Awesome
Tenacity
Tenacity is Dropwizard+Hystrix.
Dropwizard is a framework for building REST services. Hystrix is a resiliency library from Netflix and Ben Christensen.
Hystrix's goals are to:
- Stop cascading failures.
- Fail-fast and rapidly recover.
- Reduce mean-time-to-discovery (with dashboards)
- Reduce mean-time-to-recovery (with dynamic configuration)
Tenacity makes Hystrix dropwizard-friendly and for dropwizard-developers to quickly leverage the benefits of Hystrix.
- Uses dropwizard-bundles for bootstrapping: property strategies, metrics, dynamic configuration, and some resource endpoints (e.g. for dashboards).
- Dropwizard-configuration style (YAML) for dependencies.
- Abstractions to clearly configure a dependency operation (
TenacityCommand<ReturnType>
). - Ability to unit-test Hystrix: Resets static state held by Hystrix (metrics, counters, etc.). Increases rate at which a concurrent thread updates metrics.
- Publishes measurements via Metrics.
Tenacity is meant to be used with Breakerbox which adds real-time visualization of metrics and dynamic configuration.
Modules
tenacity-core
: The building blocks to quickly use Hystrix within the context of Dropwizard.tenacity-client
: Client for consuming the resources thattenacity-core
adds.tenacity-testing
:TenacityTestRule
allows for easier unit testing. Resets internal state of Hystrix.tenacity-jdbi
: Pulls in dropwizard-jdbi and provides a DBIExceptionLogger and SQLExceptionLogger to be used with the ExceptionLoggingCommandHook.
How To Use
Here is a sample TenacityCommand
that always succeeds:
public class AlwaysSucceed extends TenacityCommand<String> {
public AlwaysSucceed() {
super(DependencyKey.ALWAYS_SUCCEED);
}
@Override
protected String run() throws Exception {
return "value";
}
}
A quick primer on the way to use a TenacityCommand
if you are not familiar with Hystrix's execution model:
Synchronous Execution
AlwaysSucceed command = new AlwaysSucceed();
String result = command.execute();
This executes the command synchronously but through the protection of a Future.get(configurableTimeout)
.
Asynchronous Execution
Future<String> futureResult = command.queue();
Reactive Execution
Observable<String> observable = new AlwaysSucceed().observe();
Fallbacks
When execution fails, it is possible to gracefully degrade with the use of fallbacks.
Execution Flow
TenacityCommand Constructor Arguments
Earlier we saw:
public class AlwaysSucceed extends TenacityCommand<String> {
public AlwaysSucceed() {
super(DependencyKey.ALWAYS_SUCCEED);
}
...
}
The arguments are:
commandKey
: This creates a circuit-breaker, threadpool, and also the identifier that will be used in dashboards. This should be your implementation of theTenacityPropertyKey
interface.
It is possible to create multiple circuit-breakers that leverage a single threadpool, but for simplicity we are not allowing that type of configuration.
How to add Tenacity to your Dropwizard Service
-
To leverage within dropwizard first add the following to your
pom.xml
:<dependency> <groupId>com.yammer.tenacity</groupId> <artifactId>tenacity-core</artifactId> <version>1.1.2</version> </dependency>
Or you can leverage the tenacity-bom:
<dependencyManagement> <dependencies> <dependency> <groupId>com.yammer.tenacity</groupId> <artifactId>tenacity-bom</artifactId> <version>1.1.2</version> <type>pom</type> <scope>import</scope> </dependency> </dependencies> </dependencyManagement> <dependency> <groupId>com.yammer.tenacity</groupId> <artifactId>tenacity-core</artifactId> </dependency>
-
Enumerate your dependencies. These will eventually be used as global identifiers in dashboards. We have found that it works best for us when you include the service and the external dependency at a minimum. Here is an example of
completie
's dependencies. Note we also shave down some characters to save on space, again for UI purposes. In addition, you'll need to have an implementation of aTenacityPropertyKeyFactory
