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neptune_apex.go
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neptune_apex.go
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// Package neptuneapex implements an input plugin for the Neptune Apex
// aquarium controller.
package neptuneapex
import (
"encoding/xml"
"fmt"
"io/ioutil"
"math"
"net/http"
"strconv"
"strings"
"sync"
"time"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/internal"
"github.com/influxdata/telegraf/plugins/inputs"
)
// Measurement is constant across all metrics.
const Measurement = "neptune_apex"
type xmlReply struct {
SoftwareVersion string `xml:"software,attr"`
HardwareVersion string `xml:"hardware,attr"`
Hostname string `xml:"hostname"`
Serial string `xml:"serial"`
Timezone float64 `xml:"timezone"`
Date string `xml:"date"`
PowerFailed string `xml:"power>failed"`
PowerRestored string `xml:"power>restored"`
Probe []probe `xml:"probes>probe"`
Outlet []outlet `xml:"outlets>outlet"`
}
type probe struct {
Name string `xml:"name"`
Value string `xml:"value"`
Type *string `xml:"type"`
}
type outlet struct {
Name string `xml:"name"`
OutputID string `xml:"outputID"`
State string `xml:"state"`
DeviceID string `xml:"deviceID"`
Xstatus *string `xml:"xstatus"`
}
// NeptuneApex implements telegraf.Input.
type NeptuneApex struct {
Servers []string
ResponseTimeout internal.Duration
httpClient *http.Client
}
// Description implements telegraf.Input.Description
func (*NeptuneApex) Description() string {
return "Neptune Apex data collector"
}
// SampleConfig implements telegraf.Input.SampleConfig
func (*NeptuneApex) SampleConfig() string {
return `
## The Neptune Apex plugin reads the publicly available status.xml data from a local Apex.
## Measurements will be logged under "apex".
## The base URL of the local Apex(es). If you specify more than one server, they will
## be differentiated by the "source" tag.
servers = [
"http://apex.local",
]
## The response_timeout specifies how long to wait for a reply from the Apex.
#response_timeout = "5s"
`
}
// Gather implements telegraf.Input.Gather
func (n *NeptuneApex) Gather(acc telegraf.Accumulator) error {
var wg sync.WaitGroup
for _, server := range n.Servers {
wg.Add(1)
go func(server string) {
defer wg.Done()
acc.AddError(n.gatherServer(acc, server))
}(server)
}
wg.Wait()
return nil
}
func (n *NeptuneApex) gatherServer(
acc telegraf.Accumulator, server string) error {
resp, err := n.sendRequest(server)
if err != nil {
return err
}
return n.parseXML(acc, resp)
}
// parseXML is strict on the input and does not do best-effort parsing.
//This is because of the life-support nature of the Neptune Apex.
func (n *NeptuneApex) parseXML(acc telegraf.Accumulator, data []byte) error {
r := xmlReply{}
err := xml.Unmarshal(data, &r)
if err != nil {
return fmt.Errorf("unable to unmarshal XML: %v\nXML DATA: %q",
err, data)
}
var reportTime time.Time
var powerFailed, powerRestored int64
if reportTime, err = parseTime(r.Date, r.Timezone); err != nil {
return err
}
if val, err := parseTime(r.PowerFailed, r.Timezone); err != nil {
return err
} else {
powerFailed = val.UnixNano()
}
if val, err := parseTime(r.PowerRestored, r.Timezone); err != nil {
return err
} else {
powerRestored = val.UnixNano()
}
mainFields := map[string]interface{}{
"serial": r.Serial,
"power_failed": powerFailed,
"power_restored": powerRestored,
}
acc.AddFields(Measurement, mainFields,
map[string]string{
"source": r.Hostname,
"type": "controller",
"software": r.SoftwareVersion,
"hardware": r.HardwareVersion,
},
reportTime)
// Outlets.
for _, o := range r.Outlet {
tags := map[string]string{
"source": r.Hostname,
"output_id": o.OutputID,
"device_id": o.DeviceID,
"name": o.Name,
"type": "output",
"software": r.SoftwareVersion,
"hardware": r.HardwareVersion,
}
fields := map[string]interface{}{
"state": o.State,
}
// Find Amp and Watt probes and add them as fields.
