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// Copyright 2016 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 clientv3
import (
"context"
"errors"
"fmt"
"sync"
"time"
v3rpc "github.com/coreos/etcd/etcdserver/api/v3rpc/rpctypes"
pb "github.com/coreos/etcd/etcdserver/etcdserverpb"
mvccpb "github.com/coreos/etcd/mvcc/mvccpb"
"google.golang.org/grpc"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/metadata"
"google.golang.org/grpc/status"
)
const (
EventTypeDelete = mvccpb.DELETE
EventTypePut = mvccpb.PUT
closeSendErrTimeout = 250 * time.Millisecond
)
type Event mvccpb.Event
type WatchChan <-chan WatchResponse
type Watcher interface {
// Watch watches on a key or prefix. The watched events will be returned
// through the returned channel. If revisions waiting to be sent over the
// watch are compacted, then the watch will be canceled by the server, the
// client will post a compacted error watch response, and the channel will close.
// If the context "ctx" is canceled or timed out, returned "WatchChan" is closed,
// and "WatchResponse" from this closed channel has zero events and nil "Err()".
// The context "ctx" MUST be canceled, as soon as watcher is no longer being used,
// to release the associated resources.
//
// If the context is "context.Background/TODO", returned "WatchChan" will
// not be closed and block until event is triggered, except when server
// returns a non-recoverable error (e.g. ErrCompacted).
// For example, when context passed with "WithRequireLeader" and the
// connected server has no leader (e.g. due to network partition),
// error "etcdserver: no leader" (ErrNoLeader) will be returned,
// and then "WatchChan" is closed with non-nil "Err()".
// In order to prevent a watch stream being stuck in a partitioned node,
// make sure to wrap context with "WithRequireLeader".
//
// Otherwise, as long as the context has not been canceled or timed out,
// watch will retry on other recoverable errors forever until reconnected.
//
// TODO: explicitly set context error in the last "WatchResponse" message and close channel?
// Currently, client contexts are overwritten with "valCtx" that never closes.
// TODO(v3.4): configure watch retry policy, limit maximum retry number
// (see https://github.com/etcd-io/etcd/issues/8980)
Watch(ctx context.Context, key string, opts ...OpOption) WatchChan
// RequestProgress requests a progress notify response be sent in all watch channels.
RequestProgress(ctx context.Context) error
// Close closes the watcher and cancels all watch requests.
Close() error
}
type WatchResponse struct {
Header pb.ResponseHeader
Events []*Event
// CompactRevision is the minimum revision the watcher may receive.
CompactRevision int64
// Canceled is used to indicate watch failure.
// If the watch failed and the stream was about to close, before the channel is closed,
// the channel sends a final response that has Canceled set to true with a non-nil Err().
Canceled bool
// Created is used to indicate the creation of the watcher.
Created bool
closeErr error
// cancelReason is a reason of canceling watch
cancelReason string
}
// IsCreate returns true if the event tells that the key is newly created.
func (e *Event) IsCreate() bool {
return e.Type == EventTypePut && e.Kv.CreateRevision == e.Kv.ModRevision
}
// IsModify returns true if the event tells that a new value is put on existing key.
func (e *Event) IsModify() bool {
return e.Type == EventTypePut && e.Kv.CreateRevision != e.Kv.ModRevision
}
// Err is the error value if this WatchResponse holds an error.
func (wr *WatchResponse) Err() error {
switch {
case wr.closeErr != nil:
return v3rpc.Error(wr.closeErr)
case wr.CompactRevision != 0:
return v3rpc.ErrCompacted
case wr.Canceled:
if len(wr.cancelReason) != 0 {
return v3rpc.Error(status.Error(codes.FailedPrecondition, wr.cancelReason))
}
return v3rpc.ErrFutureRev
}
return nil
}
// IsProgressNotify returns true if the WatchResponse is progress notification.
func (wr *WatchResponse) IsProgressNotify() bool {
return len(wr.Events) == 0 && !wr.Canceled && !wr.Created && wr.CompactRevision == 0 && wr.Header.Revision != 0
}
// watcher implements the Watcher interface
type watcher struct {
remote pb.WatchClient
callOpts []grpc.CallOption
// mu protects the grpc streams map
mu sync.RWMutex
// streams holds all the active grpc streams keyed by ctx value.
streams map[string]*watchGrpcStream
}
// watchGrpcStream tracks all watch resources attached to a single grpc stream.
