, 3-digit
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// number today, but the padding may change.
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return fmt.Sprintf("%03d", v)
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}
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const (
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// 21.2 versions.
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// FormatDefault leaves the format version unspecified. The
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// FormatDefault constant may be ratcheted upwards over time.
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FormatDefault FormatMajorVersion = iota
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// FormatMostCompatible maintains the most backwards compatibility,
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// maintaining bi-directional compatibility with RocksDB 6.2.1 in
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// the particular configuration described in the Pebble README.
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FormatMostCompatible
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// formatVersionedManifestMarker is the first
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// backwards-incompatible change made to Pebble, introducing the
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// format-version marker file for handling backwards-incompatible
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// changes more broadly, and replacing the `CURRENT` file with a
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// marker file.
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//
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// This format version is intended as an intermediary version state.
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// It is deliberately unexported to discourage direct use of this
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// format major version. Clients should use FormatVersioned which
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// also ensures earlier versions of Pebble fail to open a database
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// written in a future format major version.
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formatVersionedManifestMarker
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// FormatVersioned is a new format major version that replaces the
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// old `CURRENT` file with a new 'marker' file scheme. Previous
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// Pebble versions will be unable to open the database unless
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// they're aware of format versions.
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FormatVersioned
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// FormatSetWithDelete is a format major version that introduces a new key
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// kind, base.InternalKeyKindSetWithDelete. Previous Pebble versions will be
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// unable to open this database.
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FormatSetWithDelete
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// 22.1 versions.
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// FormatBlockPropertyCollector is a format major version that introduces
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// BlockPropertyCollectors.
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FormatBlockPropertyCollector
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// FormatSplitUserKeysMarked is a format major version that guarantees that
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// all files that share user keys with neighbors are marked for compaction
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// in the manifest. Ratcheting to FormatSplitUserKeysMarked will block
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// (without holding mutexes) until the scan of the LSM is complete and the
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// manifest has been rotated.
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FormatSplitUserKeysMarked
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// 22.2 versions.
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// FormatSplitUserKeysMarkedCompacted is a format major version that
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// guarantees that all files explicitly marked for compaction in the manifest
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// have been compacted. Combined with the FormatSplitUserKeysMarked format
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// major version, this version guarantees that there are no user keys split
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// across multiple files within a level L1+. Ratcheting to this format version
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// will block (without holding mutexes) until all necessary compactions for
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// files marked for compaction are complete.
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FormatSplitUserKeysMarkedCompacted
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// FormatRangeKeys is a format major version that introduces range keys.
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FormatRangeKeys
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// FormatMinTableFormatPebblev1 is a format major version that guarantees that
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// tables created by or ingested into the DB at or above this format major
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// version will have a table format version of at least Pebblev1 (Block
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// Properties).
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FormatMinTableFormatPebblev1
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// FormatPrePebblev1Marked is a format major version that guarantees that all
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// sstables with a table format version pre-Pebblev1 (i.e. those that are
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// guaranteed to not contain block properties) are marked for compaction in
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// the manifest. Ratcheting to FormatPrePebblev1Marked will block (without
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// holding mutexes) until the scan of the LSM is complete and the manifest has
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// been rotated.
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FormatPrePebblev1Marked
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// 23.1 versions.
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// formatUnusedPrePebblev1MarkedCompacted is an unused format major version.
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// This format major version was originally intended to ship in the 23.1
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// release. It was later decided that this should be deferred until a
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// subsequent release. The original ordering is preserved so as not to
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// introduce breaking changes in Cockroach.
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formatUnusedPrePebblev1MarkedCompacted
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// FormatSSTableValueBlocks is a format major version that adds support for
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// storing values in value blocks in the sstable. Value block support is not
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// necessarily enabled when writing sstables, when running with this format
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// major version.
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//
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// WARNING: In development, so no production code should upgrade to this
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// format, since a DB with this format major version will not actually
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// interoperate correctly with another DB with the same format major
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// version. This format major version is introduced so that tests can start
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// being executed up to this version. Note that these tests succeed despite
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// the incomplete support since they do not enable value blocks and use
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// TableFormatPebblev2.
