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21 Commits

Author SHA1 Message Date
Stefan Hoffmann
631a5e398f Merge branch 'master' of ssh://git.freifunk-rhein-sieg.net:2222/Freifunk-Troisdorf/ubnt-freifunk-map-api
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2024-09-25 18:34:32 +02:00
Stefan Hoffmann
e6583918c1 Fixing ghost devices in Unifi 2024-09-25 18:33:41 +02:00
6f4fc76812 Delete .drone.jsonnet
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2024-09-25 16:00:47 +00:00
Stefan Hoffmann
ff5cf755aa Bugfixing UISP 503 Errors.
Finetuning API Calls
2024-09-25 17:53:38 +02:00
f9fa5fe26a
Naming changes 2024-03-19 18:43:09 +01:00
73166fcedc
send influx datapoints only when enabled
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2024-03-18 19:34:06 +01:00
7549eaa5d0
bugfix
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2024-03-18 18:57:55 +01:00
b8087ff4d9
Changed go build
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2024-03-18 18:53:05 +01:00
bcc4195234
Add woodpecker CI
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2024-03-18 18:27:43 +01:00
5ba7f23776
Changed UISP API for Statistics 2024-03-18 18:13:22 +01:00
dc1bc7f135
Removed unneeded line
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2023-05-14 17:40:31 +02:00
c8c7c9e938
Error Handling
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2023-05-14 11:44:20 +02:00
21157e5fb4
Readme angepasst 2023-05-14 11:44:11 +02:00
c9b496d5eb
Fixed CPU on Map
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2023-05-12 19:07:16 +02:00
0411e59eed
Fixes Memory for the Map
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2023-05-12 18:59:38 +02:00
ae6d96a0ff
Get CPU in % from InfluxDB 2023-05-12 18:00:25 +02:00
064161584d Merge pull request 'Added InfluxDB for Gateways' (#23) from testing-statistics into master
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Reviewed-on: #23
2023-05-12 13:16:42 +00:00
2313dc827e
Added InfluxDB for Gateways
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2023-05-12 15:14:06 +02:00
0ba254b9a2
Add Addresses to Gateways
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2023-05-12 08:17:31 +02:00
c4a7bfec1f
Bugfixing
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2023-05-12 07:55:58 +02:00
20b368f6f7
Add Static Gateway Configuration
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2023-05-11 21:38:10 +02:00
13 changed files with 512 additions and 269 deletions

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@ -1,53 +0,0 @@
local pipeline(os, arch) = {
kind: "pipeline",
name: os + "/" + arch,
platform: {
"os": os,
"arch": arch,
},
steps: [{
name: "compile " + os + "/" + arch,
image: "golang:1.20.3-alpine3.17",
environment: {
"GOOS": os,
"GOARCH": arch,
"CGO_ENABLED": "0",
},
commands: [
'go build -ldflags "-s -w -X main.version=${DRONE_TAG##v}" -trimpath -o release/' + os + "/" + arch + "/ubnt-freifunk-map-api .",
"tar -cvzf release/ubnt-freifunk-map-api_"+ os + "-" + arch + ".tar.gz -C release/" + os + "/" + arch + " ubnt-freifunk-map-api"
],
},
{
name: "gitea_release " + os + "/" + arch,
image: "plugins/gitea-release",
settings: {
api_key: { "from_secret": "gitea_api_key" },
base_url: "https://git.freifunk-rhein-sieg.net",
files: "release/*.tar.gz"
},
when: {
event: "tag"
},
},
{
name: "upload to gitea container registry",
image: "plugins/docker:latest",
settings: {
repo: "git.freifunk-rhein-sieg.net/freifunk-troisdorf/ubnt-freifunk-map-api",
registry: "git.freifunk-rhein-sieg.net",
username: { "from_secret": "docker_username" },
password: { "from_secret": "docker_password" },
tags: ["latest"],
auto_tag: true,
},
when: {
event: "tag"
},
},
],
};
[
pipeline("linux", "amd64")
]

25
.woodpecker.yml Normal file
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@ -0,0 +1,25 @@
---
platform: linux/arm64
pipeline:
build:
image: golang
environment:
- GOOS=linux
- GOARCH=amd64
commands:
- go build -ldflags "-s -w -X main.version=${CI_COMMIT_TAG}" -trimpath -o release/ubnt-freifunk-map-api .
