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- // Copyright 2015 CoreOS, Inc.
- //
- // 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 v3rpc
- import (
- "io"
- "sync"
- "time"
- "github.com/coreos/etcd/etcdserver"
- pb "github.com/coreos/etcd/etcdserver/etcdserverpb"
- "github.com/coreos/etcd/storage"
- "github.com/coreos/etcd/storage/storagepb"
- )
- type watchServer struct {
- clusterID int64
- memberID int64
- raftTimer etcdserver.RaftTimer
- watchable storage.Watchable
- }
- func NewWatchServer(s *etcdserver.EtcdServer) pb.WatchServer {
- return &watchServer{
- clusterID: int64(s.Cluster().ID()),
- memberID: int64(s.ID()),
- raftTimer: s,
- watchable: s.Watchable(),
- }
- }
- var (
- // External test can read this with GetProgressReportInterval()
- // and change this to a small value to finish fast with
- // SetProgressReportInterval().
- progressReportInterval = 10 * time.Minute
- progressReportIntervalMu sync.RWMutex
- )
- func GetProgressReportInterval() time.Duration {
- progressReportIntervalMu.RLock()
- defer progressReportIntervalMu.RUnlock()
- return progressReportInterval
- }
- func SetProgressReportInterval(newTimeout time.Duration) {
- progressReportIntervalMu.Lock()
- defer progressReportIntervalMu.Unlock()
- progressReportInterval = newTimeout
- }
- const (
- // We send ctrl response inside the read loop. We do not want
- // send to block read, but we still want ctrl response we sent to
- // be serialized. Thus we use a buffered chan to solve the problem.
- // A small buffer should be OK for most cases, since we expect the
- // ctrl requests are infrequent.
- ctrlStreamBufLen = 16
- )
- // serverWatchStream is an etcd server side stream. It receives requests
- // from client side gRPC stream. It receives watch events from storage.WatchStream,
- // and creates responses that forwarded to gRPC stream.
- // It also forwards control message like watch created and canceled.
- type serverWatchStream struct {
- clusterID int64
- memberID int64
- raftTimer etcdserver.RaftTimer
- gRPCStream pb.Watch_WatchServer
- watchStream storage.WatchStream
- ctrlStream chan *pb.WatchResponse
- // progress tracks the watchID that stream might need to send
- // progress to.
- progress map[storage.WatchID]bool
- // mu protects progress
- mu sync.Mutex
- // closec indicates the stream is closed.
- closec chan struct{}
- }
- func (ws *watchServer) Watch(stream pb.Watch_WatchServer) error {
- sws := serverWatchStream{
- clusterID: ws.clusterID,
- memberID: ws.memberID,
- raftTimer: ws.raftTimer,
- gRPCStream: stream,
- watchStream: ws.watchable.NewWatchStream(),
- // chan for sending control response like watcher created and canceled.
- ctrlStream: make(chan *pb.WatchResponse, ctrlStreamBufLen),
- progress: make(map[storage.WatchID]bool),
- closec: make(chan struct{}),
- }
- defer sws.close()
- go sws.sendLoop()
- return sws.recvLoop()
- }
- func (sws *serverWatchStream) recvLoop() error {
- for {
- req, err := sws.gRPCStream.Recv()
- if err == io.EOF {
- return nil
- }
- if err != nil {
- return err
- }
- switch uv := req.RequestUnion.(type) {
- case *pb.WatchRequest_CreateRequest:
- if uv.CreateRequest == nil {
- break
- }
- creq := uv.CreateRequest
- if len(creq.Key) == 0 {
- // \x00 is the smallest key
- creq.Key = []byte{0}
- }
- if len(creq.RangeEnd) == 1 && creq.RangeEnd[0] == 0 {
- // support >= key queries
- creq.RangeEnd = []byte{}
- }
- wsrev := sws.watchStream.Rev()
- rev := creq.StartRevision
- if rev == 0 {
- rev = wsrev + 1
- }
- id := sws.watchStream.Watch(creq.Key, creq.RangeEnd, rev)
- if id != -1 && creq.ProgressNotify {
- sws.progress[id] = true
- }
- sws.ctrlStream <- &pb.WatchResponse{
- Header: sws.newResponseHeader(wsrev),
- WatchId: int64(id),
- Created: true,
- Canceled: id == -1,
- }
- case *pb.WatchRequest_CancelRequest:
- if uv.CancelRequest != nil {
- id := uv.CancelRequest.WatchId
- err := sws.watchStream.Cancel(storage.WatchID(id))
- if err == nil {
- sws.ctrlStream <- &pb.WatchResponse{
- Header: sws.newResponseHeader(sws.watchStream.Rev()),
- WatchId: id,
- Canceled: true,
- }
- sws.mu.Lock()
- delete(sws.progress, storage.WatchID(id))
- sws.mu.Unlock()
- }
- }
- // TODO: do we need to return error back to client?
