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/*
 * Licensed to Elasticsearch under one or more contributor
 * license agreements. See the NOTICE file distributed with
 * this work for additional information regarding copyright
 * ownership. Elasticsearch licenses this file to you 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
 *
 *    http://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 org.elasticsearch.client;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.http.ConnectionClosedException;
import org.apache.http.Header;
import org.apache.http.HttpEntity;
import org.apache.http.HttpHost;
import org.apache.http.HttpRequest;
import org.apache.http.HttpResponse;
import org.apache.http.client.AuthCache;
import org.apache.http.client.ClientProtocolException;
import org.apache.http.client.methods.HttpEntityEnclosingRequestBase;
import org.apache.http.client.methods.HttpHead;
import org.apache.http.client.methods.HttpOptions;
import org.apache.http.client.methods.HttpPatch;
import org.apache.http.client.methods.HttpPost;
import org.apache.http.client.methods.HttpPut;
import org.apache.http.client.methods.HttpRequestBase;
import org.apache.http.client.methods.HttpTrace;
import org.apache.http.client.protocol.HttpClientContext;
import org.apache.http.client.utils.URIBuilder;
import org.apache.http.concurrent.FutureCallback;
import org.apache.http.conn.ConnectTimeoutException;
import org.apache.http.impl.auth.BasicScheme;
import org.apache.http.impl.client.BasicAuthCache;
import org.apache.http.impl.nio.client.CloseableHttpAsyncClient;
import org.apache.http.nio.client.methods.HttpAsyncMethods;
import org.apache.http.nio.protocol.HttpAsyncRequestProducer;
import org.apache.http.nio.protocol.HttpAsyncResponseConsumer;

import javax.net.ssl.SSLHandshakeException;
import java.io.Closeable;
import java.io.IOException;
import java.net.ConnectException;
import java.net.SocketTimeoutException;
import java.net.URI;
import java.net.URISyntaxException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Base64;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.stream.Collectors;

import static java.nio.charset.StandardCharsets.UTF_8;
import static java.util.Collections.singletonList;

/**
 * Client that connects to an Elasticsearch cluster through HTTP.
 * 

* Must be created using {@link RestClientBuilder}, which allows to set all the different options or just rely on defaults. * The hosts that are part of the cluster need to be provided at creation time, but can also be replaced later * by calling {@link #setNodes(Collection)}. *

* The method {@link #performRequest(Request)} allows to send a request to the cluster. When * sending a request, a host gets selected out of the provided ones in a round-robin fashion. Failing hosts are marked dead and * retried after a certain amount of time (minimum 1 minute, maximum 30 minutes), depending on how many times they previously * failed (the more failures, the later they will be retried). In case of failures all of the alive nodes (or dead nodes that * deserve a retry) are retried until one responds or none of them does, in which case an {@link IOException} will be thrown. *

* Requests can be either synchronous or asynchronous. The asynchronous variants all end with {@code Async}. *

* Requests can be traced by enabling trace logging for "tracer". The trace logger outputs requests and responses in curl format. */ public class RestClient implements Closeable { private static final Log logger = LogFactory.getLog(RestClient.class); private final CloseableHttpAsyncClient client; // We don't rely on default headers supported by HttpAsyncClient as those cannot be replaced. // These are package private for tests. final List

