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/**
 * Copyright 2012 Netflix, Inc.
 * 
 * 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
 * 
 * http://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 com.netflix.hystrix;

import static com.netflix.hystrix.strategy.properties.HystrixPropertiesChainedProperty.forBoolean;
import static com.netflix.hystrix.strategy.properties.HystrixPropertiesChainedProperty.forInteger;
import static com.netflix.hystrix.strategy.properties.HystrixPropertiesChainedProperty.forString;

import java.util.concurrent.Future;

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import com.netflix.hystrix.strategy.properties.HystrixDynamicProperty;
import com.netflix.hystrix.strategy.properties.HystrixPropertiesStrategy;
import com.netflix.hystrix.strategy.properties.HystrixProperty;
import com.netflix.hystrix.util.HystrixRollingNumber;
import com.netflix.hystrix.util.HystrixRollingPercentile;

/**
 * Properties for instances of {@link HystrixCommand}.
 * 

* Default implementation of methods uses Archaius (https://github.com/Netflix/archaius) */ public abstract class HystrixCommandProperties { private static final Logger logger = LoggerFactory.getLogger(HystrixCommandProperties.class); /* defaults */ /* package */ static final Integer default_metricsRollingStatisticalWindow = 10000;// default => statisticalWindow: 10000 = 10 seconds (and default of 10 buckets so each bucket is 1 second) private static final Integer default_metricsRollingStatisticalWindowBuckets = 10;// default => statisticalWindowBuckets: 10 = 10 buckets in a 10 second window so each bucket is 1 second private static final Integer default_circuitBreakerRequestVolumeThreshold = 20;// default => statisticalWindowVolumeThreshold: 20 requests in 10 seconds must occur before statistics matter private static final Integer default_circuitBreakerSleepWindowInMilliseconds = 5000;// default => sleepWindow: 5000 = 5 seconds that we will sleep before trying again after tripping the circuit private static final Integer default_circuitBreakerErrorThresholdPercentage = 50;// default => errorThresholdPercentage = 50 = if 50%+ of requests in 10 seconds are failures or latent then we will trip the circuit private static final Boolean default_circuitBreakerForceOpen = false;// default => forceCircuitOpen = false (we want to allow traffic) /* package */ static final Boolean default_circuitBreakerForceClosed = false;// default => ignoreErrors = false private static final Integer default_executionTimeoutInMilliseconds = 1000; // default => executionTimeoutInMilliseconds: 1000 = 1 second private static final Boolean default_executionTimeoutEnabled = true; private static final ExecutionIsolationStrategy default_executionIsolationStrategy = ExecutionIsolationStrategy.THREAD; private static final Boolean default_executionIsolationThreadInterruptOnTimeout = true; private static final Boolean default_executionIsolationThreadInterruptOnFutureCancel = false; private static final Boolean default_metricsRollingPercentileEnabled = true; private static final Boolean default_requestCacheEnabled = true; private static final Integer default_fallbackIsolationSemaphoreMaxConcurrentRequests = 10; private static final Boolean default_fallbackEnabled = true; private static final Integer default_executionIsolationSemaphoreMaxConcurrentRequests = 10; private static final Boolean default_requestLogEnabled = true; private static final Boolean default_circuitBreakerEnabled = true; private static final Integer default_metricsRollingPercentileWindow = 60000; // default to 1 minute for RollingPercentile private static final Integer default_metricsRollingPercentileWindowBuckets = 6; // default to 6 buckets (10 seconds each in 60 second window) private static final Integer default_metricsRollingPercentileBucketSize = 100; // default to 100 values max per bucket private static final Integer default_metricsHealthSnapshotIntervalInMilliseconds = 500; // default to 500ms as max frequency between allowing snapshots of health (error percentage etc) @SuppressWarnings("unused") private final HystrixCommandKey key; private final HystrixProperty circuitBreakerRequestVolumeThreshold; // number of requests that must be made within a statisticalWindow before open/close decisions are made using stats private final HystrixProperty circuitBreakerSleepWindowInMilliseconds; // milliseconds after tripping circuit before allowing retry private final HystrixProperty circuitBreakerEnabled; // Whether circuit breaker should be enabled. private final HystrixProperty circuitBreakerErrorThresholdPercentage; // % of 'marks' that must be failed to trip the circuit private final HystrixProperty circuitBreakerForceOpen; // a property to allow forcing the circuit open (stopping all requests) private final HystrixProperty circuitBreakerForceClosed; // a property to allow ignoring errors and therefore never trip 'open' (ie. allow all traffic through) private final HystrixProperty executionIsolationStrategy; // Whether a command should be executed in a separate thread or not. private final HystrixProperty executionTimeoutInMilliseconds; // Timeout value in milliseconds for a command private final HystrixProperty executionTimeoutEnabled; //Whether timeout should be triggered private final HystrixProperty executionIsolationThreadPoolKeyOverride; // What thread-pool this command should run in (if running on a separate thread). private final HystrixProperty executionIsolationSemaphoreMaxConcurrentRequests; // Number of permits for execution semaphore private final HystrixProperty fallbackIsolationSemaphoreMaxConcurrentRequests; // Number of permits for fallback semaphore private final HystrixProperty fallbackEnabled; // Whether fallback should be attempted. private final HystrixProperty executionIsolationThreadInterruptOnTimeout; // Whether an underlying Future/Thread (when runInSeparateThread == true) should be interrupted after a timeout private final HystrixProperty executionIsolationThreadInterruptOnFutureCancel; // Whether canceling an underlying Future/Thread (when runInSeparateThread == true) should interrupt the execution thread private final HystrixProperty metricsRollingStatisticalWindowInMilliseconds; // milliseconds back that will be tracked private final HystrixProperty metricsRollingStatisticalWindowBuckets; // number of buckets in the statisticalWindow private final HystrixProperty metricsRollingPercentileEnabled; // Whether monitoring should be enabled (SLA and Tracers). private final HystrixProperty metricsRollingPercentileWindowInMilliseconds; // number of milliseconds that will be tracked in RollingPercentile private final HystrixProperty metricsRollingPercentileWindowBuckets; // number of buckets percentileWindow will be divided into private final HystrixProperty metricsRollingPercentileBucketSize; // how many values will be stored in each percentileWindowBucket private final HystrixProperty metricsHealthSnapshotIntervalInMilliseconds; // time between health snapshots private final HystrixProperty requestLogEnabled; // whether command request logging is enabled. private final HystrixProperty requestCacheEnabled; // Whether request caching is enabled. /** * Isolation strategy to use when executing a {@link HystrixCommand}. *

