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HttpClient repackage for Android
/*
* ====================================================================
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF 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.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
* .
*
*/
package cz.msebera.android.httpclient.impl.execchain;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import cz.msebera.android.httpclient.extras.HttpClientAndroidLog;
/* LogFactory removed by HttpClient for Android script. */
import cz.msebera.android.httpclient.ConnectionReuseStrategy;
import cz.msebera.android.httpclient.HttpClientConnection;
import cz.msebera.android.httpclient.HttpEntity;
import cz.msebera.android.httpclient.HttpEntityEnclosingRequest;
import cz.msebera.android.httpclient.HttpException;
import cz.msebera.android.httpclient.HttpHost;
import cz.msebera.android.httpclient.HttpRequest;
import cz.msebera.android.httpclient.HttpResponse;
import cz.msebera.android.httpclient.annotation.Contract;
import cz.msebera.android.httpclient.annotation.ThreadingBehavior;
import cz.msebera.android.httpclient.auth.AUTH;
import cz.msebera.android.httpclient.auth.AuthProtocolState;
import cz.msebera.android.httpclient.auth.AuthState;
import cz.msebera.android.httpclient.client.AuthenticationStrategy;
import cz.msebera.android.httpclient.client.NonRepeatableRequestException;
import cz.msebera.android.httpclient.client.UserTokenHandler;
import cz.msebera.android.httpclient.client.config.RequestConfig;
import cz.msebera.android.httpclient.client.methods.CloseableHttpResponse;
import cz.msebera.android.httpclient.client.methods.HttpExecutionAware;
import cz.msebera.android.httpclient.client.methods.HttpRequestWrapper;
import cz.msebera.android.httpclient.client.protocol.HttpClientContext;
import cz.msebera.android.httpclient.conn.ConnectionKeepAliveStrategy;
import cz.msebera.android.httpclient.conn.ConnectionRequest;
import cz.msebera.android.httpclient.conn.HttpClientConnectionManager;
import cz.msebera.android.httpclient.conn.routing.BasicRouteDirector;
import cz.msebera.android.httpclient.conn.routing.HttpRoute;
import cz.msebera.android.httpclient.conn.routing.HttpRouteDirector;
import cz.msebera.android.httpclient.conn.routing.RouteTracker;
import cz.msebera.android.httpclient.entity.BufferedHttpEntity;
import cz.msebera.android.httpclient.impl.auth.HttpAuthenticator;
import cz.msebera.android.httpclient.impl.conn.ConnectionShutdownException;
import cz.msebera.android.httpclient.message.BasicHttpRequest;
import cz.msebera.android.httpclient.protocol.HttpCoreContext;
import cz.msebera.android.httpclient.protocol.HttpProcessor;
import cz.msebera.android.httpclient.protocol.HttpRequestExecutor;
import cz.msebera.android.httpclient.protocol.ImmutableHttpProcessor;
import cz.msebera.android.httpclient.protocol.RequestTargetHost;
import cz.msebera.android.httpclient.util.Args;
import cz.msebera.android.httpclient.util.EntityUtils;
/**
* The last request executor in the HTTP request execution chain
* that is responsible for execution of request / response
* exchanges with the opposite endpoint.
* This executor will automatically retry the request in case
* of an authentication challenge by an intermediate proxy or
* by the target server.
