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https://github.com/talent-plan/tinykv.git
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5e089a2cd1
Signed-off-by: Connor <zbk602423539@gmail.com> Co-authored-by: Nick Cameron <nrc@ncameron.org> Co-authored-by: linning <linningde25@gmail.com> Co-authored-by: YangKeao <keao.yang@yahoo.com> Co-authored-by: andylokandy <andylokandy@hotmail.com> Co-authored-by: Iosmanthus Teng <myosmanthustree@gmail.com>
274 lines
8.5 KiB
Go
274 lines
8.5 KiB
Go
// Copyright 2015 The etcd Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package raft
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import (
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"errors"
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"sync"
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"github.com/pingcap-incubator/tinykv/log"
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pb "github.com/pingcap-incubator/tinykv/proto/pkg/eraftpb"
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)
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// ErrCompacted is returned by Storage.Entries/Compact when a requested
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// index is unavailable because it predates the last snapshot.
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var ErrCompacted = errors.New("requested index is unavailable due to compaction")
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// ErrSnapOutOfDate is returned by Storage.CreateSnapshot when a requested
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// index is older than the existing snapshot.
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var ErrSnapOutOfDate = errors.New("requested index is older than the existing snapshot")
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// ErrUnavailable is returned by Storage interface when the requested log entries
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// are unavailable.
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var ErrUnavailable = errors.New("requested entry at index is unavailable")
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// ErrSnapshotTemporarilyUnavailable is returned by the Storage interface when the required
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// snapshot is temporarily unavailable.
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var ErrSnapshotTemporarilyUnavailable = errors.New("snapshot is temporarily unavailable")
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// Storage is an interface that may be implemented by the application
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// to retrieve log entries from storage.
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//
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// If any Storage method returns an error, the raft instance will
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// become inoperable and refuse to participate in elections; the
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// application is responsible for cleanup and recovery in this case.
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type Storage interface {
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// InitialState returns the saved HardState and ConfState information.
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InitialState() (pb.HardState, pb.ConfState, error)
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// Entries returns a slice of log entries in the range [lo,hi).
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// MaxSize limits the total size of the log entries returned, but
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// Entries returns at least one entry if any.
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Entries(lo, hi uint64) ([]pb.Entry, error)
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// Term returns the term of entry i, which must be in the range
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// [FirstIndex()-1, LastIndex()]. The term of the entry before
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// FirstIndex is retained for matching purposes even though the
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// rest of that entry may not be available.
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Term(i uint64) (uint64, error)
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// LastIndex returns the index of the last entry in the log.
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LastIndex() (uint64, error)
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// FirstIndex returns the index of the first log entry that is
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// possibly available via Entries (older entries have been incorporated
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// into the latest Snapshot; if storage only contains the dummy entry the
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// first log entry is not available).
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FirstIndex() (uint64, error)
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// Snapshot returns the most recent snapshot.
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// If snapshot is temporarily unavailable, it should return ErrSnapshotTemporarilyUnavailable,
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// so raft state machine could know that Storage needs some time to prepare
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// snapshot and call Snapshot later.
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Snapshot() (pb.Snapshot, error)
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}
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// MemoryStorage implements the Storage interface backed by an
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// in-memory array.
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type MemoryStorage struct {
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// Protects access to all fields. Most methods of MemoryStorage are
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// run on the raft goroutine, but Append() is run on an application
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// goroutine.
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sync.Mutex
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hardState pb.HardState
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snapshot pb.Snapshot
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// ents[i] has raft log position i+snapshot.Metadata.Index
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ents []pb.Entry
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}
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// NewMemoryStorage creates an empty MemoryStorage.
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func NewMemoryStorage() *MemoryStorage {
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return &MemoryStorage{
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// When starting from scratch populate the list with a dummy entry at term zero.
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ents: make([]pb.Entry, 1),
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snapshot: pb.Snapshot{Metadata: &pb.SnapshotMetadata{ConfState: &pb.ConfState{}}},
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}
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}
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// InitialState implements the Storage interface.
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func (ms *MemoryStorage) InitialState() (pb.HardState, pb.ConfState, error) {
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return ms.hardState, *ms.snapshot.Metadata.ConfState, nil
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}
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// SetHardState saves the current HardState.
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func (ms *MemoryStorage) SetHardState(st pb.HardState) error {
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ms.Lock()
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defer ms.Unlock()
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ms.hardState = st
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return nil
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}
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// Entries implements the Storage interface.
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func (ms *MemoryStorage) Entries(lo, hi uint64) ([]pb.Entry, error) {
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ms.Lock()
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defer ms.Unlock()
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offset := ms.ents[0].Index
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if lo <= offset {
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return nil, ErrCompacted
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}
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if hi > ms.lastIndex()+1 {
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log.Panicf("entries' hi(%d) is out of bound lastindex(%d)", hi, ms.lastIndex())
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}
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ents := ms.ents[lo-offset : hi-offset]
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if len(ms.ents) == 1 && len(ents) != 0 {
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// only contains dummy entries.
