forked from unpoller/influxunifi
/
usw.go
133 lines (121 loc) · 3.87 KB
/
usw.go
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package influxunifi
import (
"github.com/unpoller/unifi"
)
// uswT is used as a name for printed/logged counters.
const uswT = item("USW")
// batchUSW generates Unifi Switch datapoints for InfluxDB.
// These points can be passed directly to influx.
func (u *InfluxUnifi) batchUSW(r report, s *unifi.USW) {
if !s.Adopted.Val || s.Locating.Val {
return
}
tags := map[string]string{
"mac": s.Mac,
"site_name": s.SiteName,
"source": s.SourceName,
"name": s.Name,
"version": s.Version,
"model": s.Model,
"serial": s.Serial,
"type": s.Type,
}
fields := Combine(
u.batchUSWstat(s.Stat.Sw),
u.batchSysStats(s.SysStats, s.SystemStats),
map[string]interface{}{
"guest-num_sta": s.GuestNumSta.Val,
"ip": s.IP,
"bytes": s.Bytes.Val,
"fan_level": s.FanLevel.Val,
"general_temperature": s.GeneralTemperature.Val,
"last_seen": s.LastSeen.Val,
"rx_bytes": s.RxBytes.Val,
"tx_bytes": s.TxBytes.Val,
"uptime": s.Uptime.Val,
"state": s.State.Val,
"user-num_sta": s.UserNumSta.Val,
})
r.addCount(uswT)
r.send(&metric{Table: "usw", Tags: tags, Fields: fields})
u.batchPortTable(r, tags, s.PortTable)
}
func (u *InfluxUnifi) batchUSWstat(sw *unifi.Sw) map[string]interface{} {
if sw == nil {
return map[string]interface{}{}
}
return map[string]interface{}{
"stat_bytes": sw.Bytes.Val,
"stat_rx_bytes": sw.RxBytes.Val,
"stat_rx_crypts": sw.RxCrypts.Val,
"stat_rx_dropped": sw.RxDropped.Val,
"stat_rx_errors": sw.RxErrors.Val,
"stat_rx_frags": sw.RxFrags.Val,
"stat_rx_packets": sw.TxPackets.Val,
"stat_tx_bytes": sw.TxBytes.Val,
"stat_tx_dropped": sw.TxDropped.Val,
"stat_tx_errors": sw.TxErrors.Val,
"stat_tx_packets": sw.TxPackets.Val,
"stat_tx_retries": sw.TxRetries.Val,
}
}
//nolint:funlen
func (u *InfluxUnifi) batchPortTable(r report, t map[string]string, pt []unifi.Port) {
for _, p := range pt {
if !u.DeadPorts && (!p.Up.Val || !p.Enable.Val) {
continue // only record UP ports.
}
tags := map[string]string{
"site_name": t["site_name"],
"device_name": t["name"],
"source": t["source"],
"type": t["type"],
"name": p.Name,
"poe_mode": p.PoeMode,
"port_poe": p.PortPoe.Txt,
"port_idx": p.PortIdx.Txt,
"port_id": t["name"] + " Port " + p.PortIdx.Txt,
"poe_enable": p.PoeEnable.Txt,
"flowctrl_rx": p.FlowctrlRx.Txt,
"flowctrl_tx": p.FlowctrlTx.Txt,
"media": p.Media,
"has_sfp": p.SFPFound.Txt,
"sfp_compliance": p.SFPCompliance,
"sfp_serial": p.SFPSerial,
"sfp_vendor": p.SFPVendor,
"sfp_part": p.SFPPart,
}
fields := map[string]interface{}{
"dbytes_r": p.BytesR.Val,
"rx_broadcast": p.RxBroadcast.Val,
"rx_bytes": p.RxBytes.Val,
"rx_bytes-r": p.RxBytesR.Val,
"rx_dropped": p.RxDropped.Val,
"rx_errors": p.RxErrors.Val,
"rx_multicast": p.RxMulticast.Val,
"rx_packets": p.RxPackets.Val,
"speed": p.Speed.Val,
"stp_pathcost": p.StpPathcost.Val,
"tx_broadcast": p.TxBroadcast.Val,
"tx_bytes": p.TxBytes.Val,
"tx_bytes-r": p.TxBytesR.Val,
"tx_dropped": p.TxDropped.Val,
"tx_errors": p.TxErrors.Val,
"tx_multicast": p.TxMulticast.Val,
"tx_packets": p.TxPackets.Val,
}
if p.PoeEnable.Val && p.PortPoe.Val {
fields["poe_current"] = p.PoeCurrent.Val
fields["poe_power"] = p.PoePower.Val
fields["poe_voltage"] = p.PoeVoltage.Val
}
if p.SFPFound.Val {
fields["sfp_current"] = p.SFPCurrent.Val
fields["sfp_voltage"] = p.SFPVoltage.Val
fields["sfp_temperature"] = p.SFPTemperature.Val
fields["sfp_txpower"] = p.SFPTxpower.Val
fields["sfp_rxpower"] = p.SFPRxpower.Val
}
r.send(&metric{Table: "usw_ports", Tags: tags, Fields: fields})
}
}