reactos/sdk/lib/rtl/heapdbg.c

545 lines
No EOL
15 KiB
C

/*
* PROJECT: ReactOS Runtime Library
* LICENSE: GPL - See COPYING in the top level directory
* FILE: lib/rtl/heapdbg.c
* PURPOSE: Heap manager debug heap
* PROGRAMMERS: Copyright 2010 Aleksey Bragin
*/
/* INCLUDES ******************************************************************/
#include <rtl.h>
#include <heap.h>
#define NDEBUG
#include <debug.h>
/* FUNCTIONS ******************************************************************/
HANDLE NTAPI
RtlDebugCreateHeap(ULONG Flags,
PVOID Addr,
SIZE_T ReserveSize,
SIZE_T CommitSize,
PVOID Lock,
PRTL_HEAP_PARAMETERS Parameters)
{
MEMORY_BASIC_INFORMATION MemoryInfo;
NTSTATUS Status;
PHEAP Heap;
/* Validate parameters */
if (ReserveSize <= HEAP_ENTRY_SIZE)
{
DPRINT1("HEAP: Incorrect ReserveSize %x\n", ReserveSize);
return NULL;
}
if (ReserveSize < CommitSize)
{
DPRINT1("HEAP: Incorrect CommitSize %x\n", CommitSize);
return NULL;
}
if (Flags & HEAP_NO_SERIALIZE && Lock)
{
DPRINT1("HEAP: Can't specify Lock routine and have HEAP_NO_SERIALIZE flag set\n");
return NULL;
}
/* If the address is specified, check it's virtual memory */
if (Addr)
{
Status = ZwQueryVirtualMemory(NtCurrentProcess(),
Addr,
MemoryBasicInformation,
&MemoryInfo,
sizeof(MemoryInfo),
NULL);
if (!NT_SUCCESS(Status))
{
DPRINT1("HEAP: Specified heap base address %p is invalid, Status 0x%08X\n", Addr, Status);
return NULL;
}
if (MemoryInfo.BaseAddress != Addr)
{
DPRINT1("HEAP: Specified heap base address %p is not really a base one %p\n", Addr, MemoryInfo.BaseAddress);
return NULL;
}
if (MemoryInfo.State == MEM_FREE)
{
DPRINT1("HEAP: Specified heap base address %p is free\n", Addr);
return NULL;
}
}
/* All validation performed, now call the real routine with skip validation check flag */
Flags |= HEAP_SKIP_VALIDATION_CHECKS |
HEAP_TAIL_CHECKING_ENABLED |
HEAP_FREE_CHECKING_ENABLED;
Heap = RtlCreateHeap(Flags, Addr, ReserveSize, CommitSize, Lock, Parameters);
if (!Heap) return NULL;
// FIXME: Capture stack backtrace
RtlpValidateHeapHeaders(Heap, TRUE);
return Heap;
}
BOOLEAN NTAPI
RtlDebugDestroyHeap(HANDLE HeapPtr)
{
SIZE_T Size = 0;
PHEAP Heap = (PHEAP)HeapPtr;
if (Heap == RtlGetCurrentPeb()->ProcessHeap)
{
DPRINT1("HEAP: It's forbidden delete process heap!");
return FALSE;
}
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
if (!RtlpValidateHeap(Heap, FALSE)) return FALSE;
/* Make heap invalid by zeroing its signature */
Heap->Signature = 0;
/* Free validate headers copy if it was existing */
if (Heap->HeaderValidateCopy)
{
ZwFreeVirtualMemory(NtCurrentProcess(),
&Heap->HeaderValidateCopy,
&Size,
MEM_RELEASE);
}
return TRUE;
}
PVOID NTAPI
RtlDebugAllocateHeap(PVOID HeapPtr,
ULONG Flags,
SIZE_T Size)
{
PHEAP Heap = (PHEAP)HeapPtr;
SIZE_T AllocSize = 1;
BOOLEAN HeapLocked = FALSE;
PVOID Result;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapAllocate(HeapPtr, Flags, Size);
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return NULL;
}
/* Add settable user value flag */
Flags |= Heap->ForceFlags | HEAP_SETTABLE_USER_VALUE | HEAP_SKIP_VALIDATION_CHECKS;
/* Calculate size */
if (Size) AllocSize = Size;
AllocSize = ((AllocSize + Heap->AlignRound) & Heap->AlignMask) + sizeof(HEAP_ENTRY_EXTRA);