*

    *
  • THREAD: Execute the {@link HystrixCommand#run()} method on a separate thread and restrict concurrent executions using the thread-pool size.
  • *
  • SEMAPHORE: Execute the {@link HystrixCommand#run()} method on the calling thread and restrict concurrent executions using the semaphore permit count.
  • *
*/ public static enum ExecutionIsolationStrategy { THREAD, SEMAPHORE } protected HystrixCommandProperties(HystrixCommandKey key) { this(key, new Setter(), "hystrix"); } protected HystrixCommandProperties(HystrixCommandKey key, HystrixCommandProperties.Setter builder) { this(key, builder, "hystrix"); } // known that we're using deprecated HystrixPropertiesChainedServoProperty until ChainedDynamicProperty exists in Archaius protected HystrixCommandProperties(HystrixCommandKey key, HystrixCommandProperties.Setter builder, String propertyPrefix) { this.key = key; this.circuitBreakerEnabled = getProperty(propertyPrefix, key, "circuitBreaker.enabled", builder.getCircuitBreakerEnabled(), default_circuitBreakerEnabled); this.circuitBreakerRequestVolumeThreshold = getProperty(propertyPrefix, key, "circuitBreaker.requestVolumeThreshold", builder.getCircuitBreakerRequestVolumeThreshold(), default_circuitBreakerRequestVolumeThreshold); this.circuitBreakerSleepWindowInMilliseconds = getProperty(propertyPrefix, key, "circuitBreaker.sleepWindowInMilliseconds", builder.getCircuitBreakerSleepWindowInMilliseconds(), default_circuitBreakerSleepWindowInMilliseconds); this.circuitBreakerErrorThresholdPercentage = getProperty(propertyPrefix, key, "circuitBreaker.errorThresholdPercentage", builder.getCircuitBreakerErrorThresholdPercentage(), default_circuitBreakerErrorThresholdPercentage); this.circuitBreakerForceOpen = getProperty(propertyPrefix, key, "circuitBreaker.forceOpen", builder.getCircuitBreakerForceOpen(), default_circuitBreakerForceOpen); this.circuitBreakerForceClosed = getProperty(propertyPrefix, key, "circuitBreaker.forceClosed", builder.getCircuitBreakerForceClosed(), default_circuitBreakerForceClosed); this.executionIsolationStrategy = getProperty(propertyPrefix, key, "execution.isolation.strategy", builder.getExecutionIsolationStrategy(), default_executionIsolationStrategy); //this property name is now misleading. //TODO figure out a good way to deprecate this property name this.executionTimeoutInMilliseconds = getProperty(propertyPrefix, key, "execution.isolation.thread.timeoutInMilliseconds", builder.getExecutionIsolationThreadTimeoutInMilliseconds(), default_executionTimeoutInMilliseconds); this.executionTimeoutEnabled = getProperty(propertyPrefix, key, "execution.timeout.enabled", builder.getExecutionTimeoutEnabled(), default_executionTimeoutEnabled); this.executionIsolationThreadInterruptOnTimeout = getProperty(propertyPrefix, key, "execution.isolation.thread.interruptOnTimeout", builder.getExecutionIsolationThreadInterruptOnTimeout(), default_executionIsolationThreadInterruptOnTimeout); this.executionIsolationThreadInterruptOnFutureCancel = getProperty(propertyPrefix, key, "execution.isolation.thread.interruptOnFutureCancel", builder.getExecutionIsolationThreadInterruptOnFutureCancel(), default_executionIsolationThreadInterruptOnFutureCancel); this.executionIsolationSemaphoreMaxConcurrentRequests = getProperty(propertyPrefix, key, "execution.isolation.semaphore.maxConcurrentRequests", builder.getExecutionIsolationSemaphoreMaxConcurrentRequests(), default_executionIsolationSemaphoreMaxConcurrentRequests); this.fallbackIsolationSemaphoreMaxConcurrentRequests = getProperty(propertyPrefix, key, "fallback.isolation.semaphore.maxConcurrentRequests", builder.getFallbackIsolationSemaphoreMaxConcurrentRequests(), default_fallbackIsolationSemaphoreMaxConcurrentRequests); this.fallbackEnabled = getProperty(propertyPrefix, key, "fallback.enabled", builder.getFallbackEnabled(), default_fallbackEnabled); this.metricsRollingStatisticalWindowInMilliseconds = getProperty(propertyPrefix, key, "metrics.rollingStats.timeInMilliseconds", builder.getMetricsRollingStatisticalWindowInMilliseconds(), default_metricsRollingStatisticalWindow); this.metricsRollingStatisticalWindowBuckets = getProperty(propertyPrefix, key, "metrics.rollingStats.numBuckets", builder.getMetricsRollingStatisticalWindowBuckets(), default_metricsRollingStatisticalWindowBuckets); this.metricsRollingPercentileEnabled = getProperty(propertyPrefix, key, "metrics.rollingPercentile.enabled", builder.getMetricsRollingPercentileEnabled(), default_metricsRollingPercentileEnabled); this.metricsRollingPercentileWindowInMilliseconds = getProperty(propertyPrefix, key, "metrics.rollingPercentile.timeInMilliseconds", builder.getMetricsRollingPercentileWindowInMilliseconds(), default_metricsRollingPercentileWindow); this.metricsRollingPercentileWindowBuckets = getProperty(propertyPrefix, key, "metrics.rollingPercentile.numBuckets", builder.getMetricsRollingPercentileWindowBuckets(), default_metricsRollingPercentileWindowBuckets); this.metricsRollingPercentileBucketSize = getProperty(propertyPrefix, key, "metrics.rollingPercentile.bucketSize", builder.getMetricsRollingPercentileBucketSize(), default_metricsRollingPercentileBucketSize); this.metricsHealthSnapshotIntervalInMilliseconds = getProperty(propertyPrefix, key, "metrics.healthSnapshot.intervalInMilliseconds", builder.getMetricsHealthSnapshotIntervalInMilliseconds(), default_metricsHealthSnapshotIntervalInMilliseconds); this.requestCacheEnabled = getProperty(propertyPrefix, key, "requestCache.enabled", builder.getRequestCacheEnabled(), default_requestCacheEnabled); this.requestLogEnabled = getProperty(propertyPrefix, key, "requestLog.enabled", builder.getRequestLogEnabled(), default_requestLogEnabled); // threadpool doesn't have a global override, only instance level makes sense this.executionIsolationThreadPoolKeyOverride = forString().add(propertyPrefix + ".command." + key.name() + ".threadPoolKeyOverride", null).build(); } /** * Whether to use a {@link HystrixCircuitBreaker} or not. If false no circuit-breaker logic will be used and all requests permitted. *

