commons-net.jar Source Code
commons-net.jar is the bytecode of Apache Commons Net library,
which implements the client side of many basic Internet protocols.
Apache Commons Net Source Code files are provided in the binary packge (commons-net-3.8.0-bin.zip). You can download it at Apache Commons Net Website.
The source code of commons-net-3.8.0.jar is provided below:
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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>
*
* @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(final 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(final 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(final 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;
}
/**
* Converts NTP timestamp to Java standard time.
*
* @return the number of milliseconds since January 1, 1970, 00:00:00 GMT
* represented by this NTP timestamp value.
*/
public long getTime()
{
return getTime(ntpTime);
}
/**
* Converts NTP timestamp to Java Date object.
*
* @return NTP Timestamp in Java Date
*/
public Date getDate()
{
return new Date(getTime(ntpTime));
}
/**
* Converts 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(final long ntpTimeValue)
{
final 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.
*/
final long msb = seconds & 0x80000000L;
if (msb == 0) {
// use base: 7-Feb-2036 @ 06:28:16 UTC
return msb0baseTime + (seconds * 1000) + fraction;
}
// 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 dateMillis the milliseconds since January 1, 1970, 00:00:00 GMT.
* @return NTP timestamp object at the specified date.
*/
public static TimeStamp getNtpTime(final long dateMillis)
{
return new TimeStamp(toNtpTime(dateMillis));
}
/**
* 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(final String hexString)
throws NumberFormatException
{
if (hexString == null) {
throw new NumberFormatException("null");
}
final int ind = hexString.indexOf('.');
if (ind == -1) {
if (hexString.isEmpty()) {
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(final String s)
throws NumberFormatException
{
return new TimeStamp(decodeNtpHexString(s));
}
/**
* Converts Java time to 64-bit NTP time representation.
*
* @param millis Java time
* @return NTP timestamp representation of Java time value.
*/
protected static long toNtpTime(final long millis)
{
final boolean useBase1 = millis < msb0baseTime; // time < Feb-2036
final long baseTimeMillis;
if (useBase1) {
baseTimeMillis = millis - msb1baseTime; // dates <= Feb-2036
} else {
// if base0 needed for dates >= Feb-2036
baseTimeMillis = millis - msb0baseTime;
}
long seconds = baseTimeMillis / 1000;
final long fraction = ((baseTimeMillis % 1000) * 0x100000000L) / 1000;
if (useBase1) {
seconds |= 0x80000000L; // set high-order bit if msb1baseTime 1900 used
}
return seconds << 32 | fraction;
}
/**
* 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(final 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(final StringBuilder buf, final long l)
{
final 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(final long ntpTime)
{
final 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());
}
final 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"));
}
final 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(final TimeStamp anotherTimeStamp)
{
final long thisVal = this.ntpTime;
final long anotherVal = anotherTimeStamp.ntpTime;
return (thisVal < anotherVal ? -1 : (thisVal == anotherVal ? 0 : 1));
}
}
⏎ org/apache/commons/net/ntp/TimeStamp.java
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