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FormatSSTableValueBlocks
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// FormatFlushableIngest is a format major version that enables lazy
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// addition of ingested sstables into the LSM structure. When an ingest
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// overlaps with a memtable, a record of the ingest is written to the WAL
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// without waiting for a flush. Subsequent reads treat the ingested files as
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// a level above the overlapping memtable. Once the memtable is flushed, the
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// ingested files are moved into the lowest possible levels.
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//
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// This feature is behind a format major version because it required
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// breaking changes to the WAL format.
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FormatFlushableIngest
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// 23.2 versions.
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// FormatPrePebblev1MarkedCompacted is a format major version that guarantees
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// that all sstables explicitly marked for compaction in the manifest (see
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// FormatPrePebblev1Marked) have been compacted. Ratcheting to this format
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// version will block (without holding mutexes) until all necessary
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// compactions for files marked for compaction are complete.
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FormatPrePebblev1MarkedCompacted
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// FormatDeleteSizedAndObsolete is a format major version that adds support
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// for deletion tombstones that encode the size of the value they're
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// expected to delete. This format major version is required before the
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// associated key kind may be committed through batch applications or
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// ingests. It also adds support for keys that are marked obsolete (see
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// sstable/format.go for details).
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FormatDeleteSizedAndObsolete
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// FormatVirtualSSTables is a format major version that adds support for
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// virtual sstables that can reference a sub-range of keys in an underlying
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// physical sstable. This information is persisted through new,
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// backward-incompatible fields in the Manifest, and therefore requires
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// a format major version.
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FormatVirtualSSTables
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// internalFormatNewest holds the newest format major version, including
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// experimental ones excluded from the exported FormatNewest constant until
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// they've stabilized. Used in tests.
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internalFormatNewest FormatMajorVersion = iota - 1
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// FormatNewest always contains the most recent format major version.
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FormatNewest FormatMajorVersion = internalFormatNewest
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)
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// MaxTableFormat returns the maximum sstable.TableFormat that can be used at
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// this FormatMajorVersion.
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func (v FormatMajorVersion) MaxTableFormat() sstable.TableFormat {
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switch v {
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case FormatDefault, FormatMostCompatible, formatVersionedManifestMarker,
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FormatVersioned, FormatSetWithDelete:
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return sstable.TableFormatRocksDBv2
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case FormatBlockPropertyCollector, FormatSplitUserKeysMarked,
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FormatSplitUserKeysMarkedCompacted:
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return sstable.TableFormatPebblev1
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case FormatRangeKeys, FormatMinTableFormatPebblev1, FormatPrePebblev1Marked,
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formatUnusedPrePebblev1MarkedCompacted:
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return sstable.TableFormatPebblev2
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case FormatSSTableValueBlocks, FormatFlushableIngest, FormatPrePebblev1MarkedCompacted:
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return sstable.TableFormatPebblev3
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case FormatDeleteSizedAndObsolete, FormatVirtualSSTables:
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return sstable.TableFormatPebblev4
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default:
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panic(fmt.Sprintf("pebble: unsupported format major version: %s", v))
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}
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}
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// MinTableFormat returns the minimum sstable.TableFormat that can be used at
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// this FormatMajorVersion.
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func (v FormatMajorVersion) MinTableFormat() sstable.TableFormat {
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switch v {
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case FormatDefault, FormatMostCompatible, formatVersionedManifestMarker,
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FormatVersioned, FormatSetWithDelete, FormatBlockPropertyCollector,
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FormatSplitUserKeysMarked, FormatSplitUserKeysMarkedCompacted,
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FormatRangeKeys:
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return sstable.TableFormatLevelDB
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case FormatMinTableFormatPebblev1, FormatPrePebblev1Marked,
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formatUnusedPrePebblev1MarkedCompacted, FormatSSTableValueBlocks,
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FormatFlushableIngest, FormatPrePebblev1MarkedCompacted,
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FormatDeleteSizedAndObsolete, FormatVirtualSSTables:
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return sstable.TableFormatPebblev1
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default:
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panic(fmt.Sprintf("pebble: unsupported format major version: %s", v))
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}
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}
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// orderingInvariants returns an enum encoding the set of invariants that must
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// hold within the receiver format major version. Invariants only get stricter
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// as the format major version advances, so it is okay to retrieve the
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// invariants from the current format major version and by the time the
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// invariants are enforced, the format major version has advanced.
