// Copyright 2017 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 leasing import ( "context" "strings" "sync" "time" v3 "github.com/coreos/etcd/clientv3" "github.com/coreos/etcd/clientv3/concurrency" "github.com/coreos/etcd/etcdserver/api/v3rpc/rpctypes" pb "github.com/coreos/etcd/etcdserver/etcdserverpb" "github.com/coreos/etcd/mvcc/mvccpb" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" ) type leasingKV struct { cl *v3.Client kv v3.KV pfx string leases leaseCache ctx context.Context cancel context.CancelFunc wg sync.WaitGroup sessionOpts []concurrency.SessionOption session *concurrency.Session sessionc chan struct{} } var closedCh chan struct{} func init() { closedCh = make(chan struct{}) close(closedCh) } // NewKV wraps a KV instance so that all requests are wired through a leasing protocol. func NewKV(cl *v3.Client, pfx string, opts ...concurrency.SessionOption) (v3.KV, func(), error) { cctx, cancel := context.WithCancel(cl.Ctx()) lkv := &leasingKV{ cl: cl, kv: cl.KV, pfx: pfx, leases: leaseCache{revokes: make(map[string]time.Time)}, ctx: cctx, cancel: cancel, sessionOpts: opts, sessionc: make(chan struct{}), } lkv.wg.Add(2) go func() { defer lkv.wg.Done() lkv.monitorSession() }() go func() { defer lkv.wg.Done() lkv.leases.clearOldRevokes(cctx) }() return lkv, lkv.Close, lkv.waitSession(cctx) } func (lkv *leasingKV) Close() { lkv.cancel() lkv.wg.Wait() } func (lkv *leasingKV) Get(ctx context.Context, key string, opts ...v3.OpOption) (*v3.GetResponse, error) { return lkv.get(ctx, v3.OpGet(key, opts...)) } func (lkv *leasingKV) Put(ctx context.Context, key, val string, opts ...v3.OpOption) (*v3.PutResponse, error) { return lkv.put(ctx, v3.OpPut(key, val, opts...)) } func (lkv *leasingKV) Delete(ctx context.Context, key string, opts ...v3.OpOption) (*v3.DeleteResponse, error) { return lkv.delete(ctx, v3.OpDelete(key, opts...)) } func (lkv *leasingKV) Do(ctx context.Context, op v3.Op) (v3.OpResponse, error) { switch { case op.IsGet(): resp, err := lkv.get(ctx, op) return resp.OpResponse(), err case op.IsPut(): resp, err := lkv.put(ctx, op) return resp.OpResponse(), err case op.IsDelete(): resp, err := lkv.delete(ctx, op) return resp.OpResponse(), err case op.IsTxn(): cmps, thenOps, elseOps := op.Txn() resp, err := lkv.Txn(ctx).If(cmps...).Then(thenOps...).Else(elseOps...).Commit() return resp.OpResponse(), err } return v3.OpResponse{}, nil } func (lkv *leasingKV) Compact(ctx context.Context, rev int64, opts ...v3.CompactOption) (*v3.CompactResponse, error) { return lkv.kv.Compact(ctx, rev, opts...) } func (lkv *leasingKV) Txn(ctx context.Context) v3.Txn { return &txnLeasing{Txn: lkv.kv.Txn(ctx), lkv: lkv, ctx: ctx} } func (lkv *leasingKV) monitorSession() { for lkv.ctx.Err() == nil { if lkv.session != nil { select { case <-lkv.session.Done(): case <-lkv.ctx.Done(): return } } lkv.leases.mu.Lock() select { case <-lkv.sessionc: lkv.sessionc = make(chan struct{}) default: } lkv.leases.entries = make(map[string]*leaseKey) lkv.leases.mu.Unlock() s, err := concurrency.NewSession(lkv.cl, lkv.sessionOpts...) if err != nil { continue } lkv.leases.mu.Lock() lkv.session = s close(lkv.sessionc) lkv.leases.mu.Unlock() } } func (lkv *leasingKV) monitorLease(ctx context.Context, key string, rev int64) { cctx, cancel := context.WithCancel(lkv.ctx) defer cancel() for cctx.Err() == nil { if rev == 0 { resp, err := lkv.kv.Get(ctx, lkv.pfx+key) if err != nil { continue } rev = resp.Header.Revision if len(resp.Kvs) == 0 || string(resp.Kvs[0].Value) == "REVOKE" { lkv.rescind(cctx, key, rev) return } } wch := lkv.cl.Watch(cctx, lkv.pfx+key, v3.WithRev(rev+1)) for resp := range wch { for _, ev := range resp.Events { if