*
* @since 4.3
*/
@SuppressWarnings("deprecation")
@Contract(threading = ThreadingBehavior.IMMUTABLE_CONDITIONAL)
public class MainClientExec implements ClientExecChain {
public HttpClientAndroidLog log = new HttpClientAndroidLog(getClass());
private final HttpRequestExecutor requestExecutor;
private final HttpClientConnectionManager connManager;
private final ConnectionReuseStrategy reuseStrategy;
private final ConnectionKeepAliveStrategy keepAliveStrategy;
private final HttpProcessor proxyHttpProcessor;
private final AuthenticationStrategy targetAuthStrategy;
private final AuthenticationStrategy proxyAuthStrategy;
private final HttpAuthenticator authenticator;
private final UserTokenHandler userTokenHandler;
private final HttpRouteDirector routeDirector;
/**
* @since 4.4
*/
public MainClientExec(
final HttpRequestExecutor requestExecutor,
final HttpClientConnectionManager connManager,
final ConnectionReuseStrategy reuseStrategy,
final ConnectionKeepAliveStrategy keepAliveStrategy,
final HttpProcessor proxyHttpProcessor,
final AuthenticationStrategy targetAuthStrategy,
final AuthenticationStrategy proxyAuthStrategy,
final UserTokenHandler userTokenHandler) {
Args.notNull(requestExecutor, "HTTP request executor");
Args.notNull(connManager, "Client connection manager");
Args.notNull(reuseStrategy, "Connection reuse strategy");
Args.notNull(keepAliveStrategy, "Connection keep alive strategy");
Args.notNull(proxyHttpProcessor, "Proxy HTTP processor");
Args.notNull(targetAuthStrategy, "Target authentication strategy");
Args.notNull(proxyAuthStrategy, "Proxy authentication strategy");
Args.notNull(userTokenHandler, "User token handler");
this.authenticator = new HttpAuthenticator();
this.routeDirector = new BasicRouteDirector();
this.requestExecutor = requestExecutor;
this.connManager = connManager;
this.reuseStrategy = reuseStrategy;
this.keepAliveStrategy = keepAliveStrategy;
this.proxyHttpProcessor = proxyHttpProcessor;
this.targetAuthStrategy = targetAuthStrategy;
this.proxyAuthStrategy = proxyAuthStrategy;
this.userTokenHandler = userTokenHandler;
}
public MainClientExec(
final HttpRequestExecutor requestExecutor,
final HttpClientConnectionManager connManager,
final ConnectionReuseStrategy reuseStrategy,
final ConnectionKeepAliveStrategy keepAliveStrategy,
final AuthenticationStrategy targetAuthStrategy,
final AuthenticationStrategy proxyAuthStrategy,
final UserTokenHandler userTokenHandler) {
this(requestExecutor, connManager, reuseStrategy, keepAliveStrategy,
new ImmutableHttpProcessor(new RequestTargetHost()),
targetAuthStrategy, proxyAuthStrategy, userTokenHandler);
}
@Override
public CloseableHttpResponse execute(
final HttpRoute route,
final HttpRequestWrapper request,
final HttpClientContext context,
final HttpExecutionAware execAware) throws IOException, HttpException {
Args.notNull(route, "HTTP route");
Args.notNull(request, "HTTP request");
Args.notNull(context, "HTTP context");
AuthState targetAuthState = context.getTargetAuthState();
if (targetAuthState == null) {
targetAuthState = new AuthState();
context.setAttribute(HttpClientContext.TARGET_AUTH_STATE, targetAuthState);
}
AuthState proxyAuthState = context.getProxyAuthState();
if (proxyAuthState == null) {
proxyAuthState = new AuthState();
context.setAttribute(HttpClientContext.PROXY_AUTH_STATE, proxyAuthState);
}
if (request instanceof HttpEntityEnclosingRequest) {
RequestEntityProxy.enhance((HttpEntityEnclosingRequest) request);
}
Object userToken = context.getUserToken();
final ConnectionRequest connRequest = connManager.requestConnection(route, userToken);
if (execAware != null) {
if (execAware.isAborted()) {
connRequest.cancel();
throw new RequestAbortedException("Request aborted");
} else {
execAware.setCancellable(connRequest);
}
}
final RequestConfig config = context.getRequestConfig();
final HttpClientConnection managedConn;
try {
final int timeout = config.getConnectionRequestTimeout();
managedConn = connRequest.get(timeout > 0 ? timeout : 0, TimeUnit.MILLISECONDS);
} catch(final InterruptedException interrupted) {
Thread.currentThread().interrupt();
throw new RequestAbortedException("Request aborted", interrupted);
} catch(final ExecutionException ex) {
Throwable cause = ex.getCause();
if (cause == null) {
cause = ex;
}
throw new RequestAbortedException("Request execution failed", cause);
}
context.setAttribute(HttpCoreContext.HTTP_CONNECTION, managedConn);
if (config.isStaleConnectionCheckEnabled()) {
// validate connection
