== Getting started === Maven Repository The low-level Java REST client is hosted on http://search.maven.org/#search%7Cga%7C1%7Cg%3A%22org.elasticsearch.client%22[Maven Central]. The minimum Java version required is `1.7`. The low-level REST client is subject to the same release cycle as elasticsearch. Replace the version with the desired client version, first released with `5.0.0-alpha4`. There is no relation between the client version and the elasticsearch version that the client can communicate with. The low-level REST client is compatible with all elasticsearch versions. ==== Maven configuration Here is how you can configure the dependency using maven as a dependency manager. Add the following to your `pom.xml` file: ["source","xml",subs="attributes"] -------------------------------------------------- org.elasticsearch.client rest {version} -------------------------------------------------- ==== Gradle configuration Here is how you can configure the dependency using gradle as a dependency manager. Add the following to your `build.gradle` file: ["source","groovy",subs="attributes"] -------------------------------------------------- dependencies { compile 'org.elasticsearch.client:rest:{version}' } -------------------------------------------------- === Dependencies The low-level Java REST client internally uses the http://hc.apache.org/httpcomponents-asyncclient-dev/[Apache Http Async Client] to send http requests. It depends on the following artifacts, namely the async http client and its own transitive dependencies: - org.apache.httpcomponents:httpasyncclient - org.apache.httpcomponents:httpcore-nio - org.apache.httpcomponents:httpclient - org.apache.httpcomponents:httpcore - commons-codec:commons-codec - commons-logging:commons-logging === Initialization A `RestClient` instance can be built through the corresponding `RestClientBuilder` class, created via `RestClient#builder(HttpHost...)` static method. The only required argument is one or more hosts that the client will communicate with, provided as instances of https://hc.apache.org/httpcomponents-core-ga/httpcore/apidocs/org/apache/http/HttpHost.html[HttpHost] as follows: [source,java] -------------------------------------------------- RestClient restClient = RestClient.builder( new HttpHost("localhost", 9200, "http"), new HttpHost("localhost", 9201, "http")).build(); -------------------------------------------------- The `RestClient` class is thread-safe and ideally has the same lifecycle as the application that uses it. It is important that it gets closed when no longer needed so that all the resources used by it get properly released, as well as the underlying http client instance and its threads: [source,java] -------------------------------------------------- restClient.close(); -------------------------------------------------- `RestClientBuilder` also allows to optionally set the following configuration parameters while building the `RestClient` instance: `setDefaultHeaders`:: default headers that need to be sent with each request, to prevent having to specify them with each single request `setMaxRetryTimeoutMillis`:: the timeout that should be honoured in case multiple attempts are made for the same request. The default value is 10 seconds, same as the default socket timeout. In case the socket timeout is customized, the maximum retry timeout should be adjusted accordingly `setFailureListener`:: a listener that gets notified every time a node fails, in case actions need to be taken. Used internally when sniffing on failure is enabled `setRequestConfigCallback`:: callback that allows to modify the default request configuration (e.g. request timeouts, authentication, or anything that the https://hc.apache.org/httpcomponents-client-ga/httpclient/apidocs/org/apache/http/client/config/RequestConfig.Builder.html[`org.apache.http.client.config.RequestConfig.Builder`] allows to set) `setHttpClientConfigCallback`:: callback that allows to modify the http client configuration (e.g. encrypted communication over ssl, or anything that the http://hc.apache.org/httpcomponents-asyncclient-dev/httpasyncclient/apidocs/org/apache/http/impl/nio/client/HttpAsyncClientBuilder.html[`org.apache.http.impl.nio.client.HttpAsyncClientBuilder`] allows to set) === Performing requests Once the `RestClient` has been created, requests can be sent by calling one of the available `performRequest` or `performRequestAsync` method variants. The `performRequest` methods are synchronous and they return the `Response` directly, meaning that the client will block and wait for a response to be returned. The `performRequestAsync` variants, which return `void` and accept an extra `ResponseListener` as an argument, are executed asynchronously. The provided listener will be notified upon completion or failure. [source,java] -------------------------------------------------- // Synchronous variants Response performRequest(String method, String endpoint, Header... headers) throws IOException; Response performRequest(String method, String endpoint, Map params, Header... headers) throws IOException; Response performRequest(String method, String endpoint, Map params, HttpEntity entity, Header... headers) throws IOException; Response performRequest(String method, String endpoint, Map params, HttpEntity entity, HttpAsyncResponseConsumerFactory responseConsumerFactory, Header... headers) throws IOException; // Asynchronous variants void performRequestAsync(String method, String endpoint, ResponseListener responseListener, Header... headers); void performRequestAsync(String method, String endpoint, Map params, ResponseListener responseListener, Header... headers); void performRequestAsync(String method, String endpoint, Map params, HttpEntity entity, ResponseListener responseListener, Header... headers); void performRequestAsync(String method, String endpoint, Map params, HttpEntity entity, HttpAsyncResponseConsumerFactory responseConsumerFactory, ResponseListener responseListener, Header... headers); -------------------------------------------------- ==== Request Arguments The following are the arguments accepted by the different methods: `method`:: the