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/*
 * Copyright (C) 2010 The Android Open Source Project
 *
 * Licensed 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 com.bugvm.okhttp;

import com.bugvm.okhttp.internal.Base64;
import com.bugvm.okhttp.internal.DiskLruCache;
import com.bugvm.okhttp.internal.StrictLineReader;
import com.bugvm.okhttp.internal.Util;
import com.bugvm.okhttp.internal.http.HttpEngine;
import com.bugvm.okhttp.internal.http.HttpURLConnectionImpl;
import com.bugvm.okhttp.internal.http.HttpsEngine;
import com.bugvm.okhttp.internal.http.HttpsURLConnectionImpl;
import com.bugvm.okhttp.internal.http.RawHeaders;
import com.bugvm.okhttp.internal.http.ResponseHeaders;
import java.io.BufferedWriter;
import java.io.ByteArrayInputStream;
import java.io.File;
import java.io.FilterInputStream;
import java.io.FilterOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
import java.net.CacheRequest;
import java.net.CacheResponse;
import java.net.HttpURLConnection;
import java.net.ResponseCache;
import java.net.SecureCacheResponse;
import java.net.URI;
import java.net.URLConnection;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.security.Principal;
import java.security.cert.Certificate;
import java.security.cert.CertificateEncodingException;
import java.security.cert.CertificateException;
import java.security.cert.CertificateFactory;
import java.security.cert.X509Certificate;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import javax.net.ssl.SSLPeerUnverifiedException;
import javax.net.ssl.SSLSocket;

import static com.bugvm.okhttp.internal.Util.US_ASCII;
import static com.bugvm.okhttp.internal.Util.UTF_8;

/**
 * Caches HTTP and HTTPS responses to the filesystem so they may be reused,
 * saving time and bandwidth.
 *
 * 

Cache Optimization

* To measure cache effectiveness, this class tracks three statistics: *
    *
  • {@link #getRequestCount() Request Count:} the number * of HTTP requests issued since this cache was created. *
  • {@link #getNetworkCount() Network Count:} the * number of those requests that required network use. *
  • {@link #getHitCount() Hit Count:} the number of * those requests whose responses were served by the cache. *
* Sometimes a request will result in a conditional cache hit. If the cache * contains a stale copy of the response, the client will issue a conditional * {@code GET}. The server will then send either the updated response if it has * changed, or a short 'not modified' response if the client's copy is still * valid. Such responses increment both the network count and hit count. * *

The best way to improve the cache hit rate is by configuring the web * server to return cacheable responses. Although this client honors all HTTP/1.1 (RFC 2068) cache * headers, it doesn't cache partial responses. * *

Force a Network Response

* In some situations, such as after a user clicks a 'refresh' button, it may be * necessary to skip the cache, and fetch data directly from the server. To force * a full refresh, add the {@code no-cache} directive:
   {@code
 *         connection.addRequestProperty("Cache-Control", "no-cache");
 * }
* If it is only necessary to force a cached response to be validated by the * server, use the more efficient {@code max-age=0} instead:
   {@code
 *         connection.addRequestProperty("Cache-Control", "max-age=0");
 * }
* *

