commons-net-3.6.jar - Apache Commons Net

commons-net-3.6.jar is the JAR file for Apache Commons Net 3.6, which implements the client side of many basic Internet protocols.

commons-net-3.6.jar is distributed as part of the commons-net-3.6-bin.zip download file.

JAR File Size and Download Location:

JAR name: commons-net.jar, commons-net-3.6.jar
Target JDK version: 1.6
Dependency: None
File name: commons-net-3.6.jar
File size: 307410 bytes
Release date: 2017-02-11
Download: Apache Commons Net

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org/apache/commons/net/ntp/TimeStamp.java

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.text.DateFormat;
import java.text.SimpleDateFormat;
import java.util.Date;
import java.util.Locale;
import java.util.TimeZone;

/***
 * TimeStamp class represents the Network Time Protocol (NTP) timestamp
 * as defined in RFC-1305 and SNTP (RFC-2030). It is represented as a
 * 64-bit unsigned fixed-point number in seconds relative to 0-hour on 1-January-1900.
 * The 32-bit low-order bits are the fractional seconds whose precision is
 * about 200 picoseconds. Assumes overflow date when date passes MAX_LONG
 * and reverts back to 0 is 2036 and not 1900. Test for most significant
 * bit: if MSB=0 then 2036 basis is used otherwise 1900 if MSB=1.
 * <p>
 * Methods exist to convert NTP timestamps to and from the equivalent Java date
 * representation, which is the number of milliseconds since the standard base
 * time known as "the epoch", namely January 1, 1970, 00:00:00 GMT.
 * </p>
 *
 * @version $Revision: 1741829 $
 * @see java.util.Date
 */
public class TimeStamp implements java.io.Serializable, Comparable<TimeStamp>
{
    private static final long serialVersionUID = 8139806907588338737L;

    /**
     * baseline NTP time if bit-0=0 is 7-Feb-2036 @ 06:28:16 UTC
     */
    protected static final long msb0baseTime = 2085978496000L;

    /**
     *  baseline NTP time if bit-0=1 is 1-Jan-1900 @ 01:00:00 UTC
     */
    protected static final long msb1baseTime = -2208988800000L;

    /**
     * Default NTP date string format. E.g. Fri, Sep 12 2003 21:06:23.860.
     * See <code>java.text.SimpleDateFormat</code> for code descriptions.
     */
    public static final String NTP_DATE_FORMAT = "EEE, MMM dd yyyy HH:mm:ss.SSS";

    /**
     * NTP timestamp value: 64-bit unsigned fixed-point number as defined in RFC-1305
     * with high-order 32 bits the seconds field and the low-order 32-bits the
     * fractional field.
     */
    private final long ntpTime;

    private DateFormat simpleFormatter;
    private DateFormat utcFormatter;

    // initialization of static time bases
    /*
    static {
        TimeZone utcZone = TimeZone.getTimeZone("UTC");
        Calendar calendar = Calendar.getInstance(utcZone);
        calendar.set(1900, Calendar.JANUARY, 1, 0, 0, 0);
        calendar.set(Calendar.MILLISECOND, 0);
        msb1baseTime = calendar.getTime().getTime();
        calendar.set(2036, Calendar.FEBRUARY, 7, 6, 28, 16);
        calendar.set(Calendar.MILLISECOND, 0);
        msb0baseTime = calendar.getTime().getTime();
    }
    */

    /***
     * Constructs a newly allocated NTP timestamp object
     * that represents the native 64-bit long argument.
     * @param ntpTime the timestamp
     */
    public TimeStamp(long ntpTime)
    {
        this.ntpTime = ntpTime;
    }

    /***
     * Constructs a newly allocated NTP timestamp object
     * that represents the value represented by the string
     * in hexdecimal form (e.g. "c1a089bd.fc904f6d").
     * @param hexStamp the hex timestamp
     *
     * @throws NumberFormatException - if the string does not contain a parsable timestamp.
     */
    public TimeStamp(String hexStamp) throws NumberFormatException
    {
        ntpTime = decodeNtpHexString(hexStamp);
    }

