8202423: Small HTTP Client refresh
Reviewed-by: chegar, dfuchs, michaelm, prappo
Contributed-by: Chris Hegarty <chris.hegarty@oracle.com>, Daniel Fuchs <daniel.fuchs@oracle.com>, Michael McMahon <michael.x.mcmahon@oracle.com>, Pavel Rappo <pavel.rappo@oracle.com>
/*
* Copyright (c) 2015, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package jdk.internal.net.http.websocket;
import java.nio.ByteBuffer;
import static jdk.internal.net.http.common.Utils.dump;
import static jdk.internal.net.http.websocket.Frame.Opcode.ofCode;
/*
* A collection of utilities for reading, writing, and masking frames.
*/
final class Frame {
private Frame() { }
static final int MAX_HEADER_SIZE_BYTES = 2 + 8 + 4;
static final int MAX_CONTROL_FRAME_PAYLOAD_LENGTH = 125;
enum Opcode {
CONTINUATION (0x0),
TEXT (0x1),
BINARY (0x2),
NON_CONTROL_0x3(0x3),
NON_CONTROL_0x4(0x4),
NON_CONTROL_0x5(0x5),
NON_CONTROL_0x6(0x6),
NON_CONTROL_0x7(0x7),
CLOSE (0x8),
PING (0x9),
PONG (0xA),
CONTROL_0xB (0xB),
CONTROL_0xC (0xC),
CONTROL_0xD (0xD),
CONTROL_0xE (0xE),
CONTROL_0xF (0xF);
private static final Opcode[] opcodes;
static {
Opcode[] values = values();
opcodes = new Opcode[values.length];
for (Opcode c : values) {
opcodes[c.code] = c;
}
}
private final byte code;
Opcode(int code) {
this.code = (byte) code;
}
boolean isControl() {
return (code & 0x8) != 0;
}
static Opcode ofCode(int code) {
return opcodes[code & 0xF];
}
}
/*
* A utility for masking frame payload data.
*/
static final class Masker {
// Exploiting ByteBuffer's ability to read/write multi-byte integers
private final ByteBuffer acc = ByteBuffer.allocate(8);
private final int[] maskBytes = new int[4];
private int offset;
private long maskLong;
/*
* Reads all remaining bytes from the given input buffer, masks them
* with the supplied mask and writes the resulting bytes to the given
* output buffer.
*
* The source and the destination buffers may be the same instance.
*/
static void transferMasking(ByteBuffer src, ByteBuffer dst, int mask) {
if (src.remaining() > dst.remaining()) {
throw new IllegalArgumentException(dump(src, dst));
}
new Masker().mask(mask).transferMasking(src, dst);
}
/*
* Clears this instance's state and sets the mask.
*
* The behaviour is as if the mask was set on a newly created instance.
*/
Masker mask(int value) {
acc.clear().putInt(value).putInt(value).flip();
for (int i = 0; i < maskBytes.length; i++) {
maskBytes[i] = acc.get(i);
}
offset = 0;
maskLong = acc.getLong(0);
return this;
}
/*
* Reads as many remaining bytes as possible from the given input
* buffer, masks them with the previously set mask and writes the
* resulting bytes to the given output buffer.
*
* The source and the destination buffers may be the same instance. If
* the mask hasn't been previously set it is assumed to be 0.
*/
Masker transferMasking(ByteBuffer src, ByteBuffer dst) {
begin(src, dst);
loop(src, dst);
end(src, dst);
return this;
}
/*
* Applies up to 3 remaining from the previous pass bytes of the mask.
*/
private void begin(ByteBuffer src, ByteBuffer dst) {
if (offset == 0) { // No partially applied mask from the previous invocation
return;
}
int i = src.position(), j = dst.position();
final int srcLim = src.limit(), dstLim = dst.limit();
for (; offset < 4 && i < srcLim && j < dstLim; i++, j++, offset++)
{
dst.put(j, (byte) (src.get(i) ^ maskBytes[offset]));
}
offset &= 3; // Will become 0 if the mask has been fully applied
src.position(i);
dst.position(j);
}
/*
* Gallops one long (mask + mask) at a time.
