// +build linux package host import ( "bytes" "context" "encoding/binary" "fmt" "io/ioutil" "os" "os/exec" "path/filepath" "regexp" "runtime" "strconv" "strings" "sync/atomic" "time" "github.com/shirou/gopsutil/internal/common" ) type LSB struct { ID string Release string Codename string Description string } // from utmp.h const USER_PROCESS = 7 func Info() (*InfoStat, error) { return InfoWithContext(context.Background()) } func InfoWithContext(ctx context.Context) (*InfoStat, error) { ret := &InfoStat{ OS: runtime.GOOS, } hostname, err := os.Hostname() if err == nil { ret.Hostname = hostname } platform, family, version, err := PlatformInformation() if err == nil { ret.Platform = platform ret.PlatformFamily = family ret.PlatformVersion = version } kernelVersion, err := KernelVersion() if err == nil { ret.KernelVersion = kernelVersion } system, role, err := Virtualization() if err == nil { ret.VirtualizationSystem = system ret.VirtualizationRole = role } boot, err := BootTime() if err == nil { ret.BootTime = boot ret.Uptime = uptime(boot) } if numProcs, err := common.NumProcs(); err == nil { ret.Procs = numProcs } sysProductUUID := common.HostSys("class/dmi/id/product_uuid") switch { case common.PathExists(sysProductUUID): lines, err := common.ReadLines(sysProductUUID) if err == nil && len(lines) > 0 && lines[0] != "" { ret.HostID = strings.ToLower(lines[0]) break } fallthrough default: values, err := common.DoSysctrl("kernel.random.boot_id") if err == nil && len(values) == 1 && values[0] != "" { ret.HostID = strings.ToLower(values[0]) } } return ret, nil } // cachedBootTime must be accessed via atomic.Load/StoreUint64 var cachedBootTime uint64 // BootTime returns the system boot time expressed in seconds since the epoch. func BootTime() (uint64, error) { return BootTimeWithContext(context.Background()) } func BootTimeWithContext(ctx context.Context) (uint64, error) { t := atomic.LoadUint64(&cachedBootTime) if t != 0 { return t, nil } system, role, err := Virtualization() if err != nil { return 0, err } statFile := "stat" if system == "lxc" && role == "guest" { // if lxc, /proc/uptime is used. statFile = "uptime" } else if system == "docker" && role == "guest" { // also docker, guest statFile = "uptime" } filename := common.HostProc(statFile) lines, err := common.ReadLines(filename) if err != nil { return 0, err } if statFile == "stat" { for _, line := range lines { if strings.HasPrefix(line, "btime") { f := strings.Fields(line) if len(f) != 2 { return 0, fmt.Errorf("wrong btime format") } b, err := strconv.ParseInt(f[1], 10, 64) if err != nil { return 0, err } t = uint64(b) atomic.StoreUint64(&cachedBootTime, t) return t, nil } } } else if statFile == "uptime" { if len(lines) != 1 { return 0, fmt.Errorf("wrong uptime format") } f := strings.Fields(lines[0]) b, err := strconv.ParseFloat(f[0], 64) if err != nil { return 0, err } t = uint64(time.Now().Unix()) - uint64(b) atomic.StoreUint64(&cachedBootTime, t) return t, nil } return 0, fmt.Errorf("could not find btime") } func uptime(boot uint64) uint64 { return uint64(time.Now().Unix()) - boot } func Uptime() (uint64, error) { return UptimeWithContext(context.Background()) } func UptimeWithContext(ctx context.Context) (uint64, error) { boot, err := BootTime() if err != nil { return 0, err } return uptime(boot), nil } func Users() ([]UserStat, error) { return UsersWithContext(context.Background()) } func UsersWithContext(ctx context.Context) ([]UserStat, error) { utmpfile := common.HostVar("run/utmp") file, err := os.Open(utmpfile) if err != nil { return nil, err } defer file.Close() buf, err := ioutil.ReadAll(file) if err != nil { return nil, err } count := len(buf) / sizeOfUtmp ret := make([]UserStat, 0, count) for i := 0; i < count; i++ { b := buf[i*sizeOfUtmp : (i+1)*sizeOfUtmp] var u utmp br := bytes.NewReader(b) err := binary.Read(br, binary.LittleEndian, &u) if err != nil { continue } if u.Type != USER_PROCESS { continue } user := UserStat{ User: common.IntToString(u.User[:]), Terminal: common.IntToString(u.Line[:]), Host: common.IntToString(u.Host[:]), Started: int(u.Tv.Sec), } ret = append(ret, user) } return ret, nil } func getOSRelease() (platform string, version string, err error) { contents, err := common.ReadLines(common.HostEtc("os-release")) if err != nil { return "", "", nil // return empty } for _, line := range contents { field := strings.Split(line, "=") if len(field) < 2 { continue } switch field[0] { case "ID": // use ID for lowercase platform = field[1] case "VERSION": version = field[1] } } return platform, version, nil } func getLSB() (*LSB, error) { ret := &LSB{} if common.PathExists(common.HostEtc("lsb-release")) { contents, err := common.ReadLines(common.HostEtc("lsb-release")) if err != nil { return ret, err // return empty } for _, line := range contents { field := strings.Split(line, "=") if len(field) < 2 { continue } switch field[0] { case "DISTRIB_ID": ret.ID = field[1] case "DISTRIB_RELEASE": ret.Release = field[1] case "DISTRIB_CODENAME": ret.Codename = field[1] case "DISTRIB_DESCRIPTION": ret.Description = field[1] } } } else if common.PathExists("/usr/bin/lsb_release") { lsb_release, err := exec.LookPath("/usr/bin/lsb_release") if err != nil { return ret, err } out, err := invoke.Command(lsb_release) if err != nil { return ret, err } for _, line := range strings.Split(string(out), "\n") { field := strings.Split(line, ":") if len(field) < 2 { continue } switch field[0] { case "Distributor ID": ret.ID = field[1] case "Release": ret.Release = field[1] case "Codename": ret.Codename = field[1] case "Description": ret.Description = field[1] } } } return ret, nil } func PlatformInformation() (platform string, family string, version string, err error) { return PlatformInformationWithContext(context.Background()) } func PlatformInformationWithContext(ctx context.Context) (platform string, family string, version string, err error) { lsb, err := getLSB() if err != nil { lsb = &LSB{} } if common.PathExists(common.HostEtc("oracle-release")) { platform = "oracle" contents, err := common.ReadLines(common.HostEtc("oracle-release")) if err == nil { version = getRedhatishVersion(contents) } } else if common.PathExists(common.HostEtc("enterprise-release")) { platform = "oracle" contents, err := common.ReadLines(common.HostEtc("enterprise-release")) if err == nil { version = getRedhatishVersion(contents) } } else if common.PathExists(common.HostEtc("slackware-version")) { platform = "slackware" contents, err := common.ReadLines(common.HostEtc("slackware-version")) if err == nil { version = getSlackwareVersion(contents) } } else if common.PathExists(common.HostEtc("debian_version")) { if lsb.ID == "Ubuntu" { platform = "ubuntu" version = lsb.Release } else if lsb.ID == "LinuxMint" { platform = "linuxmint" version = lsb.Release } else { if common.PathExists("/usr/bin/raspi-config") { platform = "raspbian" } else { platform = "debian" } contents, err := common.ReadLines(common.HostEtc("debian_version")) if err == nil { version = contents[0] } } } else if common.PathExists(common.HostEtc("redhat-release")) { contents, err := common.ReadLines(common.HostEtc("redhat-release")) if err == nil { version = getRedhatishVersion(contents) platform = getRedhatishPlatform(contents) } } else if common.PathExists(common.HostEtc("system-release")) { contents, err := common.ReadLines(common.HostEtc("system-release")) if err == nil { version = getRedhatishVersion(contents) platform = getRedhatishPlatform(contents) } } else if common.PathExists(common.HostEtc("gentoo-release")) { platform = "gentoo" contents, err := common.ReadLines(common.HostEtc("gentoo-release")) if err == nil { version = getRedhatishVersion(contents) } } else if common.PathExists(common.HostEtc("SuSE-release")) { contents, err := common.ReadLines(common.HostEtc("SuSE-release")) if err == nil { version = getSuseVersion(contents) platform = getSusePlatform(contents) } // TODO: slackware detecion } else if common.PathExists(common.HostEtc("arch-release")) { platform = "arch" version = lsb.Release } else if common.PathExists(common.HostEtc("alpine-release")) { platform = "alpine" contents, err := common.ReadLines(common.HostEtc("alpine-release")) if err == nil && len(contents) > 0 { version = contents[0] } } else if common.PathExists(common.HostEtc("os-release")) { p, v, err := getOSRelease() if err == nil { platform = p version = v } } else if lsb.ID == "RedHat" { platform = "redhat" version = lsb.Release } else if lsb.ID == "Amazon" { platform = "amazon" version = lsb.Release } else if lsb.ID == "ScientificSL" { platform = "scientific" version = lsb.Release } else if lsb.ID == "XenServer" { platform = "xenserver" version = lsb.Release } else if lsb.ID != "" { platform = strings.ToLower(lsb.ID) version = lsb.Release } switch platform { case "debian", "ubuntu", "linuxmint", "raspbian": family = "debian" case "fedora": family = "fedora" case "oracle", "centos", "redhat", "scientific", "enterpriseenterprise", "amazon", "xenserver", "cloudlinux", "ibm_powerkvm": family = "rhel" case "suse", "opensuse": family = "suse" case "gentoo": family = "gentoo" case "slackware": family = "slackware" case "arch": family = "arch" case "exherbo": family = "exherbo" case "alpine": family = "alpine" case "coreos": family = "coreos" } return platform, family, version, nil } func KernelVersion() (version string, err error) { return KernelVersionWithContext(context.Background()) } func KernelVersionWithContext(ctx context.Context) (version string, err error) { filename := common.HostProc("sys/kernel/osrelease") if common.PathExists(filename) { contents, err := common.ReadLines(filename) if err != nil { return "", err } if len(contents) > 0 { version = contents[0] } } return version, nil } func getSlackwareVersion(contents []string) string { c := strings.ToLower(strings.Join(contents, "")) c = strings.Replace(c, "slackware ", "", 1) return c } func getRedhatishVersion(contents []string) string { c := strings.ToLower(strings.Join(contents, "")) if strings.Contains(c, "rawhide") { return "rawhide" } if matches := regexp.MustCompile(`release (\d[\d.]*)`).FindStringSubmatch(c); matches != nil { return matches[1] } return "" } func getRedhatishPlatform(contents []string) string { c := strings.ToLower(strings.Join(contents, "")) if strings.Contains(c, "red hat") { return "redhat" } f := strings.Split(c, " ") return f[0] } func getSuseVersion(contents []string) string { version := "" for _, line := range contents { if matches := regexp.MustCompile(`VERSION = ([\d.]+)`).FindStringSubmatch(line); matches != nil { version = matches[1] } else if matches := regexp.MustCompile(`PATCHLEVEL = ([\d]+)`).FindStringSubmatch(line); matches != nil { version = version + "." + matches[1] } } return version } func getSusePlatform(contents []string) string { c := strings.ToLower(strings.Join(contents, "")) if strings.Contains(c, "opensuse") { return "opensuse" } return "suse" } func Virtualization() (string, string, error) { return VirtualizationWithContext(context.Background()) } func VirtualizationWithContext(ctx context.Context) (string, string, error) { var system string var role string filename := common.HostProc("xen") if common.PathExists(filename) { system = "xen" role = "guest" // assume guest if common.PathExists(filepath.Join(filename, "capabilities")) { contents, err := common.ReadLines(filepath.Join(filename, "capabilities")) if err == nil { if common.StringsContains(contents, "control_d") { role = "host" } } } } filename = common.HostProc("modules") if common.PathExists(filename) { contents, err := common.ReadLines(filename) if err == nil { if common.StringsContains(contents, "kvm") { system = "kvm" role = "host" } else if common.StringsContains(contents, "vboxdrv") { system = "vbox" role = "host" } else if common.StringsContains(contents, "vboxguest") { system = "vbox" role = "guest" } else if