ClusterCockpit/cc-metric-collector
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cc-metric-collector/collectors/gpfsMetric.go
Roland Pabel 92f6c75d23 Gpfs collector restructure (#182) 
* restructure metric similiar to lustre collector

* make sure total metric is not saved if none of the base metrics are present

* reuse variable

* corrections per ho-ob review
2025-12-01 14:52:18 +01:00

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// Copyright (C) NHR@FAU, University Erlangen-Nuremberg.
// All rights reserved. This file is part of cc-lib.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
// additional authors:
// Holger Obermaier (NHR@KIT)
package collectors
import (
"bufio"
"bytes"
"encoding/json"
"errors"
"fmt"
"io"
"log"
"os/exec"
"os/user"
"strconv"
"strings"
"syscall"
"time"
cclog "github.com/ClusterCockpit/cc-lib/ccLogger"
lp "github.com/ClusterCockpit/cc-lib/ccMessage"
)
const DEFAULT_GPFS_CMD = "mmpmon"
type GpfsCollectorState map[string]int64
type GpfsCollectorConfig struct {
Mmpmon string `json:"mmpmon_path,omitempty"`
ExcludeFilesystem []string `json:"exclude_filesystem,omitempty"`
ExcludeMetrics []string `json:"exclude_metrics,omitempty"`
Sudo bool `json:"use_sudo,omitempty"`
SendAbsoluteValues bool `json:"send_abs_values,omitempty"`
SendDiffValues bool `json:"send_diff_values,omitempty"`
SendDerivedValues bool `json:"send_derived_values,omitempty"`
SendTotalValues bool `json:"send_total_values,omitempty"`
SendBandwidths bool `json:"send_bandwidths,omitempty"`
}
type GpfsMetricDefinition struct {
name string
desc string
prefix string
unit string
calc string
}
type GpfsCollector struct {
metricCollector
tags map[string]string
config GpfsCollectorConfig
sudoCmd string
skipFS map[string]struct{}
lastTimestamp map[string]time.Time // Store timestamp of lastState per filesystem to derive bandwidths
definitions []GpfsMetricDefinition // all metrics to report
lastState map[string]GpfsCollectorState // one GpfsCollectorState per filesystem
}
var GpfsAbsMetrics = []GpfsMetricDefinition{
{
name: "gpfs_num_opens",
desc: "number of opens",
prefix: "_oc_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_num_closes",
desc: "number of closes",
prefix: "_cc_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_num_reads",
desc: "number of reads",
prefix: "_rdc_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_num_writes",
desc: "number of writes",
prefix: "_wc_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_num_readdirs",
desc: "number of readdirs",
prefix: "_dir_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_num_inode_updates",
desc: "number of Inode Updates",
prefix: "_iu_",
unit: "requests",
calc: "none",
},
{
name: "gpfs_bytes_read",
desc: "bytes read",
prefix: "_br_",
unit: "bytes",
calc: "none",
},
{
name: "gpfs_bytes_written",
desc: "bytes written",
prefix: "_bw_",
unit: "bytes",
calc: "none",
},
}
var GpfsDiffMetrics = []GpfsMetricDefinition{
{
name: "gpfs_num_opens_diff",
desc: "number of opens (diff)",
prefix: "_oc_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_num_closes_diff",
desc: "number of closes (diff)",
prefix: "_cc_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_num_reads_diff",
desc: "number of reads (diff)",
prefix: "_rdc_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_num_writes_diff",
desc: "number of writes (diff)",
prefix: "_wc_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_num_readdirs_diff",
desc: "number of readdirs (diff)",
prefix: "_dir_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_num_inode_updates_diff",
desc: "number of Inode Updates (diff)",
prefix: "_iu_",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_bytes_read_diff",
desc: "bytes read (diff)",
prefix: "_br_",
