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/*
* Copyright (C) 2013 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.cache
import java.net.HttpURLConnection.HTTP_BAD_METHOD
import java.net.HttpURLConnection.HTTP_NOT_AUTHORITATIVE
import java.net.HttpURLConnection.HTTP_REQ_TOO_LONG
import java.util.Date
import java.util.concurrent.TimeUnit.SECONDS
import okhttp3.Request
import okhttp3.Response
import okhttp3.internal.http.HTTP_GONE
import okhttp3.internal.http.HTTP_MOVED_PERM
import okhttp3.internal.http.HTTP_MOVED_TEMP
import okhttp3.internal.http.HTTP_MULT_CHOICE
import okhttp3.internal.http.HTTP_NOT_FOUND
import okhttp3.internal.http.HTTP_NOT_IMPLEMENTED
import okhttp3.internal.http.HTTP_NO_CONTENT
import okhttp3.internal.http.HTTP_OK
import okhttp3.internal.http.HTTP_PERM_REDIRECT
import okhttp3.internal.http.HTTP_TEMP_REDIRECT
import okhttp3.internal.http.toHttpDateOrNull
import okhttp3.internal.toNonNegativeInt
/**
* Given a request and cached response, this figures out whether to use the network, the cache, or
* both.
*
* 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).
*/
class CacheStrategy internal constructor(
/** The request to send on the network, or null if this call doesn't use the network. */
val networkRequest: Request?,
/** The cached response to return or validate; or null if this call doesn't use a cache. */
val cacheResponse: Response?
) {
class Factory(
private val nowMillis: Long,
internal val request: Request,
private val cacheResponse: Response?
) {
/** The server's time when the cached response was served, if known. */
private var servedDate: Date? = null
private var servedDateString: String? = null
/** The last modified date of the cached response, if known. */
private var lastModified: Date? = null
private var lastModifiedString: String? = null
/**
* 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 var expires: Date? = null
/**
* Extension header set by OkHttp specifying the timestamp when the cached HTTP request was
* first initiated.
*/
private var sentRequestMillis = 0L
/**
* Extension header set by OkHttp specifying the timestamp when the cached HTTP response was
* first received.
*/
private var receivedResponseMillis = 0L
/** Etag of the cached response. */
private var etag: String? = null
/** Age of the cached response. */
private var ageSeconds = -1
/**
* 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 fun isFreshnessLifetimeHeuristic(): Boolean {
return cacheResponse!!.cacheControl.maxAgeSeconds == -1 && expires == null
}
init {
if (cacheResponse != null) {
this.sentRequestMillis = cacheResponse.sentRequestAtMillis
this.receivedResponseMillis = cacheResponse.receivedResponseAtMillis
val headers = cacheResponse.headers
for (i in 0 until headers.size) {
val fieldName = headers.name(i)
val value = headers.value(i)
when {
fieldName.equals("Date", ignoreCase = true) -> {
servedDate = value.toHttpDateOrNull()
servedDateString = value
}
fieldName.equals("Expires", ignoreCase = true) -> {
expires = value.toHttpDateOrNull()
}
fieldName.equals("Last-Modified", ignoreCase = true) -> {
lastModified = value.toHttpDateOrNull()
lastModifiedString = value
}
fieldName.equals("ETag", ignoreCase = true) -> {
etag = value
}
fieldName.equals("Age", ignoreCase = true) -> {
ageSeconds = value.toNonNegativeInt(-1)
}
}
}
}
}
/** Returns a strategy to satisfy [request] using [cacheResponse]. */
fun compute(): CacheStrategy {
val candidate = computeCandidate()
// We're forbidden from using the network and the cache is insufficient.
if (candidate.networkRequest != null && request.cacheControl.onlyIfCached) {
return CacheStrategy(null, null)
}
return candidate
}
/** Returns a strategy to use assuming the request can use the network. */
private fun computeCandidate(): CacheStrategy {
// No cached response.
if (cacheResponse == null) {
return CacheStrategy(request, null)
}
// Drop the cached response if it's missing a required handshake.
