reactos/sdk/lib/cmlib/hivecell.c
Hermès Bélusca-Maïto 8ccd435eb0
[SDK:CMLIB] HvGetCell is a macro calling the hive's GetCellRoutine callback.
In principle there should be different get-cell routines, depending
on the type of the hive (given by the OperationType parameter of
HvInitialize): for flat hives, memory-mapped hives, etc.
For now in ReactOS we only support a restricted subset of these,
therefore we are still happy with a single get-cell callback...
This may change in the future.
2022-03-27 18:37:16 +02:00

651 lines
18 KiB
C

/*
* PROJECT: Registry manipulation library
* LICENSE: GPL - See COPYING in the top level directory
* COPYRIGHT: Copyright 2005 Filip Navara <navaraf@reactos.org>
* Copyright 2001 - 2005 Eric Kohl
*/
#include "cmlib.h"
#define NDEBUG
#include <debug.h>
static __inline PHCELL CMAPI
HvpGetCellHeader(
PHHIVE RegistryHive,
HCELL_INDEX CellIndex)
{
PVOID Block;
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - Hive %p, CellIndex %08lx\n",
__FUNCTION__, RegistryHive, CellIndex);
ASSERT(CellIndex != HCELL_NIL);
if (!RegistryHive->Flat)
{
ULONG CellType = HvGetCellType(CellIndex);
ULONG CellBlock = HvGetCellBlock(CellIndex);
ULONG CellOffset = (CellIndex & HCELL_OFFSET_MASK) >> HCELL_OFFSET_SHIFT;
ASSERT(CellBlock < RegistryHive->Storage[CellType].Length);
Block = (PVOID)RegistryHive->Storage[CellType].BlockList[CellBlock].BlockAddress;
ASSERT(Block != NULL);
return (PHCELL)((ULONG_PTR)Block + CellOffset);
}
else
{
ASSERT(HvGetCellType(CellIndex) == Stable);
return (PHCELL)((ULONG_PTR)RegistryHive->BaseBlock + HBLOCK_SIZE +
CellIndex);
}
}
BOOLEAN CMAPI
HvIsCellAllocated(IN PHHIVE RegistryHive,
IN HCELL_INDEX CellIndex)
{
ULONG Type, Block;
/* If it's a flat hive, the cell is always allocated */
if (RegistryHive->Flat)
return TRUE;
/* Otherwise, get the type and make sure it's valid */
Type = HvGetCellType(CellIndex);
Block = HvGetCellBlock(CellIndex);
if (Block >= RegistryHive->Storage[Type].Length)
return FALSE;
/* Try to get the cell block */
if (RegistryHive->Storage[Type].BlockList[Block].BlockAddress)
return TRUE;
/* No valid block, fail */
return FALSE;
}
PCELL_DATA CMAPI
HvpGetCellData(
_In_ PHHIVE Hive,
_In_ HCELL_INDEX CellIndex)
{
return (PCELL_DATA)(HvpGetCellHeader(Hive, CellIndex) + 1);
}
static __inline LONG CMAPI
HvpGetCellFullSize(
PHHIVE RegistryHive,
PVOID Cell)
{
UNREFERENCED_PARAMETER(RegistryHive);
return ((PHCELL)Cell - 1)->Size;
}
LONG CMAPI
HvGetCellSize(IN PHHIVE Hive,
IN PVOID Address)
{
PHCELL CellHeader;
LONG Size;
UNREFERENCED_PARAMETER(Hive);
CellHeader = (PHCELL)Address - 1;
Size = CellHeader->Size * -1;
Size -= sizeof(HCELL);
return Size;
}
BOOLEAN CMAPI
HvMarkCellDirty(
PHHIVE RegistryHive,
HCELL_INDEX CellIndex,
BOOLEAN HoldingLock)
{
ULONG CellBlock;
ULONG CellLastBlock;
ASSERT(RegistryHive->ReadOnly == FALSE);
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - Hive %p, CellIndex %08lx, HoldingLock %u\n",
__FUNCTION__, RegistryHive, CellIndex, HoldingLock);
if (HvGetCellType(CellIndex) != Stable)
return TRUE;
CellBlock = HvGetCellBlock(CellIndex);