which you can see an example of below.public enum CompletieDependencyKeys implements TenacityPropertyKey { CMPLT_PRNK_USER, CMPLT_PRNK_GROUP, CMPLT_PRNK_SCND_ORDER, CMPLT_PRNK_NETWORK, CMPLT_TOKIE_AUTH, CMPLT_TYRANT_AUTH, CMPLT_WHVLL_PRESENCE }
public class CompletieDependencyKeyFactory implements TenacityPropertyKeyFactory { @Override public TenacityPropertyKey from(String value) { return CompletieDependencyKeys.valueOf(value.toUpperCase()); } }
-
Create a
TenacityBundleConfigurationFactory
implementation - you can use theBaseTenacityBundleConfigurationFactory
as your starting point. This will be used to register your custom tenacity dependencies and custom configurations.public class CompletieTenacityBundleConfigurationFactory extends BaseTenacityBundleConfigurationFactory<CompletieConfiguration> { @Override public Map<TenacityPropertyKey, TenacityConfiguration> getTenacityConfigurations(CompletieConfiguration configuration) { final ImmutableMap.Builder<TenacityPropertyKey, TenacityConfiguration> builder = ImmutableMap.builder(); builder.put(CompletieDependencyKeys.CMPLT_PRNK_USER, configuration.getRanking().getHystrixUserConfig()); builder.put(CompletieDependencyKeys.CMPLT_PRNK_GROUP, configuration.getRanking().getHystrixGroupConfig()); builder.put(CompletieDependencyKeys.CMPLT_PRNK_SCND_ORDER, configuration.getRanking().getHystrixSecondOrderConfig()); builder.put(CompletieDependencyKeys.CMPLT_PRNK_NETWORK, configuration.getRanking().getHystrixNetworkConfig()); builder.put(CompletieDependencyKeys.CMPLT_TOKIE_AUTH, configuration.getAuthentication().getHystrixConfig()); builder.put(CompletieDependencyKeys.CMPLT_WHVLL_PRESENCE, configuration.getPresence().getHystrixConfig()) return builder.build(); } }
-
Then make sure you add the bundle in your
Application
.Map<TenacityPropertyKey, TenacityConfiguration>
type.@Override public void initialize(Bootstrap<MyConfiguration> bootstrap) { ... bootstrap.addBundle(TenacityBundleBuilder .<MyConfiguration> newBuilder() .configurationFactory(new CompletieTenacityBundleConfigurationFactory()) .build()); ... }
-
Use
TenacityCommand
to select which custom tenacity configuration you want to use.public class CompletieDependencyOnTokie extends TenacityCommand<String> { public CompletieDependencyOnTokie() { super(CompletieDependencyKeys.CMPLT_TOKIE_AUTH); } ... }
-
When testing use the
tenacity-testing
module. This registers appropriate custom publishers/strategies, clears globalArchaius
configuration state (Hystrix uses internally to manage configuration), and tweaks threads that calculate metrics which influence circuit breakers to update a more frequent interval. Simply use theTenacityTestRule
.@Rule public final TenacityTestRule tenacityTestRule = new TenacityTestRule();
<dependency> <groupId>com.yammer.tenacity</groupId> <artifactId>tenacity-testing</artifactId> <version>1.1.2</version> <scope>test</scope> </dependency>
-
Last is to actually configure your dependencies once they are wrapped with
TenacityCommand
.
Configuration
Once you have identified your dependencies you need to configure them appropriately. Here is the basic structure of a single
TenacityConfiguration
that may be leverage multiple times through your service configuration:
Defaults
executionIsolationThreadTimeoutInMillis: 1000
executionIsolationStrategy: THREAD
threadpool:
threadPoolCoreSize: 10
keepAliveTimeMinutes: 1
maxQueueSize: -1
queueSizeRejectionThreshold: 5
metricsRollingStatisticalWindowInMilliseconds: 10000
metricsRollingStatisticalWindowBuckets: 10
circuitBreaker:
requestVolumeThreshold: 20
errorThresholdPercentage: 50
sleepWindowInMillis: 5000
metricsRollingStatisticalWindowInMilliseconds: 10000
metricsRollingStatisticalWindowBuckets: 10
semaphore:
maxConcurrentRequests: 10
fallbackMaxConcurrentRequests: 10
The following two are the most important and you can probably get by just fine by defining just these two and leveraging the defaults.
executionIsolationStrategy
: Which to use THREAD or SEMAPHORE. Defaults to THREAD. Execution Isolation Strategy.executionIsolationThreadTimeoutInMillis
: How long the entire dependency command should take.threadPoolCoreSize
: Self explanatory.