type watchGrpcStream struct {
owner *watcher
remote pb.WatchClient
callOpts []grpc.CallOption
// ctx controls internal remote.Watch requests
ctx context.Context
// ctxKey is the key used when looking up this stream's context
ctxKey string
cancel context.CancelFunc
// substreams holds all active watchers on this grpc stream
substreams map[int64]*watcherStream
// resuming holds all resuming watchers on this grpc stream
resuming []*watcherStream
// reqc sends a watch request from Watch() to the main goroutine
reqc chan watchStreamRequest
// respc receives data from the watch client
respc chan *pb.WatchResponse
// donec closes to broadcast shutdown
donec chan struct{}
// errc transmits errors from grpc Recv to the watch stream reconnect logic
errc chan error
// closingc gets the watcherStream of closing watchers
closingc chan *watcherStream
// wg is Done when all substream goroutines have exited
wg sync.WaitGroup
// resumec closes to signal that all substreams should begin resuming
resumec chan struct{}
// closeErr is the error that closed the watch stream
closeErr error
}
// watchStreamRequest is a union of the supported watch request operation types
type watchStreamRequest interface {
toPB() *pb.WatchRequest
}
// watchRequest is issued by the subscriber to start a new watcher
type watchRequest struct {
ctx context.Context
key string
end string
rev int64
// send created notification event if this field is true
createdNotify bool
// progressNotify is for progress updates
progressNotify bool
// fragmentation should be disabled by default
// if true, split watch events when total exceeds
// "--max-request-bytes" flag value + 512-byte
fragment bool
// filters is the list of events to filter out
filters []pb.WatchCreateRequest_FilterType
// get the previous key-value pair before the event happens
prevKV bool
// retc receives a chan WatchResponse once the watcher is established
retc chan chan WatchResponse
}
// progressRequest is issued by the subscriber to request watch progress
type progressRequest struct {
}
// watcherStream represents a registered watcher
type watcherStream struct {
// initReq is the request that initiated this request
initReq watchRequest
// outc publishes watch responses to subscriber
outc chan WatchResponse
// recvc buffers watch responses before publishing
recvc chan *WatchResponse
// donec closes when the watcherStream goroutine stops.
donec chan struct{}
// closing is set to true when stream should be scheduled to shutdown.
closing bool
// id is the registered watch id on the grpc stream
id int64
// buf holds all events received from etcd but not yet consumed by the client
buf []*WatchResponse
}
func NewWatcher(c *Client) Watcher {
return NewWatchFromWatchClient(pb.NewWatchClient(c.conn), c)
}
func NewWatchFromWatchClient(wc pb.WatchClient, c *Client) Watcher {
w := &watcher{
remote: wc,
streams: make(map[string]*watchGrpcStream),
}
if c != nil {
w.callOpts = c.callOpts
}
return w
}
// never closes
var valCtxCh = make(chan struct{})
var zeroTime = time.Unix(0, 0)
// ctx with only the values; never Done
type valCtx struct{ context.Context }
func (vc *valCtx) Deadline() (time.Time, bool) { return zeroTime, false }
func (vc *valCtx) Done() <-chan struct{} { return valCtxCh }
func (vc *valCtx) Err() error { return nil }
func (w *watcher) newWatcherGrpcStream(inctx context.Context) *watchGrpcStream {
ctx, cancel := context.WithCancel(&valCtx{inctx})
wgs := &watchGrpcStream{
owner: w,
remote: w.remote,
callOpts: w.callOpts,
ctx: ctx,
ctxKey: streamKeyFromCtx(inctx),
cancel: cancel,
substreams: make(map[int64]*watcherStream),
respc: make(chan *pb.WatchResponse),
reqc: make(chan watchStreamRequest),
donec: make(chan struct{}),
errc: make(chan error, 1),
closingc: make(chan *watcherStream),
resumec: make(chan struct{}),
}
go wgs.run()
return wgs
}
// Watch posts a watch request to run() and waits for a new watcher channel
func (w *watcher) Watch(ctx context.Context, key string, opts ...OpOption) WatchChan {
ow := opWatch(key, opts...)
