package wincmd import ( "b612.me/stario" "b612.me/win32api" "fmt" "os" "reflect" "runtime" "syscall" "unsafe" ) type DiskInfo struct { Driver string Name string Format string SerialNumber uint32 } func ListDrivers() ([]string, error) { drivers := make([]string, 0, 26) buf := make([]uint16, 255) err := win32api.GetLogicalDriveStringsW(win32api.DWORD(len(buf)), &buf[0]) if err != nil { return drivers, err } var driver []rune for _, v := range buf { if v != 0 { driver = append(driver, rune(uint8(v))) if v == 92 { drivers = append(drivers, string(driver)) driver = []rune{} } } } return drivers, nil } func GetDiskInfo(disk string) (DiskInfo, error) { format := make([]rune, 0, 12) name := make([]rune, 0, 128) ptr, _ := syscall.UTF16PtrFromString(disk) var lpVolumeNameBuffer = make([]uint16, syscall.MAX_PATH+1) var nVolumeNameSize = win32api.DWORD(len(lpVolumeNameBuffer)) var lpVolumeSerialNumber uint32 var lpMaximumComponentLength uint32 var lpFileSystemFlags uint32 var lpFileSystemNameBuffer = make([]uint16, 255) var nFileSystemNameSize uint32 = syscall.MAX_PATH + 1 err := win32api.GetVolumeInformationW(ptr, &lpVolumeNameBuffer[0], nVolumeNameSize, &lpVolumeSerialNumber, &lpMaximumComponentLength, &lpFileSystemFlags, &lpFileSystemNameBuffer[0], win32api.DWORD(nFileSystemNameSize)) for _, v := range lpFileSystemNameBuffer { if v != 0 { format = append(format, rune(v)) } } for _, v := range lpVolumeNameBuffer { if v != 0 { name = append(name, rune(v)) } } return DiskInfo{ SerialNumber: lpVolumeSerialNumber, Driver: disk, Name: string(name), Format: string(format), }, err } func DeviceIoControl(handle syscall.Handle, controlCode uint32, in interface{}, out interface{}, done *uint32) (err error) { inPtr, inSize := getPointer(in) outPtr, outSize := getPointer(out) //_,err = syscall.Syscall9(procDeviceIoControl.Addr(), 8, uintptr(handle), uintptr(controlCode), inPtr, uintptr(inSize), outPtr, uintptr(outSize), uintptr(unsafe.Pointer(done)), uintptr(0), 0) _, err = win32api.DeviceIoControlPtr(win32api.HANDLE(handle), win32api.DWORD(controlCode), inPtr, win32api.DWORD(inSize), outPtr, win32api.DWORD(outSize), done, nil) return } func getPointer(i interface{}) (pointer, size uintptr) { v := reflect.ValueOf(i) switch k := v.Kind(); k { case reflect.Ptr: t := v.Elem().Type() size = t.Size() pointer = v.Pointer() case reflect.Slice: size = uintptr(v.Cap()) pointer = v.Pointer() default: fmt.Println("error") } return } // Need a custom Open to work with backup_semantics func CreateFile(path string, mode int, attrs uint32) (fd syscall.Handle, err error) { if len(path) == 0 { return syscall.InvalidHandle, win32api.ERROR_FILE_NOT_FOUND } pathp, err := syscall.UTF16PtrFromString(path) if err != nil { return syscall.InvalidHandle, err } var access uint32 switch mode & (win32api.O_RDONLY | win32api.O_WRONLY | win32api.O_RDWR) { case win32api.O_RDONLY: access = win32api.GENERIC_READ case win32api.O_WRONLY: access = win32api.GENERIC_WRITE case win32api.O_RDWR: access = win32api.GENERIC_READ | win32api.GENERIC_WRITE } if mode&win32api.O_CREAT != 0 { access |= win32api.GENERIC_WRITE } if mode&win32api.O_APPEND != 0 { access &^= win32api.GENERIC_WRITE access |= win32api.FILE_APPEND_DATA } sharemode := uint32(win32api.FILE_SHARE_READ | win32api.FILE_SHARE_WRITE) var sa *syscall.SecurityAttributes if