// Remove the redundant probe.
if pos := findProbe(fmt.Sprintf("%sW", o.Name), r.Probe); pos > -1 {
value, err := strconv.ParseFloat(
strings.TrimSpace(r.Probe[pos].Value), 64)
if err != nil {
acc.AddError(
fmt.Errorf(
"cannot convert string value %q to float64: %v",
r.Probe[pos].Value, err))
continue // Skip the whole outlet.
}
fields["watt"] = value
r.Probe[pos] = r.Probe[len(r.Probe)-1]
r.Probe = r.Probe[:len(r.Probe)-1]
}
if pos := findProbe(fmt.Sprintf("%sA", o.Name), r.Probe); pos > -1 {
value, err := strconv.ParseFloat(
strings.TrimSpace(r.Probe[pos].Value), 64)
if err != nil {
acc.AddError(
fmt.Errorf(
"cannot convert string value %q to float64: %v",
r.Probe[pos].Value, err))
break // // Skip the whole outlet.
}
fields["amp"] = value
r.Probe[pos] = r.Probe[len(r.Probe)-1]
r.Probe = r.Probe[:len(r.Probe)-1]
}
if o.Xstatus != nil {
fields["xstatus"] = *o.Xstatus
}
// Try to determine outlet type. Focus on accuracy, leaving the
//outlet_type "unknown" when ambiguous. 24v and vortech cannot be
// determined.
switch {
case strings.HasPrefix(o.DeviceID, "base_Var"):
tags["output_type"] = "variable"
case o.DeviceID == "base_Alarm":
fallthrough
case o.DeviceID == "base_Warn":
fallthrough
case strings.HasPrefix(o.DeviceID, "base_email"):
tags["output_type"] = "alert"
case fields["watt"] != nil || fields["amp"] != nil:
tags["output_type"] = "outlet"
case strings.HasPrefix(o.DeviceID, "Cntl_"):
tags["output_type"] = "virtual"
default:
tags["output_type"] = "unknown"
}
acc.AddFields(Measurement, fields, tags, reportTime)
}
// Probes.
for _, p := range r.Probe {
value, err := strconv.ParseFloat(strings.TrimSpace(p.Value), 64)
if err != nil {
acc.AddError(fmt.Errorf(
"cannot convert string value %q to float64: %v",
p.Value, err))
continue
}
fields := map[string]interface{}{
"value": value,
}
tags := map[string]string{
"source": r.Hostname,
"type": "probe",
"name": p.Name,
"software": r.SoftwareVersion,
"hardware": r.HardwareVersion,
}
if p.Type != nil {
tags["probe_type"] = *p.Type
}
acc.AddFields(Measurement, fields, tags, reportTime)
}
return nil
}
func findProbe(probe string, probes []probe) int {
for i, p := range probes {
if p.Name == probe {
return i
}
}
return -1
}
// parseTime takes a Neptune Apex date/time string with a timezone and
// returns a time.Time struct.
func parseTime(val string, tz float64) (time.Time, error) {
// Magic time constant from https://golang.org/pkg/time/#Parse
const TimeLayout = "01/02/2006 15:04:05 -0700"
// Timezone offset needs to be explicit
sign := '+'
if tz < 0 {
sign = '-'
}
// Build a time string with the timezone in a format Go can parse.
tzs := fmt.Sprintf("%c%04d", sign, int(math.Abs(tz))*100)
ts := fmt.Sprintf("%s %s", val, tzs)
t, err := time.Parse(TimeLayout, ts)
if err != nil {
return time.Now(), fmt.Errorf("unable to parse %q (%v)", ts, err)
}
return t, nil
}
func (n *NeptuneApex) sendRequest(server string) ([]byte, error) {
url := fmt.Sprintf("%s/cgi-bin/status.xml", server)
resp, err := n.httpClient.Get(url)
if err != nil {
return nil, fmt.Errorf("http GET failed: %v", err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
return nil, fmt.Errorf(
"response from server URL %q returned %d (%s), expected %d (%s)",
url, resp.StatusCode, http.StatusText(resp.StatusCode),
http.StatusOK, http.StatusText(http.StatusOK))
}
body, err := ioutil.ReadAll(resp.Body)
if err != nil {
return nil, fmt.Errorf("unable to read output from %q: %v", url, err)
}
return body, nil
}
func init() {
inputs.Add("neptune_apex", func() telegraf.Input {
return &NeptuneApex{
httpClient: &http.Client{
Timeout: 5 * time.Second,
},
}
})
}