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windows-xp/Source/XPSP1/NT/base/fs/ntfs/fu/utility.c

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/*++
Copyright (c) 2000 Microsoft Corporation
Module Name:
utility.c
Abstract:
This file contains utility functions that are
used by all other files in this project.
Author:
Wesley Witt [wesw] 1-March-2000
Revision History:
--*/
#include <precomp.h>
INT
Help(
IN INT argc,
IN PWSTR argv[]
)
/*++
Routine Description:
This routine lists out the various command supported by the
tool.
Arguments:
None
Return Value:
None
--*/
{
DisplayMsg( MSG_USAGE );
return EXIT_CODE_SUCCESS;
}
HANDLE NtDllHandle = INVALID_HANDLE_VALUE;
VOID
DisplayErrorMsg(
LONG msgId,
...
)
/*++
Routine Description:
This routine displays the error message correspnding to
the error indicated by msgId.
Arguments:
msgId - the errorId. This is either the Win32 status code or the message ID.
Return Value:
None
--*/
{
va_list args;
LPWSTR lpMsgBuf;
va_start( args, msgId );
if (FormatMessage(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_HMODULE,
NULL,
MSG_ERROR,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
(LPWSTR) &lpMsgBuf,
0,
NULL
))
{
wprintf( L"%ws", lpMsgBuf );
LocalFree( lpMsgBuf );
}
if (FormatMessage(
(msgId >= MSG_FIRST_MESSAGE_ID ? FORMAT_MESSAGE_FROM_HMODULE :
FORMAT_MESSAGE_FROM_SYSTEM)
| FORMAT_MESSAGE_ALLOCATE_BUFFER,
NULL,
msgId,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
(LPWSTR) &lpMsgBuf,
0,
&args
))
{
wprintf( L" %ws \n", (LPSTR)lpMsgBuf );
LocalFree( lpMsgBuf );
} else {
if (NtDllHandle == INVALID_HANDLE_VALUE) {
NtDllHandle = GetModuleHandle( L"NTDLL" );
}
if (FormatMessage(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_HMODULE,
(LPVOID)NtDllHandle,
msgId,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
(LPWSTR) &lpMsgBuf,
0,
&args))
{
wprintf( L" %ws \n", (LPSTR)lpMsgBuf );
LocalFree( lpMsgBuf );
} else {
wprintf( L"Unable to format message for id %x - %x\n", msgId, GetLastError( ));
}
}
va_end( args );
}
VOID
DisplayMsg(
LONG msgId,
...
)
/*++
Routine Description:
This routine displays the error message correspnding to
the error indicated by msgId.
Arguments:
msgId - the errorId. This is either the Win32 status or the
message Id
Return Value:
None
--*/
{
va_list args;
LPWSTR lpMsgBuf;
va_start( args, msgId );
if (FormatMessage(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_HMODULE,
NULL,
msgId,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
(LPWSTR) &lpMsgBuf,
0,
&args
))
{
wprintf( L"%ws", (LPSTR)lpMsgBuf );
LocalFree( lpMsgBuf );
} else {
if (NtDllHandle == INVALID_HANDLE_VALUE) {
NtDllHandle = GetModuleHandle( L"NTDLL" );
}
if (FormatMessage(
FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_HMODULE,
(LPVOID)NtDllHandle,
msgId,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
(LPWSTR) &lpMsgBuf,
0,
&args))
{
wprintf( L" %ws \n", (LPSTR)lpMsgBuf );
LocalFree( lpMsgBuf );
} else {
wprintf( L"Unable to format message for id %x - %x\n", msgId, GetLastError( ));
}
}
va_end( args );
}
VOID
DisplayError(
void
)
/*++
Routine Description:
This routine displays the last error message.
