To enable MessageSource, MessageChannel, and MessageHandler metrics, add an <int:management/> bean to the application context (in XML) or annotate one of your @Configuration classes with @EnableIntegrationManagement (in Java). MessageSource instances maintain only counts, MessageChannel instances and MessageHandler instances maintain duration statistics in addition to counts. See MessageChannel Metric Features and MessageHandler Metric Features, later in this chapter.

Doing so causes the automatic registration of the IntegrationManagementConfigurer bean in the application context. Only one such bean can exist in the context, and, if registered manually via a <bean/> definition, it must have the bean name set to integrationManagementConfigurer. This bean applies its configuration to beans after all beans in the context have been instantiated.

In addition to metrics, you can control debug logging in the main message flow. In very high volume applications, even calls to isDebugEnabled() can be quite expensive with some logging subsystems. You can disable all such logging to avoid this overhead. Exception logging (debug or otherwise) is not affected by this setting.

The following listing shows the available options for controlling logging:

At runtime, counts and statistics can be obtained by calling getChannelMetrics, getHandlerMetrics and getSourceMetrics (all from the IntegrationManagementConfigurer class), which return MessageChannelMetrics, MessageHandlerMetrics, and MessageSourceMetrics, respectively.

See the Javadoc for complete information about these classes.

When JMX is enabled (see JMX Support), IntegrationMBeanExporter also exposes these metrics.

IMPORTANT: defaultLoggingEnabled, defaultCountsEnabled, and defaultStatsEnabled are applied only if you have not explicitly configured the corresponding setting in a bean definition.

Starting with version 5.0.2, the framework automatically detects whether the application context has a single MetricsFactory bean and, if so, uses it instead of the default metrics factory.

Starting with version 5.0.3, the presence of a Micrometer MeterRegistry in the application context triggers support for Micrometer metrics in addition to the built-in metrics (note that the legacy built-in metrics will be removed in a future release).

To use Micrometer, add one of the MeterRegistry beans to the application context. If the IntegrationManagementConfigurer detects exactly one MeterRegistry bean, it configures a MicrometerMetricsCaptor bean with a name of integrationMicrometerMetricsCaptor.

For each MessageHandler and MessageChannel, timers are registered. For each MessageSource, a counter is registered.

This only applies to objects that extend AbstractMessageHandler, AbstractMessageChannel, and AbstractMessageSource (which is the case for most framework components).

With Micrometer metrics, the statsEnabled flag has no effect, since statistics capture is delegated to Micrometer. The countsEnabled flag controls whether the Micrometer Meter instances are updated when processing each message.

The Timer Meters for send operations on message channels have the following names or tags:

(A failure result with a none exception means the channel’s send() operation returned false.)

The Counter Meters for receive operations on pollable message channels have the following names or tags:

The Timer Meters for operations on message handlers have the following names or tags:

The Counter meters for message sources have the following names/tags:

In addition, there are three Gauge Meters:

It is possible to customize the names and tags of Meters created by integration components by providing a subclass of MicrometerMetricsCaptor. The MicrometerCustomMetricsTests test case shows a simple example of how to do that. You can also further customize the meters by overloading the build() methods on builder subclasses.

These legacy metrics will be removed in a future release. See Micrometer Integration.

Message channels report metrics according to their concrete type. If you are looking at a DirectChannel, you see statistics for the send operation. If it is a QueueChannel, you also see statistics for the receive operation as well as the count of messages that are currently buffered by this QueueChannel. In both cases, some metrics are simple counters (message count and error count), and some are estimates of averages of interesting quantities. The algorithms used to calculate these estimates are described briefly in the following table.

These legacy metrics will be removed in a future release. See Micrometer Integration.

The following table shows the statistics maintained for message handlers. Some metrics are simple counters (message count and error count), and one is an estimate of averages of send duration. The algorithms used to calculate these estimates are described briefly in the following table:

A feature of the time-based average estimates is that they decay with time if no new measurements arrive. To help interpret the behavior over time, the time (in seconds) since the last measurement is also exposed as a metric.

There are two basic exponential models: decay per measurement (appropriate for duration and anything where the number of measurements is part of the metric) and decay per time unit (more suitable for rate measurements where the time in between measurements is part of the metric). Both models depend on the fact that S(n) = sum(i=0,i=n) w(i) x(i) has a special form when w(i) = r^i, with r=constant: S(n) = x(n) + r S(n-1) (so you only have to store S(n-1) (not the whole series x(i)) to generate a new metric estimate from the last measurement). The algorithms used in the duration metrics use r=exp(-1/M) with M=10. The net effect is that the estimate, S(n), is more heavily weighted to recent measurements and is composed roughly of the last M measurements. So M is the “window” or lapse rate of the estimate. For the vanilla moving average, i is a counter over the number of measurements. For the rate, we interpret i as the elapsed time or a combination of elapsed time and a counter (so the metric estimate contains contributions roughly from the last M measurements and the last T seconds).

A strategy interface MetricsFactory has been introduced to let you provide custom channel metrics for your MessageChannel instances and MessageHandler instances. By default, a DefaultMetricsFactory provides a default implementation of MessageChannelMetrics and MessageHandlerMetrics, described earlier. To override the default MetricsFactory, configure it as described earlier, by providing a reference to your MetricsFactory bean instance. You can either customize the default implementations, as described in the next section, or provide completely different implementations by extending AbstractMessageChannelMetrics or AbstractMessageHandlerMetrics.

See also Micrometer Integration.

In addition to the default metrics factory described earlier, the framework provides the AggregatingMetricsFactory. This factory creates AggregatingMessageChannelMetrics and AggregatingMessageHandlerMetrics instances. In very high volume scenarios, the cost of capturing statistics can be prohibitive (the time to make two calls to the system and store the data for each message). The aggregating metrics aggregate the response time over a sample of messages. This can save significant CPU time.

The following example shows how to define an aggregrating metrics factory:

The preceding configuration aggregates the duration over 1000 messages. Counts (send and error) are maintained per-message, but the statistics are per 1000 messages.