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/*
 * Copyright (c) 2008-2019, Hazelcast, Inc. All Rights Reserved.
 *
 * 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 com.hazelcast.nio;

import com.hazelcast.internal.networking.OutboundFrame;
import com.hazelcast.internal.serialization.impl.HeapData;
import com.hazelcast.spi.annotation.PrivateApi;

import static com.hazelcast.nio.PacketIOHelper.HEADER_SIZE;

/**
 * A Packet is a piece of data sent over the wire. The Packet is used for member to member communication.
 *
 * The Packet extends HeapData instead of wrapping it. From a design point of view this is often
 * not the preferred solution (prefer composition over inheritance), but in this case that
 * would mean more object litter.
 *
 * Since the Packet isn't used throughout the system, this design choice is visible locally.
 */
@PrivateApi
// Declaration order suppressed due to private static int FLAG_TYPEx declarations
@SuppressWarnings("checkstyle:declarationorder")
public final class Packet extends HeapData implements OutboundFrame {

    public static final byte VERSION = 4;


    //             PACKET HEADER FLAGS
    //
    // Flags are dispatched against in a cascade:
    // 1. URGENT (bit 4)
    // 2. Packet type (bits 0, 2, 5)
    // 3. Flags specific to a given packet type (bits 1, 6)


    // 1. URGENT flag

    /**
     * Marks the packet as Urgent
     */
    public static final int FLAG_URGENT = 1 << 4;


    // 2. Packet type flags, encode up to 7 packet types.
    //
    // When adding a new packet type, DO NOT ADD MORE TYPE FLAGS. Instead rename one of the
    // Packet.Type.UNDEFINEDx members to represent the new type.
    //
    // Historically the first three packet types were encoded as separate, mutually exclusive flags.
    // These are given below. The enum Packet.Type should be used to encode/decode the type from the
    // header flags bitfield.

    /**
     * Packet type bit 0. Historically the OPERATION type flag.
     */
    private static final int FLAG_TYPE0 = 1 << 0;
    /**
     * Packet type bit 1. Historically the EVENT type flag.
     */
    private static final int FLAG_TYPE1 = 1 << 2;
    /**
     * Packet type bit 2. Historically the BIND type flag.
     */
    private static final int FLAG_TYPE2 = 1 << 5;

    // 3. Type-specific flags. Same bits can be reused within each type

    // 3.a Operation packet flags

    /**
     * Marks an Operation packet as Response
     */
    public static final int FLAG_OP_RESPONSE = 1 << 1;
    /**
     * Marks an Operation packet as Operation control (like invocation-heartbeats)
     */
    public static final int FLAG_OP_CONTROL = 1 << 6;


    // 3.b Jet packet flags

    /**
     * Marks a Jet packet as Flow control
     */
    public static final int FLAG_JET_FLOW_CONTROL = 1 << 1;


    //            END OF HEADER FLAG SECTION


    // char is a 16-bit unsigned integer. Here we use it as a bitfield.
    private char flags;

    private int partitionId;
    private transient Connection conn;

    public Packet() {
    }

    public Packet(byte[] payload) {
        this(payload, -1);
    }

    public Packet(byte[] payload, int partitionId) {
        super(payload);
        this.partitionId = partitionId;
    }

    /**
     * Gets the Connection this Packet was send with.
     *
     * @return the Connection. Could be null.
     */
    public Connection getConn() {
        return conn;
    }