Arguments:
None
Return Value:
None
--*/
{
DisplayErrorMsg( GetLastError() );
}
BOOL
EnablePrivilege(
LPCWSTR SePrivilege
)
{
HANDLE Token;
PTOKEN_PRIVILEGES NewPrivileges;
BYTE OldPriv[1024];
PBYTE pbOldPriv;
ULONG cbNeeded;
BOOL b = TRUE;
BOOL fRc;
LUID LuidPrivilege;
//
// Make sure we have access to adjust and to get the old
// token privileges
//
if (!OpenProcessToken( GetCurrentProcess(),
TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY,
&Token))
{
return( FALSE );
}
cbNeeded = 0;
//
// Initialize the privilege adjustment structure
//
LookupPrivilegeValue(NULL, SePrivilege, &LuidPrivilege );
NewPrivileges = (PTOKEN_PRIVILEGES)
calloc(1,sizeof(TOKEN_PRIVILEGES) +
(1 - ANYSIZE_ARRAY) * sizeof(LUID_AND_ATTRIBUTES));
if (NewPrivileges == NULL)
{
CloseHandle(Token);
return(FALSE);
}
NewPrivileges->PrivilegeCount = 1;
NewPrivileges->Privileges[0].Luid = LuidPrivilege;
NewPrivileges->Privileges[0].Attributes = SE_PRIVILEGE_ENABLED;
//
// Enable the privilege
//
pbOldPriv = OldPriv;
fRc = AdjustTokenPrivileges( Token,
FALSE,
NewPrivileges,
1024,
(PTOKEN_PRIVILEGES)pbOldPriv,
&cbNeeded );
if (!fRc)
{
//
// If the stack was too small to hold the privileges
// then allocate off the heap
//
if (GetLastError() == ERROR_INSUFFICIENT_BUFFER)
{
pbOldPriv = (PBYTE)calloc(1,cbNeeded);
if (pbOldPriv == NULL)
{
CloseHandle(Token);
return(FALSE);
}
fRc = AdjustTokenPrivileges( Token,
FALSE,
NewPrivileges,
cbNeeded,
(PTOKEN_PRIVILEGES)pbOldPriv,
&cbNeeded );
}
}
CloseHandle( Token );
return( b );
}
BOOL
IsUserAdmin(
VOID
)
/*++
Routine Description:
This routine returns TRUE if the caller's process is a
member of the Administrators local group.
Caller is NOT expected to be impersonating anyone and IS
expected to be able to open their own process and process
token.
Arguments:
None.
Return Value:
TRUE - Caller has Administrators local group.
FALSE - Caller does not have Administrators local group.
--*/
{
HANDLE Token;
BOOL b = FALSE;
SID_IDENTIFIER_AUTHORITY NtAuthority = SECURITY_NT_AUTHORITY;
PSID AdministratorsGroup = NULL;
ImpersonateSelf( SecurityImpersonation );
//
// Open the process token.
//
if (OpenThreadToken( GetCurrentThread(), TOKEN_QUERY, FALSE, &Token)) {
try {
//
// Get SID for Administrators group
//
b = AllocateAndInitializeSid(
&NtAuthority,
2,
SECURITY_BUILTIN_DOMAIN_RID,
DOMAIN_ALIAS_RID_ADMINS,
0, 0, 0, 0, 0, 0,
&AdministratorsGroup
);
if (!b) {
leave;
}
//
// Check to see if that group is currently enabled. Failure
// means that we aren't administrator
//
if (!CheckTokenMembership( Token, AdministratorsGroup, &b )) {
printf("Failure - %d\n", GetLastError( ));
b = FALSE;
}
} finally {
CloseHandle(Token);
}
}
RevertToSelf( );
return(b);
}
BOOL
IsVolumeLocalNTFS(
WCHAR DriveLetter
)
{
BOOL b;
ULONG i;
WCHAR DosName[16];
WCHAR PhysicalName[MAX_PATH];
DosName[0] = DriveLetter;
DosName[1] = L':';
DosName[2] = L'\\';
DosName[3] = L'\0';
switch (GetDriveType( DosName )) {
case DRIVE_UNKNOWN:
case DRIVE_REMOTE:
return FALSE;
}
b = GetVolumeInformation(
DosName,
NULL,
0,
NULL,
&i,
&i,
PhysicalName,
sizeof(PhysicalName)/sizeof(WCHAR)
);
if (!b ) {
DisplayError();
return FALSE;
}
if (_wcsicmp( PhysicalName, L"NTFS" ) != 0) {
return FALSE;
}
return TRUE;
}
BOOL
IsVolumeNTFS(
PWCHAR path
)
{
//