docker:
image: woodpeckerci/plugin-docker-buildx
settings:
platforms: linux/amd64
registry: git.freifunk-rhein-sieg.net
repo: git.freifunk-rhein-sieg.net/freifunk-troisdorf/ubnt-freifunk-map-api
username:
from_secret: gitea_user
password:
from_secret: gitea_token
tags: ${CI_COMMIT_TAG}
when:
- branch: master

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@ -1,7 +1,7 @@
FROM alpine:3.12.3
WORKDIR /opt/
ADD ./release/*/*/ubnt-freifunk-map-api /opt/ubnt-freifunk-map-api
ADD ./release/ubnt-freifunk-map-api /opt/ubnt-freifunk-map-api
RUN chmod +x /opt/ubnt-freifunk-map-api
EXPOSE 3000

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@ -1,12 +1,17 @@
# Freifunk Meshviewer Unifi Access Points und Richtfunkstrecken import
Dieses tool Importiert Nodes für die Freifunk Map aus den APIs UNMS (Richtfunk) & Unifi (Access Points)
Dieses tool Importiert Nodes für die Freifunk Map aus den APIs UISP (Richtfunk) & Unifi (Access Points).
Ebenfalls ist der Import statischer devices möglich. Da diese alle in unerem Proxmox cluster laufen, werden Statistikdaten aus der Proxmox InfluxDB geholt.
Alle Config dateien müssen per http erreichbar sein (z.B. in einem Git)
Für Troisdorf werden diese Dateien hier gepflegt: https://git.freifunk-rhein-sieg.net/Freifunk-Troisdorf/ubnt-api-devices
Für die Rhein-Sieg-Map hier: https://git.freifunk-rhein-sieg.net/Freifunk-Rhein-Sieg/ubnt-api-devices
## Config
### Unifi Access Points (ucDevices.json)
### Unifi Access Points (unifi_devices.json)
In der Datei ucDevices.json können die Access Points gepflegt werden, die auf der Freifunk Map erscheinen sollen.
In der Datei unifi_devices.json können die Access Points gepflegt werden, die auf der Freifunk Map erscheinen sollen.
Hierzu muss die Datei im json Format erweitert werden.
@ -32,9 +37,9 @@ Erklärung:
* linked_to: (Optional) Die MAC Adresse des Routers an dem der AP angeschlossen ist. Normalerweise gateway_nexthop mit Doppelpunkten. Wenn nicht gesetzt wird kein Link auf der Map angezeigt.
* domain: Die Domain in der sich der AP befindet. (tdf, inn, flu)
### UNMS Richtfunkstrecken
### UISP Richtfunkstrecken
In der Datei devices.json können die Richtfunkstrecken gepflegt werden, die auf der Freifunk Map erscheinen sollen.
In der Datei rifu_devices.json können die Richtfunkstrecken gepflegt werden, die auf der Freifunk Map erscheinen sollen.
```json
{
@ -56,11 +61,44 @@ Erklärung:
* gateway: Im Normalfall die NodeID des Supernodes (zu finden in der MAP)
* domain: Die Domain in der sich der AP befindet. (tdf, inn, flu)
### UISP Router
In dieser datei werden die Router (meist ER-X) gepflegt. Diese Daten werden dann ebenfalls aus der UISP API Importiert.
```json
{
"name": "Rathaus Uplink",
"mac": "18:e8:29:ad:9a:34",
"gateway_nexthop": "18e8292f7de6",
"gateway": "a28cae6ff604",
"domain": "tdf",
"location": {
"longitude":7.149406208,
"latitude":50.817093402
}
},
```
### Gateways.json
Hier werden Statische Geräte eingetragen die auf dem Proxmox Cluster laufen.
```json
{
"name": "VPN01",
"fqdn": "vpn01.fftdf.de",
"mac": "00:00:00:00:00:01",
"domain": "VPN1",
"adresses": ["5.9.220.114"]
},
```
### Config.json
Es gibt 3 Module die Ein/Ausgeschatet werden können:
* UNMS
* Unifi
* Meshviewer
* Gateways
Die Funktion Meshviewer importiert die vorhandenen meshviewer.json und manipuliert dort die Userzahlen. Sobald ein Access Point einen Node aus einer Meshviwer.json als "gateway_nexthop" eingetragen hat, werden die Clients an dem verbundenen Access Point und nicht mehr am Offloader angezeigt.

