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Classes to support the Android platform's use of OkHttp (not required for most developers).

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/*
 * Copyright (C) 2014 Square, Inc.
 *
 * 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 okhttp3.internal.huc;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.CacheResponse;
import java.net.HttpURLConnection;
import java.net.ProtocolException;
import java.net.SecureCacheResponse;
import java.net.URI;
import java.net.URLConnection;
import java.security.Principal;
import java.security.cert.Certificate;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.Set;
import javax.net.ssl.HostnameVerifier;
import javax.net.ssl.HttpsURLConnection;
import javax.net.ssl.SSLPeerUnverifiedException;
import javax.net.ssl.SSLSocketFactory;
import okhttp3.CipherSuite;
import okhttp3.Handshake;
import okhttp3.Headers;
import okhttp3.MediaType;
import okhttp3.Request;
import okhttp3.RequestBody;
import okhttp3.Response;
import okhttp3.ResponseBody;
import okhttp3.TlsVersion;
import okhttp3.internal.Internal;
import okhttp3.internal.JavaNetHeaders;
import okhttp3.internal.Util;
import okhttp3.internal.cache.CacheRequest;
import okhttp3.internal.http.HttpHeaders;
import okhttp3.internal.http.HttpMethod;
import okhttp3.internal.http.StatusLine;
import okhttp3.internal.platform.Platform;
import okio.BufferedSource;
import okio.Okio;
import okio.Sink;

/**
 * Helper methods that convert between Java and OkHttp representations.
 */
public final class JavaApiConverter {
  /** Synthetic response header: the local time when the request was sent. */
  private static final String SENT_MILLIS = Platform.get().getPrefix() + "-Sent-Millis";

  /** Synthetic response header: the local time when the response was received. */
  private static final String RECEIVED_MILLIS = Platform.get().getPrefix() + "-Received-Millis";

  private JavaApiConverter() {
  }

  /**
   * Creates an OkHttp {@link Response} using the supplied {@link URI} and {@link URLConnection} to
   * supply the data. The URLConnection is assumed to already be connected. If this method returns
   * {@code null} the response is uncacheable.
   */
  public static Response createOkResponseForCachePut(URI uri, URLConnection urlConnection)
      throws IOException {

    HttpURLConnection httpUrlConnection = (HttpURLConnection) urlConnection;

    Response.Builder okResponseBuilder = new Response.Builder();

    // Request: Create one from the URL connection.
    Headers responseHeaders = createHeaders(urlConnection.getHeaderFields());
    // Some request headers are needed for Vary caching.
    Headers varyHeaders = varyHeaders(urlConnection, responseHeaders);
    if (varyHeaders == null) {
      return null;
    }

    // OkHttp's Call API requires a placeholder body; the real body will be streamed separately.
    String requestMethod = httpUrlConnection.getRequestMethod();
    RequestBody placeholderBody = HttpMethod.requiresRequestBody(requestMethod)
        ? Util.EMPTY_REQUEST
        : null;

    Request okRequest = new Request.Builder()
        .url(uri.toString())
        .method(requestMethod, placeholderBody)
        .headers(varyHeaders)
        .build();
    okResponseBuilder.request(okRequest);

    // Status line
    StatusLine statusLine = StatusLine.parse(extractStatusLine(httpUrlConnection));
    okResponseBuilder.protocol(statusLine.protocol);
    okResponseBuilder.code(statusLine.code);
    okResponseBuilder.message(statusLine.message);

    // A network response is required for the Cache to find any Vary headers it needs.
    Response networkResponse = okResponseBuilder.build();
    okResponseBuilder.networkResponse(networkResponse);

    // Response headers
    Headers okHeaders = extractOkResponseHeaders(httpUrlConnection, okResponseBuilder);
    okResponseBuilder.headers(okHeaders);

    // Response body
    ResponseBody okBody = createOkBody(urlConnection);
    okResponseBuilder.body(okBody);

    // Handle SSL handshake information as needed.
    if (httpUrlConnection instanceof HttpsURLConnection) {
      HttpsURLConnection httpsUrlConnection = (HttpsURLConnection) httpUrlConnection;