CellLastBlock = HvGetCellBlock(CellIndex + HBLOCK_SIZE - 1);
RtlSetBits(&RegistryHive->DirtyVector,
CellBlock, CellLastBlock - CellBlock);
RegistryHive->DirtyCount++;
return TRUE;
}
BOOLEAN CMAPI
HvIsCellDirty(IN PHHIVE Hive,
IN HCELL_INDEX Cell)
{
BOOLEAN IsDirty = FALSE;
/* Sanity checks */
ASSERT(Hive->ReadOnly == FALSE);
/* Volatile cells are always "dirty" */
if (HvGetCellType(Cell) == Volatile)
return TRUE;
/* Check if the dirty bit is set */
if (RtlCheckBit(&Hive->DirtyVector, Cell / HBLOCK_SIZE))
IsDirty = TRUE;
/* Return result as boolean*/
return IsDirty;
}
static __inline ULONG CMAPI
HvpComputeFreeListIndex(
ULONG Size)
{
ULONG Index;
static CCHAR FindFirstSet[128] = {
0, 0, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3,
4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4,
5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5,
5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6,
6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6};
ASSERT(Size >= (1 << 3));
Index = (Size >> 3) - 1;
if (Index >= 16)
{
if (Index > 127)
Index = 23;
else
Index = FindFirstSet[Index] + 16;
}
return Index;
}
static NTSTATUS CMAPI
HvpAddFree(
PHHIVE RegistryHive,
PHCELL FreeBlock,
HCELL_INDEX FreeIndex)
{
PHCELL_INDEX FreeBlockData;
HSTORAGE_TYPE Storage;
ULONG Index;
ASSERT(RegistryHive != NULL);
ASSERT(FreeBlock != NULL);
Storage = HvGetCellType(FreeIndex);
Index = HvpComputeFreeListIndex((ULONG)FreeBlock->Size);
FreeBlockData = (PHCELL_INDEX)(FreeBlock + 1);
*FreeBlockData = RegistryHive->Storage[Storage].FreeDisplay[Index];
RegistryHive->Storage[Storage].FreeDisplay[Index] = FreeIndex;
/* FIXME: Eventually get rid of free bins. */
return STATUS_SUCCESS;
}
static VOID CMAPI
HvpRemoveFree(
PHHIVE RegistryHive,
PHCELL CellBlock,
HCELL_INDEX CellIndex)
{
PHCELL_INDEX FreeCellData;
PHCELL_INDEX pFreeCellOffset;
HSTORAGE_TYPE Storage;
ULONG Index, FreeListIndex;
ASSERT(RegistryHive->ReadOnly == FALSE);
Storage = HvGetCellType(CellIndex);
Index = HvpComputeFreeListIndex((ULONG)CellBlock->Size);
pFreeCellOffset = &RegistryHive->Storage[Storage].FreeDisplay[Index];
while (*pFreeCellOffset != HCELL_NIL)
{
FreeCellData = (PHCELL_INDEX)HvGetCell(RegistryHive, *pFreeCellOffset);
if (*pFreeCellOffset == CellIndex)
{
*pFreeCellOffset = *FreeCellData;
return;
}
pFreeCellOffset = FreeCellData;
}
/* Something bad happened, print a useful trace info and bugcheck */
CMLTRACE(CMLIB_HCELL_DEBUG, "-- beginning of HvpRemoveFree trace --\n");
CMLTRACE(CMLIB_HCELL_DEBUG, "block we are about to free: %08x\n", CellIndex);
CMLTRACE(CMLIB_HCELL_DEBUG, "chosen free list index: %u\n", Index);
for (FreeListIndex = 0; FreeListIndex < 24; FreeListIndex++)
{
CMLTRACE(CMLIB_HCELL_DEBUG, "free list [%u]: ", FreeListIndex);
pFreeCellOffset = &RegistryHive->Storage[Storage].FreeDisplay[FreeListIndex];
while (*pFreeCellOffset != HCELL_NIL)
{
CMLTRACE(CMLIB_HCELL_DEBUG, "%08x ", *pFreeCellOffset);
FreeCellData = (PHCELL_INDEX)HvGetCell(RegistryHive, *pFreeCellOffset);
pFreeCellOffset = FreeCellData;
}
CMLTRACE(CMLIB_HCELL_DEBUG, "\n");