http method or verb `endpoint`:: the request path, which identifies the Elasticsearch API to call (e.g. `/_cluster/health`) `params`:: the optional parameters to be sent as querystring parameters `entity`:: the optional request body enclosed in an `org.apache.http.HttpEntity` object `responseConsumerFactory`:: the optional factory that is used to create an http://hc.apache.org/httpcomponents-core-ga/httpcore-nio/apidocs/org/apache/http/nio/protocol/HttpAsyncResponseConsumer.html[`org.apache.http.nio.protocol.HttpAsyncResponseConsumer`] callback instance per request attempt. Controls how the response body gets streamed from a non-blocking HTTP connection on the client side. When not provided, the default implementation is used which buffers the whole response body in heap memory, up to 100 MB `responseListener`:: the listener to be notified upon asynchronous request success or failure `headers`:: optional request headers === Reading responses The `Response` object, either returned by the synchronous `performRequest` methods or received as an argument in `ResponseListener#onSuccess(Response)`, wraps the response object returned by the http client and exposes the following information: `getRequestLine`:: information about the performed request `getHost`:: the host that returned the response `getStatusLine`:: the response status line `getHeaders`:: the response headers, which can also be retrieved by name though `getHeader(String)` `getEntity`:: the response body enclosed in an https://hc.apache.org/httpcomponents-core-ga/httpcore/apidocs/org/apache/http/HttpEntity.html[`org.apache.http.HttpEntity`] object When performing a request, an exception is thrown (or received as an argument in `ResponseListener#onFailure(Exception)` in the following scenarios: `IOException`:: communication problem (e.g. SocketTimeoutException etc.) `ResponseException`:: a response was returned, but its status code indicated an error (not `2xx`). A `ResponseException` originates from a valid http response, hence it exposes its corresponding `Response` object which gives access to the returned response. NOTE: A `ResponseException` is **not** thrown for `HEAD` requests that return a `404` status code because it is an expected `HEAD` response that simply denotes that the resource is not found. All other HTTP methods (e.g., `GET`) throw a `ResponseException` for `404` responses unless the `ignore` parameter contains `404`. `ignore` is a special client parameter that doesn't get sent to Elasticsearch and contains a comma separated list of error status codes. It allows to control whether some error status code should be treated as an expected response rather than as an exception. This is useful for instance with the get api as it can return `404` when the document is missing, in which case the response body will not contain an error but rather the usual get api response, just without the document as it was not found. === Example requests Here are a couple of examples: [source,java] -------------------------------------------------- Response response = restClient.performRequest("GET", "/", Collections.singletonMap("pretty", "true")); System.out.println(EntityUtils.toString(response.getEntity())); //index a document HttpEntity entity = new NStringEntity( "{\n" + " \"user\" : \"kimchy\",\n" + " \"post_date\" : \"2009-11-15T14:12:12\",\n" + " \"message\" : \"trying out Elasticsearch\"\n" + "}", ContentType.APPLICATION_JSON); Response indexResponse = restClient.performRequest( "PUT", "/twitter/tweet/1", Collections.emptyMap(), entity); -------------------------------------------------- Note that the low-level client doesn't expose any helper for json marshalling and un-marshalling. Users are free to use the library that they prefer for that purpose. The underlying Apache Async Http Client ships with different https://hc.apache.org/httpcomponents-core-ga/httpcore/apidocs/org/apache/http/HttpEntity.html[`org.apache.http.HttpEntity`] implementations that allow to provide the request body in different formats (stream, byte array, string etc.). As for reading the response body, the `HttpEntity#getContent` method comes handy which returns an `InputStream` reading from the previously buffered response body. As an alternative, it is possible to provide a custom http://hc.apache.org/httpcomponents-core-ga/httpcore-nio/apidocs/org/apache/http/nio/protocol/HttpAsyncResponseConsumer.html[`org.apache.http.nio.protocol.HttpAsyncResponseConsumer`] that controls how bytes are read and buffered. The following is a basic example of how async requests can be sent: [source,java] -------------------------------------------------- int numRequests = 10; final CountDownLatch latch = new CountDownLatch(numRequests); for (int i = 0; i < numRequests; i++) { restClient.performRequestAsync( "PUT", "/twitter/tweet/" + i, Collections.emptyMap(), //assume that the documents are stored in an entities array entities[i], new ResponseListener() { @Override public void onSuccess(Response response) { System.out.println(response); latch.countDown(); } @Override public void onFailure(Exception exception) { latch.countDown(); } } ); } //wait for all requests to be completed latch.await(); -------------------------------------------------- === Logging The Java REST client uses the same logging library that the Apache Async Http Client uses: https://commons.apache.org/proper/commons-logging/[Apache Commons Logging], which comes with support for a number of popular logging implementations. The java packages to enable logging for are `org.elasticsearch.client` for the client itself and `org.elasticsearch.client.sniffer` for the sniffer. The request tracer logging can also be enabled to log every request and corresponding response in curl format. That comes handy when debugging, for instance in case a request needs to be manually executed to check whether it still yields the same response as it did. Enable trace logging for the `tracer` package to have such log lines printed out. Do note that this type of logging is expensive and should not be enabled at all times in production environments, but rather temporarily used only when needed.