package org.apache.commons.net.ntp; /* * 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.ArrayList; import java.util.List; /** * Wrapper class to network time packet messages (NTP, etc) that computes * related timing info and stats. * * @author Jason Mathews, MITRE Corp * * @version $Revision: 658518 $ $Date: 2008-05-21 02:04:30 +0100 (Wed, 21 May 2008) $ */ public class TimeInfo { private NtpV3Packet _message; private List _comments; private Long _delay; private Long _offset; /** * time at which time message packet was received by local machine */ private long _returnTime; /** * flag indicating that the TimeInfo details was processed and delay/offset were computed */ private boolean _detailsComputed; /** * Create TimeInfo object with raw packet message and destination time received. * * @param message NTP message packet * @param returnTime destination receive time * @throws IllegalArgumentException if message is null */ public TimeInfo(NtpV3Packet message, long returnTime) { this(message, returnTime, null, true); } /** * Create TimeInfo object with raw packet message and destination time received. * * @param message NTP message packet * @param returnTime destination receive time * @param comments List of errors/warnings identified during processing * @throws IllegalArgumentException if message is null */ public TimeInfo(NtpV3Packet message, long returnTime, List comments) { this(message, returnTime, comments, true); } /** * Create TimeInfo object with raw packet message and destination time received. * Auto-computes details if computeDetails flag set otherwise this is delayed * until computeDetails() is called. Delayed computation is for fast * intialization when sub-millisecond timing is needed. * * @param msgPacket NTP message packet * @param returnTime destination receive time * @param doComputeDetails flag to pre-compute delay/offset values * @throws IllegalArgumentException if message is null */ public TimeInfo(NtpV3Packet msgPacket, long returnTime, boolean doComputeDetails) { this(msgPacket, returnTime, null, doComputeDetails); } /** * Create TimeInfo object with raw packet message and destination time received. * Auto-computes details if computeDetails flag set otherwise this is delayed * until computeDetails() is called. Delayed computation is for fast * intialization when sub-millisecond timing is needed. * * @param message NTP message packet * @param returnTime destination receive time * @param comments list of comments used to store errors/warnings with message * @param doComputeDetails flag to pre-compute delay/offset values * @throws IllegalArgumentException if message is null */ public TimeInfo(NtpV3Packet message, long returnTime, List comments, boolean doComputeDetails) { if (message == null) throw new IllegalArgumentException("message cannot be null"); this._returnTime = returnTime; this._message = message; this._comments = comments; if (doComputeDetails) computeDetails(); } /** * Add comment (error/warning) to list of comments associated * with processing of NTP parameters. If comment list not create * then one will be created. * * @param comment */ public void addComment(String comment) { if (_comments == null) { _comments = new ArrayList(); } _comments.add(comment); } /** * Compute and validate details of the NTP message packet. Computed * fields include the offset and delay. */ public void computeDetails() { if (_detailsComputed) { return; // details already computed - do nothing } _detailsComputed = true; if (_comments == null) { _comments = new ArrayList(); } TimeStamp origNtpTime = _message.getOriginateTimeStamp(); long origTime = origNtpTime.getTime(); // Receive Time is time request received by server (t2) TimeStamp rcvNtpTime = _message.getReceiveTimeStamp(); long rcvTime = rcvNtpTime.getTime(); // Transmit time is time reply sent by server (t3) TimeStamp xmitNtpTime = _message.getTransmitTimeStamp(); long xmitTime = xmitNtpTime.getTime(); /* * Round-trip network delay and local clock offset (or time drift) is calculated * according to this standard NTP equation: * * LocalClockOffset = ((ReceiveTimestamp - OriginateTimestamp) + * (TransmitTimestamp - DestinationTimestamp)) / 2 * * equations from RFC-1305 (NTPv3) * roundtrip delay = (t4 - t1) - (t3 - t2) * local clock offset = ((t2 - t1) + (t3 - t4)) / 2 * * It takes into account network delays and assumes that they are symmetrical. * * Note the typo in SNTP RFCs 1769/2030 which state that the delay * is (T4 - T1) - (T2 - T3) with the "T2" and "T3" switched. */ if (origNtpTime.ntpValue() == 0) { // without originate time cannot determine when packet went out // might be via a broadcast NTP packet... if (xmitNtpTime.ntpValue() != 0) { _offset = Long.valueOf(xmitTime - _returnTime); _comments.add("Error: zero orig time -- cannot compute delay"); } else _comments.add("Error: zero orig time -- cannot compute delay/offset"); } else if (rcvNtpTime.ntpValue() == 0 || xmitNtpTime.ntpValue() == 0) { _comments.add("Warning: zero rcvNtpTime or xmitNtpTime"); // assert destTime >= origTime since network delay cannot be negative if (origTime > _returnTime) _comments.add("Error: OrigTime > DestRcvTime"); else { // without receive or xmit time cannot figure out processing time // so delay is simply the network travel time _delay = Long.valueOf(_returnTime - origTime); } // TODO: is offset still valid if rcvNtpTime=0 || xmitNtpTime=0 ??? // Could always hash origNtpTime (sendTime) but if host doesn't set it // then it's an malformed ntp host anyway and we don't care? // If server is in broadcast mode then we never send out a query in first place... if (rcvNtpTime.ntpValue() != 0) { // xmitTime is 0 just use rcv time _offset = Long.valueOf(rcvTime - origTime); } else if (xmitNtpTime.ntpValue() != 0) { // rcvTime is 0 just use xmitTime time _offset = Long.valueOf(xmitTime - _returnTime); } } else { long delayValue = _returnTime - origTime; // assert xmitTime >= rcvTime: difference typically < 1ms if (xmitTime < rcvTime) { // server cannot send out a packet before receiving it... _comments.add("Error: xmitTime < rcvTime"); // time-travel not allowed } else { // subtract processing time from round-trip network delay long delta = xmitTime - rcvTime; // in normal cases the processing delta is less than // the total roundtrip network travel time. if (delta <= delayValue) { delayValue -= delta; // delay = (t4 - t1) - (t3 - t2) } else { // if delta - delayValue == 1 ms then it's a round-off error // e.g. delay=3ms, processing=4ms if (delta - delayValue == 1) { // delayValue == 0 -> local clock saw no tick change but destination clock did if (delayValue != 0) { _comments.add("Info: processing time > total network time by 1 ms -> assume zero delay"); delayValue = 0; } } else _comments.add("Warning: processing time > total network time"); } } _delay = Long.valueOf(delayValue); if (origTime > _returnTime) // assert destTime >= origTime _comments.add("Error: OrigTime > DestRcvTime"); _offset = Long.valueOf(((rcvTime - origTime) + (xmitTime - _returnTime)) / 2); } } /** * Return list of comments (if any) during processing of NTP packet. * * @return List or null if not yet computed */ public List getComments() { return _comments; } /** * Get round-trip network delay. If null then could not compute the delay. * * @return Long or null if delay not available. */ public Long getDelay() { return _delay; } /** * Get clock offset needed to adjust local clock to match remote clock. If null then could not * compute the offset. * * @return Long or null if offset not available. */ public Long getOffset() { return _offset; } /** * Returns NTP message packet. * * @return NTP message packet. */ public NtpV3Packet getMessage() { return _message; } /** * Returns time at which time message packet was received by local machine. * * @return packet return time. */ public long getReturnTime() { return _returnTime; } }