reactos/ntoskrnl/fsrtl/name.c

546 lines
18 KiB
C

/*
* PROJECT: ReactOS Kernel
* LICENSE: GPL - See COPYING in the top level directory
* FILE: ntoskrnl/fsrtl/name.c
* PURPOSE: Provides name parsing and other support routines for FSDs
* PROGRAMMERS: Alex Ionescu (alex.ionescu@reactos.org)
* Filip Navara (navaraf@reactos.org)
* Pierre Schweitzer (pierre.schweitzer@reactos.org)
* Aleksey Bragin (aleksey@reactos.org)
*/
/* INCLUDES ******************************************************************/
#include <ntoskrnl.h>
#define NDEBUG
#include <debug.h>
/* PRIVATE FUNCTIONS *********************************************************/
BOOLEAN
NTAPI
FsRtlIsNameInExpressionPrivate(IN PUNICODE_STRING Expression,
IN PUNICODE_STRING Name,
IN BOOLEAN IgnoreCase,
IN PWCHAR UpcaseTable OPTIONAL)
{
USHORT Offset, Position, BackTrackingPosition, OldBackTrackingPosition;
USHORT BackTrackingBuffer[16], OldBackTrackingBuffer[16] = {0};
PUSHORT BackTrackingSwap, BackTracking = BackTrackingBuffer, OldBackTracking = OldBackTrackingBuffer;
ULONG BackTrackingBufferSize = RTL_NUMBER_OF(BackTrackingBuffer);
PVOID AllocatedBuffer = NULL;
UNICODE_STRING IntExpression;
USHORT ExpressionPosition, NamePosition = 0, MatchingChars = 1;
BOOLEAN EndOfName = FALSE;
BOOLEAN Result;
BOOLEAN DontSkipDot;
WCHAR CompareChar;
PAGED_CODE();
/* Check if we were given strings at all */
if (!Name->Length || !Expression->Length)
{
/* Return TRUE if both strings are empty, otherwise FALSE */
if (!Name->Length && !Expression->Length)
return TRUE;
else
return FALSE;
}
/* Check for a shortcut: just one wildcard */
if (Expression->Length == sizeof(WCHAR))
{
if (Expression->Buffer[0] == L'*')
return TRUE;
}
ASSERT(!IgnoreCase || UpcaseTable);
/* Another shortcut, wildcard followed by some string */
if (Expression->Buffer[0] == L'*')
{
/* Copy Expression to our local variable */
IntExpression = *Expression;
/* Skip the first char */
IntExpression.Buffer++;
IntExpression.Length -= sizeof(WCHAR);
/* Continue only if the rest of the expression does NOT contain
any more wildcards */
if (!FsRtlDoesNameContainWildCards(&IntExpression))
{
/* Check for a degenerate case */
if (Name->Length < (Expression->Length - sizeof(WCHAR)))
return FALSE;
/* Calculate position */
NamePosition = (Name->Length - IntExpression.Length) / sizeof(WCHAR);
/* Compare */
if (!IgnoreCase)
{
/* We can just do a byte compare */
return RtlEqualMemory(IntExpression.Buffer,
Name->Buffer + NamePosition,
IntExpression.Length);
}
else
{
/* Not so easy, need to upcase and check char by char */
for (ExpressionPosition = 0; ExpressionPosition < (IntExpression.Length / sizeof(WCHAR)); ExpressionPosition++)
{
/* Assert that expression is already upcased! */
ASSERT(IntExpression.Buffer[ExpressionPosition] == UpcaseTable[IntExpression.Buffer[ExpressionPosition]]);
/* Now compare upcased name char with expression */
if (UpcaseTable[Name->Buffer[NamePosition + ExpressionPosition]] !=
IntExpression.Buffer[ExpressionPosition])
{
return FALSE;
}
}
/* It matches */
return TRUE;
}
}
}
/* Name parsing loop */
for (; !EndOfName; MatchingChars = BackTrackingPosition, NamePosition++)
{
/* Reset positions */
OldBackTrackingPosition = BackTrackingPosition = 0;
if (NamePosition >= Name->Length / sizeof(WCHAR))
{
EndOfName = TRUE;