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func (v FormatMajorVersion) orderingInvariants() manifest.OrderingInvariants {
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if v < FormatSplitUserKeysMarkedCompacted {
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return manifest.AllowSplitUserKeys
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}
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return manifest.ProhibitSplitUserKeys
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}
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// formatMajorVersionMigrations defines the migrations from one format
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// major version to the next. Each migration is defined as a closure
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// which will be invoked on the database before the new format major
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// version is committed. Migrations must be idempotent. Migrations are
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// invoked with d.mu locked.
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//
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// Each migration is responsible for invoking finalizeFormatVersUpgrade
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// to set the new format major version. RatchetFormatMajorVersion will
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// panic if a migration returns a nil error but fails to finalize the
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// new format major version.
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var formatMajorVersionMigrations = map[FormatMajorVersion]func(*DB) error{
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FormatMostCompatible: func(d *DB) error { return nil },
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formatVersionedManifestMarker: func(d *DB) error {
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// formatVersionedManifestMarker introduces the use of a marker
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// file for pointing to the current MANIFEST file.
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// Lock the manifest.
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d.mu.versions.logLock()
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defer d.mu.versions.logUnlock()
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// Construct the filename of the currently active manifest and
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// move the manifest marker to that filename. The marker is
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// guaranteed to exist, because we unconditionally locate it
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// during Open.
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manifestFileNum := d.mu.versions.manifestFileNum
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filename := base.MakeFilename(fileTypeManifest, manifestFileNum)
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if err := d.mu.versions.manifestMarker.Move(filename); err != nil {
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return errors.Wrap(err, "moving manifest marker")
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}
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// Now that we have a manifest marker file in place and pointing
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// to the current MANIFEST, finalize the upgrade. If we fail for
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// some reason, a retry of this migration is guaranteed to again
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// move the manifest marker file to the latest manifest. If
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// we're unable to finalize the upgrade, a subsequent call to
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// Open will ignore the manifest marker.
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if err := d.finalizeFormatVersUpgrade(formatVersionedManifestMarker); err != nil {
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return err
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}
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// We've finalized the upgrade. All subsequent Open calls will
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// ignore the CURRENT file and instead read the manifest marker.
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// Before we unlock the manifest, we need to update versionSet
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// to use the manifest marker on future rotations.
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d.mu.versions.setCurrent = setCurrentFuncMarker(
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d.mu.versions.manifestMarker,
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d.mu.versions.fs,
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d.mu.versions.dirname)
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return nil
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},
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// The FormatVersioned version is split into two, each with their
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// own migration to ensure the post-migration cleanup happens even
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// if there's a crash immediately after finalizing the version. Once
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// a new format major version is finalized, its migration will never
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// run again. Post-migration cleanup like the one in the migration
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// below must be performed in a separate migration or every time the
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// database opens.
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FormatVersioned: func(d *DB) error {
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// Replace the `CURRENT` file with one that points to the
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// nonexistent `MANIFEST-000000` file. If an earlier Pebble
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// version that does not know about format major versions
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// attempts to open the database, it will error avoiding
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// accidental corruption.
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if err := setCurrentFile(d.mu.versions.dirname, d.mu.versions.fs, base.FileNum(0).DiskFileNum()); err != nil {
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return err
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}
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return d.finalizeFormatVersUpgrade(FormatVersioned)
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},
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// As SetWithDelete is a new key kind, there is nothing to migrate. We can
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// simply finalize the format version and we're done.
