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Camunda 7 Keycloak Identity Provider Plugin including all transitive dependencies
/*
* Copyright 2022 VMware, 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
*
* 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 io.micrometer.observation.docs;
import io.micrometer.common.docs.KeyName;
import io.micrometer.common.lang.Nullable;
import io.micrometer.observation.*;
import java.util.Objects;
import java.util.function.Supplier;
/**
* In order to describe your samples via e.g. enums instead of Strings you can use this
* interface that returns all the characteristics of a sample. We can analyze the sources
* and reuse this information to build a table of known metrics, their names and tags.
*
* We can generate documentation for all created samples but certain requirements need to
* be met.
*
*
* - Observations are grouped within an enum - the enum implements the
* {@code ObservationDocumentation} interface
* - If the observation contains {@link KeyName} then those need to be declared as
* nested enums
* - The {@link ObservationDocumentation#getHighCardinalityKeyNames()} need to call the
* nested enum's {@code values()} method to retrieve the array of allowed keys
* - The {@link ObservationDocumentation#getLowCardinalityKeyNames()} need to call the
* nested enum's {@code values()} method to retrieve the array of allowed keys
* - Javadocs around enums will be used as description
* - If you want to merge different {@link KeyName} enum {@code values()} methods you
* need to call the {@link KeyName#merge(KeyName[]...)} method
*
*
* @author Marcin Grzejszczak
* @since 1.10.0
*/
public interface ObservationDocumentation {
/**
* Empty key names.
*/
KeyName[] EMPTY = new KeyName[0];
/**
* Empty event names.
*/
Observation.Event[] EMPTY_EVENT_NAMES = new Observation.Event[0];
/**
* Default technical name (e.g.: metric name). You can set the name either by this
* method or {@link #getDefaultConvention()}. You can't use both.
* @return name
*/
@Nullable
default String getName() {
return null;
}
/**
* Default naming convention (sets technical and contextual names, and key values).
* You can set the names either by this method or {@link #getName()} and
* {@link #getContextualName()}.
* @return default naming convention
*/
@Nullable
default Class> getDefaultConvention() {
return null;
}
/**
* More human-readable name available within the given context (e.g.: span name). You
* can set the name either by this method or {@link #getDefaultConvention()}. This
* method will override what {@link #getDefaultConvention()} has set.
* @return contextual name
*/
@Nullable
default String getContextualName() {
return null;
}
/**
* Low cardinality key names.
* @return allowed tag keys for low cardinality key-values
*/
default KeyName[] getLowCardinalityKeyNames() {
return EMPTY;
}
/**
* High cardinality key names.
* @return allowed tag keys for high cardinality key-values
*/
default KeyName[] getHighCardinalityKeyNames() {
return EMPTY;
}
/**
* Event values.
* @return allowed event values
*/
default Observation.Event[] getEvents() {
return EMPTY_EVENT_NAMES;
}
/**
* Returns required prefix to be there for tags. For example, {@code foo.} would
* require the tags to have a {@code foo.} prefix like this: {@code foo.bar=true}.
* @return required prefix
*/
default String getPrefix() {
return "";
}
/**
* Creates an {@link Observation}. You need to manually start it.
* @param registry observation registry
* @return observation
*/
default Observation observation(ObservationRegistry registry) {
return observation(registry, Observation.Context::new);
}
/**
* Creates an {@link Observation}. You need to manually start it. When the
* {@link ObservationRegistry} is null or the no-op registry, this fast returns a
* no-op {@link Observation} and skips the creation of the
* {@link Observation.Context}. This check avoids unnecessary
* {@link Observation.Context} creation, which is why it takes a {@link Supplier} for
* the context rather than the context directly. If the observation is not enabled by
* an {@link ObservationPredicate}, a no-op observation will also be returned.
