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Retry
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retryContext: ContextView
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Retry(): void
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Retry(ContextView): void
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generateCompanion(Flux<RetrySignal>): Publisher<Object>
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retryContext(): ContextView
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RetrySignal
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backoff(long, Duration): RetryBackoffSpec
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fixedDelay(long, Duration): RetryBackoffSpec
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max(long): RetrySpec
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maxInARow(long): RetrySpec
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indefinitely(): RetrySpec
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from(Function<Flux<RetrySignal>, Publisher>): Retry
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withThrowable(Function<Flux<Throwable>, Publisher>): Retry
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/*
* Copyright (c) 2011-Present VMware Inc. or its affiliates, All Rights Reserved.
*
* 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
*
* https://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 reactor.util.retry;
import java.time.Duration;
import java.util.function.Function;
import org.reactivestreams.Publisher;
import reactor.core.publisher.Flux;
import reactor.core.scheduler.Schedulers;
import reactor.util.context.Context;
import reactor.util.context.ContextView;
import static reactor.util.retry.RetrySpec.*;
Base abstract class for a strategy to decide when to retry given a companion Flux of RetrySignal, for use with Flux.retryWhen(Retry) and Mono.retryWhen(Retry). Also provides access to configurable built-in strategies via static factory methods:
Users are encouraged to provide either concrete custom Retry strategies or builders that produce such concrete Retry. The RetrySpec returned by eg. max(long) is a good inspiration for a fluent approach that generates a Retry at each step and uses immutability/copy-on-write to enable sharing of intermediate steps (that can thus be considered templates).
Author: Simon Baslé
/**
* Base abstract class for a strategy to decide when to retry given a companion {@link Flux} of {@link RetrySignal},
* for use with {@link Flux#retryWhen(Retry)} and {@link reactor.core.publisher.Mono#retryWhen(Retry)}.
* Also provides access to configurable built-in strategies via static factory methods:
* <ul>
* <li>{@link #indefinitely()}</li>
* <li>{@link #max(long)}</li>
* <li>{@link #maxInARow(long)}</li>
* <li>{@link #fixedDelay(long, Duration)}</li>
* <li>{@link #backoff(long, Duration)}</li>
* </ul>
* <p>
* Users are encouraged to provide either concrete custom {@link Retry} strategies or builders that produce
* such concrete {@link Retry}. The {@link RetrySpec} returned by eg. {@link #max(long)} is a good inspiration
* for a fluent approach that generates a {@link Retry} at each step and uses immutability/copy-on-write to enable
* sharing of intermediate steps (that can thus be considered templates).
*
* @author Simon Baslé
*/
public abstract class Retry {
public final ContextView retryContext;
public Retry() {
this(Context.empty());
}
protected Retry(ContextView retryContext) {
this.retryContext = retryContext;
}
The intent of the functional Retry class is to let users configure how to react to RetrySignal by providing the operator with a companion publisher. Any onNext emitted by this publisher will trigger a retry, but if that emission is delayed compared to the original signal then the attempt is delayed as well. This method generates the companion, out of a Flux of RetrySignal, which itself can serve as the simplest form of retry companion (indefinitely and immediately retry on any error). Params: - retrySignals – the original
Flux of RetrySignal, notifying of each source error that might result in a retry attempt, with context around the error and current retry cycle.
Returns: the actual companion to use, which might delay or limit retry attempts
/**
* The intent of the functional {@link Retry} class is to let users configure how to react to {@link RetrySignal}
* by providing the operator with a companion publisher. Any {@link org.reactivestreams.Subscriber#onNext(Object) onNext}
* emitted by this publisher will trigger a retry, but if that emission is delayed compared to the original signal then
* the attempt is delayed as well. This method generates the companion, out of a {@link Flux} of {@link RetrySignal},
* which itself can serve as the simplest form of retry companion (indefinitely and immediately retry on any error).
*
* @param retrySignals the original {@link Flux} of {@link RetrySignal}, notifying of each source error that
* <i>might</i> result in a retry attempt, with context around the error and current retry cycle.
* @return the actual companion to use, which might delay or limit retry attempts
*/
public abstract Publisher<?> generateCompanion(Flux<RetrySignal> retrySignals);
Return the user provided context that was set at construction time.
Returns: the user provided context that will be accessible via RetrySignal.retryContextView().
/**
* Return the user provided context that was set at construction time.
*
* @return the user provided context that will be accessible via {@link RetrySignal#retryContextView()}.
*/
public ContextView retryContext() {
return retryContext;
}
State for a Flux.retryWhen(Retry) Flux retry} or Mono retry. A flux of states is passed to the user, which gives information about the failure() that potentially triggers a retry as well as two indexes: the number of errors that happened so far (and were retried) and the same number, but only taking into account subsequent errors (see totalRetriesInARow()). /**
* State for a {@link Flux#retryWhen(Retry)} Flux retry} or {@link reactor.core.publisher.Mono#retryWhen(Retry) Mono retry}.