Here are the rest of the descriptions:
keepAliveTimeMinutes
: Thread keepAlive time in the thread pool.maxQueueSize
: -1 uses aSynchronousQueue
. Anything >0 leverages aBlockingQueue
and enables thequeueSizeRejectionThreshold
variable.queueSizeRejectionThreshold
: Disabled when using -1 formaxQueueSize
otherwise self explanatory.requestVolumeThreshold
: The minimum number of requests that need to be received within themetricsRollingStatisticalWindowInMilliseconds
in order to open a circuit breaker.errorThresholdPercentage
: The percentage of errors needed to trip a circuit breaker. In order for this to take effect therequestVolumeThreshold
must first be satisfied.sleepWindowInMillis
: How long to keep the circuit breaker open, before trying again.
Here are the semaphore related items:
maxConcurrentRequests
: The number of concurrent requests for a given key at any given time.fallbackMaxConcurrentRequests
: The number of concurrent requests for the fallback at any given time.
These are recommended to be left alone unless you know what you're doing:
metricsRollingStatisticalWindowInMilliseconds
: How long to keep around metrics for calculating rates.metricsRollingStatisticalWindowBuckets
: How many different metric windows to keep in memory.
Once you are done configuring your Tenacity dependencies. Don't forget to tweak the necessary connect/read timeouts on HTTP clients. We have some suggestions for how you go about this in the Equations section.
Breakerbox
One of the great things about Tenacity is the ability to aid in the reduction of mean-time-to-discovery and mean-time-to-recovery for issues. This is available through a separate service Breakerbox.
Breakerbox is a central dashboard and an on-the-fly configuration tool for Tenacity. In addition to the per-tenacity-command configurations shown above this configuration piece let's you define where and how often to check for newer configurations.
breakerbox:
urls: http://breakerbox.yourcompany.com:8080/archaius/{service}
initialDelay: 0s
delay: 60s
waitForInitialLoad: 0s
urls
is a list of comma-deliminated list of urls for where to pull tenacity configurations. This will pull override configurations for all dependency keys for requested service.initialDelay
how long before the first poll for newer configuration executes.delay
the ongoing schedule to poll for newer configurations.waitForInitialLoad
is the amount of time to block Dropwizard from starting while waiting forBreakerbox
configurations.
In order to add integration with Breakerbox you need to implement the following method in your TenacityBundleConfigurationFactory
implementation:
@Override
public BreakerboxConfiguration getBreakerboxConfiguration(CompletieConfiguration configuration) {
return configuration.getBreakerbox();
}
Configuration Hierarchy Order
Configurations can happen in a lot of different spots so it's good to just spell it out clearly. The order in this list matters, the earlier items override those that come later.
- Breakerbox
- Local service configuration YAML
- Defaults
Configuration Equations
How to configure your dependent services can be confusing. A good place to start if don't have a predefined SLA is to just look at actual measurements. At Yammer, we set our max operational time for our actions somewhere between p99 and p999 for response times. We do this because we have found it to actually be faster to fail those requests, retry, and optimistically get a p50 response time.
- Tenacity
- executionIsolationThreadTimeoutInMillis =
p99 + median + extra
- p99 < executionIsolationThreadTimeoutInMillis < p999
- threadpool
- size =
(p99 in seconds) * (m1 rate req/sec) + extra
- 10 is usually fine for most operations. Anything with a large pool should be understood why that is necessary (e.g. long response times)
- Extra: this number only meets the current traffic needs. Make sure to add some extra for bursts as well as growth.
- size =
- HTTP client
- connectTimeout =
33% of executionIsolationThreadTimeoutInMillis
- timeout (readTimeout) =
110% of executionIsolationThreadTimeoutInMillis
- We put this timeout higher so that it doesn't raise a TimeoutException from the HTTP client, but instead from Hystrix.
Note: These are just suggestions, feel free to look at Hystrix's configuration documentation, or implement your own.
Resources
Tenacity adds resources under /tenacity
:
GET /tenacity/propertykeys
: List of strings which are all the registered propertykeys with Tenacity.GET /tenacity/configuration/{key}
: JSON representation of aTenacityConfiguration
for the supplied {key}.GET /tenacity/circuitbreakers
: Simple JSON representation of all circuitbreakers and their circuitbreaker status.GET /tenacity/circuitbreakers/{key}
: Single circuitbreaker statusPUT /tenacity/circuitbreakers/{key}
: Expected "FORCED_CLOSED, FORCED_OPEN, or FORCED_RESET" as the body.GET /tenacity/metrics.stream
: text/event-stream of Hystrix metrics.