* This is similar in effect to {@link #circuitBreakerForceClosed()} except that continues tracking metrics and knowing whether it * should be open/closed, this property results in not even instantiating a circuit-breaker. * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerEnabled() { return circuitBreakerEnabled; } /** * Error percentage threshold (as whole number such as 50) at which point the circuit breaker will trip open and reject requests. *

* It will stay tripped for the duration defined in {@link #circuitBreakerSleepWindowInMilliseconds()}; *

* The error percentage this is compared against comes from {@link HystrixCommandMetrics#getHealthCounts()}. * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerErrorThresholdPercentage() { return circuitBreakerErrorThresholdPercentage; } /** * If true the {@link HystrixCircuitBreaker#allowRequest()} will always return true to allow requests regardless of the error percentage from {@link HystrixCommandMetrics#getHealthCounts()}. *

* The {@link #circuitBreakerForceOpen()} property takes precedence so if it set to true this property does nothing. * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerForceClosed() { return circuitBreakerForceClosed; } /** * If true the {@link HystrixCircuitBreaker#allowRequest()} will always return false, causing the circuit to be open (tripped) and reject all requests. *

* This property takes precedence over {@link #circuitBreakerForceClosed()}; * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerForceOpen() { return circuitBreakerForceOpen; } /** * Minimum number of requests in the {@link #metricsRollingStatisticalWindowInMilliseconds()} that must exist before the {@link HystrixCircuitBreaker} will trip. *

* If below this number the circuit will not trip regardless of error percentage. * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerRequestVolumeThreshold() { return circuitBreakerRequestVolumeThreshold; } /** * The time in milliseconds after a {@link HystrixCircuitBreaker} trips open that it should wait before trying requests again. * * @return {@code HystrixProperty} */ public HystrixProperty circuitBreakerSleepWindowInMilliseconds() { return circuitBreakerSleepWindowInMilliseconds; } /** * Number of concurrent requests permitted to {@link HystrixCommand#run()}. Requests beyond the concurrent limit will be rejected. *

* Applicable only when {@link #executionIsolationStrategy()} == SEMAPHORE. * * @return {@code HystrixProperty} */ public HystrixProperty executionIsolationSemaphoreMaxConcurrentRequests() { return executionIsolationSemaphoreMaxConcurrentRequests; } /** * What isolation strategy {@link HystrixCommand#run()} will be executed with. *

* If {@link ExecutionIsolationStrategy#THREAD} then it will be executed on a separate thread and concurrent requests limited by the number of threads in the thread-pool. *

* If {@link ExecutionIsolationStrategy#SEMAPHORE} then it will be executed on the calling thread and concurrent requests limited by the semaphore count. * * @return {@code HystrixProperty} */ public HystrixProperty executionIsolationStrategy() { return executionIsolationStrategy; } /** * Whether the execution thread should attempt an interrupt (using {@link Future#cancel}) when a thread times out. *

* Applicable only when {@link #executionIsolationStrategy()} == THREAD. * * @return {@code HystrixProperty} */ public HystrixProperty executionIsolationThreadInterruptOnTimeout() { return executionIsolationThreadInterruptOnTimeout; } /** * Whether the execution thread should be interrupted if the execution observable is unsubscribed or the future is cancelled via {@link Future#cancel(true)}). *

* Applicable only when {@link #executionIsolationStrategy()} == THREAD. * * @return {@code HystrixProperty} */ public HystrixProperty executionIsolationThreadInterruptOnFutureCancel() { return executionIsolationThreadInterruptOnFutureCancel; } /** * Allow a dynamic override of the {@link HystrixThreadPoolKey} that will dynamically change which {@link HystrixThreadPool} a {@link HystrixCommand} executes on. *