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FormatSetWithDelete: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatSetWithDelete)
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},
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FormatBlockPropertyCollector: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatBlockPropertyCollector)
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},
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FormatSplitUserKeysMarked: func(d *DB) error {
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// Mark any unmarked files with split-user keys. Note all format major
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// versions migrations are invoked with DB.mu locked.
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if err := d.markFilesLocked(markFilesWithSplitUserKeys(d.opts.Comparer.Equal)); err != nil {
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return err
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}
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return d.finalizeFormatVersUpgrade(FormatSplitUserKeysMarked)
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},
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FormatSplitUserKeysMarkedCompacted: func(d *DB) error {
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// Before finalizing the format major version, rewrite any sstables
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// still marked for compaction. Note all format major versions
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// migrations are invoked with DB.mu locked.
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if err := d.compactMarkedFilesLocked(); err != nil {
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return err
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}
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return d.finalizeFormatVersUpgrade(FormatSplitUserKeysMarkedCompacted)
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},
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FormatRangeKeys: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatRangeKeys)
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},
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FormatMinTableFormatPebblev1: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatMinTableFormatPebblev1)
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},
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FormatPrePebblev1Marked: func(d *DB) error {
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// Mark any unmarked files that contain only table properties. Note all
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// format major versions migrations are invoked with DB.mu locked.
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if err := d.markFilesLocked(markFilesPrePebblev1(d.tableCache)); err != nil {
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return err
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}
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return d.finalizeFormatVersUpgrade(FormatPrePebblev1Marked)
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},
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formatUnusedPrePebblev1MarkedCompacted: func(d *DB) error {
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// Intentional no-op.
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return d.finalizeFormatVersUpgrade(formatUnusedPrePebblev1MarkedCompacted)
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},
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FormatSSTableValueBlocks: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatSSTableValueBlocks)
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},
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FormatFlushableIngest: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatFlushableIngest)
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},
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FormatPrePebblev1MarkedCompacted: func(d *DB) error {
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// Before finalizing the format major version, rewrite any sstables
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// still marked for compaction. Note all format major versions
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// migrations are invoked with DB.mu locked.
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if err := d.compactMarkedFilesLocked(); err != nil {
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return err
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}
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return d.finalizeFormatVersUpgrade(FormatPrePebblev1MarkedCompacted)
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},
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FormatDeleteSizedAndObsolete: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatDeleteSizedAndObsolete)
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},
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FormatVirtualSSTables: func(d *DB) error {
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return d.finalizeFormatVersUpgrade(FormatVirtualSSTables)
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},
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}
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const formatVersionMarkerName = `format-version`
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func lookupFormatMajorVersion(
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fs vfs.FS, dirname string,
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) (FormatMajorVersion, *atomicfs.Marker, error) {
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m, versString, err := atomicfs.LocateMarker(fs, dirname, formatVersionMarkerName)
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if err != nil {
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return 0, nil, err
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}
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if versString == "" {
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return FormatMostCompatible, m, nil
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}
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v, err := strconv.ParseUint(versString, 10, 64)
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if err != nil {
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return 0, nil, errors.Wrap(err, "parsing format major version")
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}
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vers := FormatMajorVersion(v)
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if vers == FormatDefault {
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return 0, nil, errors.Newf("pebble: default format major version should not persisted", vers)
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}
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if vers > internalFormatNewest {
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return 0, nil, errors.Newf("pebble: database %q written in format major version %d", dirname, vers)
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}
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return vers, m, nil
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}
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// FormatMajorVersion returns the database's active format major
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// version. The format major version may be higher than the one
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// provided in Options when the database was opened if the existing
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// database was written with a higher format version.
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func (d *DB) FormatMajorVersion() FormatMajorVersion {
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return FormatMajorVersion(d.mu.formatVers.vers.Load())
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}
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// RatchetFormatMajorVersion ratchets the opened database's format major
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// version to the provided version. It errors if the provided format
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// major version is below the database's current version. Once a
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// database's format major version is upgraded, previous Pebble versions
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// that do not know of the format version will be unable to open the
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// database.