unit: "bytes",
calc: "difference",
},
{
name: "gpfs_bytes_written_diff",
desc: "bytes written (diff)",
prefix: "_bw_",
unit: "bytes",
calc: "difference",
},
}
var GpfsDeriveMetrics = []GpfsMetricDefinition{
{
name: "gpfs_opens_rate",
desc: "number of opens (rate)",
prefix: "_oc_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_closes_rate",
desc: "number of closes (rate)",
prefix: "_oc_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_reads_rate",
desc: "number of reads (rate)",
prefix: "_rdc_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_writes_rate",
desc: "number of writes (rate)",
prefix: "_wc_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_readdirs_rate",
desc: "number of readdirs (rate)",
prefix: "_dir_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_inode_updates_rate",
desc: "number of Inode Updates (rate)",
prefix: "_iu_",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_bw_read",
desc: "bytes read (rate)",
prefix: "_br_",
unit: "bytes/sec",
calc: "derivative",
},
{
name: "gpfs_bw_write",
desc: "bytes written (rate)",
prefix: "_bw_",
unit: "bytes/sec",
calc: "derivative",
},
}
var GpfsTotalMetrics = []GpfsMetricDefinition{
{
name: "gpfs_bytes_total",
desc: "bytes total",
prefix: "bytesTotal",
unit: "bytes",
calc: "none",
},
{
name: "gpfs_bytes_total_diff",
desc: "bytes total (diff)",
prefix: "bytesTotal",
unit: "bytes",
calc: "difference",
},
{
name: "gpfs_bw_total",
desc: "bytes total (rate)",
prefix: "bytesTotal",
unit: "bytes/sec",
calc: "derivative",
},
{
name: "gpfs_iops",
desc: "iops",
prefix: "iops",
unit: "requests",
calc: "none",
},
{
name: "gpfs_iops_diff",
desc: "iops (diff)",
prefix: "iops",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_iops_rate",
desc: "iops (rate)",
prefix: "iops",
unit: "requests/sec",
calc: "derivative",
},
{
name: "gpfs_metaops",
desc: "metaops",
prefix: "metaops",
unit: "requests",
calc: "none",
},
{
name: "gpfs_metaops_diff",
desc: "metaops (diff)",
prefix: "metaops",
unit: "requests",
calc: "difference",
},
{
name: "gpfs_metaops_rate",
desc: "metaops (rate)",
prefix: "metaops",
unit: "requests/sec",
calc: "derivative",
},
}
func (m *GpfsCollector) Init(config json.RawMessage) error {
// Check if already initialized
if m.init {
return nil
}
var err error
m.name = "GpfsCollector"
m.setup()
m.parallel = true
// Set default mmpmon binary
m.config.Mmpmon = DEFAULT_GPFS_CMD
// Read JSON configuration
if len(config) > 0 {
err = json.Unmarshal(config, &m.config)
if err != nil {
log.Print(err.Error())
return err
}
}
m.meta = map[string]string{
"source": m.name,
"group": "GPFS",
}
m.tags = map[string]string{
"type": "node",
"filesystem": "",
}
m.skipFS = make(map[string]struct{})
for _, fs := range m.config.ExcludeFilesystem {
m.skipFS[fs] = struct{}{}
}
m.lastState = make(map[string]GpfsCollectorState)
m.lastTimestamp = make(map[string]time.Time)
// GPFS / IBM Spectrum Scale file system statistics can only be queried by user root
if !m.config.Sudo {
user, err := user.Current()
if err != nil {
cclog.ComponentError(m.name, "Failed to get current user:", err.Error())
return err
}
if user.Uid != "0" {
cclog.ComponentError(m.name, "GPFS file system statistics can only be queried by user root")
return err
}
} else {
p, err := exec.LookPath("sudo")
if err != nil {
cclog.ComponentError(m.name, "Cannot find 'sudo'")
return err
}
m.sudoCmd = p
}
// when using sudo, the full path of mmpmon must be specified because
// exec.LookPath will not work as mmpmon is not executable as user
if m.config.Sudo && !strings.HasPrefix(m.config.Mmpmon, "/") {
return fmt.Errorf("when using sudo, mmpmon_path must be provided and an absolute path: %s", m.config.Mmpmon)
}
// Check if mmpmon is in executable search path