if (managedConn.isOpen()) {
this.log.debug("Stale connection check");
if (managedConn.isStale()) {
this.log.debug("Stale connection detected");
managedConn.close();
}
}
}
final ConnectionHolder connHolder = new ConnectionHolder(this.log, this.connManager, managedConn);
try {
if (execAware != null) {
execAware.setCancellable(connHolder);
}
HttpResponse response;
for (int execCount = 1;; execCount++) {
if (execCount > 1 && !RequestEntityProxy.isRepeatable(request)) {
throw new NonRepeatableRequestException("Cannot retry request " +
"with a non-repeatable request entity.");
}
if (execAware != null && execAware.isAborted()) {
throw new RequestAbortedException("Request aborted");
}
if (!managedConn.isOpen()) {
this.log.debug("Opening connection " + route);
try {
establishRoute(proxyAuthState, managedConn, route, request, context);
} catch (final TunnelRefusedException ex) {
if (this.log.isDebugEnabled()) {
this.log.debug(ex.getMessage());
}
response = ex.getResponse();
break;
}
}
final int timeout = config.getSocketTimeout();
if (timeout >= 0) {
managedConn.setSocketTimeout(timeout);
}
if (execAware != null && execAware.isAborted()) {
throw new RequestAbortedException("Request aborted");
}
if (this.log.isDebugEnabled()) {
this.log.debug("Executing request " + request.getRequestLine());
}
if (!request.containsHeader(AUTH.WWW_AUTH_RESP)) {
if (this.log.isDebugEnabled()) {
this.log.debug("Target auth state: " + targetAuthState.getState());
}
this.authenticator.generateAuthResponse(request, targetAuthState, context);
}
if (!request.containsHeader(AUTH.PROXY_AUTH_RESP) && !route.isTunnelled()) {
if (this.log.isDebugEnabled()) {
this.log.debug("Proxy auth state: " + proxyAuthState.getState());
}
this.authenticator.generateAuthResponse(request, proxyAuthState, context);
}
response = requestExecutor.execute(request, managedConn, context);
// The connection is in or can be brought to a re-usable state.
if (reuseStrategy.keepAlive(response, context)) {
// Set the idle duration of this connection
final long duration = keepAliveStrategy.getKeepAliveDuration(response, context);
if (this.log.isDebugEnabled()) {
final String s;
if (duration > 0) {
s = "for " + duration + " " + TimeUnit.MILLISECONDS;
} else {
s = "indefinitely";
}
this.log.debug("Connection can be kept alive " + s);
}
connHolder.setValidFor(duration, TimeUnit.MILLISECONDS);
connHolder.markReusable();
} else {
connHolder.markNonReusable();
}
if (needAuthentication(
targetAuthState, proxyAuthState, route, response, context)) {
// Make sure the response body is fully consumed, if present
final HttpEntity entity = response.getEntity();
if (connHolder.isReusable()) {
EntityUtils.consume(entity);
} else {
managedConn.close();
if (proxyAuthState.getState() == AuthProtocolState.SUCCESS
&& proxyAuthState.getAuthScheme() != null
&& proxyAuthState.getAuthScheme().isConnectionBased()) {
this.log.debug("Resetting proxy auth state");
proxyAuthState.reset();
}
if (targetAuthState.getState() == AuthProtocolState.SUCCESS
&& targetAuthState.getAuthScheme() != null
&& targetAuthState.getAuthScheme().isConnectionBased()) {
this.log.debug("Resetting target auth state");
targetAuthState.reset();
}
}
// discard previous auth headers
final HttpRequest original = request.getOriginal();
if (!original.containsHeader(AUTH.WWW_AUTH_RESP)) {
request.removeHeaders(AUTH.WWW_AUTH_RESP);
}
if (!original.containsHeader(AUTH.PROXY_AUTH_RESP)) {
request.removeHeaders(AUTH.PROXY_AUTH_RESP);
}
} else {
break;
}
}
if (userToken == null) {
userToken = userTokenHandler.getUserToken(context);
context.setAttribute(HttpClientContext.USER_TOKEN, userToken);
}
if (userToken != null) {
connHolder.setState(userToken);
}
// check for entity, release connection if possible
final HttpEntity entity = response.getEntity();
if (entity == null || !entity.isStreaming()) {
// connection not needed and (assumed to be) in re-usable state
connHolder.releaseConnection();
return new HttpResponseProxy(response, null);
} else {
return new HttpResponseProxy(response, connHolder);
}
} catch (final ConnectionShutdownException ex) {
final InterruptedIOException ioex = new InterruptedIOException(
"Connection has been shut down");
ioex.initCause(ex);
throw ioex;
} catch (final HttpException ex) {
connHolder.abortConnection();
throw ex;
} catch (final IOException ex) {
connHolder.abortConnection();
throw ex;
} catch (final RuntimeException ex) {
connHolder.abortConnection();
throw ex;
}
}
/**
* Establishes the target route.
