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nginx-sso/vendor/cloud.google.com/go/pubsub/iterator.go

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// Copyright 2016 Google LLC
//
// 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 pubsub
import (
"context"
"io"
"sync"
"time"
vkit "cloud.google.com/go/pubsub/apiv1"
"cloud.google.com/go/pubsub/internal/distribution"
gax "github.com/googleapis/gax-go/v2"
pb "google.golang.org/genproto/googleapis/pubsub/v1"
"google.golang.org/grpc"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
)
// Between message receipt and ack (that is, the time spent processing a message) we want to extend the message
// deadline by way of modack. However, we don't want to extend the deadline right as soon as the deadline expires;
// instead, we'd want to extend the deadline a little bit of time ahead. gracePeriod is that amount of time ahead
// of the actual deadline.
const gracePeriod = 5 * time.Second
type messageIterator struct {
ctx context.Context
cancel func() // the function that will cancel ctx; called in stop
po *pullOptions
ps *pullStream
subc *vkit.SubscriberClient
subName string
kaTick <-chan time.Time // keep-alive (deadline extensions)
ackTicker *time.Ticker // message acks
nackTicker *time.Ticker // message nacks (more frequent than acks)
pingTicker *time.Ticker // sends to the stream to keep it open
failed chan struct{} // closed on stream error
drained chan struct{} // closed when stopped && no more pending messages
wg sync.WaitGroup
mu sync.Mutex
ackTimeDist *distribution.D // dist uses seconds
// keepAliveDeadlines is a map of id to expiration time. This map is used in conjunction with
// subscription.ReceiveSettings.MaxExtension to record the maximum amount of time (the
// deadline, more specifically) we're willing to extend a message's ack deadline. As each
// message arrives, we'll record now+MaxExtension in this table; whenever we have a chance
// to update ack deadlines (via modack), we'll consult this table and only include IDs
// that are not beyond their deadline.
keepAliveDeadlines map[string]time.Time
pendingAcks map[string]bool
pendingNacks map[string]bool
pendingModAcks map[string]bool // ack IDs whose ack deadline is to be modified
err error // error from stream failure
}
// newMessageIterator starts and returns a new messageIterator.
// subName is the full name of the subscription to pull messages from.
// Stop must be called on the messageIterator when it is no longer needed.
// The iterator always uses the background context for acking messages and extending message deadlines.
func newMessageIterator(subc *vkit.SubscriberClient, subName string, po *pullOptions) *messageIterator {
var ps *pullStream
if !po.synchronous {
ps = newPullStream(context.Background(), subc.StreamingPull, subName)
}
// The period will update each tick based on the distribution of acks. We'll start by arbitrarily sending
// the first keepAlive halfway towards the minimum ack deadline.
keepAlivePeriod := minAckDeadline / 2
// Ack promptly so users don't lose work if client crashes.
ackTicker := time.NewTicker(100 * time.Millisecond)
nackTicker := time.NewTicker(100 * time.Millisecond)
pingTicker := time.NewTicker(30 * time.Second)
cctx, cancel := context.WithCancel(context.Background())
it := &messageIterator{
ctx: cctx,
cancel: cancel,
ps: ps,
po: po,
subc: subc,
subName: subName,
kaTick: time.After(keepAlivePeriod),
ackTicker: ackTicker,
nackTicker: nackTicker,
pingTicker: pingTicker,
failed: make(chan struct{}),
drained: make(chan struct{}),
ackTimeDist: distribution.New(int(maxAckDeadline/time.Second) + 1),
keepAliveDeadlines: map[string]time.Time{},
pendingAcks: map[string]bool{},
pendingNacks: map[string]bool{},
pendingModAcks: map[string]bool{},
}
it.wg.Add(1)
go it.sender()
return it
}
// Subscription.receive will call stop on its messageIterator when finished with it.
// Stop will block until Done has been called on all Messages that have been
// returned by Next, or until the context with which the messageIterator was created
// is cancelled or exceeds its deadline.
func (it *messageIterator) stop() {
it.cancel()
it.mu.Lock()
it.checkDrained()
it.mu.Unlock()
it.wg.Wait()
}
// checkDrained closes the drained channel if the iterator has been stopped and all
// pending messages have either been n/acked or expired.
//
// Called with the lock held.
func (it *messageIterator) checkDrained() {
select {
case <-it.drained:
return
default:
}
select {
case <-it.ctx.Done():
if len(it.keepAliveDeadlines) == 0 {
close(it.drained)
}
default:
}
}
// Called when a message is acked/nacked.
func (it *messageIterator) done(ackID string, ack bool, receiveTime time.Time) {
it.ackTimeDist.Record(int(time.Since(receiveTime) / time.Second))
it.mu.Lock()
defer it.mu.Unlock()
delete(it.keepAliveDeadlines, ackID)
if ack {
it.pendingAcks[ackID] = true
} else {
it.pendingNacks[ackID] = true
}
it.checkDrained()
}
// fail is called when a stream method returns a permanent error.
