vendor/go.etcd.io/etcd/raft/log_unstable.go - voltha-go - Gitiles

 // Copyright 2015 The etcd Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package raft

 import pb "go.etcd.io/etcd/raft/raftpb"

 // unstable.entries[i] has raft log position i+unstable.offset.
 // Note that unstable.offset may be less than the highest log
 // position in storage; this means that the next write to storage
 // might need to truncate the log before persisting unstable.entries.
 type unstable struct {
 	// the incoming unstable snapshot, if any.
 	snapshot *pb.Snapshot
 	// all entries that have not yet been written to storage.
 	entries []pb.Entry
 	offset  uint64

 	logger Logger
 }

 // maybeFirstIndex returns the index of the first possible entry in entries
 // if it has a snapshot.
 func (u *unstable) maybeFirstIndex() (uint64, bool) {
 	if u.snapshot != nil {
 		return u.snapshot.Metadata.Index + 1, true
 	}
 	return 0, false
 }

 // maybeLastIndex returns the last index if it has at least one
 // unstable entry or snapshot.
 func (u *unstable) maybeLastIndex() (uint64, bool) {
 	if l := len(u.entries); l != 0 {
 		return u.offset + uint64(l) - 1, true
 	}
 	if u.snapshot != nil {
 		return u.snapshot.Metadata.Index, true
 	}
 	return 0, false
 }

 // maybeTerm returns the term of the entry at index i, if there
 // is any.
 func (u *unstable) maybeTerm(i uint64) (uint64, bool) {
 	if i < u.offset {
 		if u.snapshot != nil && u.snapshot.Metadata.Index == i {
 			return u.snapshot.Metadata.Term, true
 		}
 		return 0, false
 	}

 	last, ok := u.maybeLastIndex()
 	if !ok {
 		return 0, false
 	}
 	if i > last {
 		return 0, false
 	}

 	return u.entries[i-u.offset].Term, true
 }

 func (u *unstable) stableTo(i, t uint64) {
 	gt, ok := u.maybeTerm(i)
 	if !ok {
 		return
 	}
 	// if i < offset, term is matched with the snapshot
 	// only update the unstable entries if term is matched with
 	// an unstable entry.
 	if gt == t && i >= u.offset {
 		u.entries = u.entries[i+1-u.offset:]
 		u.offset = i + 1
 		u.shrinkEntriesArray()
 	}
 }

 // shrinkEntriesArray discards the underlying array used by the entries slice
 // if most of it isn't being used. This avoids holding references to a bunch of
 // potentially large entries that aren't needed anymore. Simply clearing the
 // entries wouldn't be safe because clients might still be using them.
 func (u *unstable) shrinkEntriesArray() {
 	// We replace the array if we're using less than half of the space in
 	// it. This number is fairly arbitrary, chosen as an attempt to balance
 	// memory usage vs number of allocations. It could probably be improved
 	// with some focused tuning.
 	const lenMultiple = 2
 	if len(u.entries) == 0 {
 		u.entries = nil
 	} else if len(u.entries)*lenMultiple < cap(u.entries) {
 		newEntries := make([]pb.Entry, len(u.entries))
 		copy(newEntries, u.entries)
 		u.entries = newEntries
 	}
 }

 func (u *unstable) stableSnapTo(i uint64) {
 	if u.snapshot != nil && u.snapshot.Metadata.Index == i {
 		u.snapshot = nil
 	}
 }

 func (u *unstable) restore(s pb.Snapshot) {
 	u.offset = s.Metadata.Index + 1
 	u.entries = nil
 	u.snapshot = &s
 }

 func (u *unstable) truncateAndAppend(ents []pb.Entry) {
 	after := ents[0].Index
 	switch {
 	case after == u.offset+uint64(len(u.entries)):
 		// after is the next index in the u.entries
 		// directly append
 		u.entries = append(u.entries, ents...)
 	case after <= u.offset:
 		u.logger.Infof("replace the unstable entries from index %d", after)
 		// The log is being truncated to before our current offset
 		// portion, so set the offset and replace the entries
 		u.offset = after
 		u.entries = ents
 	default:
 		// truncate to after and copy to u.entries
 		// then append
 		u.logger.Infof("truncate the unstable entries before index %d", after)
 		u.entries = append([]pb.Entry{}, u.slice(u.offset, after)...)
 		u.entries = append(u.entries, ents...)
 	}
 }

 func (u *unstable) slice(lo uint64, hi uint64) []pb.Entry {
 	u.mustCheckOutOfBounds(lo, hi)
 	return u.entries[lo-u.offset : hi-u.offset]
 }

 // u.offset <= lo <= hi <= u.offset+len(u.entries)
 func (u *unstable) mustCheckOutOfBounds(lo, hi uint64) {
 	if lo > hi {
 		u.logger.Panicf("invalid unstable.slice %d > %d", lo, hi)
 	}
 	upper := u.offset + uint64(len(u.entries))
 	if lo < u.offset || hi > upper {
 		u.logger.Panicf("unstable.slice[%d,%d) out of bound [%d,%d]", lo, hi, u.offset, upper)
 	}
 }
	// Copyright 2015 The etcd Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package raft

	import pb "go.etcd.io/etcd/raft/raftpb"