* Typically this should return NULL which will cause it to use the {@link HystrixThreadPoolKey} injected into a {@link HystrixCommand} or derived from the {@link HystrixCommandGroupKey}. *

* When set the injected or derived values will be ignored and a new {@link HystrixThreadPool} created (if necessary) and the {@link HystrixCommand} will begin using the newly defined pool. * * @return {@code HystrixProperty} */ public HystrixProperty executionIsolationThreadPoolKeyOverride() { return executionIsolationThreadPoolKeyOverride; } /** * * @deprecated As of release 1.4.0, replaced by {@link #executionTimeoutInMilliseconds()}. Timeout is no longer specific to thread-isolation commands, so the thread-specific name is misleading. * * Time in milliseconds at which point the command will timeout and halt execution. *

* If {@link #executionIsolationThreadInterruptOnTimeout} == true and the command is thread-isolated, the executing thread will be interrupted. * If the command is semaphore-isolated and a {@link HystrixObservableCommand}, that command will get unsubscribed. *

* * @return {@code HystrixProperty} */ @Deprecated //prefer {@link #executionTimeoutInMilliseconds} public HystrixProperty executionIsolationThreadTimeoutInMilliseconds() { return executionTimeoutInMilliseconds; } /** * Time in milliseconds at which point the command will timeout and halt execution. *

* If {@link #executionIsolationThreadInterruptOnTimeout} == true and the command is thread-isolated, the executing thread will be interrupted. * If the command is semaphore-isolated and a {@link HystrixObservableCommand}, that command will get unsubscribed. *

* * @return {@code HystrixProperty} */ public HystrixProperty executionTimeoutInMilliseconds() { /** * Calling a deprecated method here is a temporary workaround. We do this because {@link #executionTimeoutInMilliseconds()} is a new method (as of 1.4.0-rc.7) and an extending * class will not have this method. It will have {@link #executionIsolationThreadTimeoutInMilliseconds()}, however. * So, to stay compatible with an extension, we perform this redirect. */ return executionIsolationThreadTimeoutInMilliseconds(); } /** * Whether the timeout mechanism is enabled for this command * * @return {@code HystrixProperty} * * @since 1.4.4 */ public HystrixProperty executionTimeoutEnabled() { return executionTimeoutEnabled; } /** * Number of concurrent requests permitted to {@link HystrixCommand#getFallback()}. Requests beyond the concurrent limit will fail-fast and not attempt retrieving a fallback. * * @return {@code HystrixProperty} */ public HystrixProperty fallbackIsolationSemaphoreMaxConcurrentRequests() { return fallbackIsolationSemaphoreMaxConcurrentRequests; } /** * Whether {@link HystrixCommand#getFallback()} should be attempted when failure occurs. * * @return {@code HystrixProperty} * * @since 1.2 */ public HystrixProperty fallbackEnabled() { return fallbackEnabled; } /** * Time in milliseconds to wait between allowing health snapshots to be taken that calculate success and error percentages and affect {@link HystrixCircuitBreaker#isOpen()} status. *

