minio/cmd/metrics-v3-cache.go

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// Copyright (c) 2015-2024 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cmd
import (
"context"
"sync"
"time"
"github.com/minio/madmin-go/v3"
"github.com/minio/minio/internal/cachevalue"
)
// metricsCache - cache for metrics.
//
// When serving metrics, this cache is passed to the MetricsLoaderFn.
//
// This cache is used for metrics that would result in network/storage calls.
type metricsCache struct {
dataUsageInfo *cachevalue.Cache[DataUsageInfo]
esetHealthResult *cachevalue.Cache[HealthResult]
driveMetrics *cachevalue.Cache[storageMetrics]
memoryMetrics *cachevalue.Cache[madmin.MemInfo]
cpuMetrics *cachevalue.Cache[madmin.CPUMetrics]
clusterDriveMetrics *cachevalue.Cache[storageMetrics]
nodesUpDown *cachevalue.Cache[nodesOnline]
}
func newMetricsCache() *metricsCache {
return &metricsCache{
dataUsageInfo: newDataUsageInfoCache(),
esetHealthResult: newESetHealthResultCache(),
driveMetrics: newDriveMetricsCache(),
memoryMetrics: newMemoryMetricsCache(),
cpuMetrics: newCPUMetricsCache(),
clusterDriveMetrics: newClusterStorageInfoCache(),
nodesUpDown: newNodesUpDownCache(),
}
}
type nodesOnline struct {
Online, Offline int
}
func newNodesUpDownCache() *cachevalue.Cache[nodesOnline] {
loadNodesUpDown := func(ctx context.Context) (v nodesOnline, err error) {
v.Online, v.Offline = globalNotificationSys.GetPeerOnlineCount()
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadNodesUpDown)
}
type driveIOStatMetrics struct {
readsPerSec float64
readsKBPerSec float64
readsAwait float64
writesPerSec float64
writesKBPerSec float64
writesAwait float64
percUtil float64
}
// storageMetrics - cached storage metrics.
type storageMetrics struct {
storageInfo madmin.StorageInfo
ioStats map[string]driveIOStatMetrics
onlineDrives, offlineDrives, totalDrives int
}
func newDataUsageInfoCache() *cachevalue.Cache[DataUsageInfo] {
loadDataUsage := func(ctx context.Context) (u DataUsageInfo, err error) {
objLayer := newObjectLayerFn()
if objLayer == nil {
return
}
// Collect cluster level object metrics.
u, err = loadDataUsageFromBackend(GlobalContext, objLayer)
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadDataUsage)
}
func newESetHealthResultCache() *cachevalue.Cache[HealthResult] {
loadHealth := func(ctx context.Context) (r HealthResult, err error) {
objLayer := newObjectLayerFn()
if objLayer == nil {
return
}
r = objLayer.Health(GlobalContext, HealthOptions{})
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadHealth,
)
}
func getDiffStats(initialStats, currentStats madmin.DiskIOStats) madmin.DiskIOStats {
return madmin.DiskIOStats{
ReadIOs: currentStats.ReadIOs - initialStats.ReadIOs,
WriteIOs: currentStats.WriteIOs - initialStats.WriteIOs,
ReadSectors: currentStats.ReadSectors - initialStats.ReadSectors,
WriteSectors: currentStats.WriteSectors - initialStats.WriteSectors,
ReadTicks: currentStats.ReadTicks - initialStats.ReadTicks,
WriteTicks: currentStats.WriteTicks - initialStats.WriteTicks,
TotalTicks: currentStats.TotalTicks - initialStats.TotalTicks,
}
}
func getDriveIOStatMetrics(ioStats madmin.DiskIOStats, duration time.Duration) (m driveIOStatMetrics) {
durationSecs := duration.Seconds()
m.readsPerSec = float64(ioStats.ReadIOs) / durationSecs
m.readsKBPerSec = float64(ioStats.ReadSectors) * float64(sectorSize) / kib / durationSecs
if ioStats.ReadIOs > 0 {
m.readsAwait = float64(ioStats.ReadTicks) / float64(ioStats.ReadIOs)
}
m.writesPerSec = float64(ioStats.WriteIOs) / durationSecs
m.writesKBPerSec = float64(ioStats.WriteSectors) * float64(sectorSize) / kib / durationSecs
if ioStats.WriteIOs > 0 {
m.writesAwait = float64(ioStats.WriteTicks) / float64(ioStats.WriteIOs)
}
// TotalTicks is in milliseconds
m.percUtil = float64(ioStats.TotalTicks) * 100 / (durationSecs * 1000)
return
}
func newDriveMetricsCache() *cachevalue.Cache[storageMetrics] {
var (
// prevDriveIOStats is used to calculate "per second"
// values for IOStat related disk metrics e.g. reads/sec.