*/
void establishRoute(
final AuthState proxyAuthState,
final HttpClientConnection managedConn,
final HttpRoute route,
final HttpRequest request,
final HttpClientContext context) throws HttpException, IOException {
final RequestConfig config = context.getRequestConfig();
final int timeout = config.getConnectTimeout();
final RouteTracker tracker = new RouteTracker(route);
int step;
do {
final HttpRoute fact = tracker.toRoute();
step = this.routeDirector.nextStep(route, fact);
switch (step) {
case HttpRouteDirector.CONNECT_TARGET:
this.connManager.connect(
managedConn,
route,
timeout > 0 ? timeout : 0,
context);
tracker.connectTarget(route.isSecure());
break;
case HttpRouteDirector.CONNECT_PROXY:
this.connManager.connect(
managedConn,
route,
timeout > 0 ? timeout : 0,
context);
final HttpHost proxy = route.getProxyHost();
tracker.connectProxy(proxy, false);
break;
case HttpRouteDirector.TUNNEL_TARGET: {
final boolean secure = createTunnelToTarget(
proxyAuthState, managedConn, route, request, context);
this.log.debug("Tunnel to target created.");
tracker.tunnelTarget(secure);
} break;
case HttpRouteDirector.TUNNEL_PROXY: {
// The most simple example for this case is a proxy chain
// of two proxies, where P1 must be tunnelled to P2.
// route: Source -> P1 -> P2 -> Target (3 hops)
// fact: Source -> P1 -> Target (2 hops)
final int hop = fact.getHopCount()-1; // the hop to establish
final boolean secure = createTunnelToProxy(route, hop, context);
this.log.debug("Tunnel to proxy created.");
tracker.tunnelProxy(route.getHopTarget(hop), secure);
} break;
case HttpRouteDirector.LAYER_PROTOCOL:
this.connManager.upgrade(managedConn, route, context);
tracker.layerProtocol(route.isSecure());
break;
case HttpRouteDirector.UNREACHABLE:
throw new HttpException("Unable to establish route: " +
"planned = " + route + "; current = " + fact);
case HttpRouteDirector.COMPLETE:
this.connManager.routeComplete(managedConn, route, context);
break;
default:
throw new IllegalStateException("Unknown step indicator "
+ step + " from RouteDirector.");
}
} while (step > HttpRouteDirector.COMPLETE);
}
/**
* Creates a tunnel to the target server.
* The connection must be established to the (last) proxy.
* A CONNECT request for tunnelling through the proxy will
* be created and sent, the response received and checked.
* This method does not update the connection with
* information about the tunnel, that is left to the caller.