defaultHeaders; private final String pathPrefix; private final AtomicInteger lastNodeIndex = new AtomicInteger(0); private final ConcurrentMap blacklist = new ConcurrentHashMap<>(); private final FailureListener failureListener; private final NodeSelector nodeSelector; private volatile NodeTuple> nodeTuple; private final WarningsHandler warningsHandler; RestClient(CloseableHttpAsyncClient client, Header[] defaultHeaders, List nodes, String pathPrefix, FailureListener failureListener, NodeSelector nodeSelector, boolean strictDeprecationMode) { this.client = client; this.defaultHeaders = Collections.unmodifiableList(Arrays.asList(defaultHeaders)); this.failureListener = failureListener; this.pathPrefix = pathPrefix; this.nodeSelector = nodeSelector; this.warningsHandler = strictDeprecationMode ? WarningsHandler.STRICT : WarningsHandler.PERMISSIVE; setNodes(nodes); } /** * Returns a new {@link RestClientBuilder} to help with {@link RestClient} creation. * Creates a new builder instance and sets the nodes that the client will send requests to. * * @param cloudId a valid elastic cloud cloudId that will route to a cluster. The cloudId is located in * the user console https://cloud.elastic.co and will resemble a string like the following * optionalHumanReadableName:dXMtZWFzdC0xLmF3cy5mb3VuZC5pbyRlbGFzdGljc2VhcmNoJGtpYmFuYQ== */ public static RestClientBuilder builder(String cloudId) { // there is an optional first portion of the cloudId that is a human readable string, but it is not used. if (cloudId.contains(":")) { if (cloudId.indexOf(":") == cloudId.length() - 1) { throw new IllegalStateException("cloudId " + cloudId + " must begin with a human readable identifier followed by a colon"); } cloudId = cloudId.substring(cloudId.indexOf(":") + 1); } String decoded = new String(Base64.getDecoder().decode(cloudId), UTF_8); // once decoded the parts are separated by a $ character String[] decodedParts = decoded.split("\\$"); if (decodedParts.length != 3) { throw new IllegalStateException("cloudId " + cloudId + " did not decode to a cluster identifier correctly"); } String url = decodedParts[1] + "." + decodedParts[0]; return builder(new HttpHost(url, 443, "https")); } /** * Returns a new {@link RestClientBuilder} to help with {@link RestClient} creation. * Creates a new builder instance and sets the hosts that the client will send requests to. *

* Prefer this to {@link #builder(HttpHost...)} if you have metadata up front about the nodes. * If you don't either one is fine. */ public static RestClientBuilder builder(Node... nodes) { return new RestClientBuilder(nodes == null ? null : Arrays.asList(nodes)); } /** * Returns a new {@link RestClientBuilder} to help with {@link RestClient} creation. * Creates a new builder instance and sets the nodes that the client will send requests to. *

