Se o sistema de arquivos de interesse for NTFS, existe uma outra forma de listar esses arquivos de forma realmente muito mais rápida: lendo a MFT (Master File Table).
Existe uma resposta já a esta questão no SOEN, na qual vou basear esta resposta.
Visão geral sobre como ler a Master File Table (MFT)
A leitura da MFT é feita em três passos:
- verificar se o usuário possui privilégios o suficiente
- obter um handle para o volume a ser lido (a unidade lógica, e.g C:, D:, etc.)
- chamar a API do Windows
DeviceIOControl em loop para enumerar os arquivos
Cada um desses passos merece mais do que uma resposta inteira, então vou me limitar a descrever o que está acontecendo de forma bem superficial em cada um.
No programa abaixo, estão marcados onde os passos ocorrem.
O método ProcessEntry recebe cada entrada a ser processada.
Program.cs
internal static class Program
{
private static void Main(string[] args)
{
// passo 1
if (!Privileges.HasBackupAndRestorePrivileges)
Console.WriteLine("Could not assert privileges");
// passo 2
using (var volume = WinFiles.GetVolumeHandle(@"\\.\C:"))
try
{
// passo 3
WinFiles.ReadMft(volume, ProcessEntry);
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
}
}
private static void ProcessEntry(NativeMethods.UsnRecord usnRecord)
{
Console.WriteLine("FRN:" + usnRecord.FileReferenceNumber);
Console.WriteLine("Parent FRN:" + usnRecord.ParentFileReferenceNumber);
Console.WriteLine("File name:" + usnRecord.FileName);
Console.WriteLine("Attributes: "
+ (NativeMethods.EFileAttributes)usnRecord.FileAttributes);
Console.WriteLine("Timestamp:" + usnRecord.TimeStamp);
}
}
Verificar privilégios
A verificação de privilégios se dá tentando liberar o privilégio para o Token de Acesso do processo, através do método AdjustTokenPrivileges. Se esse método não falhar, quer dizer que o usuário possui o privilégio em questão, e a partir desse momento o processo pode se valer desse privilégio.
Os privilégios necessários são "SeBackupPrivilege" e "SeRestorePrivilege". Administradores e operadores de backup possuem esses privilégios, por exemplo.
Privilleges.cs
public static class Privileges
{
private static int asserted;
private static bool hasBackupPrivileges;
public static bool HasBackupAndRestorePrivileges => AssertPriveleges();
/// <remarks>
/// First time this method is called, it attempts to set
/// backup privileges for the current process.
/// Subsequently, it returns the results of that first call.
/// </remarks>
private static bool AssertPriveleges()
{
var wasAsserted = Interlocked.CompareExchange(ref asserted, 1, 0);
if (wasAsserted == 0) // first time here? come on in!
{
var success = AssertPrivelege(NativeMethods.SE_BACKUP_NAME)
&& AssertPrivelege(NativeMethods.SE_RESTORE_NAME);
hasBackupPrivileges = success;
}
return hasBackupPrivileges;
}
private static bool AssertPrivelege(string privelege)
{
IntPtr token;
if (!NativeMethods.OpenProcessToken(
NativeMethods.GetCurrentProcess(),
NativeMethods.TOKEN_ADJUST_PRIVILEGES,
out token))
return false;
try
{
var tokenPrivileges = new NativeMethods.TOKEN_PRIVILEGES
{
Privileges = new NativeMethods.LUID_AND_ATTRIBUTES[1]
};
if (!NativeMethods.LookupPrivilegeValue(
null,
privelege,
out tokenPrivileges.Privileges[0].Luid))
return false;
tokenPrivileges.PrivilegeCount = 1;
tokenPrivileges.Privileges[0].Attributes
= NativeMethods.SE_PRIVILEGE_ENABLED;
if (!NativeMethods.AdjustTokenPrivileges(
token,
false,
ref tokenPrivileges,
Marshal.SizeOf(tokenPrivileges),
IntPtr.Zero,
IntPtr.Zero))
return false;
if (Marshal.GetLastWin32Error() != 0)
return false;
}
finally
{
NativeMethods.CloseHandle(token);
}
return true;
}
}
Obter handle do volume
Esse handle é obtido através do método CreateFile. Iremos passar o diretório raiz do volume que desejamos listar, por exemplo o C: assim: \\.\C:. Além disso, abriremos o arquivo para leitura (GenericRead) em modo de backup (BackupSemantics).
