Actors timers and reminders

Setting timers and reminders and performing error handling for your actors

Actors can schedule periodic work on themselves by registering either timers or reminders.

The functionality of timers and reminders is very similar. The main difference is that Dapr actor runtime is not retaining any information about timers after deactivation, while persisting the information about reminders using Dapr actor state provider.

This distinction allows users to trade off between light-weight but stateless timers vs. more resource-demanding but stateful reminders.

The scheduling configuration of timers and reminders is identical, as summarized below:


dueTime is an optional parameter that sets time at which or time interval before the callback is invoked for the first time. If dueTime is omitted, the callback is invoked immediately after timer/reminder registration.

Supported formats:

  • RFC3339 date format, e.g. 2020-10-02T15:00:00Z
  • time.Duration format, e.g. 2h30m
  • ISO 8601 duration format, e.g. PT2H30M

period is an optional parameter that sets time interval between two consecutive callback invocations. When specified in ISO 8601-1 duration format, you can also configure the number of repetition in order to limit the total number of callback invocations. If period is omitted, the callback will be invoked only once.

Supported formats:


ttl is an optional parameter that sets time at which or time interval after which the timer/reminder will be expired and deleted. If ttl is omitted, no restrictions are applied.

Supported formats:

  • RFC3339 date format, e.g. 2020-10-02T15:00:00Z
  • time.Duration format, e.g. 2h30m
  • ISO 8601 duration format. Example: PT2H30M

The actor runtime validates correctness of the scheduling configuration and returns error on invalid input.

When you specify both the number of repetitions in period as well as ttl, the timer/reminder will be stopped when either condition is met.

Actor timers

You can register a callback on actor to be executed based on a timer.

The Dapr actor runtime ensures that the callback methods respect the turn-based concurrency guarantees. This means that no other actor methods or timer/reminder callbacks will be in progress until this callback completes execution.

The Dapr actor runtime saves changes made to the actor’s state when the callback finishes. If an error occurs in saving the state, that actor object is deactivated and a new instance will be activated.

All timers are stopped when the actor is deactivated as part of garbage collection. No timer callbacks are invoked after that. Also, the Dapr actor runtime does not retain any information about the timers that were running before deactivation. It is up to the actor to register any timers that it needs when it is reactivated in the future.

You can create a timer for an actor by calling the HTTP/gRPC request to Dapr as shown below, or via Dapr SDK.

  1. POST/PUT http://localhost:3500/v1.0/actors/<actorType>/<actorId>/timers/<name>

Examples

The timer parameters are specified in the request body.

The following request body configures a timer with a dueTime of 9 seconds and a period of 3 seconds. This means it will first fire after 9 seconds, then every 3 seconds after that.

  1. {
  2. "dueTime":"0h0m9s0ms",
  3. "period":"0h0m3s0ms"
  4. }

The following request body configures a timer with a period of 3 seconds (in ISO 8601 duration format). It also limits the number of invocations to 10. This means it will fire 10 times: first, immediately after registration, then every 3 seconds after that.

  1. {
  2. "period":"R10/PT3S",
  3. }

The following request body configures a timer with a period of 3 seconds (in ISO 8601 duration format) and a ttl of 20 seconds. This means it fires immediately after registration, then every 3 seconds after that for the duration of 20 seconds.

  1. {
  2. "period":"PT3S",
  3. "ttl":"20s"
  4. }

The following request body configures a timer with a dueTime of 10 seconds, a period of 3 seconds, and a ttl of 10 seconds. It also limits the number of invocations to 4. This means it will first fire after 10 seconds, then every 3 seconds after that for the duration of 10 seconds, but no more than 4 times in total.

  1. {
  2. "dueTime":"10s",
  3. "period":"R4/PT3S",
  4. "ttl":"10s"
  5. }

You can remove the actor timer by calling

  1. DELETE http://localhost:3500/v1.0/actors/<actorType>/<actorId>/timers/<name>

Refer api spec for more details.

Actor reminders

Reminders are a mechanism to trigger persistent callbacks on an actor at specified times. Their functionality is similar to timers. But unlike timers, reminders are triggered under all circumstances until the actor explicitly unregisters them or the actor is explicitly deleted or the number in invocations is exhausted. Specifically, reminders are triggered across actor deactivations and failovers because the Dapr actor runtime persists the information about the actors’ reminders using Dapr actor state provider.

You can create a persistent reminder for an actor by calling the HTTP/gRPC request to Dapr as shown below, or via Dapr SDK.

  1. POST/PUT http://localhost:3500/v1.0/actors/<actorType>/<actorId>/reminders/<name>

The request structure for reminders is identical to those of actors. Please refer to the actor timers examples.

Retrieve actor reminder

You can retrieve the actor reminder by calling

  1. GET http://localhost:3500/v1.0/actors/<actorType>/<actorId>/reminders/<name>

Remove the actor reminder

You can remove the actor reminder by calling

  1. DELETE http://localhost:3500/v1.0/actors/<actorType>/<actorId>/reminders/<name>

Refer api spec for more details.

Error handling

When an actor’s method completes successfully, the runtime will continue to invoke the method at the specified timer or reminder schedule. However, if the method throws an exception, the runtime catches it and logs the error message in the Dapr sidecar logs, without retrying.

To allow actors to recover from failures and retry after a crash or restart, you can persist an actor’s state by configuring a state store, like Redis or Azure Cosmos DB.

If an invocation of the method fails, the timer is not removed. Timers are only removed when:

  • The sidecar crashes
  • The executions run out
  • You delete it explicitly

Reminder data serialization format

Actor reminder data is serialized to JSON by default. Dapr v1.13 onwards supports a protobuf serialization format for reminders data which, depending on throughput and size of the payload, can result in significant performance improvements, giving developers a higher throughput and lower latency. Another benefit is storing smaller data in the actor underlying database, which can result in cost optimizations when using some cloud databases. A restriction with using protobuf serialization is that the reminder data can no longer be queried.

Note

Protobuf serialization will become the default format in Dapr 1.14

Reminder data saved in protobuf format cannot be read in Dapr 1.12.x and earlier versions. Its recommended to test this feature in Dapr v1.13 and verify that it works as expected with your database before taking this into production.

Note

If you use protobuf serialization in Dapr v1.13 and need to downgrade to an earlier Dapr version, the reminder data will be incompatible with versions 1.12.x and earlier versions. Once you save your reminders data in protobuf format, you cannot move it back to JSON format.

Enabling protobuf serialization on Kubernetes

To use protobuf serialization for actor reminders on Kubernetes, use the following Helm value:

  1. --set dapr_placement.maxActorApiLevel=20

Enabling protobuf serialization on self-hosted

To use protobuf serialization for actor reminders on self-hosted, use the following daprd flag:

  1. --max-api-level=20

Next steps

Configure actor runtime behavior >>

Last modified March 21, 2024: Merge pull request #4082 from newbe36524/v1.13 (f4b0938)