C++程序  |  441行  |  9.95 KB

// Windows/FileLink.cpp

#include "StdAfx.h"

#include "../../C/CpuArch.h"

#ifdef SUPPORT_DEVICE_FILE
#include "../../C/Alloc.h"
#endif

#include "FileDir.h"
#include "FileFind.h"
#include "FileIO.h"
#include "FileName.h"

#ifndef _UNICODE
extern bool g_IsNT;
#endif

namespace NWindows {
namespace NFile {

using namespace NName;

/*
  Reparse Points (Junctions and Symbolic Links):
  struct
  {
    UInt32 Tag;
    UInt16 Size;     // not including starting 8 bytes
    UInt16 Reserved; // = 0
    
    UInt16 SubstituteOffset; // offset in bytes from  start of namesChars
    UInt16 SubstituteLen;    // size in bytes, it doesn't include tailed NUL
    UInt16 PrintOffset;      // offset in bytes from  start of namesChars
    UInt16 PrintLen;         // size in bytes, it doesn't include tailed NUL
    
    [UInt32] Flags;  // for Symbolic Links only.
    
    UInt16 namesChars[]
  }

  MOUNT_POINT (Junction point):
    1) there is NUL wchar after path
    2) Default Order in table:
         Substitute Path
         Print Path
    3) pathnames can not contain dot directory names

  SYMLINK:
    1) there is no NUL wchar after path
    2) Default Order in table:
         Print Path
         Substitute Path
*/

/*
static const UInt32 kReparseFlags_Alias       = (1 << 29);
static const UInt32 kReparseFlags_HighLatency = (1 << 30);
static const UInt32 kReparseFlags_Microsoft   = ((UInt32)1 << 31);

#define _my_IO_REPARSE_TAG_HSM          (0xC0000004L)
#define _my_IO_REPARSE_TAG_HSM2         (0x80000006L)
#define _my_IO_REPARSE_TAG_SIS          (0x80000007L)
#define _my_IO_REPARSE_TAG_WIM          (0x80000008L)
#define _my_IO_REPARSE_TAG_CSV          (0x80000009L)
#define _my_IO_REPARSE_TAG_DFS          (0x8000000AL)
#define _my_IO_REPARSE_TAG_DFSR         (0x80000012L)
*/

#define Get16(p) GetUi16(p)
#define Get32(p) GetUi32(p)

#define Set16(p, v) SetUi16(p, v)
#define Set32(p, v) SetUi32(p, v)

static const wchar_t * const k_LinkPrefix = L"\\??\\";
static const unsigned k_LinkPrefix_Size = 4;

static const bool IsLinkPrefix(const wchar_t *s)
{
  return IsString1PrefixedByString2(s, k_LinkPrefix);
}

/*
static const wchar_t * const k_VolumePrefix = L"Volume{";
static const bool IsVolumeName(const wchar_t *s)
{
  return IsString1PrefixedByString2(s, k_VolumePrefix);
}
*/

void WriteString(Byte *dest, const wchar_t *path)
{
  for (;;)
  {
    wchar_t c = *path++;
    if (c == 0)
      return;
    Set16(dest, (UInt16)c);
    dest += 2;
  }
}

#if defined(_WIN32) && !defined(UNDER_CE)

bool FillLinkData(CByteBuffer &dest, const wchar_t *path, bool isSymLink)
{
  bool isAbs = IsAbsolutePath(path);
  if (!isAbs && !isSymLink)
    return false;

  bool needPrintName = true;

  if (IsSuperPath(path))
  {
    path += kSuperPathPrefixSize;
    if (!IsDrivePath(path))
      needPrintName = false;
  }

  const unsigned add_Prefix_Len = isAbs ? k_LinkPrefix_Size : 0;
    
  unsigned len2 = MyStringLen(path) * 2;
  const unsigned len1 = len2 + add_Prefix_Len * 2;
  if (!needPrintName)
    len2 = 0;

  unsigned totalNamesSize = (len1 + len2);