    /**
     * Sets the Connection this Packet is send with.
     * 

* This is done on the reading side of the Packet to make it possible to retrieve information about * the sender of the Packet. * * @param conn the connection. * @return {@code this} (for fluent interface) */ public Packet setConn(Connection conn) { this.conn = conn; return this; } public Type getPacketType() { return Type.fromFlags(flags); } /** * Sets the packet type by updating the packet type bits in the {@code flags} bitfield. Other bits * are unaffected. * * @param type the type to set * @return {@code this} (for fluent interface) */ public Packet setPacketType(Packet.Type type) { int nonTypeFlags = flags & (~FLAG_TYPE0 & ~FLAG_TYPE1 & ~FLAG_TYPE2); resetFlagsTo(type.headerEncoding | nonTypeFlags); return this; } /** * Raises all the flags raised in the argument. Does not lower any flags. * * @param flagsToRaise the flags to raise * @return {@code this} (for fluent interface) */ public Packet raiseFlags(int flagsToRaise) { flags |= flagsToRaise; return this; } /** * Resets the entire {@code flags} bitfield to the supplied value. This also affects the packet type bits. * * @param flagsToSet the flags. Only the least significant two bytes of the argument are used. * @return {@code this} (for fluent interface) */ public Packet resetFlagsTo(int flagsToSet) { flags = (char) flagsToSet; return this; } /** * Returns {@code true} if any of the flags supplied in the argument are set. * * @param flagsToCheck the flags to check * @return {@code true} if any of the flags is set, {@code false} otherwise. */ public boolean isFlagRaised(int flagsToCheck) { return isFlagRaised(flags, flagsToCheck); } private static boolean isFlagRaised(char flags, int flagsToCheck) { return (flags & flagsToCheck) != 0; } /** * @return the complete flags bitfield as a {@code char}. */ public char getFlags() { return flags; } /** * Returns the partition ID of this packet. If this packet is not for a particular partition, -1 is returned. * * @return the partition ID. */ public int getPartitionId() { return partitionId; } @Override public boolean isUrgent() { return isFlagRaised(FLAG_URGENT); } @Override public int getFrameLength() { return (payload != null ? totalSize() : 0) + HEADER_SIZE; } @Override public boolean equals(Object o) { if (this == o) { return true; } if (!(o instanceof Packet)) { return false; } Packet packet = (Packet) o; if (!super.equals(packet)) { return false; } if (flags != packet.flags) { return false; } return partitionId == packet.partitionId; } @Override public int hashCode() { int result = super.hashCode(); result = 31 * result + (int) flags; result = 31 * result + partitionId; return result; } @Override public String toString() { Type type = getPacketType(); return "Packet{" + "partitionId=" + partitionId + ", frameLength=" + getFrameLength() + ", conn=" + conn + ", rawFlags=" + Integer.toBinaryString(flags) + ", isUrgent=" + isUrgent() + ", packetType=" + type.name() + ", typeSpecificFlags=" + type.describeFlags(flags) + '}'; } public enum Type { /** * Represents "missing packet type", consists of all zeros. A zeroed-out packet header would * resolve to this type. *

* {@code ordinal = 0} */ NULL, /** * The type of an Operation packet. *

* {@code ordinal = 1} */ OPERATION { @Override public String describeFlags(char flags) { return "[isResponse=" + isFlagRaised(flags, FLAG_OP_RESPONSE) + ", isOpControl=" + isFlagRaised(flags, FLAG_OP_CONTROL) + ']'; } }, /** * The type of an Event packet. *

* {@code ordinal = 2} */ EVENT, /** * The type of a Jet packet. *

* {@code ordinal = 3} */ JET { @Override public String describeFlags(char flags) { return "[isFlowControl=" + isFlagRaised(flags, FLAG_JET_FLOW_CONTROL) + ']'; } }, /** * The type of a Bind Message packet. *

* {@code ordinal = 4} */ BIND, /** * The type of Extended Bind packet, since Hazelcast 3.12. *

* {@code ordinal = 5} */ EXTENDED_BIND, /** * Unused packet type. Available for future use. *

* {@code ordinal = 6} */ UNDEFINED6, /** * Unused packet type. Available for future use. *

* {@code ordinal = 7} */ UNDEFINED7; final char headerEncoding; private static final Type[] VALUES = values(); Type() { headerEncoding = (char) encodeOrdinal(); } public static Type fromFlags(int flags) { return VALUES[headerDecode(flags)]; } public String describeFlags(char flags) { return ""; } @SuppressWarnings("checkstyle:booleanexpressioncomplexity") private int encodeOrdinal() { final int ordinal = ordinal(); assert ordinal < 8 : "Ordinal out of range for member " + name() + ": " + ordinal; return (ordinal & 0x01) | (ordinal & 0x02) << 1 | (ordinal & 0x04) << 3; } @SuppressWarnings("checkstyle:booleanexpressioncomplexity") private static int headerDecode(int flags) { return (flags & FLAG_TYPE0) | (flags & FLAG_TYPE1) >> 1 | (flags & FLAG_TYPE2) >> 3; } } }





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