}
CMLTRACE(CMLIB_HCELL_DEBUG, "-- end of HvpRemoveFree trace --\n");
ASSERT(FALSE);
}
static HCELL_INDEX CMAPI
HvpFindFree(
PHHIVE RegistryHive,
ULONG Size,
HSTORAGE_TYPE Storage)
{
PHCELL_INDEX FreeCellData;
HCELL_INDEX FreeCellOffset;
PHCELL_INDEX pFreeCellOffset;
ULONG Index;
for (Index = HvpComputeFreeListIndex(Size); Index < 24; Index++)
{
pFreeCellOffset = &RegistryHive->Storage[Storage].FreeDisplay[Index];
while (*pFreeCellOffset != HCELL_NIL)
{
FreeCellData = (PHCELL_INDEX)HvGetCell(RegistryHive, *pFreeCellOffset);
if ((ULONG)HvpGetCellFullSize(RegistryHive, FreeCellData) >= Size)
{
FreeCellOffset = *pFreeCellOffset;
*pFreeCellOffset = *FreeCellData;
return FreeCellOffset;
}
pFreeCellOffset = FreeCellData;
}
}
return HCELL_NIL;
}
NTSTATUS CMAPI
HvpCreateHiveFreeCellList(
PHHIVE Hive)
{
HCELL_INDEX BlockOffset;
PHCELL FreeBlock;
ULONG BlockIndex;
ULONG FreeOffset;
PHBIN Bin;
NTSTATUS Status;
ULONG Index;
/* Initialize the free cell list */
for (Index = 0; Index < 24; Index++)
{
Hive->Storage[Stable].FreeDisplay[Index] = HCELL_NIL;
Hive->Storage[Volatile].FreeDisplay[Index] = HCELL_NIL;
}
BlockOffset = 0;
BlockIndex = 0;
while (BlockIndex < Hive->Storage[Stable].Length)
{
Bin = (PHBIN)Hive->Storage[Stable].BlockList[BlockIndex].BinAddress;
/* Search free blocks and add to list */
FreeOffset = sizeof(HBIN);
while (FreeOffset < Bin->Size)
{
FreeBlock = (PHCELL)((ULONG_PTR)Bin + FreeOffset);
if (FreeBlock->Size > 0)
{
Status = HvpAddFree(Hive, FreeBlock, Bin->FileOffset + FreeOffset);
if (!NT_SUCCESS(Status))
return Status;
FreeOffset += FreeBlock->Size;
}
else
{
FreeOffset -= FreeBlock->Size;
}
}
BlockIndex += Bin->Size / HBLOCK_SIZE;
BlockOffset += Bin->Size;
}
return STATUS_SUCCESS;
}
HCELL_INDEX CMAPI
HvAllocateCell(
PHHIVE RegistryHive,
ULONG Size,
HSTORAGE_TYPE Storage,
HCELL_INDEX Vicinity)
{
PHCELL FreeCell;
HCELL_INDEX FreeCellOffset;
PHCELL NewCell;
PHBIN Bin;
ASSERT(RegistryHive->ReadOnly == FALSE);
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - Hive %p, Size %x, %s, Vicinity %08lx\n",
__FUNCTION__, RegistryHive, Size, (Storage == 0) ? "Stable" : "Volatile", Vicinity);
/* Round to 16 bytes multiple. */
Size = ROUND_UP(Size + sizeof(HCELL), 16);
/* First search in free blocks. */
FreeCellOffset = HvpFindFree(RegistryHive, Size, Storage);
/* If no free cell was found we need to extend the hive file. */
if (FreeCellOffset == HCELL_NIL)
{
Bin = HvpAddBin(RegistryHive, Size, Storage);
if (Bin == NULL)
return HCELL_NIL;
FreeCellOffset = Bin->FileOffset + sizeof(HBIN);
FreeCellOffset |= Storage << HCELL_TYPE_SHIFT;
}
FreeCell = HvpGetCellHeader(RegistryHive, FreeCellOffset);
/* Split the block in two parts */
/* The free block that is created has to be at least
sizeof(HCELL) + sizeof(HCELL_INDEX) big, so that free
cell list code can work. Moreover we round cell sizes
to 16 bytes, so creating a smaller block would result in
a cell that would never be allocated. */
if ((ULONG)FreeCell->Size > Size + 16)
{
NewCell = (PHCELL)((ULONG_PTR)FreeCell + Size);
NewCell->Size = FreeCell->Size - Size;
