mirror of
https://github.com/prometheus/node_exporter.git
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4672ea1671
This removes the cgo import from timex collector, as it was only used to define two constants. Those are part of the Linux kernel<->userspace interface, thus there is no need to depend on libc to source them: https://github.com/torvalds/linux/blob/v4.18/include/uapi/linux/timex.h Signed-off-by: Luca Bruno <luca.bruno@coreos.com>
199 lines
6.3 KiB
Go
199 lines
6.3 KiB
Go
// Copyright 2017 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// +build linux
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// +build !notimex
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package collector
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import (
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"fmt"
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"syscall"
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"github.com/prometheus/client_golang/prometheus"
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)
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const (
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// The system clock is not synchronized to a reliable
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// server (TIME_ERROR).
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timeError = 5
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// The timex.Status time resolution bit (STA_NANO),
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// 0 = microsecond, 1 = nanoseconds.
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staNano = 0x2000
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// 1 second in
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nanoSeconds = 1000000000
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microSeconds = 1000000
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)
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type timexCollector struct {
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offset,
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freq,
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maxerror,
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esterror,
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status,
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constant,
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tick,
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ppsfreq,
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jitter,
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shift,
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stabil,
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jitcnt,
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calcnt,
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errcnt,
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stbcnt,
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tai,
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syncStatus typedDesc
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}
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func init() {
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registerCollector("timex", defaultEnabled, NewTimexCollector)
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}
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// NewTimexCollector returns a new Collector exposing adjtime(3) stats.
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func NewTimexCollector() (Collector, error) {
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const subsystem = "timex"
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return &timexCollector{
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offset: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "offset_seconds"),
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"Time offset in between local system and reference clock.",
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nil, nil,
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), prometheus.GaugeValue},
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freq: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "frequency_adjustment_ratio"),
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"Local clock frequency adjustment.",
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nil, nil,
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), prometheus.GaugeValue},
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maxerror: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "maxerror_seconds"),
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"Maximum error in seconds.",
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nil, nil,
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), prometheus.GaugeValue},
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esterror: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "estimated_error_seconds"),
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"Estimated error in seconds.",
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nil, nil,
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), prometheus.GaugeValue},
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status: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "status"),
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"Value of the status array bits.",
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nil, nil,
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), prometheus.GaugeValue},
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constant: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "loop_time_constant"),
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"Phase-locked loop time constant.",
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nil, nil,
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), prometheus.GaugeValue},
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tick: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "tick_seconds"),
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"Seconds between clock ticks.",
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nil, nil,
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), prometheus.GaugeValue},
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ppsfreq: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_frequency_hertz"),
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"Pulse per second frequency.",
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nil, nil,
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), prometheus.GaugeValue},
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jitter: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_jitter_seconds"),
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"Pulse per second jitter.",
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nil, nil,
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), prometheus.GaugeValue},
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shift: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_shift_seconds"),
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"Pulse per second interval duration.",
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nil, nil,
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), prometheus.GaugeValue},
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stabil: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_stability_hertz"),
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"Pulse per second stability, average of recent frequency changes.",
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nil, nil,
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), prometheus.GaugeValue},
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jitcnt: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_jitter_total"),
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"Pulse per second count of jitter limit exceeded events.",
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nil, nil,
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), prometheus.CounterValue},
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calcnt: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_calibration_total"),
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"Pulse per second count of calibration intervals.",
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nil, nil,
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), prometheus.CounterValue},
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errcnt: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_error_total"),
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"Pulse per second count of calibration errors.",
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nil, nil,
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), prometheus.CounterValue},
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stbcnt: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "pps_stability_exceeded_total"),
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"Pulse per second count of stability limit exceeded events.",
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nil, nil,
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), prometheus.CounterValue},
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tai: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "tai_offset_seconds"),
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"International Atomic Time (TAI) offset.",
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nil, nil,
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), prometheus.GaugeValue},
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syncStatus: typedDesc{prometheus.NewDesc(
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prometheus.BuildFQName(namespace, subsystem, "sync_status"),
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"Is clock synchronized to a reliable server (1 = yes, 0 = no).",
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nil, nil,
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), prometheus.GaugeValue},
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}, nil
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}
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func (c *timexCollector) Update(ch chan<- prometheus.Metric) error {
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var syncStatus float64
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var divisor float64
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var timex = new(syscall.Timex)
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status, err := syscall.Adjtimex(timex)
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if err != nil {
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return fmt.Errorf("failed to retrieve adjtimex stats: %v", err)
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}
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if status == timeError {
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syncStatus = 0
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} else {
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syncStatus = 1
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}
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if (timex.Status & staNano) != 0 {
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divisor = nanoSeconds
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} else {
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divisor = microSeconds
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}
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// See NOTES in adjtimex(2).
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const ppm16frac = 1000000.0 * 65536.0
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ch <- c.syncStatus.mustNewConstMetric(syncStatus)
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ch <- c.offset.mustNewConstMetric(float64(timex.Offset) / divisor)
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ch <- c.freq.mustNewConstMetric(1 + float64(timex.Freq)/ppm16frac)
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ch <- c.maxerror.mustNewConstMetric(float64(timex.Maxerror) / microSeconds)
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ch <- c.esterror.mustNewConstMetric(float64(timex.Esterror) / microSeconds)
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ch <- c.status.mustNewConstMetric(float64(timex.Status))
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ch <- c.constant.mustNewConstMetric(float64(timex.Constant))
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ch <- c.tick.mustNewConstMetric(float64(timex.Tick) / microSeconds)
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ch <- c.ppsfreq.mustNewConstMetric(float64(timex.Ppsfreq) / ppm16frac)
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ch <- c.jitter.mustNewConstMetric(float64(timex.Jitter) / divisor)
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ch <- c.shift.mustNewConstMetric(float64(timex.Shift))
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ch <- c.stabil.mustNewConstMetric(float64(timex.Stabil) / ppm16frac)
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ch <- c.jitcnt.mustNewConstMetric(float64(timex.Jitcnt))
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ch <- c.calcnt.mustNewConstMetric(float64(timex.Calcnt))
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ch <- c.errcnt.mustNewConstMetric(float64(timex.Errcnt))
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ch <- c.stbcnt.mustNewConstMetric(float64(timex.Stbcnt))
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ch <- c.tai.mustNewConstMetric(float64(timex.Tai))
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return nil
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}
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