package org.apache.qpid.transport; /* * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you 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. * */ import java.util.LinkedHashMap; import java.util.Map; import org.apache.qpid.transport.codec.Decoder; import org.apache.qpid.transport.codec.Encoder; import org.apache.qpid.transport.network.Frame; public final class ConnectionTune extends Method { public static final int TYPE = 261; public final int getStructType() { return TYPE; } public final int getSizeWidth() { return 0; } public final int getPackWidth() { return 2; } public final boolean hasPayload() { return false; } public final byte getEncodedTrack() { return Frame.L1; } public final boolean isConnectionControl() { return true; } private short packing_flags = 0; private int channelMax; private int maxFrameSize; private int heartbeatMin; private int heartbeatMax; public ConnectionTune() {} public ConnectionTune(int channelMax, int maxFrameSize, int heartbeatMin, int heartbeatMax, Option ... _options) { setChannelMax(channelMax); setMaxFrameSize(maxFrameSize); setHeartbeatMin(heartbeatMin); setHeartbeatMax(heartbeatMax); for (int i=0; i < _options.length; i++) { switch (_options[i]) { case SYNC: this.setSync(true); break; case BATCH: this.setBatch(true); break; case UNRELIABLE: this.setUnreliable(true); break; case NONE: break; default: throw new IllegalArgumentException("invalid option: " + _options[i]); } } } public void dispatch(C context, MethodDelegate delegate) { delegate.connectionTune(context, this); } public final boolean hasChannelMax() { return (packing_flags & 256) != 0; } public final ConnectionTune clearChannelMax() { packing_flags &= ~256; this.channelMax = 0; setDirty(true); return this; } public final int getChannelMax() { return channelMax; } public final ConnectionTune setChannelMax(int value) { this.channelMax = value; packing_flags |= 256; setDirty(true); return this; } public final ConnectionTune channelMax(int value) { return setChannelMax(value); } public final boolean hasMaxFrameSize() { return (packing_flags & 512) != 0; } public final ConnectionTune clearMaxFrameSize() { packing_flags &= ~512; this.maxFrameSize = 0; setDirty(true); return this; } public final int getMaxFrameSize() { return maxFrameSize; } public final ConnectionTune setMaxFrameSize(int value) { this.maxFrameSize = value; packing_flags |= 512; setDirty(true); return this; } public final ConnectionTune maxFrameSize(int value) { return setMaxFrameSize(value); } public final boolean hasHeartbeatMin() { return (packing_flags & 1024) != 0; } public final ConnectionTune clearHeartbeatMin() { packing_flags &= ~1024; this.heartbeatMin = 0; setDirty(true); return this; } public final int getHeartbeatMin() { return heartbeatMin; } public final ConnectionTune setHeartbeatMin(int value) { this.heartbeatMin = value; packing_flags |= 1024; setDirty(true); return this; } public final ConnectionTune heartbeatMin(int value) { return setHeartbeatMin(value); } public final boolean hasHeartbeatMax() { return (packing_flags & 2048) != 0; } public final ConnectionTune clearHeartbeatMax() { packing_flags &= ~2048; this.heartbeatMax = 0; setDirty(true); return this; } public final int getHeartbeatMax() { return heartbeatMax; } public final ConnectionTune setHeartbeatMax(int value) { this.heartbeatMax = value; packing_flags |= 2048; setDirty(true); return this; } public final ConnectionTune heartbeatMax(int value) { return setHeartbeatMax(value); } public void write(Encoder enc) { enc.writeUint16(packing_flags); if ((packing_flags & 256) != 0) { enc.writeUint16(this.channelMax); } if ((packing_flags & 512) != 0) { enc.writeUint16(this.maxFrameSize); } if ((packing_flags & 1024) != 0) { enc.writeUint16(this.heartbeatMin); } if ((packing_flags & 2048) != 0) { enc.writeUint16(this.heartbeatMax); } } public void read(Decoder dec) { packing_flags = (short) dec.readUint16(); if ((packing_flags & 256) != 0) { this.channelMax = dec.readUint16(); } if ((packing_flags & 512) != 0) { this.maxFrameSize = dec.readUint16(); } if ((packing_flags & 1024) != 0) { this.heartbeatMin = dec.readUint16(); } if ((packing_flags & 2048) != 0) { this.heartbeatMax = dec.readUint16(); } } public Map getFields() { Map result = new LinkedHashMap(); if ((packing_flags & 256) != 0) { result.put("channelMax", getChannelMax()); } if ((packing_flags & 512) != 0) { result.put("maxFrameSize", getMaxFrameSize()); } if ((packing_flags & 1024) != 0) { result.put("heartbeatMin", getHeartbeatMin()); } if ((packing_flags & 2048) != 0) { result.put("heartbeatMax", getHeartbeatMax()); } return result; } }