    /***
     * Constructs a newly allocated NTP timestamp object
     * that represents the Java Date argument.
     *
     * @param d - the Date to be represented by the Timestamp object.
     */
    public TimeStamp(Date d)
    {
        ntpTime = (d == null) ? 0 : toNtpTime(d.getTime());
    }

    /***
     * Returns the value of this Timestamp as a long value.
     *
     * @return the 64-bit long value represented by this object.
     */
    public long ntpValue()
    {
        return ntpTime;
    }

    /***
     * Returns high-order 32-bits representing the seconds of this NTP timestamp.
     *
     * @return seconds represented by this NTP timestamp.
     */
    public long getSeconds()
    {
        return (ntpTime >>> 32) & 0xffffffffL;
    }

    /***
     * Returns low-order 32-bits representing the fractional seconds.
     *
     * @return fractional seconds represented by this NTP timestamp.
     */
    public long getFraction()
    {
        return ntpTime & 0xffffffffL;
    }

    /***
     * Convert NTP timestamp to Java standard time.
     *
     * @return NTP Timestamp in Java time
     */
    public long getTime()
    {
        return getTime(ntpTime);
    }

    /***
     * Convert NTP timestamp to Java Date object.
     *
     * @return NTP Timestamp in Java Date
     */
    public Date getDate()
    {
        long time = getTime(ntpTime);
        return new Date(time);
    }

    /***
     * Convert 64-bit NTP timestamp to Java standard time.
     *
     * Note that java time (milliseconds) by definition has less precision
     * then NTP time (picoseconds) so converting NTP timestamp to java time and back
     * to NTP timestamp loses precision. For example, Tue, Dec 17 2002 09:07:24.810 EST
     * is represented by a single Java-based time value of f22cd1fc8a, but its
     * NTP equivalent are all values ranging from c1a9ae1c.cf5c28f5 to c1a9ae1c.cf9db22c.
     *
     * @param ntpTimeValue the input time
     * @return the number of milliseconds since January 1, 1970, 00:00:00 GMT
     * represented by this NTP timestamp value.
     */
    public static long getTime(long ntpTimeValue)
    {
        long seconds = (ntpTimeValue >>> 32) & 0xffffffffL;     // high-order 32-bits
        long fraction = ntpTimeValue & 0xffffffffL;             // low-order 32-bits

        // Use round-off on fractional part to preserve going to lower precision
        fraction = Math.round(1000D * fraction / 0x100000000L);

        /*
         * If the most significant bit (MSB) on the seconds field is set we use
         * a different time base. The following text is a quote from RFC-2030 (SNTP v4):
         *
         *  If bit 0 is set, the UTC time is in the range 1968-2036 and UTC time
         *  is reckoned from 0h 0m 0s UTC on 1 January 1900. If bit 0 is not set,
         *  the time is in the range 2036-2104 and UTC time is reckoned from
         *  6h 28m 16s UTC on 7 February 2036.
         */
        long msb = seconds & 0x80000000L;
        if (msb == 0) {
            // use base: 7-Feb-2036 @ 06:28:16 UTC
            return msb0baseTime + (seconds * 1000) + fraction;
        } else {
            // use base: 1-Jan-1900 @ 01:00:00 UTC
            return msb1baseTime + (seconds * 1000) + fraction;
        }
    }

    /***
     * Helper method to convert Java time to NTP timestamp object.
     * Note that Java time (milliseconds) by definition has less precision
     * then NTP time (picoseconds) so converting Ntptime to Javatime and back
     * to Ntptime loses precision. For example, Tue, Dec 17 2002 09:07:24.810
     * is represented by a single Java-based time value of f22cd1fc8a, but its
     * NTP equivalent are all values from c1a9ae1c.cf5c28f5 to c1a9ae1c.cf9db22c.
     * @param   date   the milliseconds since January 1, 1970, 00:00:00 GMT.
     * @return NTP timestamp object at the specified date.
     */
    public static TimeStamp getNtpTime(long date)
    {
        return new TimeStamp(toNtpTime(date));
    }