*/
private boolean createTunnelToTarget(
final AuthState proxyAuthState,
final HttpClientConnection managedConn,
final HttpRoute route,
final HttpRequest request,
final HttpClientContext context) throws HttpException, IOException {
final RequestConfig config = context.getRequestConfig();
final int timeout = config.getConnectTimeout();
final HttpHost target = route.getTargetHost();
final HttpHost proxy = route.getProxyHost();
HttpResponse response = null;
final String authority = target.toHostString();
final HttpRequest connect = new BasicHttpRequest("CONNECT", authority, request.getProtocolVersion());
this.requestExecutor.preProcess(connect, this.proxyHttpProcessor, context);
while (response == null) {
if (!managedConn.isOpen()) {
this.connManager.connect(
managedConn,
route,
timeout > 0 ? timeout : 0,
context);
}
connect.removeHeaders(AUTH.PROXY_AUTH_RESP);
this.authenticator.generateAuthResponse(connect, proxyAuthState, context);
response = this.requestExecutor.execute(connect, managedConn, context);
final int status = response.getStatusLine().getStatusCode();
if (status < 200) {
throw new HttpException("Unexpected response to CONNECT request: " +
response.getStatusLine());
}
if (config.isAuthenticationEnabled()) {
if (this.authenticator.isAuthenticationRequested(proxy, response,
this.proxyAuthStrategy, proxyAuthState, context)) {
if (this.authenticator.handleAuthChallenge(proxy, response,
this.proxyAuthStrategy, proxyAuthState, context)) {
// Retry request
if (this.reuseStrategy.keepAlive(response, context)) {
this.log.debug("Connection kept alive");
// Consume response content
final HttpEntity entity = response.getEntity();
EntityUtils.consume(entity);
} else {
managedConn.close();
}
response = null;
}
}
}
}
final int status = response.getStatusLine().getStatusCode();
if (status > 299) {
// Buffer response content
final HttpEntity entity = response.getEntity();
if (entity != null) {
response.setEntity(new BufferedHttpEntity(entity));
}
managedConn.close();
throw new TunnelRefusedException("CONNECT refused by proxy: " +
response.getStatusLine(), response);
}
// How to decide on security of the tunnelled connection?
// The socket factory knows only about the segment to the proxy.
// Even if that is secure, the hop to the target may be insecure.
// Leave it to derived classes, consider insecure by default here.
return false;
}
/**
* Creates a tunnel to an intermediate proxy.
* This method is not implemented in this class.
* It just throws an exception here.
*/
private boolean createTunnelToProxy(
final HttpRoute route,
final int hop,
final HttpClientContext context) throws HttpException {
// Have a look at createTunnelToTarget and replicate the parts
// you need in a custom derived class. If your proxies don't require
// authentication, it is not too hard. But for the stock version of
// HttpClient, we cannot make such simplifying assumptions and would
// have to include proxy authentication code. The HttpComponents team
// is currently not in a position to support rarely used code of this
// complexity. Feel free to submit patches that refactor the code in
// createTunnelToTarget to facilitate re-use for proxy tunnelling.
throw new HttpException("Proxy chains are not supported.");
}
private boolean needAuthentication(
final AuthState targetAuthState,
final AuthState proxyAuthState,
final HttpRoute route,
final HttpResponse response,
final HttpClientContext context) {
final RequestConfig config = context.getRequestConfig();
if (config.isAuthenticationEnabled()) {
HttpHost target = context.getTargetHost();
if (target == null) {
target = route.getTargetHost();
}
if (target.getPort() < 0) {
target = new HttpHost(
target.getHostName(),
route.getTargetHost().getPort(),
target.getSchemeName());
}
final boolean targetAuthRequested = this.authenticator.isAuthenticationRequested(
target, response, this.targetAuthStrategy, targetAuthState, context);
HttpHost proxy = route.getProxyHost();
// if proxy is not set use target host instead
if (proxy == null) {
proxy = route.getTargetHost();
}
final boolean proxyAuthRequested = this.authenticator.isAuthenticationRequested(
proxy, response, this.proxyAuthStrategy, proxyAuthState, context);
if (targetAuthRequested) {
return this.authenticator.handleAuthChallenge(target, response,
this.targetAuthStrategy, targetAuthState, context);
}
if (proxyAuthRequested) {
return this.authenticator.handleAuthChallenge(proxy, response,
this.proxyAuthStrategy, proxyAuthState, context);
}
}
return false;
}
}