      Certificate[] peerCertificates;
      try {
        peerCertificates = httpsUrlConnection.getServerCertificates();
      } catch (SSLPeerUnverifiedException e) {
        peerCertificates = null;
      }

      Certificate[] localCertificates = httpsUrlConnection.getLocalCertificates();

      String cipherSuiteString = httpsUrlConnection.getCipherSuite();
      CipherSuite cipherSuite = CipherSuite.forJavaName(cipherSuiteString);
      Handshake handshake = Handshake.get(TlsVersion.SSL_3_0, cipherSuite,
          nullSafeImmutableList(peerCertificates), nullSafeImmutableList(localCertificates));
      okResponseBuilder.handshake(handshake);
    }

    return okResponseBuilder.build();
  }

  /**
   * Returns headers for the header names and values in the {@link Map}.
   */
  private static Headers createHeaders(Map> headers) {
    Headers.Builder builder = new Headers.Builder();
    for (Map.Entry> header : headers.entrySet()) {
      if (header.getKey() == null || header.getValue() == null) {
        continue;
      }
      String name = header.getKey().trim();
      for (String value : header.getValue()) {
        String trimmedValue = value.trim();
        Internal.instance.addLenient(builder, name, trimmedValue);
      }
    }
    return builder.build();
  }

  private static Headers varyHeaders(URLConnection urlConnection, Headers responseHeaders) {
    if (HttpHeaders.hasVaryAll(responseHeaders)) {
      // "*" means that this will be treated as uncacheable anyway.
      return null;
    }
    Set varyFields = HttpHeaders.varyFields(responseHeaders);
    if (varyFields.isEmpty()) {
      return Util.EMPTY_HEADERS;
    }

    // This probably indicates another HTTP stack is trying to use the shared ResponseCache.
    // We cannot guarantee this case will work properly because we cannot reliably extract *all*
    // the request header values, and we can't get multiple Vary request header values.
    // We also can't be sure about the Accept-Encoding behavior of other stacks.
    if (!(urlConnection instanceof CacheHttpURLConnection
        || urlConnection instanceof CacheHttpsURLConnection)) {
      return null;
    }

    // This is the case we expect: The URLConnection is from a call to
    // JavaApiConverter.createJavaUrlConnection() and we have access to the user's request headers.
    Map> requestProperties = urlConnection.getRequestProperties();
    Headers.Builder result = new Headers.Builder();
    for (String fieldName : varyFields) {
      List fieldValues = requestProperties.get(fieldName);
      if (fieldValues == null) {
        if (fieldName.equals("Accept-Encoding")) {
          // Accept-Encoding is special. If OkHttp sees Accept-Encoding is unset it will add
          // "gzip". We don't have access to the request that was actually made so we must do the
          // same.
          result.add("Accept-Encoding", "gzip");
        }
      } else {
        for (String fieldValue : fieldValues) {
          Internal.instance.addLenient(result, fieldName, fieldValue);
        }
      }
    }
    return result.build();
  }

  /**
   * Creates an OkHttp {@link Response} using the supplied {@link Request} and {@link CacheResponse}
   * to supply the data.
   */
  static Response createOkResponseForCacheGet(Request request, CacheResponse javaResponse)
      throws IOException {

    // Build a cache request for the response to use.
    Headers responseHeaders = createHeaders(javaResponse.getHeaders());
    Headers varyHeaders;
    if (HttpHeaders.hasVaryAll(responseHeaders)) {
      // "*" means that this will be treated as uncacheable anyway.
      varyHeaders = Util.EMPTY_HEADERS;
    } else {
      varyHeaders = HttpHeaders.varyHeaders(request.headers(), responseHeaders);
    }

    Request cacheRequest = new Request.Builder()
        .url(request.url())
        .method(request.method(), null)
        .headers(varyHeaders)
        .build();

    Response.Builder okResponseBuilder = new Response.Builder();

    // Request: Use the cacheRequest we built.
    okResponseBuilder.request(cacheRequest);

    // Status line: Java has this as one of the headers.
    StatusLine statusLine = StatusLine.parse(extractStatusLine(javaResponse));
    okResponseBuilder.protocol(statusLine.protocol);
    okResponseBuilder.code(statusLine.code);
    okResponseBuilder.message(statusLine.message);

