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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 */*from ww w . java 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.Address; import com.squareup.okhttp.Connection; import com.squareup.okhttp.ResponseSource; import com.squareup.okhttp.TunnelRequest; import com.squareup.okhttp.internal.Dns; import com.squareup.okhttp.internal.Platform; import com.squareup.okhttp.internal.Util; import java.io.ByteArrayInputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.net.CacheRequest; import java.net.CacheResponse; import java.net.CookieHandler; import java.net.Proxy; import java.net.URI; import java.net.URISyntaxException; import java.net.URL; import java.net.UnknownHostException; import java.util.Collections; import java.util.Date; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.zip.GZIPInputStream; import javax.net.ssl.HostnameVerifier; import javax.net.ssl.SSLSocketFactory; import static com.squareup.okhttp.internal.Util.EMPTY_BYTE_ARRAY; import static com.squareup.okhttp.internal.Util.getDefaultPort; import static com.squareup.okhttp.internal.Util.getEffectivePort; /** * Handles a single HTTP request/response pair. Each HTTP engine follows this * lifecycle: * <ol> * <li>It is created. * <li>The HTTP request message is sent with sendRequest(). Once the request * is sent it is an error to modify the request headers. After * sendRequest() has been called the request body can be written to if * it exists. * <li>The HTTP response message is read with readResponse(). After the * response has been read the response headers and body can be read. * All responses have a response body input stream, though in some * instances this stream is empty. * </ol> * * <p>The request and response may be served by the HTTP response cache, by the * network, or by both in the event of a conditional GET. * * <p>This class may hold a socket connection that needs to be released or * recycled. By default, this socket connection is held when the last byte of * the response is consumed. To release the connection when it is no longer * required, use {@link #automaticallyReleaseConnectionToPool()}. */ public class HttpEngine { private static final CacheResponse GATEWAY_TIMEOUT_RESPONSE = new CacheResponse() { @Override public Map<String, List<String>> getHeaders() throws IOException { Map<String, List<String>> result = new HashMap<String, List<String>>(); result.put(null, Collections.singletonList("HTTP/1.1 504 Gateway Timeout")); return result; } @Override public InputStream getBody() throws IOException { return new ByteArrayInputStream(EMPTY_BYTE_ARRAY); } }; public static final int HTTP_CONTINUE = 100; protected final HttpURLConnectionImpl policy; protected final String method; private ResponseSource responseSource; protected Connection connection; protected RouteSelector routeSelector; private OutputStream requestBodyOut; private Transport transport; private InputStream responseTransferIn; private InputStream responseBodyIn; private CacheResponse cacheResponse; private CacheRequest cacheRequest; /** The time when the request headers were written, or -1 if they haven't been written yet. */ long sentRequestMillis = -1; /** * True if this client added an "Accept-Encoding: gzip" header field and is * therefore responsible for also decompressing the transfer stream. */ private boolean transparentGzip; final URI uri; final RequestHeaders requestHeaders; /** Null until a response is received from the network or the cache. */ ResponseHeaders responseHeaders; // The cache response currently being validated on a conditional get. Null // if the cached response doesn't exist or doesn't need validation. If the // conditional get succeeds, these will be used for the response headers and // body. If it fails, these be closed and set to null. private ResponseHeaders cachedResponseHeaders; private InputStream cachedResponseBody; /** * True if the socket connection should be released to the connection pool * when the response has been fully read. */ private boolean automaticallyReleaseConnectionToPool; /** True if the socket connection is no longer needed by this engine. */ private boolean connectionReleased; /** * @param requestHeaders the client's supplied request headers. This class * creates a private copy that it can mutate. * @param connection the connection used for an intermediate response * immediately prior to this request/response pair, such as a same-host * redirect. This engine assumes ownership of the connection and must * release it when it is unneeded. */ public HttpEngine(HttpURLConnectionImpl policy, String method, RawHeaders requestHeaders, Connection connection, RetryableOutputStream requestBodyOut) throws IOException { this.policy = policy; this.method = method; this.connection = connection; this.requestBodyOut = requestBodyOut; try { uri = Platform.get().toUriLenient(policy.getURL()); } catch (URISyntaxException e) { throw