var filters []pb.WatchCreateRequest_FilterType
if ow.filterPut {
filters = append(filters, pb.WatchCreateRequest_NOPUT)
}
if ow.filterDelete {
filters = append(filters, pb.WatchCreateRequest_NODELETE)
}
wr := &watchRequest{
ctx: ctx,
createdNotify: ow.createdNotify,
key: string(ow.key),
end: string(ow.end),
rev: ow.rev,
progressNotify: ow.progressNotify,
fragment: ow.fragment,
filters: filters,
prevKV: ow.prevKV,
retc: make(chan chan WatchResponse, 1),
}
ok := false
ctxKey := streamKeyFromCtx(ctx)
// find or allocate appropriate grpc watch stream
w.mu.Lock()
if w.streams == nil {
// closed
w.mu.Unlock()
ch := make(chan WatchResponse)
close(ch)
return ch
}
wgs := w.streams[ctxKey]
if wgs == nil {
wgs = w.newWatcherGrpcStream(ctx)
w.streams[ctxKey] = wgs
}
donec := wgs.donec
reqc := wgs.reqc
w.mu.Unlock()
// couldn't create channel; return closed channel
closeCh := make(chan WatchResponse, 1)
// submit request
select {
case reqc <- wr:
ok = true
case <-wr.ctx.Done():
case <-donec:
if wgs.closeErr != nil {
closeCh <- WatchResponse{Canceled: true, closeErr: wgs.closeErr}
break
}
// retry; may have dropped stream from no ctxs
return w.Watch(ctx, key, opts...)
}
// receive channel
if ok {
select {
case ret := <-wr.retc:
return ret
case <-ctx.Done():
case <-donec:
if wgs.closeErr != nil {
closeCh <- WatchResponse{Canceled: true, closeErr: wgs.closeErr}
break
}
// retry; may have dropped stream from no ctxs
return w.Watch(ctx, key, opts...)
}
}
close(closeCh)
return closeCh
}
func (w *watcher) Close() (err error) {
w.mu.Lock()
streams := w.streams
w.streams = nil
w.mu.Unlock()
for _, wgs := range streams {
if werr := wgs.close(); werr != nil {
err = werr
}
}
// Consider context.Canceled as a successful close
if err == context.Canceled {
err = nil
}
return err
}
// RequestProgress requests a progress notify response be sent in all watch channels.
func (w *watcher) RequestProgress(ctx context.Context) (err error) {
ctxKey := streamKeyFromCtx(ctx)
w.mu.Lock()
if w.streams == nil {
w.mu.Unlock()
return fmt.Errorf("no stream found for context")
}
wgs := w.streams[ctxKey]
if wgs == nil {
wgs = w.newWatcherGrpcStream(ctx)
w.streams[ctxKey] = wgs
}
donec := wgs.donec
reqc := wgs.reqc
w.mu.Unlock()
pr := &progressRequest{}
select {
case reqc <- pr:
return nil
case <-ctx.Done():
if err == nil {
return ctx.Err()
}
return err
case <-donec:
if wgs.closeErr != nil {
return wgs.closeErr
}
// retry; may have dropped stream from no ctxs
return w.RequestProgress(ctx)
}
}
func (w *watchGrpcStream) close() (err error) {
w.cancel()
<-w.donec
select {
case err = <-w.errc:
default:
}
return toErr(w.ctx, err)
}
func (w *watcher) closeStream(wgs *watchGrpcStream) {
w.mu.Lock()
close(wgs.donec)
wgs.cancel()
if w.streams != nil {
delete(w.streams, wgs.ctxKey)
}
w.mu.Unlock()
}
func (w *watchGrpcStream) addSubstream(resp *pb.WatchResponse, ws *watcherStream) {
// check watch ID for backward compatibility (<= v3.3)
if resp.WatchId == -1 || (resp.Canceled && resp.CancelReason != "") {
w.closeErr = v3rpc.Error(errors.New(resp.CancelReason))
// failed; no channel
close(ws.recvc)
return
}
ws.id = resp.WatchId
w.substreams[ws.id] = ws
}
func (w *watchGrpcStream) sendCloseSubstream(ws *watcherStream, resp *WatchResponse) {
select {
case ws.outc <- *resp:
case <-ws.initReq.ctx.Done():
case <-time.After(closeSendErrTimeout):
}
close(ws.outc)
}
func (w *watchGrpcStream) closeSubstream(ws *watcherStream) {
// send channel response in case stream was never established
select {
case ws.initReq.retc <- ws.outc:
default:
}
// close subscriber's channel
if closeErr := w.closeErr; closeErr != nil && ws.initReq.ctx.Err() == nil {
go w.sendCloseSubstream(ws, &WatchResponse{Canceled: true, closeErr: w.closeErr})
} else if ws.outc != nil {
close(ws.outc)
}
if ws.id != -1 {
delete(w.substreams, ws.id)
