func (p *Process) Name() (string, error) {
	k, err := p.getKProc()
	if err != nil {
		return "", err
	}

	return common.IntToString(k.Proc.P_comm[:]), nil
}
Beispiel #2
0
func Users() ([]UserStat, error) {
	utmpfile := "/var/run/utmpx"
	var ret []UserStat

	file, err := os.Open(utmpfile)
	if err != nil {
		return ret, err
	}

	buf, err := ioutil.ReadAll(file)
	if err != nil {
		return ret, err
	}

	u := Utmpx{}
	entrySize := int(unsafe.Sizeof(u))
	count := len(buf) / entrySize

	for i := 0; i < count; i++ {
		b := buf[i*entrySize : i*entrySize+entrySize]

		var u Utmpx
		br := bytes.NewReader(b)
		err := binary.Read(br, binary.LittleEndian, &u)
		if err != nil {
			continue
		}
		if u.Type != 7 { // skip if not USERPROCESS
			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

}
Beispiel #3
0
func Users() ([]UserStat, error) {
	utmpfile := "/var/run/utmp"

	file, err := os.Open(utmpfile)
	if err != nil {
		return nil, err
	}

	buf, err := ioutil.ReadAll(file)
	if err != nil {
		return nil, err
	}

	u := utmp{}
	entrySize := int(unsafe.Sizeof(u))
	count := len(buf) / entrySize

	ret := make([]UserStat, 0, count)

	for i := 0; i < count; i++ {
		b := buf[i*entrySize : i*entrySize+entrySize]

		var u utmp
		br := bytes.NewReader(b)
		err := binary.Read(br, binary.LittleEndian, &u)
		if err != nil {
			continue
		}
		user := UserStat{
			User:     common.IntToString(u.User[:]),
			Terminal: common.IntToString(u.Line[:]),
			Host:     common.IntToString(u.Host[:]),
			Started:  int(u.Tv.TvSec),
		}
		ret = append(ret, user)
	}

	return ret, nil

}
Beispiel #4
0
func DiskIOCounters() (map[string]DiskIOCountersStat, error) {
	// statinfo->devinfo->devstat
	// /usr/include/devinfo.h

	//	sysctl.sysctl ('kern.devstat.all', 0)
	ret := make(map[string]DiskIOCountersStat)
	mib := []int32{CTLKern, KernDevstat, KernDevstatAll}

	buf, length, err := common.CallSyscall(mib)
	if err != nil {
		return nil, err
	}

	ds := Devstat{}
	devstatLen := int(unsafe.Sizeof(ds))
	count := int(length / uint64(devstatLen))

	buf = buf[8:] // devstat.all has version in the head.
	// parse buf to Devstat
	for i := 0; i < count; i++ {
		b := buf[i*devstatLen : i*devstatLen+devstatLen]
		d, err := parseDevstat(b)
		if err != nil {
			continue
		}
		un := strconv.Itoa(int(d.Unit_number))
		name := common.IntToString(d.Device_name[:]) + un

		ds := DiskIOCountersStat{
			ReadCount:  d.Operations[DEVSTAT_READ],
			WriteCount: d.Operations[DEVSTAT_WRITE],
			ReadBytes:  d.Bytes[DEVSTAT_READ],
			WriteBytes: d.Bytes[DEVSTAT_WRITE],
			ReadTime:   d.Duration[DEVSTAT_READ].Compute(),
			WriteTime:  d.Duration[DEVSTAT_WRITE].Compute(),
			Name:       name,
		}
		ret[name] = ds
	}

	return ret, nil
}
Beispiel #5
0
func DiskPartitions(all bool) ([]DiskPartitionStat, error) {
	var ret []DiskPartitionStat