if (MatchingChars && (OldBackTracking[MatchingChars - 1] == Expression->Length * 2))
break;
}
while (MatchingChars > OldBackTrackingPosition)
{
ExpressionPosition = (OldBackTracking[OldBackTrackingPosition++] + 1) / 2;
/* Expression parsing loop */
for (Offset = 0; ExpressionPosition < Expression->Length; Offset = sizeof(WCHAR))
{
ExpressionPosition += Offset;
if (ExpressionPosition == Expression->Length)
{
BackTracking[BackTrackingPosition++] = Expression->Length * 2;
break;
}
/* If buffer too small */
if (BackTrackingPosition > BackTrackingBufferSize - 2)
{
/* We should only ever get here once! */
ASSERT(AllocatedBuffer == NULL);
ASSERT((BackTracking == BackTrackingBuffer) || (BackTracking == OldBackTrackingBuffer));
ASSERT((OldBackTracking == BackTrackingBuffer) || (OldBackTracking == OldBackTrackingBuffer));
/* Calculate buffer size */
BackTrackingBufferSize = (Expression->Length + 1) * 2;
/* Allocate memory for both back-tracking buffers */
AllocatedBuffer = ExAllocatePoolWithTag(PagedPool | POOL_RAISE_IF_ALLOCATION_FAILURE,
2 * BackTrackingBufferSize * sizeof(USHORT),
'nrSF');
if (AllocatedBuffer == NULL)
{
DPRINT1("Failed to allocate BackTracking buffer. BackTrackingBufferSize = =x%lx\n",
BackTrackingBufferSize);
Result = FALSE;
goto Exit;
}
/* Backtracking is at the start of the buffer */
BackTracking = AllocatedBuffer;
/* Copy BackTrackingBuffer content */
RtlCopyMemory(BackTracking,
BackTrackingBuffer,
RTL_NUMBER_OF(BackTrackingBuffer) * sizeof(USHORT));
/* OldBackTracking is after BackTracking */
OldBackTracking = &BackTracking[BackTrackingBufferSize];
/* Copy OldBackTrackingBuffer content */
RtlCopyMemory(OldBackTracking,
OldBackTrackingBuffer,
RTL_NUMBER_OF(OldBackTrackingBuffer) * sizeof(USHORT));
}
/* Basic check to test if chars are equal */
CompareChar = (NamePosition >= Name->Length / sizeof(WCHAR)) ? UNICODE_NULL : (IgnoreCase ? UpcaseTable[Name->Buffer[NamePosition]] :
Name->Buffer[NamePosition]);
if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == CompareChar && !EndOfName)
{
BackTracking[BackTrackingPosition++] = (ExpressionPosition + sizeof(WCHAR)) * 2;
}
/* Check cases that eat one char */
else if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == L'?' && !EndOfName)
{
BackTracking[BackTrackingPosition++] = (ExpressionPosition + sizeof(WCHAR)) * 2;
}
/* Test star */
else if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == L'*')
{
BackTracking[BackTrackingPosition++] = ExpressionPosition * 2;
BackTracking[BackTrackingPosition++] = (ExpressionPosition * 2) + 3;
continue;
}
/* Check DOS_STAR */
else if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == DOS_STAR)
{
/* Look for last dot */
DontSkipDot = TRUE;
if (!EndOfName && Name->Buffer[NamePosition] == '.')
{
for (Position = NamePosition - 1; Position < Name->Length; Position++)
{
if (Name->Buffer[Position] == L'.')
{
DontSkipDot = FALSE;
break;
}
}
}
if (EndOfName || Name->Buffer[NamePosition] != L'.' || !DontSkipDot)
BackTracking[BackTrackingPosition++] = ExpressionPosition * 2;
BackTracking[BackTrackingPosition++] = (ExpressionPosition * 2) + 3;
continue;
}
/* Check DOS_DOT */
else if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == DOS_DOT)
{
if (EndOfName) continue;
if (Name->Buffer[NamePosition] == L'.')
