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/* * 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 */* w w w . j av a 2s .c o m*/ * 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 com.squareup.okhttp.internal.http; import com.squareup.okhttp.Connection; import com.squareup.okhttp.ConnectionPool; import com.squareup.okhttp.OkHttpClient; import com.squareup.okhttp.Route; import com.squareup.okhttp.internal.AbstractOutputStream; import com.squareup.okhttp.internal.FaultRecoveringOutputStream; import com.squareup.okhttp.internal.Util; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.net.CookieHandler; import java.net.HttpRetryException; import java.net.HttpURLConnection; import java.net.InetSocketAddress; import java.net.ProtocolException; import java.net.Proxy; import java.net.ProxySelector; import java.net.SocketPermission; import java.net.URL; import java.security.Permission; import java.security.cert.CertificateException; import java.util.List; import java.util.Map; import java.util.Set; import javax.net.ssl.HostnameVerifier; import javax.net.ssl.SSLHandshakeException; import javax.net.ssl.SSLSocketFactory; import static com.squareup.okhttp.internal.Util.getEffectivePort; /** * This implementation uses HttpEngine to send requests and receive responses. * This class may use multiple HttpEngines to follow redirects, authentication * retries, etc. to retrieve the final response body. * * <h3>What does 'connected' mean?</h3> * This class inherits a {@code connected} field from the superclass. That field * is <strong>not</strong> used to indicate not whether this URLConnection is * currently connected. Instead, it indicates whether a connection has ever been * attempted. Once a connection has been attempted, certain properties (request * header fields, request method, etc.) are immutable. Test the {@code * connection} field on this class for null/non-null to determine of an instance * is currently connected to a server. */ public class HttpURLConnectionImpl extends HttpURLConnection { /** Numeric status code, 307: Temporary Redirect. */ static final int HTTP_TEMP_REDIRECT = 307; /** * How many redirects should we follow? Chrome follows 21; Firefox, curl, * and wget follow 20; Safari follows 16; and HTTP/1.0 recommends 5. */ private static final int MAX_REDIRECTS = 20; /** * The minimum number of request body bytes to transmit before we're willing * to let a routine {@link IOException} bubble up to the user. This is used to * size a buffer for data that will be replayed upon error. */ private static final int MAX_REPLAY_BUFFER_LENGTH = 8192; private final boolean followProtocolRedirects; /** The proxy requested by the client, or null for a proxy to be selected automatically. */ final Proxy requestedProxy; final ProxySelector proxySelector; final CookieHandler cookieHandler; final OkResponseCache responseCache; final ConnectionPool connectionPool; /* SSL configuration; necessary for HTTP requests that get redirected to HTTPS. */ SSLSocketFactory sslSocketFactory; HostnameVerifier hostnameVerifier; final Set<Route> failedRoutes; private final RawHeaders rawRequestHeaders = new RawHeaders(); private int redirectionCount; private FaultRecoveringOutputStream faultRecoveringRequestBody; protected IOException httpEngineFailure; protected HttpEngine httpEngine; public HttpURLConnectionImpl(URL url, OkHttpClient client, OkResponseCache responseCache, Set<Route> failedRoutes) { super(url); this.followProtocolRedirects = client.getFollowProtocolRedirects(); this.failedRoutes = failedRoutes; this.requestedProxy = client.getProxy(); this.proxySelector = client.getProxySelector(); this.cookieHandler = client.getCookieHandler(); this.connectionPool = client.getConnectionPool(); this.sslSocketFactory = client.getSslSocketFactory(); this.hostnameVerifier = client.getHostnameVerifier(); this.responseCache = responseCache; } Set<Route> getFailedRoutes() { return failedRoutes; } @Override public final void connect() throws IOException { initHttpEngine(); boolean success; do { success = execute(false); } while (!success); } @Override public final void disconnect() { // Calling disconnect() before a connection exists should have no effect. if (httpEngine != null) { // We close the response body