3com S7906E 설치 설명서

 

1-3 

This is only a rough description of the work mechanism of NTP. For details, refer to RFC 1305. 

NTP uses two types of messages, clock synchronization message and NTP control message. An NTP 

control message is used in environments where network management is needed. As it is not a must for 

clock synchronization, it will not be discussed in this document. 

 

All NTP messages mentioned in this document refer to NTP clock synchronization messages. 

 

A clock synchronization message is encapsulated in a UDP message, in the format shown in 

Figure 1-2 Clock synchronization message format 

LI

VN

Mode

Stratum

Poll

Precision

0

7

15

23

31

Root delay (32 bits)

Root dispersion (32 bits)

Reference identifier (32 bits)

Receive timestamp (64 bits)

Transmit timestamp (64 bits)

Authenticator (optional 96 bits)

Reference timestamp (64 bits)

Originate timestamp (64 bits)

1

4

 

 

Main fields are described as follows: 

z 

LI: 2-bit leap indicator. When set to 11, it warns of an alarm condition (clock unsynchronized); when 

set to any other value, it is not to be processed by NTP. 

z 

VN: 3-bit version number, indicating the version of NTP. The latest version is version 3. 

z 

Mode: a 3-bit code indicating the work mode of NTP. This field can be set to these values: 0 – 

reserved; 1 – symmetric active; 2 – symmetric passive; 3 – client; 4 – server; 5 – broadcast or 

multicast; 6 – NTP control message; 7 – reserved for private use. 

z 

Stratum: an 8-bit integer indicating the stratum level of the local clock, with the value ranging from 1 

to 16. The clock precision decreases from stratum 1 through stratum 16. A stratum 1 clock has the 

highest precision, and a stratum 16 clock is not synchronized and cannot be used as a reference 

clock.