FreeCell->Size = Size;
HvpAddFree(RegistryHive, NewCell, FreeCellOffset + Size);
if (Storage == Stable)
HvMarkCellDirty(RegistryHive, FreeCellOffset + Size, FALSE);
}
if (Storage == Stable)
HvMarkCellDirty(RegistryHive, FreeCellOffset, FALSE);
FreeCell->Size = -FreeCell->Size;
RtlZeroMemory(FreeCell + 1, Size - sizeof(HCELL));
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - CellIndex %08lx\n",
__FUNCTION__, FreeCellOffset);
return FreeCellOffset;
}
HCELL_INDEX CMAPI
HvReallocateCell(
PHHIVE RegistryHive,
HCELL_INDEX CellIndex,
ULONG Size)
{
PVOID OldCell;
PVOID NewCell;
LONG OldCellSize;
HCELL_INDEX NewCellIndex;
HSTORAGE_TYPE Storage;
ASSERT(CellIndex != HCELL_NIL);
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - Hive %p, CellIndex %08lx, Size %x\n",
__FUNCTION__, RegistryHive, CellIndex, Size);
Storage = HvGetCellType(CellIndex);
OldCell = HvGetCell(RegistryHive, CellIndex);
OldCellSize = HvGetCellSize(RegistryHive, OldCell);
ASSERT(OldCellSize > 0);
/*
* If new data size is larger than the current, destroy current
* data block and allocate a new one.
*
* FIXME: Merge with adjacent free cell if possible.
* FIXME: Implement shrinking.
*/
if (Size > (ULONG)OldCellSize)
{
NewCellIndex = HvAllocateCell(RegistryHive, Size, Storage, HCELL_NIL);
if (NewCellIndex == HCELL_NIL)
return HCELL_NIL;
NewCell = HvGetCell(RegistryHive, NewCellIndex);
RtlCopyMemory(NewCell, OldCell, (SIZE_T)OldCellSize);
HvFreeCell(RegistryHive, CellIndex);
return NewCellIndex;
}
return CellIndex;
}
VOID CMAPI
HvFreeCell(
PHHIVE RegistryHive,
HCELL_INDEX CellIndex)
{
PHCELL Free;
PHCELL Neighbor;
PHBIN Bin;
ULONG CellType;
ULONG CellBlock;
ASSERT(RegistryHive->ReadOnly == FALSE);
CMLTRACE(CMLIB_HCELL_DEBUG, "%s - Hive %p, CellIndex %08lx\n",
__FUNCTION__, RegistryHive, CellIndex);
Free = HvpGetCellHeader(RegistryHive, CellIndex);
ASSERT(Free->Size < 0);
Free->Size = -Free->Size;
CellType = HvGetCellType(CellIndex);
CellBlock = HvGetCellBlock(CellIndex);
/* FIXME: Merge free blocks */
Bin = (PHBIN)RegistryHive->Storage[CellType].BlockList[CellBlock].BinAddress;
if ((CellIndex & ~HCELL_TYPE_MASK) + Free->Size <
Bin->FileOffset + Bin->Size)
{
Neighbor = (PHCELL)((ULONG_PTR)Free + Free->Size);
if (Neighbor->Size > 0)
{
HvpRemoveFree(RegistryHive, Neighbor,
((HCELL_INDEX)((ULONG_PTR)Neighbor - (ULONG_PTR)Bin +
Bin->FileOffset)) | (CellIndex & HCELL_TYPE_MASK));
Free->Size += Neighbor->Size;
}
}
Neighbor = (PHCELL)(Bin + 1);
while (Neighbor < Free)
{
if (Neighbor->Size > 0)
{
if ((ULONG_PTR)Neighbor + Neighbor->Size == (ULONG_PTR)Free)
{
HCELL_INDEX NeighborCellIndex =
((HCELL_INDEX)((ULONG_PTR)Neighbor - (ULONG_PTR)Bin +
Bin->FileOffset)) | (CellIndex & HCELL_TYPE_MASK);
if (HvpComputeFreeListIndex(Neighbor->Size) !=
HvpComputeFreeListIndex(Neighbor->Size + Free->Size))
{
HvpRemoveFree(RegistryHive, Neighbor, NeighborCellIndex);
Neighbor->Size += Free->Size;
HvpAddFree(RegistryHive, Neighbor, NeighborCellIndex);
}
else
Neighbor->Size += Free->Size;
if (CellType == Stable)
HvMarkCellDirty(RegistryHive, NeighborCellIndex, FALSE);
return;
}
