okhttp3.internal.ws.WebSocketReader.kt Maven / Gradle / Ivy
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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.ws
import java.io.Closeable
import java.io.IOException
import java.net.ProtocolException
import java.util.concurrent.TimeUnit
import okhttp3.internal.and
import okhttp3.internal.toHexString
import okhttp3.internal.ws.WebSocketProtocol.B0_FLAG_FIN
import okhttp3.internal.ws.WebSocketProtocol.B0_FLAG_RSV1
import okhttp3.internal.ws.WebSocketProtocol.B0_FLAG_RSV2
import okhttp3.internal.ws.WebSocketProtocol.B0_FLAG_RSV3
import okhttp3.internal.ws.WebSocketProtocol.B0_MASK_OPCODE
import okhttp3.internal.ws.WebSocketProtocol.B1_FLAG_MASK
import okhttp3.internal.ws.WebSocketProtocol.B1_MASK_LENGTH
import okhttp3.internal.ws.WebSocketProtocol.CLOSE_NO_STATUS_CODE
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_BINARY
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_CONTINUATION
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_CONTROL_CLOSE
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_CONTROL_PING
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_CONTROL_PONG
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_FLAG_CONTROL
import okhttp3.internal.ws.WebSocketProtocol.OPCODE_TEXT
import okhttp3.internal.ws.WebSocketProtocol.PAYLOAD_BYTE_MAX
import okhttp3.internal.ws.WebSocketProtocol.PAYLOAD_LONG
import okhttp3.internal.ws.WebSocketProtocol.PAYLOAD_SHORT
import okhttp3.internal.ws.WebSocketProtocol.toggleMask
import okio.Buffer
import okio.BufferedSource
import okio.ByteString
/**
* An [RFC 6455][rfc_6455]-compatible WebSocket frame reader.
*
* This class is not thread safe.
*
* [rfc_6455]: http://tools.ietf.org/html/rfc6455
*/
class WebSocketReader(
private val isClient: Boolean,
val source: BufferedSource,
private val frameCallback: FrameCallback,
private val perMessageDeflate: Boolean,
private val noContextTakeover: Boolean
) : Closeable {
private var closed = false
// Stateful data about the current frame.
private var opcode = 0
private var frameLength = 0L
private var isFinalFrame = false
private var isControlFrame = false
private var readingCompressedMessage = false
private val controlFrameBuffer = Buffer()
private val messageFrameBuffer = Buffer()
/** Lazily initialized on first use. */
private var messageInflater: MessageInflater? = null
// Masks are only a concern for server writers.
private val maskKey: ByteArray? = if (isClient) null else ByteArray(4)
private val maskCursor: Buffer.UnsafeCursor? = if (isClient) null else Buffer.UnsafeCursor()
interface FrameCallback {
@Throws(IOException::class)
fun onReadMessage(text: String)
@Throws(IOException::class)
fun onReadMessage(bytes: ByteString)
fun onReadPing(payload: ByteString)
fun onReadPong(payload: ByteString)
fun onReadClose(code: Int, reason: String)
}
/**
* Process the next protocol frame.
*
* * If it is a control frame this will result in a single call to [FrameCallback].
* * If it is a message frame this will result in a single call to [FrameCallback.onReadMessage].
* If the message spans multiple frames, each interleaved control frame will result in a
* corresponding call to [FrameCallback].
*/
@Throws(IOException::class)
fun processNextFrame() {
readHeader()
if (isControlFrame) {
readControlFrame()
} else {
readMessageFrame()
}
}
@Throws(IOException::class, ProtocolException::class)
private fun readHeader() {
if (closed) throw IOException("closed")
// Disable the timeout to read the first byte of a new frame.
val b0: Int
val timeoutBefore = source.timeout().timeoutNanos()
source.timeout().clearTimeout()
try {
b0 = source.readByte() and 0xff
} finally {
source.timeout().timeout(timeoutBefore, TimeUnit.NANOSECONDS)
}
opcode = b0 and B0_MASK_OPCODE
isFinalFrame = b0 and B0_FLAG_FIN != 0
isControlFrame = b0 and OPCODE_FLAG_CONTROL != 0
// Control frames must be final frames (cannot contain continuations).
if (isControlFrame && !isFinalFrame) {
throw ProtocolException("Control frames must be final.")