mode&win32api.O_CLOEXEC == 0 { sa = makeInheritSa() } var createmode uint32 switch { case mode&(win32api.O_CREAT|win32api.O_EXCL) == (win32api.O_CREAT | win32api.O_EXCL): createmode = win32api.CREATE_NEW case mode&(win32api.O_CREAT|win32api.O_TRUNC) == (win32api.O_CREAT | win32api.O_TRUNC): createmode = win32api.CREATE_ALWAYS case mode&win32api.O_CREAT == win32api.O_CREAT: createmode = win32api.OPEN_ALWAYS case mode&win32api.O_TRUNC == win32api.O_TRUNC: createmode = win32api.TRUNCATE_EXISTING default: createmode = win32api.OPEN_EXISTING } h, e := syscall.CreateFile(pathp, access, sharemode, sa, createmode, attrs, 0) return h, e } func makeInheritSa() *syscall.SecurityAttributes { var sa syscall.SecurityAttributes sa.Length = uint32(unsafe.Sizeof(sa)) sa.InheritHandle = 1 return &sa } // Query usn journal data func queryUsnJournal(fd syscall.Handle) (ujd win32api.USN_JOURNAL_DATA, done uint32, err error) { err = DeviceIoControl(fd, win32api.FSCTL_QUERY_USN_JOURNAL, []byte{}, &ujd, &done) return } func readUsnJournal(fd syscall.Handle, rujd *win32api.READ_USN_JOURNAL_DATA) (data []byte, done uint32, err error) { data = make([]byte, 0x1000) err = DeviceIoControl(fd, win32api.FSCTL_READ_USN_JOURNAL, rujd, data, &done) return } func enumUsnData(fd syscall.Handle, med *win32api.MFT_ENUM_DATA) (data []byte, done uint32, err error) { data = make([]byte, 0x10000) err = DeviceIoControl(fd, win32api.FSCTL_ENUM_USN_DATA, med, data, &done) return } type FileEntry struct { Name string Parent win32api.DWORDLONG Type uint8 } type FileMonitor struct { Name string Self win32api.DWORDLONG Parent win32api.DWORDLONG Type uint8 Reason string } func ListUsnFile(driver string) (map[win32api.DWORDLONG]FileEntry, error) { fileMap := make(map[win32api.DWORDLONG]FileEntry) pDriver := "\\\\.\\" + driver[:len(driver)-1] fd, err := CreateFile(pDriver, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return fileMap, err } ujd, _, err := queryUsnJournal(fd) if err != nil { return fileMap, err } med := win32api.MFT_ENUM_DATA{0, 0, ujd.NextUsn} for { data, done, err := enumUsnData(fd, &med) if err != nil && done != 0 { return fileMap, err } if done == 0 { return fileMap, nil } var usn win32api.USN = *(*win32api.USN)(unsafe.Pointer(&data[0])) // fmt.Println("usn", usn) var ur *win32api.USN_RECORD for i := unsafe.Sizeof(usn); i < uintptr(done); i += uintptr(ur.RecordLength) { ur = (*win32api.USN_RECORD)(unsafe.Pointer(&data[i])) nameLength := uintptr(ur.FileNameLength) / unsafe.Sizeof(ur.FileName[0]) fnp := unsafe.Pointer(&data[i+uintptr(ur.FileNameOffset)]) fnUtf := (*[10000]uint16)(fnp)[:nameLength] fn := syscall.UTF16ToString(fnUtf) (*reflect.SliceHeader)(unsafe.Pointer(&fn)).Cap = int(nameLength) typed := uint8(0) if ur.FileAttributes&win32api.FILE_ATTRIBUTE_DIRECTORY != 0 { typed = 1 } // fmt.Println("len", ur.FileNameLength, ur.FileNameOffset, "fn", fn) fileMap[ur.FileReferenceNumber] = FileEntry{Name: fn, Parent: ur.ParentFileReferenceNumber, Type: typed} } med.StartFileReferenceNumber = win32api.DWORDLONG(usn) } } func ListUsnFileFn(driver string, searchFn func(string, bool) bool) (map[win32api.DWORDLONG]FileEntry, error) { fileMap := make(map[win32api.DWORDLONG]FileEntry) pDriver := "\\\\.