    // Response headers
    Headers okHeaders = extractOkHeaders(javaResponse, okResponseBuilder);
    okResponseBuilder.headers(okHeaders);

    // Response body
    ResponseBody okBody = createOkBody(okHeaders, javaResponse);
    okResponseBuilder.body(okBody);

    // Handle SSL handshake information as needed.
    if (javaResponse instanceof SecureCacheResponse) {
      SecureCacheResponse javaSecureCacheResponse = (SecureCacheResponse) javaResponse;

      // Handshake doesn't support null lists.
      List peerCertificates;
      try {
        peerCertificates = javaSecureCacheResponse.getServerCertificateChain();
      } catch (SSLPeerUnverifiedException e) {
        peerCertificates = Collections.emptyList();
      }
      List localCertificates = javaSecureCacheResponse.getLocalCertificateChain();
      if (localCertificates == null) {
        localCertificates = Collections.emptyList();
      }

      String cipherSuiteString = javaSecureCacheResponse.getCipherSuite();
      CipherSuite cipherSuite = CipherSuite.forJavaName(cipherSuiteString);
      Handshake handshake = Handshake.get(
          TlsVersion.SSL_3_0, cipherSuite, peerCertificates, localCertificates);
      okResponseBuilder.handshake(handshake);
    }

    return okResponseBuilder.build();
  }

  /**
   * Creates an OkHttp {@link Request} from the supplied information.
   *
   * 