* On high-volume circuits the continual calculation of error percentage can become CPU intensive thus this controls how often it is calculated. * * @return {@code HystrixProperty} */ public HystrixProperty metricsHealthSnapshotIntervalInMilliseconds() { return metricsHealthSnapshotIntervalInMilliseconds; } /** * Maximum number of values stored in each bucket of the rolling percentile. This is passed into {@link HystrixRollingPercentile} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingPercentileBucketSize() { return metricsRollingPercentileBucketSize; } /** * Whether percentile metrics should be captured using {@link HystrixRollingPercentile} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingPercentileEnabled() { return metricsRollingPercentileEnabled; } /** * Duration of percentile rolling window in milliseconds. This is passed into {@link HystrixRollingPercentile} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} * @deprecated Use {@link #metricsRollingPercentileWindowInMilliseconds()} */ public HystrixProperty metricsRollingPercentileWindow() { return metricsRollingPercentileWindowInMilliseconds; } /** * Duration of percentile rolling window in milliseconds. This is passed into {@link HystrixRollingPercentile} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingPercentileWindowInMilliseconds() { return metricsRollingPercentileWindowInMilliseconds; } /** * Number of buckets the rolling percentile window is broken into. This is passed into {@link HystrixRollingPercentile} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingPercentileWindowBuckets() { return metricsRollingPercentileWindowBuckets; } /** * Duration of statistical rolling window in milliseconds. This is passed into {@link HystrixRollingNumber} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingStatisticalWindowInMilliseconds() { return metricsRollingStatisticalWindowInMilliseconds; } /** * Number of buckets the rolling statistical window is broken into. This is passed into {@link HystrixRollingNumber} inside {@link HystrixCommandMetrics}. * * @return {@code HystrixProperty} */ public HystrixProperty metricsRollingStatisticalWindowBuckets() { return metricsRollingStatisticalWindowBuckets; } /** * Whether {@link HystrixCommand#getCacheKey()} should be used with {@link HystrixRequestCache} to provide de-duplication functionality via request-scoped caching. * * @return {@code HystrixProperty} */ public HystrixProperty requestCacheEnabled() { return requestCacheEnabled; } /** * Whether {@link HystrixCommand} execution and events should be logged to {@link HystrixRequestLog}. * * @return {@code HystrixProperty} */ public HystrixProperty requestLogEnabled() { return requestLogEnabled; } private static HystrixProperty getProperty(String propertyPrefix, HystrixCommandKey key, String instanceProperty, Boolean builderOverrideValue, Boolean defaultValue) { return forBoolean() .add(propertyPrefix + ".command." + key.name() + "." + instanceProperty, builderOverrideValue) .add(propertyPrefix + ".command.default." + instanceProperty, defaultValue) .build(); } private static HystrixProperty getProperty(String propertyPrefix, HystrixCommandKey key, String instanceProperty, Integer builderOverrideValue, Integer defaultValue) { return forInteger() .add(propertyPrefix + ".command." + key.name() + "." + instanceProperty, builderOverrideValue) .add(propertyPrefix + ".command.default." + instanceProperty, defaultValue) .build(); } @SuppressWarnings("unused") private static HystrixProperty getProperty(String propertyPrefix, HystrixCommandKey key, String instanceProperty, String builderOverrideValue, String defaultValue) { return forString() .add(propertyPrefix + ".command." + key.name() + "." + instanceProperty, builderOverrideValue) .add(propertyPrefix + ".command.default." + instanceProperty, defaultValue) .build(); } private static HystrixProperty getProperty(final String propertyPrefix, final HystrixCommandKey key, final String instanceProperty, final ExecutionIsolationStrategy builderOverrideValue, final ExecutionIsolationStrategy defaultValue) { return new ExecutionIsolationStrategyHystrixProperty(builderOverrideValue, key, propertyPrefix, defaultValue, instanceProperty); } /** * HystrixProperty that converts a String to ExecutionIsolationStrategy so we remain TypeSafe. */ private static final class ExecutionIsolationStrategyHystrixProperty implements HystrixProperty { private final HystrixDynamicProperty property; private volatile ExecutionIsolationStrategy value; private final ExecutionIsolationStrategy defaultValue; private ExecutionIsolationStrategyHystrixProperty(ExecutionIsolationStrategy builderOverrideValue, HystrixCommandKey key, String propertyPrefix, ExecutionIsolationStrategy defaultValue, String instanceProperty) { this.defaultValue = defaultValue; String overrideValue = null; if (builderOverrideValue != null) { overrideValue = builderOverrideValue.name(); } property = forString() .add(propertyPrefix + ".command." + key.name() + "." + instanceProperty, overrideValue) .add(propertyPrefix + ".command.default." + instanceProperty, defaultValue.name()) .build(); // initialize the enum value from the property parseProperty(); // use a callback to handle changes so we only handle the parse cost on updates rather than every fetch property.addCallback(new Runnable() { @Override public void run() { // when the property value changes we'll update the value parseProperty(); } }); } @Override public ExecutionIsolationStrategy get() { return value; } private void parseProperty() { try { value = ExecutionIsolationStrategy.valueOf(property.get()); } catch (Exception e) { logger.error("Unable to derive ExecutionIsolationStrategy from property value: " + property.get(), e); // use the default value value = defaultValue; } } } /** * Factory method to retrieve the default Setter. */ public static Setter Setter() { return new Setter(); } /** * Factory method to retrieve the default Setter. * Groovy has a bug (GROOVY-6286) which does not allow method names and inner classes to have the same name * This method fixes Issue #967 and allows Groovy consumers to choose this method and not trigger the bug */ public static Setter defaultSetter() { return Setter(); } /** * Fluent interface that allows chained setting of properties that can be passed into a {@link HystrixCommand} constructor to inject instance specific property overrides. *