here instead of in // HttpEngine.release because that is called when input // has been completely read from the underlying socket. // However the response body can be a GZIPInputStream that // still has unread data. if (httpEngine.hasResponse()) { Util.closeQuietly(httpEngine.getResponseBody()); } httpEngine.release(true); } } /** * Returns an input stream from the server in the case of error such as the * requested file (txt, htm, html) is not found on the remote server. */ @Override public final InputStream getErrorStream() { try { HttpEngine response = getResponse(); if (response.hasResponseBody() && response.getResponseCode() >= HTTP_BAD_REQUEST) { return response.getResponseBody(); } return null; } catch (IOException e) { return null; } } /** * Returns the value of the field at {@code position}. Returns null if there * are fewer than {@code position} headers. */ @Override public final String getHeaderField(int position) { try { return getResponse().getResponseHeaders().getHeaders().getValue(position); } catch (IOException e) { return null; } } /** * Returns the value of the field corresponding to the {@code fieldName}, or * null if there is no such field. If the field has multiple values, the * last value is returned. */ @Override public final String getHeaderField(String fieldName) { try { RawHeaders rawHeaders = getResponse().getResponseHeaders().getHeaders(); return fieldName == null ? rawHeaders.getStatusLine() : rawHeaders.get(fieldName); } catch (IOException e) { return null; } } @Override public final String getHeaderFieldKey(int position) { try { return getResponse().getResponseHeaders().getHeaders().getFieldName(position); } catch (IOException e) { return null; } } @Override public final Map<String, List<String>> getHeaderFields() { try { return getResponse().getResponseHeaders().getHeaders().toMultimap(true); } catch (IOException e) { return null; } } @Override public final Map<String, List<String>> getRequestProperties() { if (connected) { throw new IllegalStateException( "Cannot access request header fields after connection is set"); } return rawRequestHeaders.toMultimap(false); } @Override public final InputStream getInputStream() throws IOException { if (!doInput) { throw new ProtocolException("This protocol does not support input"); } HttpEngine response = getResponse(); // if the requested file does not exist, throw an exception formerly the // Error page from the server was returned if the requested file was // text/html this has changed to return FileNotFoundException for all // file types if (getResponseCode() >= HTTP_BAD_REQUEST) { throw new FileNotFoundException(url.toString()); } InputStream result = response.getResponseBody(); if (result == null) { throw new ProtocolException("No response body exists; responseCode=" + getResponseCode()); } return result; } @Override public final OutputStream getOutputStream() throws IOException { connect(); OutputStream out = httpEngine.getRequestBody(); if (out == null) { throw new ProtocolException("method does not support a request body: " + method); } else if (httpEngine.hasResponse()) { throw new ProtocolException("cannot write request body after response has been read"); } if (faultRecoveringRequestBody == null) { faultRecoveringRequestBody = new FaultRecoveringOutputStream(MAX_REPLAY_BUFFER_LENGTH, out) { @Override protected OutputStream replacementStream(IOException e) throws IOException { if (httpEngine.getRequestBody() instanceof AbstractOutputStream && ((AbstractOutputStream) httpEngine.getRequestBody()).isClosed()) { return null; // Don't recover once the underlying stream has been closed. } if (handleFailure(e)) { return httpEngine.getRequestBody(); } return null; // This is a permanent failure. } }; } return faultRecoveringRequestBody; } @Override public final Permission getPermission() throws IOException { String hostName = getURL().getHost(); int hostPort = Util.getEffectivePort(getURL()); if (usingProxy()) { InetSocketAddress proxyAddress = (InetSocketAddress) requestedProxy.address(); hostName = proxyAddress.getHostName(); hostPort = proxyAddress.getPort(); } return new SocketPermission(hostName + ":" + hostPort, "connect, resolve"); } @Override public final String getRequestProperty(String field) { if (field == null) { return null; } return rawRequestHeaders.get(field); } private void initHttpEngine() throws IOException { if (httpEngineFailure != null) { throw httpEngineFailure; } else if (httpEngine != null) { return; } connected = true; try { if (doOutput) { if (method.equals("GET")) { // they are requesting a stream to write to. This implies a POST method method = "POST"; } else if (!method.equals("POST") && !method.equals("PUT")) { // If the request method is neither POST nor PUT, then you're not writing throw new ProtocolException(method + " does not support writing"); } } httpEngine = newHttpEngine(method, rawRequestHeaders, null, null); } catch (IOException e) { httpEngineFailure = e; throw e; } } protected HttpURLConnection getHttpConnectionToCache() { return this; } private HttpEngine newHttpEngine(String method, RawHeaders requestHeaders, Connection connection, RetryableOutputStream requestBody) throws IOException { if (url.getProtocol().equals("http")) { return new HttpEngine(this, method, requestHeaders, connection, requestBody); } else if (url.getProtocol().equals("https")) { return new HttpsURLConnectionImpl.HttpsEngine( this, method, requestHeaders, connection, requestBody); } else { throw new AssertionError(); } } /** * Aggressively tries to get the final HTTP response, potentially making * many HTTP requests in the process in order to cope with redirects and * authentication. */ private HttpEngine getResponse() throws IOException { initHttpEngine(); if (httpEngine.hasResponse()) { return httpEngine; } while (true) { if (!execute(true)) { continue; } Retry retry = processResponseHeaders(); if (retry == Retry.NONE) { httpEngine.automaticallyReleaseConnectionToPool(); return httpEngine; } // The first request was insufficient. Prepare for another... String retryMethod = method; OutputStream requestBody = httpEngine.getRequestBody(); // Although RFC 2616 10.3.2 specifies that a HTTP_MOVED_PERM // redirect should keep the same method, Chrome, Firefox and the // RI all issue GETs when following any redirect. int responseCode = getResponseCode(); if (responseCode == HTTP_MULT_CHOICE || responseCode == HTTP_MOVED_PERM || responseCode == HTTP_MOVED_TEMP || responseCode == HTTP_SEE_OTHER) { retryMethod = "GET"; requestBody = null; } if (requestBody != null && !(requestBody instanceof RetryableOutputStream)) { throw new HttpRetryException("Cannot retry streamed HTTP body", httpEngine.getResponseCode()); } if (retry == Retry.DIFFERENT_CONNECTION) { httpEngine.automaticallyReleaseConnectionToPool(); } httpEngine.release(false); httpEngine = newHttpEngine(retryMethod, rawRequestHeaders, httpEngine.getConnection(), (RetryableOutputStream) requestBody); } } /** * Sends a request and optionally reads a response. Returns true if the * request was successfully executed, and false if the request can be * retried. Throws an exception if the request failed permanently. */ private boolean execute(boolean readResponse) throws IOException { try { httpEngine.sendRequest(); if (readResponse) { httpEngine.readResponse(); } return true; } catch (IOException e) { if (handleFailure(e)) { return false; } else { throw e; } } } /** * Report and attempt to recover from {@code e}. Returns true if the HTTP * engine was replaced and the request should be retried. Otherwise the * failure is permanent. */ private boolean handleFailure(IOException e) throws IOException { RouteSelector routeSelector = httpEngine.routeSelector; if (routeSelector != null && httpEngine.connection != null) { routeSelector.connectFailed(httpEngine.connection, e); } OutputStream requestBody = httpEngine.getRequestBody(); boolean canRetryRequestBody = requestBody == null || requestBody instanceof RetryableOutputStream || (faultRecoveringRequestBody != null && faultRecoveringRequestBody.isRecoverable()); if (routeSelector == null && httpEngine.connection == null // No connection. || routeSelector != null && !routeSelector.hasNext() // No more routes to attempt. || !isRecoverable(e) || !canRetryRequestBody) { httpEngineFailure = e; return false; } httpEngine.release(true); RetryableOutputStream retryableOutputStream = requestBody instanceof RetryableOutputStream ? (RetryableOutputStream) requestBody : null; httpEngine = newHttpEngine(method, rawRequestHeaders, null, retryableOutputStream); httpEngine.routeSelector = routeSelector; // Keep the same routeSelector. if (faultRecoveringRequestBody != null && faultRecoveringRequestBody.isRecoverable()) { httpEngine.sendRequest(); faultRecoveringRequestBody.replaceStream(httpEngine.getRequestBody()); } return true; } private boolean isRecoverable(IOException e) { // If the problem was a CertificateException from the X509TrustManager, // do not retry, we didn't have an abrupt server initiated exception. boolean sslFailure = e instanceof SSLHandshakeException && e.getCause() instanceof CertificateException; boolean protocolFailure = e instanceof ProtocolException; return !sslFailure && !protocolFailure; } public HttpEngine getHttpEngine() { return httpEngine; } enum Retry { NONE, SAME_CONNECTION, DIFFERENT_CONNECTION } /** * Returns the retry action to take for the current response headers. The * headers, proxy and target URL or this connection may be adjusted to * prepare for a follow up request. */ private Retry processResponseHeaders() throws IOException { Proxy selectedProxy = httpEngine.connection != null ? httpEngine.connection.getRoute().getProxy() : requestedProxy; final int responseCode = getResponseCode(); switch (responseCode) { case HTTP_PROXY_AUTH: if (selectedProxy.type() != Proxy.Type.HTTP) { throw new ProtocolException("Received HTTP_PROXY_AUTH (407) code while not using proxy"); } // fall-through case HTTP_UNAUTHORIZED: boolean credentialsFound = HttpAuthenticator.processAuthHeader(getResponseCode(), httpEngine.getResponseHeaders().getHeaders(), rawRequestHeaders, selectedProxy, url); return credentialsFound ? Retry.SAME_CONNECTION : Retry.NONE; case HTTP_MULT_CHOICE: case HTTP_MOVED_PERM: case HTTP_MOVED_TEMP: case HTTP_SEE_OTHER: case HTTP_TEMP_REDIRECT: if (!getInstanceFollowRedirects()) { return Retry.NONE; } if (++redirectionCount > MAX_REDIRECTS) { throw new ProtocolException("Too many redirects: " + redirectionCount); } if (responseCode == HTTP_TEMP_REDIRECT && !method.equals("GET") && !method.equals("HEAD")) { // "If the 307 status code is received in response to a request other than GET or HEAD, // the user agent MUST NOT automatically redirect the request" return Retry.NONE; } String location = getHeaderField("Location"); if (location == null) { return Retry.NONE; } URL previousUrl = url; url = new URL(previousUrl, location); if (!url.getProtocol().equals("https") && !url.getProtocol().equals("http")) { return Retry.NONE; // Don't follow redirects to unsupported protocols. } boolean sameProtocol = previousUrl.getProtocol().equals(url.getProtocol()); if (!sameProtocol && !followProtocolRedirects) { return Retry.NONE; // This client doesn't follow redirects across protocols. } boolean sameHost = previousUrl.getHost().equals(url.getHost()); boolean samePort = getEffectivePort(previousUrl) == getEffectivePort(url); if (sameHost && samePort && sameProtocol) { return Retry.SAME_CONNECTION; } else { return Retry.DIFFERENT_CONNECTION; } default: return Retry.NONE; } } /** @see java.net.HttpURLConnection#setFixedLengthStreamingMode(int) */ final int getFixedContentLength() { return fixedContentLength; } /** @see java.net.HttpURLConnection#setChunkedStreamingMode(int) */ final int getChunkLength() { return chunkLength; } @Override public final boolean usingProxy() { return (requestedProxy != null && requestedProxy.type() != Proxy.Type.DIRECT); } @Override public String getResponseMessage() throws IOException { return getResponse().getResponseHeaders().getHeaders().getResponseMessage(); } @Override public final int getResponseCode() throws IOException { return getResponse().getResponseCode(); } @Override public final void setRequestProperty(String field, String newValue) { if (connected) { throw new IllegalStateException("Cannot set request property after connection is made"); } if (field == null) { throw new NullPointerException("field == null"); } rawRequestHeaders.set(field, newValue); } @Override public final void addRequestProperty(String field, String value) { if (connected) { throw new IllegalStateException("Cannot add request property after connection is made"); } if (field == null) { throw new NullPointerException("field == null"); } rawRequestHeaders.add(field, value); } }