// Scan backwards through the path looking for \ and trying at each level until we
// get to the root. We'll terminate it there and pass it to GetVolumeInformation
//
PWCHAR LastBackSlash = path + wcslen( path );
WCHAR c;
BOOL b;
ULONG i;
WCHAR PhysicalName[MAX_PATH];
while (TRUE) {
while (TRUE) {
if (LastBackSlash < path) {
DisplayError();
return FALSE;
}
if (*LastBackSlash == L'\\') {
break;
}
LastBackSlash--;
}
c = LastBackSlash[1];
LastBackSlash[1] = L'\0';
b = GetVolumeInformation(
path,
NULL,
0,
NULL,
&i,
&i,
PhysicalName,
sizeof(PhysicalName)/sizeof(WCHAR)
);
LastBackSlash[1] = c;
LastBackSlash--;
if ( b ) {
return _wcsicmp( PhysicalName, L"NTFS" ) == 0;
}
}
}
BOOL
IsVolumeLocal(
WCHAR DriveLetter
)
{
BOOL b;
ULONG i;
WCHAR DosName[16];
WCHAR PhysicalName[MAX_PATH];
DosName[0] = DriveLetter;
DosName[1] = L':';
DosName[2] = L'\\';
DosName[3] = L'\0';
switch (GetDriveType( DosName )) {
case DRIVE_UNKNOWN:
case DRIVE_REMOTE:
return FALSE;
}
return TRUE;
}
PWSTR
GetFullPath(
IN PWSTR FilenameIn
)
{
WCHAR Filename[MAX_PATH];
PWSTR FilePart;
if (!GetFullPathName( FilenameIn, sizeof(Filename)/sizeof(WCHAR), Filename, &FilePart )) {
return NULL;
}
return _wcsdup( Filename );
}
//
// I64-width number formatting is broken in FormatMessage. We have to convert the numbers
// ourselves and then display them as strings. Rather than declaring buffers on the stack,
// we will allocate space dynamically, and format the text into that spot.
//
// While *TECHNICALLY* this is a leak, the utility quickly exits.
//
#define NUMERICBUFFERLENGTH 40
PWSTR
QuadToDecimalText(
ULONGLONG Value
)
{
PWSTR Buffer = malloc( sizeof( WCHAR ) * NUMERICBUFFERLENGTH );
if (Buffer == NULL) {
exit( 1);
}
swprintf( Buffer, L"%I64u", Value );
return Buffer;
}
PWSTR
QuadToHexText(
ULONGLONG Value
)
{
PWSTR Buffer = malloc( sizeof( WCHAR ) * NUMERICBUFFERLENGTH );
if (Buffer == NULL) {
exit( 1);
}
swprintf( Buffer, L"%I64x", Value );
return Buffer;
}
PWSTR
QuadToPaddedHexText(
ULONGLONG Value
)
{
PWSTR Buffer = malloc( sizeof( WCHAR ) * NUMERICBUFFERLENGTH );
if (Buffer == NULL) {
exit( 1);
}
swprintf( Buffer, L"%016I64x", Value );
return Buffer;
}
#if TRUE
/***
*wcstoq, wcstouq(nptr,endptr,ibase) - Convert ascii string to un/signed __int64.
*
*Purpose:
* Convert an ascii string to a 64-bit __int64 value. The base
* used for the caculations is supplied by the caller. The base
* must be in the range 0, 2-36. If a base of 0 is supplied, the
* ascii string must be examined to determine the base of the
* number:
* (a) First wchar_t = '0', second wchar_t = 'x' or 'X',
* use base 16.
* (b) First wchar_t = '0', use base 8
* (c) First wchar_t in range '1' - '9', use base 10.
*
* If the 'endptr' value is non-NULL, then wcstoq/wcstouq places
* a pointer to the terminating character in this value.
* See ANSI standard for details
*
*Entry:
* nptr == NEAR/FAR pointer to the start of string.
* endptr == NEAR/FAR pointer to the end of the string.
* ibase == integer base to use for the calculations.
*
* string format: [whitespace] [sign] [0] [x] [digits/letters]
*
*Exit:
* Good return:
* result
*
* Overflow return:
* wcstoq -- _I64_MAX or _I64_MIN
* wcstouq -- _UI64_MAX
* wcstoq/wcstouq -- errno == ERANGE
*
* No digits or bad base return:
* 0
* endptr = nptr*
*
*Exceptions:
* None.