* See {@link HystrixPropertiesStrategy} for more information on order of precedence. *

* Example: *

*

 {@code
     * HystrixCommandProperties.Setter()
     *           .withExecutionTimeoutInMilliseconds(100)
     *           .withExecuteCommandOnSeparateThread(true);
     * } 
* * @NotThreadSafe */ public static class Setter { private Boolean circuitBreakerEnabled = null; private Integer circuitBreakerErrorThresholdPercentage = null; private Boolean circuitBreakerForceClosed = null; private Boolean circuitBreakerForceOpen = null; private Integer circuitBreakerRequestVolumeThreshold = null; private Integer circuitBreakerSleepWindowInMilliseconds = null; private Integer executionIsolationSemaphoreMaxConcurrentRequests = null; private ExecutionIsolationStrategy executionIsolationStrategy = null; private Boolean executionIsolationThreadInterruptOnTimeout = null; private Boolean executionIsolationThreadInterruptOnFutureCancel = null; private Integer executionTimeoutInMilliseconds = null; private Boolean executionTimeoutEnabled = null; private Integer fallbackIsolationSemaphoreMaxConcurrentRequests = null; private Boolean fallbackEnabled = null; private Integer metricsHealthSnapshotIntervalInMilliseconds = null; private Integer metricsRollingPercentileBucketSize = null; private Boolean metricsRollingPercentileEnabled = null; private Integer metricsRollingPercentileWindowInMilliseconds = null; private Integer metricsRollingPercentileWindowBuckets = null; /* null means it hasn't been overridden */ private Integer metricsRollingStatisticalWindowInMilliseconds = null; private Integer metricsRollingStatisticalWindowBuckets = null; private Boolean requestCacheEnabled = null; private Boolean requestLogEnabled = null; /* package */ Setter() { } public Boolean getCircuitBreakerEnabled() { return circuitBreakerEnabled; } public Integer getCircuitBreakerErrorThresholdPercentage() { return circuitBreakerErrorThresholdPercentage; } public Boolean getCircuitBreakerForceClosed() { return circuitBreakerForceClosed; } public Boolean getCircuitBreakerForceOpen() { return circuitBreakerForceOpen; } public Integer getCircuitBreakerRequestVolumeThreshold() { return circuitBreakerRequestVolumeThreshold; } public Integer getCircuitBreakerSleepWindowInMilliseconds() { return circuitBreakerSleepWindowInMilliseconds; } public Integer getExecutionIsolationSemaphoreMaxConcurrentRequests() { return executionIsolationSemaphoreMaxConcurrentRequests; } public ExecutionIsolationStrategy getExecutionIsolationStrategy() { return executionIsolationStrategy; } public Boolean getExecutionIsolationThreadInterruptOnTimeout() { return executionIsolationThreadInterruptOnTimeout; } public Boolean getExecutionIsolationThreadInterruptOnFutureCancel() { return executionIsolationThreadInterruptOnFutureCancel; } /** * @deprecated As of 1.4.0, use {@link #getExecutionTimeoutInMilliseconds()} */ @Deprecated public Integer getExecutionIsolationThreadTimeoutInMilliseconds() { return executionTimeoutInMilliseconds; } public Integer getExecutionTimeoutInMilliseconds() { return executionTimeoutInMilliseconds; } public Boolean getExecutionTimeoutEnabled() { return executionTimeoutEnabled; } public Integer getFallbackIsolationSemaphoreMaxConcurrentRequests() { return fallbackIsolationSemaphoreMaxConcurrentRequests; } public Boolean getFallbackEnabled() { return fallbackEnabled; } public Integer getMetricsHealthSnapshotIntervalInMilliseconds() { return metricsHealthSnapshotIntervalInMilliseconds; } public Integer getMetricsRollingPercentileBucketSize() { return metricsRollingPercentileBucketSize; } public Boolean getMetricsRollingPercentileEnabled() { return metricsRollingPercentileEnabled; } public Integer getMetricsRollingPercentileWindowInMilliseconds() { return metricsRollingPercentileWindowInMilliseconds; } public Integer getMetricsRollingPercentileWindowBuckets() { return