prevDriveIOStats map[string]madmin.DiskIOStats
prevDriveIOStatsMu sync.RWMutex
prevDriveIOStatsRefreshedAt time.Time
)
loadDriveMetrics := func(ctx context.Context) (v storageMetrics, err error) {
objLayer := newObjectLayerFn()
if objLayer == nil {
return
}
storageInfo := objLayer.LocalStorageInfo(GlobalContext, true)
onlineDrives, offlineDrives := getOnlineOfflineDisksStats(storageInfo.Disks)
totalDrives := onlineDrives.Merge(offlineDrives)
v = storageMetrics{
storageInfo: storageInfo,
onlineDrives: onlineDrives.Sum(),
offlineDrives: offlineDrives.Sum(),
totalDrives: totalDrives.Sum(),
ioStats: map[string]driveIOStatMetrics{},
}
currentStats := getCurrentDriveIOStats()
now := time.Now().UTC()
prevDriveIOStatsMu.Lock()
if prevDriveIOStats != nil {
duration := now.Sub(prevDriveIOStatsRefreshedAt)
if duration.Seconds() > 1 {
for d, cs := range currentStats {
if ps, found := prevDriveIOStats[d]; found {
v.ioStats[d] = getDriveIOStatMetrics(getDiffStats(ps, cs), duration)
}
}
}
}
prevDriveIOStats = currentStats
prevDriveIOStatsRefreshedAt = now
prevDriveIOStatsMu.Unlock()
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadDriveMetrics)
}
func newCPUMetricsCache() *cachevalue.Cache[madmin.CPUMetrics] {
loadCPUMetrics := func(ctx context.Context) (v madmin.CPUMetrics, err error) {
var types madmin.MetricType = madmin.MetricsCPU
m := collectLocalMetrics(types, collectMetricsOpts{
hosts: map[string]struct{}{
globalLocalNodeName: {},
},
})
for _, hm := range m.ByHost {
if hm.CPU != nil {
v = *hm.CPU
break
}
}
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadCPUMetrics)
}
func newMemoryMetricsCache() *cachevalue.Cache[madmin.MemInfo] {
loadMemoryMetrics := func(ctx context.Context) (v madmin.MemInfo, err error) {
var types madmin.MetricType = madmin.MetricsMem
m := collectLocalMetrics(types, collectMetricsOpts{
hosts: map[string]struct{}{
globalLocalNodeName: {},
},
})
for _, hm := range m.ByHost {
if hm.Mem != nil && len(hm.Mem.Info.Addr) > 0 {
v = hm.Mem.Info
break
}
}
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadMemoryMetrics)
}
func newClusterStorageInfoCache() *cachevalue.Cache[storageMetrics] {
loadStorageInfo := func(ctx context.Context) (v storageMetrics, err error) {
objLayer := newObjectLayerFn()
if objLayer == nil {
return storageMetrics{}, nil
}
storageInfo := objLayer.StorageInfo(GlobalContext, true)
onlineDrives, offlineDrives := getOnlineOfflineDisksStats(storageInfo.Disks)
totalDrives := onlineDrives.Merge(offlineDrives)
v = storageMetrics{
storageInfo: storageInfo,
onlineDrives: onlineDrives.Sum(),
offlineDrives: offlineDrives.Sum(),
totalDrives: totalDrives.Sum(),
}
return
}
return cachevalue.NewFromFunc(1*time.Minute,
cachevalue.Opts{ReturnLastGood: true},
loadStorageInfo,
)
}