	count, err := Getfsstat(nil, MntWait)
	if err != nil {
		return ret, err
	}
	fs := make([]Statfs_t, count)
	_, err = Getfsstat(fs, MntWait)
	for _, stat := range fs {
		opts := "rw"
		if stat.Flags&MntReadOnly != 0 {
			opts = "ro"
		}
		if stat.Flags&MntSynchronous != 0 {
			opts += ",sync"
		}
		if stat.Flags&MntNoExec != 0 {
			opts += ",noexec"
		}
		if stat.Flags&MntNoSuid != 0 {
			opts += ",nosuid"
		}
		if stat.Flags&MntUnion != 0 {
			opts += ",union"
		}
		if stat.Flags&MntAsync != 0 {
			opts += ",async"
		}
		if stat.Flags&MntSuidDir != 0 {
			opts += ",suiddir"
		}
		if stat.Flags&MntSoftDep != 0 {
			opts += ",softdep"
		}
		if stat.Flags&MntNoSymFollow != 0 {
			opts += ",nosymfollow"
		}
		if stat.Flags&MntGEOMJournal != 0 {
			opts += ",gjounalc"
		}
		if stat.Flags&MntMultilabel != 0 {
			opts += ",multilabel"
		}
		if stat.Flags&MntACLs != 0 {
			opts += ",acls"
		}
		if stat.Flags&MntNoATime != 0 {
			opts += ",noattime"
		}
		if stat.Flags&MntClusterRead != 0 {
			opts += ",nocluster"
		}
		if stat.Flags&MntClusterWrite != 0 {
			opts += ",noclusterw"
		}
		if stat.Flags&MntNFS4ACLs != 0 {
			opts += ",nfs4acls"
		}
		d := DiskPartitionStat{
			Device:     common.IntToString(stat.Mntfromname[:]),
			Mountpoint: common.IntToString(stat.Mntonname[:]),
			Fstype:     common.IntToString(stat.Fstypename[:]),
			Opts:       opts,
		}
		ret = append(ret, d)
	}

	return ret, nil
}
Beispiel #6
0
func DiskPartitions(all bool) ([]DiskPartitionStat, error) {
	var ret []DiskPartitionStat

	// get length
	count, err := syscall.Getfsstat(nil, MNT_WAIT)
	if err != nil {
		return ret, err
	}

	fs := make([]Statfs, count)
	_, err = Getfsstat(fs, MNT_WAIT)

	for _, stat := range fs {
		opts := "rw"
		if stat.Flags&MNT_RDONLY != 0 {
			opts = "ro"
		}
		if stat.Flags&MNT_SYNCHRONOUS != 0 {
			opts += ",sync"
		}
		if stat.Flags&MNT_NOEXEC != 0 {
			opts += ",noexec"
		}
		if stat.Flags&MNT_NOSUID != 0 {
			opts += ",nosuid"
		}
		if stat.Flags&MNT_UNION != 0 {
			opts += ",union"
		}
		if stat.Flags&MNT_ASYNC != 0 {
			opts += ",async"
		}
		if stat.Flags&MNT_SUIDDIR != 0 {
			opts += ",suiddir"
		}
		if stat.Flags&MNT_SOFTDEP != 0 {
			opts += ",softdep"
		}
		if stat.Flags&MNT_NOSYMFOLLOW != 0 {
			opts += ",nosymfollow"
		}
		if stat.Flags&MNT_GJOURNAL != 0 {
			opts += ",gjounalc"
		}
		if stat.Flags&MNT_MULTILABEL != 0 {
			opts += ",multilabel"
		}
		if stat.Flags&MNT_ACLS != 0 {
			opts += ",acls"
		}
		if stat.Flags&MNT_NOATIME != 0 {
			opts += ",noattime"
		}
		if stat.Flags&MNT_NOCLUSTERR != 0 {
			opts += ",nocluster"
		}
		if stat.Flags&MNT_NOCLUSTERW != 0 {
			opts += ",noclusterw"
		}
		if stat.Flags&MNT_NFS4ACLS != 0 {
			opts += ",nfs4acls"
		}

		d := DiskPartitionStat{
			Device:     common.IntToString(stat.Mntfromname[:]),
			Mountpoint: common.IntToString(stat.Mntonname[:]),
			Fstype:     common.IntToString(stat.Fstypename[:]),
			Opts:       opts,
		}
		ret = append(ret, d)
	}

	return ret, nil
}