metricsRollingPercentileWindowBuckets; } public Integer getMetricsRollingStatisticalWindowInMilliseconds() { return metricsRollingStatisticalWindowInMilliseconds; } public Integer getMetricsRollingStatisticalWindowBuckets() { return metricsRollingStatisticalWindowBuckets; } public Boolean getRequestCacheEnabled() { return requestCacheEnabled; } public Boolean getRequestLogEnabled() { return requestLogEnabled; } public Setter withCircuitBreakerEnabled(boolean value) { this.circuitBreakerEnabled = value; return this; } public Setter withCircuitBreakerErrorThresholdPercentage(int value) { this.circuitBreakerErrorThresholdPercentage = value; return this; } public Setter withCircuitBreakerForceClosed(boolean value) { this.circuitBreakerForceClosed = value; return this; } public Setter withCircuitBreakerForceOpen(boolean value) { this.circuitBreakerForceOpen = value; return this; } public Setter withCircuitBreakerRequestVolumeThreshold(int value) { this.circuitBreakerRequestVolumeThreshold = value; return this; } public Setter withCircuitBreakerSleepWindowInMilliseconds(int value) { this.circuitBreakerSleepWindowInMilliseconds = value; return this; } public Setter withExecutionIsolationSemaphoreMaxConcurrentRequests(int value) { this.executionIsolationSemaphoreMaxConcurrentRequests = value; return this; } public Setter withExecutionIsolationStrategy(ExecutionIsolationStrategy value) { this.executionIsolationStrategy = value; return this; } public Setter withExecutionIsolationThreadInterruptOnTimeout(boolean value) { this.executionIsolationThreadInterruptOnTimeout = value; return this; } public Setter withExecutionIsolationThreadInterruptOnFutureCancel(boolean value) { this.executionIsolationThreadInterruptOnFutureCancel = value; return this; } /** * @deprecated As of 1.4.0, replaced with {@link #withExecutionTimeoutInMilliseconds(int)}. Timeouts are no longer applied only to thread-isolated commands, so a thread-specific name is misleading */ @Deprecated public Setter withExecutionIsolationThreadTimeoutInMilliseconds(int value) { this.executionTimeoutInMilliseconds = value; return this; } public Setter withExecutionTimeoutInMilliseconds(int value) { this.executionTimeoutInMilliseconds = value; return this; } public Setter withExecutionTimeoutEnabled(boolean value) { this.executionTimeoutEnabled = value; return this; } public Setter withFallbackIsolationSemaphoreMaxConcurrentRequests(int value) { this.fallbackIsolationSemaphoreMaxConcurrentRequests = value; return this; } public Setter withFallbackEnabled(boolean value) { this.fallbackEnabled = value; return this; } public Setter withMetricsHealthSnapshotIntervalInMilliseconds(int value) { this.metricsHealthSnapshotIntervalInMilliseconds = value; return this; } public Setter withMetricsRollingPercentileBucketSize(int value) { this.metricsRollingPercentileBucketSize = value; return this; } public Setter withMetricsRollingPercentileEnabled(boolean value) { this.metricsRollingPercentileEnabled = value; return this; } public Setter withMetricsRollingPercentileWindowInMilliseconds(int value) { this.metricsRollingPercentileWindowInMilliseconds = value; return this; } public Setter withMetricsRollingPercentileWindowBuckets(int value) { this.metricsRollingPercentileWindowBuckets = value; return this; } public Setter withMetricsRollingStatisticalWindowInMilliseconds(int value) { this.metricsRollingStatisticalWindowInMilliseconds = value; return this; } public Setter withMetricsRollingStatisticalWindowBuckets(int value) { this.metricsRollingStatisticalWindowBuckets = value; return this; } public Setter withRequestCacheEnabled(boolean value) { this.requestCacheEnabled = value; return this; } public Setter withRequestLogEnabled(boolean value) { this.requestLogEnabled = value; return this; } } }




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