[ONOS-2337,ONOS-2338,ONOS-2339]Pcep Controller
Change-Id: I27fee4669ec923a55d83993b493699c1c46a1b36
diff --git a/pcep/ctl/src/main/java/org/onosproject/pcep/controller/impl/PcepChannelHandler.java b/pcep/ctl/src/main/java/org/onosproject/pcep/controller/impl/PcepChannelHandler.java
new file mode 100644
index 0000000..01e8431
--- /dev/null
+++ b/pcep/ctl/src/main/java/org/onosproject/pcep/controller/impl/PcepChannelHandler.java
@@ -0,0 +1,652 @@
+/*
+ * Copyright 2015 Open Networking Laboratory
+ *
+ * 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 org.onosproject.pcep.controller.impl;
+
+import java.io.IOException;
+import java.net.InetSocketAddress;
+import java.net.SocketAddress;
+import java.nio.channels.ClosedChannelException;
+import java.util.Collections;
+import java.util.Date;
+import java.util.LinkedList;
+import java.util.List;
+import java.util.ListIterator;
+import java.util.concurrent.RejectedExecutionException;
+
+import org.jboss.netty.channel.Channel;
+import org.jboss.netty.channel.ChannelHandlerContext;
+import org.jboss.netty.channel.ChannelStateEvent;
+import org.jboss.netty.channel.ExceptionEvent;
+import org.jboss.netty.channel.MessageEvent;
+import org.jboss.netty.handler.timeout.IdleState;
+import org.jboss.netty.handler.timeout.IdleStateAwareChannelHandler;
+import org.jboss.netty.handler.timeout.IdleStateEvent;
+import org.jboss.netty.handler.timeout.IdleStateHandler;
+import org.jboss.netty.handler.timeout.ReadTimeoutException;
+import org.onlab.packet.IpAddress;
+import org.onosproject.pcep.controller.PccId;
+import org.onosproject.pcep.controller.driver.PcepClientDriver;
+import org.onosproject.pcepio.exceptions.PcepParseException;
+import org.onosproject.pcepio.protocol.PcepError;
+import org.onosproject.pcepio.protocol.PcepErrorInfo;
+import org.onosproject.pcepio.protocol.PcepErrorMsg;
+import org.onosproject.pcepio.protocol.PcepErrorObject;
+import org.onosproject.pcepio.protocol.PcepFactory;
+import org.onosproject.pcepio.protocol.PcepMessage;
+import org.onosproject.pcepio.protocol.PcepOpenMsg;
+import org.onosproject.pcepio.protocol.PcepOpenObject;
+import org.onosproject.pcepio.protocol.PcepType;
+import org.onosproject.pcepio.protocol.PcepVersion;
+import org.onosproject.pcepio.types.ErrorObjListWithOpen;
+import org.onosproject.pcepio.types.PceccCapabilityTlv;
+import org.onosproject.pcepio.types.StatefulPceCapabilityTlv;
+import org.onosproject.pcepio.types.PcepErrorDetailInfo;
+import org.onosproject.pcepio.types.PcepValueType;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+
+/**
+ * Channel handler deals with the pcc client connection and dispatches
+ * messages from client to the appropriate locations.
+ */
+class PcepChannelHandler extends IdleStateAwareChannelHandler {
+ static final byte DEADTIMER_MAXIMUM_VALUE = (byte) 0xFF;
+ static final byte KEEPALIVE_MULTIPLE_FOR_DEADTIMER = 4;
+ private static final Logger log = LoggerFactory.getLogger(PcepChannelHandler.class);
+ private final Controller controller;
+ private PcepClientDriver pc;
+ private PccId thispccId;
+ private Channel channel;
+ private byte sessionId = 0;
+ private byte keepAliveTime;
+ private byte deadTime;
+ private PcepPacketStatsImpl pcepPacketStats;
+ static final int MAX_WRONG_COUNT_PACKET = 5;
+ static final int BYTE_MASK = 0xFF;
+
+ // State needs to be volatile because the HandshakeTimeoutHandler
+ // needs to check if the handshake is complete
+ private volatile ChannelState state;
+
+ // When a pcc client with a ip addresss is found (i.e we already have a
+ // connected client with the same ip), the new client is immediately
+ // disconnected. At that point netty callsback channelDisconnected() which
+ // proceeds to cleaup client state - we need to ensure that it does not cleanup
+ // client state for the older (still connected) client
+ private volatile Boolean duplicatePccIdFound;
+
+ //Indicates the pcep version used by this pcc client
+ protected PcepVersion pcepVersion;
+ protected PcepFactory factory1;
+
+ /**
+ * Create a new unconnected PcepChannelHandler.