new IOException(e.getMessage()); } this.requestHeaders = new RequestHeaders(uri, new RawHeaders(requestHeaders)); } public URI getUri() { return uri; } /** * Figures out what the response source will be, and opens a socket to that * source if necessary. Prepares the request headers and gets ready to start * writing the request body if it exists. */ public final void sendRequest() throws IOException { if (responseSource != null) { return; } prepareRawRequestHeaders(); initResponseSource(); if (policy.responseCache != null) { policy.responseCache.trackResponse(responseSource); } // The raw response source may require the network, but the request // headers may forbid network use. In that case, dispose of the network // response and use a GATEWAY_TIMEOUT response instead, as specified // by http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.9.4. if (requestHeaders.isOnlyIfCached() && responseSource.requiresConnection()) { if (responseSource == ResponseSource.CONDITIONAL_CACHE) { Util.closeQuietly(cachedResponseBody); } this.responseSource = ResponseSource.CACHE; this.cacheResponse = GATEWAY_TIMEOUT_RESPONSE; RawHeaders rawResponseHeaders = RawHeaders.fromMultimap(cacheResponse.getHeaders(), true); setResponse(new ResponseHeaders(uri, rawResponseHeaders), cacheResponse.getBody()); } if (responseSource.requiresConnection()) { sendSocketRequest(); } else if (connection != null) { policy.connectionPool.recycle(connection); policy.getFailedRoutes().remove(connection.getRoute()); connection = null; } } /** * Initialize the source for this response. It may be corrected later if the * request headers forbids network use. */ private void initResponseSource() throws IOException { responseSource = ResponseSource.NETWORK; if (!policy.getUseCaches() || policy.responseCache == null) { return; } CacheResponse candidate = policy.responseCache.get(uri, method, requestHeaders.getHeaders().toMultimap(false)); if (candidate == null) { return; } Map<String, List<String>> responseHeadersMap = candidate.getHeaders(); cachedResponseBody = candidate.getBody(); if (!acceptCacheResponseType(candidate) || responseHeadersMap == null || cachedResponseBody == null) { Util.closeQuietly(cachedResponseBody); return; } RawHeaders rawResponseHeaders = RawHeaders.fromMultimap(responseHeadersMap, true); cachedResponseHeaders = new ResponseHeaders(uri, rawResponseHeaders); long now = System.currentTimeMillis(); this.responseSource = cachedResponseHeaders.chooseResponseSource(now, requestHeaders); if (responseSource == ResponseSource.CACHE) { this.cacheResponse = candidate; setResponse(cachedResponseHeaders, cachedResponseBody); } else if (responseSource == ResponseSource.CONDITIONAL_CACHE) { this.cacheResponse = candidate; } else if (responseSource == ResponseSource.NETWORK) { Util.closeQuietly(cachedResponseBody); } else { throw new AssertionError(); } } private void sendSocketRequest() throws IOException { if (connection == null) { connect(); } if (transport != null) { throw new IllegalStateException(); } transport = (Transport) connection.newTransport(this); if (hasRequestBody() && requestBodyOut == null) { // Create a request body if we don't have one already. We'll already // have one if we're retrying a failed POST. requestBodyOut = transport.createRequestBody(); } } /** Connect to the origin server either directly or via a proxy. */ protected final void connect() throws IOException { if (connection != null) { return; } if (routeSelector == null) { String uriHost = uri.getHost(); if (uriHost == null) { throw new UnknownHostException(uri.toString()); } SSLSocketFactory sslSocketFactory = null; HostnameVerifier hostnameVerifier = null; if (uri.getScheme().equalsIgnoreCase("https")) { sslSocketFactory = policy.sslSocketFactory; hostnameVerifier = policy.hostnameVerifier; } Address address = new Address(uriHost, getEffectivePort(uri), sslSocketFactory, hostnameVerifier, policy.requestedProxy); routeSelector = new RouteSelector(address, uri, policy.proxySelector, policy.connectionPool, Dns.DEFAULT, policy.getFailedRoutes()); } connection = routeSelector.next(); if (!connection.isConnected()) { connection.connect(policy.getConnectTimeout(), policy.getReadTimeout(), getTunnelConfig()); policy.connectionPool.maybeShare(connection); policy.getFailedRoutes().remove(connection.getRoute()); } connected(connection); if (connection.getRoute().getProxy() != policy.requestedProxy) { // Update the request line if the proxy changed; it may need a host name. requestHeaders.getHeaders().setRequestLine(getRequestLine()); } } /** * Called after a socket connection has been created or retrieved from the * pool. Subclasses use this hook to get a reference to the TLS data. */ protected void connected(Connection connection) { } /** * Called immediately before the transport transmits HTTP request headers. * This is used to observe the sent time should the request be cached. */ public void writingRequestHeaders() { if (sentRequestMillis != -1) { throw new IllegalStateException(); } sentRequestMillis = System.currentTimeMillis(); } /** * @param body the response body, or null if it doesn't exist or isn't * available. */ private void setResponse(ResponseHeaders headers, InputStream body) throws IOException { if (this.responseBodyIn != null) { throw new IllegalStateException(); } this.responseHeaders = headers; if (body != null) { initContentStream(body); } } boolean hasRequestBody() { return method.equals("POST") || method.equals("PUT"); } /** Returns the request body or null if this request doesn't have a body. */ public final OutputStream getRequestBody() { if (responseSource == null) { throw new IllegalStateException(); } return requestBodyOut; } public final boolean hasResponse() { return responseHeaders != null; } public final RequestHeaders getRequestHeaders() { return requestHeaders; } public final ResponseHeaders getResponseHeaders() { if (responseHeaders == null) { throw new IllegalStateException(); } return responseHeaders; } public final int getResponseCode() { if (responseHeaders == null) { throw new IllegalStateException(); } return responseHeaders.getHeaders().getResponseCode(); } public final InputStream getResponseBody() { if (responseHeaders == null) { throw new IllegalStateException(); } return responseBodyIn; } public final CacheResponse getCacheResponse() { return cacheResponse; } public final Connection getConnection() { return connection; } /** * Returns true if {@code cacheResponse} is of the right type. This * condition is necessary but not sufficient for the cached response to * be used. */ protected boolean acceptCacheResponseType(CacheResponse cacheResponse) { return true; } private void maybeCache() throws IOException { // Are we caching at all? if (!policy.getUseCaches() || policy.responseCache == null) { return; } // Should we cache this response for this request? if (!responseHeaders.isCacheable(requestHeaders)) { return; } // Offer this request to the cache. cacheRequest = policy.responseCache.put(uri, policy.getHttpConnectionToCache()); } /** * Cause the socket connection to be released to the connection pool when * it is no longer needed. If it is already unneeded, it will be pooled * immediately. Otherwise the connection is held so that redirects can be * handled by the same connection. */ public final void automaticallyReleaseConnectionToPool() { automaticallyReleaseConnectionToPool = true; if (connection != null && connectionReleased) { policy.connectionPool.recycle(connection); connection = null; } } /** * Releases this engine so that its resources may be either reused or * closed. Also call {@link #automaticallyReleaseConnectionToPool} unless * the connection will be used to follow a redirect. */ public final void release(boolean streamCancelled) { // If the response body comes from the cache, close it. if (responseBodyIn == cachedResponseBody) { Util.closeQuietly(responseBodyIn); } if (!connectionReleased && connection != null) { connectionReleased = true; if (transport == null || !transport.makeReusable(streamCancelled, requestBodyOut, responseTransferIn)) { Util.closeQuietly(connection); connection = null; } else if (automaticallyReleaseConnectionToPool) { policy.connectionPool.recycle(connection); connection = null; } } } private void initContentStream(InputStream transferStream) throws IOException { responseTransferIn = transferStream; if (transparentGzip && responseHeaders.isContentEncodingGzip()) { // If the response was transparently gzipped, remove the gzip header field // so clients don't double decompress. http://b/3009828 // // Also remove the Content-Length in this case because it contains the // length 528 of the gzipped response. This isn't terribly useful and is // dangerous because 529 clients can query the content length, but not // the content encoding. responseHeaders.stripContentEncoding(); responseHeaders.stripContentLength(); responseBodyIn = new GZIPInputStream(transferStream); } else { responseBodyIn = transferStream; } } /** * Returns true if the response must have a (possibly 0-length) body. * See RFC 2616 section 4.3. */ public final boolean hasResponseBody() { int responseCode = responseHeaders.getHeaders().getResponseCode(); // HEAD requests never yield a body regardless of the response headers. if (method.equals("HEAD")) { return false; } if ((responseCode < HTTP_CONTINUE || responseCode >= 200) && responseCode != HttpURLConnectionImpl.HTTP_NO_CONTENT && responseCode != HttpURLConnectionImpl.HTTP_NOT_MODIFIED) { return true; } // If the Content-Length or Transfer-Encoding headers disagree with the // response code, the response is malformed. For best compatibility, we // honor the headers. if (responseHeaders.getContentLength() != -1 || responseHeaders.isChunked()) { return true; } return false; } /** * Populates requestHeaders with defaults and cookies. * * <p>This client doesn't specify a default {@code