*/
private void loop(ByteBuffer src, ByteBuffer dst) {
int i = src.position();
int j = dst.position();
final int srcLongLim = src.limit() - 7, dstLongLim = dst.limit() - 7;
for (; i < srcLongLim && j < dstLongLim; i += 8, j += 8) {
dst.putLong(j, src.getLong(i) ^ maskLong);
}
if (i > src.limit()) {
src.position(i - 8);
} else {
src.position(i);
}
if (j > dst.limit()) {
dst.position(j - 8);
} else {
dst.position(j);
}
}
/*
* Applies up to 7 remaining from the "galloping" phase bytes of the
* mask.
*/
private void end(ByteBuffer src, ByteBuffer dst) {
assert Math.min(src.remaining(), dst.remaining()) < 8;
final int srcLim = src.limit(), dstLim = dst.limit();
int i = src.position(), j = dst.position();
for (; i < srcLim && j < dstLim;
i++, j++, offset = (offset + 1) & 3) // offset cycles through 0..3
{
dst.put(j, (byte) (src.get(i) ^ maskBytes[offset]));
}
src.position(i);
dst.position(j);
}
}
/*
* A builder-style writer of frame headers.
*
* The writer does not enforce any protocol-level rules, it simply writes a
* header structure to the given buffer. The order of calls to intermediate
* methods is NOT significant.
*/
static final class HeaderWriter {
private char firstChar;
private long payloadLen;
private int maskingKey;
private boolean mask;
HeaderWriter fin(boolean value) {
if (value) {
firstChar |= 0b10000000_00000000;
} else {
firstChar &= ~0b10000000_00000000;
}
return this;
}
HeaderWriter rsv1(boolean value) {
if (value) {
firstChar |= 0b01000000_00000000;
} else {
firstChar &= ~0b01000000_00000000;
}
return this;
}
HeaderWriter rsv2(boolean value) {
if (value) {
firstChar |= 0b00100000_00000000;
} else {
firstChar &= ~0b00100000_00000000;
}
return this;
}
HeaderWriter rsv3(boolean value) {
if (value) {
firstChar |= 0b00010000_00000000;
} else {
firstChar &= ~0b00010000_00000000;
}
return this;
}
HeaderWriter opcode(Opcode value) {
firstChar = (char) ((firstChar & 0xF0FF) | (value.code << 8));
return this;
}
HeaderWriter payloadLen(long value) {
if (value < 0) {
throw new IllegalArgumentException("Negative: " + value);
}
payloadLen = value;
firstChar &= 0b11111111_10000000; // Clear previous payload length leftovers
if (payloadLen < 126) {
firstChar |= payloadLen;
} else if (payloadLen < 65536) {
firstChar |= 126;
} else {
firstChar |= 127;
}
return this;
}
HeaderWriter mask(int value) {
firstChar |= 0b00000000_10000000;
maskingKey = value;
mask = true;
return this;
}
HeaderWriter noMask() {
firstChar &= ~0b00000000_10000000;
mask = false;
return this;
}
/*
* Writes the header to the given buffer.
*
* The buffer must have at least MAX_HEADER_SIZE_BYTES remaining. The
* buffer's position is incremented by the number of bytes written.
*/
void write(ByteBuffer buffer) {
buffer.putChar(firstChar);
if (payloadLen >= 126) {
if (payloadLen < 65536) {
buffer.putChar((char) payloadLen);
} else {
buffer.putLong(payloadLen);
}
}
if (mask) {
buffer.putInt(maskingKey);
}
}
}
/*
* A consumer of frame parts.
*
* Frame.Reader invokes the consumer's methods in the following order:
*
* fin rsv1 rsv2 rsv3 opcode mask payloadLength maskingKey? payloadData+ endFrame
*/
interface Consumer {
void fin(boolean value);
void rsv1(boolean value);
void rsv2(boolean value);
void rsv3(boolean value);
void opcode(Opcode value);
void mask(boolean value);
void payloadLen(long value);
void maskingKey(int value);
/*
* Called by the Frame.Reader when a part of the (or a complete) payload
* is ready to be consumed.
*
* The sum of numbers of bytes consumed in each invocation of this
* method corresponding to the given frame WILL be equal to
* 'payloadLen', reported to `void payloadLen(long value)` before that.
*
* In particular, if `payloadLen` is 0, then there WILL be a single
* invocation to this method.
*
* No unmasking is done.
*/
void payloadData(ByteBuffer data);
void endFrame();
}
/*
* A Reader of frames.
*
* No protocol-level rules are checked.