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func (d *DB) RatchetFormatMajorVersion(fmv FormatMajorVersion) error {
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if err := d.closed.Load(); err != nil {
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panic(err)
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}
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d.mu.Lock()
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defer d.mu.Unlock()
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return d.ratchetFormatMajorVersionLocked(fmv)
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}
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func (d *DB) ratchetFormatMajorVersionLocked(formatVers FormatMajorVersion) error {
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if d.opts.ReadOnly {
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return ErrReadOnly
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}
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if formatVers > internalFormatNewest {
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// Guard against accidentally forgetting to update internalFormatNewest.
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return errors.Errorf("pebble: unknown format version %d", formatVers)
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}
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if currentVers := d.FormatMajorVersion(); currentVers > formatVers {
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return errors.Newf("pebble: database already at format major version %d; cannot reduce to %d",
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currentVers, formatVers)
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}
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if d.mu.formatVers.ratcheting {
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return errors.Newf("pebble: database format major version upgrade is in-progress")
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}
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d.mu.formatVers.ratcheting = true
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defer func() { d.mu.formatVers.ratcheting = false }()
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for nextVers := d.FormatMajorVersion() + 1; nextVers <= formatVers; nextVers++ {
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if err := formatMajorVersionMigrations[nextVers](d); err != nil {
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return errors.Wrapf(err, "migrating to version %d", nextVers)
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}
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// NB: The migration is responsible for calling
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// finalizeFormatVersUpgrade to finalize the upgrade. This
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// structure is necessary because some migrations may need to
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// update in-memory state (without ever dropping locks) after
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// the upgrade is finalized. Here we assert that the upgrade
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// did occur.
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if d.FormatMajorVersion() != nextVers {
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d.opts.Logger.Fatalf("pebble: successful migration to format version %d never finalized the upgrade", nextVers)
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// finalizeFormatVersUpgrade is typically only be called from within a
|
|
// format major version migration.
|
|
//
|
|
// See formatMajorVersionMigrations.
|
|
func (d *DB) finalizeFormatVersUpgrade(formatVers FormatMajorVersion) error {
|
|
// We use the marker to encode the active format version in the
|
|
// marker filename. Unlike other uses of the atomic marker, there is
|
|
// no file with the filename `formatVers.String()` on the
|
|
// filesystem.
|
|
if err := d.mu.formatVers.marker.Move(formatVers.String()); err != nil {
|
|
return err
|
|
}
|
|
d.mu.formatVers.vers.Store(uint64(formatVers))
|
|
d.opts.EventListener.FormatUpgrade(formatVers)
|
|
return nil
|
|
}
|
|
|
|
// compactMarkedFilesLocked performs a migration that schedules rewrite
|
|
// compactions to compact away any sstables marked for compaction.
|
|
// compactMarkedFilesLocked is run while ratcheting the database's format major
|
|
// version to FormatSplitUserKeysMarkedCompacted.
|
|
//
|
|
// Note that while this method is called with the DB.mu held, and will not
|
|
// return until all marked files have been compacted, the mutex is dropped while
|
|
// waiting for compactions to complete (or for slots to free up).
|
|
func (d *DB) compactMarkedFilesLocked() error {
|
|
curr := d.mu.versions.currentVersion()
|
|
for curr.Stats.MarkedForCompaction > 0 {
|
|
// Attempt to schedule a compaction to rewrite a file marked for
|
|
// compaction.
|
|
d.maybeScheduleCompactionPicker(func(picker compactionPicker, env compactionEnv) *pickedCompaction {
|
|
return picker.pickRewriteCompaction(env)
|
|
})
|
|
|
|
// The above attempt might succeed and schedule a rewrite compaction. Or
|
|
// there might not be available compaction concurrency to schedule the
|
|
// compaction. Or compaction of the file might have already been in
|
|
// progress. In any scenario, wait until there's some change in the
|
|
// state of active compactions.
|
|
|
|
// Before waiting, check that the database hasn't been closed. Trying to
|
|
// schedule the compaction may have dropped d.mu while waiting for a
|
|
// manifest write to complete. In that dropped interim, the database may
|
|
// have been closed.
