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cisco_telemetry_mdt.go
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cisco_telemetry_mdt.go
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package cisco_telemetry_mdt
import (
"bytes"
"encoding/binary"
"fmt"
"io"
"net"
"path"
"strconv"
"strings"
"sync"
"time"
"github.com/influxdata/telegraf/metric"
dialout "github.com/cisco-ie/nx-telemetry-proto/mdt_dialout"
telemetry "github.com/cisco-ie/nx-telemetry-proto/telemetry_bis"
"github.com/golang/protobuf/proto"
"github.com/influxdata/telegraf"
internaltls "github.com/influxdata/telegraf/internal/tls"
"github.com/influxdata/telegraf/plugins/inputs"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
// Register GRPC gzip decoder to support compressed telemetry
_ "google.golang.org/grpc/encoding/gzip"
"google.golang.org/grpc/peer"
)
const (
// Maximum telemetry payload size (in bytes) to accept for GRPC dialout transport
tcpMaxMsgLen uint32 = 1024 * 1024
)
// CiscoTelemetryMDT plugin for IOS XR, IOS XE and NXOS platforms
type CiscoTelemetryMDT struct {
// Common configuration
Transport string
ServiceAddress string `toml:"service_address"`
MaxMsgSize int `toml:"max_msg_size"`
Aliases map[string]string `toml:"aliases"`
EmbeddedTags []string `toml:"embedded_tags"`
Log telegraf.Logger
// GRPC TLS settings
internaltls.ServerConfig
// Internal listener / client handle
grpcServer *grpc.Server
listener net.Listener
// Internal state
aliases map[string]string
warned map[string]struct{}
extraTags map[string]map[string]struct{}
mutex sync.Mutex
acc telegraf.Accumulator
wg sync.WaitGroup
}
// Start the Cisco MDT service
func (c *CiscoTelemetryMDT) Start(acc telegraf.Accumulator) error {
var err error
c.acc = acc
c.listener, err = net.Listen("tcp", c.ServiceAddress)
if err != nil {
return err
}
// Invert aliases list
c.warned = make(map[string]struct{})
c.aliases = make(map[string]string, len(c.Aliases))
for alias, path := range c.Aliases {
c.aliases[path] = alias
}
// Fill extra tags
c.extraTags = make(map[string]map[string]struct{})
for _, tag := range c.EmbeddedTags {
dir := path.Dir(tag)
if _, hasKey := c.extraTags[dir]; !hasKey {
c.extraTags[dir] = make(map[string]struct{})
}
c.extraTags[dir][path.Base(tag)] = struct{}{}
}
switch c.Transport {
case "tcp":
// TCP dialout server accept routine
c.wg.Add(1)
go func() {
c.acceptTCPClients()
c.wg.Done()
}()
case "grpc":
var opts []grpc.ServerOption
tlsConfig, err := c.ServerConfig.TLSConfig()
if err != nil {
c.listener.Close()
return err
} else if tlsConfig != nil {
opts = append(opts, grpc.Creds(credentials.NewTLS(tlsConfig)))
}
if c.MaxMsgSize > 0 {
opts = append(opts, grpc.MaxRecvMsgSize(c.MaxMsgSize))
}
c.grpcServer = grpc.NewServer(opts...)