common.StringsContains(contents, "vmware") { system = "vmware" role = "guest" } } } filename = common.HostProc("cpuinfo") if common.PathExists(filename) { contents, err := common.ReadLines(filename) if err == nil { if common.StringsContains(contents, "QEMU Virtual CPU") || common.StringsContains(contents, "Common KVM processor") || common.StringsContains(contents, "Common 32-bit KVM processor") { system = "kvm" role = "guest" } } } filename = common.HostProc() if common.PathExists(filepath.Join(filename, "bc", "0")) { system = "openvz" role = "host" } else if common.PathExists(filepath.Join(filename, "vz")) { system = "openvz" role = "guest" } // not use dmidecode because it requires root if common.PathExists(filepath.Join(filename, "self", "status")) { contents, err := common.ReadLines(filepath.Join(filename, "self", "status")) if err == nil { if common.StringsContains(contents, "s_context:") || common.StringsContains(contents, "VxID:") { system = "linux-vserver" } // TODO: guest or host } } if common.PathExists(filepath.Join(filename, "self", "cgroup")) { contents, err := common.ReadLines(filepath.Join(filename, "self", "cgroup")) if err == nil { if common.StringsContains(contents, "lxc") { system = "lxc" role = "guest" } else if common.StringsContains(contents, "docker") { system = "docker" role = "guest" } else if common.StringsContains(contents, "machine-rkt") { system = "rkt" role = "guest" } else if common.PathExists("/usr/bin/lxc-version") { system = "lxc" role = "host" } } } if common.PathExists(common.HostEtc("os-release")) { p, _, err := getOSRelease() if err == nil && p == "coreos" { system = "rkt" // Is it true? role = "host" } } return system, role, nil } func SensorsTemperatures() ([]TemperatureStat, error) { return SensorsTemperaturesWithContext(context.Background()) } func SensorsTemperaturesWithContext(ctx context.Context) ([]TemperatureStat, error) { var temperatures []TemperatureStat files, err := filepath.Glob(common.HostSys("/class/hwmon/hwmon*/temp*_*")) if err != nil { return temperatures, err } if len(files) == 0 { // CentOS has an intermediate /device directory: // https://github.com/giampaolo/psutil/issues/971 files, err = filepath.Glob(common.HostSys("/class/hwmon/hwmon*/device/temp*_*")) if err != nil { return temperatures, err } } // example directory // device/ temp1_crit_alarm temp2_crit_alarm temp3_crit_alarm temp4_crit_alarm temp5_crit_alarm temp6_crit_alarm temp7_crit_alarm // name temp1_input temp2_input temp3_input temp4_input temp5_input temp6_input temp7_input // power/ temp1_label temp2_label temp3_label temp4_label temp5_label temp6_label temp7_label // subsystem/ temp1_max temp2_max temp3_max temp4_max temp5_max temp6_max temp7_max // temp1_crit temp2_crit temp3_crit temp4_crit temp5_crit temp6_crit temp7_crit uevent for _, file := range files { filename := strings.Split(filepath.Base(file), "_") if filename[1] == "label" { // Do not try to read the temperature of the label file continue } // Get the label of the temperature you are reading var label string c, _ := ioutil.ReadFile(filepath.Join(filepath.Dir(file), filename[0]+"_label")) if c != nil { //format the label from "Core 0" to "core0_" label = fmt.Sprintf("%s_", strings.Join(strings.Split(strings.TrimSpace(strings.ToLower(string(c))), " "), "")) } // Get the name of the tempearture you are reading name, err := ioutil.ReadFile(filepath.Join(filepath.Dir(file), "name")) if err != nil { return temperatures, err } // Get the temperature reading current, err := ioutil.ReadFile(file) if err != nil { return temperatures, err } temperature, err := strconv.ParseFloat(strings.TrimSpace(string(current)), 64) if err != nil { continue } tempName := strings.TrimSpace(strings.ToLower(string(strings.Join(filename[1:], "")))) temperatures = append(temperatures, TemperatureStat{ SensorKey: fmt.Sprintf("%s_%s%s", strings.TrimSpace(string(name)), label, tempName), Temperature: temperature / 1000.0, }) } return temperatures, nil }