Force a Cache Response

* Sometimes you'll want to show resources if they are available immediately, * but not otherwise. This can be used so your application can show * something while waiting for the latest data to be downloaded. To * restrict a request to locally-cached resources, add the {@code * only-if-cached} directive:
   {@code
 *     try {
 *         connection.addRequestProperty("Cache-Control", "only-if-cached");
 *         InputStream cached = connection.getInputStream();
 *         // the resource was cached! show it
 *     } catch (FileNotFoundException e) {
 *         // the resource was not cached
 *     }
 * }
* This technique works even better in situations where a stale response is * better than no response. To permit stale cached responses, use the {@code * max-stale} directive with the maximum staleness in seconds:
   {@code
 *         int maxStale = 60 * 60 * 24 * 28; // tolerate 4-weeks stale
 *         connection.addRequestProperty("Cache-Control", "max-stale=" + maxStale);
 * }
*/ public final class HttpResponseCache extends ResponseCache { private static final char[] DIGITS = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' }; // TODO: add APIs to iterate the cache? private static final int VERSION = 201105; private static final int ENTRY_METADATA = 0; private static final int ENTRY_BODY = 1; private static final int ENTRY_COUNT = 2; private final DiskLruCache cache; /* read and write statistics, all guarded by 'this' */ private int writeSuccessCount; private int writeAbortCount; private int networkCount; private int hitCount; private int requestCount; /** * Although this class only exposes the limited ResponseCache API, it * implements the full OkResponseCache interface. This field is used as a * package private handle to the complete implementation. It delegates to * public and private members of this type. */ final OkResponseCache okResponseCache = new OkResponseCache() { @Override public CacheResponse get(URI uri, String requestMethod, Map> requestHeaders) throws IOException { return HttpResponseCache.this.get(uri, requestMethod, requestHeaders); } @Override public CacheRequest put(URI uri, URLConnection connection) throws IOException { return HttpResponseCache.this.put(uri, connection); } @Override public void maybeRemove(String requestMethod, URI uri) throws IOException { HttpResponseCache.this.maybeRemove(requestMethod, uri); } @Override public void update( CacheResponse conditionalCacheHit, HttpURLConnection connection) throws IOException { HttpResponseCache.this.update(conditionalCacheHit, connection); } @Override public void trackConditionalCacheHit() { HttpResponseCache.this.trackConditionalCacheHit(); } @Override public void trackResponse(ResponseSource source) { HttpResponseCache.this.trackResponse(source); } }; public HttpResponseCache(File directory, long maxSize) throws IOException { cache = DiskLruCache.open(directory, VERSION, ENTRY_COUNT, maxSize); } private String uriToKey(URI uri) { try { MessageDigest messageDigest = MessageDigest.getInstance("MD5"); byte[] md5bytes = messageDigest.digest(uri.toString().getBytes("UTF-8")); return bytesToHexString(md5bytes); } catch (NoSuchAlgorithmException e) { throw new AssertionError(e); } catch (UnsupportedEncodingException e) { throw new AssertionError(e); } } private static String bytesToHexString(byte[] bytes) { char[] digits = DIGITS; char[] buf = new char[bytes.length * 2]; int c = 0; for (byte b : bytes) { buf[c++] = digits[(b >> 4) & 0xf]; buf[c++] = digits[b & 0xf]; } return new String(buf); } @Override public CacheResponse get(URI uri, String requestMethod, Map> requestHeaders) { String key = uriToKey(uri); DiskLruCache.Snapshot snapshot; Entry entry; try { snapshot = cache.get(key); if (snapshot == null) { return null; } entry = new Entry(snapshot.getInputStream(ENTRY_METADATA)); } catch (IOException e) { // Give up because the cache cannot be read. return null; } if (!entry.matches(uri, requestMethod, requestHeaders)) { snapshot.close(); return null; } return entry.isHttps() ? new EntrySecureCacheResponse(entry, snapshot) : new EntryCacheResponse(entry, snapshot); } @Override public CacheRequest put(URI uri, URLConnection urlConnection) throws IOException { if (!(urlConnection instanceof HttpURLConnection)) { return null; } HttpURLConnection httpConnection = (HttpURLConnection) urlConnection; String requestMethod = httpConnection.getRequestMethod(); if (maybeRemove(requestMethod, uri)) { return null; } if (!requestMethod.equals("GET")) { // Don't cache non-GET responses. We're technically allowed to cache // HEAD requests and some POST requests, but the complexity of doing // so is high and the benefit is low. return null; } HttpEngine httpEngine = getHttpEngine(httpConnection); if (httpEngine == null) { // Don't cache unless the HTTP implementation is ours. return null; } ResponseHeaders response = httpEngine.getResponseHeaders(); if (response.hasVaryAll()) { return null; } RawHeaders varyHeaders = httpEngine.getRequestHeaders().getHeaders().getAll(response.getVaryFields()); Entry