BackTracking[BackTrackingPosition++] = (ExpressionPosition + sizeof(WCHAR)) * 2;
}
/* Check DOS_QM */
else if (Expression->Buffer[ExpressionPosition / sizeof(WCHAR)] == DOS_QM)
{
if (EndOfName || Name->Buffer[NamePosition] == L'.') continue;
BackTracking[BackTrackingPosition++] = (ExpressionPosition + sizeof(WCHAR)) * 2;
}
/* Leave from loop */
break;
}
for (Position = 0; MatchingChars > OldBackTrackingPosition && Position < BackTrackingPosition; Position++)
{
while (MatchingChars > OldBackTrackingPosition &&
BackTracking[Position] > OldBackTracking[OldBackTrackingPosition])
{
++OldBackTrackingPosition;
}
}
}
/* Swap pointers */
BackTrackingSwap = BackTracking;
BackTracking = OldBackTracking;
OldBackTracking = BackTrackingSwap;
}
/* Store result value */
Result = MatchingChars > 0 && (OldBackTracking[MatchingChars - 1] == (Expression->Length * 2));
Exit:
/* Frees the memory if necessary */
if (AllocatedBuffer != NULL)
{
ExFreePoolWithTag(AllocatedBuffer, 'nrSF');
}
return Result;
}
/* PUBLIC FUNCTIONS **********************************************************/
/*++
* @name FsRtlAreNamesEqual
* @implemented
*
* Compare two strings to check if they match
*
* @param Name1
* First unicode string to compare
*
* @param Name2
* Second unicode string to compare
*
* @param IgnoreCase
* If TRUE, Case will be ignored when comparing strings
*
* @param UpcaseTable
* Table for upcase letters. If NULL is given, system one will be used
*
* @return TRUE if the strings are equal
*
* @remarks From Bo Branten's ntifs.h v25.
*
*--*/
BOOLEAN
NTAPI
FsRtlAreNamesEqual(IN PCUNICODE_STRING Name1,
IN PCUNICODE_STRING Name2,
IN BOOLEAN IgnoreCase,
IN PCWCH UpcaseTable OPTIONAL)
{
UNICODE_STRING UpcaseName1;
UNICODE_STRING UpcaseName2;
BOOLEAN StringsAreEqual, MemoryAllocated = FALSE;
USHORT i;
NTSTATUS Status;
PAGED_CODE();
/* Well, first check their size */
if (Name1->Length != Name2->Length) return FALSE;
/* Check if the caller didn't give an upcase table */
if ((IgnoreCase) && !(UpcaseTable))
{
/* Upcase the string ourselves */
Status = RtlUpcaseUnicodeString(&UpcaseName1, Name1, TRUE);
if (!NT_SUCCESS(Status)) RtlRaiseStatus(Status);
/* Upcase the second string too */
Status = RtlUpcaseUnicodeString(&UpcaseName2, Name2, TRUE);
if (!NT_SUCCESS(Status))
{
RtlFreeUnicodeString(&UpcaseName1);
RtlRaiseStatus(Status);
}
Name1 = &UpcaseName1;
Name2 = &UpcaseName2;
/* Make sure we go through the path below, but free the strings */
IgnoreCase = FALSE;
MemoryAllocated = TRUE;
}
/* Do a case-sensitive search */
if (!IgnoreCase)
{
/* Use a raw memory compare */
StringsAreEqual = RtlEqualMemory(Name1->Buffer,
Name2->Buffer,
Name1->Length);
/* Check if we allocated strings */
if (MemoryAllocated)
{
/* Free them */
RtlFreeUnicodeString(&UpcaseName1);
RtlFreeUnicodeString(&UpcaseName2);
}
/* Return the equality */
return StringsAreEqual;
}
else
{
/* Case in-sensitive search */
for (i = 0; i < Name1->Length / sizeof(WCHAR); i++)
{
/* Check if the character matches */
if (UpcaseTable[Name1->Buffer[i]] != UpcaseTable[Name2->Buffer[i]])
{
/* Non-match found! */
return FALSE;
}
}
/* We finished the loop so we are equal */
return TRUE;
}
}
/*++
* @name FsRtlDissectName
* @implemented
*
* Dissects a given path name into first and remaining part.
*
* @param Name
* Unicode string to dissect.
*
* @param FirstPart
* Pointer to user supplied UNICODE_STRING, that will later point
* to the first part of the original name.
*
* @param RemainingPart
* Pointer to user supplied UNICODE_STRING, that will later point
* to the remaining part of the original name.
