cc-metric-collector/collectors
2022-01-21 14:52:45 +01:00
..
cpufreqMetric.go Add CPU frequency collector 2022-01-21 13:52:27 +01:00
cpustatMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
customCmdMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
diskstatMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
gpfsMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
infinibandMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
ipmiMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
likwidMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
loadavgMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
lustreMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
Makefile Updated to latest stable version of likwid 2022-01-19 15:55:15 +01:00
memstatMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
metricCollector.go Catch panicing collectors (hello Nvidia Go Bindings) late. 2021-11-26 19:01:31 +01:00
netstatMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
nvidiaMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
README.md Correct go syntax in README.md 2022-01-20 16:33:21 +01:00
tempMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00
topprocsMetric.go Avoid staticcheck warning: redundant return statement 2022-01-21 14:52:45 +01:00

This folder contains the collectors for the cc-metric-collector.

metricCollector.go

The base class/configuration is located in metricCollector.go.

Collectors

  • memstatMetric.go: Reads /proc/meminfo to calculate node metrics. It also combines values to the metric mem_used
  • loadavgMetric.go: Reads /proc/loadavg and submits node metrics:
  • netstatMetric.go: Reads /proc/net/dev and submits for all network devices as the node metrics.
  • lustreMetric.go: Reads Lustre's stats files and submits node metrics:
  • infinibandMetric.go: Reads InfiniBand metrics. It uses the perfquery command to read the node metrics but can fallback to sysfs counters in case perfquery does not work.
  • likwidMetric.go: Reads hardware performance events using LIKWID. It submits socket and cpu metrics
  • cpustatMetric.go: Read CPU specific values from /proc/stat
  • topprocsMetric.go: Reads the TopX processes by their CPU usage. X is configurable
  • nvidiaMetric.go: Read data about Nvidia GPUs using the NVML library
  • tempMetric.go: Read temperature data from /sys/class/hwmon/hwmon*
  • ipmiMetric.go: Collect data from ipmitool or as fallback ipmi-sensors
  • customCmdMetric.go: Run commands or read files and submit the output (output has to be in InfluxDB line protocol!)

If any of the collectors cannot be initialized, it is excluded from all further reads. Like if the Lustre stat file is not a valid path, no Lustre specific metrics will be recorded.

Collector configuration

  "collectors": [
    "tempstat"
  ],
  "collect_config": {
    "tempstat": {
      "tag_override": {
        "hwmon0" : {
            "type" : "socket",
            "type-id" : "0"
        },
        "hwmon1" : {
            "type" : "socket",
            "type-id" : "1"
        }
      }
    }
  }

The configuration of the collectors in the main config files consists of two parts: active collectors (collectors) and collector configuration (collect_config). At startup, all collectors in the collectors list is initialized and, if successfully initialized, added to the active collectors for metric retrieval. At initialization the collector-specific configuration from the collect_config section is handed over. Each collector has own configuration options, check at the collector-specific section.

memstat

  "memstat": {
    "exclude_metrics": [
      "mem_used"
    ]
  }

The memstat collector reads data from /proc/meminfo and outputs a handful node metrics. If a metric is not required, it can be excluded from forwarding it to the sink.

Metrics:

  • mem_total
  • mem_sreclaimable
  • mem_slab
  • mem_free
  • mem_buffers
  • mem_cached
  • mem_available
  • mem_shared
  • swap_total
  • swap_free
  • mem_used = mem_total - (mem_free + mem_buffers + mem_cached)

loadavg

  "loadavg": {
    "exclude_metrics": [
      "proc_run"
    ]
  }

The loadavg collector reads data from /proc/loadavg and outputs a handful node metrics. If a metric is not required, it can be excluded from forwarding it to the sink.

Metrics:

  • load_one
  • load_five
  • load_fifteen
  • proc_run
  • proc_total

netstat

  "netstat": {
    "exclude_devices": [
      "lo"
    ]
  }

The netstat collector reads data from /proc/net/dev and outputs a handful node metrics. If a device is not required, it can be excluded from forwarding it to the sink. Commonly the lo device should be excluded.