* You can use this if you do not have metadata up front about the nodes. If you do, prefer * {@link #builder(Node...)}. * @see Node#Node(HttpHost) */ public static RestClientBuilder builder(HttpHost... hosts) { if (hosts == null || hosts.length == 0) { throw new IllegalArgumentException("hosts must not be null nor empty"); } List nodes = Arrays.stream(hosts).map(Node::new).collect(Collectors.toList()); return new RestClientBuilder(nodes); } /** * Replaces the nodes with which the client communicates. */ public synchronized void setNodes(Collection nodes) { if (nodes == null || nodes.isEmpty()) { throw new IllegalArgumentException("nodes must not be null or empty"); } AuthCache authCache = new BasicAuthCache(); Map nodesByHost = new LinkedHashMap<>(); for (Node node : nodes) { Objects.requireNonNull(node, "node cannot be null"); // TODO should we throw an IAE if we have two nodes with the same host? nodesByHost.put(node.getHost(), node); authCache.put(node.getHost(), new BasicScheme()); } this.nodeTuple = new NodeTuple<>( Collections.unmodifiableList(new ArrayList<>(nodesByHost.values())), authCache); this.blacklist.clear(); } /** * Get the list of nodes that the client knows about. The list is * unmodifiable. */ public List getNodes() { return nodeTuple.nodes; } /** * Sends a request to the Elasticsearch cluster that the client points to. * Blocks until the request is completed and returns its response or fails * by throwing an exception. Selects a host out of the provided ones in a * round-robin fashion. Failing hosts are marked dead and retried after a * certain amount of time (minimum 1 minute, maximum 30 minutes), depending * on how many times they previously failed (the more failures, the later * they will be retried). In case of failures all of the alive nodes (or * dead nodes that deserve a retry) are retried until one responds or none * of them does, in which case an {@link IOException} will be thrown. * * This method works by performing an asynchronous call and waiting * for the result. If the asynchronous call throws an exception we wrap * it and rethrow it so that the stack trace attached to the exception * contains the call site. While we attempt to preserve the original * exception this isn't always possible and likely haven't covered all of * the cases. You can get the original exception from * {@link Exception#getCause()}. * * @param request the request to perform * @return the response returned by Elasticsearch * @throws IOException in case of a problem or the connection was aborted * @throws ClientProtocolException in case of an http protocol error * @throws ResponseException in case Elasticsearch responded with a status code that indicated an error */ public Response performRequest(Request request) throws IOException { InternalRequest internalRequest = new InternalRequest(request); return performRequest(nextNodes(), internalRequest, null); } private Response performRequest(final NodeTuple> nodeTuple, final InternalRequest request, Exception previousException) throws IOException { RequestContext context = request.createContextForNextAttempt(nodeTuple.nodes.next(), nodeTuple.authCache); HttpResponse httpResponse; try { httpResponse = client.execute(context.requestProducer, context.asyncResponseConsumer, context.context, null).get(); } catch(Exception e) { RequestLogger.logFailedRequest(logger, request.httpRequest, context.node, e); onFailure(context.node); Exception cause = extractAndWrapCause(e); addSuppressedException(previousException, cause); if (nodeTuple.nodes.hasNext()) { return performRequest(nodeTuple, request, cause); } if (cause instanceof IOException) { throw (IOException) cause; } if (cause instanceof RuntimeException) { throw (RuntimeException) cause; } throw new IllegalStateException("unexpected exception type: must be either RuntimeException or IOException", cause); } ResponseOrResponseException responseOrResponseException = convertResponse(request, context.node, httpResponse); if (responseOrResponseException.responseException == null) { return responseOrResponseException.response; } addSuppressedException(previousException, responseOrResponseException.responseException); if (nodeTuple.nodes.hasNext()) { return performRequest(nodeTuple, request, responseOrResponseException.responseException); } throw responseOrResponseException.responseException; } private ResponseOrResponseException convertResponse(InternalRequest request, Node node, HttpResponse httpResponse) throws IOException { RequestLogger.logResponse(logger, request.httpRequest, node.getHost(), httpResponse); int statusCode = httpResponse.getStatusLine().getStatusCode(); Response response = new Response(request.httpRequest.getRequestLine(), node.getHost(), httpResponse); if (isSuccessfulResponse(statusCode) || request.ignoreErrorCodes.contains(response.getStatusLine().getStatusCode())) { onResponse(node); if (request.warningsHandler.warningsShouldFailRequest(response.getWarnings())) { throw new WarningFailureException(response); } return new ResponseOrResponseException(response); } ResponseException responseException = new ResponseException(response); if (isRetryStatus(statusCode)) { //mark host dead and retry against next one onFailure(node); return new ResponseOrResponseException(responseException); } //mark host alive and don't retry, as the error should be a request problem onResponse(node); throw responseException; } /** * Sends a request to the Elasticsearch cluster that the client points to. * The request is executed asynchronously and the provided * {@link ResponseListener} gets notified upon request completion or * failure. Selects a host out of the provided ones in a round-robin * fashion. Failing hosts are marked dead and retried after a certain * amount of time (minimum 1 minute, maximum 30 minutes), depending on how * many times they previously failed (the more failures, the later they * will be retried). In case of failures all of the alive nodes (or dead * nodes that deserve a retry) are retried until one responds or none of * them does, in which case an {@link IOException} will be thrown. * * @param request the request to perform * @param responseListener the {@link ResponseListener} to notify when the * request is completed or fails */ public Cancellable performRequestAsync(Request request, ResponseListener responseListener) { try { FailureTrackingResponseListener failureTrackingResponseListener = new FailureTrackingResponseListener(responseListener); InternalRequest internalRequest = new InternalRequest(request); performRequestAsync(nextNodes(), internalRequest, failureTrackingResponseListener); return internalRequest.cancellable; } catch (Exception e) { responseListener.onFailure(e); return Cancellable.NO_OP; } } private void performRequestAsync(final NodeTuple> nodeTuple, final InternalRequest request, final FailureTrackingResponseListener listener) { request.cancellable.runIfNotCancelled(() -> { final RequestContext context = request.createContextForNextAttempt(nodeTuple.nodes.next(), nodeTuple.authCache); client.execute(context.requestProducer, context.asyncResponseConsumer, context.context, new FutureCallback() { @Override public void completed(HttpResponse httpResponse) { try { ResponseOrResponseException responseOrResponseException = convertResponse(request, context.node, httpResponse); if (responseOrResponseException.responseException == null) { listener.onSuccess(responseOrResponseException.response); } else { if (nodeTuple.nodes.hasNext()) { listener.trackFailure(responseOrResponseException.responseException); performRequestAsync(nodeTuple, request, listener); } else { listener.onDefinitiveFailure(responseOrResponseException.responseException); } } } catch(Exception e) { listener.onDefinitiveFailure(e); } } @Override public void failed(Exception failure) { try { RequestLogger.logFailedRequest(logger, request.httpRequest, context.node, failure); onFailure(context.node); if (nodeTuple.nodes.hasNext()) { listener.trackFailure(failure); performRequestAsync(nodeTuple, request, listener); } else { listener.onDefinitiveFailure(failure); } } catch(Exception e) { listener.onDefinitiveFailure(e); } } @Override public void cancelled() { listener.onDefinitiveFailure(Cancellable.newCancellationException()); } }); }); } /** * Returns a non-empty {@link Iterator} of nodes to be used for a request * that match the {@link NodeSelector}. *

