// +build windows package disk import ( "bytes" "unsafe" "github.com/StackExchange/wmi" "github.com/shirou/gopsutil/internal/common" "golang.org/x/sys/windows" ) var ( procGetDiskFreeSpaceExW = common.Modkernel32.NewProc("GetDiskFreeSpaceExW") procGetLogicalDriveStringsW = common.Modkernel32.NewProc("GetLogicalDriveStringsW") procGetDriveType = common.Modkernel32.NewProc("GetDriveTypeW") provGetVolumeInformation = common.Modkernel32.NewProc("GetVolumeInformationW") ) var ( FileFileCompression = int64(16) // 0x00000010 FileReadOnlyVolume = int64(524288) // 0x00080000 ) type Win32_PerfFormattedData struct { Name string AvgDiskBytesPerRead uint64 AvgDiskBytesPerWrite uint64 AvgDiskReadQueueLength uint64 AvgDiskWriteQueueLength uint64 AvgDisksecPerRead uint64 AvgDisksecPerWrite uint64 } const WaitMSec = 500 func Usage(path string) (*UsageStat, error) { ret := &UsageStat{} lpFreeBytesAvailable := int64(0) lpTotalNumberOfBytes := int64(0) lpTotalNumberOfFreeBytes := int64(0) diskret, _, err := procGetDiskFreeSpaceExW.Call( uintptr(unsafe.Pointer(windows.StringToUTF16Ptr(path))), uintptr(unsafe.Pointer(&lpFreeBytesAvailable)), uintptr(unsafe.Pointer(&lpTotalNumberOfBytes)), uintptr(unsafe.Pointer(&lpTotalNumberOfFreeBytes))) if diskret == 0 { return nil, err } ret = &UsageStat{ Path: path, Total: uint64(lpTotalNumberOfBytes), Free: uint64(lpTotalNumberOfFreeBytes), Used: uint64(lpTotalNumberOfBytes) - uint64(lpTotalNumberOfFreeBytes), UsedPercent: (float64(lpTotalNumberOfBytes) - float64(lpTotalNumberOfFreeBytes)) / float64(lpTotalNumberOfBytes) * 100, // InodesTotal: 0, // InodesFree: 0, // InodesUsed: 0, // InodesUsedPercent: 0, } return ret, nil } func Partitions(all bool) ([]PartitionStat, error) { var ret []PartitionStat lpBuffer := make([]byte, 254) diskret, _, err := procGetLogicalDriveStringsW.Call( uintptr(len(lpBuffer)), uintptr(unsafe.Pointer(&lpBuffer[0]))) if diskret == 0 { return ret, err } for _, v := range lpBuffer { if v >= 65 && v <= 90 { path := string(v) + ":" if path == "A:" || path == "B:" { // skip floppy drives continue } typepath, _ := windows.UTF16PtrFromString(path) typeret, _, _ := procGetDriveType.Call(uintptr(unsafe.Pointer(typepath))) if typeret == 0 { return ret, windows.GetLastError() } // 2: DRIVE_REMOVABLE 3: DRIVE_FIXED 4: DRIVE_REMOTE 5: DRIVE_CDROM if typeret == 2 || typeret == 3 || typeret == 4 || typeret == 5 { lpVolumeNameBuffer := make([]byte, 256) lpVolumeSerialNumber := int64(0) lpMaximumComponentLength := int64(0) lpFileSystemFlags := int64(0) lpFileSystemNameBuffer := make([]byte, 256) volpath, _ := windows.UTF16PtrFromString(string(v) + ":/") driveret, _, err := provGetVolumeInformation.Call( uintptr(unsafe.Pointer(volpath)), uintptr(unsafe.Pointer(&lpVolumeNameBuffer[0])), uintptr(len(lpVolumeNameBuffer)), uintptr(unsafe.Pointer(&lpVolumeSerialNumber)), uintptr(unsafe.Pointer(&lpMaximumComponentLength)), uintptr(unsafe.Pointer(&lpFileSystemFlags)), uintptr(unsafe.Pointer(&lpFileSystemNameBuffer[0])), uintptr(len(lpFileSystemNameBuffer))) if driveret == 0 { if typeret == 5 || typeret == 2 { continue //device is not ready will happen if there is no disk in the drive } return ret, err } opts := "rw" if lpFileSystemFlags&FileReadOnlyVolume != 0 { opts = "ro" } if lpFileSystemFlags&FileFileCompression != 0 { opts += ".compress" } d := PartitionStat{ Mountpoint: path, Device: path, Fstype: string(bytes.Replace(lpFileSystemNameBuffer, []byte("\x00"), []byte(""), -1)), Opts: opts, } ret = append(ret, d) } } } return ret, nil } func IOCounters(names ...string) (map[string]IOCountersStat, error) { ret := make(map[string]IOCountersStat, 0) var dst []Win32_PerfFormattedData err := wmi.Query("SELECT * FROM Win32_PerfFormattedData_PerfDisk_LogicalDisk ", &dst) if err != nil { return ret, err } for _, d := range dst { if len(d.Name) > 3 { // not get _Total or Harddrive continue } if len(names) > 0 && !common.StringsHas(names, d.Name) { continue } ret[d.Name] = IOCountersStat{ Name: d.Name, ReadCount: uint64(d.AvgDiskReadQueueLength), WriteCount: d.AvgDiskWriteQueueLength, ReadBytes: uint64(d.AvgDiskBytesPerRead), WriteBytes: uint64(d.AvgDiskBytesPerWrite), ReadTime: d.AvgDisksecPerRead, WriteTime: d.AvgDisksecPerWrite, } } return ret, nil }