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/NtpV3Impl.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.net.DatagramPacket;
/**
* Implementation of NtpV3Packet with methods converting Java objects to/from
* the Network Time Protocol (NTP) data message header format described in RFC-1305.
*
*/
public class NtpV3Impl implements NtpV3Packet
{
private static final int MODE_INDEX = 0;
private static final int MODE_SHIFT = 0;
private static final int VERSION_INDEX = 0;
private static final int VERSION_SHIFT = 3;
private static final int LI_INDEX = 0;
private static final int LI_SHIFT = 6;
private static final int STRATUM_INDEX = 1;
private static final int POLL_INDEX = 2;
private static final int PRECISION_INDEX = 3;
private static final int ROOT_DELAY_INDEX = 4;
private static final int ROOT_DISPERSION_INDEX = 8;
private static final int REFERENCE_ID_INDEX = 12;
private static final int REFERENCE_TIMESTAMP_INDEX = 16;
private static final int ORIGINATE_TIMESTAMP_INDEX = 24;
private static final int RECEIVE_TIMESTAMP_INDEX = 32;
private static final int TRANSMIT_TIMESTAMP_INDEX = 40;
// private static final int KEY_IDENTIFIER_INDEX = 48;
// private static final int MESSAGE_DIGEST = 54; /* len 16 bytes */
private final byte[] buf = new byte[48];
private volatile DatagramPacket dp;
/** Creates a new instance of NtpV3Impl */
public NtpV3Impl()
{
}
/**
* Returns mode as defined in RFC-1305 which is a 3-bit integer
* whose value is indicated by the MODE_xxx parameters.
*
* @return mode as defined in RFC-1305.
*/
@Override
public int getMode()
{
return (ui(buf[MODE_INDEX]) >> MODE_SHIFT) & 0x7;
}
/**
* Return human-readable name of message mode type as described in
* RFC 1305.
* @return mode name as string.
*/
@Override
public String getModeName()
{
return NtpUtils.getModeName(getMode());
}
/**
* Set mode as defined in RFC-1305.
*
* @param mode the mode to set
*/
@Override
public void setMode(final int mode)
{
buf[MODE_INDEX] = (byte) (buf[MODE_INDEX] & 0xF8 | mode & 0x7);
}
/**
* Returns leap indicator as defined in RFC-1305 which is a two-bit code:
* 0=no warning
* 1=last minute has 61 seconds
* 2=last minute has 59 seconds
* 3=alarm condition (clock not synchronized)
*
* @return leap indicator as defined in RFC-1305.
*/
@Override
public int getLeapIndicator()
{
return (ui(buf[LI_INDEX]) >> LI_SHIFT) & 0x3;
}
/**
* Set leap indicator as defined in RFC-1305.
*
* @param li leap indicator.
*/
@Override
public void setLeapIndicator(final int li)
{
buf[LI_INDEX] = (byte) (buf[LI_INDEX] & 0x3F | ((li & 0x3) << LI_SHIFT));
}
/**
* Returns poll interval as defined in RFC-1305, which is an eight-bit
* signed integer indicating the maximum interval between successive
* messages, in seconds to the nearest power of two (e.g. value of six
* indicates an interval of 64 seconds. The values that can appear in
* this field range from NTP_MINPOLL to NTP_MAXPOLL inclusive.
*
* @return poll interval as defined in RFC-1305.
*/
@Override
public int getPoll()
{
return buf[POLL_INDEX];
}
/**
* Set poll interval as defined in RFC-1305.
*
* @param poll poll interval.
*/
@Override
public void setPoll(final int poll)
{
buf[POLL_INDEX] = (byte) (poll & 0xFF);
}
/**
* Returns precision as defined in RFC-1305 encoded as an 8-bit signed
* integer (seconds to nearest power of two).
* Values normally range from -6 to -20.
*
* @return precision as defined in RFC-1305.
*/
@Override
public int getPrecision()
{
return buf[PRECISION_INDEX];
}
/**
* Set precision as defined in RFC-1305.
* @param precision the precision to set
* @since 3.4
*/
@Override
public void setPrecision(final int precision)
{
buf[PRECISION_INDEX] = (byte) (precision & 0xFF);
}
/**
* Returns NTP version number as defined in RFC-1305.