}
val reservedFlag1 = b0 and B0_FLAG_RSV1 != 0
when (opcode) {
OPCODE_TEXT, OPCODE_BINARY -> {
readingCompressedMessage = if (reservedFlag1) {
if (!perMessageDeflate) throw ProtocolException("Unexpected rsv1 flag")
true
} else {
false
}
}
else -> {
if (reservedFlag1) throw ProtocolException("Unexpected rsv1 flag")
}
}
val reservedFlag2 = b0 and B0_FLAG_RSV2 != 0
if (reservedFlag2) throw ProtocolException("Unexpected rsv2 flag")
val reservedFlag3 = b0 and B0_FLAG_RSV3 != 0
if (reservedFlag3) throw ProtocolException("Unexpected rsv3 flag")
val b1 = source.readByte() and 0xff
val isMasked = b1 and B1_FLAG_MASK != 0
if (isMasked == isClient) {
// Masked payloads must be read on the server. Unmasked payloads must be read on the client.
throw ProtocolException(if (isClient) {
"Server-sent frames must not be masked."
} else {
"Client-sent frames must be masked."
})
}
// Get frame length, optionally reading from follow-up bytes if indicated by special values.
frameLength = (b1 and B1_MASK_LENGTH).toLong()
if (frameLength == PAYLOAD_SHORT.toLong()) {
frameLength = (source.readShort() and 0xffff).toLong() // Value is unsigned.
} else if (frameLength == PAYLOAD_LONG.toLong()) {
frameLength = source.readLong()
if (frameLength < 0L) {
throw ProtocolException(
"Frame length 0x${frameLength.toHexString()} > 0x7FFFFFFFFFFFFFFF")
}
}
if (isControlFrame && frameLength > PAYLOAD_BYTE_MAX) {
throw ProtocolException("Control frame must be less than ${PAYLOAD_BYTE_MAX}B.")
}
if (isMasked) {
// Read the masking key as bytes so that they can be used directly for unmasking.
source.readFully(maskKey!!)
}
}
@Throws(IOException::class)
private fun readControlFrame() {
if (frameLength > 0L) {
source.readFully(controlFrameBuffer, frameLength)
if (!isClient) {
controlFrameBuffer.readAndWriteUnsafe(maskCursor!!)
maskCursor.seek(0)
toggleMask(maskCursor, maskKey!!)
maskCursor.close()
}
}
when (opcode) {
OPCODE_CONTROL_PING -> {
frameCallback.onReadPing(controlFrameBuffer.readByteString())
}
OPCODE_CONTROL_PONG -> {
frameCallback.onReadPong(controlFrameBuffer.readByteString())
}
OPCODE_CONTROL_CLOSE -> {
var code = CLOSE_NO_STATUS_CODE
var reason = ""
val bufferSize = controlFrameBuffer.size
if (bufferSize == 1L) {
throw ProtocolException("Malformed close payload length of 1.")
} else if (bufferSize != 0L) {
code = controlFrameBuffer.readShort().toInt()
reason = controlFrameBuffer.readUtf8()
val codeExceptionMessage = WebSocketProtocol.closeCodeExceptionMessage(code)
if (codeExceptionMessage != null) throw ProtocolException(codeExceptionMessage)
}
frameCallback.onReadClose(code, reason)
closed = true
}
else -> {
throw ProtocolException("Unknown control opcode: " + opcode.toHexString())
}
}
}
@Throws(IOException::class)
private fun readMessageFrame() {
val opcode = this.opcode
if (opcode != OPCODE_TEXT && opcode != OPCODE_BINARY) {
throw ProtocolException("Unknown opcode: ${opcode.toHexString()}")
}
readMessage()
if (readingCompressedMessage) {
val messageInflater = this.messageInflater
?: MessageInflater(noContextTakeover).also { this.messageInflater = it }
messageInflater.inflate(messageFrameBuffer)
}
if (opcode == OPCODE_TEXT) {
frameCallback.onReadMessage(messageFrameBuffer.readUtf8())
} else {
frameCallback.onReadMessage(messageFrameBuffer.readByteString())
}
}
/** Read headers and process any control frames until we reach a non-control frame. */
@Throws(IOException::class)
private fun readUntilNonControlFrame() {
while (!closed) {
readHeader()
if (!isControlFrame) {
break
}
readControlFrame()
}
}
/**
* Reads a message body into across one or more frames. Control frames that occur between
* fragments will be processed. If the message payload is masked this will unmask as it's being
* processed.
*/
@Throws(IOException::class)
private fun readMessage() {
while (true) {
if (closed) throw IOException("closed")
if (frameLength > 0L) {
source.readFully(messageFrameBuffer, frameLength)
if (!isClient) {
messageFrameBuffer.readAndWriteUnsafe(maskCursor!!)
maskCursor.seek(messageFrameBuffer.size - frameLength)
toggleMask(maskCursor, maskKey!!)
maskCursor.close()
}
}
if (isFinalFrame) break // We are exhausted and have no continuations.
readUntilNonControlFrame()
if (opcode != OPCODE_CONTINUATION) {
throw ProtocolException("Expected continuation opcode. Got: ${opcode.toHexString()}")
}
}
}
@Throws(IOException::class)
override fun close() {
messageInflater?.close()
}
}