Metrics:

  • bytes_in
  • bytes_out
  • pkts_in
  • pkts_out

The device name is added as tag device.

diskstat

  "diskstat": {
    "exclude_metrics": [
      "read_ms"
    ],
  }

The netstat collector reads data from /proc/net/dev and outputs a handful node metrics. If a metric is not required, it can be excluded from forwarding it to the sink.

Metrics:

  • reads
  • reads_merged
  • read_sectors
  • read_ms
  • writes
  • writes_merged
  • writes_sectors
  • writes_ms
  • ioops
  • ioops_ms
  • ioops_weighted_ms
  • discards
  • discards_merged
  • discards_sectors
  • discards_ms
  • flushes
  • flushes_ms

The device name is added as tag device.

cpustat

  "netstat": {
    "exclude_metrics": [
      "cpu_idle"
    ]
  }

The cpustat collector reads data from /proc/stats and outputs a handful node and hwthread metrics. If a metric is not required, it can be excluded from forwarding it to the sink.

Metrics:

  • cpu_user
  • cpu_nice
  • cpu_system
  • cpu_idle
  • cpu_iowait
  • cpu_irq
  • cpu_softirq
  • cpu_steal
  • cpu_guest
  • cpu_guest_nice

likwid

  "likwid": {
    "eventsets": [
      {
        "events": {
          "FIXC1": "ACTUAL_CPU_CLOCK",
          "FIXC2": "MAX_CPU_CLOCK",
          "PMC0": "RETIRED_INSTRUCTIONS",
          "PMC1": "CPU_CLOCKS_UNHALTED",
          "PMC2": "RETIRED_SSE_AVX_FLOPS_ALL",
          "PMC3": "MERGE",
          "DFC0": "DRAM_CHANNEL_0",
          "DFC1": "DRAM_CHANNEL_1",
          "DFC2": "DRAM_CHANNEL_2",
          "DFC3": "DRAM_CHANNEL_3"
        },
        "metrics": [
          {
            "name": "ipc",
            "calc": "PMC0/PMC1",
            "socket_scope": false,
            "publish": true
          },
          {
            "name": "flops_any",
            "calc": "0.000001*PMC2/time",
            "socket_scope": false,
            "publish": true
          },
          {
            "name": "clock_mhz",
            "calc": "0.000001*(FIXC1/FIXC2)/inverseClock",
            "socket_scope": false,
            "publish": true
          },
          {
            "name": "mem1",
            "calc": "0.000001*(DFC0+DFC1+DFC2+DFC3)*64.0/time",
            "socket_scope": true,
            "publish": false
          }
        ]
      },
      {
        "events": {
          "DFC0": "DRAM_CHANNEL_4",
          "DFC1": "DRAM_CHANNEL_5",
          "DFC2": "DRAM_CHANNEL_6",
          "DFC3": "DRAM_CHANNEL_7",
          "PWR0": "RAPL_CORE_ENERGY",
          "PWR1": "RAPL_PKG_ENERGY"
        },
        "metrics": [
          {
            "name": "pwr_core",
            "calc": "PWR0/time",
            "socket_scope": false,
            "publish": true
          },
          {
            "name": "pwr_pkg",
            "calc": "PWR1/time",
            "socket_scope": true,
            "publish": true
          },
          {
            "name": "mem2",
            "calc": "0.000001*(DFC0+DFC1+DFC2+DFC3)*64.0/time",
            "socket_scope": true,
            "publish": false
          }
        ]
      }
    ],
    "globalmetrics": [
      {
        "name": "mem_bw",
        "calc": "mem1+mem2",
        "socket_scope": true,
        "publish": true
      }
    ]
  }

Example config suitable for AMD Zen3

The likwid collector reads hardware performance counters at a hwthread and socket level. The configuration looks quite complicated but it is basically copy&paste from LIKWID's performance groups. The collector made multiple iterations and tried to use the performance groups but it lacked flexibility. The current way of configuration provides most flexibility.