*
* @return NTP version number.
*/
@Override
public int getVersion()
{
return (ui(buf[VERSION_INDEX]) >> VERSION_SHIFT) & 0x7;
}
/**
* Set NTP version as defined in RFC-1305.
*
* @param version NTP version.
*/
@Override
public void setVersion(final int version)
{
buf[VERSION_INDEX] = (byte) (buf[VERSION_INDEX] & 0xC7 | ((version & 0x7) << VERSION_SHIFT));
}
/**
* Returns Stratum as defined in RFC-1305, which indicates the stratum level
* of the local clock, with values defined as follows: 0=unspecified,
* 1=primary ref clock, and all others a secondary reference (via NTP).
*
* @return Stratum level as defined in RFC-1305.
*/
@Override
public int getStratum()
{
return ui(buf[STRATUM_INDEX]);
}
/**
* Set stratum level as defined in RFC-1305.
*
* @param stratum stratum level.
*/
@Override
public void setStratum(final int stratum)
{
buf[STRATUM_INDEX] = (byte) (stratum & 0xFF);
}
/**
* Return root delay as defined in RFC-1305, which is the total roundtrip delay
* to the primary reference source, in seconds. Values can take positive and
* negative values, depending on clock precision and skew.
*
* @return root delay as defined in RFC-1305.
*/
@Override
public int getRootDelay()
{
return getInt(ROOT_DELAY_INDEX);
}
/**
* Set root delay as defined in RFC-1305.
*
* @param delay root delay
* @since 3.4
*/
@Override
public void setRootDelay(final int delay)
{
setInt(ROOT_DELAY_INDEX, delay);
}
/**
* Return root delay as defined in RFC-1305 in milliseconds, which is
* the total roundtrip delay to the primary reference source, in
* seconds. Values can take positive and negative values, depending
* on clock precision and skew.
*
* @return root delay in milliseconds
*/
@Override
public double getRootDelayInMillisDouble()
{
final double l = getRootDelay();
return l / 65.536;
}
/**
* Returns root dispersion as defined in RFC-1305.
* @return root dispersion.
*/
@Override
public int getRootDispersion()
{
return getInt(ROOT_DISPERSION_INDEX);
}
/**
* Set root dispersion as defined in RFC-1305.
*
* @param dispersion root dispersion
* @since 3.4
*/
@Override
public void setRootDispersion(final int dispersion)
{
setInt(ROOT_DISPERSION_INDEX, dispersion);
}
/**
* Returns root dispersion (as defined in RFC-1305) in milliseconds.
*
* @return root dispersion in milliseconds
*/
@Override
public long getRootDispersionInMillis()
{
final long l = getRootDispersion();
return (l * 1000) / 65536L;
}
/**
* Returns root dispersion (as defined in RFC-1305) in milliseconds
* as double precision value.
*
* @return root dispersion in milliseconds
*/
@Override
public double getRootDispersionInMillisDouble()
{
final double l = getRootDispersion();
return l / 65.536;
}
/**
* Set reference clock identifier field with 32-bit unsigned integer value.
* See RFC-1305 for description.
*
* @param refId reference clock identifier.
*/
@Override
public void setReferenceId(final int refId)
{
setInt(REFERENCE_ID_INDEX, refId);
}
/**
* Returns the reference id as defined in RFC-1305, which is
* a 32-bit integer whose value is dependent on several criteria.
*
* @return the reference id as defined in RFC-1305.
*/
@Override
public int getReferenceId()
{
return getInt(REFERENCE_ID_INDEX);
}
/**
* Returns the reference id string. String cannot be null but
* value is dependent on the version of the NTP spec supported
* and stratum level. Value can be an empty string, clock type string,
* IP address, or a hex string.
*
* @return the reference id string.
*/
@Override
public String getReferenceIdString()
{
final int version = getVersion();
final int stratum = getStratum();
if (version == VERSION_3 || version == VERSION_4) {
if (stratum == 0 || stratum == 1) {
return idAsString(); // 4-character ASCII string (e.g. GPS, USNO)
}
// in NTPv4 servers this is latest transmit timestamp of ref source
if (version == VERSION_4) {
return idAsHex();
}
}
// Stratum 2 and higher this is a four-octet IPv4 address
// of the primary reference host.
if (stratum >= 2) {
return idAsIPAddress();
}
return idAsHex();
}
/**
* Returns Reference id as dotted IP address.