string(ev.Kv.Value) != "REVOKE" { continue } if v3.LeaseID(ev.Kv.Lease) == lkv.leaseID() { lkv.rescind(cctx, key, ev.Kv.ModRevision) } return } } rev = 0 } } // rescind releases a lease from this client. func (lkv *leasingKV) rescind(ctx context.Context, key string, rev int64) { if lkv.leases.Evict(key) > rev { return } cmp := v3.Compare(v3.CreateRevision(lkv.pfx+key), "<", rev) op := v3.OpDelete(lkv.pfx + key) for ctx.Err() == nil { if _, err := lkv.kv.Txn(ctx).If(cmp).Then(op).Commit(); err == nil { return } } } func (lkv *leasingKV) waitRescind(ctx context.Context, key string, rev int64) error { cctx, cancel := context.WithCancel(ctx) defer cancel() wch := lkv.cl.Watch(cctx, lkv.pfx+key, v3.WithRev(rev+1)) for resp := range wch { for _, ev := range resp.Events { if ev.Type == v3.EventTypeDelete { return ctx.Err() } } } return ctx.Err() } func (lkv *leasingKV) tryModifyOp(ctx context.Context, op v3.Op) (*v3.TxnResponse, chan<- struct{}, error) { key := string(op.KeyBytes()) wc, rev := lkv.leases.Lock(key) cmp := v3.Compare(v3.CreateRevision(lkv.pfx+key), "<", rev+1) resp, err := lkv.kv.Txn(ctx).If(cmp).Then(op).Commit() switch { case err != nil: lkv.leases.Evict(key) fallthrough case !resp.Succeeded: if wc != nil { close(wc) } return nil, nil, err } return resp, wc, nil } func (lkv *leasingKV) put(ctx context.Context, op v3.Op) (pr *v3.PutResponse, err error) { if err := lkv.waitSession(ctx); err != nil { return nil, err } for ctx.Err() == nil { resp, wc, err := lkv.tryModifyOp(ctx, op) if err != nil || wc == nil { resp, err = lkv.revoke(ctx, string(op.KeyBytes()), op) } if err != nil { return nil, err } if resp.Succeeded { lkv.leases.mu.Lock() lkv.leases.Update(op.KeyBytes(), op.ValueBytes(), resp.Header) lkv.leases.mu.Unlock() pr = (*v3.PutResponse)(resp.Responses[0].GetResponsePut()) pr.Header = resp.Header } if wc != nil { close(wc) } if resp.Succeeded { return pr, nil } } return nil, ctx.Err() } func (lkv *leasingKV) acquire(ctx context.Context, key string, op v3.Op) (*v3.TxnResponse, error) { for ctx.Err() == nil { if err := lkv.waitSession(ctx); err != nil { return nil, err } lcmp := v3.Cmp{Key: []byte(key), Target: pb.Compare_LEASE} resp, err := lkv.kv.Txn(ctx).If( v3.Compare(v3.CreateRevision(lkv.pfx+key), "=", 0), v3.Compare(lcmp, "=", 0)). Then( op, v3.OpPut(lkv.pfx+key, "", v3.WithLease(lkv.leaseID()))). Else( op, v3.OpGet(lkv.pfx+key), ).Commit() if err == nil { if !resp.Succeeded { kvs := resp.Responses[1].GetResponseRange().Kvs // if txn failed since already owner, lease is acquired resp.Succeeded = len(kvs) > 0 && v3.LeaseID(kvs[0].Lease) == lkv.leaseID() } return resp, nil } // retry if transient error if _, ok := err.(rpctypes.EtcdError); ok { return nil, err } if ev, _ := status.FromError(err); ev.Code() != codes.Unavailable { return nil, err } } return nil, ctx.Err() } func (lkv *leasingKV) get(ctx context.Context, op v3.Op) (*v3.GetResponse, error) { do := func() (*v3.GetResponse, error) { r, err := lkv.kv.Do(ctx, op) return r.Get(), err } if !lkv.readySession() { return do() } if resp, ok := lkv.leases.Get(ctx, op); resp != nil { return resp, nil } else if !ok || op.IsSerializable() { // must be handled by server or can skip linearization return do() } key := string(op.KeyBytes()) if !lkv.leases.MayAcquire(key) { resp, err := lkv.kv.Do(ctx, op) return resp.Get(), err } resp, err := lkv.acquire(ctx, key, v3.OpGet(key)) if err != nil { return nil, err } getResp := (*v3.GetResponse)(resp.Responses[0].GetResponseRange()) getResp.Header = resp.Header if resp.Succeeded { getResp = lkv.leases.Add(key, getResp, op) lkv.wg.Add(1) go func() { defer lkv.wg.Done() lkv.monitorLease(ctx, key, resp.Header.Revision) }() } return