package internal import ( "errors" "fmt" "strings" "time" "git.i2edu.net/i2/go-zero/core/iox" "git.i2edu.net/i2/go-zero/core/logx" ) const ( cpuTicks = 100 cpuFields = 8 ) var ( preSystem uint64 preTotal uint64 quota float64 cores uint64 ) // if /proc not present, ignore the cpu calculation, like wsl linux func init() { cpus, err := perCpuUsage() if err != nil { logx.Error(err) return } cores = uint64(len(cpus)) sets, err := cpuSets() if err != nil { logx.Error(err) return } quota = float64(len(sets)) cq, err := cpuQuota() if err == nil { if cq != -1 { period, err := cpuPeriod() if err != nil { logx.Error(err) return } limit := float64(cq) / float64(period) if limit < quota { quota = limit } } } preSystem, err = systemCpuUsage() if err != nil { logx.Error(err) return } preTotal, err = totalCpuUsage() if err != nil { logx.Error(err) return } } // RefreshCpu refreshes cpu usage and returns. func RefreshCpu() uint64 { total, err := totalCpuUsage() if err != nil { return 0 } system, err := systemCpuUsage() if err != nil { return 0 } var usage uint64 cpuDelta := total - preTotal systemDelta := system - preSystem if cpuDelta > 0 && systemDelta > 0 { usage = uint64(float64(cpuDelta*cores*1e3) / (float64(systemDelta) * quota)) } preSystem = system preTotal = total return usage } func cpuQuota() (int64, error) { cg, err := currentCgroup() if err != nil { return 0, err } return cg.cpuQuotaUs() } func cpuPeriod() (uint64, error) { cg, err := currentCgroup() if err != nil { return 0, err } return cg.cpuPeriodUs() } func cpuSets() ([]uint64, error) { cg, err := currentCgroup() if err != nil { return nil, err } return cg.cpus() } func perCpuUsage() ([]uint64, error) { cg, err := currentCgroup() if err != nil { return nil, err } return cg.acctUsagePerCpu() } func systemCpuUsage() (uint64, error) { lines, err := iox.ReadTextLines("/proc/stat", iox.WithoutBlank()) if err != nil { return 0, err } for _, line := range lines { fields := strings.Fields(line) if fields[0] == "cpu" { if len(fields) < cpuFields { return 0, fmt.Errorf("bad format of cpu stats") } var totalClockTicks uint64 for _, i := range fields[1:cpuFields] { v, err := parseUint(i) if err != nil { return 0, err } totalClockTicks += v } return (totalClockTicks * uint64(time.Second)) / cpuTicks, nil } } return 0, errors.New("bad stats format") } func totalCpuUsage() (usage uint64, err error) { var cg *cgroup if cg, err = currentCgroup(); err != nil { return } return cg.acctUsageAllCpus() }