* If there are no living nodes that match the {@link NodeSelector} * this will return the dead node that matches the {@link NodeSelector} * that is closest to being revived. * @throws IOException if no nodes are available */ private NodeTuple> nextNodes() throws IOException { NodeTuple> nodeTuple = this.nodeTuple; Iterable hosts = selectNodes(nodeTuple, blacklist, lastNodeIndex, nodeSelector); return new NodeTuple<>(hosts.iterator(), nodeTuple.authCache); } /** * Select nodes to try and sorts them so that the first one will be tried initially, then the following ones * if the previous attempt failed and so on. Package private for testing. */ static Iterable selectNodes(NodeTuple> nodeTuple, Map blacklist, AtomicInteger lastNodeIndex, NodeSelector nodeSelector) throws IOException { /* * Sort the nodes into living and dead lists. */ List livingNodes = new ArrayList<>(Math.max(0, nodeTuple.nodes.size() - blacklist.size())); List deadNodes = new ArrayList<>(blacklist.size()); for (Node node : nodeTuple.nodes) { DeadHostState deadness = blacklist.get(node.getHost()); if (deadness == null || deadness.shallBeRetried()) { livingNodes.add(node); } else { deadNodes.add(new DeadNode(node, deadness)); } } if (false == livingNodes.isEmpty()) { /* * Normal state: there is at least one living node. If the * selector is ok with any over the living nodes then use them * for the request. */ List selectedLivingNodes = new ArrayList<>(livingNodes); nodeSelector.select(selectedLivingNodes); if (false == selectedLivingNodes.isEmpty()) { /* * Rotate the list using a global counter as the distance so subsequent * requests will try the nodes in a different order. */ Collections.rotate(selectedLivingNodes, lastNodeIndex.getAndIncrement()); return selectedLivingNodes; } } /* * Last resort: there are no good nodes to use, either because * the selector rejected all the living nodes or because there aren't * any living ones. Either way, we want to revive a single dead node * that the NodeSelectors are OK with. We do this by passing the dead * nodes through the NodeSelector so it can have its say in which nodes * are ok. If the selector is ok with any of the nodes then we will take * the one in the list that has the lowest revival time and try it. */ if (false == deadNodes.isEmpty()) { final List selectedDeadNodes = new ArrayList<>(deadNodes); /* * We'd like NodeSelectors to remove items directly from deadNodes * so we can find the minimum after it is filtered without having * to compare many things. This saves us a sort on the unfiltered * list. */ nodeSelector.select(() -> new DeadNodeIteratorAdapter(selectedDeadNodes.iterator())); if (false == selectedDeadNodes.isEmpty()) { return singletonList(Collections.min(selectedDeadNodes).node); } } throw new IOException("NodeSelector [" + nodeSelector + "] rejected all nodes, " + "living " + livingNodes + " and dead " + deadNodes); } /** * Called after each successful request call. * Receives as an argument the host that was used for the successful request. */ private void onResponse(Node node) { DeadHostState removedHost = this.blacklist.remove(node.getHost()); if (logger.isDebugEnabled() && removedHost != null) { logger.debug("removed [" + node + "] from blacklist"); } } /** * Called after each failed attempt. * Receives as an argument the host that was used for the failed attempt. */ private void onFailure(Node node) { while(true) { DeadHostState previousDeadHostState = blacklist.putIfAbsent(node.getHost(), new DeadHostState(DeadHostState.DEFAULT_TIME_SUPPLIER)); if (previousDeadHostState == null) { if (logger.isDebugEnabled()) { logger.debug("added [" + node + "] to blacklist"); } break; } if (blacklist.replace(node.getHost(), previousDeadHostState, new DeadHostState(previousDeadHostState))) { if (logger.isDebugEnabled()) { logger.debug("updated [" + node + "] already in blacklist"); } break; } } failureListener.onFailure(node); } @Override public void close() throws IOException { client.close(); } private static boolean isSuccessfulResponse(int statusCode) { return statusCode < 300; } private static boolean isRetryStatus(int statusCode) { switch(statusCode) { case 502: case 503: case 504: return true; } return false; } private static void addSuppressedException(Exception suppressedException, Exception currentException) { if (suppressedException != null) { currentException.addSuppressed(suppressedException); } } private static HttpRequestBase createHttpRequest(String method, URI uri, HttpEntity entity) { switch(method.toUpperCase(Locale.ROOT)) { case HttpDeleteWithEntity.METHOD_NAME: return addRequestBody(new HttpDeleteWithEntity(uri), entity); case HttpGetWithEntity.METHOD_NAME: return addRequestBody(new HttpGetWithEntity(uri), entity); case HttpHead.METHOD_NAME: return addRequestBody(new HttpHead(uri), entity); case HttpOptions.METHOD_NAME: return addRequestBody(new HttpOptions(uri), entity); case HttpPatch.METHOD_NAME: return addRequestBody(new HttpPatch(uri), entity); case HttpPost.METHOD_NAME: HttpPost httpPost = new HttpPost(uri); addRequestBody(httpPost, entity); return httpPost; case HttpPut.METHOD_NAME: return addRequestBody(new HttpPut(uri), entity); case HttpTrace.METHOD_NAME: return addRequestBody(new HttpTrace(uri), entity); default: throw new UnsupportedOperationException("http method not supported: " + method); } } private static HttpRequestBase addRequestBody(HttpRequestBase httpRequest, HttpEntity entity) { if (entity != null) { if (httpRequest instanceof HttpEntityEnclosingRequestBase) { ((HttpEntityEnclosingRequestBase)httpRequest).setEntity(entity); } else { throw new UnsupportedOperationException(httpRequest.getMethod() + " with body is not supported"); } } return httpRequest; } static URI buildUri(String pathPrefix, String path, Map params) { Objects.requireNonNull(path, "path must not be null"); try { String fullPath; if (pathPrefix != null && pathPrefix.isEmpty() == false) { if (pathPrefix.endsWith("/") && path.startsWith("/")) { fullPath = pathPrefix.substring(0, pathPrefix.length() - 1) + path; } else if (pathPrefix.endsWith("/") || path.startsWith("/")) { fullPath = pathPrefix + path; } else { fullPath = pathPrefix + "/" + path; } } else { fullPath = path; } URIBuilder uriBuilder = new URIBuilder(fullPath); for (Map.Entry param : params.entrySet()) { uriBuilder.addParameter(param.getKey(), param.getValue()); } return uriBuilder.build(); } catch(URISyntaxException e) { throw new IllegalArgumentException(e.getMessage(), e); } } /** * Listener used in any async call to wrap the provided user listener (or SyncResponseListener in sync calls). * Allows to track potential failures coming from the different retry attempts and returning to the original listener * only when we got a response (successful or not to be retried) or there are no hosts to retry against. */ static class FailureTrackingResponseListener { private final ResponseListener responseListener; private volatile Exception exception; FailureTrackingResponseListener(ResponseListener responseListener) { this.responseListener = responseListener; } /** * Notifies the caller of a response through the wrapped listener */ void onSuccess(Response response) { responseListener.onSuccess(response); } /** * Tracks one last definitive failure and returns to the caller by notifying the wrapped listener */ void onDefinitiveFailure(Exception exception) { trackFailure(exception); responseListener.onFailure(this.exception); } /** * Tracks an exception, which caused a retry hence we should not return yet to the caller */ void trackFailure(Exception exception) { addSuppressedException(this.exception, exception); this.exception = exception; } } /** * Listener that allows to be notified whenever a failure happens. Useful when sniffing is enabled, so that we can sniff on failure. * The default implementation is a no-op. */ public static class FailureListener { /** * Notifies that the node provided as argument has just failed */ public void onFailure(Node node) {} } /** * {@link NodeTuple} enables the {@linkplain Node}s and {@linkplain AuthCache} * to be set together in a thread safe, volatile way. */ static class NodeTuple { final T nodes; final AuthCache authCache; NodeTuple(final T nodes, final AuthCache authCache) { this.nodes = nodes; this.authCache = authCache; } } /** * Contains a reference to a blacklisted node and the time until it is * revived. We use this so we can do a single pass over the blacklist. */ private static class DeadNode implements Comparable { final Node node; final DeadHostState deadness; DeadNode(Node node, DeadHostState deadness) { this.node = node; this.deadness = deadness; } @Override public String toString() { return node.toString(); } @Override public int compareTo(DeadNode rhs) { return deadness.compareTo(rhs.deadness); } } /** * Adapts an Iterator<DeadNodeAndRevival> into an * Iterator<Node>. */ private static class DeadNodeIteratorAdapter implements Iterator { private final Iterator itr; private DeadNodeIteratorAdapter(Iterator itr) { this.itr = itr; } @Override public boolean hasNext() { return itr.hasNext(); } @Override public Node next() { return itr.next().node; } @Override public void remove() { itr.remove(); } } private class InternalRequest { private final Request request; private final Set ignoreErrorCodes; private final HttpRequestBase httpRequest; private final Cancellable cancellable; private final WarningsHandler warningsHandler; InternalRequest(Request request) { this.request = request; Map params = new HashMap<>(request.getParameters()); //ignore is a special parameter supported by the clients, shouldn't be sent to es String ignoreString = params.remove("ignore"); this.ignoreErrorCodes = getIgnoreErrorCodes(ignoreString, request.getMethod()); URI uri = buildUri(pathPrefix, request.getEndpoint(), params); this.httpRequest = createHttpRequest(request.getMethod(), uri, request.getEntity()); this.cancellable = Cancellable.fromRequest(httpRequest); setHeaders(httpRequest, request.getOptions().getHeaders()); this.warningsHandler = request.getOptions().getWarningsHandler() == null ? RestClient.this.warningsHandler : request.getOptions().getWarningsHandler(); } private void setHeaders(HttpRequest httpRequest, Collection