- default:
- panic("not implemented")
- }
- }
- }
- func (sws *serverWatchStream) sendLoop() {
- // watch ids that are currently active
- ids := make(map[storage.WatchID]struct{})
- // watch responses pending on a watch id creation message
- pending := make(map[storage.WatchID][]*pb.WatchResponse)
- interval := GetProgressReportInterval()
- progressTicker := time.NewTicker(interval)
- defer progressTicker.Stop()
- for {
- select {
- case wresp, ok := <-sws.watchStream.Chan():
- if !ok {
- return
- }
- // TODO: evs is []storagepb.Event type
- // either return []*storagepb.Event from storage package
- // or define protocol buffer with []storagepb.Event.
- evs := wresp.Events
- events := make([]*storagepb.Event, len(evs))
- for i := range evs {
- events[i] = &evs[i]
- }
- wr := &pb.WatchResponse{
- Header: sws.newResponseHeader(wresp.Revision),
- WatchId: int64(wresp.WatchID),
- Events: events,
- CompactRevision: wresp.CompactRevision,
- }
- if _, hasId := ids[wresp.WatchID]; !hasId {
- // buffer if id not yet announced
- wrs := append(pending[wresp.WatchID], wr)
- pending[wresp.WatchID] = wrs
- continue
- }
- storage.ReportEventReceived()
- if err := sws.gRPCStream.Send(wr); err != nil {
- return
- }
- sws.mu.Lock()
- if _, ok := sws.progress[wresp.WatchID]; ok {
- sws.progress[wresp.WatchID] = false
- }
- sws.mu.Unlock()
- case c, ok := <-sws.ctrlStream:
- if !ok {
- return
- }
- if err := sws.gRPCStream.Send(c); err != nil {
- return
- }
- // track id creation
- wid := storage.WatchID(c.WatchId)
- if c.Canceled {
- delete(ids, wid)
- continue
- }
- if c.Created {
- // flush buffered events
- ids[wid] = struct{}{}
- for _, v := range pending[wid] {
- storage.ReportEventReceived()
- if err := sws.gRPCStream.Send(v); err != nil {
- return
- }
- }
- delete(pending, wid)
- }
- case <-progressTicker.C:
- for id, ok := range sws.progress {
- if ok {
- sws.watchStream.RequestProgress(id)
- }
- sws.progress[id] = true
- }
- case <-sws.closec:
- // drain the chan to clean up pending events
- for range sws.watchStream.Chan() {
- storage.ReportEventReceived()
- }
- for _, wrs := range pending {
- for range wrs {
- storage.ReportEventReceived()
- }
- }
- }
- }
- }
- func (sws *serverWatchStream) close() {
- sws.watchStream.Close()
- close(sws.closec)
- close(sws.ctrlStream)
- }
- func (sws *serverWatchStream) newResponseHeader(rev int64) *pb.ResponseHeader {
- return &pb.ResponseHeader{
- ClusterId: uint64(sws.clusterID),
- MemberId: uint64(sws.memberID),
- Revision: rev,
- RaftTerm: sws.raftTimer.Term(),
- }
- }
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