okhttp3.internal.http.CallServerInterceptor.kt Maven / Gradle / Ivy
/*
* Copyright (C) 2016 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.http
import java.io.IOException
import java.net.ProtocolException
import okhttp3.Interceptor
import okhttp3.Response
import okhttp3.internal.EMPTY_RESPONSE
import okhttp3.internal.http2.ConnectionShutdownException
import okio.buffer
/** This is the last interceptor in the chain. It makes a network call to the server. */
class CallServerInterceptor(private val forWebSocket: Boolean) : Interceptor {
@Throws(IOException::class)
override fun intercept(chain: Interceptor.Chain): Response {
val realChain = chain as RealInterceptorChain
val exchange = realChain.exchange!!
val request = realChain.request
val requestBody = request.body
val sentRequestMillis = System.currentTimeMillis()
var invokeStartEvent = true
var responseBuilder: Response.Builder? = null
var sendRequestException: IOException? = null
try {
exchange.writeRequestHeaders(request)
if (HttpMethod.permitsRequestBody(request.method) && requestBody != null) {
// If there's a "Expect: 100-continue" header on the request, wait for a "HTTP/1.1 100
// Continue" response before transmitting the request body. If we don't get that, return
// what we did get (such as a 4xx response) without ever transmitting the request body.
if ("100-continue".equals(request.header("Expect"), ignoreCase = true)) {
exchange.flushRequest()
responseBuilder = exchange.readResponseHeaders(expectContinue = true)
exchange.responseHeadersStart()
invokeStartEvent = false
}
if (responseBuilder == null) {
if (requestBody.isDuplex()) {
// Prepare a duplex body so that the application can send a request body later.
exchange.flushRequest()
val bufferedRequestBody = exchange.createRequestBody(request, true).buffer()
requestBody.writeTo(bufferedRequestBody)
} else {
// Write the request body if the "Expect: 100-continue" expectation was met.
val bufferedRequestBody = exchange.createRequestBody(request, false).buffer()
requestBody.writeTo(bufferedRequestBody)
bufferedRequestBody.close()
}
} else {
exchange.noRequestBody()
if (!exchange.connection.isMultiplexed) {
// If the "Expect: 100-continue" expectation wasn't met, prevent the HTTP/1 connection
// from being reused. Otherwise we're still obligated to transmit the request body to
// leave the connection in a consistent state.
exchange.noNewExchangesOnConnection()
}
}
} else {
exchange.noRequestBody()
}
if (requestBody == null || !requestBody.isDuplex()) {
exchange.finishRequest()
}
} catch (e: IOException) {
if (e is ConnectionShutdownException) {
throw e // No request was sent so there's no response to read.
}
if (!exchange.hasFailure) {
throw e // Don't attempt to read the response; we failed to send the request.
}
sendRequestException = e
}
try {
if (responseBuilder == null) {
responseBuilder = exchange.readResponseHeaders(expectContinue = false)!!
if (invokeStartEvent) {
exchange.responseHeadersStart()
invokeStartEvent = false
}
}
var response = responseBuilder
.request(request)
.handshake(exchange.connection.handshake())
.sentRequestAtMillis(sentRequestMillis)
.receivedResponseAtMillis(System.currentTimeMillis())
.build()
var code = response.code
if (shouldIgnoreAndWaitForRealResponse(code)) {
responseBuilder = exchange.readResponseHeaders(expectContinue = false)!!
if (invokeStartEvent) {
exchange.responseHeadersStart()
}
response = responseBuilder
.request(request)
.handshake(exchange.connection.handshake())
.sentRequestAtMillis(sentRequestMillis)
.receivedResponseAtMillis(System.currentTimeMillis())
.build()
code = response.code
}
exchange.responseHeadersEnd(response)
response = if (forWebSocket && code == 101) {
// Connection is upgrading, but we need to ensure interceptors see a non-null response body.
response.newBuilder()
.body(EMPTY_RESPONSE)
.build()
} else {
response.newBuilder()
.body(exchange.openResponseBody(response))
.build()
}
if ("close".equals(response.request.header("Connection"), ignoreCase = true) ||
"close".equals(response.header("Connection"), ignoreCase = true)) {
exchange.noNewExchangesOnConnection()
}
if ((code == 204 || code == 205) && response.body?.contentLength() ?: -1L > 0L) {
throw ProtocolException(
"HTTP $code had non-zero Content-Length: ${response.body?.contentLength()}")
}
return response
} catch (e: IOException) {
if (sendRequestException != null) {
sendRequestException.addSuppressed(e)
throw sendRequestException
}
throw e
}
}
private fun shouldIgnoreAndWaitForRealResponse(code: Int): Boolean = when {
// Server sent a 100-continue even though we did not request one. Try again to read the
// actual response status.
code == 100 -> true
// Handle Processing (102) & Early Hints (103) and any new codes without failing
// 100 and 101 are the exceptions with different meanings
// But Early Hints not currently exposed
code in (102 until 200) -> true
else -> false
}
}