requestHeaders) { // request headers override default headers, so we don't add default headers if they exist as request headers final Set requestNames = new HashSet<>(requestHeaders.size()); for (Header requestHeader : requestHeaders) { httpRequest.addHeader(requestHeader); requestNames.add(requestHeader.getName()); } for (Header defaultHeader : defaultHeaders) { if (requestNames.contains(defaultHeader.getName()) == false) { httpRequest.addHeader(defaultHeader); } } } RequestContext createContextForNextAttempt(Node node, AuthCache authCache) { this.httpRequest.reset(); return new RequestContext(this, node, authCache); } } private static class RequestContext { private final Node node; private final HttpAsyncRequestProducer requestProducer; private final HttpAsyncResponseConsumer asyncResponseConsumer; private final HttpClientContext context; RequestContext(InternalRequest request, Node node, AuthCache authCache) { this.node = node; //we stream the request body if the entity allows for it this.requestProducer = HttpAsyncMethods.create(node.getHost(), request.httpRequest); this.asyncResponseConsumer = request.request.getOptions().getHttpAsyncResponseConsumerFactory().createHttpAsyncResponseConsumer(); this.context = HttpClientContext.create(); context.setAuthCache(authCache); } } private static Set getIgnoreErrorCodes(String ignoreString, String requestMethod) { Set ignoreErrorCodes; if (ignoreString == null) { if (HttpHead.METHOD_NAME.equals(requestMethod)) { //404 never causes error if returned for a HEAD request ignoreErrorCodes = Collections.singleton(404); } else { ignoreErrorCodes = Collections.emptySet(); } } else { String[] ignoresArray = ignoreString.split(","); ignoreErrorCodes = new HashSet<>(); if (HttpHead.METHOD_NAME.equals(requestMethod)) { //404 never causes error if returned for a HEAD request ignoreErrorCodes.add(404); } for (String ignoreCode : ignoresArray) { try { ignoreErrorCodes.add(Integer.valueOf(ignoreCode)); } catch (NumberFormatException e) { throw new IllegalArgumentException("ignore value should be a number, found [" + ignoreString + "] instead", e); } } } return ignoreErrorCodes; } private static class ResponseOrResponseException { private final Response response; private final ResponseException responseException; ResponseOrResponseException(Response response) { this.response = Objects.requireNonNull(response); this.responseException = null; } ResponseOrResponseException(ResponseException responseException) { this.responseException = Objects.requireNonNull(responseException); this.response = null; } } /** * Wrap the exception so the caller's signature shows up in the stack trace, taking care to copy the original type and message * where possible so async and sync code don't have to check different exceptions. */ private static Exception extractAndWrapCause(Exception exception) { if (exception instanceof InterruptedException) { throw new RuntimeException("thread waiting for the response was interrupted", exception); } if (exception instanceof ExecutionException) { ExecutionException executionException = (ExecutionException)exception; Throwable t = executionException.getCause() == null ? executionException : executionException.getCause(); if (t instanceof Error) { throw (Error)t; } exception = (Exception)t; } if (exception instanceof ConnectTimeoutException) { ConnectTimeoutException e = new ConnectTimeoutException(exception.getMessage()); e.initCause(exception); return e; } if (exception instanceof SocketTimeoutException) { SocketTimeoutException e = new SocketTimeoutException(exception.getMessage()); e.initCause(exception); return e; } if (exception instanceof ConnectionClosedException) { ConnectionClosedException e = new ConnectionClosedException(exception.getMessage()); e.initCause(exception); return e; } if (exception instanceof SSLHandshakeException) { SSLHandshakeException e = new SSLHandshakeException(exception.getMessage()); e.initCause(exception); return e; } if (exception instanceof ConnectException) { ConnectException e = new ConnectException(exception.getMessage()); e.initCause(exception); return e; } if (exception instanceof IOException) { return new IOException(exception.getMessage(), exception); } if (exception instanceof RuntimeException){ return new RuntimeException(exception.getMessage(), exception); } return new RuntimeException("error while performing request", exception); } }




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