dialout.RegisterGRPCMdtDialoutServer(c.grpcServer, c)
c.wg.Add(1)
go func() {
c.grpcServer.Serve(c.listener)
c.wg.Done()
}()
default:
c.listener.Close()
return fmt.Errorf("invalid Cisco MDT transport: %s", c.Transport)
}
return nil
}
// AcceptTCPDialoutClients defines the TCP dialout server main routine
func (c *CiscoTelemetryMDT) acceptTCPClients() {
// Keep track of all active connections, so we can close them if necessary
var mutex sync.Mutex
clients := make(map[net.Conn]struct{})
for {
conn, err := c.listener.Accept()
if neterr, ok := err.(*net.OpError); ok && (neterr.Timeout() || neterr.Temporary()) {
continue
} else if err != nil {
break // Stop() will close the connection so Accept() will fail here
}
mutex.Lock()
clients[conn] = struct{}{}
mutex.Unlock()
// Individual client connection routine
c.wg.Add(1)
go func() {
c.Log.Debugf("Accepted Cisco MDT TCP dialout connection from %s", conn.RemoteAddr())
if err := c.handleTCPClient(conn); err != nil {
c.acc.AddError(err)
}
c.Log.Debugf("Closed Cisco MDT TCP dialout connection from %s", conn.RemoteAddr())
mutex.Lock()
delete(clients, conn)
mutex.Unlock()
conn.Close()
c.wg.Done()
}()
}
// Close all remaining client connections
mutex.Lock()
for client := range clients {
if err := client.Close(); err != nil {
c.Log.Errorf("Failed to close TCP dialout client: %v", err)
}
}
mutex.Unlock()
}
// Handle a TCP telemetry client
func (c *CiscoTelemetryMDT) handleTCPClient(conn net.Conn) error {
// TCP Dialout telemetry framing header
var hdr struct {
MsgType uint16
MsgEncap uint16
MsgHdrVersion uint16
MsgFlags uint16
MsgLen uint32
}
var payload bytes.Buffer
for {
// Read and validate dialout telemetry header
if err := binary.Read(conn, binary.BigEndian, &hdr); err != nil {
return err
}
maxMsgSize := tcpMaxMsgLen
if c.MaxMsgSize > 0 {
maxMsgSize = uint32(c.MaxMsgSize)
}
if hdr.MsgLen > maxMsgSize {
return fmt.Errorf("dialout packet too long: %v", hdr.MsgLen)
} else if hdr.MsgFlags != 0 {
return fmt.Errorf("invalid dialout flags: %v", hdr.MsgFlags)
}
// Read and handle telemetry packet
payload.Reset()
if size, err := payload.ReadFrom(io.LimitReader(conn, int64(hdr.MsgLen))); size != int64(hdr.MsgLen) {
if err != nil {
return err
}
return fmt.Errorf("TCP dialout premature EOF")
}
c.handleTelemetry(payload.Bytes())
}
}
// MdtDialout RPC server method for grpc-dialout transport
func (c *CiscoTelemetryMDT) MdtDialout(stream dialout.GRPCMdtDialout_MdtDialoutServer) error {
peer, peerOK := peer.FromContext(stream.Context())
if peerOK {
c.Log.Debugf("Accepted Cisco MDT GRPC dialout connection from %s", peer.Addr)
}
var chunkBuffer bytes.Buffer
for {
packet, err := stream.Recv()
if err != nil {
if err != io.EOF {
c.acc.AddError(fmt.Errorf("GRPC dialout receive error: %v", err))
}
break
}
if len(packet.Data) == 0 && len(packet.Errors) != 0 {
c.acc.AddError(fmt.Errorf("GRPC dialout error: %s", packet.Errors))
break
}
// Reassemble chunked telemetry data received from NX-OS
if packet.TotalSize == 0 {
c.handleTelemetry(packet.Data)
} else if int(packet.TotalSize) <= c.MaxMsgSize {
chunkBuffer.Write(packet.Data)
if chunkBuffer.Len() >= int(packet.TotalSize) {
c.handleTelemetry(chunkBuffer.Bytes())
chunkBuffer.Reset()
}
} else {
c.acc.AddError(fmt.Errorf("dropped too large packet: %dB > %dB", packet.TotalSize, c.MaxMsgSize))
}
}
if peerOK {
c.Log.Debugf("Closed Cisco MDT GRPC dialout connection from %s", peer.Addr)
}
return nil
}
// Handle telemetry packet from any transport, decode and add as measurement
func (c *CiscoTelemetryMDT) handleTelemetry(data []byte) {
msg := &telemetry.Telemetry{}
err := proto.Unmarshal(data, msg)
if err != nil {
c.acc.AddError(fmt.Errorf("Cisco MDT failed to decode: %v", err))
return
}
grouper := metric.NewSeriesGrouper()
for _, gpbkv := range msg.DataGpbkv {
// Produce metadata tags
var tags map[string]string
// Top-level field may have measurement timestamp, if not use message timestamp
measured := gpbkv.Timestamp