// fail returns it.err. This may be err, or it may be the error
// set by an earlier call to fail.
func (it *messageIterator) fail(err error) error {
it.mu.Lock()
defer it.mu.Unlock()
if it.err == nil {
it.err = err
close(it.failed)
}
return it.err
}
// receive makes a call to the stream's Recv method, or the Pull RPC, and returns
// its messages.
// maxToPull is the maximum number of messages for the Pull RPC.
func (it *messageIterator) receive(maxToPull int32) ([]*Message, error) {
it.mu.Lock()
ierr := it.err
it.mu.Unlock()
if ierr != nil {
return nil, ierr
}
// Stop retrieving messages if the iterator's Stop method was called.
select {
case <-it.ctx.Done():
it.wg.Wait()
return nil, io.EOF
default:
}
var rmsgs []*pb.ReceivedMessage
var err error
if it.po.synchronous {
rmsgs, err = it.pullMessages(maxToPull)
} else {
rmsgs, err = it.recvMessages()
}
// Any error here is fatal.
if err != nil {
return nil, it.fail(err)
}
msgs, err := convertMessages(rmsgs)
if err != nil {
return nil, it.fail(err)
}
// We received some messages. Remember them so we can keep them alive. Also,
// do a receipt mod-ack when streaming.
maxExt := time.Now().Add(it.po.maxExtension)
ackIDs := map[string]bool{}
it.mu.Lock()
now := time.Now()
for _, m := range msgs {
m.receiveTime = now
addRecv(m.ID, m.ackID, now)
m.doneFunc = it.done
it.keepAliveDeadlines[m.ackID] = maxExt
// Don't change the mod-ack if the message is going to be nacked. This is
// possible if there are retries.
if !it.pendingNacks[m.ackID] {
ackIDs[m.ackID] = true
}
}
deadline := it.ackDeadline()
it.mu.Unlock()
if len(ackIDs) > 0 {
if !it.sendModAck(ackIDs, deadline) {
return nil, it.err
}
}
return msgs, nil
}
// Get messages using the Pull RPC.
// This may block indefinitely. It may also return zero messages, after some time waiting.
func (it *messageIterator) pullMessages(maxToPull int32) ([]*pb.ReceivedMessage, error) {
// Use it.ctx as the RPC context, so that if the iterator is stopped, the call
// will return immediately.
res, err := it.subc.Pull(it.ctx, &pb.PullRequest{
Subscription: it.subName,
MaxMessages: maxToPull,
}, gax.WithGRPCOptions(grpc.MaxCallRecvMsgSize(maxSendRecvBytes)))
switch {
case err == context.Canceled:
return nil, nil
case err != nil:
return nil, err
default:
return res.ReceivedMessages, nil
}
}
func (it *messageIterator) recvMessages() ([]*pb.ReceivedMessage, error) {
res, err := it.ps.Recv()
if err != nil {
return nil, err
}
return res.ReceivedMessages, nil
}
// sender runs in a goroutine and handles all sends to the stream.
func (it *messageIterator) sender() {
defer it.wg.Done()
defer it.ackTicker.Stop()
defer it.nackTicker.Stop()
defer it.pingTicker.Stop()
defer func() {
if it.ps != nil {
it.ps.CloseSend()
}
}()
done := false
for !done {
sendAcks := false
sendNacks := false
sendModAcks := false
sendPing := false
dl := it.ackDeadline()
select {
case <-it.failed:
// Stream failed: nothing to do, so stop immediately.
return
case <-it.drained:
// All outstanding messages have been marked done:
// nothing left to do except make the final calls.
it.mu.Lock()
sendAcks = (len(it.pendingAcks) > 0)
sendNacks = (len(it.pendingNacks) > 0)
// No point in sending modacks.
done = true
case <-it.kaTick:
it.mu.Lock()
it.handleKeepAlives()
sendModAcks = (len(it.pendingModAcks) > 0)
nextTick := dl - gracePeriod
if nextTick <= 0 {
// If the deadline is <= gracePeriod, let's tick again halfway to
// the deadline.
nextTick = dl / 2
}
it.kaTick = time.After(nextTick)
case <-it.nackTicker.C:
it.mu.Lock()
sendNacks = (len(it.pendingNacks) > 0)
case <-it.ackTicker.C:
it.mu.Lock()
sendAcks = (len(it.pendingAcks) > 0)
case <-it.pingTicker.C:
it.mu.Lock()
// Ping only if we are processing messages via streaming.
sendPing = !it.po.synchronous && (len(it.keepAliveDeadlines) > 0)
}
// Lock is held here.
var acks, nacks, modAcks map[string]bool
if sendAcks {
acks = it.pendingAcks
it.pendingAcks = map[string]bool{}
}
if sendNacks {
nacks = it.pendingNacks
it.pendingNacks = map[string]bool{}
}
if sendModAcks {
modAcks = it.pendingModAcks
it.pendingModAcks = map[string]bool{}
}
it.mu.Unlock()
// Make Ack and ModAck RPCs.
if sendAcks {
if !it.sendAck(acks) {
return
}
}
if sendNacks {
// Nack indicated by modifying the deadline to zero.
if !it.sendModAck(nacks, 0) {
return
}
}
if sendModAcks {
if !it.sendModAck(modAcks, dl) {
return
}
}
if sendPing {
it.pingStream()
}
}
}
// handleKeepAlives modifies the pending request to include deadline extensions
// for live messages. It also purges expired messages.