	// unstable.entries[i] has raft log position i+unstable.offset.
	// Note that unstable.offset may be less than the highest log
	// position in storage; this means that the next write to storage
	// might need to truncate the log before persisting unstable.entries.
	type unstable struct {
	// the incoming unstable snapshot, if any.
	snapshot *pb.Snapshot
	// all entries that have not yet been written to storage.
	entries []pb.Entry
	offset uint64

	logger Logger
	}

	// maybeFirstIndex returns the index of the first possible entry in entries
	// if it has a snapshot.
	func (u *unstable) maybeFirstIndex() (uint64, bool) {
	if u.snapshot != nil {
	return u.snapshot.Metadata.Index + 1, true
	}
	return 0, false
	}

	// maybeLastIndex returns the last index if it has at least one
	// unstable entry or snapshot.
	func (u *unstable) maybeLastIndex() (uint64, bool) {
	if l := len(u.entries); l != 0 {
	return u.offset + uint64(l) - 1, true
	}
	if u.snapshot != nil {
	return u.snapshot.Metadata.Index, true
	}
	return 0, false
	}

	// maybeTerm returns the term of the entry at index i, if there
	// is any.
	func (u *unstable) maybeTerm(i uint64) (uint64, bool) {
	if i < u.offset {
	if u.snapshot != nil && u.snapshot.Metadata.Index == i {
	return u.snapshot.Metadata.Term, true
	}
	return 0, false
	}

	last, ok := u.maybeLastIndex()
	if !ok {
	return 0, false
	}
	if i > last {
	return 0, false
	}

	return u.entries[i-u.offset].Term, true
	}

	func (u *unstable) stableTo(i, t uint64) {
	gt, ok := u.maybeTerm(i)
	if !ok {
	return
	}
	// if i < offset, term is matched with the snapshot
	// only update the unstable entries if term is matched with
	// an unstable entry.
	if gt == t && i >= u.offset {
	u.entries = u.entries[i+1-u.offset:]
	u.offset = i + 1
	u.shrinkEntriesArray()
	}
	}

	// shrinkEntriesArray discards the underlying array used by the entries slice
	// if most of it isn't being used. This avoids holding references to a bunch of
	// potentially large entries that aren't needed anymore. Simply clearing the
	// entries wouldn't be safe because clients might still be using them.
	func (u *unstable) shrinkEntriesArray() {
	// We replace the array if we're using less than half of the space in
	// it. This number is fairly arbitrary, chosen as an attempt to balance
	// memory usage vs number of allocations. It could probably be improved
	// with some focused tuning.
	const lenMultiple = 2
	if len(u.entries) == 0 {
	u.entries = nil
	} else if len(u.entries)*lenMultiple < cap(u.entries) {
	newEntries := make([]pb.Entry, len(u.entries))
	copy(newEntries, u.entries)
	u.entries = newEntries
	}
	}

	func (u *unstable) stableSnapTo(i uint64) {
	if u.snapshot != nil && u.snapshot.Metadata.Index == i {
	u.snapshot = nil
	}
	}

	func (u *unstable) restore(s pb.Snapshot) {
	u.offset = s.Metadata.Index + 1
	u.entries = nil
	u.snapshot = &s
	}

	func (u *unstable) truncateAndAppend(ents []pb.Entry) {
	after := ents[0].Index
	switch {
	case after == u.offset+uint64(len(u.entries)):
	// after is the next index in the u.entries
	// directly append
	u.entries = append(u.entries, ents...)
	case after <= u.offset:
	u.logger.Infof("replace the unstable entries from index %d", after)
	// The log is being truncated to before our current offset
	// portion, so set the offset and replace the entries
	u.offset = after
	u.entries = ents
	default:
	// truncate to after and copy to u.entries
	// then append
	u.logger.Infof("truncate the unstable entries before index %d", after)
	u.entries = append([]pb.Entry{}, u.slice(u.offset, after)...)
	u.entries = append(u.entries, ents...)
	}
	}

	func (u *unstable) slice(lo uint64, hi uint64) []pb.Entry {
	u.mustCheckOutOfBounds(lo, hi)
	return u.entries[lo-u.offset : hi-u.offset]
	}

	// u.offset <= lo <= hi <= u.offset+len(u.entries)
	func (u *unstable) mustCheckOutOfBounds(lo, hi uint64) {
	if lo > hi {
	u.logger.Panicf("invalid unstable.slice %d > %d", lo, hi)
	}
	upper := u.offset + uint64(len(u.entries))
	if lo < u.offset \|\| hi > upper {
	u.logger.Panicf("unstable.slice[%d,%d) out of bound [%d,%d]", lo, hi, u.offset, upper)
	}
	}