return
}
for i := range w.resuming {
if w.resuming[i] == ws {
w.resuming[i] = nil
return
}
}
}
// run is the root of the goroutines for managing a watcher client
func (w *watchGrpcStream) run() {
var wc pb.Watch_WatchClient
var closeErr error
// substreams marked to close but goroutine still running; needed for
// avoiding double-closing recvc on grpc stream teardown
closing := make(map[*watcherStream]struct{})
defer func() {
w.closeErr = closeErr
// shutdown substreams and resuming substreams
for _, ws := range w.substreams {
if _, ok := closing[ws]; !ok {
close(ws.recvc)
closing[ws] = struct{}{}
}
}
for _, ws := range w.resuming {
if _, ok := closing[ws]; ws != nil && !ok {
close(ws.recvc)
closing[ws] = struct{}{}
}
}
w.joinSubstreams()
for range closing {
w.closeSubstream(<-w.closingc)
}
w.wg.Wait()
w.owner.closeStream(w)
}()
// start a stream with the etcd grpc server
if wc, closeErr = w.newWatchClient(); closeErr != nil {
return
}
cancelSet := make(map[int64]struct{})
var cur *pb.WatchResponse
for {
select {
// Watch() requested
case req := <-w.reqc:
switch wreq := req.(type) {
case *watchRequest:
outc := make(chan WatchResponse, 1)
// TODO: pass custom watch ID?
ws := &watcherStream{
initReq: *wreq,
id: -1,
outc: outc,
// unbuffered so resumes won't cause repeat events
recvc: make(chan *WatchResponse),
}
ws.donec = make(chan struct{})
w.wg.Add(1)
go w.serveSubstream(ws, w.resumec)
// queue up for watcher creation/resume
w.resuming = append(w.resuming, ws)
if len(w.resuming) == 1 {
// head of resume queue, can register a new watcher
wc.Send(ws.initReq.toPB())
}
case *progressRequest:
wc.Send(wreq.toPB())
}
// new events from the watch client
case pbresp := <-w.respc:
if cur == nil || pbresp.Created || pbresp.Canceled {
cur = pbresp
} else if cur != nil && cur.WatchId == pbresp.WatchId {
// merge new events
cur.Events = append(cur.Events, pbresp.Events...)
// update "Fragment" field; last response with "Fragment" == false
cur.Fragment = pbresp.Fragment
}
switch {
case pbresp.Created:
// response to head of queue creation
if ws := w.resuming[0]; ws != nil {
w.addSubstream(pbresp, ws)
w.dispatchEvent(pbresp)
w.resuming[0] = nil
}
if ws := w.nextResume(); ws != nil {
wc.Send(ws.initReq.toPB())
}
// reset for next iteration
cur = nil
case pbresp.Canceled && pbresp.CompactRevision == 0:
delete(cancelSet, pbresp.WatchId)
if ws, ok := w.substreams[pbresp.WatchId]; ok {
// signal to stream goroutine to update closingc
close(ws.recvc)
closing[ws] = struct{}{}
}
// reset for next iteration
cur = nil
case cur.Fragment:
// watch response events are still fragmented
// continue to fetch next fragmented event arrival
continue
default:
// dispatch to appropriate watch stream
ok := w.dispatchEvent(cur)
// reset for next iteration
cur = nil
if ok {
break
}
// watch response on unexpected watch id; cancel id
if _, ok := cancelSet[pbresp.WatchId]; ok {
break
}
cancelSet[pbresp.WatchId] = struct{}{}
cr := &pb.WatchRequest_CancelRequest{
CancelRequest: &pb.WatchCancelRequest{
WatchId: pbresp.WatchId,
},
}
req := &pb.WatchRequest{RequestUnion: cr}
wc.Send(req)
}
// watch client failed on Recv; spawn another if possible
case err := <-w.errc:
if isHaltErr(w.ctx, err) || toErr(w.ctx, err) == v3rpc.ErrNoLeader {
closeErr = err
return
}
if wc, closeErr = w.newWatchClient(); closeErr != nil {
return
}
if ws := w.nextResume(); ws != nil {
wc.Send(ws.initReq.toPB())
}
cancelSet = make(map[int64]struct{})
case <-w.ctx.Done():
return
case ws := <-w.closingc:
w.closeSubstream(ws)
delete(closing, ws)
// no more watchers on this stream, shutdown
if len(w.substreams)+len(w.resuming) == 0 {
return
}
}
}
}
// nextResume chooses the next resuming to register with the grpc stream. Abandoned
// streams are marked as nil in the queue since the head must wait for its inflight registration.