Accept} header because it * doesn't know what content types the application is interested in. */ private void prepareRawRequestHeaders() throws IOException { requestHeaders.getHeaders().setRequestLine(getRequestLine()); if (requestHeaders.getUserAgent() == null) { requestHeaders.setUserAgent(getDefaultUserAgent()); } if (requestHeaders.getHost() == null) { requestHeaders.setHost(getOriginAddress(policy.getURL())); } if ((connection == null || connection.getHttpMinorVersion() != 0) && requestHeaders.getConnection() == null) { requestHeaders.setConnection("Keep-Alive"); } if (requestHeaders.getAcceptEncoding() == null) { transparentGzip = true; requestHeaders.setAcceptEncoding("gzip"); } if (hasRequestBody() && requestHeaders.getContentType() == null) { requestHeaders.setContentType("application/x-www-form-urlencoded"); } long ifModifiedSince = policy.getIfModifiedSince(); if (ifModifiedSince != 0) { requestHeaders.setIfModifiedSince(new Date(ifModifiedSince)); } CookieHandler cookieHandler = policy.cookieHandler; if (cookieHandler != null) { requestHeaders.addCookies( cookieHandler.get(uri, requestHeaders.getHeaders().toMultimap(false))); } } /** * Returns the request status line, like "GET / HTTP/1.1". This is exposed * to the application by {@link HttpURLConnectionImpl#getHeaderFields}, so * it needs to be set even if the transport is SPDY. */ String getRequestLine() { String protocol = (connection == null || connection.getHttpMinorVersion() != 0) ? "HTTP/1.1" : "HTTP/1.0"; return method + " " + requestString() + " " + protocol; } private String requestString() { URL url = policy.getURL(); if (includeAuthorityInRequestLine()) { return url.toString(); } else { return requestPath(url); } } /** * Returns the path to request, like the '/' in 'GET / HTTP/1.1'. Never * empty, even if the request URL is. Includes the query component if it * exists. */ public static String requestPath(URL url) { String fileOnly = url.getFile(); if (fileOnly == null) { return "/"; } else if (!fileOnly.startsWith("/")) { return "/" + fileOnly; } else { return fileOnly; } } /** * Returns true if the request line should contain the full URL with host * and port (like "GET http://android.com/foo HTTP/1.1") or only the path * (like "GET /foo HTTP/1.1"). * * <p>This is non-final because for HTTPS it's never necessary to supply the * full URL, even if a proxy is in use. */ protected boolean includeAuthorityInRequestLine() { return connection == null ? policy.usingProxy() // A proxy was requested. : connection.getRoute().getProxy().type() == Proxy.Type.HTTP; // A proxy was selected. } public static String getDefaultUserAgent() { String agent = System.getProperty("http.agent"); return agent != null ? agent : ("Java" + System.getProperty("java.version")); } public static String getOriginAddress(URL url) { int port = url.getPort(); String result = url.getHost(); if (port > 0 && port != getDefaultPort(url.getProtocol())) { result = result + ":" + port; } return result; } /** * Flushes the remaining request header and body, parses the HTTP response * headers and starts reading the HTTP response body if it exists. */ public final void readResponse() throws IOException { if (hasResponse()) { responseHeaders.setResponseSource(responseSource); return; } if (responseSource == null) { throw new IllegalStateException("readResponse() without sendRequest()"); } if (!responseSource.requiresConnection()) { return; } if (sentRequestMillis == -1) { if (requestBodyOut instanceof RetryableOutputStream) { int contentLength = ((RetryableOutputStream) requestBodyOut).contentLength(); requestHeaders.setContentLength(contentLength); } transport.writeRequestHeaders(); } if (requestBodyOut != null) { requestBodyOut.close(); if (requestBodyOut instanceof RetryableOutputStream) { transport.writeRequestBody((RetryableOutputStream) requestBodyOut); } } transport.flushRequest(); responseHeaders = transport.readResponseHeaders(); responseHeaders.setLocalTimestamps(sentRequestMillis, System.currentTimeMillis()); responseHeaders.setResponseSource(responseSource); if (responseSource == ResponseSource.CONDITIONAL_CACHE) { if (cachedResponseHeaders.validate(responseHeaders)) { release(false); ResponseHeaders combinedHeaders = cachedResponseHeaders.combine(responseHeaders); setResponse(combinedHeaders, cachedResponseBody); policy.responseCache.trackConditionalCacheHit(); policy.responseCache.update(cacheResponse, policy.getHttpConnectionToCache()); return; } else { Util.closeQuietly(cachedResponseBody); } } if (hasResponseBody()) { maybeCache(); // reentrant. this calls into user code which may call back into this! } initContentStream(transport.getTransferStream(cacheRequest)); } protected TunnelRequest getTunnelConfig() { return null; } public void receiveHeaders(RawHeaders headers) throws IOException { CookieHandler cookieHandler = policy.cookieHandler; if (cookieHandler != null) { cookieHandler.put(uri, headers.toMultimap(true)); } } }