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@ -5,14 +5,17 @@
"APItoken": "UNMS API TOKEN",
"devicesURL": "https://git.freifunk-rhein-sieg.net/Freifunk-Troisdorf/ubnt-freifunk-map-api/raw/branch/master/example.devices.json"
},
"unifi": {
"unifi": [
{
"name": "Unifi Freifunk Troisdorf",
"enabled": false,
"displayusers": true,
"APIUrl": "https://unifi.freifunk-troisdorf.de",
"user": "APIuser",
"password": "PASSWORD",
"ucDevicesURL": "https://git.freifunk-rhein-sieg.net/Freifunk-Troisdorf/ubnt-freifunk-map-api/raw/branch/master/example.ucDevices.json"
},
}
],
"meshviewer": {
"enabled": false,
"files": [

63
influx.go Normal file
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@ -0,0 +1,63 @@
package main
import (
"encoding/json"
"log"
client "github.com/influxdata/influxdb1-client/v2"
)
// Create InfluxDB Client
func influxDBClient(port string) client.Client {
c, err := client.NewHTTPClient(client.HTTPConfig{
Addr: conf.General.InfluxURL + ":" + port,
})
if err != nil {
log.Fatalln("Error: ", err)
}
return c
}
// Get a single Datapoint from InfluxDB
func getInfluxDataPoint(dp string, h string, p string) float64 {
//Build the Query
query := "SELECT last(" + dp + ") FROM system WHERE host = '" + h + "'"
c := influxDBClient(p)
q := client.NewQuery(query, "udp", "s")
response, err := c.Query(q)
if err != nil {
log.Println("Influx query error!")
}
res := 0.0
if len(response.Results) > 0 {
res, err := response.Results[0].Series[0].Values[0][1].(json.Number).Float64()
if err != nil {
log.Println("Error in type conversion")
}
return res
}
return res
}
// Send Datapoints to InfluxDB, point map and InfluxDB Port needed
func sendInfluxBatchDataPoint(point *client.Point, influxPort string) {
// Open connection to InfluxDB
bp, err := client.NewBatchPoints(client.BatchPointsConfig{
Database: "freifunk",
Precision: "s",
})
if err != nil {
log.Fatalln("Error: ", err)
}
bp.AddPoint(point)
c := influxDBClient(influxPort)
err = c.Write(bp)
if err != nil {
log.Fatal(err)
}
//
}

98
main.go
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@ -9,6 +9,7 @@ import (
"net/http"
"net/http/cookiejar"
"os"
"sync"
"time"
_ "git.nils.zone/nils/prettify"
@ -16,14 +17,20 @@ import (
const (
iso8601 = "2006-01-02T15:04:05-0700"
fetchInterval = 1 * time.Minute
)
// flags
var (
lastFetchTime time.Time
cacheMutex sync.Mutex
cacheNodes []node
cacheLinks []link
)
var configPath = flag.String("configPath", "config.json", "Path to config.json")
var version = "development"
var delay time.Duration = 60 * time.Second
var conf = loadconfig(*configPath)
var ucDev = getDevices(conf.Unifi.UCDevicesURL)
func main() {
log.Printf("starting version %s...\n", version)
@ -38,56 +45,52 @@ func main() {
// start API processing (runs in a loop)
go func() {
if err := processAPIs(); err != nil {
log.Fatalln("API processing failed, error is", err)
log.Fatalln("API processing failed, error is: ", err)
}
tick := time.Tick(delay)
for range tick {
if err := processAPIs(); err != nil {
log.Fatalln("API processing failed, error is", err)
log.Fatalln("API processing failed, error is: ", err)
}
}
}()
//processUNMSAPIRouter()
//createMetrics(influxDBClient())
// start webserver on Port 3000
serveJSON()
}
func loadconfig(file string) config {
var config config
configFile, err := os.Open(file)
if err != nil {
log.Fatalln(err)
}
jsonParse := json.NewDecoder(configFile)
jsonParse.Decode(&config)
return config
}
// int to bool converter
func itob(i int) bool {
return i == 1
}
func processAPIs() error {
var nodes []node
var links []link
if conf.Unms.Enabled {
log.Println("Processing UNMS")
unmsNodes, unmsLinks := processUNMSAPI()
unmsRouters, err := processUNMSAPIRouter()
if conf.UISP.Enabled {
log.Println("Processing UISP")
//Process UISP RiFu Nodes
uispNodes, uispLinks, err := processUISPRiFu()
if err != nil {
return err
}
nodes = append(nodes, unmsNodes...)
nodes = append(nodes, unmsRouters...)
links = append(links, unmsLinks...)
//Process UISP Routers (like EDGE Router)
uispRouters, err := processUISPRouter()
if err != nil {
return err
}
nodes = append(nodes, uispNodes...)
nodes = append(nodes, uispRouters...)
links = append(links, uispLinks...)