O código do método que lê o handle está logo abaixo, no arquivo WinFiles.cs.
Ler a MFT
Finalmente usamos o método DeviceIOControl para obter os registros da MFT. Esse é um método polivalente que recebe uma enorme gama de inputs e devolve também outra enorme gama de outputs dependendo do código de controle passado.
Na verdade vamos usar o USN Journal, que lista todas as alterações feitas no volume, e enumerar as entradas da MFT a partir dessa lista, pois os cada alteração registrada aponta para o arquivo na MFT.
Os elementos do USN Journal podem apontar para arquivos que não existem mais e elementos duplicados. Mas não teremos de nos preocupar com isso pois usaremos o código de controle FSCTL_ENUM_USN_DATA, que retorna somente entradas da MFT.
WinFiles.cs
internal static class WinFiles
{
public static SafeFileHandle GetVolumeHandle(
string pathToVolume)
{
var handle = NativeMethods.CreateFile(
pathToVolume,
NativeMethods.EFileAccess.GenericRead,
FileShare.Read | FileShare.Write | FileShare.Delete,
IntPtr.Zero,
(uint)NativeMethods.ECreationDisposition.OpenExisting,
(uint)NativeMethods.EFileAttributes.BackupSemantics,
IntPtr.Zero);
if (handle.IsInvalid)
throw new IOException("Bad path");
return handle;
}
public static unsafe void ReadMft(
SafeHandle volume,
Action<NativeMethods.UsnRecordV2> processEntry)
{
var input = new NativeMethods.MFTEnumDataV0
{
StartFileReferenceNumber = 0,
LowUsn = 0,
HighUsn = long.MaxValue
};
var usnRecord = new NativeMethods.UsnRecordV2();
var outputBuffer = new byte[1024 * 1024];
using (var stream = new MemoryStream(outputBuffer, true))
while (true)
fixed (byte* pOutput = outputBuffer)
{
uint bytesRead;
var okay = NativeMethods.DeviceIoControl
(
volume.DangerousGetHandle(),
NativeMethods.DeviceIOControlCode.FsctlEnumUsnData,
(byte*)&input,
(uint)Marshal.SizeOf(input),
pOutput,
(uint)outputBuffer.Length,
out bytesRead,
IntPtr.Zero
);
if (!okay)
{
var error = Marshal.GetLastWin32Error();
if (error != NativeMethods.ERROR_HANDLE_EOF)
throw new Win32Exception(error);
break;
}
using (var reader = new BinaryReader(stream, Encoding.Unicode, true))
input.StartFileReferenceNumber = reader.ReadUInt64();
while (stream.Position < bytesRead)
{
usnRecord.Read(stream);
processEntry(usnRecord);
}
stream.Seek(0, SeekOrigin.Begin);
}
}
}
Dependências
NativeMethods.cs
internal class NativeMethods
{
internal const int ERROR_HANDLE_EOF = 38;
//--> Privilege constants....
internal const UInt32 SE_PRIVILEGE_ENABLED = 0x00000002;
internal const string SE_BACKUP_NAME = "SeBackupPrivilege";
internal const string SE_RESTORE_NAME = "SeRestorePrivilege";
internal const string SE_SECURITY_NAME = "SeSecurityPrivilege";
internal const string SE_CHANGE_NOTIFY_NAME = "SeChangeNotifyPrivilege";
internal const string SE_CREATE_SYMBOLIC_LINK_NAME = "SeCreateSymbolicLinkPrivilege";
internal const string SE_CREATE_PERMANENT_NAME = "SeCreatePermanentPrivilege";
internal const string SE_SYSTEM_ENVIRONMENT_NAME = "SeSystemEnvironmentPrivilege";
internal const string SE_SYSTEMTIME_NAME = "SeSystemtimePrivilege";
internal const string SE_TIME_ZONE_NAME = "SeTimeZonePrivilege";
internal const string SE_TCB_NAME = "SeTcbPrivilege";
internal const string SE_MANAGE_VOLUME_NAME = "SeManageVolumePrivilege";
internal const string SE_TAKE_OWNERSHIP_NAME = "SeTakeOwnershipPrivilege";
//--> For starting a process in session 1 from session 0...
