ClusterCockpit/cc-metric-store
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cc-metric-store/lineprotocol.go
Lou Knauer 7201251600 Enable basic authentication for NATS
2022-02-04 08:52:53 +01:00

278 lines
6.0 KiB
Go
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package main
import (
"context"
"fmt"
"log"
"sync"
"time"
"github.com/influxdata/line-protocol/v2/lineprotocol"
"github.com/nats-io/nats.go"
)
type Metric struct {
Name string
minfo metricInfo
Value Float
}
// Connect to a nats server and subscribe to "updates". This is a blocking
// function. handleLine will be called for each line recieved via nats.
// Send `true` through the done channel for gracefull termination.
func ReceiveNats(conf *NatsConfig, handleLine func(dec *lineprotocol.Decoder) error, workers int, ctx context.Context) error {
var opts []nats.Option
if conf.Username != "" && conf.Password != "" {
opts = append(opts, nats.UserInfo(conf.Username, conf.Password))
}
nc, err := nats.Connect(conf.Address, opts...)
if err != nil {
return err
}
defer nc.Close()
var wg sync.WaitGroup
var sub *nats.Subscription
msgs := make(chan *nats.Msg, workers*2)
if workers > 1 {
wg.Add(workers)
for i := 0; i < workers; i++ {
go func() {
for m := range msgs {
dec := lineprotocol.NewDecoderWithBytes(m.Data)
if err := handleLine(dec); err != nil {
log.Printf("error: %s\n", err.Error())
}
}
wg.Done()
}()
}
sub, err = nc.Subscribe(conf.SubscribeTo, func(m *nats.Msg) {
msgs <- m
})
} else {
sub, err = nc.Subscribe(conf.SubscribeTo, func(m *nats.Msg) {
dec := lineprotocol.NewDecoderWithBytes(m.Data)
if err := handleLine(dec); err != nil {
log.Printf("error: %s\n", err.Error())
}
})
}
if err != nil {
return err
}
log.Printf("NATS subscription to '%s' on '%s' established\n", conf.SubscribeTo, conf.Address)
<-ctx.Done()
err = sub.Unsubscribe()
close(msgs)
wg.Wait()
if err != nil {
return err
}
nc.Close()
log.Println("NATS connection closed")
return nil
}
// Place `prefix` in front of `buf` but if possible,
// do that inplace in `buf`.
func reorder(buf, prefix []byte) []byte {
n := len(prefix)
m := len(buf)
if cap(buf) < m+n {
return append(prefix[:n:n], buf...)
} else {
buf = buf[:n+m]
for i := m - 1; i >= 0; i-- {
buf[i+n] = buf[i]
}
for i := 0; i < n; i++ {
buf[i] = prefix[i]
}
return buf
}
}
func decodeLine(dec *lineprotocol.Decoder) error {
// Reduce allocations in loop:
t := time.Now()
metrics := make([]Metric, 0, 10)
selector := make([]string, 0, 4)
typeBuf, subTypeBuf := make([]byte, 0, 20), make([]byte, 0)
// Optimize for the case where all lines in a "batch" are about the same
// cluster and host. By using `WriteToLevel` (level = host), we do not need
// to take the root- and cluster-level lock as often.
var lvl *level = nil
var prevCluster, prevHost string = "", ""
for dec.Next() {
metrics = metrics[:0]
rawmeasurement, err := dec.Measurement()
if err != nil {
return err
}
// A more dense lp format if supported if the measurement is 'data'.
// In that case, the field keys are used as metric names.
if string(rawmeasurement) != "data" {
minfo, ok := memoryStore.metrics[string(rawmeasurement)]
if !ok {
continue
}
metrics = append(metrics, Metric{
minfo: minfo,
})
}
typeBuf, subTypeBuf := typeBuf[:0], subTypeBuf[:0]
var cluster, host string
for {
key, val, err := dec.NextTag()
if err != nil {
return err
}
if key == nil {
break
}
// The go compiler optimizes string([]byte{...}) == "...":
switch string(key) {
case "cluster":
if string(val) == prevCluster {
cluster = prevCluster
} else {
cluster = string(val)
lvl = nil
}
case "hostname", "host":
if string(val) == prevHost {
host = prevHost
} else {
host = string(val)
lvl = nil
}
case "type":
if string(val) == "node" {
break
}
if len(typeBuf) == 0 {
typeBuf = append(typeBuf, val...)
} else {
typeBuf = reorder(typeBuf, val)
}
case "type-id":
typeBuf = append(typeBuf, val...)
case "subtype":
if len(subTypeBuf) == 0 {
subTypeBuf = append(subTypeBuf, val...)
} else {
subTypeBuf = reorder(typeBuf, val)
}
case "stype-id":
subTypeBuf = append(subTypeBuf, val...)
default:
// Ignore unkown tags (cc-metric-collector might send us a unit for example that we do not need)
// return fmt.Errorf("unkown tag: '%s' (value: '%s')", string(key), string(val))
}
}
if lvl == nil {
selector = selector[:2]
selector[0], selector[1] = cluster, host
lvl = memoryStore.GetLevel(selector)
prevCluster, prevHost = cluster, host
}
selector = selector[:0]
if len(typeBuf) > 0 {
selector = append(selector, string(typeBuf)) // <- Allocation :(
if len(subTypeBuf) > 0 {
selector = append(selector, string(subTypeBuf))
}
}
if len(metrics) == 0 {
for {
key, val, err := dec.NextField()
if err != nil {
return err
}
if key == nil {
break
}
var value Float
if val.Kind() == lineprotocol.Float {
value = Float(val.FloatV())
} else if val.Kind() == lineprotocol.Int {
value = Float(val.IntV())
} else {
return fmt.Errorf("unsupported value type in message: %s", val.Kind().String())
}
minfo, ok := memoryStore.metrics[string(key)]
if !ok {
continue
}
metrics = append(metrics, Metric{
minfo: minfo,
Value: value,
})
}
} else {
var value Float
for {
key, val, err := dec.NextField()
if err != nil {
return err
}
if key == nil {
break
}
if string(key) != "value" {
return fmt.Errorf("unkown field: '%s' (value: %#v)", string(key), val)
}
if val.Kind() == lineprotocol.Float {
value = Float(val.FloatV())
} else if val.Kind() == lineprotocol.Int {
value = Float(val.IntV())
} else {
return fmt.Errorf("unsupported value type in message: %s", val.Kind().String())
}
}
metrics[0].Value = value
}
t, err = dec.Time(lineprotocol.Second, t)
if err != nil {
return err
}
// log.Printf("write: %s (%v) -> %v\n", string(measurement), selector, value)
if err := memoryStore.WriteToLevel(lvl, selector, t.Unix(), metrics); err != nil {
return err
}
}
return nil
}
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