    /***
     * Constructs a NTP timestamp object and initializes it so that
     * it represents the time at which it was allocated, measured to the
     * nearest millisecond.
     * @return NTP timestamp object set to the current time.
     * @see     java.lang.System#currentTimeMillis()
     */
    public static TimeStamp getCurrentTime()
    {
        return getNtpTime(System.currentTimeMillis());
    }

    /***
     * Convert NTP timestamp hexstring (e.g. "c1a089bd.fc904f6d") to the NTP
     * 64-bit unsigned fixed-point number.
     * @param hexString the string to convert
     *
     * @return NTP 64-bit timestamp value.
     * @throws NumberFormatException - if the string does not contain a parsable timestamp.
     */
    protected static long decodeNtpHexString(String hexString)
            throws NumberFormatException
    {
        if (hexString == null) {
            throw new NumberFormatException("null");
        }
        int ind = hexString.indexOf('.');
        if (ind == -1) {
            if (hexString.length() == 0) {
                return 0;
            }
            return Long.parseLong(hexString, 16) << 32; // no decimal
        }

        return Long.parseLong(hexString.substring(0, ind), 16) << 32 |
                Long.parseLong(hexString.substring(ind + 1), 16);
    }

    /***
     * Parses the string argument as a NTP hexidecimal timestamp representation string
     * (e.g. "c1a089bd.fc904f6d").
     *
     * @param s - hexstring.
     * @return the Timestamp represented by the argument in hexidecimal.
     * @throws NumberFormatException - if the string does not contain a parsable timestamp.
     */
    public static TimeStamp parseNtpString(String s)
            throws NumberFormatException
    {
        return new TimeStamp(decodeNtpHexString(s));
    }

    /***
     * Converts Java time to 64-bit NTP time representation.
     *
     * @param t Java time
     * @return NTP timestamp representation of Java time value.
     */
    protected static long toNtpTime(long t)
    {
        boolean useBase1 = t < msb0baseTime;    // time < Feb-2036
        long baseTime;
        if (useBase1) {
            baseTime = t - msb1baseTime; // dates <= Feb-2036
        } else {
            // if base0 needed for dates >= Feb-2036
            baseTime = t - msb0baseTime;
        }

        long seconds = baseTime / 1000;
        long fraction = ((baseTime % 1000) * 0x100000000L) / 1000;

        if (useBase1) {
            seconds |= 0x80000000L; // set high-order bit if msb1baseTime 1900 used
        }

        long time = seconds << 32 | fraction;
        return time;
    }

    /***
     * Computes a hashcode for this Timestamp. The result is the exclusive
     * OR of the two halves of the primitive <code>long</code> value
     * represented by this <code>TimeStamp</code> object. That is, the hashcode
     * is the value of the expression:
     * <blockquote><pre>
     * {@code (int)(this.ntpValue()^(this.ntpValue() >>> 32))}
     * </pre></blockquote>
     *
     * @return  a hash code value for this object.
     */
    @Override
    public int hashCode()
    {
        return (int) (ntpTime ^ (ntpTime >>> 32));
    }

    /***
     * Compares this object against the specified object.
     * The result is <code>true</code> if and only if the argument is
     * not <code>null</code> and is a <code>Long</code> object that
     * contains the same <code>long</code> value as this object.
     *
     * @param   obj   the object to compare with.
     * @return  <code>true</code> if the objects are the same;
     *          <code>false</code> otherwise.
     */
    @Override
    public boolean equals(Object obj)
    {
        if (obj instanceof TimeStamp) {
            return ntpTime == ((TimeStamp) obj).ntpValue();
        }
        return false;
    }