*
* @return None
*
* @remarks Example:
* Name: \test1\test2\test3
* FirstPart: test1
* RemainingPart: test2\test3
*
*--*/
VOID
NTAPI
FsRtlDissectName(IN UNICODE_STRING Name,
OUT PUNICODE_STRING FirstPart,
OUT PUNICODE_STRING RemainingPart)
{
USHORT FirstPosition, i;
USHORT SkipFirstSlash = 0;
PAGED_CODE();
/* Zero the strings before continuing */
RtlZeroMemory(FirstPart, sizeof(UNICODE_STRING));
RtlZeroMemory(RemainingPart, sizeof(UNICODE_STRING));
/* Just quit if the string is empty */
if (!Name.Length) return;
/* Find first backslash */
FirstPosition = Name.Length / sizeof(WCHAR) ;
for (i = 0; i < Name.Length / sizeof(WCHAR); i++)
{
/* If we found one... */
if (Name.Buffer[i] == L'\\')
{
/* If it begins string, just notice it and continue */
if (i == 0)
{
SkipFirstSlash = 1;
}
else
{
/* Else, save its position and break out of the loop */
FirstPosition = i;
break;
}
}
}
/* Set up the first result string */
FirstPart->Buffer = Name.Buffer + SkipFirstSlash;
FirstPart->Length = (FirstPosition - SkipFirstSlash) * sizeof(WCHAR);
FirstPart->MaximumLength = FirstPart->Length;
/* And second one, if necessary */
if (FirstPosition < (Name.Length / sizeof(WCHAR)))
{
RemainingPart->Buffer = Name.Buffer + FirstPosition + 1;
RemainingPart->Length = Name.Length - (FirstPosition + 1) * sizeof(WCHAR);
RemainingPart->MaximumLength = RemainingPart->Length;
}
}
/*++
* @name FsRtlDoesNameContainWildCards
* @implemented
*
* Checks if the given string contains WildCards
*
* @param Name
* Pointer to a UNICODE_STRING containing Name to examine
*
* @return TRUE if Name contains wildcards, FALSE otherwise
*
* @remarks From Bo Branten's ntifs.h v12.
*
*--*/
BOOLEAN
NTAPI
FsRtlDoesNameContainWildCards(IN PUNICODE_STRING Name)
{
PWCHAR Ptr;
PAGED_CODE();
/* Loop through every character */
if (Name->Length)
{
Ptr = Name->Buffer + (Name->Length / sizeof(WCHAR)) - 1;
while ((Ptr >= Name->Buffer) && (*Ptr != L'\\'))
{
/* Check for Wildcard */
if (FsRtlIsUnicodeCharacterWild(*Ptr)) return TRUE;
Ptr--;
}
}
/* Nothing Found */
return FALSE;
}
/*++
* @name FsRtlIsNameInExpression
* @implemented
*
* Check if the Name string is in the Expression string.
*
* @param Expression
* The string in which we've to find Name. It can contain wildcards.
* If IgnoreCase is set to TRUE, this string MUST BE uppercase.
*
* @param Name
* The string to find. It cannot contain wildcards
*
* @param IgnoreCase
* If set to TRUE, case will be ignore with upcasing both strings
*
* @param UpcaseTable
* If not NULL, and if IgnoreCase is set to TRUE, it will be used to
* upcase the both strings
*
* @return TRUE if Name is in Expression, FALSE otherwise
*
* @remarks From Bo Branten's ntifs.h v12. This function should be
* rewritten to avoid recursion and better wildcard handling
* should be implemented (see FsRtlDoesNameContainWildCards).
*
*--*/
BOOLEAN
NTAPI
FsRtlIsNameInExpression(IN PUNICODE_STRING Expression,
IN PUNICODE_STRING Name,
IN BOOLEAN IgnoreCase,
IN PWCHAR UpcaseTable OPTIONAL)
{
BOOLEAN Result;
NTSTATUS Status;
UNICODE_STRING IntName;
if (IgnoreCase && !UpcaseTable)
{
Status = RtlUpcaseUnicodeString(&IntName, Name, TRUE);
if (!NT_SUCCESS(Status))
{
ExRaiseStatus(Status);
}
Name = &IntName;
IgnoreCase = FALSE;
}
else
{
IntName.Buffer = NULL;
}
Result = FsRtlIsNameInExpressionPrivate(Expression, Name, IgnoreCase, UpcaseTable);
if (IntName.Buffer != NULL)
{
RtlFreeUnicodeString(&IntName);
}
return Result;
}