// 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 cindex import ( "sync" "sync/atomic" "go.etcd.io/etcd/server/v3/storage/backend" "go.etcd.io/etcd/server/v3/storage/schema" ) type Backend interface { BatchTx() backend.BatchTx } // ConsistentIndexer is an interface that wraps the Get/Set/Save method for consistentIndex. type ConsistentIndexer interface { // ConsistentIndex returns the consistent index of current executing entry. ConsistentIndex() uint64 // SetConsistentIndex set the consistent index of current executing entry. SetConsistentIndex(v uint64, term uint64) // UnsafeSave must be called holding the lock on the tx. // It saves consistentIndex to the underlying stable storage. UnsafeSave(tx backend.BatchTx) // SetBackend set the available backend.BatchTx for ConsistentIndexer. SetBackend(be Backend) } // consistentIndex implements the ConsistentIndexer interface. type consistentIndex struct { // consistentIndex represents the offset of an entry in a consistent replica log. // It caches the "consistent_index" key's value. // Accessed through atomics so must be 64-bit aligned. consistentIndex uint64 // term represents the RAFT term of committed entry in a consistent replica log. // Accessed through atomics so must be 64-bit aligned. // The value is being persisted in the backend since v3.5. term uint64 // be is used for initial read consistentIndex be Backend // mutex is protecting be. mutex sync.Mutex } // NewConsistentIndex creates a new consistent index. // If `be` is nil, it must be set (SetBackend) before first access using `ConsistentIndex()`. func NewConsistentIndex(be Backend) ConsistentIndexer { return &consistentIndex{be: be} } func (ci *consistentIndex) ConsistentIndex() uint64 { if index := atomic.LoadUint64(&ci.consistentIndex); index > 0 { return index } ci.mutex.Lock() defer ci.mutex.Unlock() v, term := schema.ReadConsistentIndex(ci.be.BatchTx()) ci.SetConsistentIndex(v, term) return v } func (ci *consistentIndex) SetConsistentIndex(v uint64, term uint64) { atomic.StoreUint64(&ci.consistentIndex, v) atomic.StoreUint64(&ci.term, term) } func (ci *consistentIndex) UnsafeSave(tx backend.BatchTx) { index := atomic.LoadUint64(&ci.consistentIndex) term := atomic.LoadUint64(&ci.term) schema.UnsafeUpdateConsistentIndex(tx, index, term, true) } func (ci *consistentIndex) SetBackend(be Backend) { ci.mutex.Lock() defer ci.mutex.Unlock() ci.be = be // After the backend is changed, the first access should re-read it. ci.SetConsistentIndex(0, 0) } func NewFakeConsistentIndex(index uint64) ConsistentIndexer { return &fakeConsistentIndex{index: index} } type fakeConsistentIndex struct { index uint64 term uint64 } func (f *fakeConsistentIndex) ConsistentIndex() uint64 { return f.index } func (f *fakeConsistentIndex) SetConsistentIndex(index uint64, term uint64) { atomic.StoreUint64(&f.index, index) atomic.StoreUint64(&f.term, term) } func (f *fakeConsistentIndex) UnsafeSave(_ backend.BatchTx) {} func (f *fakeConsistentIndex) SetBackend(_ Backend) {} func UpdateConsistentIndex(tx backend.BatchTx, index uint64, term uint64, onlyGrow bool) { tx.Lock() defer tx.Unlock() schema.UnsafeUpdateConsistentIndex(tx, index, term, onlyGrow) }