* A flux of states is passed to the user, which gives information about the {@link #failure()} that potentially triggers
* a retry as well as two indexes: the number of errors that happened so far (and were retried) and the same number,
* but only taking into account <strong>subsequent</strong> errors (see {@link #totalRetriesInARow()}).
*/
public interface RetrySignal {
The ZERO BASED index number of this error (can also be read as how many retries have occurred
so far), since the source was first subscribed to.
Returns: a 0-index for the error, since original subscription
/**
* The ZERO BASED index number of this error (can also be read as how many retries have occurred
* so far), since the source was first subscribed to.
*
* @return a 0-index for the error, since original subscription
*/
long totalRetries();
The ZERO BASED index number of this error since the beginning of the current burst of errors. This is reset to zero whenever a retry is made that is followed by at least one onNext. Returns: a 0-index for the error in the current burst of subsequent errors
/**
* The ZERO BASED index number of this error since the beginning of the current burst of errors.
* This is reset to zero whenever a retry is made that is followed by at least one
* {@link org.reactivestreams.Subscriber#onNext(Object) onNext}.
*
* @return a 0-index for the error in the current burst of subsequent errors
*/
long totalRetriesInARow();
The current Throwable that needs to be evaluated for retry. Returns: the current failure Throwable
/**
* The current {@link Throwable} that needs to be evaluated for retry.
*
* @return the current failure {@link Throwable}
*/
Throwable failure();
Return a read-only view of the user provided context, which may be used to store
objects to be reset/rollbacked or otherwise mutated before or after a retry.
Returns: a read-only view of a user provided context.
/**
* Return a read-only view of the user provided context, which may be used to store
* objects to be reset/rollbacked or otherwise mutated before or after a retry.
*
* @return a read-only view of a user provided context.
*/
default ContextView retryContextView() {
return Context.empty();
}
Return an immutable copy of this RetrySignal which is guaranteed to give a consistent view of the state at the time at which this method is invoked. This is especially useful if this RetrySignal is a transient view of the state of the underlying retry subscriber, Returns: an immutable copy of the current RetrySignal, always safe to use
/**
* Return an immutable copy of this {@link RetrySignal} which is guaranteed to give a consistent view
* of the state at the time at which this method is invoked.
* This is especially useful if this {@link RetrySignal} is a transient view of the state of the underlying
* retry subscriber,
*
* @return an immutable copy of the current {@link RetrySignal}, always safe to use
*/
default RetrySignal copy() {
return new ImmutableRetrySignal(totalRetries(), totalRetriesInARow(), failure(), retryContextView());
}
}
A RetryBackoffSpec preconfigured for exponential backoff strategy with jitter, given a maximum number of retry attempts and a minimum Duration for the backoff.
Params: - maxAttempts – the maximum number of retry attempts to allow
- minBackoff – the minimum
Duration for the first backoff
See Also: Returns: the exponential backoff spec for further configuration
/**
* A {@link RetryBackoffSpec} preconfigured for exponential backoff strategy with jitter, given a maximum number of retry attempts
* and a minimum {@link Duration} for the backoff.
* <p>
* <img class="marble" src="doc-files/marbles/retrySpecBackoff.svg" alt="">
*
* @param maxAttempts the maximum number of retry attempts to allow
* @param minBackoff the minimum {@link Duration} for the first backoff
* @return the exponential backoff spec for further configuration
* @see RetryBackoffSpec#maxAttempts(long)
* @see RetryBackoffSpec#minBackoff(Duration)
*/
public static RetryBackoffSpec backoff(long maxAttempts, Duration minBackoff) {
return new RetryBackoffSpec(Context.empty(), maxAttempts, t -> true, false, minBackoff, MAX_BACKOFF, 0.5d, Schedulers::parallel,
NO_OP_CONSUMER, NO_OP_CONSUMER, NO_OP_BIFUNCTION, NO_OP_BIFUNCTION,
RetryBackoffSpec.BACKOFF_EXCEPTION_GENERATOR);
}
A RetryBackoffSpec preconfigured for fixed delays (min backoff equals max backoff, no jitter), given a maximum number of retry attempts and the fixed Duration for the backoff.
Note that calling RetryBackoffSpec.minBackoff(Duration) or RetryBackoffSpec.maxBackoff(Duration) would switch back to an exponential backoff strategy.
Params: - maxAttempts – the maximum number of retry attempts to allow
- fixedDelay – the
Duration of the fixed delays
See Also: Returns: the fixed delays spec for further configuration
/**
* A {@link RetryBackoffSpec} preconfigured for fixed delays (min backoff equals max backoff, no jitter), given a maximum number of retry attempts
* and the fixed {@link Duration} for the backoff.
* <p>
* <img class="marble" src="doc-files/marbles/retrySpecFixed.svg" alt="">
* <p>
* Note that calling {@link RetryBackoffSpec#minBackoff(Duration)} or {@link RetryBackoffSpec#maxBackoff(Duration)} would switch
* back to an exponential backoff strategy.