* @param registry observation registry
* @param contextSupplier observation context supplier
* @return observation
*/
default Observation observation(ObservationRegistry registry, Supplier contextSupplier) {
Observation observation = Observation.createNotStarted(getName(), contextSupplier, registry);
if (getContextualName() != null) {
observation.contextualName(getContextualName());
}
return observation;
}
/**
* Creates an {@link Observation} for the given {@link ObservationConvention}. You
* need to manually start it. When the {@link ObservationRegistry} is null or the
* no-op registry, this fast returns a no-op {@link Observation} and skips the
* creation of the {@link Observation.Context}. This check avoids unnecessary
* {@link Observation.Context} creation, which is why it takes a {@link Supplier} for
* the context rather than the context directly. If the observation is not enabled by
* an {@link ObservationPredicate}, a no-op observation will also be returned.
* @param customConvention convention that (if not {@code null}) will override any
* pre-configured conventions
* @param defaultConvention default convention that will be picked if there was
* neither custom convention nor a pre-configured one via
* {@link ObservationRegistry.ObservationConfig#observationConvention(GlobalObservationConvention)}
* @param contextSupplier observation context supplier
* @param registry observation registry
* @return observation
*/
default Observation observation(@Nullable ObservationConvention customConvention,
ObservationConvention defaultConvention, Supplier contextSupplier, ObservationRegistry registry) {
if (getDefaultConvention() == null) {
throw new IllegalStateException("You've decided to use convention based naming yet this observation ["
+ getClass() + "] has not defined any default convention");
}
if (!getDefaultConvention().isAssignableFrom(
Objects
.requireNonNull(defaultConvention,
"You have not provided a default convention in the Observation factory method")
.getClass())) {
throw new IllegalArgumentException("Observation [" + getClass()
+ "] defined default convention to be of type [" + getDefaultConvention()
+ "] but you have provided an incompatible one of type [" + defaultConvention.getClass() + "]");
}
Observation observation = Observation.createNotStarted(customConvention, defaultConvention, contextSupplier,
registry);
if (getName() != null) {
observation.getContext().setName(getName());
}
if (getContextualName() != null) {
observation.contextualName(getContextualName());
}
return observation;
}
/**
* Creates and starts an {@link Observation}.
* @param registry observation registry
* @return observation
*/
default Observation start(ObservationRegistry registry) {
return start(registry, Observation.Context::new);
}
/**
* Creates and starts an {@link Observation}. When the {@link ObservationRegistry} is
* null or the no-op registry, this fast returns a no-op {@link Observation} and skips
* the creation of the {@link Observation.Context}. This check avoids unnecessary
* {@link Observation.Context} creation, which is why it takes a {@link Supplier} for
* the context rather than the context directly. If the observation is not enabled by
* an {@link ObservationPredicate}, a no-op observation will also be returned.
* @param registry observation registry
* @param contextSupplier observation context supplier
* @return observation
*/
default Observation start(ObservationRegistry registry, Supplier contextSupplier) {
return observation(registry, contextSupplier).start();
}
/**
* Creates and starts an {@link Observation}. When the {@link ObservationRegistry} is
* null or the no-op registry, this fast returns a no-op {@link Observation} and skips
* the creation of the {@link Observation.Context}. This check avoids unnecessary
* {@link Observation.Context} creation, which is why it takes a {@link Supplier} for
* the context rather than the context directly. If the observation is not enabled by
* an {@link ObservationPredicate}, a no-op observation will also be returned.
* @param customConvention convention that (if not {@code null}) will override any
* pre-configured conventions
* @param defaultConvention default convention that will be picked if there was
* neither custom convention nor a pre-configured one via
* {@link ObservationRegistry.ObservationConfig#observationConvention(GlobalObservationConvention)}
* @param contextSupplier observation context supplier
* @param registry observation registry
* @return observation
*/
default Observation start(@Nullable ObservationConvention customConvention,
ObservationConvention defaultConvention, Supplier contextSupplier, ObservationRegistry registry) {
return observation(customConvention, defaultConvention, contextSupplier, registry).start();
}
}