By default these are put onto the main application port. If you want to place these instead on the admin port,
you can configure this when building the Tenacity
bundle.
TenacityBundleBuilder
.<MyConfiguration> newBuilder()
...
.usingAdminPort()
.build();
TenacityExceptionMapper
An exception mapper exists to serve as an aid for unhandled HystrixRuntimeException
s. It is used to convert all the types of unhandled exceptions to be converted to a simple
HTTP status code. A common pattern here is to convert the unhandled HystrixRuntimeException
s to 429 Too Many Requests:
TenacityBundleBuilder
.<MyConfiguration> newBuilder()
.configurationFactory(configurationFactory)
.mapAllHystrixRuntimeExceptionsTo(429)
.build();
ExceptionLoggingCommandHook
If you don't handle logging exceptions explicitly within each TenacityCommand
, you can easily miss problems or at-least find them very hard to debug.
Instead you can add the ExceptionLoggingCommandHook
to the TenacityBundle
and register ExceptionLogger
s to handle the logging of different kinds of Exceptions.
The ExecutionLoggingCommandHook
acts as a HystrixCommandExecutionHook
and intercepts all Exceptions that occur during the run()
method of your TenacityCommand
s.
By sequencing ExceptionLogger
s from most specific to most general, the ExceptionLoggingCommandHook
will be able to find the best ExceptionLogger
for the type of Exception.
TenacityBundleBuilder
.<MyConfiguration> newBuilder()
.configurationFactory(configurationFactory)
.mapAllHystrixRuntimeExceptionsTo(429)
.commandExecutionHook(new ExceptionLoggingCommandHook(
new DBIExceptionLogger(registry),
new SQLExceptionLogger(registry),
new DefaultExceptionLogger()
))
.build();
TenacityJerseyClientBuilder
TenacityJerseyClient
and TenacityJerseyClientBuilder
to reduce configuration complexity when using Tenacity
and JerseyClient
. At the moment these two have competing timeout configurations that can end up looking like application exceptions
when they are simply TimeoutException
s being thrown by JerseyClient. TenacityJerseyClient
aims to fix this by adjusting the socket read timeout
on a per-request basis on the currently set execution timeout value for resources built from TenacityJerseyClient
and its associated
TenacityPropertyKey
. Note: Metrics associated with the TenacityPropertyKey
are NOT updated whenever the underlying Client
is used. The TenacityPropertyKey
metrics are only
ever updated when using TenacityCommand
or TenacityObservableCommand
at the moment.
Client client = new JerseyClientBuilder(environment).build("some-external-dependency");
Client tenacityClient = TenacityJerseyClientBuilder
.builder(YOUR_TENACITY_PROPERTY_KEY)
.usingTimeoutPadding(Duration.milliseconds(50))
//Padding to add in addition to the Tenacity set time. Default is 50ms.
//Result: TenacityTimeout + TimeoutPadding = SocketReadTimeout
.build(client);
//Then use tenacityClient the same way as you'd use client. TenacityClient overrides resource/asyncResource and those in turn are Tenacity*Resources.
//They adjust timeouts on every use or on a per-request basis.
TenacityCircuitBreakerHealthCheck
There is now the ability to add a HealthCheck
which returns unhealthy
when any circuit is open. This could be because a circuit is
forced open or because of environment circumstances. The default is for this not to be turned on. You can enable this HealthCheck
by configuring it on the bundle that is added to your application.
TenacityBundleBuilder
.newBuilder()
...
.withCircuitBreakerHealthCheck()
.build();
TenacityCommand.Builder
Java8 brings functional interfaces and TenacityCommand
/TenacityObservableCommand
offers support.
TenacityCommand
.builder(DependencyKey.GENERAL)
.run(() -> 1)
.fallback(() -> 2)
.execute()
TenacityObservableCommand
.builder(DependencyKey.GENERAL)
.run(() -> Observable.just(1))
.fallback(() -> Observable.just(2))
.observe()