//go:build linux // +build linux package cpu import ( "context" "errors" "fmt" "path/filepath" "strconv" "strings" "github.com/shirou/gopsutil/v3/internal/common" "github.com/tklauser/go-sysconf" ) var ClocksPerSec = float64(100) func init() { clkTck, err := sysconf.Sysconf(sysconf.SC_CLK_TCK) // ignore errors if err == nil { ClocksPerSec = float64(clkTck) } } func Times(percpu bool) ([]TimesStat, error) { return TimesWithContext(context.Background(), percpu) } func TimesWithContext(ctx context.Context, percpu bool) ([]TimesStat, error) { filename := common.HostProc("stat") lines := []string{} if percpu { statlines, err := common.ReadLines(filename) if err != nil || len(statlines) < 2 { return []TimesStat{}, nil } for _, line := range statlines[1:] { if !strings.HasPrefix(line, "cpu") { break } lines = append(lines, line) } } else { lines, _ = common.ReadLinesOffsetN(filename, 0, 1) } ret := make([]TimesStat, 0, len(lines)) for _, line := range lines { ct, err := parseStatLine(line) if err != nil { continue } ret = append(ret, *ct) } return ret, nil } func sysCPUPath(cpu int32, relPath string) string { return common.HostSys(fmt.Sprintf("devices/system/cpu/cpu%d", cpu), relPath) } func finishCPUInfo(c *InfoStat) { var lines []string var err error var value float64 if len(c.CoreID) == 0 { lines, err = common.ReadLines(sysCPUPath(c.CPU, "topology/core_id")) if err == nil { c.CoreID = lines[0] } } // override the value of c.Mhz with cpufreq/cpuinfo_max_freq regardless // of the value from /proc/cpuinfo because we want to report the maximum // clock-speed of the CPU for c.Mhz, matching the behaviour of Windows lines, err = common.ReadLines(sysCPUPath(c.CPU, "cpufreq/cpuinfo_max_freq")) // if we encounter errors below such as there are no cpuinfo_max_freq file, // we just ignore. so let Mhz is 0. if err != nil || len(lines) == 0 { return } value, err = strconv.ParseFloat(lines[0], 64) if err != nil { return } c.Mhz = value / 1000.0 // value is in kHz if c.Mhz > 9999 { c.Mhz = c.Mhz / 1000.0 // value in Hz } } // CPUInfo on linux will return 1 item per physical thread. // // CPUs have three levels of counting: sockets, cores, threads. // Cores with HyperThreading count as having 2 threads per core. // Sockets often come with many physical CPU cores. // For example a single socket board with two cores each with HT will // return 4 CPUInfoStat structs on Linux and the "Cores" field set to 1. func Info() ([]InfoStat, error) { return InfoWithContext(context.Background()) } func InfoWithContext(ctx context.Context) ([]InfoStat, error) { filename := common.HostProc("cpuinfo") lines, _ := common.ReadLines(filename) var ret []InfoStat var processorName string c := InfoStat{CPU: -1, Cores: 1} for _, line := range lines { fields := strings.Split(line, ":") if len(fields) < 2 { continue } key := strings.TrimSpace(fields[0]) value := strings.TrimSpace(fields[1]) switch key { case "Processor": processorName = value case "processor": if c.CPU >= 0 { finishCPUInfo(&c) ret = append(ret, c) } c = InfoStat{Cores: 1, ModelName: processorName} t, err := strconv.ParseInt(value, 10, 64) if err != nil { return ret, err } c.CPU = int32(t) case "vendorId", "vendor_id": c.VendorID = value case "CPU implementer": if v, err := strconv.ParseUint(value, 0, 8); err == nil { switch v { case 0x41: c.VendorID = "ARM" case 0x42: c.VendorID = "Broadcom" case 0x43: c.VendorID = "Cavium" case 0x44: c.VendorID = "DEC" case 0x46: c.VendorID = "Fujitsu" case 0x48: c.VendorID = "HiSilicon" case 0x49: c.VendorID = "Infineon" case 0x4d: c.VendorID = "Motorola/Freescale" case 0x4e: c.VendorID = "NVIDIA" case 0x50: c.VendorID = "APM" case 0x51: c.VendorID = "Qualcomm" case 0x56: c.VendorID = "Marvell" case 0x61: c.VendorID = "Apple" case 0x69: c.VendorID = "Intel" case 0xc0: c.VendorID = "Ampere" } } case "cpu family": c.Family = value case "model", "CPU part": c.Model = value case "model name", "cpu": c.ModelName = value if strings.Contains(value, "POWER8") || strings.Contains(value, "POWER7") { c.Model = strings.Split(value, " ")[0] c.Family = "POWER" c.VendorID = "IBM" } case "stepping", "revision", "CPU revision": val := value if key == "revision" { val = strings.Split(value, ".")