  /* some WIM imagex software uses old scheme for symbolic links.
     so we can old scheme for byte to byte compatibility */

  bool newOrderScheme = isSymLink;
  // newOrderScheme = false;

  if (!newOrderScheme)
    totalNamesSize += 2 * 2;

  const size_t size = 8 + 8 + (isSymLink ? 4 : 0) + totalNamesSize;
  dest.Alloc(size);
  memset(dest, 0, size);
  const UInt32 tag = isSymLink ?
      _my_IO_REPARSE_TAG_SYMLINK :
      _my_IO_REPARSE_TAG_MOUNT_POINT;
  Byte *p = dest;
  Set32(p, tag);
  Set16(p + 4, (UInt16)(size - 8));
  Set16(p + 6, 0);
  p += 8;

  unsigned subOffs = 0;
  unsigned printOffs = 0;
  if (newOrderScheme)
    subOffs = len2;
  else
    printOffs = len1 + 2;

  Set16(p + 0, (UInt16)subOffs);
  Set16(p + 2, (UInt16)len1);
  Set16(p + 4, (UInt16)printOffs);
  Set16(p + 6, (UInt16)len2);

  p += 8;
  if (isSymLink)
  {
    UInt32 flags = isAbs ? 0 : _my_SYMLINK_FLAG_RELATIVE;
    Set32(p, flags);
    p += 4;
  }

  if (add_Prefix_Len != 0)
    WriteString(p + subOffs, k_LinkPrefix);
  WriteString(p + subOffs + add_Prefix_Len * 2, path);
  if (needPrintName)
    WriteString(p + printOffs, path);
  return true;
}

#endif

static void GetString(const Byte *p, unsigned len, UString &res)
{
  wchar_t *s = res.GetBuf(len);
  unsigned i;
  for (i = 0; i < len; i++)
  {
    wchar_t c = Get16(p + i * 2);
    if (c == 0)
      break;
    s[i] = c;
  }
  s[i] = 0;
  res.ReleaseBuf_SetLen(i);
}

bool CReparseAttr::Parse(const Byte *p, size_t size, DWORD &errorCode)
{
  errorCode = ERROR_INVALID_REPARSE_DATA;
  if (size < 8)
    return false;
  Tag = Get32(p);
  UInt32 len = Get16(p + 4);
  if (len + 8 > size)
    return false;
  /*
  if ((type & kReparseFlags_Alias) == 0 ||
      (type & kReparseFlags_Microsoft) == 0 ||
      (type & 0xFFFF) != 3)
  */
  if (Tag != _my_IO_REPARSE_TAG_MOUNT_POINT &&
      Tag != _my_IO_REPARSE_TAG_SYMLINK)
  {
    errorCode = ERROR_REPARSE_TAG_MISMATCH; // ERROR_REPARSE_TAG_INVALID
    return false;
  }

  if (Get16(p + 6) != 0) // padding
    return false;
  
  p += 8;
  size -= 8;
  
  if (len != size) // do we need that check?
    return false;
  
  if (len < 8)
    return false;
  unsigned subOffs = Get16(p);
  unsigned subLen = Get16(p + 2);
  unsigned printOffs = Get16(p + 4);
  unsigned printLen = Get16(p + 6);
  len -= 8;
  p += 8;

  Flags = 0;
  if (Tag == _my_IO_REPARSE_TAG_SYMLINK)
  {
    if (len < 4)
      return false;
    Flags = Get32(p);
    len -= 4;
    p += 4;
  }

  if ((subOffs & 1) != 0 || subOffs > len || len - subOffs < subLen)
    return false;
  if ((printOffs & 1) != 0 || printOffs > len || len - printOffs < printLen)
    return false;
  GetString(p + subOffs, subLen >> 1, SubsName);
  GetString(p + printOffs, printLen >> 1, PrintName);

  errorCode = 0;
  return true;
}

bool CReparseShortInfo::Parse(const Byte *p, size_t size)
{
  const Byte *start = p;
  Offset= 0;
  Size = 0;
  if (size < 8)
    return false;
  UInt32 Tag = Get32(p);
  UInt32 len = Get16(p + 4);
  if (len + 8 > size)
    return false;
  /*
  if ((type & kReparseFlags_Alias) == 0 ||
      (type & kReparseFlags_Microsoft) == 0 ||
      (type & 0xFFFF) != 3)
  */
  if (Tag != _my_IO_REPARSE_TAG_MOUNT_POINT &&
      Tag != _my_IO_REPARSE_TAG_SYMLINK)
    // return true;
    return false;

  if (Get16(p + 6) != 0) // padding
    return false;
  
  p += 8;
  size -= 8;
  
  if (len != size) // do we need that check?
    return false;
  
  if (len < 8)
    return false;
  unsigned subOffs = Get16(p);
  unsigned subLen = Get16(p + 2);
  unsigned printOffs = Get16(p + 4);
  unsigned printLen = Get16(p + 6);
  len -= 8;
  p += 8;