This method allows a {@code null} value for {@code requestHeaders} for situations where a * connection is already connected and access to the headers has been lost. See {@link * java.net.HttpURLConnection#getRequestProperties()} for details. */ public static Request createOkRequest( URI uri, String requestMethod, Map> requestHeaders) { // OkHttp's Call API requires a placeholder body; the real body will be streamed separately. RequestBody placeholderBody = HttpMethod.requiresRequestBody(requestMethod) ? Util.EMPTY_REQUEST : null; Request.Builder builder = new Request.Builder() .url(uri.toString()) .method(requestMethod, placeholderBody); if (requestHeaders != null) { Headers headers = extractOkHeaders(requestHeaders, null); builder.headers(headers); } return builder.build(); } /** * Creates a {@link java.net.CacheResponse} of the correct (sub)type using information gathered * from the supplied {@link Response}. */ public static CacheResponse createJavaCacheResponse(final Response response) { final Headers headers = withSyntheticHeaders(response); final ResponseBody body = response.body(); if (response.request().isHttps()) { final Handshake handshake = response.handshake(); return new SecureCacheResponse() { @Override public String getCipherSuite() { return handshake != null ? handshake.cipherSuite().javaName() : null; } @Override public List getLocalCertificateChain() { if (handshake == null) return null; // Java requires null, not an empty list here. List certificates = handshake.localCertificates(); return certificates.size() > 0 ? certificates : null; } @Override public List getServerCertificateChain() throws SSLPeerUnverifiedException { if (handshake == null) return null; // Java requires null, not an empty list here. List certificates = handshake.peerCertificates(); return certificates.size() > 0 ? certificates : null; } @Override public Principal getPeerPrincipal() throws SSLPeerUnverifiedException { if (handshake == null) return null; return handshake.peerPrincipal(); } @Override public Principal getLocalPrincipal() { if (handshake == null) return null; return handshake.localPrincipal(); } @Override public Map> getHeaders() throws IOException { // Java requires that the entry with a null key be the status line. return JavaNetHeaders.toMultimap(headers, StatusLine.get(response).toString()); } @Override public InputStream getBody() throws IOException { if (body == null) return null; return body.byteStream(); } }; } else { return new CacheResponse() { @Override public Map> getHeaders() throws IOException { // Java requires that the entry with a null key be the status line. return JavaNetHeaders.toMultimap(headers, StatusLine.get(response).toString()); } @Override public InputStream getBody() throws IOException { if (body == null) return null; return body.byteStream(); } }; } } public static java.net.CacheRequest createJavaCacheRequest(final CacheRequest okCacheRequest) { return new java.net.CacheRequest() { @Override public void abort() { okCacheRequest.abort(); } @Override public OutputStream getBody() throws IOException { Sink body = okCacheRequest.body(); if (body == null) { return null; } return Okio.buffer(body).outputStream(); } }; } /** * Creates an {@link java.net.HttpURLConnection} of the correct subclass from the supplied OkHttp * {@link Response}. */ static HttpURLConnection createJavaUrlConnectionForCachePut(Response okResponse) { okResponse = okResponse.newBuilder() .body(null) .headers(withSyntheticHeaders(okResponse)) .build(); Request request = okResponse.request(); // Create an object of the correct class in case the ResponseCache uses instanceof. if (request.isHttps()) { return new CacheHttpsURLConnection(new CacheHttpURLConnection(okResponse)); } else { return new CacheHttpURLConnection(okResponse); } } private static Headers withSyntheticHeaders(Response okResponse) { return okResponse.headers().newBuilder() .add(SENT_MILLIS, Long.toString(okResponse.sentRequestAtMillis())) .add(RECEIVED_MILLIS, Long.toString(okResponse.receivedResponseAtMillis())) .build(); } /** * Extracts an immutable request header map from the supplied {@link Headers}. */ static Map> extractJavaHeaders(Request request) { return JavaNetHeaders.toMultimap(request.headers(), null); } /** * Extracts OkHttp headers from the supplied {@link java.net.CacheResponse}. Only real headers are * extracted. See {@link #extractStatusLine(java.net.CacheResponse)}. */ private static Headers extractOkHeaders( CacheResponse javaResponse, Response.Builder okResponseBuilder) throws IOException { Map> javaResponseHeaders = javaResponse.getHeaders(); return extractOkHeaders(javaResponseHeaders, okResponseBuilder); } /** * Extracts OkHttp headers from the supplied {@link java.net.HttpURLConnection}. Only real headers * are extracted. See {@link #extractStatusLine(java.net.HttpURLConnection)}. */ private static Headers extractOkResponseHeaders( HttpURLConnection httpUrlConnection, Response.Builder okResponseBuilder) { Map> javaResponseHeaders = httpUrlConnection.getHeaderFields(); return extractOkHeaders(javaResponseHeaders, okResponseBuilder); } /** * Extracts OkHttp headers from the supplied {@link Map}. Only real headers are extracted. Any * entry (one with a {@code null} key) is discarded. Special internal headers used to track cache * metadata are omitted from the result and added to {@code okResponseBuilder} instead. */ // @VisibleForTesting static Headers extractOkHeaders( Map> javaHeaders, Response.Builder okResponseBuilder) { Headers.Builder okHeadersBuilder = new Headers.Builder(); for (Map.Entry> javaHeader : javaHeaders.entrySet()) { String name = javaHeader.getKey(); if (name == null) { // The Java API uses the null key to store the status line in responses. // Earlier versions of OkHttp would use the null key to store the "request line" in // requests. e.g. "GET / HTTP 1.1". Although this is no longer the case it must be // explicitly ignored because Headers.Builder does not support null keys. continue; } if (okResponseBuilder != null && javaHeader.getValue().size() == 1) { if (name.equals(SENT_MILLIS)) { okResponseBuilder.sentRequestAtMillis(Long.valueOf(javaHeader.getValue().get(0))); continue; } if (name.equals(RECEIVED_MILLIS)) { okResponseBuilder.receivedResponseAtMillis(Long.valueOf(javaHeader.getValue().get(0))); continue; } } for (String value : javaHeader.getValue()) { Internal.instance.addLenient(okHeadersBuilder, name, value); } } return okHeadersBuilder.build(); } /** * Extracts the status line from the supplied Java API {@link java.net.HttpURLConnection}. As per * the spec, the status line is held as the header with the null key. Returns {@code null} if * there is no status line. */ private static String extractStatusLine(HttpURLConnection httpUrlConnection) { // Java specifies that this will be be response header with a null key. return httpUrlConnection.getHeaderField(null); } /** * Extracts the status line from the supplied Java API {@link java.net.CacheResponse}. As per the * spec, the status line is held as the header with the null key. Throws a {@link * ProtocolException} if there is no status line. */ private static String extractStatusLine(CacheResponse javaResponse) throws IOException { Map> javaResponseHeaders = javaResponse.getHeaders(); return extractStatusLine(javaResponseHeaders); } // VisibleForTesting static String extractStatusLine(Map> javaResponseHeaders) throws ProtocolException { List values = javaResponseHeaders.get(null); if (values == null || values.size() == 0) { // The status line is missing. This suggests a badly behaving cache. throw new ProtocolException( "CacheResponse is missing a \'null\' header containing the status line. Headers=" + javaResponseHeaders); } return values.get(0); } /** * Creates an OkHttp Response.Body containing the supplied information. */ private static ResponseBody createOkBody(final Headers okHeaders, final CacheResponse cacheResponse) throws IOException { final BufferedSource body = Okio.buffer(Okio.source(cacheResponse.getBody())); return new ResponseBody() { @Override public MediaType contentType() { String contentTypeHeader = okHeaders.get("Content-Type"); return contentTypeHeader == null ? null : MediaType.parse(contentTypeHeader); } @Override public long contentLength() { return HttpHeaders.contentLength(okHeaders); } @Override public BufferedSource source() { return body; } }; } /** * Creates an OkHttp Response.Body containing the supplied information. */ private static ResponseBody createOkBody(final URLConnection urlConnection) throws IOException { if (!urlConnection.getDoInput()) { return null; } final BufferedSource body = Okio.buffer(Okio.source(urlConnection.getInputStream())); return new ResponseBody() { @Override public MediaType contentType() { String contentTypeHeader = urlConnection.getContentType(); return contentTypeHeader == null ? null : MediaType.parse(contentTypeHeader); } @Override public long contentLength() { String s = urlConnection.getHeaderField("Content-Length"); return stringToLong(s); } @Override public BufferedSource source() { return body; } }; } /** * An {@link java.net.HttpURLConnection} that represents an HTTP request at the point where the * request has been made, and the response headers have been received, but the body content, if * present, has not been read yet. This intended to provide enough information for {@link * java.net.ResponseCache} subclasses and no more. * *

