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consul/internal/storage/inmem/watch.go

220 lines
5.7 KiB

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package inmem
import (
"context"
"fmt"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/agent/consul/stream"
"github.com/hashicorp/consul/internal/storage"
"github.com/hashicorp/consul/proto-public/pbresource"
"github.com/hashicorp/consul/proto/private/pbsubscribe"
)
// Watch implements the storage.Watch interface using a stream.Subscription.
type Watch struct {
sub *stream.Subscription
query query
// events holds excess events when they are bundled in a stream.PayloadEvents,
// until Next is called again.
events []stream.Event
}
// Next returns the next WatchEvent, blocking until one is available.
func (w *Watch) Next(ctx context.Context) (*pbresource.WatchEvent, error) {
for {
e, err := w.nextEvent(ctx)
if err == stream.ErrSubForceClosed {
return nil, storage.ErrWatchClosed
}
if err != nil {
return nil, err
}
event := e.Payload.(eventPayload).event
if w.query.matches(event.Resource) {
return event, nil
}
}
}
func (w *Watch) nextEvent(ctx context.Context) (*stream.Event, error) {
if len(w.events) != 0 {
event := w.events[0]
w.events = w.events[1:]
return &event, nil
}
var idx uint64
for {
e, err := w.sub.Next(ctx)
if err != nil {
return nil, err
}
if e.IsFramingEvent() {
continue
}
// This works around a *very* rare race-condition in the EventPublisher where
// it's possible to see duplicate events when events are published at the same
// time as the first subscription is created on a {topic, subject} pair.
//
// We see this problem when a call to WriteCAS is happening in parallel with
// a call to WatchList. It happens because our snapshot handler returns events
// that have not yet been published (in the gap between us committing changes
// to MemDB and the EventPublisher dispatching events onto its event buffers).
//
// An intuitive solution to this problem would be to take eventLock in the
// snapshot handler to avoid it racing with publishing, but this does not
// work because publishing is asynchronous.
//
// We should fix this problem at the root, but it's complicated, so for now
// we'll work around it.
if e.Index <= idx {
continue
}
idx = e.Index
switch t := e.Payload.(type) {
case eventPayload:
return &e, nil
case *stream.PayloadEvents:
if len(t.Items) == 0 {
continue
}
event, rest := t.Items[0], t.Items[1:]
w.events = rest
return &event, nil
}
}
}
// Close the watch and free its associated resources.
func (w *Watch) Close() { w.sub.Unsubscribe() }
var eventTopic = stream.StringTopic("resources")
type eventPayload struct {
subject stream.Subject
event *pbresource.WatchEvent
}
func (p eventPayload) Subject() stream.Subject { return p.subject }
// These methods are required by the stream.Payload interface, but we don't use them.
func (eventPayload) HasReadPermission(acl.Authorizer) bool { return false }
func (eventPayload) ToSubscriptionEvent(uint64) *pbsubscribe.Event { return nil }
type wildcardSubject struct {
resourceType storage.UnversionedType
}
func (s wildcardSubject) String() string {
return s.resourceType.Group + indexSeparator +
s.resourceType.Kind + indexSeparator +
storage.Wildcard
}
type tenancySubject struct {
resourceType storage.UnversionedType
tenancy *pbresource.Tenancy
}
func (s tenancySubject) String() string {
return s.resourceType.Group + indexSeparator +
s.resourceType.Kind + indexSeparator +
s.tenancy.Partition + indexSeparator +
s.tenancy.PeerName + indexSeparator +
s.tenancy.Namespace
}
// publishEvent sends the event to the relevant Watches.
func (s *Store) publishEvent(idx uint64, op pbresource.WatchEvent_Operation, res *pbresource.Resource) {
id := res.Id
resourceType := storage.UnversionedTypeFrom(id.Type)
event := &pbresource.WatchEvent{Operation: op, Resource: res}
// We publish two copies of the event: one to the tenancy-specific subject and
// another to a wildcard subject. Ideally, we'd be able to put the type in the
// topic instead and use stream.SubjectWildcard, but this requires knowing all
// types up-front (to register the snapshot handlers).
s.pub.Publish([]stream.Event{
{
Topic: eventTopic,
Index: idx,
Payload: eventPayload{
subject: wildcardSubject{resourceType},
event: event,
},
},
{
Topic: eventTopic,
Index: idx,
Payload: eventPayload{
subject: tenancySubject{
resourceType: resourceType,
tenancy: id.Tenancy,
},
event: event,
},
},
})
}
// watchSnapshot implements a stream.SnapshotFunc to provide upsert events for
// the initial state of the world.
func (s *Store) watchSnapshot(req stream.SubscribeRequest, snap stream.SnapshotAppender) (uint64, error) {
var q query
switch t := req.Subject.(type) {
case tenancySubject:
q.resourceType = t.resourceType
q.tenancy = t.tenancy
case wildcardSubject:
q.resourceType = t.resourceType
q.tenancy = &pbresource.Tenancy{
Partition: storage.Wildcard,
PeerName: storage.Wildcard,
Namespace: storage.Wildcard,
}
default:
return 0, fmt.Errorf("unhandled subject type: %T", req.Subject)
}
tx := s.txn(false)
defer tx.Abort()
idx, err := currentEventIndex(tx)
if err != nil {
return 0, err
}
results, err := listTxn(tx, q)
if err != nil {
return 0, nil
}
events := make([]stream.Event, len(results))
for i, r := range results {
events[i] = stream.Event{
Topic: eventTopic,
Index: idx,
Payload: eventPayload{
subject: req.Subject,
event: &pbresource.WatchEvent{
Operation: pbresource.WatchEvent_OPERATION_UPSERT,
Resource: r,
},
},
}
}
snap.Append(events)
return idx, nil
}