+ * @param controller parent controller
+ */
+ PcepChannelHandler(Controller controller) {
+ this.controller = controller;
+ this.state = ChannelState.INIT;
+ factory1 = controller.getPcepMessageFactory1();
+ duplicatePccIdFound = Boolean.FALSE;
+ pcepPacketStats = new PcepPacketStatsImpl();
+ }
+
+ /**
+ * To disconnect a PCC.
+ */
+ public void disconnectClient() {
+ pc.disconnectClient();
+ }
+
+ //*************************
+ // Channel State Machine
+ //*************************
+
+ /**
+ * The state machine for handling the client/channel state. All state
+ * transitions should happen from within the state machine (and not from other
+ * parts of the code)
+ */
+ enum ChannelState {
+ /**
+ * Initial state before channel is connected.
+ */
+ INIT(false) {
+
+ },
+ /**
+ * Once the session is established, wait for open message.
+ */
+ OPENWAIT(false) {
+ @Override
+ void processPcepMessage(PcepChannelHandler h, PcepMessage m) throws IOException, PcepParseException {
+
+ log.debug("Message received in OPEN WAIT State");
+
+ //check for open message
+ if (m.getType() != PcepType.OPEN) {
+ // When the message type is not open message increment the wrong packet statistics
+ h.processUnknownMsg();
+ log.debug("message is not OPEN message");
+ } else {
+
+ h.pcepPacketStats.addInPacket();
+ PcepOpenMsg pOpenmsg = (PcepOpenMsg) m;
+ // do Capability validation.
+ if (h.capabilityValidation(pOpenmsg)) {
+ log.debug("Sending handshake OPEN message");
+ h.sessionId = pOpenmsg.getPcepOpenObject().getSessionId();
+ h.pcepVersion = pOpenmsg.getPcepOpenObject().getVersion();
+
+ //setting keepalive and deadTimer
+ byte yKeepalive = pOpenmsg.getPcepOpenObject().getKeepAliveTime();
+ byte yDeadTimer = pOpenmsg.getPcepOpenObject().getDeadTime();
+ h.keepAliveTime = yKeepalive;
+ if (yKeepalive < yDeadTimer) {
+ h.deadTime = yDeadTimer;
+ } else {
+ if (DEADTIMER_MAXIMUM_VALUE > (yKeepalive * KEEPALIVE_MULTIPLE_FOR_DEADTIMER)) {
+ h.deadTime = (byte) (yKeepalive * KEEPALIVE_MULTIPLE_FOR_DEADTIMER);
+ } else {
+ h.deadTime = DEADTIMER_MAXIMUM_VALUE;
+ }
+ }
+ h.sendHandshakeOpenMessage();
+ h.pcepPacketStats.addOutPacket();
+ h.setState(KEEPWAIT);
+ } else {
+ log.debug("Capability validation failed. Sending PCEP-ERROR message to PCC.");
+ // Send PCEP-ERROR message.
+ PcepErrorMsg errMsg = h.getErrorMsg(PcepErrorDetailInfo.ERROR_TYPE_2,
+ PcepErrorDetailInfo.ERROR_VALUE_2);
+ h.channel.write(Collections.singletonList(errMsg));
+ }
+ }
+ }
+ },
+ /**
+ * Once the open messages are exchanged, wait for keep alive message.