Much of the method implementations are overrides to delegate to the OkHttp request and * response, or to deny access to information as a real HttpURLConnection would after connection. */ private static final class CacheHttpURLConnection extends HttpURLConnection { private final Request request; private final Response response; CacheHttpURLConnection(Response response) { super(response.request().url().url()); this.request = response.request(); this.response = response; // Configure URLConnection inherited fields. this.connected = true; this.doOutput = request.body() != null; this.doInput = true; this.useCaches = true; // Configure HttpUrlConnection inherited fields. this.method = request.method(); } // HTTP connection lifecycle methods @Override public void connect() throws IOException { throw throwRequestModificationException(); } @Override public void disconnect() { throw throwRequestModificationException(); } // HTTP Request methods @Override public void setRequestProperty(String key, String value) { throw throwRequestModificationException(); } @Override public void addRequestProperty(String key, String value) { throw throwRequestModificationException(); } @Override public String getRequestProperty(String key) { return request.header(key); } @Override public Map> getRequestProperties() { // The RI and OkHttp's HttpURLConnectionImpl fail this call after connect() as required by the // spec. There seems no good reason why this should fail while getRequestProperty() is ok. // We don't fail here, because we need all request header values for caching Vary responses // correctly. return JavaNetHeaders.toMultimap(request.headers(), null); } @Override public void setFixedLengthStreamingMode(int contentLength) { throw throwRequestModificationException(); } @Override public void setFixedLengthStreamingMode(long contentLength) { throw throwRequestModificationException(); } @Override public void setChunkedStreamingMode(int chunklen) { throw throwRequestModificationException(); } @Override public void setInstanceFollowRedirects(boolean followRedirects) { throw throwRequestModificationException(); } @Override public boolean getInstanceFollowRedirects() { // Return the platform default. return super.getInstanceFollowRedirects(); } @Override public void setRequestMethod(String method) throws ProtocolException { throw throwRequestModificationException(); } @Override public String getRequestMethod() { return request.method(); } // HTTP Response methods @Override public String getHeaderFieldKey(int position) { // Deal with index 0 meaning "status line" if (position < 0) { throw new IllegalArgumentException("Invalid header index: " + position); } if (position == 0 || position > response.headers().size()) { return null; } return response.headers().name(position - 1); } @Override public String getHeaderField(int position) { // Deal with index 0 meaning "status line" if (position < 0) { throw new IllegalArgumentException("Invalid header index: " + position); } if (position == 0) { return StatusLine.get(response).toString(); } if (position > response.headers().size()) { return null; } return response.headers().value(position - 1); } @Override public String getHeaderField(String fieldName) { return fieldName == null ? StatusLine.get(response).toString() : response.headers().get(fieldName); } @Override public Map> getHeaderFields() { return JavaNetHeaders.toMultimap(response.headers(), StatusLine.get(response).toString()); } @Override public int getResponseCode() throws IOException { return response.code(); } @Override public String getResponseMessage() throws IOException { return response.message(); } @Override public InputStream getErrorStream() { return null; } // HTTP miscellaneous methods @Override public boolean usingProxy() { // It's safe to return false here, even if a proxy is in use. The problem is we don't // necessarily know if we're going to use a proxy by the time we ask the cache for a response. return false; } // URLConnection methods @Override public void setConnectTimeout(int timeout) { throw throwRequestModificationException(); } @Override public int getConnectTimeout() { // Impossible to say. return 0; } @Override public void setReadTimeout(int timeout) { throw throwRequestModificationException(); } @Override public int getReadTimeout() { // Impossible to say. return 0; } @Override public Object getContent() throws IOException { throw throwResponseBodyAccessException(); } @Override public Object getContent(Class[] classes) throws IOException { throw throwResponseBodyAccessException(); } @Override public InputStream getInputStream() throws IOException { return new InputStream() { @Override public int read() throws IOException { throw throwResponseBodyAccessException(); } }; } @Override public OutputStream getOutputStream() throws IOException { throw throwRequestModificationException(); } @Override public void setDoInput(boolean doInput) { throw throwRequestModificationException(); } @Override public boolean getDoInput() { return doInput; } @Override public void setDoOutput(boolean doOutput) { throw throwRequestModificationException(); } @Override public boolean getDoOutput() { return doOutput; } @Override public void setAllowUserInteraction(boolean allowUserInteraction) { throw throwRequestModificationException(); } @Override public boolean getAllowUserInteraction() { return false; } @Override public void setUseCaches(boolean useCaches) { throw throwRequestModificationException(); } @Override public boolean getUseCaches() { return super.getUseCaches(); } @Override public void setIfModifiedSince(long ifModifiedSince) { throw throwRequestModificationException(); } @Override public long getIfModifiedSince() { return stringToLong(request.headers().get("If-Modified-Since")); } @Override public boolean getDefaultUseCaches() { return super.getDefaultUseCaches(); } @Override public void setDefaultUseCaches(boolean defaultUseCaches) { super.setDefaultUseCaches(defaultUseCaches); } } /** An HttpsURLConnection to offer to the cache. */ private static final class CacheHttpsURLConnection extends DelegatingHttpsURLConnection { private final CacheHttpURLConnection delegate; CacheHttpsURLConnection(CacheHttpURLConnection delegate) { super(delegate); this.delegate = delegate; } @Override protected Handshake handshake() { return delegate.response.handshake(); } @Override public void setHostnameVerifier(HostnameVerifier hostnameVerifier) { throw throwRequestModificationException(); } @Override public HostnameVerifier getHostnameVerifier() { throw throwRequestSslAccessException(); } @Override public void setSSLSocketFactory(SSLSocketFactory socketFactory) { throw throwRequestModificationException(); } @Override public SSLSocketFactory getSSLSocketFactory() { throw throwRequestSslAccessException(); } } private static RuntimeException throwRequestModificationException() { throw new UnsupportedOperationException("ResponseCache cannot modify the request."); } private static RuntimeException throwRequestHeaderAccessException() { throw new UnsupportedOperationException("ResponseCache cannot access request headers"); } private static RuntimeException throwRequestSslAccessException() { throw new UnsupportedOperationException("ResponseCache cannot access SSL internals"); } private static RuntimeException throwResponseBodyAccessException() { throw new UnsupportedOperationException("ResponseCache cannot access the response body."); } private static List nullSafeImmutableList(T[] elements) { return elements == null ? Collections.emptyList() : Util.immutableList(elements); } private static long stringToLong(String s) { if (s == null) return -1; try { return Long.parseLong(s); } catch (NumberFormatException e) { return -1; } } }





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