2020-11-19 17:16:54 +00:00
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# Event Streaming
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Event streaming is a new asynchronous RPC mechanism that is being added to Consul. Instead
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of synchronous blocking RPC calls (long polling) to fetch data when it changes, streaming
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sends events as they occur, and the client maintains a materialized view of the events.
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At the time of writing only the service health endpoint uses streaming, but more endpoints
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will be added in the future.
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2021-04-01 20:54:30 +00:00
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See [adding a topic](./adding-a-topic.md) for a guide on adding new topics to streaming.
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2020-11-19 17:16:54 +00:00
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## Overview
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The diagram below shows the components that are used in streaming, and how they fit into
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the rest of Consul.
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![Streaming Overview](./overview.svg)
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<sup>[source](./overview.mmd)</sup>
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Read requests are received either from the HTTP API or from a DNS request. They use
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[rpcclient/health.Health]
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to query the cache. The [StreamingHealthServices cache-type] uses a [materialized view]
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to manage subscriptions and store the aggregated events. On the server, the
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[SubscribeEndpoint] subscribes and receives events from [EventPublisher].
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Writes will likely enter the system through the client as well, but to make the diagram
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less complicated the write flow starts when it is received by the RPC endpoint. The
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endpoint calls raft.Apply, which if successful will save the new data in the state.Store.
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When the [state.Store commits] it produces an event which is managed by the [EventPublisher]
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and sent to any active subscriptions.
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2021-06-29 21:04:24 +00:00
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[rpcclient/health.Health]: https://github.com/hashicorp/consul/blob/main/agent/rpcclient/health/health.go
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[StreamingHealthServices cache-type]: https://github.com/hashicorp/consul/blob/main/agent/cache-types/streaming_health_services.go
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[materialized view]: https://github.com/hashicorp/consul/blob/main/agent/submatview/materializer.go
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2022-07-13 15:33:48 +00:00
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[SubscribeEndpoint]: https://github.com/hashicorp/consul/blob/main/agent/grpc-internal/services/subscribe/subscribe.go
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2021-06-29 21:04:24 +00:00
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[EventPublisher]: https://github.com/hashicorp/consul/blob/main/agent/consul/stream/event_publisher.go
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[state.Store commits]: https://github.com/hashicorp/consul/blob/main/agent/consul/state/memdb.go
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2020-11-19 17:16:54 +00:00
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## Event Publisher
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2020-12-08 17:12:15 +00:00
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The [EventPublisher] is at the core of streaming. It receives published events, and
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2020-11-19 17:16:54 +00:00
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subscription requests, and forwards events to the appropriate subscriptions. The diagram
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below illustrates how events are stored by the [EventPublisher].
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![Event Publisher layout](./event-publisher-layout.svg)
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<sup>[source](./event-publisher-layout.mmd)</sup>
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When a new subscription is created it will create a snapshot of the events required to
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reflect the current state. This snapshot is cached by the [EventPublisher] so that other
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subscriptions can re-use the snapshot without having to recreate it.
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The snapshot always points at the first item in the linked list of events. A subscription
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will initially point at the first item, but the pointer advances each time
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`Subscribe.Next` is called. The topic buffers in the EventPublisher always point at the
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latest item in the linked list, so that new events can be appended to the buffer.
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When a snapshot cache TTL expires, the snapshot is removed. If there are no other
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subscriptions holding a reference to those items, the items will be garbage collected by
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the Go runtime. This setup allows EventPublisher to keep some events around for a short
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period of time, without any hard coded limit on the number of events to cache.
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## Subscription events
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A subscription provides a stream of events on a single topic. Most of the events contain
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data for a change in state, but there are a few special "framing" events that are used to
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communicate something to the client. The diagram below helps illustrate the logic in
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`EventPublisher.Subscribe` and the [materialized view].
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2020-11-19 17:16:54 +00:00
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![Framing events](./framing-events.svg)
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<sup>[source](./framing-events.mmd)</sup>
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Events in the `Snapshot` contain the same data as those in the `EventStream`, the only
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difference is that events in the `Snapshot` indicate the current state not a change in
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state.
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`NewSnapshotToFollow` is a framing event that indicates to the client that their existing
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view is out of date. They must reset their view and prepare to receive a new snapshot.
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`EndOfSnapshot` indicates to the client that the snapshot is complete. Any future events
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will be changes in state.
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## Event filtering
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As events pass through the system from the `state.Store` to the client they are grouped
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and filtered along the way. The diagram below helps illustrate where each of the grouping
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and filtering happens.
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![event filtering](./event-filtering.svg)
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<sup>[source](./event-filtering.mmd)</sup>
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