\\" + driver[:len(driver)-1] fd, err := CreateFile(pDriver, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return fileMap, err } ujd, _, err := queryUsnJournal(fd) if err != nil { return fileMap, err } med := win32api.MFT_ENUM_DATA{0, 0, ujd.NextUsn} for { data, done, err := enumUsnData(fd, &med) if err != nil && done != 0 { return fileMap, err } if done == 0 { return fileMap, nil } var usn win32api.USN = *(*win32api.USN)(unsafe.Pointer(&data[0])) // fmt.Println("usn", usn) var ur *win32api.USN_RECORD for i := unsafe.Sizeof(usn); i < uintptr(done); i += uintptr(ur.RecordLength) { ur = (*win32api.USN_RECORD)(unsafe.Pointer(&data[i])) nameLength := uintptr(ur.FileNameLength) / unsafe.Sizeof(ur.FileName[0]) fnp := unsafe.Pointer(&data[i+uintptr(ur.FileNameOffset)]) fnUtf := (*[10000]uint16)(fnp)[:nameLength] fn := syscall.UTF16ToString(fnUtf) (*reflect.SliceHeader)(unsafe.Pointer(&fn)).Cap = int(nameLength) typed := uint8(0) if ur.FileAttributes&win32api.FILE_ATTRIBUTE_DIRECTORY != 0 { typed = 1 } if typed == 1 || searchFn(fn, typed == 1) { // fmt.Println("len", ur.FileNameLength, ur.FileNameOffset, "fn", fn) fileMap[ur.FileReferenceNumber] = FileEntry{Name: fn, Parent: ur.ParentFileReferenceNumber, Type: typed} } } med.StartFileReferenceNumber = win32api.DWORDLONG(usn) } } func GetFullUsnPath(diskName string, fileMap map[win32api.DWORDLONG]FileEntry, id win32api.DWORDLONG) (name string) { for id != 0 { fe := fileMap[id] if id == fe.Parent { name = "\\" + name break } if name == "" { name = fe.Name } else { name = fe.Name + "\\" + name } id = fe.Parent } name = diskName[:len(diskName)-1] + name return } func GetFullUsnPathEntry(diskName string, fileMap map[win32api.DWORDLONG]FileEntry, en FileMonitor) (name string) { fileMap[en.Self] = FileEntry{ Name: en.Name, Parent: en.Parent, Type: en.Type, } id := en.Self for id != 0 { fe := fileMap[id] if id == fe.Parent { name = "\\" + name break } if name == "" { name = fe.Name } else { name = fe.Name + "\\" + name } id = fe.Parent } name = diskName[:len(diskName)-1] + name return } const ( ALL_FILES = iota ONLY_FOLDER NO_FOLDER ) func ListNTFSUsnDriverFilesFn(diskName string, searchFn func(string, bool) bool) ([]string, error) { var result []string data, err := ListUsnFileFn(diskName, searchFn) if err != nil { return result, err } return listNTFSUsnDriverFiles(diskName, searchFn, data) } func ListNTFSUsnDriverFiles(diskName string, folder uint8) ([]string, error) { var result []string data, err := ListUsnFile(diskName) if err != nil { return result, err } return listNTFSUsnDriverFiles(diskName, func(name string, tp bool) bool { if !tp && folder == ONLY_FOLDER { return false } if tp && folder == NO_FOLDER { return false } return true }, data) } func listNTFSUsnDriverFiles(diskName string, fn func(string, bool) bool, data map[win32api.DWORDLONG]FileEntry) ([]string, error) { result := make([]string, len(data)) i := 0 for k, v := range data { if !fn(v.Name, v.Type == 1) { continue } name := GetFullUsnPath(diskName, data, k) result[i] = name i++ } (*reflect.SliceHeader)(unsafe.Pointer(&result)).Cap = i (*reflect.SliceHeader)(unsafe.Pointer(&result)).Len = i data = nil data = make(map[win32api.DWORDLONG]FileEntry, 0) runtime.GC() return result, nil } func ListNTFSUsnDriverInfoFn(diskName string, searchFn func(string, bool) bool) ([]FileStat, error) { data, err := ListUsnFileFn(diskName, searchFn) if err != nil { return nil, err } return listNTFSUsnDriverInfo(diskName, searchFn, data) } func