*
* @param maxAttempts the maximum number of retry attempts to allow
* @param fixedDelay the {@link Duration} of the fixed delays
* @return the fixed delays spec for further configuration
* @see RetryBackoffSpec#maxAttempts(long)
* @see RetryBackoffSpec#minBackoff(Duration)
* @see RetryBackoffSpec#maxBackoff(Duration)
*/
public static RetryBackoffSpec fixedDelay(long maxAttempts, Duration fixedDelay) {
return new RetryBackoffSpec(Context.empty(), maxAttempts, t -> true, false, fixedDelay, fixedDelay, 0d, Schedulers::parallel,
NO_OP_CONSUMER, NO_OP_CONSUMER, NO_OP_BIFUNCTION, NO_OP_BIFUNCTION,
RetryBackoffSpec.BACKOFF_EXCEPTION_GENERATOR);
}
A RetrySpec preconfigured for a simple strategy with maximum number of retry attempts.
Params: - max – the maximum number of retry attempts to allow
See Also: Returns: the max attempt spec for further configuration
/**
* A {@link RetrySpec} preconfigured for a simple strategy with maximum number of retry attempts.
* <p>
* <img class="marble" src="doc-files/marbles/retrySpecAttempts.svg" alt="">
*
* @param max the maximum number of retry attempts to allow
* @return the max attempt spec for further configuration
* @see RetrySpec#maxAttempts(long)
*/
public static RetrySpec max(long max) {
return new RetrySpec(Context.empty(), max, t -> true, false, NO_OP_CONSUMER, NO_OP_CONSUMER, NO_OP_BIFUNCTION, NO_OP_BIFUNCTION,
RetrySpec.RETRY_EXCEPTION_GENERATOR);
}
A RetrySpec preconfigured for a simple strategy with maximum number of retry attempts over subsequent transient errors. An Subscriber.onNext(Object) between errors resets the counter (see RetrySpec.transientErrors(boolean)).
Params: - maxInARow – the maximum number of retry attempts to allow in a row, reset by successful onNext
See Also: Returns: the max in a row spec for further configuration
/**
* A {@link RetrySpec} preconfigured for a simple strategy with maximum number of retry attempts over
* subsequent transient errors. An {@link org.reactivestreams.Subscriber#onNext(Object)} between
* errors resets the counter (see {@link RetrySpec#transientErrors(boolean)}).
* <p>
* <img class="marble" src="doc-files/marbles/retrySpecInARow.svg" alt="">
*
* @param maxInARow the maximum number of retry attempts to allow in a row, reset by successful onNext
* @return the max in a row spec for further configuration
* @see RetrySpec#maxAttempts(long)
* @see RetrySpec#transientErrors(boolean)
*/
public static RetrySpec maxInARow(long maxInARow) {
return new RetrySpec(Context.empty(), maxInARow, t -> true, true, NO_OP_CONSUMER, NO_OP_CONSUMER, NO_OP_BIFUNCTION, NO_OP_BIFUNCTION,
RETRY_EXCEPTION_GENERATOR);
}
A RetrySpec preconfigured for the most simplistic retry strategy: retry immediately and indefinitely (similar to Flux.retry()). Returns: the retry indefinitely spec for further configuration
/**
* A {@link RetrySpec} preconfigured for the most simplistic retry strategy: retry immediately and indefinitely
* (similar to {@link Flux#retry()}).
*
* @return the retry indefinitely spec for further configuration
*/
public static RetrySpec indefinitely() {
return new RetrySpec(Context.empty(), Long.MAX_VALUE, t -> true, false, NO_OP_CONSUMER, NO_OP_CONSUMER, NO_OP_BIFUNCTION, NO_OP_BIFUNCTION,
RetrySpec.RETRY_EXCEPTION_GENERATOR);
}
Params: Returns: the Retry strategy adapted from the Function
/**
* A wrapper around {@link Function} to provide {@link Retry} by using lambda expressions.
*
* @param function the {@link Function} representing the desired {@link Retry} strategy as a lambda
* @return the {@link Retry} strategy adapted from the {@link Function}
*/
public static final Retry from(Function<Flux<RetrySignal>, ? extends Publisher<?>> function) {
return new Retry(Context.empty()) {
@Override
public Publisher<?> generateCompanion(Flux<RetrySignal> retrySignalCompanion) {
return function.apply(retrySignalCompanion);
}
};
}
Params: Returns: the Retry strategy adapted from the Function
/**
* An adapter for {@link Flux} of {@link Throwable}-based {@link Function} to provide {@link Retry}
* from a legacy retryWhen {@link Function}.
*
* @param function the {@link Function} representing the desired {@link Retry} strategy as a lambda
* @return the {@link Retry} strategy adapted from the {@link Function}
*/
public static final Retry withThrowable(Function<Flux<Throwable>, ? extends Publisher<?>> function) {
return new Retry(Context.empty()) {
@Override
public Publisher<?> generateCompanion(Flux<RetrySignal> retrySignals) {
return function.apply(retrySignals.map(RetrySignal::failure));
}
};
}
}