}
if len(conf.Unifi) > 0 {
log.Println("Anazahl der Unifi Server:", len(conf.Unifi))
for i := range conf.Unifi {
if conf.Unifi[i].Enabled {
log.Println("Processing Unifi-Server: ", conf.Unifi[i].Name)
//Process Unifi Nodes
unifiNodes, _, err := processUnifiAPI(i)
if err != nil {
return err
}
nodes = append(nodes, unifiNodes...)
}
}
if conf.Unifi.Enabled {
log.Println("Processing Unifi")
ucNodes, _ := processUcAPIs()
nodes = append(nodes, ucNodes...)
}
if conf.Meshviewer.Enabled {
log.Println("Processing Meshviewer")
@ -95,6 +98,12 @@ func processAPIs() error {
nodes = append(nodes, mvNodes...)
links = append(links, mvLinks...)
}
if conf.Gateways.Enabled {
log.Println("Processing Gateways")
//Process Static Gateways from Json
gwNodes := processGateways()
nodes = append(nodes, gwNodes...)
}
// assemble final struct
o := output{
Timestamp: time.Now().Format(iso8601),
@ -108,17 +117,30 @@ func processAPIs() error {
if err := o.writeToFile(); err != nil {
log.Fatalln(err)
}
// get outages to serve as .csv
l := getUNMSLogs()
err := writeOutagesToCSV(l)
if err != nil {
log.Println("Error writing outages.csv")
}
// we're done here
log.Println("...done")
return nil
}
func loadconfig(file string) config {
var config config
configFile, err := os.Open(file)
if err != nil {
log.Fatalln("Failed loding Config file: ", err)
}
jsonParse := json.NewDecoder(configFile)
if err := jsonParse.Decode(&config); err != nil {
log.Fatalln(err)
}
return config
}
// int to bool converter
func itob(i int) bool {
return i == 1
}
// function to get file from meshviewer
func getFile(url string) []byte {
resp, err := http.Get(url)

View File

@ -3,6 +3,7 @@ package main
import (
"encoding/json"
"log"
"time"
)
func getMeshviewerJSON(url string) (mvDevices, error) {
@ -129,18 +130,31 @@ func addmvDevices(d mvDevices) ([]node, []link) {
}
func getMeshviewer() ([]node, []link) {
cacheMutex.Lock()
defer cacheMutex.Unlock()
// Überprüfen, ob die Daten kürzlich aktualisiert wurden
if time.Since(lastFetchTime) < fetchInterval {
return cacheNodes, cacheLinks
}
var nodes []node
var links []link
for i := range conf.Meshviewer.Files {
log.Println("Hole Meshviewer JSON von: ", conf.Meshviewer.Files[i].URL)
m, err := getMeshviewerJSON(conf.Meshviewer.Files[i].URL)
if err != nil {
return nodes, links
return cacheNodes, cacheLinks
}
mvNodes, mvLinks := addmvDevices(m)
nodes = append(nodes, mvNodes...)
links = append(links, mvLinks...)
}
return nodes, links
// Cache aktualisieren
cacheNodes = nodes
cacheLinks = links
lastFetchTime = time.Now()
return cacheNodes, cacheLinks
}

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@ -1,37 +0,0 @@
package main
import (
"encoding/csv"
"log"
"os"
)
func getUNMSLogs() UNMSLogResponse {
var l UNMSLogResponse
log.Println("Get Outages from UNMS")
err := UnmsCallAPI("/outages?count=100&page=1&type=outage", &l)
if err != nil {
log.Fatalln("Error calling Outages API")
}
return l
}
func writeOutagesToCSV(l UNMSLogResponse) error {
csvFile, err := os.Create("output/outages.csv")
if err != nil {
return err
}
writer := csv.NewWriter(csvFile)
for _, o := range l.Items {
var row []string
row = append(row, o.StartTime.Format("02.01.2006 15:04:05"))
row = append(row, o.EndTime.Format("02.01.2006 15:04:05"))
row = append(row, o.Site.Name)
row = append(row, o.Device.DisplayName)
writer.Write(row)
}
writer.Flush()
return nil
}

99
staticDevices.go Normal file
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@ -0,0 +1,99 @@
package main
import (
"log"
"strings"
"time"
client "github.com/influxdata/influxdb1-client/v2"
)
func processGateways() []node {
d := getDevices(conf.Gateways.GatewaysURL)
var nodes []node
for i := range d.Devices {
log.Println("Processing Static Device: ", d.Devices[i].Name)
