package submatview import ( "context" "sync" "time" "github.com/hashicorp/go-hclog" "github.com/hashicorp/consul/lib/retry" "github.com/hashicorp/consul/proto/pbsubscribe" ) // View receives events from, and return results to, Materializer. A view is // responsible for converting the pbsubscribe.Event.Payload into the local // type, and storing it so that it can be returned by Result(). type View interface { // Update is called when one or more events are received. The first call will // include _all_ events in the initial snapshot which may be an empty set. // Subsequent calls will contain one or more update events in the order they // are received. Update(events []*pbsubscribe.Event) error // Result returns the type-specific cache result based on the state. When no // events have been delivered yet the result should be an empty value type // suitable to return to clients in case there is an empty result on the // servers. The index the materialized view represents is maintained // separately and passed in in case the return type needs an Index field // populating. This allows implementations to not worry about maintaining // indexes seen during Update. Result(index uint64) interface{} // Reset the view to the zero state, done in preparation for receiving a new // snapshot. Reset() } // Result returned from the View. type Result struct { Index uint64 Value interface{} // Cached is true if the requested value was already available locally. If // the value is false, it indicates that GetFromView had to wait for an update, Cached bool } type Deps struct { View View Logger hclog.Logger Waiter *retry.Waiter Request func(index uint64) *pbsubscribe.SubscribeRequest } // materializer consumes the event stream, handling any framing events, and // allows for querying the materialized view. type materializer struct { retryWaiter *retry.Waiter logger hclog.Logger // lock protects the mutable state - all fields below it must only be accessed // while holding lock. lock sync.Mutex index uint64 view View updateCh chan struct{} err error } func newMaterializer(logger hclog.Logger, view View, waiter *retry.Waiter) *materializer { m := materializer{ view: view, retryWaiter: waiter, logger: logger, updateCh: make(chan struct{}), } if m.retryWaiter == nil { m.retryWaiter = defaultWaiter() } return &m } // Query blocks until the index of the View is greater than opts.MinIndex, // or the context is cancelled. func (m *materializer) query(ctx context.Context, minIndex uint64) (Result, error) { m.lock.Lock() result := Result{ Index: m.index, Value: m.view.Result(m.index), } updateCh := m.updateCh m.lock.Unlock() // If our index is > req.Index return right away. If index is zero then we // haven't loaded a snapshot at all yet which means we should wait for one on // the update chan. if result.Index > 0 && result.Index > minIndex { result.Cached = true return result, nil } for { select { case <-updateCh: // View updated, return the new result m.lock.Lock() result.Index = m.index switch { case m.err != nil: err := m.err m.lock.Unlock() return result, err case result.Index <= minIndex: // get a reference to the new updateCh, the previous one was closed updateCh = m.updateCh m.lock.Unlock() continue } result.Value = m.view.Result(m.index) m.lock.Unlock() return result, nil case <-ctx.Done(): // Update the result value to the latest because callers may still // use the value when the error is context.DeadlineExceeded m.lock.Lock() result.Value = m.view.Result(m.index) m.lock.Unlock() return result, ctx.Err() } } } func (m *materializer) currentIndex() uint64 { var resp uint64 m.lock.Lock() resp = m.index m.lock.Unlock() return resp } // notifyUpdateLocked closes the current update channel and recreates a new // one. It must be called while holding the m.lock lock. func (m *materializer) notifyUpdateLocked(err error) { m.err = err close(m.updateCh) m.updateCh = make(chan struct{}) } // reset clears the state ready to start a new stream from scratch. func (m *materializer) reset() { m.lock.Lock() defer m.lock.Unlock() m.view.Reset() m.index = 0 } // updateView updates the view from a sequence of events and stores // the corresponding Raft index. func (m *materializer) updateView(events []*pbsubscribe.Event, index uint64) error { m.lock.Lock() defer m.lock.Unlock() if err := m.view.Update(events); err != nil { return err } m.index = index m.notifyUpdateLocked(nil) m.retryWaiter.Reset() return nil } func (m *materializer) handleError(req *pbsubscribe.SubscribeRequest, err error) { failures := m.retryWaiter.Failures() if isNonTemporaryOrConsecutiveFailure(err, failures) { m.lock.Lock() m.notifyUpdateLocked(err) m.lock.Unlock() } logger := m.logger.With( "err", err, "topic", req.Topic, "failure_count", failures+1, ) if req.GetWildcardSubject() { logger = logger.With("wildcard_subject", true) } else if sub := req.GetNamedSubject(); sub != nil { logger = logger.With("key", sub.Key) } else { logger = logger.With("key", req.Key) // nolint:staticcheck // SA1019 intentional use of deprecated field } logger.Error("subscribe call failed") } // isNonTemporaryOrConsecutiveFailure returns true if the error is not a // temporary error or if failures > 0. func isNonTemporaryOrConsecutiveFailure(err error, failures int) bool { // temporary is an interface used by net and other std lib packages to // show error types represent temporary/recoverable errors. temp, ok := err.(interface { Temporary() bool }) return !ok || !temp.Temporary() || failures > 0 } func defaultWaiter() *retry.Waiter { return &retry.Waiter{ MinFailures: 1, // Start backing off with small increments (200-400ms) which will double // each attempt. (200-400, 400-800, 800-1600, 1600-3200, 3200-6000, 6000 // after that). (retry.Wait applies Max limit after jitter right now). Factor: 200 * time.Millisecond, MinWait: 0, MaxWait: 60 * time.Second, Jitter: retry.NewJitter(100), } }