if (request.isHttps && cacheResponse.handshake == null) {
return 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 CacheStrategy(request, null)
}
val requestCaching = request.cacheControl
if (requestCaching.noCache || hasConditions(request)) {
return CacheStrategy(request, null)
}
val responseCaching = cacheResponse.cacheControl
val ageMillis = cacheResponseAge()
var freshMillis = computeFreshnessLifetime()
if (requestCaching.maxAgeSeconds != -1) {
freshMillis = minOf(freshMillis, SECONDS.toMillis(requestCaching.maxAgeSeconds.toLong()))
}
var minFreshMillis: Long = 0
if (requestCaching.minFreshSeconds != -1) {
minFreshMillis = SECONDS.toMillis(requestCaching.minFreshSeconds.toLong())
}
var maxStaleMillis: Long = 0
if (!responseCaching.mustRevalidate && requestCaching.maxStaleSeconds != -1) {
maxStaleMillis = SECONDS.toMillis(requestCaching.maxStaleSeconds.toLong())
}
if (!responseCaching.noCache && ageMillis + minFreshMillis < freshMillis + maxStaleMillis) {
val builder = cacheResponse.newBuilder()
if (ageMillis + minFreshMillis >= freshMillis) {
builder.addHeader("Warning", "110 HttpURLConnection \"Response is stale\"")
}
val oneDayMillis = 24 * 60 * 60 * 1000L
if (ageMillis > oneDayMillis && isFreshnessLifetimeHeuristic()) {
builder.addHeader("Warning", "113 HttpURLConnection \"Heuristic expiration\"")
}
return CacheStrategy(null, builder.build())
}
// Find a condition to add to the request. If the condition is satisfied, the response body
// will not be transmitted.
val conditionName: String
val conditionValue: String?
when {
etag != null -> {
conditionName = "If-None-Match"
conditionValue = etag
}
lastModified != null -> {
conditionName = "If-Modified-Since"
conditionValue = lastModifiedString
}
servedDate != null -> {
conditionName = "If-Modified-Since"
conditionValue = servedDateString
}
else -> return CacheStrategy(request, null) // No condition! Make a regular request.
}
val conditionalRequestHeaders = request.headers.newBuilder()
conditionalRequestHeaders.addLenient(conditionName, conditionValue!!)
val conditionalRequest = request.newBuilder()
.headers(conditionalRequestHeaders.build())
.build()
return CacheStrategy(conditionalRequest, cacheResponse)
}
/**
* Returns the number of milliseconds that the response was fresh for, starting from the served
* date.
*/
private fun computeFreshnessLifetime(): Long {
val responseCaching = cacheResponse!!.cacheControl
if (responseCaching.maxAgeSeconds != -1) {
return SECONDS.toMillis(responseCaching.maxAgeSeconds.toLong())
}
val expires = this.expires
if (expires != null) {
val servedMillis = servedDate?.time ?: receivedResponseMillis
val delta = expires.time - servedMillis
return if (delta > 0L) delta else 0L
}
if (lastModified != null && cacheResponse.request.url.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.
val servedMillis = servedDate?.time ?: sentRequestMillis
val delta = servedMillis - lastModified!!.time
return if (delta > 0L) delta / 10 else 0L
}
return 0L
}
/**
* Returns the current age of the response, in milliseconds. The calculation is specified by RFC
* 7234, 4.2.3 Calculating Age.
*/
private fun cacheResponseAge(): Long {
val servedDate = this.servedDate
val apparentReceivedAge = if (servedDate != null) {
maxOf(0, receivedResponseMillis - servedDate.time)
} else {
0
}
val receivedAge = if (ageSeconds != -1) {
maxOf(apparentReceivedAge, SECONDS.toMillis(ageSeconds.toLong()))
} else {
apparentReceivedAge
}
val responseDuration = receivedResponseMillis - sentRequestMillis
val residentDuration = nowMillis - receivedResponseMillis
return receivedAge + responseDuration + residentDuration
}
/**
* 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 fun hasConditions(request: Request): Boolean =
request.header("If-Modified-Since") != null || request.header("If-None-Match") != null
}
companion object {
/** Returns true if [response] can be stored to later serve another request. */
fun isCacheable(response: Response, request: Request): Boolean {
// Always go to network for uncacheable response codes (RFC 7231 section 6.1), This
// implementation doesn't support caching partial content.
when (response.code) {
HTTP_OK,
HTTP_NOT_AUTHORITATIVE,
HTTP_NO_CONTENT,
HTTP_MULT_CHOICE,
HTTP_MOVED_PERM,
HTTP_NOT_FOUND,
HTTP_BAD_METHOD,
HTTP_GONE,
HTTP_REQ_TOO_LONG,
HTTP_NOT_IMPLEMENTED,
HTTP_PERM_REDIRECT -> {
// These codes can be cached unless headers forbid it.
}
HTTP_MOVED_TEMP,
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) {
return false
}
}
else -> {
// 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
}
}
}