mirror of
https://github.com/prometheus/node_exporter.git
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241 lines
6.6 KiB
Go
241 lines
6.6 KiB
Go
// Copyright 2015 Brett Vickers.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package ntp provides a simple mechanism for querying the current time from
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// a remote NTP server. See RFC 5905. Approach inspired by go-nuts post by
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// Michael Hofmann:
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//
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// https://groups.google.com/forum/?fromgroups#!topic/golang-nuts/FlcdMU5fkLQ
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package ntp
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import (
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"encoding/binary"
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"net"
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"time"
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)
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type mode uint8
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const (
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reserved mode = 0 + iota
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symmetricActive
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symmetricPassive
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client
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server
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broadcast
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controlMessage
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reservedPrivate
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)
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const (
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maxStratum = 16
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nanoPerSec = 1000000000
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)
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var (
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timeout = 5 * time.Second
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ntpEpoch = time.Date(1900, 1, 1, 0, 0, 0, 0, time.UTC)
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)
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// An ntpTime is a 64-bit fixed-point (Q32.32) representation of the number of
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// seconds elapsed since the NTP epoch.
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type ntpTime uint64
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// Duration interprets the fixed-point ntpTime as a number of elapsed seconds
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// and returns the corresponding time.Duration value.
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func (t ntpTime) Duration() time.Duration {
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sec := (t >> 32) * nanoPerSec
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frac := (t & 0xffffffff) * nanoPerSec >> 32
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return time.Duration(sec + frac)
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}
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// Time interprets the fixed-point ntpTime as a an absolute time and returns
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// the corresponding time.Time value.
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func (t ntpTime) Time() time.Time {
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return ntpEpoch.Add(t.Duration())
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}
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// toNtpTime converts the time.Time value t into its 64-bit fixed-point
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// ntpTime representation.
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func toNtpTime(t time.Time) ntpTime {
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nsec := uint64(t.Sub(ntpEpoch))
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sec := nsec / nanoPerSec
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frac := (nsec - sec*nanoPerSec) << 32 / nanoPerSec
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return ntpTime(sec<<32 | frac)
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}
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// An ntpTimeShort is a 32-bit fixed-point (Q16.16) representation of the
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// number of seconds elapsed since the NTP epoch.
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type ntpTimeShort uint32
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// Duration interprets the fixed-point ntpTimeShort as a number of elapsed
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// seconds and returns the corresponding time.Duration value.
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func (t ntpTimeShort) Duration() time.Duration {
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sec := (t >> 16) * nanoPerSec
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frac := (t & 0xffff) * nanoPerSec >> 16
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return time.Duration(sec + frac)
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}
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// msg is an internal representation of an NTP packet.
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type msg struct {
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LiVnMode uint8 // Leap Indicator (2) + Version (3) + Mode (3)
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Stratum uint8
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Poll int8
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Precision int8
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RootDelay ntpTimeShort
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RootDispersion ntpTimeShort
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ReferenceID uint32
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ReferenceTime ntpTime
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OriginTime ntpTime
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ReceiveTime ntpTime
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TransmitTime ntpTime
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}
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// setVersion sets the NTP protocol version on the message.
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func (m *msg) setVersion(v int) {
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m.LiVnMode = (m.LiVnMode & 0xc7) | uint8(v)<<3
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}
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// setMode sets the NTP protocol mode on the message.
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func (m *msg) setMode(md mode) {
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m.LiVnMode = (m.LiVnMode & 0xf8) | uint8(md)
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}
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// A Response contains time data, some of which is returned by the NTP server
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// and some of which is calculated by the client.