getResp, nil } func (lkv *leasingKV) deleteRangeRPC(ctx context.Context, maxLeaseRev int64, key, end string) (*v3.DeleteResponse, error) { lkey, lend := lkv.pfx+key, lkv.pfx+end resp, err := lkv.kv.Txn(ctx).If( v3.Compare(v3.CreateRevision(lkey).WithRange(lend), "<", maxLeaseRev+1), ).Then( v3.OpGet(key, v3.WithRange(end), v3.WithKeysOnly()), v3.OpDelete(key, v3.WithRange(end)), ).Commit() if err != nil { lkv.leases.EvictRange(key, end) return nil, err } if !resp.Succeeded { return nil, nil } for _, kv := range resp.Responses[0].GetResponseRange().Kvs { lkv.leases.Delete(string(kv.Key), resp.Header) } delResp := (*v3.DeleteResponse)(resp.Responses[1].GetResponseDeleteRange()) delResp.Header = resp.Header return delResp, nil } func (lkv *leasingKV) deleteRange(ctx context.Context, op v3.Op) (*v3.DeleteResponse, error) { key, end := string(op.KeyBytes()), string(op.RangeBytes()) for ctx.Err() == nil { maxLeaseRev, err := lkv.revokeRange(ctx, key, end) if err != nil { return nil, err } wcs := lkv.leases.LockRange(key, end) delResp, err := lkv.deleteRangeRPC(ctx, maxLeaseRev, key, end) closeAll(wcs) if err != nil || delResp != nil { return delResp, err } } return nil, ctx.Err() } func (lkv *leasingKV) delete(ctx context.Context, op v3.Op) (dr *v3.DeleteResponse, err error) { if err := lkv.waitSession(ctx); err != nil { return nil, err } if len(op.RangeBytes()) > 0 { return lkv.deleteRange(ctx, op) } key := string(op.KeyBytes()) for ctx.Err() == nil { resp, wc, err := lkv.tryModifyOp(ctx, op) if err != nil || wc == nil { resp, err = lkv.revoke(ctx, key, op) } if err != nil { // don't know if delete was processed lkv.leases.Evict(key) return nil, err } if resp.Succeeded { dr = (*v3.DeleteResponse)(resp.Responses[0].GetResponseDeleteRange()) dr.Header = resp.Header lkv.leases.Delete(key, dr.Header) } if wc != nil { close(wc) } if resp.Succeeded { return dr, nil } } return nil, ctx.Err() } func (lkv *leasingKV) revoke(ctx context.Context, key string, op v3.Op) (*v3.TxnResponse, error) { rev := lkv.leases.Rev(key) txn := lkv.kv.Txn(ctx).If(v3.Compare(v3.CreateRevision(lkv.pfx+key), "<", rev+1)).Then(op) resp, err := txn.Else(v3.OpPut(lkv.pfx+key, "REVOKE", v3.WithIgnoreLease())).Commit() if err != nil || resp.Succeeded { return resp, err } return resp, lkv.waitRescind(ctx, key, resp.Header.Revision) } func (lkv *leasingKV) revokeRange(ctx context.Context, begin, end string) (int64, error) { lkey, lend := lkv.pfx+begin, "" if len(end) > 0 { lend = lkv.pfx + end } leaseKeys, err := lkv.kv.Get(ctx, lkey, v3.WithRange(lend)) if err != nil { return 0, err } return lkv.revokeLeaseKvs(ctx, leaseKeys.Kvs) } func (lkv *leasingKV) revokeLeaseKvs(ctx context.Context, kvs []*mvccpb.KeyValue) (int64, error) { maxLeaseRev := int64(0) for _, kv := range kvs { if rev := kv.CreateRevision; rev > maxLeaseRev { maxLeaseRev = rev } if v3.LeaseID(kv.Lease) == lkv.leaseID() { // don't revoke own keys continue } key := strings.TrimPrefix(string(kv.Key), lkv.pfx) if _, err := lkv.revoke(ctx, key, v3.OpGet(key)); err != nil { return 0, err } } return maxLeaseRev, nil } func (lkv *leasingKV) waitSession(ctx context.Context) error { lkv.leases.mu.RLock() sessionc := lkv.sessionc lkv.leases.mu.RUnlock() select { case <-sessionc: return nil case <-lkv.ctx.Done(): return lkv.ctx.Err() case <-ctx.Done(): return ctx.Err() } } func (lkv *leasingKV) readySession() bool { lkv.leases.mu.RLock() defer lkv.leases.mu.RUnlock() if lkv.session == nil { return false } select { case <-lkv.session.Done(): default: return true } return false } func (lkv *leasingKV) leaseID() v3.LeaseID { lkv.leases.mu.RLock() defer lkv.leases.mu.RUnlock() return lkv.session.Lease() }