* @return refId as IP address string.
*/
private String idAsIPAddress()
{
return ui(buf[REFERENCE_ID_INDEX]) + "." +
ui(buf[REFERENCE_ID_INDEX + 1]) + "." +
ui(buf[REFERENCE_ID_INDEX + 2]) + "." +
ui(buf[REFERENCE_ID_INDEX + 3]);
}
private String idAsString()
{
final StringBuilder id = new StringBuilder();
for (int i = 0; i <= 3; i++) {
final char c = (char) buf[REFERENCE_ID_INDEX + i];
if (c == 0) { // 0-terminated string
break;
}
id.append(c);
}
return id.toString();
}
private String idAsHex()
{
return Integer.toHexString(getReferenceId());
}
/**
* Returns the transmit timestamp as defined in RFC-1305.
*
* @return the transmit timestamp as defined in RFC-1305.
* Never returns a null object.
*/
@Override
public TimeStamp getTransmitTimeStamp()
{
return getTimestamp(TRANSMIT_TIMESTAMP_INDEX);
}
/**
* Set transmit time with NTP timestamp.
* If <code>ts</code> is null then zero time is used.
*
* @param ts NTP timestamp
*/
@Override
public void setTransmitTime(final TimeStamp ts)
{
setTimestamp(TRANSMIT_TIMESTAMP_INDEX, ts);
}
/**
* Set originate timestamp given NTP TimeStamp object.
* If <code>ts</code> is null then zero time is used.
*
* @param ts NTP timestamp
*/
@Override
public void setOriginateTimeStamp(final TimeStamp ts)
{
setTimestamp(ORIGINATE_TIMESTAMP_INDEX, ts);
}
/**
* Returns the originate time as defined in RFC-1305.
*
* @return the originate time.
* Never returns null.
*/
@Override
public TimeStamp getOriginateTimeStamp()
{
return getTimestamp(ORIGINATE_TIMESTAMP_INDEX);
}
/**
* Returns the reference time as defined in RFC-1305.
*
* @return the reference time as <code>TimeStamp</code> object.
* Never returns null.
*/
@Override
public TimeStamp getReferenceTimeStamp()
{
return getTimestamp(REFERENCE_TIMESTAMP_INDEX);
}
/**
* Set Reference time with NTP timestamp. If <code>ts</code> is null
* then zero time is used.
*
* @param ts NTP timestamp
*/
@Override
public void setReferenceTime(final TimeStamp ts)
{
setTimestamp(REFERENCE_TIMESTAMP_INDEX, ts);
}
/**
* Returns receive timestamp as defined in RFC-1305.
*
* @return the receive time.
* Never returns null.
*/
@Override
public TimeStamp getReceiveTimeStamp()
{
return getTimestamp(RECEIVE_TIMESTAMP_INDEX);
}
/**
* Set receive timestamp given NTP TimeStamp object.
* If <code>ts</code> is null then zero time is used.
*
* @param ts timestamp
*/
@Override
public void setReceiveTimeStamp(final TimeStamp ts)
{
setTimestamp(RECEIVE_TIMESTAMP_INDEX, ts);
}
/**
* Return type of time packet. The values (e.g. NTP, TIME, ICMP, ...)
* correspond to the protocol used to obtain the timing information.
*
* @return packet type string identifier which in this case is "NTP".
*/
@Override
public String getType()
{
return "NTP";
}
/**
* @return 4 bytes as 32-bit int
*/
private int getInt(final int index)
{
final int i = ui(buf[index]) << 24 |
ui(buf[index + 1]) << 16 |
ui(buf[index + 2]) << 8 |
ui(buf[index + 3]);
return i;
}
/**
* Set integer value at index position.
*
* @param idx index position
* @param value 32-bit int value
*/
private void setInt(final int idx, int value)
{
for (int i=3; i >= 0; i--) {
buf[idx + i] = (byte) (value & 0xff);
value >>>= 8; // shift right one-byte
}
}
/**
* Get NTP Timestamp at specified starting index.