currentDevice := d.Devices[i]
//Collect data
//Calulate Memory (%)
mem := getInfluxDataPoint("mem", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
maxmem := getInfluxDataPoint("maxmem", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
memoryMap := mem / maxmem
memory := memoryMap * 100
// Get Network
rx := getInfluxDataPoint("netin", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
tx := getInfluxDataPoint("netout", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
// Get CPU (%)
cpuMap := getInfluxDataPoint("cpu", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
cpu := cpuMap * 100
//Uptime (seconds)
uptime := getInfluxDataPoint("uptime", currentDevice.FQDN, conf.General.ProxmoxInfluxPort)
t := time.Duration(uptime * float64(time.Second))
up := time.Now().Add(-t)
// fields := map[string]interface{}{}
fields := make(map[string]any)
tags := map[string]string{
"hostname": strings.ReplaceAll(d.Devices[i].Name, " ", "-"),
"nodeid": strings.ReplaceAll(d.Devices[i].MAC, ":", ""),
}
//Build fields for InfluxDB
fields["load"] = cpu
fields["ram"] = int(memory)
fields["time.up"] = int(uptime)
//Network
fields["traffic.rx.bytes"] = int(rx)
fields["traffic.tx.bytes"] = int(tx)
point, err := client.NewPoint(
"node",
tags,
fields,
time.Now(),
)
if err != nil {
log.Fatalln("Error: ", err)
}
if conf.General.InfluxEnabled {
sendInfluxBatchDataPoint(point, conf.General.FreifunkInfluxPort)
}
//Build Nodes
nodes = append(nodes, node{
Firstseen: up.Format(iso8601),
Lastseen: time.Now().Format(iso8601),
IsOnline: true,
IsGateway: true,
Clients: 0,
ClientsWifi24: 0,
ClientsWifi5: 0,
ClientsOther: 0,
RootFSUsage: 0,
LoadAVG: cpuMap,
MemoryUsage: memoryMap,
Uptime: up.Format(iso8601),
GatewayNexthop: "",
Gateway: "",
NodeID: strings.ReplaceAll(d.Devices[i].MAC, ":", ""),
MAC: d.Devices[i].MAC,
Adresses: d.Devices[i].Adresses,
Domain: d.Devices[i].Domain,
Hostname: "[Gateway] " + d.Devices[i].Name,
Owner: "Freifunk Troisdorf",
Firmware: firmware{
Base: "KVM",
Release: "Ubuntu 22.04",
},
Autoupdater: autoupdater{
Enabled: false,
Branch: "stable",
},
NProc: 1,
Model: "KVM",
})
}
return nodes
}

View File

@ -10,21 +10,20 @@ import (
)
type config struct {
Unms struct {
General struct {
InfluxEnabled bool `json:"influx_enabled"`
FreifunkInfluxPort string `json:"freifunk_influx_port"`
ProxmoxInfluxPort string `json:"proxmox_influx_port"`
InfluxURL string `json:"influx_url"`
}
UISP struct {
Enabled bool `json:"enabled"`
UnmsAPIURL string `json:"unmsAPIUrl"`
APItoken string `json:"APItoken"`
DevicesURL string `json:"devicesURL"`
RouterURL string `json:"routerURL"`
} `json:"unms"`
Unifi struct {
Enabled bool `json:"enabled"`
DisplayUsers bool `json:"displayusers"`
APIURL string `json:"APIUrl"`
User string `json:"user"`
Password string `json:"password"`
UCDevicesURL string `json:"ucDevicesURL"`
} `json:"unifi"`
Unifi []UnifiServer `json:"unifi"`
Meshviewer struct {
Enabled bool `json:"enabled"`
Files []struct {
@ -32,10 +31,25 @@ type config struct {
URL string `json:"URL"`
} `json:"files"`
} `json:"meshviewer"`
Gateways struct {
Enabled bool `json:"enabled"`
GatewaysURL string `json:"gatewaysurl"`
} `json:"gateways"`
}
type UnifiServer struct {
Name string `json:"name"`
Enabled bool `json:"enabled"`
DisplayUsers bool `json:"displayusers"`
APIURL string `json:"APIUrl"`
User string `json:"user"`
Password string `json:"password"`
UCDevicesURL string `json:"ucDevicesURL"`
}
type device struct {
Name string `json:"name"`
FQDN string `json:"fqdn"`
MAC string `json:"mac"`
GatewayNexthop string `json:"gateway_nexthop"`
LinkedTo string `json:"linked_to"`
@ -45,6 +59,7 @@ type device struct {
Longitude float64 `json:"longitude"`
Latitude float64 `json:"latitude"`