entry = new Entry(uri, varyHeaders, httpConnection); DiskLruCache.Editor editor = null; try { editor = cache.edit(uriToKey(uri)); if (editor == null) { return null; } entry.writeTo(editor); return new CacheRequestImpl(editor); } catch (IOException e) { abortQuietly(editor); return null; } } /** * Returns true if the supplied {@code requestMethod} potentially invalidates an entry in the * cache. */ private boolean maybeRemove(String requestMethod, URI uri) { if (requestMethod.equals("POST") || requestMethod.equals("PUT") || requestMethod.equals( "DELETE")) { try { cache.remove(uriToKey(uri)); } catch (IOException ignored) { // The cache cannot be written. } return true; } return false; } private void update(CacheResponse conditionalCacheHit, HttpURLConnection httpConnection) throws IOException { HttpEngine httpEngine = getHttpEngine(httpConnection); URI uri = httpEngine.getUri(); ResponseHeaders response = httpEngine.getResponseHeaders(); RawHeaders varyHeaders = httpEngine.getRequestHeaders().getHeaders().getAll(response.getVaryFields()); Entry entry = new Entry(uri, varyHeaders, httpConnection); DiskLruCache.Snapshot snapshot = (conditionalCacheHit instanceof EntryCacheResponse) ? ((EntryCacheResponse) conditionalCacheHit).snapshot : ((EntrySecureCacheResponse) conditionalCacheHit).snapshot; DiskLruCache.Editor editor = null; try { editor = snapshot.edit(); // returns null if snapshot is not current if (editor != null) { entry.writeTo(editor); editor.commit(); } } catch (IOException e) { abortQuietly(editor); } } private void abortQuietly(DiskLruCache.Editor editor) { // Give up because the cache cannot be written. try { if (editor != null) { editor.abort(); } } catch (IOException ignored) { } } private HttpEngine getHttpEngine(URLConnection httpConnection) { if (httpConnection instanceof HttpURLConnectionImpl) { return ((HttpURLConnectionImpl) httpConnection).getHttpEngine(); } else if (httpConnection instanceof HttpsURLConnectionImpl) { return ((HttpsURLConnectionImpl) httpConnection).getHttpEngine(); } else { return null; } } /** * Closes the cache and deletes all of its stored values. This will delete * all files in the cache directory including files that weren't created by * the cache. */ public void delete() throws IOException { cache.delete(); } public synchronized int getWriteAbortCount() { return writeAbortCount; } public synchronized int getWriteSuccessCount() { return writeSuccessCount; } public long getSize() { return cache.size(); } public long getMaxSize() { return cache.getMaxSize(); } public void flush() throws IOException { cache.flush(); } public void close() throws IOException { cache.close(); } public File getDirectory() { return cache.getDirectory(); } public boolean isClosed() { return cache.isClosed(); } private synchronized void trackResponse(ResponseSource source) { requestCount++; switch (source) { case CACHE: hitCount++; break; case CONDITIONAL_CACHE: case NETWORK: networkCount++; break; } } private synchronized void trackConditionalCacheHit() { hitCount++; } public synchronized int getNetworkCount() { return networkCount; } public synchronized int getHitCount() { return hitCount; } public synchronized int getRequestCount() { return requestCount; } private final class CacheRequestImpl extends CacheRequest { private final DiskLruCache.Editor editor; private OutputStream cacheOut; private boolean done; private OutputStream body; public CacheRequestImpl(final DiskLruCache.Editor editor) throws IOException { this.editor = editor; this.cacheOut = editor.newOutputStream(ENTRY_BODY); this.body = new FilterOutputStream(cacheOut) { @Override public void close() throws IOException { synchronized (HttpResponseCache.this) { if (done) { return; } done = true; writeSuccessCount++; } super.close(); editor.commit(); } @Override public void write(byte[] buffer, int offset, int length) throws IOException { // Since we don't override "write(int oneByte)", we can write directly to "out" // and avoid the inefficient implementation from the FilterOutputStream. out.write(buffer, offset, length); } }; } @Override public void abort() { synchronized (HttpResponseCache.this) { if (done) { return; } done = true; writeAbortCount++; } Util.closeQuietly(cacheOut); try { editor.abort(); } catch (IOException ignored) { } } @Override public OutputStream getBody() throws IOException { return body; } } private static final class Entry { private final String uri; private final RawHeaders varyHeaders; private final String requestMethod; private final RawHeaders responseHeaders; private final String cipherSuite; private final Certificate[] peerCertificates; private final Certificate[] localCertificates; /** * Reads an entry from an input stream. A typical entry looks like this: *
{@code
     *   http://google.com/foo
     *   GET
     *   2
     *   Accept-Language: fr-CA
     *   Accept-Charset: UTF-8
     *   HTTP/1.1 200 OK
     *   3
     *   Content-Type: image/png
     *   Content-Length: 100
     *   Cache-Control: max-age=600
     * }
* *