p, err := exec.LookPath(m.config.Mmpmon)
if err != nil {
// if using sudo, exec.lookPath will return EACCES (file mode r-x------), this can be ignored
if m.config.Sudo && errors.Is(err, syscall.EACCES) {
cclog.ComponentWarn(m.name, fmt.Sprintf("got error looking for mmpmon binary '%s': %v . This is expected when using sudo, continuing.", m.config.Mmpmon, err))
// the file was given in the config, use it
p = m.config.Mmpmon
} else {
cclog.ComponentError(m.name, fmt.Sprintf("failed to find mmpmon binary '%s': %v", m.config.Mmpmon, err))
return fmt.Errorf("failed to find mmpmon binary '%s': %v", m.config.Mmpmon, err)
}
}
m.config.Mmpmon = p
m.definitions = []GpfsMetricDefinition{}
if m.config.SendAbsoluteValues {
for _, def := range GpfsAbsMetrics {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
m.definitions = append(m.definitions, def)
}
}
}
if m.config.SendDiffValues {
for _, def := range GpfsDiffMetrics {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
m.definitions = append(m.definitions, def)
}
}
}
if m.config.SendDerivedValues {
for _, def := range GpfsDeriveMetrics {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
m.definitions = append(m.definitions, def)
}
}
} else if m.config.SendBandwidths {
for _, def := range GpfsDeriveMetrics {
if def.unit == "bytes/sec" {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
m.definitions = append(m.definitions, def)
}
}
}
}
if m.config.SendTotalValues {
for _, def := range GpfsTotalMetrics {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
// only send total metrics of the types requested
if ( def.calc == "none" && m.config.SendAbsoluteValues ) ||
( def.calc == "difference" && m.config.SendDiffValues ) ||
( def.calc == "derivative" && m.config.SendDerivedValues ) {
m.definitions = append(m.definitions, def)
}
}
}
} else if m.config.SendBandwidths {
for _, def := range GpfsTotalMetrics {
if def.unit == "bytes/sec" {
if _, skip := stringArrayContains(m.config.ExcludeMetrics, def.name); !skip {
m.definitions = append(m.definitions, def)
}
}
}
}
if len(m.definitions) == 0 {
return errors.New("no metrics to collect")
}
m.init = true
return nil
}
func (m *GpfsCollector) Read(interval time.Duration, output chan lp.CCMessage) {
// Check if already initialized
if !m.init {
return
}
// mmpmon:
// -p: generate output that can be parsed
// -s: suppress the prompt on input
// fs_io_s: Displays I/O statistics per mounted file system
var cmd *exec.Cmd
if m.config.Sudo {
cmd = exec.Command(m.sudoCmd, m.config.Mmpmon, "-p", "-s")
} else {
cmd = exec.Command(m.config.Mmpmon, "-p", "-s")
}
cmd.Stdin = strings.NewReader("once fs_io_s\n")
cmdStdout := new(bytes.Buffer)
cmdStderr := new(bytes.Buffer)
cmd.Stdout = cmdStdout
cmd.Stderr = cmdStderr
err := cmd.Run()
if err != nil {
dataStdErr, _ := io.ReadAll(cmdStderr)
dataStdOut, _ := io.ReadAll(cmdStdout)
cclog.ComponentError(
m.name,
fmt.Sprintf("Read(): Failed to execute command \"%s\": %v\n", cmd.String(), err),
fmt.Sprintf("Read(): command exit code: \"%d\"\n", cmd.ProcessState.ExitCode()),
fmt.Sprintf("Read(): command stderr: \"%s\"\n", string(dataStdErr)),
fmt.Sprintf("Read(): command stdout: \"%s\"\n", string(dataStdOut)),
)
return
}
// Read I/O statistics
scanner := bufio.NewScanner(cmdStdout)
for scanner.Scan() {
lineSplit := strings.Fields(scanner.Text())
// Only process lines starting with _fs_io_s_
if lineSplit[0] != "_fs_io_s_" {
continue
}
key_value := make(map[string]string)
for i := 1; i < len(lineSplit); i += 2 {
key_value[lineSplit[i]] = lineSplit[i+1]
}
// Ignore keys:
// _n_: node IP address,
// _nn_: node name,
// _cl_: cluster name,
// _d_: number of disks
filesystem, ok := key_value["_fs_"]
if !ok {
cclog.ComponentError(m.name, "Read(): Failed to get filesystem name.")