*******************************************************************************/
/* flag values */
#define FL_UNSIGNED 1 /* wcstouq called */
#define FL_NEG 2 /* negative sign found */
#define FL_OVERFLOW 4 /* overflow occured */
#define FL_READDIGIT 8 /* we've read at least one correct digit */
static unsigned __int64 __cdecl wcstoxq (
const wchar_t *nptr,
const wchar_t **endptr,
int ibase,
int flags
)
{
const wchar_t *p;
wchar_t c;
unsigned __int64 number;
unsigned digval;
unsigned __int64 maxval;
p = nptr; /* p is our scanning pointer */
number = 0; /* start with zero */
c = *p++; /* read wchar_t */
while ( iswspace(c) )
c = *p++; /* skip whitespace */
if (c == '-') {
flags |= FL_NEG; /* remember minus sign */
c = *p++;
}
else if (c == '+')
c = *p++; /* skip sign */
if (ibase < 0 || ibase == 1 || ibase > 36) {
/* bad base! */
if (endptr)
/* store beginning of string in endptr */
*endptr = nptr;
return 0L; /* return 0 */
}
else if (ibase == 0) {
/* determine base free-lance, based on first two chars of
string */
if (c != '0')
ibase = 10;
else if (*p == 'x' || *p == 'X')
ibase = 16;
else
ibase = 8;
}
if (ibase == 16) {
/* we might have 0x in front of number; remove if there */
if (c == '0' && (*p == 'x' || *p == 'X')) {
++p;
c = *p++; /* advance past prefix */
}
}
/* if our number exceeds this, we will overflow on multiply */
maxval = _UI64_MAX / ibase;
for (;;) { /* exit in middle of loop */
/* convert c to value */
if ( isdigit((unsigned)c) )
digval = c - '0';
else if ( isalpha((unsigned)c) )
digval = toupper(c) - 'A' + 10;
else
break;
if (digval >= (unsigned)ibase)
break; /* exit loop if bad digit found */
/* record the fact we have read one digit */
flags |= FL_READDIGIT;
/* we now need to compute number = number * base + digval,
but we need to know if overflow occured. This requires
a tricky pre-check. */
if (number < maxval || (number == maxval &&
(unsigned __int64)digval <= _UI64_MAX % ibase)) {
/* we won't overflow, go ahead and multiply */
number = number * ibase + digval;
}
else {
/* we would have overflowed -- set the overflow flag */
flags |= FL_OVERFLOW;
}
c = *p++; /* read next digit */
}
--p; /* point to place that stopped scan */
if (!(flags & FL_READDIGIT)) {
/* no number there; return 0 and point to beginning of
string */
/* store beginning of string in endptr later on */
p = nptr;
number = 0L; /* return 0 */
}
else if ((flags & FL_OVERFLOW) ||
(!(flags & FL_UNSIGNED) &&
(number & ((unsigned __int64)_I64_MAX+1)))) {
/* overflow occurred or signed overflow occurred */
errno = ERANGE;
if (flags & FL_UNSIGNED)
number = _UI64_MAX;
else
/* set error code, will be negated if necc. */
number = _I64_MAX;
flags &= ~FL_NEG;
}
else if ((flags & FL_UNSIGNED) && (flags & FL_NEG)) {
// Disallow a negative sign if we're reading an unsigned
number = 0L;
p = nptr;
}
if (endptr != NULL)
/* store pointer to wchar_t that stopped the scan */
*endptr = p;
if (flags & FL_NEG)
/* negate result if there was a neg sign */
number = (unsigned __int64)(-(__int64)number);
return number; /* done. */
}
__int64 __cdecl My_wcstoi64(
const wchar_t *nptr,
wchar_t **endptr,
int ibase
)
{
return (__int64) wcstoxq(nptr, endptr, ibase, 0);
}
unsigned __int64 __cdecl My_wcstoui64 (
const wchar_t *nptr,
wchar_t **endptr,
int ibase
)
{
return wcstoxq(nptr, endptr, ibase, FL_UNSIGNED);
}
/***
*wcstol, wcstoul(nptr,endptr,ibase) - Convert ascii string to long un/signed
* int.
*
*Purpose:
* Convert an ascii string to a long 32-bit value. The base
* used for the caculations is supplied by the caller. The base
* must be in the range 0, 2-36. If a base of 0 is supplied, the
* ascii string must be examined to determine the base of the
* number:
* (a) First char = '0', second char = 'x' or 'X',
* use base 16.
* (b) First char = '0', use base 8
* (c) First char in range '1' - '9', use base 10.
*
* If the 'endptr' value is non-NULL, then wcstol/wcstoul places
* a pointer to the terminating character in this value.
* See ANSI standard for details
*
*Entry:
* nptr == NEAR/FAR pointer to the start of string.
* endptr == NEAR/FAR pointer to the end of the string.
* ibase == integer base to use for the calculations.