    /***
     * Converts this <code>TimeStamp</code> object to a <code>String</code>.
     * The NTP timestamp 64-bit long value is represented as hex string with
     * seconds separated by fractional seconds by a decimal point;
     * e.g. c1a089bd.fc904f6d == Tue, Dec 10 2002 10:41:49.986
     *
     * @return NTP timestamp 64-bit long value as hex string with seconds
     * separated by fractional seconds.
     */
    @Override
    public String toString()
    {
        return toString(ntpTime);
    }

    /***
     * Left-pad 8-character hex string with 0's
     *
     * @param buf - StringBuilder which is appended with leading 0's.
     * @param l - a long.
     */
    private static void appendHexString(StringBuilder buf, long l)
    {
        String s = Long.toHexString(l);
        for (int i = s.length(); i < 8; i++) {
            buf.append('0');
        }
        buf.append(s);
    }

    /***
     * Converts 64-bit NTP timestamp value to a <code>String</code>.
     * The NTP timestamp value is represented as hex string with
     * seconds separated by fractional seconds by a decimal point;
     * e.g. c1a089bd.fc904f6d == Tue, Dec 10 2002 10:41:49.986
     * @param ntpTime the 64 bit timestamp
     *
     * @return NTP timestamp 64-bit long value as hex string with seconds
     * separated by fractional seconds.
     */
    public static String toString(long ntpTime)
    {
        StringBuilder buf = new StringBuilder();
        // high-order second bits (32..63) as hexstring
        appendHexString(buf, (ntpTime >>> 32) & 0xffffffffL);

        // low-order fractional seconds bits (0..31) as hexstring
        buf.append('.');
        appendHexString(buf, ntpTime & 0xffffffffL);

        return buf.toString();
    }

    /***
     * Converts this <code>TimeStamp</code> object to a <code>String</code>
     * of the form:
     * <blockquote><pre>
     * EEE, MMM dd yyyy HH:mm:ss.SSS</pre></blockquote>
     * See java.text.SimpleDataFormat for code descriptions.
     *
     * @return  a string representation of this date.
     */
    public String toDateString()
    {
        if (simpleFormatter == null) {
            simpleFormatter = new SimpleDateFormat(NTP_DATE_FORMAT, Locale.US);
            simpleFormatter.setTimeZone(TimeZone.getDefault());
        }
        Date ntpDate = getDate();
        return simpleFormatter.format(ntpDate);
    }

    /***
     * Converts this <code>TimeStamp</code> object to a <code>String</code>
     * of the form:
     * <blockquote><pre>
     * EEE, MMM dd yyyy HH:mm:ss.SSS UTC</pre></blockquote>
     * See java.text.SimpleDataFormat for code descriptions.
     *
     * @return  a string representation of this date in UTC.
     */
    public String toUTCString()
    {
        if (utcFormatter == null) {
            utcFormatter = new SimpleDateFormat(NTP_DATE_FORMAT + " 'UTC'",
                    Locale.US);
            utcFormatter.setTimeZone(TimeZone.getTimeZone("UTC"));
        }
        Date ntpDate = getDate();
        return utcFormatter.format(ntpDate);
    }

    /***
     * Compares two Timestamps numerically.
     *
     * @param   anotherTimeStamp - the <code>TimeStamp</code> to be compared.
     * @return  the value <code>0</code> if the argument TimeStamp is equal to
     *          this TimeStamp; a value less than <code>0</code> if this TimeStamp
     *          is numerically less than the TimeStamp argument; and a
     *          value greater than <code>0</code> if this TimeStamp is
     *          numerically greater than the TimeStamp argument
     *          (signed comparison).
     */
    @Override
    public int compareTo(TimeStamp anotherTimeStamp)
    {
        long thisVal = this.ntpTime;
        long anotherVal = anotherTimeStamp.ntpTime;
        return (thisVal < anotherVal ? -1 : (thisVal == anotherVal ? 0 : 1));
    }

}

org/apache/commons/net/ntp/TimeStamp.java

 

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