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type Response struct {
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Time time.Time // receive time reported by the server
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RTT time.Duration // round-trip time between client and server
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ClockOffset time.Duration // local clock offset relative to server
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Poll time.Duration // maximum polling interval
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Precision time.Duration // precision of server's system clock
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Stratum uint8 // stratum level of NTP server's clock
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ReferenceID uint32 // server's reference ID
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RootDelay time.Duration // server's RTT to the reference clock
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RootDispersion time.Duration // server's dispersion to the reference clock
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}
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// Query returns the current time from the remote server host using the
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// requested version of the NTP protocol. It also returns additional
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// information about the exchanged time information. The version may be 2, 3,
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// or 4; although 4 is most typically used.
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func Query(host string, version int) (*Response, error) {
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m, err := getTime(host, version)
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now := toNtpTime(time.Now())
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if err != nil {
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return nil, err
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}
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r := &Response{
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Time: m.ReceiveTime.Time(),
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RTT: rtt(m.OriginTime, m.ReceiveTime, m.TransmitTime, now),
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ClockOffset: offset(m.OriginTime, m.ReceiveTime, m.TransmitTime, now),
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Poll: toInterval(m.Poll),
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Precision: toInterval(m.Precision),
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Stratum: m.Stratum,
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ReferenceID: m.ReferenceID,
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RootDelay: m.RootDelay.Duration(),
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RootDispersion: m.RootDispersion.Duration(),
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}
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// https://tools.ietf.org/html/rfc5905#section-7.3
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if r.Stratum == 0 {
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r.Stratum = maxStratum
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}
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return r, nil
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}
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// getTime returns the "receive time" from the remote NTP server host.
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func getTime(host string, version int) (*msg, error) {
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if version < 2 || version > 4 {
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panic("ntp: invalid version number")
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}
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raddr, err := net.ResolveUDPAddr("udp", host+":123")
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if err != nil {
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return nil, err
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}
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con, err := net.DialUDP("udp", nil, raddr)
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if err != nil {
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return nil, err
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}
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defer con.Close()
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con.SetDeadline(time.Now().Add(timeout))
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m := new(msg)
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m.setMode(client)
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m.setVersion(version)
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m.TransmitTime = toNtpTime(time.Now())
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err = binary.Write(con, binary.BigEndian, m)
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if err != nil {
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return nil, err
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}
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err = binary.Read(con, binary.BigEndian, m)
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if err != nil {
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return nil, err
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}
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return m, nil
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}
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// TimeV returns the current time from the remote server host using the
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// requested version of the NTP protocol. The version may be 2, 3, or 4;
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// although 4 is most typically used.
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func TimeV(host string, version int) (time.Time, error) {
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m, err := getTime(host, version)
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if err != nil {
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return time.Now(), err
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}
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return m.ReceiveTime.Time().Local(), nil
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}
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// Time returns the current time from the remote server host using version 4
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// of the NTP protocol.
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func Time(host string) (time.Time, error) {
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return TimeV(host, 4)
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}
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func rtt(t1, t2, t3, t4 ntpTime) time.Duration {
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// round trip delay time (https://tools.ietf.org/html/rfc5905#section-8)
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// T1 = client send time
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// T2 = server receive time
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// T3 = server reply time
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// T4 = client receive time
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//
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// RTT d:
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// d = (T4-T1) - (T3-T2)
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a := t4.Time().Sub(t1.Time())
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b := t3.Time().Sub(t2.Time())
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return a - b
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}
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func offset(t1, t2, t3, t4 ntpTime) time.Duration {
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// local offset equation (https://tools.ietf.org/html/rfc5905#section-8)
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// T1 = client send time
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// T2 = server receive time
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// T3 = server reply time
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// T4 = client receive time
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//
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// Local clock offset t:
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// t = ((T2-T1) + (T3-T4)) / 2
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a := t2.Time().Sub(t1.Time())
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b := t3.Time().Sub(t4.Time())
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return (a + b) / time.Duration(2)
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}
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func toInterval(t int8) time.Duration {
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switch {
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case t > 0:
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return time.Duration(uint64(time.Second) << uint(t))
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case t < 0:
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return time.Duration(uint64(time.Second) >> uint(-t))
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default:
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return time.Second
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}
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}
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