} `json:"location"`
Adresses []string `json:"adresses"`
}
type devices struct {
Devices []device `json:"devices"`
@ -319,21 +334,26 @@ type XY struct {
Y int `json:"y"`
}
type AvgMax struct {
AVG []XY `json:"avg"`
MAX []XY `json:"max"`
}
type UNMSstatistics struct {
Period int `json:"period"`
Interval struct {
Start int `json:"start"`
End int `json:"end"`
} `json:"interval"`
CPU []XY `json:"cpu"`
RAM []XY `json:"ram"`
Errors []XY `json:"errors"`
CPU AvgMax `json:"cpu"`
RAM AvgMax `json:"ram"`
Errors AvgMax `json:"errors"`
Interfaces []struct {
ID string `json:"id"`
Priority int `json:"priority"`
Name string `json:"name"`
Receive []XY `json:"receive"`
Transmit []XY `json:"transmit"`
Receive AvgMax `json:"receive"`
Transmit AvgMax `json:"transmit"`
} `json:"interfaces"`
}

View File

@ -10,28 +10,32 @@ import (
"strconv"
"strings"
"time"
client "github.com/influxdata/influxdb1-client/v2"
)
// Unifi Controller API processing
func processUcAPIs() ([]node, []link) {
func processUnifiAPI(s int) ([]node, []link, error) {
//get list of Unifi devices to display
var nodes []node
var links []link
d := getDevices(conf.Unifi.UCDevicesURL)
d := getDevices(conf.Unifi[s].UCDevicesURL)
//call Unifi Controller
ucAPI := UnifiNewAPI(conf.Unifi.User, conf.Unifi.Password, conf.Unifi.APIURL)
ucAPI := UnifiNewAPI(conf.Unifi[s].User, conf.Unifi[s].Password, conf.Unifi[s].APIURL)
//login
ucAPI.ucLogin()
if err := ucAPI.ucLogin(); err != nil {
return nil, nil, err
}
//get all Sites from Controller
sites, err := ucAPI.ucGetSites()
if err != nil {
log.Println(err)
return nil, nil, err
}
//get all devices in all sites
devices, err := ucAPI.ucGetDevices(sites)
if err != nil {
log.Println(err)
return nil, nil, err
}
//build nodes struct
@ -45,28 +49,91 @@ func processUcAPIs() ([]node, []link) {
currentJSONDevice = jsonDevice
}
}
if isRemoteMACpublished(jsonDevice.MAC, d.Devices) {
//hier muss gecheckt werden ob der link valide ist
if checkMeshviewerLink(jsonDevice.LinkedTo) {
links = UnifiAddLink(jsonDevice, links)
}
}
load, err := strconv.ParseFloat(currentDevice.Sysstats.CPU, 64)
isOnline := currentDevice.State == 1
var load float64
var mem float64
var cpu float64
if isOnline {
load, err = strconv.ParseFloat(currentDevice.Sysstats.CPU, 64)
cpu = load * 100
if err != nil {
fmt.Println("Error: ", currentDevice.Name)
//log.Fatalln(err)
log.Println("Error psrsing CPU of device ", currentDevice.Name)
log.Println(err)
load = 0
cpu = 0
}
mem, err := strconv.ParseFloat(currentDevice.Sysstats.Memory, 64)
mem, err = strconv.ParseFloat(currentDevice.Sysstats.Memory, 64)
if err != nil {
//log.Fatalln(err)
load = 0
log.Println("Error parsing Memory of device ", currentDevice.Name)
log.Println(err)
mem = 0
}
}
var model = lookupModels(currentDevice.Model)
var clients int
if conf.Unifi.DisplayUsers {
if conf.Unifi[s].DisplayUsers {
clients = currentDevice.Users
}
//// INFLUX START
// fields := map[string]interface{}{}
fields := make(map[string]any)
tags := map[string]string{
"hostname": strings.ReplaceAll(currentDevice.Name, " ", "-"),
"nodeid": strings.ReplaceAll(currentDevice.Mac, ":", ""),
}
// Generate fields for all network interfaces (not availible for Unifi Nodes)
//for eth := range details.Interfaces {
// interface_name_rx := ("rate.rx" + "_" + details.Interfaces[eth].Identification.Name)
// interface_name_tx := ("rate.tx" + "_" + details.Interfaces[eth].Identification.Name)
// fields[interface_name_rx] = details.Interfaces[eth].Statistics.Rxrate
// fields[interface_name_tx] = details.Interfaces[eth].Statistics.Txrate
//}
// set default values if we can't get statistics
fields["cpu"] = 0
fields["load"] = float64(0)
fields["ram"] = 0
if isOnline {
// Generate fields for all Statistics