/* Check if size didn't exceed max one */
if (AllocSize < Size ||
AllocSize > Heap->MaximumAllocationSize)
{
DPRINT1("HEAP: Too big allocation size %x (max allowed %x)\n", Size, Heap->MaximumAllocationSize);
return NULL;
}
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Call main routine to do the stuff */
Result = RtlAllocateHeap(HeapPtr, Flags, Size);
/* Validate heap headers */
RtlpValidateHeapHeaders(Heap, TRUE);
if (Result)
{
if (Heap->Flags & HEAP_VALIDATE_ALL_ENABLED)
RtlpValidateHeap(Heap, FALSE);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
PVOID NTAPI
RtlDebugReAllocateHeap(HANDLE HeapPtr,
ULONG Flags,
PVOID Ptr,
SIZE_T Size)
{
PHEAP Heap = (PHEAP)HeapPtr;
SIZE_T AllocSize = 1;
BOOLEAN HeapLocked = FALSE;
PVOID Result = NULL;
PHEAP_ENTRY HeapEntry;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapReAllocate(HeapPtr, Flags, Ptr, Size);
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return NULL;
}
/* Add settable user value flag */
Flags |= Heap->ForceFlags | HEAP_SETTABLE_USER_VALUE | HEAP_SKIP_VALIDATION_CHECKS;
/* Calculate size */
if (Size) AllocSize = Size;
AllocSize = ((AllocSize + Heap->AlignRound) & Heap->AlignMask) + sizeof(HEAP_ENTRY_EXTRA);
/* Check if size didn't exceed max one */
if (AllocSize < Size ||
AllocSize > Heap->MaximumAllocationSize)
{
DPRINT1("HEAP: Too big allocation size %x (max allowed %x)\n", Size, Heap->MaximumAllocationSize);
return NULL;
}
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)Ptr - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* Call main routine to do the stuff */
Result = RtlReAllocateHeap(HeapPtr, Flags, Ptr, Size);
if (Result)
{
/* Validate heap headers and then heap itself */
RtlpValidateHeapHeaders(Heap, TRUE);
RtlpValidateHeap(Heap, FALSE);
}
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
BOOLEAN NTAPI
RtlDebugFreeHeap(HANDLE HeapPtr,
ULONG Flags,
PVOID Ptr)
{
PHEAP Heap = (PHEAP)HeapPtr;
BOOLEAN HeapLocked = FALSE;
PHEAP_ENTRY HeapEntry;
BOOLEAN Result = FALSE;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapFree(HeapPtr, Flags, Ptr);
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
/* Add skip validation flag */
Flags |= Heap->ForceFlags | HEAP_SKIP_VALIDATION_CHECKS;
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)Ptr - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* If it succeeded - call the main routine */
Result = RtlFreeHeap(HeapPtr, Flags, Ptr);
/* Validate heap headers and then heap itself */
RtlpValidateHeapHeaders(Heap, TRUE);
RtlpValidateHeap(Heap, FALSE);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
BOOLEAN NTAPI
RtlDebugGetUserInfoHeap(PVOID HeapHandle,
ULONG Flags,
PVOID BaseAddress,
PVOID *UserValue,
PULONG UserFlags)
{
PHEAP Heap = (PHEAP)HeapHandle;
BOOLEAN HeapLocked = FALSE;
PHEAP_ENTRY HeapEntry;
BOOLEAN Result = FALSE;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapGetUserInfo(HeapHandle, Flags, BaseAddress, UserValue, UserFlags);
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
/* Add skip validation flag */
Flags |= Heap->ForceFlags | HEAP_SKIP_VALIDATION_CHECKS;
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)BaseAddress - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* If it succeeded - call the main routine */