ListNTFSUsnDriverInfo(diskName string, folder uint8) ([]FileStat, error) { data, err := ListUsnFile(diskName) if err != nil { return nil, err } return listNTFSUsnDriverInfo(diskName, func(name string, tp bool) bool { if !tp && folder == ONLY_FOLDER { return false } if tp && folder == NO_FOLDER { return false } return true }, data) } func listNTFSUsnDriverInfo(diskName string, fn func(string, bool) bool, data map[win32api.DWORDLONG]FileEntry) ([]FileStat, error) { //fmt.Println("finished 1") pDriver := "\\\\.\\" + diskName[:len(diskName)-1] fd, err := CreateFile(pDriver, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return nil, err } defer syscall.Close(fd) result := make([]FileStat, len(data)) i := int(0) wg := stario.NewWaitGroup(100) for k, v := range data { if !fn(v.Name, v.Type == 1) { continue } wg.Add(1) go func(k win32api.DWORDLONG, v FileEntry, i int) { defer wg.Done() //now := time.Now().UnixNano() /* fd2, err := OpenFileByIdWithfd(fd, k, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return } //fmt.Println("cost", float64((time.Now().UnixNano()-now)/1000000)) var info syscall.ByHandleFileInformation err = syscall.GetFileInformationByHandle(fd2, &info) syscall.Close(fd2) //fmt.Println("cost", float64((time.Now().UnixNano()-now)/1000000)) if err != nil { return } */ path := GetFullUsnPath(diskName, data, k) fileInfo, err := os.Stat(path) if err != nil { return } fs := fileInfo.Sys().(*syscall.Win32FileAttributeData) stat := FileStat{ FileAttributes: fs.FileAttributes, CreationTime: fs.CreationTime, LastAccessTime: fs.LastAccessTime, LastWriteTime: fs.LastWriteTime, FileSizeHigh: fs.FileSizeHigh, FileSizeLow: fs.FileSizeLow, } stat.name = v.Name stat.path = path return result[i] = stat //result[i] = newFileStatFromInformation(&info, v.Name, path) }(k, v, i) i++ } wg.Wait() //fmt.Println("finished 2") (*reflect.SliceHeader)(unsafe.Pointer(&result)).Cap = i (*reflect.SliceHeader)(unsafe.Pointer(&result)).Len = i data = nil //data = make(map[win32api.DWORDLONG]FileEntry, 0) runtime.GC() return result, nil } func getUsnJournalReasonString(reason win32api.DWORD) (s string) { var reasons = []string{ "DataOverwrite", // 0x00000001 "DataExtend", // 0x00000002 "DataTruncation", // 0x00000004 "0x00000008", // 0x00000008 "NamedDataOverwrite", // 0x00000010 "NamedDataExtend", // 0x00000020 "NamedDataTruncation", // 0x00000040 "0x00000080", // 0x00000080 "FileCreate", // 0x00000100 "FileDelete", // 0x00000200 "PropertyChange", // 0x00000400 "SecurityChange", // 0x00000800 "RenameOldName", // 0x00001000 "RenameNewName", // 0x00002000 "IndexableChange", // 0x00004000 "BasicInfoChange", // 0x00008000 "HardLinkChange", // 0x00010000 "CompressionChange", // 0x00020000 "EncryptionChange", // 0x00040000 "ObjectIdChange", // 0x00080000 "ReparsePointChange", // 0x00100000 "StreamChange", // 0x00200000 "0x00400000", // 0x00400000 "0x00800000", // 0x00800000 "0x01000000", // 0x01000000 "0x02000000", // 0x02000000 "0x04000000", // 0x04000000 "0x08000000", // 0x08000000 "0x10000000", // 0x10000000 "0x20000000", // 0x20000000 "0x40000000", // 0x40000000 "*Close*", // 0x80000000 } for i := 0; reason != 0; { if reason&1 == 1 { s = s + ", " + reasons[i] } reason >>= 1 i++ } return } func MonitorUsnChange(driver string, rec chan FileMonitor) error { pDriver := "\\\\.