telegraf/plugins/inputs/ceph/ceph.go

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package ceph
import (
"bytes"
"encoding/json"
"fmt"
"github.com/gonuts/go-shellquote"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/plugins/inputs"
"io/ioutil"
"log"
"os/exec"
"path/filepath"
"strings"
)
const (
measurement = "ceph"
typeMon = "monitor"
typeOsd = "osd"
osdPrefix = "ceph-osd"
monPrefix = "ceph-mon"
sockSuffix = "asok"
)
type Ceph struct {
CephBinary string
OsdPrefix string
MonPrefix string
SocketDir string
SocketSuffix string
}
func (c *Ceph) setDefaults() {
if c.CephBinary == "" {
c.CephBinary = "/usr/bin/ceph"
}
if c.OsdPrefix == "" {
c.OsdPrefix = osdPrefix
}
if c.MonPrefix == "" {
c.MonPrefix = monPrefix
}
if c.SocketDir == "" {
c.SocketDir = "/var/run/ceph"
}
if c.SocketSuffix == "" {
c.SocketSuffix = sockSuffix
}
}
func (c *Ceph) Description() string {
return "Collects performance metrics from the MON and OSD nodes in a Ceph storage cluster."
}
var sampleConfig = `
## All configuration values are optional, defaults are shown below
## location of ceph binary
ceph_binary = "/usr/bin/ceph"
## directory in which to look for socket files
socket_dir = "/var/run/ceph"
## prefix of MON and OSD socket files, used to determine socket type
mon_prefix = "ceph-mon"
osd_prefix = "ceph-osd"
## suffix used to identify socket files
socket_suffix = "asok"
`
func (c *Ceph) SampleConfig() string {
return sampleConfig
}
func (c *Ceph) Gather(acc telegraf.Accumulator) error {
c.setDefaults()
sockets, err := findSockets(c)
if err != nil {
return fmt.Errorf("failed to find sockets at path '%s': %v", c.SocketDir, err)
}
for _, s := range sockets {
dump, err := perfDump(c.CephBinary, s)
if err != nil {
log.Printf("error reading from socket '%s': %v", s.socket, err)
continue
}
data, err := parseDump(dump)
if err != nil {
log.Printf("error parsing dump from socket '%s': %v", s.socket, err)
continue
}
for tag, metrics := range *data {
acc.AddFields(measurement,
map[string]interface{}(metrics),
map[string]string{"type": s.sockType, "id": s.sockId, "collection": tag})
}
}
return nil
}
func init() {
inputs.Add(measurement, func() telegraf.Input { return &Ceph{} })
}
var perfDump = func(binary string, socket *socket) (string, error) {
split_cmd, err := shellquote.Split(binary)
if err != nil || len(split_cmd) == 0 {
return "", fmt.Errorf("exec: unable to parse command, %s", err)
}
cmdArgs := []string{"--admin-daemon", socket.socket}
if socket.sockType == typeOsd {
cmdArgs = append(cmdArgs, "perf", "dump")
} else if socket.sockType == typeMon {
cmdArgs = append(cmdArgs, "perfcounters_dump")
} else {
return "", fmt.Errorf("ignoring unknown socket type: %s", socket.sockType)
}
split_cmd = append(split_cmd, cmdArgs...)
cmd := exec.Command(split_cmd[0], split_cmd[1:]...)
var out bytes.Buffer
cmd.Stdout = &out
err = cmd.Run()
if err != nil {
return "", fmt.Errorf("error running ceph dump: %s", err)
}
return out.String(), nil
}
var findSockets = func(c *Ceph) ([]*socket, error) {
listing, err := ioutil.ReadDir(c.SocketDir)
if err != nil {
return []*socket{}, fmt.Errorf("Failed to read socket directory '%s': %v", c.SocketDir, err)
}
sockets := make([]*socket, 0, len(listing))
for _, info := range listing {
f := info.Name()
var sockType string
var sockPrefix string
if strings.HasPrefix(f, c.MonPrefix) {
sockType = typeMon
sockPrefix = monPrefix
}
if strings.HasPrefix(f, c.OsdPrefix) {
sockType = typeOsd
sockPrefix = osdPrefix
}
if sockType == typeOsd || sockType == typeMon {
path := filepath.Join(c.SocketDir, f)
sockets = append(sockets, &socket{parseSockId(f, sockPrefix, c.SocketSuffix), sockType, path})
}
}
return sockets, nil
}
func parseSockId(fname, prefix, suffix string) string {
s := fname
s = strings.TrimPrefix(s, prefix)
s = strings.TrimSuffix(s, suffix)
s = strings.Trim(s, ".-_")
return s
}
type socket struct {
sockId string
sockType string
socket string
}
type metric struct {
pathStack []string // lifo stack of name components
value float64
}
// Pops names of pathStack to build the flattened name for a metric
func (m *metric) name() string {
buf := bytes.Buffer{}
for i := len(m.pathStack) - 1; i >= 0; i-- {
if buf.Len() > 0 {
buf.WriteString(".")
}
buf.WriteString(m.pathStack[i])
}
return buf.String()
}
type metricMap map[string]interface{}
type taggedMetricMap map[string]metricMap
// Parses a raw JSON string into a taggedMetricMap
// Delegates the actual parsing to newTaggedMetricMap(..)
func parseDump(dump string) (*taggedMetricMap, error) {
data := make(map[string]interface{})
err := json.Unmarshal([]byte(dump), &data)
if err != nil {
return nil, fmt.Errorf("failed to parse json: '%s': %v", dump, err)
}
tmm := newTaggedMetricMap(data)
if err != nil {
return nil, fmt.Errorf("failed to tag dataset: '%v': %v", tmm, err)
}
return tmm, nil
}
// Builds a TaggedMetricMap out of a generic string map.
// The top-level key is used as a tag and all sub-keys are flattened into metrics
func newTaggedMetricMap(data map[string]interface{}) *taggedMetricMap {
tmm := make(taggedMetricMap)
for tag, datapoints := range data {
mm := make(metricMap)
for _, m := range flatten(datapoints) {
mm[m.name()] = m.value
}
tmm[tag] = mm
}
return &tmm
}
// Recursively flattens any k-v hierarchy present in data.
// Nested keys are flattened into ordered slices associated with a metric value.
// The key slices are treated as stacks, and are expected to be reversed and concatenated
// when passed as metrics to the accumulator. (see (*metric).name())
func flatten(data interface{}) []*metric {
var metrics []*metric
switch val := data.(type) {
case float64:
metrics = []*metric{&metric{make([]string, 0, 1), val}}
case map[string]interface{}:
metrics = make([]*metric, 0, len(val))
for k, v := range val {
for _, m := range flatten(v) {
m.pathStack = append(m.pathStack, k)
metrics = append(metrics, m)
}
}
default:
log.Printf("Ignoring unexpected type '%T' for value %v", val, val)
}
return metrics
}