A typical HTTPS file looks like this: *

{@code
     *   https://google.com/foo
     *   GET
     *   2
     *   Accept-Language: fr-CA
     *   Accept-Charset: UTF-8
     *   HTTP/1.1 200 OK
     *   3
     *   Content-Type: image/png
     *   Content-Length: 100
     *   Cache-Control: max-age=600
     *
     *   AES_256_WITH_MD5
     *   2
     *   base64-encoded peerCertificate[0]
     *   base64-encoded peerCertificate[1]
     *   -1
     * }
* The file is newline separated. The first two lines are the URL and * the request method. Next is the number of HTTP Vary request header * lines, followed by those lines. * *

Next is the response status line, followed by the number of HTTP * response header lines, followed by those lines. * *

HTTPS responses also contain SSL session information. This begins * with a blank line, and then a line containing the cipher suite. Next * is the length of the peer certificate chain. These certificates are * base64-encoded and appear each on their own line. The next line * contains the length of the local certificate chain. These * certificates are also base64-encoded and appear each on their own * line. A length of -1 is used to encode a null array. */ public Entry(InputStream in) throws IOException { try { StrictLineReader reader = new StrictLineReader(in, US_ASCII); uri = reader.readLine(); requestMethod = reader.readLine(); varyHeaders = new RawHeaders(); int varyRequestHeaderLineCount = reader.readInt(); for (int i = 0; i < varyRequestHeaderLineCount; i++) { varyHeaders.addLine(reader.readLine()); } responseHeaders = new RawHeaders(); responseHeaders.setStatusLine(reader.readLine()); int responseHeaderLineCount = reader.readInt(); for (int i = 0; i < responseHeaderLineCount; i++) { responseHeaders.addLine(reader.readLine()); } if (isHttps()) { String blank = reader.readLine(); if (blank.length() > 0) { throw new IOException("expected \"\" but was \"" + blank + "\""); } cipherSuite = reader.readLine(); peerCertificates = readCertArray(reader); localCertificates = readCertArray(reader); } else { cipherSuite = null; peerCertificates = null; localCertificates = null; } } finally { in.close(); } } public Entry(URI uri, RawHeaders varyHeaders, HttpURLConnection httpConnection) throws IOException { this.uri = uri.toString(); this.varyHeaders = varyHeaders; this.requestMethod = httpConnection.getRequestMethod(); this.responseHeaders = RawHeaders.fromMultimap(httpConnection.getHeaderFields(), true); SSLSocket sslSocket = getSslSocket(httpConnection); if (sslSocket != null) { cipherSuite = sslSocket.getSession().getCipherSuite(); Certificate[] peerCertificatesNonFinal = null; try { peerCertificatesNonFinal = sslSocket.getSession().getPeerCertificates(); } catch (SSLPeerUnverifiedException ignored) { } peerCertificates = peerCertificatesNonFinal; localCertificates = sslSocket.getSession().getLocalCertificates(); } else { cipherSuite = null; peerCertificates = null; localCertificates = null; } } /** * Returns the SSL socket used by {@code httpConnection} for HTTPS, nor null * if the connection isn't using HTTPS. Since we permit redirects across * protocols (HTTP to HTTPS or vice versa), the implementation type of the * connection doesn't necessarily match the implementation type of its HTTP * engine. */ private SSLSocket getSslSocket(HttpURLConnection httpConnection) { HttpEngine engine = httpConnection instanceof HttpsURLConnectionImpl ? ((HttpsURLConnectionImpl) httpConnection).getHttpEngine() : ((HttpURLConnectionImpl) httpConnection).getHttpEngine(); return engine instanceof HttpsEngine ? ((HttpsEngine) engine).getSslSocket() : null; } public void writeTo(DiskLruCache.Editor editor) throws IOException { OutputStream out = editor.newOutputStream(ENTRY_METADATA); Writer writer = new BufferedWriter(new OutputStreamWriter(out, UTF_8)); writer.write(uri + '\n'); writer.write(requestMethod + '\n'); writer.write(Integer.toString(varyHeaders.length()) + '\n'); for (int i = 0; i < varyHeaders.length(); i++) { writer.write(varyHeaders.getFieldName(i) + ": " + varyHeaders.getValue(i) + '\n'); } writer.write(responseHeaders.getStatusLine() + '\n'); writer.write(Integer.toString(responseHeaders.length()) + '\n'); for (int i = 0; i < responseHeaders.length(); i++) { writer.write(responseHeaders.getFieldName(i) + ": " + responseHeaders.getValue(i) + '\n'); } if (isHttps()) { writer.write('\n'); writer.write(cipherSuite + '\n'); writeCertArray(writer, peerCertificates); writeCertArray(writer, localCertificates); } writer.close(); } private boolean isHttps() { return uri.startsWith("https://"); } private Certificate[] readCertArray(StrictLineReader reader) throws IOException { int length = reader.readInt(); if (length == -1) { return null; } try { CertificateFactory certificateFactory = CertificateFactory.getInstance("X.509"); Certificate[] result = new Certificate[length]; for (int i = 0; i < result.length; i++) { String line = reader.readLine(); byte[] bytes = Base64.decode(line.getBytes("US-ASCII")); result[i] = certificateFactory.generateCertificate(new ByteArrayInputStream(bytes)); } return result; } catch (CertificateException e) { throw new IOException(e.getMessage()); } } private void writeCertArray(Writer writer, Certificate[] certificates) throws IOException { if (certificates == null) { writer.write("-1\n"); return; } try { writer.write(Integer.toString(certificates.length) + '\n'); for (Certificate certificate : certificates) { byte[] bytes = certificate.getEncoded(); String line = Base64.encode(bytes); writer.write(line + '\n'); } } catch (CertificateEncodingException e) { throw new IOException(e.getMessage()); } } public boolean matches(URI uri, String requestMethod, Map> requestHeaders) { return this.uri.equals(uri.toString()) && this.requestMethod.equals(requestMethod) && new ResponseHeaders(uri, responseHeaders).varyMatches(varyHeaders.toMultimap(false), requestHeaders); } } /** * Returns an input stream that reads the body of a snapshot, closing the * snapshot when the stream is closed. */ private static InputStream newBodyInputStream(final DiskLruCache.Snapshot snapshot) { return new FilterInputStream(snapshot.getInputStream(ENTRY_BODY)) { @Override public void close() throws IOException { snapshot.close(); super.close(); } }; } static class EntryCacheResponse extends CacheResponse { private final Entry entry; private final DiskLruCache.Snapshot snapshot; private final InputStream in; public EntryCacheResponse(Entry entry, DiskLruCache.Snapshot snapshot) { this.entry = entry; this.snapshot = snapshot; this.in = newBodyInputStream(snapshot); } @Override public Map> getHeaders() { return entry.responseHeaders.toMultimap(true); } @Override public InputStream getBody() { return in; } } static class EntrySecureCacheResponse extends SecureCacheResponse { private final Entry entry; private final DiskLruCache.Snapshot snapshot; private final InputStream in; public EntrySecureCacheResponse(Entry entry, DiskLruCache.Snapshot snapshot) { this.entry = entry; this.snapshot = snapshot; this.in = newBodyInputStream(snapshot); } @Override public Map> getHeaders() { return entry.responseHeaders.toMultimap(true); } @Override public InputStream getBody() { return in; } @Override public String getCipherSuite() { return entry.cipherSuite; } @Override public List getServerCertificateChain() throws SSLPeerUnverifiedException { if (entry.peerCertificates == null || entry.peerCertificates.length == 0) { throw new SSLPeerUnverifiedException(null); } return Arrays.asList(entry.peerCertificates.clone()); } @Override public Principal getPeerPrincipal() throws SSLPeerUnverifiedException { if (entry.peerCertificates == null || entry.peerCertificates.length == 0) { throw new SSLPeerUnverifiedException(null); } return ((X509Certificate) entry.peerCertificates[0]).getSubjectX500Principal(); } @Override public List getLocalCertificateChain() { if (entry.localCertificates == null || entry.localCertificates.length == 0) { return null; } return Arrays.asList(entry.localCertificates.clone()); } @Override public Principal getLocalPrincipal() { if (entry.localCertificates == null || entry.localCertificates.length == 0) { return null; } return ((X509Certificate) entry.localCertificates[0]).getSubjectX500Principal(); } } }





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