if measured == 0 {
measured = msg.MsgTimestamp
}
timestamp := time.Unix(int64(measured/1000), int64(measured%1000)*1000000)
// Find toplevel GPBKV fields "keys" and "content"
var keys, content *telemetry.TelemetryField = nil, nil
for _, field := range gpbkv.Fields {
if field.Name == "keys" {
keys = field
} else if field.Name == "content" {
content = field
}
}
if keys == nil || content == nil {
c.Log.Infof("Message from %s missing keys or content", msg.GetNodeIdStr())
continue
}
// Parse keys
tags = make(map[string]string, len(keys.Fields)+3)
tags["source"] = msg.GetNodeIdStr()
tags["subscription"] = msg.GetSubscriptionIdStr()
tags["path"] = msg.GetEncodingPath()
for _, subfield := range keys.Fields {
c.parseKeyField(tags, subfield, "")
}
// Parse values
for _, subfield := range content.Fields {
c.parseContentField(grouper, subfield, "", msg.EncodingPath, tags, timestamp)
}
}
for _, metric := range grouper.Metrics() {
c.acc.AddMetric(metric)
}
}
func decodeValue(field *telemetry.TelemetryField) interface{} {
switch val := field.ValueByType.(type) {
case *telemetry.TelemetryField_BytesValue:
return val.BytesValue
case *telemetry.TelemetryField_StringValue:
if len(val.StringValue) > 0 {
return val.StringValue
}
case *telemetry.TelemetryField_BoolValue:
return val.BoolValue
case *telemetry.TelemetryField_Uint32Value:
return val.Uint32Value
case *telemetry.TelemetryField_Uint64Value:
return val.Uint64Value
case *telemetry.TelemetryField_Sint32Value:
return val.Sint32Value
case *telemetry.TelemetryField_Sint64Value:
return val.Sint64Value
case *telemetry.TelemetryField_DoubleValue:
return val.DoubleValue
case *telemetry.TelemetryField_FloatValue:
return val.FloatValue
}
return nil
}
func decodeTag(field *telemetry.TelemetryField) string {
switch val := field.ValueByType.(type) {
case *telemetry.TelemetryField_BytesValue:
return string(val.BytesValue)
case *telemetry.TelemetryField_StringValue:
return val.StringValue
case *telemetry.TelemetryField_BoolValue:
if val.BoolValue {
return "true"
}
return "false"
case *telemetry.TelemetryField_Uint32Value:
return strconv.FormatUint(uint64(val.Uint32Value), 10)
case *telemetry.TelemetryField_Uint64Value:
return strconv.FormatUint(val.Uint64Value, 10)
case *telemetry.TelemetryField_Sint32Value:
return strconv.FormatInt(int64(val.Sint32Value), 10)
case *telemetry.TelemetryField_Sint64Value:
return strconv.FormatInt(val.Sint64Value, 10)
case *telemetry.TelemetryField_DoubleValue:
return strconv.FormatFloat(val.DoubleValue, 'f', -1, 64)
case *telemetry.TelemetryField_FloatValue:
return strconv.FormatFloat(float64(val.FloatValue), 'f', -1, 32)
default:
return ""
}
}
// Recursively parse tag fields
func (c *CiscoTelemetryMDT) parseKeyField(tags map[string]string, field *telemetry.TelemetryField, prefix string) {
localname := strings.Replace(field.Name, "-", "_", -1)
name := localname
if len(localname) == 0 {
name = prefix
} else if len(prefix) > 0 {
name = prefix + "/" + localname
}
if tag := decodeTag(field); len(name) > 0 && len(tag) > 0 {
if _, exists := tags[localname]; !exists { // Use short keys whenever possible
tags[localname] = tag
} else {
tags[name] = tag
}
}
for _, subfield := range field.Fields {
c.parseKeyField(tags, subfield, name)
}
}
func (c *CiscoTelemetryMDT) parseContentField(grouper *metric.SeriesGrouper, field *telemetry.TelemetryField, prefix string,
path string, tags map[string]string, timestamp time.Time) {
name := strings.Replace(field.Name, "-", "_", -1)
if len(name) == 0 {
name = prefix
} else if len(prefix) > 0 {
name = prefix + "/" + name
}
extraTags := c.extraTags[path+"/"+name]
if value := decodeValue(field); value != nil {
// Do alias lookup, to shorten measurement names
measurement := path
if alias, ok := c.aliases[path]; ok {
measurement = alias
} else {
c.mutex.Lock()
if _, haveWarned := c.warned[path]; !haveWarned {
c.Log.Debugf("No measurement alias for encoding path: %s", path)
c.warned[path] = struct{}{}