The logic is as following: There are multiple eventsets, each consisting of a list of counters+events and a list of metrics. If you compare a common performance group with the example setting above, there is not much difference:

EVENTSET                         ->   "events": {
FIXC1 ACTUAL_CPU_CLOCK           ->     "FIXC1": "ACTUAL_CPU_CLOCK",
FIXC2 MAX_CPU_CLOCK              ->     "FIXC2": "MAX_CPU_CLOCK",
PMC0  RETIRED_INSTRUCTIONS       ->     "PMC0" : "RETIRED_INSTRUCTIONS",
PMC1  CPU_CLOCKS_UNHALTED        ->     "PMC1" : "CPU_CLOCKS_UNHALTED",
PMC2  RETIRED_SSE_AVX_FLOPS_ALL  ->     "PMC2": "RETIRED_SSE_AVX_FLOPS_ALL",
PMC3  MERGE                      ->     "PMC3": "MERGE",
                                 ->   }

The metrics are following the same procedure:

METRICS                          ->   "metrics": [
IPC   PMC0/PMC1                  ->     {
                                 ->       "name" : "IPC",
                                 ->       "calc" : "PMC0/PMC1",
                                 ->       "socket_scope": false,
                                 ->       "publish": true
                                 ->     }
                                 ->   ]

The socket_scope option tells whether it is submitted per socket or per hwthread. If a metric is only used for internal calculations, you can set publish = false.

Since some metrics can only be gathered in multiple measurements (like the memory bandwidth on AMD Zen3 chips), configure multiple eventsets like in the example config and use the globalmetrics section to combine them. Be aware that the combination might be misleading because the "behavior" of a metric changes over time and the multiple measurements might count different computing phases.

Todos

  • Exclude devices for diskstat collector
  • Aggreate metrics to higher topology entity (sum hwthread metrics to socket metric, ...). Needs to be configurable

Contributing own collectors

A collector reads data from any source, parses it to metrics and submits these metrics to the metric-collector. A collector provides three function:

  • Init(config []byte) error: Initializes the collector using the given collector-specific config in JSON.
  • Read(duration time.Duration, out *[]lp.MutableMetric) error: Read, parse and submit data to the out list. If the collector has to measure anything for some duration, use the provided function argument duration.
  • Close(): Closes down the collector.

It is recommanded to call setup() in the Init() function.

Finally, the collector needs to be registered in the metric-collector.go. There is a list of collectors called Collectors which is a map (string -> pointer to collector). Add a new entry with a descriptive name and the new collector.

Sample collector

package collectors

import (
    "encoding/json"
    lp "github.com/influxdata/line-protocol"
    "time"
)

// Struct for the collector-specific JSON config
type SampleCollectorConfig struct {
    ExcludeMetrics []string `json:"exclude_metrics"`
}

type SampleCollector struct {
    MetricCollector
    config SampleCollectorConfig
}

func (m *SampleCollector) Init(config []byte) error {
    m.name = "SampleCollector"
    m.setup()
    if len(config) > 0 {
        err := json.Unmarshal(config, &m.config)
        if err != nil {
            return err
        }
    }
    m.init = true
    return nil
}

func (m *SampleCollector) Read(interval time.Duration, out *[]lp.MutableMetric) {
    if !m.init {
        return
    }
    // tags for the metric, if type != node use proper type and type-id
    tags := map[string]string{"type" : "node"}
    // Each metric has exactly one field: value !
    value := map[string]interface{}{"value": int(x)}
    y, err := lp.New("sample_metric", tags, value, time.Now())
    if err == nil {
        *out = append(*out, y)
    }
}

func (m *SampleCollector) Close() {
    m.init = false
    return
}