open-nomad/client/stats/host.go

280 lines
7.0 KiB
Go

package stats
import (
"fmt"
"math"
"runtime"
"sync"
"time"
hclog "github.com/hashicorp/go-hclog"
"github.com/shirou/gopsutil/cpu"
"github.com/shirou/gopsutil/disk"
"github.com/shirou/gopsutil/host"
"github.com/shirou/gopsutil/mem"
)
// HostStats represents resource usage stats of the host running a Nomad client
type HostStats struct {
Memory *MemoryStats
CPU []*CPUStats
DiskStats []*DiskStats
AllocDirStats *DiskStats
Uptime uint64
Timestamp int64
CPUTicksConsumed float64
}
// MemoryStats represents stats related to virtual memory usage
type MemoryStats struct {
Total uint64
Available uint64
Used uint64
Free uint64
}
// CPUStats represents stats related to cpu usage
type CPUStats struct {
CPU string
User float64
System float64
Idle float64
Total float64
}
// DiskStats represents stats related to disk usage
type DiskStats struct {
Device string
Mountpoint string
Size uint64
Used uint64
Available uint64
UsedPercent float64
InodesUsedPercent float64
}
// NodeStatsCollector is an interface which is used for the purposes of mocking
// the HostStatsCollector in the tests
type NodeStatsCollector interface {
Collect() error
Stats() *HostStats
}
// HostStatsCollector collects host resource usage stats
type HostStatsCollector struct {
numCores int
statsCalculator map[string]*HostCpuStatsCalculator
hostStats *HostStats
hostStatsLock sync.RWMutex
allocDir string
// badParts is a set of partitions whose usage cannot be read; used to
// squelch logspam.
badParts map[string]struct{}
logger hclog.Logger
}
// NewHostStatsCollector returns a HostStatsCollector. The allocDir is passed in
// so that we can present the disk related statistics for the mountpoint where
// the allocation directory lives
func NewHostStatsCollector(logger hclog.Logger, allocDir string) *HostStatsCollector {
logger = logger.Named("host_stats")
numCores := runtime.NumCPU()
statsCalculator := make(map[string]*HostCpuStatsCalculator)
collector := &HostStatsCollector{
statsCalculator: statsCalculator,
numCores: numCores,
logger: logger,
allocDir: allocDir,
badParts: make(map[string]struct{}),
}
return collector
}
// Collect collects stats related to resource usage of a host
func (h *HostStatsCollector) Collect() error {
h.hostStatsLock.Lock()
defer h.hostStatsLock.Unlock()
return h.collectLocked()
}
// collectLocked collects stats related to resource usage of the host but should
// be called with the lock held.
func (h *HostStatsCollector) collectLocked() error {
hs := &HostStats{Timestamp: time.Now().UTC().UnixNano()}
// Determine up-time
uptime, err := host.Uptime()
if err != nil {
return err
}
hs.Uptime = uptime
// Collect memory stats
mstats, err := h.collectMemoryStats()
if err != nil {
return err
}
hs.Memory = mstats
// Collect cpu stats
cpus, ticks, err := h.collectCPUStats()
if err != nil {
return err
}
hs.CPU = cpus
hs.CPUTicksConsumed = ticks
// Collect disk stats
diskStats, err := h.collectDiskStats()
if err != nil {
return err
}
hs.DiskStats = diskStats
// Getting the disk stats for the allocation directory
usage, err := disk.Usage(h.allocDir)
if err != nil {
return fmt.Errorf("failed to find disk usage of alloc_dir %q: %v", h.allocDir, err)
}
hs.AllocDirStats = h.toDiskStats(usage, nil)
// Update the collected status object.
h.hostStats = hs
return nil
}
func (h *HostStatsCollector) collectMemoryStats() (*MemoryStats, error) {
memStats, err := mem.VirtualMemory()
if err != nil {
return nil, err
}
mem := &MemoryStats{
Total: memStats.Total,
Available: memStats.Available,
Used: memStats.Used,
Free: memStats.Free,
}
return mem, nil
}
func (h *HostStatsCollector) collectDiskStats() ([]*DiskStats, error) {
partitions, err := disk.Partitions(false)
if err != nil {
return nil, err
}
var diskStats []*DiskStats
for _, partition := range partitions {
usage, err := disk.Usage(partition.Mountpoint)
if err != nil {
if _, ok := h.badParts[partition.Mountpoint]; ok {
// already known bad, don't log again
continue
}
h.badParts[partition.Mountpoint] = struct{}{}
h.logger.Warn("error fetching host disk usage stats", "error", err, "partition", partition.Mountpoint)
continue
}
delete(h.badParts, partition.Mountpoint)
ds := h.toDiskStats(usage, &partition)
diskStats = append(diskStats, ds)
}
return diskStats, nil
}
// Stats returns the host stats that has been collected
func (h *HostStatsCollector) Stats() *HostStats {
h.hostStatsLock.RLock()
defer h.hostStatsLock.RUnlock()
if h.hostStats == nil {
if err := h.collectLocked(); err != nil {
h.logger.Warn("error fetching host resource usage stats", "error", err)
}
}
return h.hostStats
}
// toDiskStats merges UsageStat and PartitionStat to create a DiskStat
func (h *HostStatsCollector) toDiskStats(usage *disk.UsageStat, partitionStat *disk.PartitionStat) *DiskStats {
ds := DiskStats{
Size: usage.Total,
Used: usage.Used,
Available: usage.Free,
UsedPercent: usage.UsedPercent,
InodesUsedPercent: usage.InodesUsedPercent,
}
if math.IsNaN(ds.UsedPercent) {
ds.UsedPercent = 0.0
}
if math.IsNaN(ds.InodesUsedPercent) {
ds.InodesUsedPercent = 0.0
}
if partitionStat != nil {
ds.Device = partitionStat.Device
ds.Mountpoint = partitionStat.Mountpoint
}
return &ds
}
// HostCpuStatsCalculator calculates cpu usage percentages
type HostCpuStatsCalculator struct {
prevIdle float64
prevUser float64
prevSystem float64
prevBusy float64
prevTotal float64
}
// NewHostCpuStatsCalculator returns a HostCpuStatsCalculator
func NewHostCpuStatsCalculator() *HostCpuStatsCalculator {
return &HostCpuStatsCalculator{}
}
// Calculate calculates the current cpu usage percentages
func (h *HostCpuStatsCalculator) Calculate(times cpu.TimesStat) (idle float64, user float64, system float64, total float64) {
currentIdle := times.Idle
currentUser := times.User
currentSystem := times.System
currentTotal := times.Total()
currentBusy := times.User + times.System + times.Nice + times.Iowait + times.Irq +
times.Softirq + times.Steal + times.Guest + times.GuestNice + times.Stolen
deltaTotal := currentTotal - h.prevTotal
idle = ((currentIdle - h.prevIdle) / deltaTotal) * 100
user = ((currentUser - h.prevUser) / deltaTotal) * 100
system = ((currentSystem - h.prevSystem) / deltaTotal) * 100
total = ((currentBusy - h.prevBusy) / deltaTotal) * 100
// Protect against any invalid values
if math.IsNaN(idle) || math.IsInf(idle, 0) {
idle = 100.0
}
if math.IsNaN(user) || math.IsInf(user, 0) {
user = 0.0
}
if math.IsNaN(system) || math.IsInf(system, 0) {
system = 0.0
}
if math.IsNaN(total) || math.IsInf(total, 0) {
total = 0.0
}
h.prevIdle = currentIdle
h.prevUser = currentUser
h.prevSystem = currentSystem
h.prevTotal = currentTotal
h.prevBusy = currentBusy
return
}