//load := (float64(load) / float64(100))
fields["cpu"] = int(cpu)
fields["load"] = load
fields["ram"] = int(mem)
}
// Generate field for DHCP Leases
fields["clients.total"] = clients
fields["time.up"] = currentDevice.Uptime
// Generate Dataponts
point, err := client.NewPoint(
"node",
tags,
fields,
time.Now(),
)
if err != nil {
log.Fatalln("Error: ", err)
}
if conf.General.InfluxEnabled {
sendInfluxBatchDataPoint(point, conf.General.FreifunkInfluxPort)
}
// INFLUX STOP
//log.Println(currentDevice.Mac)
if currentDevice.Mac != "" {
nodes = append(nodes, node{
Firstseen: "0",
Lastseen: time.Unix(int64(currentDevice.LastSeen), 0).Format(iso8601),
@ -101,7 +168,8 @@ func processUcAPIs() ([]node, []link) {
Model: model,
})
}
return nodes, links
}
return nodes, links, err
}
func UnifiNewAPI(user string, pass string, baseURL string) UnifiAPIData {
@ -204,10 +272,13 @@ func UnifiAddLink(dev device, links []link) []link {
}
func findNodeID(NodeID string) bool {
for s := range conf.Unifi {
ucDev := getDevices(conf.Unifi[s].UCDevicesURL)
for i := range ucDev.Devices {
if ucDev.Devices[i].GatewayNexthop == NodeID {
return true
}
}
}
return false
}

100
unms.go
View File

@ -17,22 +17,23 @@ import (
)
// UNMS API processing (Richtfunk)
func processUNMSAPI() ([]node, []link) {
func processUISPRiFu() ([]node, []link, error) {
// Variables for runtime
var links []link
var nodes []node
d := getDevices(conf.Unms.DevicesURL)
d := getDevices(conf.UISP.DevicesURL)
// API CALL 1
log.Println("calling API 1")
// API CALL 1 (get Device overview)
log.Println("Starting UISP API Crawler for Rifu devices")
log.Println("Getting device overview from UNMS API")
var u []unifiAPIResponse
err := UnmsCallAPI("/devices", &u)
if err != nil {
log.Fatalln(err)
if err := UnmsCallAPI("/devices", &u); err != nil {
return nil, nil, err
}
for i := range d.Devices {
time.Sleep(time.Second)
var dev unifiAPIResponse
var currentDevice device
for j := range u {
@ -41,20 +42,22 @@ func processUNMSAPI() ([]node, []link) {
currentDevice = d.Devices[i]
}
}
isOnline := dev.Overview.Status == "active"
// END OF API CALL 1
// API CALL 2
log.Println("calling API 2 for device", d.Devices[i].Name)
// Getting details from UISP
log.Println("Getting device details for: ", d.Devices[i].Name)
var details unifiAPIDetails
UnmsCallAPI("/devices/erouters/"+dev.Identification.ID, &details)
// END OF API CALL 2
if err := UnmsCallAPI("/devices/erouters/"+dev.Identification.ID, &details); err != nil {
return nil, nil, err
}
// API CALL 3
log.Println("calling API 3 for device", d.Devices[i].Name)
// Getting details for RiFu
log.Println("Getting details for RiFu Link for: ", d.Devices[i].Name)
var airmaxes []unifiAPIAirmax
UnmsCallAPI("/devices/airmaxes/"+dev.Identification.ID+"/stations", &airmaxes)
if err := UnmsCallAPI("/devices/airmaxes/"+dev.Identification.ID+"/stations", &airmaxes); err != nil {
return nil, nil, err
}
// check if remote mac address is part of our published network
for i := range airmaxes {
if isRemoteMACpublished(airmaxes[i].DeviceIdentification.MAC, d.Devices) {
@ -98,23 +101,21 @@ func processUNMSAPI() ([]node, []link) {
Model: details.Identification.Model,
})
}
return nodes, links
return nodes, links, nil
}
func processUNMSAPIRouter() ([]node, error) {
func processUISPRouter() ([]node, error) {
time.Sleep(time.Second)
// Variables for runtime
var nodes []node
d := getDevices(conf.Unms.RouterURL)
d := getDevices(conf.UISP.RouterURL)
// API CALL 1, get all devices list from UNMS
log.Println("Get all devices from UNMS")
log.Println("Get all Routers from UISP")
var u []unifiAPIResponse
err := UnmsCallAPI("/devices", &u)
if err != nil {
if err := UnmsCallAPI("/devices", &u); err != nil {
return nil, err
}
// END OF API CALL 1