*
* string format: [whitespace] [sign] [0] [x] [digits/letters]
*
*Exit:
* Good return:
* result
*
* Overflow return:
* wcstol -- LONG_MAX or LONG_MIN
* wcstoul -- ULONG_MAX
* wcstol/wcstoul -- errno == ERANGE
*
* No digits or bad base return:
* 0
* endptr = nptr*
*
*Exceptions:
* None.
*
*******************************************************************************/
/* flag values */
#define FL_UNSIGNED 1 /* wcstoul called */
#define FL_NEG 2 /* negative sign found */
#define FL_OVERFLOW 4 /* overflow occured */
#define FL_READDIGIT 8 /* we've read at least one correct digit */
static unsigned long __cdecl wcstoxl (
const wchar_t *nptr,
const wchar_t **endptr,
int ibase,
int flags
)
{
const wchar_t *p;
wchar_t c;
unsigned long number;
unsigned digval;
unsigned long maxval;
p = nptr; /* p is our scanning pointer */
number = 0; /* start with zero */
c = *p++; /* read char */
while ( iswspace(c) )
c = *p++; /* skip whitespace */
if (c == '-') {
flags |= FL_NEG; /* remember minus sign */
c = *p++;
}
else if (c == '+')
c = *p++; /* skip sign */
if (ibase < 0 || ibase == 1 || ibase > 36) {
/* bad base! */
if (endptr)
/* store beginning of string in endptr */
*endptr = nptr;
return 0L; /* return 0 */
}
else if (ibase == 0) {
/* determine base free-lance, based on first two chars of
string */
if (c != L'0')
ibase = 10;
else if (*p == L'x' || *p == L'X')
ibase = 16;
else
ibase = 8;
}
if (ibase == 16) {
/* we might have 0x in front of number; remove if there */
if (c == L'0' && (*p == L'x' || *p == L'X')) {
++p;
c = *p++; /* advance past prefix */
}
}
/* if our number exceeds this, we will overflow on multiply */
maxval = ULONG_MAX / ibase;
for (;;) { /* exit in middle of loop */
/* make sure c is not too big */
if ( (unsigned)c > UCHAR_MAX )
break;
/* convert c to value */
if ( iswdigit(c) )
digval = c - L'0';
else if ( iswalpha(c))
digval = towupper(c) - L'A' + 10;
else
break;
if (digval >= (unsigned)ibase)
break; /* exit loop if bad digit found */
/* record the fact we have read one digit */
flags |= FL_READDIGIT;
/* we now need to compute number = number * base + digval,
but we need to know if overflow occured. This requires
a tricky pre-check. */
if (number < maxval || (number == maxval &&
(unsigned long)digval <= ULONG_MAX % ibase)) {
/* we won't overflow, go ahead and multiply */
number = number * ibase + digval;
}
else {
/* we would have overflowed -- set the overflow flag */
flags |= FL_OVERFLOW;
}
c = *p++; /* read next digit */
}
--p; /* point to place that stopped scan */
if (!(flags & FL_READDIGIT)) {
/* no number there; return 0 and point to beginning of
string */
if (endptr)
/* store beginning of string in endptr later on */
p = nptr;
number = 0L; /* return 0 */
}
else if ( (flags & FL_OVERFLOW) ||
( !(flags & FL_UNSIGNED) &&
( ( (flags & FL_NEG) && (number > -LONG_MIN) ) ||
( !(flags & FL_NEG) && (number > LONG_MAX) ) ) ) )
{
/* overflow or signed overflow occurred */
errno = ERANGE;
if ( flags & FL_UNSIGNED )
number = ULONG_MAX;
else
number = LONG_MAX;
flags &= ~FL_NEG;
}
else if ((flags & FL_UNSIGNED) && (flags & FL_NEG)) {
// Disallow a negative sign if we're reading an unsigned
number = 0L;
p = nptr;
}
if (endptr != NULL)
/* store pointer to char that stopped the scan */
*endptr = p;
if (flags & FL_NEG)
/* negate result if there was a neg sign */
number = (unsigned long)(-(long)number);
return number; /* done. */
}
long __cdecl My_wcstol (
const wchar_t *nptr,
wchar_t **endptr,
int ibase
)
{
return (long) wcstoxl(nptr, endptr, ibase, 0);
}
unsigned long __cdecl My_wcstoul (
const wchar_t *nptr,
wchar_t **endptr,
int ibase
)
{
return wcstoxl(nptr, endptr, ibase, FL_UNSIGNED);
}
#else
#define My_wcstoui64 _wcstoui64
#define My_wcstoul _wcstoul
#endif