*/
static final class Reader {
private static final int AWAITING_FIRST_BYTE = 1;
private static final int AWAITING_SECOND_BYTE = 2;
private static final int READING_16_LENGTH = 4;
private static final int READING_64_LENGTH = 8;
private static final int READING_MASK = 16;
private static final int READING_PAYLOAD = 32;
// Exploiting ByteBuffer's ability to read multi-byte integers
private final ByteBuffer accumulator = ByteBuffer.allocate(8);
private int state = AWAITING_FIRST_BYTE;
private boolean mask;
private long remainingPayloadLength;
/*
* Reads at most one frame from the given buffer invoking the consumer's
* methods corresponding to the frame parts found.
*
* As much of the frame's payload, if any, is read. The buffer's
* position is updated to reflect the number of bytes read.
*
* Throws FailWebSocketException if detects the frame is malformed.
*/
void readFrame(ByteBuffer input, Consumer consumer) {
loop:
while (true) {
byte b;
switch (state) {
case AWAITING_FIRST_BYTE:
if (!input.hasRemaining()) {
break loop;
}
b = input.get();
consumer.fin( (b & 0b10000000) != 0);
consumer.rsv1((b & 0b01000000) != 0);
consumer.rsv2((b & 0b00100000) != 0);
consumer.rsv3((b & 0b00010000) != 0);
consumer.opcode(ofCode(b));
state = AWAITING_SECOND_BYTE;
continue loop;
case AWAITING_SECOND_BYTE:
if (!input.hasRemaining()) {
break loop;
}
b = input.get();
consumer.mask(mask = (b & 0b10000000) != 0);
byte p1 = (byte) (b & 0b01111111);
if (p1 < 126) {
assert p1 >= 0 : p1;
consumer.payloadLen(remainingPayloadLength = p1);
state = mask ? READING_MASK : READING_PAYLOAD;
} else if (p1 < 127) {
state = READING_16_LENGTH;
} else {
state = READING_64_LENGTH;
}
continue loop;
case READING_16_LENGTH:
if (!input.hasRemaining()) {
break loop;
}
b = input.get();
if (accumulator.put(b).position() < 2) {
continue loop;
}
remainingPayloadLength = accumulator.flip().getChar();
if (remainingPayloadLength < 126) {
throw notMinimalEncoding(remainingPayloadLength);
}
consumer.payloadLen(remainingPayloadLength);
accumulator.clear();
state = mask ? READING_MASK : READING_PAYLOAD;
continue loop;
case READING_64_LENGTH:
if (!input.hasRemaining()) {
break loop;
}
b = input.get();
if (accumulator.put(b).position() < 8) {
continue loop;
}
remainingPayloadLength = accumulator.flip().getLong();
if (remainingPayloadLength < 0) {
throw negativePayload(remainingPayloadLength);
} else if (remainingPayloadLength < 65536) {
throw notMinimalEncoding(remainingPayloadLength);
}
consumer.payloadLen(remainingPayloadLength);
accumulator.clear();
state = mask ? READING_MASK : READING_PAYLOAD;
continue loop;
case READING_MASK:
if (!input.hasRemaining()) {
break loop;
}
b = input.get();
if (accumulator.put(b).position() != 4) {
continue loop;
}
consumer.maskingKey(accumulator.flip().getInt());
accumulator.clear();
state = READING_PAYLOAD;
continue loop;
case READING_PAYLOAD:
// This state does not require any bytes to be available
// in the input buffer in order to proceed
int deliverable = (int) Math.min(remainingPayloadLength,
input.remaining());
int oldLimit = input.limit();
input.limit(input.position() + deliverable);
if (deliverable != 0 || remainingPayloadLength == 0) {
consumer.payloadData(input);
}
int consumed = deliverable - input.remaining();
if (consumed < 0) {
// Consumer cannot consume more than there was available
throw new InternalError();
}
input.limit(oldLimit);
remainingPayloadLength -= consumed;
if (remainingPayloadLength == 0) {
consumer.endFrame();
state = AWAITING_FIRST_BYTE;
}
break loop;
default:
throw new InternalError(String.valueOf(state));
}
}
}
private static FailWebSocketException negativePayload(long payloadLength)
{
return new FailWebSocketException(
"Negative payload length: " + payloadLength);
}
private static FailWebSocketException notMinimalEncoding(long payloadLength)
{
return new FailWebSocketException(
"Not minimally-encoded payload length:" + payloadLength);
}
}
}