|
|
if err := d.closed.Load(); err != nil {
|
|
return err.(error)
|
|
}
|
|
|
|
// Some flush or compaction may have scheduled or completed while we waited
|
|
// for the manifest lock in maybeScheduleCompactionPicker. Get the latest
|
|
// Version before waiting on a compaction.
|
|
curr = d.mu.versions.currentVersion()
|
|
|
|
// Only wait on compactions if there are files still marked for compaction.
|
|
// NB: Waiting on this condition variable drops d.mu while blocked.
|
|
if curr.Stats.MarkedForCompaction > 0 {
|
|
if d.mu.compact.compactingCount == 0 {
|
|
panic("expected a compaction of marked files in progress")
|
|
}
|
|
d.mu.compact.cond.Wait()
|
|
// Refresh the current version again.
|
|
curr = d.mu.versions.currentVersion()
|
|
}
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// findFilesFunc scans the LSM for files, returning true if at least one
|
|
// file was found. The returned array contains the matched files, if any, per
|
|
// level.
|
|
type findFilesFunc func(v *version) (found bool, files [numLevels][]*fileMetadata, _ error)
|
|
|
|
// markFilesWithSplitUserKeys scans the LSM's levels 1 through 6 for adjacent
|
|
// files that contain the same user key. Such arrangements of files were
|
|
// permitted in RocksDB and in Pebble up to SHA a860bbad.
|
|
var markFilesWithSplitUserKeys = func(equal Equal) findFilesFunc {
|
|
return func(v *version) (found bool, files [numLevels][]*fileMetadata, _ error) {
|
|
// Files with split user keys are expected to be rare and performing key
|
|
// comparisons for every file within the LSM is expensive, so drop the
|
|
// database lock while scanning the file metadata.
|
|
for l := numLevels - 1; l > 0; l-- {
|
|
iter := v.Levels[l].Iter()
|
|
var prevFile *fileMetadata
|
|
var prevUserKey []byte
|
|
for f := iter.First(); f != nil; f = iter.Next() {
|
|
if prevUserKey != nil && equal(prevUserKey, f.Smallest.UserKey) {
|
|
// NB: We may append a file twice, once as prevFile and once
|
|
// as f. That's okay, and handled below.
|
|
files[l] = append(files[l], prevFile, f)
|
|
found = true
|
|
}
|
|
if f.Largest.IsExclusiveSentinel() {
|
|
prevUserKey = nil
|
|
prevFile = nil
|
|
} else {
|
|
prevUserKey = f.Largest.UserKey
|
|
prevFile = f
|
|
}
|
|
}
|
|
}
|
|
return
|
|
}
|
|
}
|
|
|
|
// markFilesPrePebblev1 scans the LSM for files that do not support block
|
|
// properties (i.e. a table format version pre-Pebblev1).
|
|
var markFilesPrePebblev1 = func(tc *tableCacheContainer) findFilesFunc {
|
|
return func(v *version) (found bool, files [numLevels][]*fileMetadata, err error) {
|
|
for l := numLevels - 1; l > 0; l-- {
|
|
iter := v.Levels[l].Iter()
|
|
for f := iter.First(); f != nil; f = iter.Next() {
|
|
if f.Virtual {
|
|
// Any physical sstable which has been virtualized must
|
|
// have already undergone this migration, and we don't
|
|
// need to worry about the virtual sstable themselves.
|
|
panic("pebble: unexpected virtual sstable during migration")
|
|
}
|
|
err = tc.withReader(
|
|
f.PhysicalMeta(), func(r *sstable.Reader) error {
|
|
tf, err := r.TableFormat()
|
|
if err != nil {
|
|
return err
|
|
}
|
|
if tf < sstable.TableFormatPebblev1 {
|
|
found = true
|
|
files[l] = append(files[l], f)
|
|
}
|
|
return nil
|
|
})
|
|
if err != nil {
|
|
return
|
|
}
|
|
}
|
|
}
|
|
return
|
|
}
|
|
}
|
|
|
|
// markFilesLock durably marks the files that match the given findFilesFunc for
|
|
// compaction.