// Get Information for devices device
for i := range d.Devices {
@ -130,19 +131,18 @@ func processUNMSAPIRouter() ([]node, error) {
isOnline := dev.Overview.Status == "active"
// API CALL FOR ROUTER DETAILS (Interface RX/TX)
log.Println("Getting details of ", d.Devices[i].Name, "from UNMS API")
log.Println("Getting details of ", d.Devices[i].Name, "from UISP API")
var details unifiAPIDetails
if err := UnmsCallAPI("/devices/erouters/"+dev.Identification.ID, &details); err != nil {
return nil, err
}
// API CALL FOR DEVICE STATISTICS (CPU, RAM)
log.Println("Getting statistics of ", d.Devices[i].Name, "from UNMS API")
log.Println("Getting statistics of ", d.Devices[i].Name, "from UISP API")
var statistics UNMSstatistics
if err := UnmsCallAPI("/devices/"+dev.Identification.ID+"/statistics?interval=hour", &statistics); err != nil {
return nil, err
}
// API CALL FOR DHCP LEASES
log.Println("Getting DHCP Leases of ", d.Devices[i].Name, "from UNMS API")
var dhcpleases UNMSdhcp
@ -154,16 +154,6 @@ func processUNMSAPIRouter() ([]node, error) {
log.Println("Router ist offline, skipping DHCP Leases")
}
// Open connection to InfluxDB
bp, err := client.NewBatchPoints(client.BatchPointsConfig{
Database: "freifunk",
Precision: "s",
})
if err != nil {
log.Fatalln("Error: ", err)
}
//
// fields := map[string]interface{}{}
fields := make(map[string]any)
tags := map[string]string{
@ -185,10 +175,10 @@ func processUNMSAPIRouter() ([]node, error) {
if isOnline {
// Generate fields for all Statistics
load := (float64(statistics.CPU[0].Y) / float64(100))
fields["cpu"] = statistics.CPU[0].Y
load := (float64(statistics.CPU.AVG[0].Y) / float64(100))
fields["cpu"] = statistics.CPU.AVG[0].Y
fields["load"] = load
fields["ram"] = statistics.RAM[0].Y
fields["ram"] = statistics.RAM.AVG[0].Y
}
// Generate field for DHCP Leases
@ -204,14 +194,9 @@ func processUNMSAPIRouter() ([]node, error) {
if err != nil {
log.Fatalln("Error: ", err)
}
// Add Datapoints in InfluxDB
bp.AddPoint(point)
c := influxDBClient()
err = c.Write(bp)
if err != nil {
log.Fatal(err)
if conf.General.InfluxEnabled {
sendInfluxBatchDataPoint(point, conf.General.FreifunkInfluxPort)
}
// Get info from json file (static)
nodes = append(nodes, node{
Firstseen: dev.Overview.CreatedAt.Format(iso8601),
@ -250,29 +235,22 @@ func processUNMSAPIRouter() ([]node, error) {
return nodes, nil
}
func influxDBClient() client.Client {
c, err := client.NewHTTPClient(client.HTTPConfig{
Addr: "http://statistik.freifunk-troisdorf.de:8886",
})
if err != nil {
log.Fatalln("Error: ", err)
}
return c
}
func UnmsCallAPI(url string, i any) error {
request, err := http.NewRequest(http.MethodGet, conf.Unms.UnmsAPIURL+url, nil)
time.Sleep(time.Second)
request, err := http.NewRequest(http.MethodGet, conf.UISP.UnmsAPIURL+url, nil)
if err != nil {
return errors.New(fmt.Sprint("can't set request", conf.Unms.UnmsAPIURL+url))
return errors.New(fmt.Sprint("can't set request", conf.UISP.UnmsAPIURL+url))
}
request.Header.Set("x-auth-token", conf.Unms.APItoken)
//log.Println(conf.UISP.UnmsAPIURL + url)
request.Header.Set("x-auth-token", conf.UISP.APItoken)
client := &http.Client{}
response, err := client.Do(request)
if err != nil {
return fmt.Errorf("can't get request %s with x-auth-token %s", conf.Unms.UnmsAPIURL+url, conf.Unms.APItoken)
return fmt.Errorf("can't get request %s with x-auth-token %s", conf.UISP.UnmsAPIURL+url, conf.UISP.APItoken)
}
if response.StatusCode != 200 {
log.Fatalln("Can't call UNMS API, check token and URL. HTTP Status: ", response.StatusCode)
log.Println("Can't call UNMS API, check token and URL. Skipping device. HTTP Status: ", response.StatusCode)
return nil
}
data, err := ioutil.ReadAll(response.Body)
defer response.Body.Close()