private void parseCache(Request request, T object, String string, String mimeType)
     throws UnsupportedEncodingException {
   com.squareup.okhttp.CacheControl cacheControl = request.cacheControl();
   if (cacheControl != null) {
     if (!cacheControl.noCache() && !cacheControl.noStore()) {
       if (object instanceof EAResult) {
         EAResult kResult = (EAResult) object;
         if (kResult != null && kResult.isSuccess()) {
           long now = System.currentTimeMillis();
           long maxAge = cacheControl.maxAgeSeconds();
           long softExpire = now + maxAge * 1000;
           System.out.println("缓存时长:" + (softExpire - now) / 1000 + "秒");
           Cache.Entry entry = new Cache.Entry();
           entry.softTtl = softExpire;
           entry.ttl = entry.softTtl;
           // entry.serverDate = serverDate;
           // entry.responseHeaders = headers;
           entry.mimeType = mimeType;
           System.out.println("request.cacheControl()==" + request.cacheControl());
           entry.data = string.getBytes(UTF8);
           cache.put(request.urlString(), entry);
         }
       }
     }
   }
 }
Beispiel #2
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    /**
     * Returns a strategy to satisfy {@code request} using the a cached response {@code response}.
     */
    public CacheStrategy get() {
      CacheStrategy candidate = getCandidate();

      if (candidate.networkRequest != null && request.cacheControl().onlyIfCached()) {
        // We're forbidden from using the network and the cache is insufficient.
        return new CacheStrategy(null, null);
      }

      return candidate;
    }
Beispiel #3
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  /** Returns true if {@code response} can be stored to later serve another request. */
  public static boolean isCacheable(Response response, Request request) {
    // Always go to network for uncacheable response codes (RFC 7231 section 6.1),
    // This implementation doesn't support caching partial content.
    switch (response.code()) {
      case HTTP_OK:
      case HTTP_NOT_AUTHORITATIVE:
      case HTTP_NO_CONTENT:
      case HTTP_MULT_CHOICE:
      case HTTP_MOVED_PERM:
      case HTTP_NOT_FOUND:
      case HTTP_BAD_METHOD:
      case HTTP_GONE:
      case HTTP_REQ_TOO_LONG:
      case HTTP_NOT_IMPLEMENTED:
      case HTTP_PERM_REDIRECT:
        // These codes can be cached unless headers forbid it.
        break;

      case HTTP_MOVED_TEMP:
      case HTTP_TEMP_REDIRECT:
        // These codes can only be cached with the right response headers.
        // http://tools.ietf.org/html/rfc7234#section-3
        // s-maxage is not checked because OkHttp is a private cache that should ignore s-maxage.
        if (response.header("Expires") != null
            || response.cacheControl().maxAgeSeconds() != -1
            || response.cacheControl().isPublic()
            || response.cacheControl().isPrivate()) {
          break;
        }
        // Fall-through.

      default:
        // All other codes cannot be cached.
        return false;
    }

    // A 'no-store' directive on request or response prevents the response from being cached.
    return !response.cacheControl().noStore() && !request.cacheControl().noStore();
  }
Beispiel #4
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    /** Returns a strategy to use assuming the request can use the network. */
    private CacheStrategy getCandidate() {
      // No cached response.
      if (cacheResponse == null) {
        return new CacheStrategy(request, null);
      }

      // Drop the cached response if it's missing a required handshake.
      if (request.isHttps() && cacheResponse.handshake() == null) {
        return new CacheStrategy(request, null);
      }

      // If this response shouldn't have been stored, it should never be used
      // as a response source. This check should be redundant as long as the
      // persistence store is well-behaved and the rules are constant.
      if (!isCacheable(cacheResponse, request)) {
        return new CacheStrategy(request, null);
      }

      CacheControl requestCaching = request.cacheControl();
      if (requestCaching.noCache() || hasConditions(request)) {
        return new CacheStrategy(request, null);
      }

      long ageMillis = cacheResponseAge();
      long freshMillis = computeFreshnessLifetime();

      if (requestCaching.maxAgeSeconds() != -1) {
        freshMillis = Math.min(freshMillis, SECONDS.toMillis(requestCaching.maxAgeSeconds()));
      }

      long minFreshMillis = 0;
      if (requestCaching.minFreshSeconds() != -1) {
        minFreshMillis = SECONDS.toMillis(requestCaching.minFreshSeconds());
      }

      long maxStaleMillis = 0;
      CacheControl responseCaching = cacheResponse.cacheControl();
      if (!responseCaching.mustRevalidate() && requestCaching.maxStaleSeconds() != -1) {
        maxStaleMillis = SECONDS.toMillis(requestCaching.maxStaleSeconds());
      }

      if (!responseCaching.noCache() && ageMillis + minFreshMillis < freshMillis + maxStaleMillis) {
        Response.Builder builder = cacheResponse.newBuilder();
        if (ageMillis + minFreshMillis >= freshMillis) {
          builder.addHeader("Warning", "110 HttpURLConnection \"Response is stale\"");
        }
        long oneDayMillis = 24 * 60 * 60 * 1000L;
        if (ageMillis > oneDayMillis && isFreshnessLifetimeHeuristic()) {
          builder.addHeader("Warning", "113 HttpURLConnection \"Heuristic expiration\"");
        }
        return new CacheStrategy(null, builder.build());
      }

      Request.Builder conditionalRequestBuilder = request.newBuilder();

      if (etag != null) {
        conditionalRequestBuilder.header("If-None-Match", etag);
      } else if (lastModified != null) {
        conditionalRequestBuilder.header("If-Modified-Since", lastModifiedString);
      } else if (servedDate != null) {
        conditionalRequestBuilder.header("If-Modified-Since", servedDateString);
      }

      Request conditionalRequest = conditionalRequestBuilder.build();
      return hasConditions(conditionalRequest)
          ? new CacheStrategy(conditionalRequest, cacheResponse)
          : new CacheStrategy(conditionalRequest, null);
    }