+ */
+ KEEPWAIT(false) {
+ @Override
+ void processPcepMessage(PcepChannelHandler h, PcepMessage m) throws IOException, PcepParseException {
+ log.debug("message received in KEEPWAIT state");
+ //check for keep alive message
+ if (m.getType() != PcepType.KEEP_ALIVE) {
+ // When the message type is not keep alive message increment the wrong packet statistics
+ h.processUnknownMsg();
+ log.debug("message is not KEEPALIVE message");
+ } else {
+ // Set the client connected status
+ h.pcepPacketStats.addInPacket();
+ final SocketAddress address = h.channel.getRemoteAddress();
+ if (!(address instanceof InetSocketAddress)) {
+ throw new IOException("Invalid client connection. Pcc is indentifed based on IP");
+ }
+ log.debug("sending keep alive message in KEEPWAIT state");
+
+ final InetSocketAddress inetAddress = (InetSocketAddress) address;
+ h.thispccId = PccId.pccId(IpAddress.valueOf(inetAddress.getAddress()));
+ h.pc = h.controller.getPcepClientInstance(h.thispccId, h.sessionId, h.pcepVersion,
+ h.pcepPacketStats);
+ // set the status of pcc as connected
+ h.pc.setConnected(true);
+ h.pc.setChannel(h.channel);
+
+ // set any other specific parameters to the pcc
+ h.pc.setPcVersion(h.pcepVersion);
+ h.pc.setPcSessionId(h.sessionId);
+ h.pc.setPcKeepAliveTime(h.keepAliveTime);
+ h.pc.setPcDeadTime(h.deadTime);
+ int keepAliveTimer = h.keepAliveTime & BYTE_MASK;
+ int deadTimer = h.deadTime & BYTE_MASK;
+ if (0 == h.keepAliveTime) {
+ h.deadTime = 0;
+ }
+ // handle keep alive and dead time
+ if (keepAliveTimer != PcepPipelineFactory.DEFAULT_KEEP_ALIVE_TIME
+ || deadTimer != PcepPipelineFactory.DEFAULT_DEAD_TIME) {
+
+ h.channel.getPipeline().replace("idle", "idle",
+ new IdleStateHandler(PcepPipelineFactory.TIMER, deadTimer, keepAliveTimer, 0));
+ }
+ log.debug("Dead timer : " + deadTimer);
+ log.debug("Keep alive time : " + keepAliveTimer);
+
+ //set the state handshake completion.
+ h.sendKeepAliveMessage();
+ h.pcepPacketStats.addOutPacket();
+ h.setHandshakeComplete(true);
+
+ if (!h.pc.connectClient()) {
+ disconnectDuplicate(h);
+ } else {
+ h.setState(ESTABLISHED);
+ }
+ }
+ }
+ },
+ /**
+ * Once the keep alive messages are exchanged, the state is established.
+ */
+ ESTABLISHED(true) {
+ @Override
+ void processPcepMessage(PcepChannelHandler h, PcepMessage m) throws IOException, PcepParseException {
+
+ //h.channel.getPipeline().remove("waittimeout");
+ log.debug("Message received in established state " + m.getType());
+ //dispatch the message
+ h.dispatchMessage(m);
+ }
+ };
+ private boolean handshakeComplete;
+
+ ChannelState(boolean handshakeComplete) {
+ this.handshakeComplete = handshakeComplete;
+ }
+
+ void processPcepMessage(PcepChannelHandler h, PcepMessage m) throws IOException, PcepParseException {
+ // do nothing
+ }
+
+ /**
+ * Is this a state in which the handshake has completed.
+ *
+ * @return true if the handshake is complete
+ */
+ public boolean isHandshakeComplete() {
+ return this.handshakeComplete;
+ }
+
+ protected void disconnectDuplicate(PcepChannelHandler h) {
+ log.error("Duplicated Pcc IP or incompleted cleanup - " + "disconnecting channel {}",
+ h.getClientInfoString());
+ h.duplicatePccIdFound = Boolean.TRUE;
+ h.channel.disconnect();
+ }
+
+ /**
+ * Sets handshake complete status.
+ *
+ * @param handshakeComplete status of handshake
+ */
+ public void setHandshakeComplete(boolean handshakeComplete) {
+ this.handshakeComplete = handshakeComplete;
+ }
+
+ }
+
+ @Override
+ public void channelConnected(ChannelHandlerContext ctx, ChannelStateEvent e) throws Exception {
+ channel = e.getChannel();
+ log.info("PCC connected from {}", channel.getRemoteAddress());
+
+ // Wait for open message from pcc client
+ setState(ChannelState.OPENWAIT);
+ }
+
+ @Override
+ public void channelDisconnected(ChannelHandlerContext ctx, ChannelStateEvent e) throws Exception {
+ log.info("Pcc disconnected callback for pc:{}. Cleaning up ...", getClientInfoString());
+ if (thispccId != null) {
+ if (!duplicatePccIdFound) {
+ // if the disconnected client (on this ChannelHandler)
+ // was not one with a duplicate-dpid, it is safe to remove all
+ // state for it at the controller. Notice that if the disconnected
+ // client was a duplicate-ip, calling the method below would clear
+ // all state for the original client (with the same ip),
+ // which we obviously don't want.