func (w *watchGrpcStream) nextResume() *watcherStream {
for len(w.resuming) != 0 {
if w.resuming[0] != nil {
return w.resuming[0]
}
w.resuming = w.resuming[1:len(w.resuming)]
}
return nil
}
// dispatchEvent sends a WatchResponse to the appropriate watcher stream
func (w *watchGrpcStream) dispatchEvent(pbresp *pb.WatchResponse) bool {
events := make([]*Event, len(pbresp.Events))
for i, ev := range pbresp.Events {
events[i] = (*Event)(ev)
}
// TODO: return watch ID?
wr := &WatchResponse{
Header: *pbresp.Header,
Events: events,
CompactRevision: pbresp.CompactRevision,
Created: pbresp.Created,
Canceled: pbresp.Canceled,
cancelReason: pbresp.CancelReason,
}
// watch IDs are zero indexed, so request notify watch responses are assigned a watch ID of -1 to
// indicate they should be broadcast.
if wr.IsProgressNotify() && pbresp.WatchId == -1 {
return w.broadcastResponse(wr)
}
return w.unicastResponse(wr, pbresp.WatchId)
}
// broadcastResponse send a watch response to all watch substreams.
func (w *watchGrpcStream) broadcastResponse(wr *WatchResponse) bool {
for _, ws := range w.substreams {
select {
case ws.recvc <- wr:
case <-ws.donec:
}
}
return true
}
// unicastResponse sends a watch response to a specific watch substream.
func (w *watchGrpcStream) unicastResponse(wr *WatchResponse, watchId int64) bool {
ws, ok := w.substreams[watchId]
if !ok {
return false
}
select {
case ws.recvc <- wr:
case <-ws.donec:
return false
}
return true
}
// serveWatchClient forwards messages from the grpc stream to run()
func (w *watchGrpcStream) serveWatchClient(wc pb.Watch_WatchClient) {
for {
resp, err := wc.Recv()
if err != nil {
select {
case w.errc <- err:
case <-w.donec:
}
return
}
select {
case w.respc <- resp:
case <-w.donec:
return
}
}
}
// serveSubstream forwards watch responses from run() to the subscriber
func (w *watchGrpcStream) serveSubstream(ws *watcherStream, resumec chan struct{}) {
if ws.closing {
panic("created substream goroutine but substream is closing")
}
// nextRev is the minimum expected next revision
nextRev := ws.initReq.rev
resuming := false
defer func() {
if !resuming {
ws.closing = true
}
close(ws.donec)
if !resuming {
w.closingc <- ws
}
w.wg.Done()
}()
emptyWr := &WatchResponse{}
for {
curWr := emptyWr
outc := ws.outc
if len(ws.buf) > 0 {
curWr = ws.buf[0]
} else {
outc = nil
}
select {
case outc <- *curWr:
if ws.buf[0].Err() != nil {
return
}
ws.buf[0] = nil
ws.buf = ws.buf[1:]
case wr, ok := <-ws.recvc:
if !ok {
// shutdown from closeSubstream
return
}
if wr.Created {
if ws.initReq.retc != nil {
ws.initReq.retc <- ws.outc
// to prevent next write from taking the slot in buffered channel
// and posting duplicate create events
ws.initReq.retc = nil
// send first creation event only if requested
if ws.initReq.createdNotify {
ws.outc <- *wr
}
// once the watch channel is returned, a current revision
// watch must resume at the store revision. This is necessary
// for the following case to work as expected:
// wch := m1.Watch("a")
// m2.Put("a", "b")
// <-wch
// If the revision is only bound on the first observed event,
// if wch is disconnected before the Put is issued, then reconnects
// after it is committed, it'll miss the Put.