internal const int TOKEN_DUPLICATE = 0x0002;
internal const uint MAXIMUM_ALLOWED = 0x2000000;
internal const int CREATE_NEW_CONSOLE = 0x00000010;
internal const uint TOKEN_ADJUST_PRIVILEGES = 0x0020;
internal const int TOKEN_QUERY = 0x00000008;
[DllImport("advapi32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool OpenProcessToken(IntPtr ProcessHandle, UInt32 DesiredAccess, out IntPtr TokenHandle);
[DllImport("kernel32.dll")]
internal static extern IntPtr GetCurrentProcess();
[DllImport("advapi32.dll", SetLastError = true, CharSet = CharSet.Unicode)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool LookupPrivilegeValue(string lpSystemName, string lpName, out LUID lpLuid);
[DllImport("advapi32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool AdjustTokenPrivileges(IntPtr TokenHandle, [MarshalAs(UnmanagedType.Bool)]bool DisableAllPrivileges, ref TOKEN_PRIVILEGES NewState, Int32 BufferLength, IntPtr PreviousState, IntPtr ReturnLength);
[DllImport("kernel32.dll", ExactSpelling = true, SetLastError = true, CharSet = CharSet.Unicode)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static unsafe extern bool DeviceIoControl(IntPtr hDevice, DeviceIOControlCode controlCode, byte* lpInBuffer, uint nInBufferSize, byte* lpOutBuffer, uint nOutBufferSize, out uint lpBytesReturned, IntPtr lpOverlapped);
[DllImport("kernel32.dll", SetLastError = true, CharSet = CharSet.Unicode)]
internal static extern SafeFileHandle CreateFile(string lpFileName, EFileAccess dwDesiredAccess, FileShare dwShareMode, IntPtr lpSecurityAttributes, uint dwCreationDisposition, uint dwFlagsAndAttributes, IntPtr hTemplateFile);
[DllImport("kernel32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
internal static extern bool CloseHandle(IntPtr hObject);
[Flags]
internal enum EMethod : uint
{
Buffered = 0,
InDirect = 1,
OutDirect = 2,
Neither = 3
}
[Flags]
internal enum EFileAccess : uint
{
GenericRead = 0x80000000,
GenericWrite = 0x40000000,
GenericExecute = 0x20000000,
GenericAll = 0x10000000,
Delete = 0x10000,
ReadControl = 0x20000,
WriteDAC = 0x40000,
WriteOwner = 0x80000,
Synchronize = 0x100000,
StandardRightsRequired = 0xF0000,
StandardRightsRead = ReadControl,
StandardRightsWrite = ReadControl,
StandardRightsExecute = ReadControl,
StandardRightsAll = 0x1F0000,
SpecificRightsAll = 0xFFFF,
AccessSystemSecurity = 0x1000000,
MaximumAllowed = 0x2000000
}
[Flags]
internal enum EFileDevice : uint
{
Beep = 0x00000001,
CDRom = 0x00000002,
CDRomFileSytem = 0x00000003,
Controller = 0x00000004,
Datalink = 0x00000005,
Dfs = 0x00000006,
Disk = 0x00000007,
DiskFileSystem = 0x00000008,
FileSystem = 0x00000009,
InPortPort = 0x0000000a,
Keyboard = 0x0000000b,
Mailslot = 0x0000000c,
MidiIn = 0x0000000d,
MidiOut = 0x0000000e,