+ log.debug("{}:removal called", getClientInfoString());
+ if (pc != null) {
+ pc.removeConnectedClient();
+ }
+ } else {
+ // A duplicate was disconnected on this ChannelHandler,
+ // this is the same client reconnecting, but the original state was
+ // not cleaned up - XXX check liveness of original ChannelHandler
+ log.debug("{}:duplicate found", getClientInfoString());
+ duplicatePccIdFound = Boolean.FALSE;
+ }
+ } else {
+ log.warn("no pccip in channelHandler registered for " + "disconnected client {}", getClientInfoString());
+ }
+ }
+
+ @Override
+ public void exceptionCaught(ChannelHandlerContext ctx, ExceptionEvent e) throws Exception {
+ PcepErrorMsg errMsg;
+ log.info("exceptionCaught: " + e.toString());
+
+ if (e.getCause() instanceof ReadTimeoutException) {
+ if (ChannelState.OPENWAIT == state) {
+ // When ReadTimeout timer is expired in OPENWAIT state, it is considered
+ // OpenWait timer.
+ errMsg = getErrorMsg(PcepErrorDetailInfo.ERROR_TYPE_1, PcepErrorDetailInfo.ERROR_VALUE_2);
+ log.debug("Sending PCEP-ERROR message to PCC.");
+ channel.write(Collections.singletonList(errMsg));
+ channel.close();
+ state = ChannelState.INIT;
+ return;
+ } else if (ChannelState.KEEPWAIT == state) {
+ // When ReadTimeout timer is expired in KEEPWAIT state, is is considered
+ // KeepWait timer.
+ errMsg = getErrorMsg(PcepErrorDetailInfo.ERROR_TYPE_1, PcepErrorDetailInfo.ERROR_VALUE_7);
+ log.debug("Sending PCEP-ERROR message to PCC.");
+ channel.write(Collections.singletonList(errMsg));
+ channel.close();
+ state = ChannelState.INIT;
+ return;
+ }
+ } else if (e.getCause() instanceof ClosedChannelException) {
+ log.debug("Channel for pc {} already closed", getClientInfoString());
+ } else if (e.getCause() instanceof IOException) {
+ log.error("Disconnecting client {} due to IO Error: {}", getClientInfoString(), e.getCause().getMessage());
+ if (log.isDebugEnabled()) {
+ // still print stack trace if debug is enabled
+ log.debug("StackTrace for previous Exception: ", e.getCause());
+ }
+ channel.close();
+ } else if (e.getCause() instanceof PcepParseException) {
+ PcepParseException errMsgParse = (PcepParseException) e.getCause();
+ byte errorType = errMsgParse.getErrorType();
+ byte errorValue = errMsgParse.getErrorValue();
+
+ if ((errorType == (byte) 0x0) && (errorValue == (byte) 0x0)) {
+ processUnknownMsg();
+ } else {
+ errMsg = getErrorMsg(errorType, errorValue);
+ log.debug("Sending PCEP-ERROR message to PCC.");
+ channel.write(Collections.singletonList(errMsg));
+ }
+ } else if (e.getCause() instanceof RejectedExecutionException) {
+ log.warn("Could not process message: queue full");
+ } else {
+ log.error("Error while processing message from client " + getClientInfoString() + "state " + this.state);
+ channel.close();
+ }
+ }
+
+ @Override
+ public String toString() {
+ return getClientInfoString();
+ }
+
+ @Override
+ public void channelIdle(ChannelHandlerContext ctx, IdleStateEvent e) throws Exception {
+ if (!isHandshakeComplete()) {
+ return;
+ }
+
+ if (e.getState() == IdleState.READER_IDLE) {
+ // When no message is received on channel for read timeout, then close
+ // the channel
+ log.info("Disconnecting client {} due to read timeout", getClientInfoString());
+ ctx.getChannel().close();
+ } else if (e.getState() == IdleState.WRITER_IDLE) {
+ // Send keep alive message
+ log.debug("Sending keep alive message due to IdleState timeout " + pc.toString());
+ pc.sendMessage(Collections.singletonList(pc.factory().buildKeepaliveMsg().build()));
+ }
+ }
+
+ @Override
+ public void messageReceived(ChannelHandlerContext ctx, MessageEvent e) throws Exception {
+ if (e.getMessage() instanceof List) {
+ @SuppressWarnings("unchecked")
+ List<PcepMessage> msglist = (List<PcepMessage>) e.getMessage();
+ for (PcepMessage pm : msglist) {
+ // Do the actual packet processing
+ state.processPcepMessage(this, pm);
+ }
+ } else {
+ state.processPcepMessage(this, (PcepMessage) e.getMessage());
+ }
+ }
+
+ /**
+ * To set the handshake status.