//
// Called with the lock held.
func (it *messageIterator) handleKeepAlives() {
now := time.Now()
for id, expiry := range it.keepAliveDeadlines {
if expiry.Before(now) {
// This delete will not result in skipping any map items, as implied by
// the spec at https://golang.org/ref/spec#For_statements, "For
// statements with range clause", note 3, and stated explicitly at
// https://groups.google.com/forum/#!msg/golang-nuts/UciASUb03Js/pzSq5iVFAQAJ.
delete(it.keepAliveDeadlines, id)
} else {
// This will not conflict with a nack, because nacking removes the ID from keepAliveDeadlines.
it.pendingModAcks[id] = true
}
}
it.checkDrained()
}
func (it *messageIterator) sendAck(m map[string]bool) bool {
return it.sendAckIDRPC(m, func(ids []string) error {
recordStat(it.ctx, AckCount, int64(len(ids)))
addAcks(ids)
// Use context.Background() as the call's context, not it.ctx. We don't
// want to cancel this RPC when the iterator is stopped.
return it.subc.Acknowledge(context.Background(), &pb.AcknowledgeRequest{
Subscription: it.subName,
AckIds: ids,
})
})
}
// The receipt mod-ack amount is derived from a percentile distribution based
// on the time it takes to process messages. The percentile chosen is the 99%th
// percentile in order to capture the highest amount of time necessary without
// considering 1% outliers.
func (it *messageIterator) sendModAck(m map[string]bool, deadline time.Duration) bool {
return it.sendAckIDRPC(m, func(ids []string) error {
if deadline == 0 {
recordStat(it.ctx, NackCount, int64(len(ids)))
} else {
recordStat(it.ctx, ModAckCount, int64(len(ids)))
}
addModAcks(ids, int32(deadline/time.Second))
// Retry this RPC on Unavailable for a short amount of time, then give up
// without returning a fatal error. The utility of this RPC is by nature
// transient (since the deadline is relative to the current time) and it
// isn't crucial for correctness (since expired messages will just be
// resent).
cctx, cancel := context.WithTimeout(context.Background(), 2*time.Second)
defer cancel()
bo := gax.Backoff{
Initial: 100 * time.Millisecond,
Max: time.Second,
Multiplier: 2,
}
for {
err := it.subc.ModifyAckDeadline(cctx, &pb.ModifyAckDeadlineRequest{
Subscription: it.subName,
AckDeadlineSeconds: int32(deadline / time.Second),
AckIds: ids,
})
switch status.Code(err) {
case codes.Unavailable:
if err := gax.Sleep(cctx, bo.Pause()); err == nil {
continue
}
// Treat sleep timeout like RPC timeout.
fallthrough
case codes.DeadlineExceeded:
// Timeout. Not a fatal error, but note that it happened.
recordStat(it.ctx, ModAckTimeoutCount, 1)
return nil
default:
// Any other error is fatal.
return err
}
}
})
}
func (it *messageIterator) sendAckIDRPC(ackIDSet map[string]bool, call func([]string) error) bool {
ackIDs := make([]string, 0, len(ackIDSet))
for k := range ackIDSet {
ackIDs = append(ackIDs, k)
}
var toSend []string
for len(ackIDs) > 0 {
toSend, ackIDs = splitRequestIDs(ackIDs, maxPayload)
if err := call(toSend); err != nil {
// The underlying client handles retries, so any error is fatal to the
// iterator.
it.fail(err)
return false
}
}
return true
}
// Send a message to the stream to keep it open. The stream will close if there's no
// traffic on it for a while. By keeping it open, we delay the start of the
// expiration timer on messages that are buffered by gRPC or elsewhere in the
// network. This matters if it takes a long time to process messages relative to the
// default ack deadline, and if the messages are small enough so that many can fit
// into the buffer.
func (it *messageIterator) pingStream() {
// Ignore error; if the stream is broken, this doesn't matter anyway.
_ = it.ps.Send(&pb.StreamingPullRequest{})
}
func splitRequestIDs(ids []string, maxSize int) (prefix, remainder []string) {
size := reqFixedOverhead
i := 0
for size < maxSize && i < len(ids) {
size += overheadPerID + len(ids[i])
i++
}
if size > maxSize {
i--
}
return ids[:i], ids[i:]
}
// The deadline to ack is derived from a percentile distribution based
// on the time it takes to process messages. The percentile chosen is the 99%th
// percentile - that is, processing times up to the 99%th longest processing
// times should be safe. The highest 1% may expire. This number was chosen
// as a way to cover most users' usecases without losing the value of
// expiration.
func (it *messageIterator) ackDeadline() time.Duration {
pt := time.Duration(it.ackTimeDist.Percentile(.99)) * time.Second
if pt > maxAckDeadline {
return maxAckDeadline
}
if pt < minAckDeadline {
return minAckDeadline
}
return pt
}