}
c.mutex.Unlock()
}
grouper.Add(measurement, tags, timestamp, name, value)
return
}
if len(extraTags) > 0 {
for _, subfield := range field.Fields {
if _, isExtraTag := extraTags[subfield.Name]; isExtraTag {
tags[name+"/"+subfield.Name] = decodeTag(subfield)
}
}
}
var nxAttributes, nxChildren, nxRows *telemetry.TelemetryField
isNXOS := !strings.ContainsRune(path, ':') // IOS-XR and IOS-XE have a colon in their encoding path, NX-OS does not
for _, subfield := range field.Fields {
if isNXOS && subfield.Name == "attributes" && len(subfield.Fields) > 0 {
nxAttributes = subfield.Fields[0]
} else if isNXOS && subfield.Name == "children" && len(subfield.Fields) > 0 {
nxChildren = subfield
} else if isNXOS && strings.HasPrefix(subfield.Name, "ROW_") {
nxRows = subfield
} else if _, isExtraTag := extraTags[subfield.Name]; !isExtraTag { // Regular telemetry decoding
c.parseContentField(grouper, subfield, name, path, tags, timestamp)
}
}
if nxAttributes == nil && nxRows == nil {
return
} else if nxRows != nil {
// NXAPI structure: https://developer.cisco.com/docs/cisco-nexus-9000-series-nx-api-cli-reference-release-9-2x/
for _, row := range nxRows.Fields {
for i, subfield := range row.Fields {
if i == 0 { // First subfield contains the index, promote it from value to tag
tags[prefix] = decodeTag(subfield)
} else {
c.parseContentField(grouper, subfield, "", path, tags, timestamp)
}
}
delete(tags, prefix)
}
return
}
// DME structure: https://developer.cisco.com/site/nxapi-dme-model-reference-api/
rn := ""
dn := false
for _, subfield := range nxAttributes.Fields {
if subfield.Name == "rn" {
rn = decodeTag(subfield)
} else if subfield.Name == "dn" {
dn = true
}
}
if len(rn) > 0 {
tags[prefix] = rn
} else if !dn { // Check for distinguished name being present
c.acc.AddError(fmt.Errorf("NX-OS decoding failed: missing dn field"))
return
}
for _, subfield := range nxAttributes.Fields {
if subfield.Name != "rn" {
c.parseContentField(grouper, subfield, "", path, tags, timestamp)
}
}
if nxChildren != nil {
// This is a nested structure, children will inherit relative name keys of parent
for _, subfield := range nxChildren.Fields {
c.parseContentField(grouper, subfield, prefix, path, tags, timestamp)
}
}
delete(tags, prefix)
}
// Stop listener and cleanup
func (c *CiscoTelemetryMDT) Stop() {
if c.grpcServer != nil {
// Stop server and terminate all running dialout routines
c.grpcServer.Stop()
}
if c.listener != nil {
c.listener.Close()
}
c.wg.Wait()
}
const sampleConfig = `
## Telemetry transport can be "tcp" or "grpc". TLS is only supported when
## using the grpc transport.
transport = "grpc"
## Address and port to host telemetry listener
service_address = ":57000"
## Enable TLS; grpc transport only.
# tls_cert = "/etc/telegraf/cert.pem"
# tls_key = "/etc/telegraf/key.pem"
## Enable TLS client authentication and define allowed CA certificates; grpc
## transport only.
# tls_allowed_cacerts = ["/etc/telegraf/clientca.pem"]
## Define (for certain nested telemetry measurements with embedded tags) which fields are tags
# embedded_tags = ["Cisco-IOS-XR-qos-ma-oper:qos/interface-table/interface/input/service-policy-names/service-policy-instance/statistics/class-stats/class-name"]
## Define aliases to map telemetry encoding paths to simple measurement names
[inputs.cisco_telemetry_mdt.aliases]
ifstats = "ietf-interfaces:interfaces-state/interface/statistics"
`
// SampleConfig of plugin
func (c *CiscoTelemetryMDT) SampleConfig() string {
return sampleConfig
}
// Description of plugin
func (c *CiscoTelemetryMDT) Description() string {
return "Cisco model-driven telemetry (MDT) input plugin for IOS XR, IOS XE and NX-OS platforms"
}
// Gather plugin measurements (unused)
func (c *CiscoTelemetryMDT) Gather(_ telegraf.Accumulator) error {
return nil
}
func init() {
inputs.Add("cisco_telemetry_mdt", func() telegraf.Input {
return &CiscoTelemetryMDT{
Transport: "grpc",
ServiceAddress: "127.0.0.1:57000",
}
})
}