+ *
+ * @param handshakeComplete value is handshake status
+ */
+ public void setHandshakeComplete(boolean handshakeComplete) {
+ this.state.setHandshakeComplete(handshakeComplete);
+ }
+
+ /**
+ * Is this a state in which the handshake has completed.
+ *
+ * @return true if the handshake is complete
+ */
+ public boolean isHandshakeComplete() {
+ return this.state.isHandshakeComplete();
+ }
+
+ /**
+ * To handle the pcep message.
+ *
+ * @param m pcep message
+ */
+ private void dispatchMessage(PcepMessage m) {
+ pc.handleMessage(m);
+ }
+
+ /**
+ * Return a string describing this client based on the already available
+ * information (ip address and/or remote socket).
+ *
+ * @return display string
+ */
+ private String getClientInfoString() {
+ if (pc != null) {
+ return pc.toString();
+ }
+ String channelString;
+ if (channel == null || channel.getRemoteAddress() == null) {
+ channelString = "?";
+ } else {
+ channelString = channel.getRemoteAddress().toString();
+ }
+ String pccIpString;
+ // TODO : implement functionality to get pcc id string
+ pccIpString = "?";
+ return String.format("[%s PCCIP[%s]]", channelString, pccIpString);
+ }
+
+ /**
+ * Update the channels state. Only called from the state machine.
+ *
+ * @param state
+ */
+ private void setState(ChannelState state) {
+ this.state = state;
+ }
+
+ /**
+ * Send handshake open message.
+ *
+ * @throws IOException,PcepParseException
+ */
+ private void sendHandshakeOpenMessage() throws IOException, PcepParseException {
+ PcepOpenObject pcepOpenobj = factory1.buildOpenObject()
+ .setSessionId(sessionId)
+ .setKeepAliveTime(keepAliveTime)
+ .setDeadTime(deadTime)
+ .build();
+ PcepMessage msg = factory1.buildOpenMsg()
+ .setPcepOpenObj(pcepOpenobj)
+ .build();
+ log.debug("Sending OPEN message to {}", channel.getRemoteAddress());
+ channel.write(Collections.singletonList(msg));
+ }
+
+ /**
+ * Capability Validation.
+ *
+ * @param pOpenmsg pcep open message
+ * @return success or failure
+ */
+ private boolean capabilityValidation(PcepOpenMsg pOpenmsg) {
+ LinkedList<PcepValueType> tlvList = pOpenmsg.getPcepOpenObject().getOptionalTlv();
+ boolean bFoundPceccCapability = false;
+ boolean bFoundStatefulPceCapability = false;
+ boolean bFoundPcInstantiationCapability = false;
+
+ ListIterator<PcepValueType> listIterator = tlvList.listIterator();
+ while (listIterator.hasNext()) {
+ PcepValueType tlv = listIterator.next();
+
+ switch (tlv.getType()) {
+ case PceccCapabilityTlv.TYPE:
+ bFoundPceccCapability = true;
+ break;
+ case StatefulPceCapabilityTlv.TYPE:
+ bFoundStatefulPceCapability = true;
+ StatefulPceCapabilityTlv stetefulPcCapTlv = (StatefulPceCapabilityTlv) tlv;
+ if (stetefulPcCapTlv.getIFlag()) {
+ bFoundPcInstantiationCapability = true;
+ }
+ break;
+ default:
+ continue;
+ }
+ }
+
+ return (bFoundPceccCapability && bFoundStatefulPceCapability && bFoundPcInstantiationCapability) ? true : false;
+ }
+
+ /**
+ * Send keep alive message.
