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1ea73d2fb9
Update documentation to cover newly added configuration options for the ReactiveElasticsearchClient. Make sure to apply postFilter correctly and set a default limit for unpaged search requests. Also fix some code format issues.
133 lines
4.7 KiB
Plaintext
133 lines
4.7 KiB
Plaintext
[[elasticsearch.reactive.operations]]
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= Reactive Elasticsearch Operations
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`ReactiveElasticsearchOperations` is the gateway to executing high level commands against an Elasticsearch cluster using the `ReactiveElasticsearchClient`.
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The `ReactiveElasticsearchTemplate` is the default implementation of `ReactiveElasticsearchOperations` and offers the following set of features.
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* Read/Write mapping support for domain types.
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* A rich query and criteria api.
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* Resource management and Exception translation.
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[[elasticsearch.reactive.template]]
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== Reactive Elasticsearch Template
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To get started the `ReactiveElasticsearchTemplate` needs to know about the actual client to work with.
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Please see <<elasticsearch.clients.reactive>> for details on the client.
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[[elasticsearch.reactive.template.configuration]]
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=== Reactive Template Configuration
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The easiest way of setting up the `ReactiveElasticsearchTemplate` is via `AbstractReactiveElasticsearchConfiguration` providing
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dedicated configuration method hooks for `base package`, the `initial entity set` etc.
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.The AbstractReactiveElasticsearchConfiguration
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====
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[source,java]
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----
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@Configuration
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public class Config extends AbstractReactiveElasticsearchConfiguration {
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@Bean <1>
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@Override
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public ReactiveElasticsearchClient reactiveElasticsearchClient() {
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// ...
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}
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}
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----
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<1> Configure the client to use. This can be done by `ReactiveRestClients` or directly via `DefaultReactiveElasticsearchClient`.
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====
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NOTE: If applicable set default `HttpHeaders` via the `ClientConfiguration` of the `ReactiveElasticsearchClient`. See <<elasticsearch.clients.configuration>>.
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TIP: If needed the `ReactiveElasticsearchTemplate` can be configured with default `RefreshPolicy` and `IndicesOptions` that get applied to the related requests by overriding the defaults of `refreshPolicy()` and `indicesOptions()`.
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However one might want to be more in control over the actual components and use a more verbose approach.
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.Configure the ReactiveElasticsearchTemplate
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====
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[source,java]
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----
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@Configuration
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public class Config {
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@Bean <1>
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public ReactiveElasticsearchClient reactiveElasticsearchClient() {
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// ...
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}
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@Bean <2>
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public ElasticsearchConverter elasticsearchConverter() {
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return new MappingElasticsearchConverter(elasticsearchMappingContext());
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}
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@Bean <3>
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public SimpleElasticsearchMappingContext elasticsearchMappingContext() {
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return new SimpleElasticsearchMappingContext();
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}
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@Bean <4>
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public ReactiveElasticsearchOperations reactiveElasticsearchOperations() {
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return new ReactiveElasticsearchTemplate(reactiveElasticsearchClient(), elasticsearchConverter());
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}
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}
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----
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<1> Configure the client to use. This can be done by `ReactiveRestClients` or directly via `DefaultReactiveElasticsearchClient`.
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<2> Set up the `ElasticsearchConverter` used for domain type mapping utilizing metadata provided by the mapping context.
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<3> The Elasticsearch specific mapping context for domain type metadata.
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<4> The actual template based on the client and conversion infrastructure.
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====
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[[elasticsearch.reactive.template.usage]]
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=== Reactive Template Usage
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`ReactiveElasticsearchTemplate` lets you save, find and delete your domain objects and map those objects to documents stored in Elasticsearch.
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Consider the following:
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.Use the ReactiveElasticsearchTemplate
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====
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[source,java]
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----
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@Document(indexName = "marvel", type = "characters")
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public class Person {
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private @Id String id;
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private String name;
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private int age;
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// Getter/Setter omitted...
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}
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----
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[source,java]
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----
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template.save(new Person("Bruce Banner", 42)) <1>
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.doOnNext(System.out::println)
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.flatMap(person -> template.findById(person.id, Person.class)) <2>
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.doOnNext(System.out::println)
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.flatMap(person -> template.delete(person)) <3>
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.doOnNext(System.out::println)
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.flatMap(id -> template.count(Person.class)) <4>
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.doOnNext(System.out::println)
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.subscribe(); <5>
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----
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The above outputs the following sequence on the console.
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[source,text]
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----
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> Person(id=QjWCWWcBXiLAnp77ksfR, name=Bruce Banner, age=42)
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> Person(id=QjWCWWcBXiLAnp77ksfR, name=Bruce Banner, age=42)
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> QjWCWWcBXiLAnp77ksfR
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> 0
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----
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<1> Insert a new `Person` document into the _marvel_ index under type _characters_. The `id` is generated on server side and set into the instance returned.
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<2> Lookup the `Person` with matching `id` in the _marvel_ index under type _characters_.
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<3> Delete the `Person` with matching `id`, extracted from the given instance, in the _marvel_ index under type _characters_.
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<4> Count the total number of documents in the _marvel_ index under type _characters_.
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<5> Don't forget to _subscribe()_.
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====
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