Mouse = 0x0000000f,
MultiUncProvider = 0x00000010,
NamedPipe = 0x00000011,
Network = 0x00000012,
NetworkBrowser = 0x00000013,
NetworkFileSystem = 0x00000014,
Null = 0x00000015,
ParallelPort = 0x00000016,
PhysicalNetcard = 0x00000017,
Printer = 0x00000018,
Scanner = 0x00000019,
SerialMousePort = 0x0000001a,
SerialPort = 0x0000001b,
Screen = 0x0000001c,
Sound = 0x0000001d,
Streams = 0x0000001e,
Tape = 0x0000001f,
TapeFileSystem = 0x00000020,
Transport = 0x00000021,
Unknown = 0x00000022,
Video = 0x00000023,
VirtualDisk = 0x00000024,
WaveIn = 0x00000025,
WaveOut = 0x00000026,
Port8042 = 0x00000027,
NetworkRedirector = 0x00000028,
Battery = 0x00000029,
BusExtender = 0x0000002a,
Modem = 0x0000002b,
Vdm = 0x0000002c,
MassStorage = 0x0000002d,
Smb = 0x0000002e,
Ks = 0x0000002f,
Changer = 0x00000030,
Smartcard = 0x00000031,
Acpi = 0x00000032,
Dvd = 0x00000033,
FullscreenVideo = 0x00000034,
DfsFileSystem = 0x00000035,
DfsVolume = 0x00000036,
Serenum = 0x00000037,
Termsrv = 0x00000038,
Ksec = 0x00000039,
// From Windows Driver Kit 7
Fips = 0x0000003A,
Infiniband = 0x0000003B,
Vmbus = 0x0000003E,
CryptProvider = 0x0000003F,
Wpd = 0x00000040,
Bluetooth = 0x00000041,
MtComposite = 0x00000042,
MtTransport = 0x00000043,
Biometric = 0x00000044,
Pmi = 0x00000045
}
internal enum EFileIOCtlAccess : uint
{
Any = 0,
Special = Any,
Read = 1,
Write = 2
}
internal enum DeviceIOControlCode : uint
{
FsctlEnumUsnData = (EFileDevice.FileSystem << 16) | (44 << 2) | EMethod.Neither | (EFileIOCtlAccess.Any << 14),
FsctlReadUsnJournal = (EFileDevice.FileSystem << 16) | (46 << 2) | EMethod.Neither | (EFileIOCtlAccess.Any << 14),
FsctlReadFileUsnData = (EFileDevice.FileSystem << 16) | (58 << 2) | EMethod.Neither | (EFileIOCtlAccess.Any << 14),
FsctlQueryUsnJournal = (EFileDevice.FileSystem << 16) | (61 << 2) | EMethod.Buffered | (EFileIOCtlAccess.Any << 14),
FsctlCreateUsnJournal = (EFileDevice.FileSystem << 16) | (57 << 2) | EMethod.Neither | (EFileIOCtlAccess.Any << 14)
}
/// <summary>Control structure used to interrogate MFT data using DeviceIOControl from the user volume</summary>
[StructLayout(LayoutKind.Sequential)]
internal struct MFTEnumDataV0
{
public ulong StartFileReferenceNumber;
public long LowUsn;
public long HighUsn;
}
/// <summary>A structure resurned form USN queries</summary>
/// <remarks>
/// FileName is synthetic...composed during a read of the structure and is not technically
/// part of the Win32 API's definition...although the actual FileName is contained
/// "somewhere" in the structure's trailing bytes, according to FileNameLength and FileNameOffset.
///
/// Alignment boundaries are enforced, and so, the RecordLength
/// may be somewhat larger than the accumulated lengths of the members plus the FileNameLength.