*
* @param index index into data array
* @return TimeStamp object for 64 bits starting at index
*/
private TimeStamp getTimestamp(final int index)
{
return new TimeStamp(getLong(index));
}
/**
* Get Long value represented by bits starting at specified index.
*
* @return 8 bytes as 64-bit long
*/
private long getLong(final int index)
{
final long i = ul(buf[index]) << 56 |
ul(buf[index + 1]) << 48 |
ul(buf[index + 2]) << 40 |
ul(buf[index + 3]) << 32 |
ul(buf[index + 4]) << 24 |
ul(buf[index + 5]) << 16 |
ul(buf[index + 6]) << 8 |
ul(buf[index + 7]);
return i;
}
/**
* Sets the NTP timestamp at the given array index.
*
* @param index index into the byte array.
* @param t TimeStamp.
*/
private void setTimestamp(final int index, final TimeStamp t)
{
long ntpTime = (t == null) ? 0 : t.ntpValue();
// copy 64-bits from Long value into 8 x 8-bit bytes of array
// one byte at a time shifting 8-bits for each position.
for (int i = 7; i >= 0; i--) {
buf[index + i] = (byte) (ntpTime & 0xFF);
ntpTime >>>= 8; // shift to next byte
}
// buf[index] |= 0x80; // only set if 1900 baseline....
}
/**
* Returns the datagram packet with the NTP details already filled in.
*
* @return a datagram packet.
*/
@Override
public synchronized DatagramPacket getDatagramPacket()
{
if (dp == null) {
dp = new DatagramPacket(buf, buf.length);
dp.setPort(NTP_PORT);
}
return dp;
}
/**
* Set the contents of this object from source datagram packet.
*
* @param srcDp source DatagramPacket to copy contents from, never null.
* @throws IllegalArgumentException if srcDp is null or byte length is less than minimum length of 48 bytes
*/
@Override
public void setDatagramPacket(final DatagramPacket srcDp)
{
if (srcDp == null || srcDp.getLength() < buf.length) {
throw new IllegalArgumentException();
}
final byte[] incomingBuf = srcDp.getData();
int len = srcDp.getLength();
if (len > buf.length) {
len = buf.length;
}
System.arraycopy(incomingBuf, 0, buf, 0, len);
final DatagramPacket dp = getDatagramPacket();
dp.setAddress(srcDp.getAddress());
final int port = srcDp.getPort();
dp.setPort(port > 0 ? port : NTP_PORT);
dp.setData(buf);
}
/**
* 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>NtpV3Impl</code> object that
* contains the same values as this object.
*
* @param obj the object to compare with.
* @return <code>true</code> if the objects are the same;
* <code>false</code> otherwise.
* @since 3.4
*/
@Override
public boolean equals(final Object obj)
{
if (this == obj) {
return true;
}
if (obj == null || getClass() != obj.getClass()) {
return false;
}
final NtpV3Impl other = (NtpV3Impl) obj;
return java.util.Arrays.equals(buf, other.buf);
}
/**
* Computes a hashcode for this object. The result is the exclusive
* OR of the values of this object stored as a byte array.
*
* @return a hash code value for this object.
* @since 3.4
*/
@Override
public int hashCode()
{
return java.util.Arrays.hashCode(buf);
}
/**
* Convert byte to unsigned integer.
* Java only has signed types so we have to do
* more work to get unsigned ops.
*
* @param b input byte
* @return unsigned int value of byte
*/
protected static final int ui(final byte b)
{
final int i = b & 0xFF;
return i;
}
/**
* Convert byte to unsigned long.
* Java only has signed types so we have to do
* more work to get unsigned ops
*
* @param b input byte
* @return unsigned long value of byte
*/
protected static final long ul(final byte b)
{
final long i = b & 0xFF;
return i;
}
/**
* Returns details of NTP packet as a string.
*
* @return details of NTP packet as a string.
*/
@Override
public String toString()
{
return "[" +
"version:" + getVersion() +
", mode:" + getMode() +
", poll:" + getPoll() +
", precision:" + getPrecision() +
", delay:" + getRootDelay() +
", dispersion(ms):" + getRootDispersionInMillisDouble() +
", id:" + getReferenceIdString() +
", xmitTime:" + getTransmitTimeStamp().toDateString() +
" ]";
}
}
⏎ org/apache/commons/net/ntp/NtpV3Impl.java
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