|
|
func (d *DB) markFilesLocked(findFn findFilesFunc) error {
|
|
jobID := d.mu.nextJobID
|
|
d.mu.nextJobID++
|
|
|
|
// Acquire a read state to have a view of the LSM and a guarantee that none
|
|
// of the referenced files will be deleted until we've unreferenced the read
|
|
// state. Some findFilesFuncs may read the files, requiring they not be
|
|
// deleted.
|
|
rs := d.loadReadState()
|
|
var (
|
|
found bool
|
|
files [numLevels][]*fileMetadata
|
|
err error
|
|
)
|
|
func() {
|
|
defer rs.unrefLocked()
|
|
// Note the unusual locking: unlock, defer Lock(). The scan of the files in
|
|
// the version does not need to block other operations that require the
|
|
// DB.mu. Drop it for the scan, before re-acquiring it.
|
|
d.mu.Unlock()
|
|
defer d.mu.Lock()
|
|
found, files, err = findFn(rs.current)
|
|
}()
|
|
if err != nil {
|
|
return err
|
|
}
|
|
|
|
// The database lock has been acquired again by the defer within the above
|
|
// anonymous function.
|
|
if !found {
|
|
// Nothing to do.
|
|
return nil
|
|
}
|
|
|
|
// After scanning, if we found files to mark, we fetch the current state of
|
|
// the LSM (which may have changed) and set MarkedForCompaction on the files,
|
|
// and update the version's Stats.MarkedForCompaction count, which are both
|
|
// protected by d.mu.
|
|
|
|
// Lock the manifest for a coherent view of the LSM. The database lock has
|
|
// been re-acquired by the defer within the above anonymous function.
|
|
d.mu.versions.logLock()
|
|
vers := d.mu.versions.currentVersion()
|
|
for l, filesToMark := range files {
|
|
if len(filesToMark) == 0 {
|
|
continue
|
|
}
|
|
for _, f := range filesToMark {
|
|
// Ignore files to be marked that have already been compacted or marked.
|
|
if f.CompactionState == manifest.CompactionStateCompacted ||
|
|
f.MarkedForCompaction {
|
|
continue
|
|
}
|
|
// Else, mark the file for compaction in this version.
|
|
vers.Stats.MarkedForCompaction++
|
|
f.MarkedForCompaction = true
|
|
}
|
|
// The compaction picker uses the markedForCompactionAnnotator to
|
|
// quickly find files marked for compaction, or to quickly determine
|
|
// that there are no such files marked for compaction within a level.
|
|
// A b-tree node may be annotated with an annotation recording that
|
|
// there are no files marked for compaction within the node's subtree,
|
|
// based on the assumption that it's static.
|
|
//
|
|
// Since we're marking files for compaction, these b-tree nodes'
|
|
// annotations will be out of date. Clear the compaction-picking
|
|
// annotation, so that it's recomputed the next time the compaction
|
|
// picker looks for a file marked for compaction.
|
|
vers.Levels[l].InvalidateAnnotation(markedForCompactionAnnotator{})
|
|
}
|
|
|
|
// The 'marked-for-compaction' bit is persisted in the MANIFEST file
|
|
// metadata. We've already modified the in-memory file metadata, but the
|
|
// manifest hasn't been updated. Force rotation to a new MANIFEST file,
|
|
// which will write every file metadata to the new manifest file and ensure
|
|
// that the now marked-for-compaction file metadata are persisted as marked.
|
|
// NB: This call to logAndApply will unlockthe MANIFEST, which we locked up
|
|
// above before obtaining `vers`.
|
|
return d.mu.versions.logAndApply(
|
|
jobID,
|
|
&manifest.VersionEdit{},
|
|
map[int]*LevelMetrics{},
|
|
true, /* forceRotation */
|
|
func() []compactionInfo { return d.getInProgressCompactionInfoLocked(nil) })
|
|
}
|