/// </remarks>
[StructLayout(LayoutKind.Sequential)]
internal struct UsnRecord
{
public uint RecordLength;
public ushort MajorVersion;
public ushort MinorVersion;
public ulong FileReferenceNumber;
public ulong ParentFileReferenceNumber;
public long Usn;
public long TimeStamp;
public UsnReason Reason;
public uint SourceInfo;
public uint SecurityId;
public uint FileAttributes;
public ushort FileNameLength;
public ushort FileNameOffset;
public string FileName;
/// <remarks>Note how the read advances to the FileNameOffset and reads only FileNameLength bytes</remarks>
public void Read(Stream stream)
{
var startOfRecord = stream.Position;
using (var reader = new BinaryReader(stream, Encoding.Unicode, true))
{
this.RecordLength = reader.ReadUInt32();
this.MajorVersion = reader.ReadUInt16();
this.MinorVersion = reader.ReadUInt16();
this.FileReferenceNumber = reader.ReadUInt64();
this.ParentFileReferenceNumber = reader.ReadUInt64();
this.Usn = reader.ReadInt64();
this.TimeStamp = reader.ReadInt64();
this.Reason = (UsnReason)reader.ReadUInt32();
this.SourceInfo = reader.ReadUInt32();
this.SecurityId = reader.ReadUInt32();
this.FileAttributes = reader.ReadUInt32();
this.FileNameLength = reader.ReadUInt16();
this.FileNameOffset = reader.ReadUInt16();
stream.Position = startOfRecord + this.FileNameOffset;
this.FileName = Encoding.Unicode.GetString(reader.ReadBytes(this.FileNameLength));
stream.Position = startOfRecord + this.RecordLength;
}
}
}
[StructLayout(LayoutKind.Sequential)]
internal struct LUID
{
public UInt32 LowPart;
public Int32 HighPart;
}
[StructLayout(LayoutKind.Sequential)]
internal struct LUID_AND_ATTRIBUTES
{
public LUID Luid;
public UInt32 Attributes;
}
internal struct TOKEN_PRIVILEGES
{
public UInt32 PrivilegeCount;
[MarshalAs(UnmanagedType.ByValArray, SizeConst = 1)] // !! think we only need one
public LUID_AND_ATTRIBUTES[] Privileges;
}
[Flags]
internal enum EFileAttributes : uint
{
/// <summary/>
None = 0,
//--> these are consistent w/ .Net FileAttributes...
Readonly = 0x00000001,
Hidden = 0x00000002,
System = 0x00000004,
Directory = 0x00000010,
Archive = 0x00000020,
Device = 0x00000040,
Normal = 0x00000080,
Temporary = 0x00000100,
SparseFile = 0x00000200,
ReparsePoint = 0x00000400,
Compressed = 0x00000800,
Offline = 0x00001000,
NotContentIndexed = 0x00002000,
Encrypted = 0x00004000,
//--> additional CreateFile call attributes...
Write_Through = 0x80000000,
Overlapped = 0x40000000,
NoBuffering = 0x20000000,
RandomAccess = 0x10000000,
SequentialScan = 0x08000000,
DeleteOnClose = 0x04000000,
BackupSemantics = 0x02000000,
PosixSemantics = 0x01000000,
OpenReparsePoint = 0x00200000,
OpenNoRecall = 0x00100000,
FirstPipeInstance = 0x00080000
}
/// <summary>Reasons the file changed (from USN journal)</summary>
[Flags]
public enum UsnReason : uint
{
BASIC_INFO_CHANGE = 0x00008000,
CLOSE = 0x80000000,
COMPRESSION_CHANGE = 0x00020000,
DATA_EXTEND = 0x00000002,
DATA_OVERWRITE = 0x00000001,
DATA_TRUNCATION = 0x00000004,
EA_CHANGE = 0x00000400,
ENCRYPTION_CHANGE = 0x00040000,
FILE_CREATE = 0x00000100,
FILE_DELETE = 0x00000200,
HARD_LINK_CHANGE = 0x00010000,
INDEXABLE_CHANGE = 0x00004000,
NAMED_DATA_EXTEND = 0x00000020,
NAMED_DATA_OVERWRITE = 0x00000010,
NAMED_DATA_TRUNCATION = 0x00000040,
OBJECT_ID_CHANGE = 0x00080000,
RENAME_NEW_NAME = 0x00002000,
RENAME_OLD_NAME = 0x00001000,
REPARSE_POINT_CHANGE = 0x00100000,
SECURITY_CHANGE = 0x00000800,
STREAM_CHANGE = 0x00200000,
None = 0x00000000
}
internal enum ECreationDisposition : uint
{
New = 1,
CreateAlways = 2,
OpenExisting = 3,
OpenAlways = 4,
TruncateExisting = 5
}
}