if ws.initReq.rev == 0 {
nextRev = wr.Header.Revision
}
}
} else {
// current progress of watch; <= store revision
nextRev = wr.Header.Revision
}
if len(wr.Events) > 0 {
nextRev = wr.Events[len(wr.Events)-1].Kv.ModRevision + 1
}
ws.initReq.rev = nextRev
// created event is already sent above,
// watcher should not post duplicate events
if wr.Created {
continue
}
// TODO pause channel if buffer gets too large
ws.buf = append(ws.buf, wr)
case <-w.ctx.Done():
return
case <-ws.initReq.ctx.Done():
return
case <-resumec:
resuming = true
return
}
}
// lazily send cancel message if events on missing id
}
func (w *watchGrpcStream) newWatchClient() (pb.Watch_WatchClient, error) {
// mark all substreams as resuming
close(w.resumec)
w.resumec = make(chan struct{})
w.joinSubstreams()
for _, ws := range w.substreams {
ws.id = -1
w.resuming = append(w.resuming, ws)
}
// strip out nils, if any
var resuming []*watcherStream
for _, ws := range w.resuming {
if ws != nil {
resuming = append(resuming, ws)
}
}
w.resuming = resuming
w.substreams = make(map[int64]*watcherStream)
// connect to grpc stream while accepting watcher cancelation
stopc := make(chan struct{})
donec := w.waitCancelSubstreams(stopc)
wc, err := w.openWatchClient()
close(stopc)
<-donec
// serve all non-closing streams, even if there's a client error
// so that the teardown path can shutdown the streams as expected.
for _, ws := range w.resuming {
if ws.closing {
continue
}
ws.donec = make(chan struct{})
w.wg.Add(1)
go w.serveSubstream(ws, w.resumec)
}
if err != nil {
return nil, v3rpc.Error(err)
}
// receive data from new grpc stream
go w.serveWatchClient(wc)
return wc, nil
}
func (w *watchGrpcStream) waitCancelSubstreams(stopc <-chan struct{}) <-chan struct{} {
var wg sync.WaitGroup
wg.Add(len(w.resuming))
donec := make(chan struct{})
for i := range w.resuming {
go func(ws *watcherStream) {
defer wg.Done()
if ws.closing {
if ws.initReq.ctx.Err() != nil && ws.outc != nil {
close(ws.outc)
ws.outc = nil
}
return
}
select {
case <-ws.initReq.ctx.Done():
// closed ws will be removed from resuming
ws.closing = true
close(ws.outc)
ws.outc = nil
w.wg.Add(1)
go func() {
defer w.wg.Done()
w.closingc <- ws
}()
case <-stopc:
}
}(w.resuming[i])
}
go func() {
defer close(donec)
wg.Wait()
}()
return donec
}
// joinSubstreams waits for all substream goroutines to complete.
func (w *watchGrpcStream) joinSubstreams() {
for _, ws := range w.substreams {
<-ws.donec
}
for _, ws := range w.resuming {
if ws != nil {
<-ws.donec
}
}
}
var maxBackoff = 100 * time.Millisecond
// openWatchClient retries opening a watch client until success or halt.
// manually retry in case "ws==nil && err==nil"
// TODO: remove FailFast=false
func (w *watchGrpcStream) openWatchClient() (ws pb.Watch_WatchClient, err error) {
backoff := time.Millisecond
for {
select {
case <-w.ctx.Done():
if err == nil {
return nil, w.ctx.Err()
}
return nil, err
default:
}
if ws, err = w.remote.Watch(w.ctx, w.callOpts...); ws != nil && err == nil {
break
}
if isHaltErr(w.ctx, err) {
return nil, v3rpc.Error(err)
}
if isUnavailableErr(w.ctx, err) {
// retry, but backoff
if backoff < maxBackoff {
// 25% backoff factor
backoff = backoff + backoff/4
if backoff > maxBackoff {
backoff = maxBackoff
}
}
time.Sleep(backoff)
}
}
return ws, nil
}
// toPB converts an internal watch request structure to its protobuf WatchRequest structure.
func (wr *watchRequest) toPB() *pb.WatchRequest {
req := &pb.WatchCreateRequest{
StartRevision: wr.rev,
Key: []byte(wr.key),
RangeEnd: []byte(wr.end),
ProgressNotify: wr.progressNotify,
Filters: wr.filters,
PrevKv: wr.prevKV,
Fragment: wr.fragment,
}
cr := &pb.WatchRequest_CreateRequest{CreateRequest: req}
return &pb.WatchRequest{RequestUnion: cr}
}
// toPB converts an internal progress request structure to its protobuf WatchRequest structure.
func (pr *progressRequest) toPB() *pb.WatchRequest {
req := &pb.WatchProgressRequest{}
cr := &pb.WatchRequest_ProgressRequest{ProgressRequest: req}
return &pb.WatchRequest{RequestUnion: cr}
}
func streamKeyFromCtx(ctx context.Context) string {
if md, ok := metadata.FromOutgoingContext(ctx); ok {
return fmt.Sprintf("%+v", md)
}
return ""
}