+ *
+ * @throws IOException when channel is disconnected
+ * @throws PcepParseException while building keep alive message
+ */
+ private void sendKeepAliveMessage() throws IOException, PcepParseException {
+ PcepMessage msg = factory1.buildKeepaliveMsg().build();
+ log.debug("Sending KEEPALIVE message to {}", channel.getRemoteAddress());
+ channel.write(Collections.singletonList(msg));
+ }
+
+ /**
+ * Send error message and close channel with pcc.
+ */
+ private void sendErrMsgAndCloseChannel() {
+ // TODO send error message
+ channel.close();
+ }
+
+ /**
+ * Send error message when an invalid message is received.
+ *
+ * @throws PcepParseException while building error message
+ */
+ private void sendErrMsgForInvalidMsg() throws PcepParseException {
+ byte errorType = 0x02;
+ byte errorValue = 0x00;
+ PcepErrorMsg errMsg = getErrorMsg(errorType, errorValue);
+ channel.write(Collections.singletonList(errMsg));
+ }
+
+ /**
+ * Builds pcep error message based on error value and error type.
+ *
+ * @param errorType pcep error type
+ * @param errorValue pcep error value
+ * @return pcep error message
+ * @throws PcepParseException while bulding error message
+ */
+ public PcepErrorMsg getErrorMsg(byte errorType, byte errorValue) throws PcepParseException {
+ LinkedList<PcepErrorObject> llerrObj = new LinkedList<PcepErrorObject>();
+ PcepErrorMsg errMsg;
+
+ PcepErrorObject errObj = factory1.buildPcepErrorObject()
+ .setErrorValue(errorValue)
+ .setErrorType(errorType)
+ .build();
+
+ llerrObj.add(errObj);
+
+ if (state == ChannelState.OPENWAIT) {
+ //If Error caught in Openmessage
+ PcepOpenObject openObj = null;
+ ErrorObjListWithOpen errorObjListWithOpen = null;
+
+ if (0 != sessionId) {
+ openObj = factory1.buildOpenObject().setSessionId(sessionId).build();
+ errorObjListWithOpen = new ErrorObjListWithOpen(llerrObj, openObj);
+ } else {
+ errorObjListWithOpen = new ErrorObjListWithOpen(llerrObj, null);
+ }
+
+ errMsg = factory1.buildPcepErrorMsg()
+ .setErrorObjListWithOpen(errorObjListWithOpen)
+ .build();
+ } else {
+
+ //If Error caught in other than Openmessage
+ LinkedList<PcepError> llPcepErr = new LinkedList<PcepError>();
+
+ PcepError pcepErr = factory1.buildPcepError()
+ .setErrorObjList(llerrObj)
+ .build();
+
+ llPcepErr.add(pcepErr);
+
+ PcepErrorInfo errInfo = factory1.buildPcepErrorInfo()
+ .setPcepErrorList(llPcepErr)
+ .build();
+
+ errMsg = factory1.buildPcepErrorMsg()
+ .setPcepErrorInfo(errInfo)
+ .build();
+ }
+ return errMsg;
+ }
+
+ /**
+ * Process unknown pcep message received.
+ *
+ * @throws PcepParseException while building pcep error message
+ */
+ public void processUnknownMsg() throws PcepParseException {
+ Date now = null;
+ if (pcepPacketStats.wrongPacketCount() == 0) {
+ now = new Date();
+ pcepPacketStats.setTime(now.getTime());
+ pcepPacketStats.addWrongPacket();
+ sendErrMsgForInvalidMsg();
+ }
+
+ if (pcepPacketStats.wrongPacketCount() > 1) {
+ Date lastest = new Date();
+ pcepPacketStats.addWrongPacket();
+ //converting to seconds
+ if (((lastest.getTime() - pcepPacketStats.getTime()) / 1000) > 60) {
+ now = lastest;
+ pcepPacketStats.setTime(now.getTime());
+ pcepPacketStats.resetWrongPacket();
+ pcepPacketStats.addWrongPacket();
+ } else if (((int) (lastest.getTime() - now.getTime()) / 1000) < 60) {
+ if (MAX_WRONG_COUNT_PACKET <= pcepPacketStats.wrongPacketCount()) {
+ //reset once wrong packet count reaches MAX_WRONG_COUNT_PACKET
+ pcepPacketStats.resetWrongPacket();
+ // max wrong packets received send error message and close the session
+ sendErrMsgAndCloseChannel();
+ }
+ }
+ }
+ }
+}