\\" + driver[:len(driver)-1] fd, err := CreateFile(pDriver, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return err } ujd, _, err := queryUsnJournal(fd) if err != nil { return err } rujd := win32api.READ_USN_JOURNAL_DATA{ujd.NextUsn, 0xFFFFFFFF, 0, 0, 1, ujd.UsnJournalID} for { var usn win32api.USN data, done, err := readUsnJournal(fd, &rujd) if err != nil || done <= uint32(unsafe.Sizeof(usn)) { return err } usn = *(*win32api.USN)(unsafe.Pointer(&data[0])) var ur *win32api.USN_RECORD for i := unsafe.Sizeof(usn); i < uintptr(done); i += uintptr(ur.RecordLength) { ur = (*win32api.USN_RECORD)(unsafe.Pointer(&data[i])) nameLength := uintptr(ur.FileNameLength) / unsafe.Sizeof(ur.FileName[0]) fnp := unsafe.Pointer(&data[i+uintptr(ur.FileNameOffset)]) fn := syscall.UTF16ToString((*[10000]uint16)(fnp)[:nameLength]) (*reflect.SliceHeader)(unsafe.Pointer(&fn)).Cap = int(nameLength) // fmt.Println("len", ur.FileNameLength, ur.FileNameOffset, "fn", getFullPath(folders, ur.ParentFileReferenceNumber), syscall.UTF16ToString(fn), getUsnJournalReasonString(ur.Reason)) typed := uint8(0) if ur.FileAttributes&win32api.FILE_ATTRIBUTE_DIRECTORY != 0 { typed = 1 } // fmt.Println("len", ur.FileNameLength, ur.FileNameOffset, "fn", fn) rec <- FileMonitor{Name: fn, Parent: ur.ParentFileReferenceNumber, Type: typed, Self: ur.FileReferenceNumber, Reason: getUsnJournalReasonString(ur.Reason)} } rujd.StartUsn = usn if usn == 0 { return nil } } } func GetUsnFileInfo(diskName string, fileMap map[win32api.DWORDLONG]FileEntry, id win32api.DWORDLONG) (FileStat, error) { name := fileMap[id].Name path := GetFullUsnPath(diskName, fileMap, id) fd, err := OpenFileById(diskName, id, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return FileStat{}, err } var info syscall.ByHandleFileInformation err = syscall.GetFileInformationByHandle(fd, &info) return newFileStatFromInformation(&info, name, path), err } // Need a custom Open to work with backup_semantics func OpenFileById(diskName string, id win32api.DWORDLONG, mode int, attrs uint32) (syscall.Handle, error) { pDriver := "\\\\.\\" + diskName[:len(diskName)-1] fd, err := CreateFile(pDriver, syscall.O_RDONLY, win32api.FILE_ATTRIBUTE_NORMAL) if err != nil { return syscall.InvalidHandle, err } defer syscall.Close(fd) return OpenFileByIdWithfd(fd, id, mode, attrs) } func OpenFileByIdWithfd(fd syscall.Handle, id win32api.DWORDLONG, mode int, attrs uint32) (syscall.Handle, error) { var access uint32 switch mode & (win32api.O_RDONLY | win32api.O_WRONLY | win32api.O_RDWR) { case win32api.O_RDONLY: access = win32api.GENERIC_READ case win32api.O_WRONLY: access = win32api.GENERIC_WRITE case win32api.O_RDWR: access = win32api.GENERIC_READ | win32api.GENERIC_WRITE } if mode&win32api.O_CREAT != 0 { access |= win32api.GENERIC_WRITE } if mode&win32api.O_APPEND != 0 { access &^= win32api.GENERIC_WRITE access |= win32api.FILE_APPEND_DATA } sharemode := uint32(win32api.FILE_SHARE_READ | win32api.FILE_SHARE_WRITE) var sa *syscall.SecurityAttributes if mode&win32api.O_CLOEXEC == 0 { sa = makeInheritSa() } fid := win32api.FILE_ID_DESCRIPTOR{ DwSize: 16, Type: 0, FileId: id, } fid.DwSize = win32api.DWORD(unsafe.Sizeof(fid)) h, e := win32api.OpenFileById(win32api.HANDLE(fd), &fid, win32api.DWORD(access), win32api.DWORD(sharemode), sa, win32api.DWORD(attrs)) return syscall.Handle(h), e }