/* GENERATED SOURCE. DO NOT MODIFY. */
package com.android.okhttp.internal.http;

import com.android.okhttp.CacheControl;
import com.android.okhttp.Headers;
import com.android.okhttp.Request;
import com.android.okhttp.Response;
import java.util.Date;

import static com.android.okhttp.internal.http.StatusLine.HTTP_PERM_REDIRECT;
import static com.android.okhttp.internal.http.StatusLine.HTTP_TEMP_REDIRECT;
import static java.net.HttpURLConnection.HTTP_BAD_METHOD;
import static java.net.HttpURLConnection.HTTP_GONE;
import static java.net.HttpURLConnection.HTTP_MOVED_PERM;
import static java.net.HttpURLConnection.HTTP_MOVED_TEMP;
import static java.net.HttpURLConnection.HTTP_MULT_CHOICE;
import static java.net.HttpURLConnection.HTTP_NOT_AUTHORITATIVE;
import static java.net.HttpURLConnection.HTTP_NOT_FOUND;
import static java.net.HttpURLConnection.HTTP_NOT_IMPLEMENTED;
import static java.net.HttpURLConnection.HTTP_NO_CONTENT;
import static java.net.HttpURLConnection.HTTP_OK;
import static java.net.HttpURLConnection.HTTP_REQ_TOO_LONG;
import static java.util.concurrent.TimeUnit.SECONDS;

/**
 * Given a request and cached response, this figures out whether to use the
 * network, the cache, or both.
 *
 * <p>Selecting a cache strategy may add conditions to the request (like the
 * "If-Modified-Since" header for conditional GETs) or warnings to the cached
 * response (if the cached data is potentially stale).
 * @hide This class is not part of the Android public SDK API
 */
public final class CacheStrategy {
  /** The request to send on the network, or null if this call doesn't use the network. */
  public final Request networkRequest;

  /** The cached response to return or validate; or null if this call doesn't use a cache. */
  public final Response cacheResponse;

  private CacheStrategy(Request networkRequest, Response cacheResponse) {
    this.networkRequest = networkRequest;
    this.cacheResponse = cacheResponse;
  }

  /**
   * 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();
  }

  /**
   * @hide This class is not part of the Android public SDK API
   */
  public static class Factory {
    final long nowMillis;
    final Request request;
    final Response cacheResponse;

    /** The server's time when the cached response was served, if known. */
    private Date servedDate;
    private String servedDateString;

    /** The last modified date of the cached response, if known. */
    private Date lastModified;
    private String lastModifiedString;

    /**
     * The expiration date of the cached response, if known. If both this field
     * and the max age are set, the max age is preferred.
     */
    private Date expires;

    /**
     * Extension header set by OkHttp specifying the timestamp when the cached
     * HTTP request was first initiated.
     */
    private long sentRequestMillis;

    /**
     * Extension header set by OkHttp specifying the timestamp when the cached
     * HTTP response was first received.
     */
    private long receivedResponseMillis;

    /** Etag of the cached response. */
    private String etag;

    /** Age of the cached response. */
    private int ageSeconds = -1;

    public Factory(long nowMillis, Request request, Response cacheResponse) {
      this.nowMillis = nowMillis;
      this.request = request;
      this.cacheResponse = cacheResponse;

      if (cacheResponse != null) {
        Headers headers = cacheResponse.headers();
        for (int i = 0, size = headers.size(); i < size; i++) {
          String fieldName = headers.name(i);
          String value = headers.value(i);
          if ("Date".equalsIgnoreCase(fieldName)) {
            servedDate = HttpDate.parse(value);
            servedDateString = value;
          } else if ("Expires".equalsIgnoreCase(fieldName)) {
            expires = HttpDate.parse(value);
          } else if ("Last-Modified".equalsIgnoreCase(fieldName)) {
            lastModified = HttpDate.parse(value);
            lastModifiedString = value;
          } else if ("ETag".equalsIgnoreCase(fieldName)) {
            etag = value;
          } else if ("Age".equalsIgnoreCase(fieldName)) {
            ageSeconds = HeaderParser.parseSeconds(value, -1);
          } else if (OkHeaders.SENT_MILLIS.equalsIgnoreCase(fieldName)) {
            sentRequestMillis = Long.parseLong(value);
          } else if (OkHeaders.RECEIVED_MILLIS.equalsIgnoreCase(fieldName)) {
            receivedResponseMillis = Long.parseLong(value);
          }
        }
      }
    }

    /**
     * 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;
    }

    /** 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);
    }

    /**
     * Returns the number of milliseconds that the response was fresh for,
     * starting from the served date.
     */
    private long computeFreshnessLifetime() {
      CacheControl responseCaching = cacheResponse.cacheControl();
      if (responseCaching.maxAgeSeconds() != -1) {
        return SECONDS.toMillis(responseCaching.maxAgeSeconds());
      } else if (expires != null) {
        long servedMillis = servedDate != null
            ? servedDate.getTime()
            : receivedResponseMillis;
        long delta = expires.getTime() - servedMillis;
        return delta > 0 ? delta : 0;
      } else if (lastModified != null
          && cacheResponse.request().httpUrl().query() == null) {
        // As recommended by the HTTP RFC and implemented in Firefox, the
        // max age of a document should be defaulted to 10% of the
        // document's age at the time it was served. Default expiration
        // dates aren't used for URIs containing a query.
        long servedMillis = servedDate != null
            ? servedDate.getTime()
            : sentRequestMillis;
        long delta = servedMillis - lastModified.getTime();
        return delta > 0 ? (delta / 10) : 0;
      }
      return 0;
    }

    /**
     * Returns the current age of the response, in milliseconds. The calculation
     * is specified by RFC 2616, 13.2.3 Age Calculations.
     */
    private long cacheResponseAge() {
      long apparentReceivedAge = servedDate != null
          ? Math.max(0, receivedResponseMillis - servedDate.getTime())
          : 0;
      long receivedAge = ageSeconds != -1
          ? Math.max(apparentReceivedAge, SECONDS.toMillis(ageSeconds))
          : apparentReceivedAge;
      long responseDuration = receivedResponseMillis - sentRequestMillis;
      long residentDuration = nowMillis - receivedResponseMillis;
      return receivedAge + responseDuration + residentDuration;
    }

    /**
     * Returns true if computeFreshnessLifetime used a heuristic. If we used a
     * heuristic to serve a cached response older than 24 hours, we are required
     * to attach a warning.
     */
    private boolean isFreshnessLifetimeHeuristic() {
      return cacheResponse.cacheControl().maxAgeSeconds() == -1 && expires == null;
    }

    /**
     * Returns true if the request contains conditions that save the server from
     * sending a response that the client has locally. When a request is enqueued
     * with its own conditions, the built-in response cache won't be used.
     */
    private static boolean hasConditions(Request request) {
      return request.header("If-Modified-Since") != null || request.header("If-None-Match") != null;
    }
  }
}