  // UInt32 Flags = 0;
  if (Tag == _my_IO_REPARSE_TAG_SYMLINK)
  {
    if (len < 4)
      return false;
    // Flags = Get32(p);
    len -= 4;
    p += 4;
  }

  if ((subOffs & 1) != 0 || subOffs > len || len - subOffs < subLen)
    return false;
  if ((printOffs & 1) != 0 || printOffs > len || len - printOffs < printLen)
    return false;

  Offset = (unsigned)(p - start) + subOffs;
  Size = subLen;
  return true;
}

bool CReparseAttr::IsOkNamePair() const
{
  if (IsLinkPrefix(SubsName))
  {
    if (!IsDrivePath(SubsName.Ptr(k_LinkPrefix_Size)))
      return PrintName.IsEmpty();
    if (wcscmp(SubsName.Ptr(k_LinkPrefix_Size), PrintName) == 0)
      return true;
  }
  return wcscmp(SubsName, PrintName) == 0;
}

/*
bool CReparseAttr::IsVolume() const
{
  if (!IsLinkPrefix(SubsName))
    return false;
  return IsVolumeName(SubsName.Ptr(k_LinkPrefix_Size));
}
*/

UString CReparseAttr::GetPath() const
{
  UString s (SubsName);
  if (IsLinkPrefix(s))
  {
    s.ReplaceOneCharAtPos(1, '\\');
    if (IsDrivePath(s.Ptr(k_LinkPrefix_Size)))
      s.DeleteFrontal(k_LinkPrefix_Size);
  }
  return s;
}


#ifdef SUPPORT_DEVICE_FILE

namespace NSystem
{
bool MyGetDiskFreeSpace(CFSTR rootPath, UInt64 &clusterSize, UInt64 &totalSize, UInt64 &freeSize);
}
#endif

#ifndef UNDER_CE

namespace NIO {

bool GetReparseData(CFSTR path, CByteBuffer &reparseData, BY_HANDLE_FILE_INFORMATION *fileInfo)
{
  reparseData.Free();
  CInFile file;
  if (!file.OpenReparse(path))
    return false;

  if (fileInfo)
    file.GetFileInformation(fileInfo);

  const unsigned kBufSize = MAXIMUM_REPARSE_DATA_BUFFER_SIZE;
  CByteArr buf(kBufSize);
  DWORD returnedSize;
  if (!file.DeviceIoControlOut(my_FSCTL_GET_REPARSE_POINT, buf, kBufSize, &returnedSize))
    return false;
  reparseData.CopyFrom(buf, returnedSize);
  return true;
}

static bool CreatePrefixDirOfFile(CFSTR path)
{
  FString path2 (path);
  int pos = path2.ReverseFind_PathSepar();
  if (pos < 0)
    return true;
  #ifdef _WIN32
  if (pos == 2 && path2[1] == L':')
    return true; // we don't create Disk folder;
  #endif
  path2.DeleteFrom(pos);
  return NDir::CreateComplexDir(path2);
}

// If there is Reprase data already, it still writes new Reparse data
bool SetReparseData(CFSTR path, bool isDir, const void *data, DWORD size)
{
  NFile::NFind::CFileInfo fi;
  if (fi.Find(path))
  {
    if (fi.IsDir() != isDir)
    {
      ::SetLastError(ERROR_DIRECTORY);
      return false;
    }
  }
  else
  {
    if (isDir)
    {
      if (!NDir::CreateComplexDir(path))
        return false;
    }
    else
    {
      CreatePrefixDirOfFile(path);
      COutFile file;
      if (!file.Create(path, CREATE_NEW))
        return false;
    }
  }

  COutFile file;
  if (!file.Open(path,
      FILE_SHARE_WRITE,
      OPEN_EXISTING,
      FILE_FLAG_OPEN_REPARSE_POINT | FILE_FLAG_BACKUP_SEMANTICS))
    return false;

  DWORD returnedSize;
  if (!file.DeviceIoControl(my_FSCTL_SET_REPARSE_POINT, (void *)data, size, NULL, 0, &returnedSize))
    return false;
  return true;
}

}

#endif

}}