Neighbor = (PHCELL)((ULONG_PTR)Neighbor + Neighbor->Size);
}
else
{
Neighbor = (PHCELL)((ULONG_PTR)Neighbor - Neighbor->Size);
}
}
/* Add block to the list of free blocks */
HvpAddFree(RegistryHive, Free, CellIndex);
if (CellType == Stable)
HvMarkCellDirty(RegistryHive, CellIndex, FALSE);
}
#define CELL_REF_INCREMENT 10
BOOLEAN
CMAPI
HvTrackCellRef(
IN OUT PHV_TRACK_CELL_REF CellRef,
IN PHHIVE Hive,
IN HCELL_INDEX Cell)
{
PHV_HIVE_CELL_PAIR NewCellArray;
PAGED_CODE();
/* Sanity checks */
ASSERT(CellRef);
ASSERT(Hive);
ASSERT(Cell != HCELL_NIL);
/* NOTE: The hive cell is already referenced! */
/* Less than 4? Use the static array */
if (CellRef->StaticCount < STATIC_CELL_PAIR_COUNT)
{
/* Add the reference */
CellRef->StaticArray[CellRef->StaticCount].Hive = Hive;
CellRef->StaticArray[CellRef->StaticCount].Cell = Cell;
CellRef->StaticCount++;
return TRUE;
}
DPRINT("HvTrackCellRef: Static array full, use dynamic array.\n");
/* Sanity checks */
if (CellRef->Max == 0)
{
/* The dynamic array must not have been allocated already */
ASSERT(CellRef->CellArray == NULL);
ASSERT(CellRef->Count == 0);
}
else
{
/* The dynamic array must be allocated */
ASSERT(CellRef->CellArray);
}
ASSERT(CellRef->Count <= CellRef->Max);
if (CellRef->Count == CellRef->Max)
{
/* Allocate a new reference table */
NewCellArray = CmpAllocate((CellRef->Max + CELL_REF_INCREMENT) * sizeof(HV_HIVE_CELL_PAIR),
TRUE,
TAG_CM);
if (!NewCellArray)
{
DPRINT1("HvTrackCellRef: Cannot reallocate the reference table.\n");
/* We failed, dereference the hive cell */
HvReleaseCell(Hive, Cell);
return FALSE;
}
/* Free the old reference table and use the new one */
if (CellRef->CellArray)
{
/* Copy the handles from the old table to the new one */
RtlCopyMemory(NewCellArray,
CellRef->CellArray,
CellRef->Max * sizeof(HV_HIVE_CELL_PAIR));
CmpFree(CellRef->CellArray, 0); // TAG_CM
}
CellRef->CellArray = NewCellArray;
CellRef->Max += CELL_REF_INCREMENT;
}
// ASSERT(CellRef->Count < CellRef->Max);
/* Add the reference */
CellRef->CellArray[CellRef->Count].Hive = Hive;
CellRef->CellArray[CellRef->Count].Cell = Cell;
CellRef->Count++;
return TRUE;
}
VOID
CMAPI
HvReleaseFreeCellRefArray(
IN OUT PHV_TRACK_CELL_REF CellRef)
{
ULONG i;
PAGED_CODE();
ASSERT(CellRef);
/* Any references in the static array? */
if (CellRef->StaticCount > 0)
{
/* Sanity check */
ASSERT(CellRef->StaticCount <= STATIC_CELL_PAIR_COUNT);
/* Loop over them and release them */
for (i = 0; i < CellRef->StaticCount; i++)
{
HvReleaseCell(CellRef->StaticArray[i].Hive,
CellRef->StaticArray[i].Cell);
}
/* We can reuse the static array */
CellRef->StaticCount = 0;
}
/* Any references in the dynamic array? */
if (CellRef->Count > 0)
{
/* Sanity checks */
ASSERT(CellRef->Count <= CellRef->Max);
ASSERT(CellRef->CellArray);
/* Loop over them and release them */
for (i = 0; i < CellRef->Count; i++)
{
HvReleaseCell(CellRef->CellArray[i].Hive,
CellRef->CellArray[i].Cell);
}
/* We can reuse the dynamic array */
CmpFree(CellRef->CellArray, 0); // TAG_CM
CellRef->CellArray = NULL;
CellRef->Count = CellRef->Max = 0;
}
}