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return nil, ErrUnavailable
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}
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return ents, nil
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}
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// Term implements the Storage interface.
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func (ms *MemoryStorage) Term(i uint64) (uint64, error) {
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ms.Lock()
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defer ms.Unlock()
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offset := ms.ents[0].Index
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if i < offset {
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return 0, ErrCompacted
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}
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if int(i-offset) >= len(ms.ents) {
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return 0, ErrUnavailable
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}
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return ms.ents[i-offset].Term, nil
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}
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// LastIndex implements the Storage interface.
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func (ms *MemoryStorage) LastIndex() (uint64, error) {
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ms.Lock()
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defer ms.Unlock()
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return ms.lastIndex(), nil
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}
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func (ms *MemoryStorage) lastIndex() uint64 {
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return ms.ents[0].Index + uint64(len(ms.ents)) - 1
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}
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// FirstIndex implements the Storage interface.
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func (ms *MemoryStorage) FirstIndex() (uint64, error) {
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ms.Lock()
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defer ms.Unlock()
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return ms.firstIndex(), nil
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}
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func (ms *MemoryStorage) firstIndex() uint64 {
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return ms.ents[0].Index + 1
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}
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// Snapshot implements the Storage interface.
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func (ms *MemoryStorage) Snapshot() (pb.Snapshot, error) {
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ms.Lock()
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defer ms.Unlock()
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return ms.snapshot, nil
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}
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// ApplySnapshot overwrites the contents of this Storage object with
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// those of the given snapshot.
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func (ms *MemoryStorage) ApplySnapshot(snap pb.Snapshot) error {
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ms.Lock()
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defer ms.Unlock()
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//handle check for old snapshot being applied
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msIndex := ms.snapshot.Metadata.Index
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snapIndex := snap.Metadata.Index
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if msIndex >= snapIndex {
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return ErrSnapOutOfDate
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}
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ms.snapshot = snap
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ms.ents = []pb.Entry{{Term: snap.Metadata.Term, Index: snap.Metadata.Index}}
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return nil
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}
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// CreateSnapshot makes a snapshot which can be retrieved with Snapshot() and
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// can be used to reconstruct the state at that point.
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// If any configuration changes have been made since the last compaction,
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// the result of the last ApplyConfChange must be passed in.
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func (ms *MemoryStorage) CreateSnapshot(i uint64, cs *pb.ConfState, data []byte) (pb.Snapshot, error) {
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ms.Lock()
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defer ms.Unlock()
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if i <= ms.snapshot.Metadata.Index {
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return pb.Snapshot{}, ErrSnapOutOfDate
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}
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offset := ms.ents[0].Index
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if i > ms.lastIndex() {
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log.Panicf("snapshot %d is out of bound lastindex(%d)", i, ms.lastIndex())
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}
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ms.snapshot.Metadata.Index = i
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ms.snapshot.Metadata.Term = ms.ents[i-offset].Term
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if cs != nil {
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ms.snapshot.Metadata.ConfState = cs
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}
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ms.snapshot.Data = data
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return ms.snapshot, nil
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}
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// Compact discards all log entries prior to compactIndex.
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// It is the application's responsibility to not attempt to compact an index
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// greater than raftLog.applied.
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func (ms *MemoryStorage) Compact(compactIndex uint64) error {
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ms.Lock()
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defer ms.Unlock()
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offset := ms.ents[0].Index
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if compactIndex <= offset {
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return ErrCompacted
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}
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if compactIndex > ms.lastIndex() {
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log.Panicf("compact %d is out of bound lastindex(%d)", compactIndex, ms.lastIndex())
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}
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i := compactIndex - offset
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ents := make([]pb.Entry, 1, 1+uint64(len(ms.ents))-i)
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ents[0].Index = ms.ents[i].Index
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ents[0].Term = ms.ents[i].Term
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ents = append(ents, ms.ents[i+1:]...)
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ms.ents = ents
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return nil
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}
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// Append the new entries to storage.
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// TODO (xiangli): ensure the entries are continuous and
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// entries[0].Index > ms.entries[0].Index
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func (ms *MemoryStorage) Append(entries []pb.Entry) error {
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if len(entries) == 0 {
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return nil
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}
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ms.Lock()
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defer ms.Unlock()
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first := ms.firstIndex()
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last := entries[0].Index + uint64(len(entries)) - 1
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// shortcut if there is no new entry.
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if last < first {
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return nil
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}
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// truncate compacted entries
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if first > entries[0].Index {
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entries = entries[first-entries[0].Index:]
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}
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offset := entries[0].Index - ms.ents[0].Index
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switch {
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case uint64(len(ms.ents)) > offset:
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ms.ents = append([]pb.Entry{}, ms.ents[:offset]...)
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ms.ents = append(ms.ents, entries...)
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case uint64(len(ms.ents)) == offset:
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ms.ents = append(ms.ents, entries...)
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default:
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log.Panicf("missing log entry [last: %d, append at: %d]",
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ms.lastIndex(), entries[0].Index)
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}
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return nil
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}
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