[0] } t, err := strconv.ParseInt(val, 10, 64) if err != nil { return ret, err } c.Stepping = int32(t) case "cpu MHz", "clock": // treat this as the fallback value, thus we ignore error if t, err := strconv.ParseFloat(strings.Replace(value, "MHz", "", 1), 64); err == nil { c.Mhz = t } case "cache size": t, err := strconv.ParseInt(strings.Replace(value, " KB", "", 1), 10, 64) if err != nil { return ret, err } c.CacheSize = int32(t) case "physical id": c.PhysicalID = value case "core id": c.CoreID = value case "flags", "Features": c.Flags = strings.FieldsFunc(value, func(r rune) bool { return r == ',' || r == ' ' }) case "microcode": c.Microcode = value } } if c.CPU >= 0 { finishCPUInfo(&c) ret = append(ret, c) } return ret, nil } func parseStatLine(line string) (*TimesStat, error) { fields := strings.Fields(line) if len(fields) == 0 { return nil, errors.New("stat does not contain cpu info") } if !strings.HasPrefix(fields[0], "cpu") { return nil, errors.New("not contain cpu") } cpu := fields[0] if cpu == "cpu" { cpu = "cpu-total" } user, err := strconv.ParseFloat(fields[1], 64) if err != nil { return nil, err } nice, err := strconv.ParseFloat(fields[2], 64) if err != nil { return nil, err } system, err := strconv.ParseFloat(fields[3], 64) if err != nil { return nil, err } idle, err := strconv.ParseFloat(fields[4], 64) if err != nil { return nil, err } iowait, err := strconv.ParseFloat(fields[5], 64) if err != nil { return nil, err } irq, err := strconv.ParseFloat(fields[6], 64) if err != nil { return nil, err } softirq, err := strconv.ParseFloat(fields[7], 64) if err != nil { return nil, err } ct := &TimesStat{ CPU: cpu, User: user / ClocksPerSec, Nice: nice / ClocksPerSec, System: system / ClocksPerSec, Idle: idle / ClocksPerSec, Iowait: iowait / ClocksPerSec, Irq: irq / ClocksPerSec, Softirq: softirq / ClocksPerSec, } if len(fields) > 8 { // Linux >= 2.6.11 steal, err := strconv.ParseFloat(fields[8], 64) if err != nil { return nil, err } ct.Steal = steal / ClocksPerSec } if len(fields) > 9 { // Linux >= 2.6.24 guest, err := strconv.ParseFloat(fields[9], 64) if err != nil { return nil, err } ct.Guest = guest / ClocksPerSec } if len(fields) > 10 { // Linux >= 3.2.0 guestNice, err := strconv.ParseFloat(fields[10], 64) if err != nil { return nil, err } ct.GuestNice = guestNice / ClocksPerSec } return ct, nil } func CountsWithContext(ctx context.Context, logical bool) (int, error) { if logical { ret := 0 // https://github.com/giampaolo/psutil/blob/d01a9eaa35a8aadf6c519839e987a49d8be2d891/psutil/_pslinux.py#L599 procCpuinfo := common.HostProc("cpuinfo") lines, err := common.ReadLines(procCpuinfo) if err == nil { for _, line := range lines { line = strings.ToLower(line) if strings.HasPrefix(line, "processor") { _, err = strconv.Atoi(strings.TrimSpace(line[strings.IndexByte(line, ':')+1:])) if err == nil { ret++ } } } } if ret == 0 { procStat := common.HostProc("stat") lines, err = common.ReadLines(procStat) if err != nil { return 0, err } for _, line := range lines { if len(line) >= 4 && strings.HasPrefix(line, "cpu") && '0' <= line[3] && line[3] <= '9' { // `^cpu\d` regexp matching ret++ } } } return ret, nil } // physical cores // https://github.com/giampaolo/psutil/blob/8415355c8badc9c94418b19bdf26e622f06f0cce/psutil/_pslinux.py#L615-L628 threadSiblingsLists := make(map[string]bool) // These 2 files are the same but */core_cpus_list is newer while */thread_siblings_list is deprecated and may disappear in the future. // https://www.kernel.org/doc/Documentation/admin-guide/cputopology.rst // https://github.com/giampaolo/psutil/pull/1727#issuecomment-707624964 // https://lkml.org/lkml/2019/2/26/41 for _, glob := range []string{"devices/system/cpu/cpu[0-9]*/topology/core_cpus_list", "devices/system/cpu/cpu[0-9]*/topology/thread_siblings_list"} { if files, err := filepath.Glob(common.HostSys(glob)); err == nil { for _, file := range files { lines, err := common.ReadLines(file) if err != nil || len(lines) != 1 { continue } threadSiblingsLists[lines[0]] = true } ret := len(threadSiblingsLists) if ret != 0 { return ret, nil } } } // https://github.com/giampaolo/psutil/blob/122174a10b75c9beebe15f6c07dcf3afbe3b120d/psutil/_pslinux.py#L631-L652 filename := common.HostProc("cpuinfo") lines, err := common.ReadLines(filename) if err != nil { return 0, err } mapping := make(map[int]int) currentInfo := make(map[string]int) for _, line := range lines { line = strings.ToLower(strings.TrimSpace(line)) if line == "" { // new section id, okID := currentInfo["physical id"] cores, okCores := currentInfo["cpu cores"] if okID && okCores { mapping[id] = cores } currentInfo = make(map[string]int) continue } fields := strings.Split(line, ":") if len(fields) < 2 { continue } fields[0] = strings.TrimSpace(fields[0]) if fields[0] == "physical id" || fields[0] == "cpu cores" { val, err := strconv.Atoi(strings.TrimSpace(fields[1])) if err != nil { continue } currentInfo[fields[0]] = val } } ret := 0 for _, v := range mapping { ret += v } return ret, nil }