Result = RtlGetUserInfoHeap(HeapHandle, Flags, BaseAddress, UserValue, UserFlags);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
BOOLEAN NTAPI
RtlDebugSetUserValueHeap(PVOID HeapHandle,
ULONG Flags,
PVOID BaseAddress,
PVOID UserValue)
{
PHEAP Heap = (PHEAP)HeapHandle;
BOOLEAN HeapLocked = FALSE;
PHEAP_ENTRY HeapEntry;
BOOLEAN Result = FALSE;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapSetUserValue(HeapHandle, Flags, BaseAddress, UserValue);
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
/* Add skip validation flag */
Flags |= Heap->ForceFlags | HEAP_SKIP_VALIDATION_CHECKS;
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)BaseAddress - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* If it succeeded - call the main routine */
Result = RtlSetUserValueHeap(HeapHandle, Flags, BaseAddress, UserValue);
/* Validate the heap */
RtlpValidateHeap(Heap, FALSE);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
BOOLEAN
NTAPI
RtlDebugSetUserFlagsHeap(PVOID HeapHandle,
ULONG Flags,
PVOID BaseAddress,
ULONG UserFlagsReset,
ULONG UserFlagsSet)
{
PHEAP Heap = (PHEAP)HeapHandle;
BOOLEAN HeapLocked = FALSE;
PHEAP_ENTRY HeapEntry;
BOOLEAN Result = FALSE;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapSetUserFlags(HeapHandle, Flags, BaseAddress, UserFlagsReset, UserFlagsSet);
/* Check if this heap allows flags to be set at all */
if (UserFlagsSet & ~HEAP_SETTABLE_USER_FLAGS ||
UserFlagsReset & ~HEAP_SETTABLE_USER_FLAGS)
{
return FALSE;
}
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
/* Add skip validation flag */
Flags |= Heap->ForceFlags | HEAP_SKIP_VALIDATION_CHECKS;
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)BaseAddress - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* If it succeeded - call the main routine */
Result = RtlSetUserFlagsHeap(HeapHandle, Flags, BaseAddress, UserFlagsReset, UserFlagsSet);
/* Validate the heap */
RtlpValidateHeap(Heap, FALSE);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
SIZE_T NTAPI
RtlDebugSizeHeap(HANDLE HeapPtr,
ULONG Flags,
PVOID Ptr)
{
PHEAP Heap = (PHEAP)HeapPtr;
BOOLEAN HeapLocked = FALSE;
PHEAP_ENTRY HeapEntry;
SIZE_T Result = ~(SIZE_T)0;
if (Heap->ForceFlags & HEAP_FLAG_PAGE_ALLOCS)
return RtlpPageHeapSize(HeapPtr, Flags, Ptr);
/* Check heap signature */
if (Heap->Signature != HEAP_SIGNATURE)
{
DPRINT1("HEAP: Invalid heap %p signature 0x%x\n", Heap, Heap->Signature);
return FALSE;
}
/* Add skip validation flag */
Flags |= Heap->ForceFlags | HEAP_SKIP_VALIDATION_CHECKS;
/* Lock the heap ourselves */
if (!(Flags & HEAP_NO_SERIALIZE))
{
RtlEnterHeapLock(Heap->LockVariable, TRUE);
HeapLocked = TRUE;
/* Add no serialize flag so that the main routine won't try to acquire the lock again */
Flags |= HEAP_NO_SERIALIZE;
}
/* Validate the heap if necessary */
RtlpValidateHeap(Heap, FALSE);
/* Get the existing heap entry */
HeapEntry = (PHEAP_ENTRY)Ptr - 1;
/* Validate it */
if (RtlpValidateHeapEntry(Heap, HeapEntry))
{
/* If it succeeded - call the main routine */
Result = RtlSizeHeap(HeapPtr, Flags, Ptr);
}
/* Release the lock */
if (HeapLocked) RtlLeaveHeapLock(Heap->LockVariable);
return Result;
}
/* EOF */