121 lines
3.6 KiB
Go
121 lines
3.6 KiB
Go
package influxunifi
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import (
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"github.com/unpoller/unifi/v5"
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)
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// pduT is used as a name for printed/logged counters.
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const pduT = item("PDU")
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// batchPDU generates Unifi PDU data points for InfluxDB.
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// These points can be passed directly to influx.
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func (u *InfluxUnifi) batchPDU(r report, s *unifi.PDU) {
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if !s.Adopted.Val || s.Locating.Val {
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return
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}
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tags := map[string]string{
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"mac": s.Mac,
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"site_name": s.SiteName,
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"source": s.SourceName,
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"name": s.Name,
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"version": s.Version,
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"model": s.Model,
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"serial": s.Serial,
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"type": s.Type,
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}
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fields := Combine(
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u.batchPDUstat(s.Stat.Sw),
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u.batchSysStats(s.SysStats, s.SystemStats),
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map[string]any{
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"guest-num_sta": s.GuestNumSta.Val,
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"ip": s.IP,
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"bytes": s.Bytes.Val,
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"last_seen": s.LastSeen.Val,
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"rx_bytes": s.RxBytes.Val,
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"tx_bytes": s.TxBytes.Val,
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"uptime": s.Uptime.Val,
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"state": s.State.Val,
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"user-num_sta": s.UserNumSta.Val,
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"upgradeable": s.Upgradeable.Val,
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"outlet_ac_power_budget": s.OutletACPowerBudget.Val,
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"outlet_ac_power_consumption": s.OutletACPowerConsumption.Val,
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"outlet_enabled": s.OutletEnabled.Val,
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"overheating": s.Overheating.Val,
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"power_source": s.PowerSource.Val,
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"total_max_power": s.TotalMaxPower.Val,
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})
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r.addCount(pduT)
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r.send(&metric{Table: "pdu", Tags: tags, Fields: fields})
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u.batchPortTable(r, tags, s.PortTable)
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for _, oo := range s.OutletOverrides {
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oot := cleanTags(map[string]string{
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"mac": s.Mac,
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"site_name": s.SiteName,
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"source": s.SourceName,
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"name": s.Name,
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"version": s.Version,
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"model": s.Model,
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"serial": s.Serial,
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"type": s.Type,
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"ip": s.IP,
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"outlet_index": oo.Index.Txt,
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"outlet_name": oo.Name,
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})
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ood := map[string]any{
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"cycle_enabled": oo.CycleEnabled.Val,
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"relay_state": oo.RelayState.Val,
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}
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r.send(&metric{Table: "pdu.outlet_overrides", Tags: oot, Fields: ood})
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}
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for _, ot := range s.OutletTable {
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ott := cleanTags(map[string]string{
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"mac": s.Mac,
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"site_name": s.SiteName,
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"source": s.SourceName,
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"name": s.Name,
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"version": s.Version,
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"model": s.Model,
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"serial": s.Serial,
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"type": s.Type,
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"ip": s.IP,
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"outlet_index": ot.Index.Txt,
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"outlet_name": ot.Name,
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})
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otd := map[string]any{
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"cycle_enabled": ot.CycleEnabled.Val,
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"relay_state": ot.RelayState.Val,
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"outlet_caps": ot.OutletCaps.Val,
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"outlet_power_factor": ot.OutletPowerFactor.Val,
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"outlet_current": ot.OutletCurrent.Val,
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"outlet_power": ot.OutletPower.Val,
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"outlet_voltage": ot.OutletVoltage.Val,
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}
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r.send(&metric{Table: "pdu.outlet_table", Tags: ott, Fields: otd})
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}
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}
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func (u *InfluxUnifi) batchPDUstat(sw *unifi.Sw) map[string]any {
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if sw == nil {
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return map[string]any{}
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}
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return map[string]any{
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"stat_bytes": sw.Bytes.Val,
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"stat_rx_bytes": sw.RxBytes.Val,
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"stat_rx_crypts": sw.RxCrypts.Val,
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"stat_rx_dropped": sw.RxDropped.Val,
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"stat_rx_errors": sw.RxErrors.Val,
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"stat_rx_frags": sw.RxFrags.Val,
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"stat_rx_packets": sw.TxPackets.Val,
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"stat_tx_bytes": sw.TxBytes.Val,
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"stat_tx_dropped": sw.TxDropped.Val,
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"stat_tx_errors": sw.TxErrors.Val,
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"stat_tx_packets": sw.TxPackets.Val,
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"stat_tx_retries": sw.TxRetries.Val,
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}
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}
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