continue
}
// Skip excluded filesystems
if _, skip := m.skipFS[filesystem]; skip {
continue
}
// Add filesystem tag
m.tags["filesystem"] = filesystem
if _, ok := m.lastState[filesystem]; !ok {
m.lastState[filesystem] = make(GpfsCollectorState)
}
// read the new values from mmpmon
// return code
rc, err := strconv.Atoi(key_value["_rc_"])
if err != nil {
cclog.ComponentError(m.name, fmt.Sprintf("Read(): Failed to convert return code '%s' to int: %v", key_value["_rc_"], err))
continue
}
if rc != 0 {
cclog.ComponentError(m.name, fmt.Sprintf("Read(): Filesystem '%s' is not ok.", filesystem))
continue
}
// timestamp
sec, err := strconv.ParseInt(key_value["_t_"], 10, 64)
if err != nil {
cclog.ComponentError(m.name, fmt.Sprintf("Read(): Failed to convert seconds '%s' to int64: %v", key_value["_t_"], err))
continue
}
msec, err := strconv.ParseInt(key_value["_tu_"], 10, 64)
if err != nil {
cclog.ComponentError(m.name, fmt.Sprintf("Read(): Failed to convert micro seconds '%s' to int64: %v", key_value["_tu_"], err))
continue
}
timestamp := time.Unix(sec, msec*1000)
// time difference to last time stamp
var timeDiff float64 = 0
if lastTime, ok := m.lastTimestamp[filesystem]; !ok {
m.lastTimestamp[filesystem] = time.Time{}
} else {
timeDiff = timestamp.Sub(lastTime).Seconds()
}
// get values of all abs metrics
newstate := make(GpfsCollectorState)
for _, metric := range GpfsAbsMetrics {
value, err := strconv.ParseInt(key_value[metric.prefix], 10, 64)
if err != nil {
cclog.ComponentError(m.name, fmt.Sprintf("Read(): Failed to convert %s '%s' to int64: %v", metric.desc, key_value[metric.prefix], err))
continue
}
newstate[metric.prefix] = value
}
// compute total metrics (map[...] will return 0 if key not found)
// bytes read and written
if br, br_ok := newstate["_br_"]; br_ok {
newstate["bytesTotal"] = newstate["bytesTotal"] + br
}
if bw, bw_ok := newstate["_bw_"]; bw_ok {
newstate["bytesTotal"] = newstate["bytesTotal"] + bw
}
// read and write count
if rdc, rdc_ok := newstate["_rdc_"]; rdc_ok {
newstate["iops"] = newstate["iops"] + rdc
}
if wc, wc_ok := newstate["_wc_"]; wc_ok {
newstate["iops"] = newstate["iops"] + wc
}
// meta operations
if oc, oc_ok := newstate["_oc_"]; oc_ok {
newstate["metaops"] = newstate["metaops"] + oc
}
if cc, cc_ok := newstate["_cc_"]; cc_ok {
newstate["metaops"] = newstate["metaops"] + cc
}
if dir, dir_ok := newstate["_dir_"]; dir_ok {
newstate["metaops"] = newstate["metaops"] + dir
}
if iu, iu_ok := newstate["_iu_"]; iu_ok {
newstate["metaops"] = newstate["metaops"] + iu
}
// send desired metrics for this filesystem
for _, metric := range m.definitions {
vold, vold_ok := m.lastState[filesystem][metric.prefix]
vnew, vnew_ok := newstate[metric.prefix]
var value interface{}
value_ok := false
switch metric.calc {
case "none":
if vnew_ok {
value = vnew
value_ok = true
} else if vold_ok {
// for absolute values, if the new value is not available, report no change
value = vold
value_ok = true
}
case "difference":
if vnew_ok && vold_ok {
value = vnew - vold
if value.(int64) < 0 {
value = 0
}
value_ok = true
} else if vold_ok {
// if the difference is not computable, return 0
value = 0
value_ok = true
}
case "derivative":
if vnew_ok && vold_ok && timeDiff > 0 {
value = float64(vnew - vold) / timeDiff
if value.(float64) < 0 {
value = 0
}
value_ok = true
} else if vold_ok {
// if the difference is not computable, return 0
value = 0
value_ok = true
}
}
if value_ok {
y, err := lp.NewMetric(metric.name, m.tags, m.meta, value, timestamp)
if err == nil {
if len(metric.unit) > 0 {
y.AddMeta("unit", metric.unit)
}
output <- y
}
} else {
// the value could not be computed correctly
cclog.ComponentWarn(m.name, fmt.Sprintf("Read(): Could not compute value for filesystem %s of metric %s: vold_ok = %t, vnew_ok = %t", filesystem, metric.name, vold_ok, vnew_ok))
}
}
// Save new state, if it contains proper values
if len(newstate) > 0 {
m.lastState[filesystem] = newstate
m.lastTimestamp[filesystem] = timestamp
}
}
}
func (m *GpfsCollector) Close() {
m.init = false
}
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