windows-nt/Source/XPSP1/NT/base/ntos/config/hivemap.c
2020-09-26 16:20:57 +08:00

1032 lines
26 KiB
C

/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
hivemap.c
Abstract:
This module implements HvpBuildMap - used to build the initial map for a hive
Author:
Bryan M. Willman (bryanwi) 28-Mar-92
Environment:
Revision History:
Dragos C. Sambotin (dragoss) 25-Jan-99
Implementation of bin-size chunk loading of hives.
--*/
#include "cmp.h"
#ifdef ALLOC_PRAGMA
#pragma alloc_text(PAGE,HvpBuildMap)
#pragma alloc_text(PAGE,HvpFreeMap)
#pragma alloc_text(PAGE,HvpAllocateMap)
#pragma alloc_text(PAGE,HvpBuildMapAndCopy)
#pragma alloc_text(PAGE,HvpEnlistFreeCells)
#pragma alloc_text(PAGE,HvpInitMap)
#pragma alloc_text(PAGE,HvpCleanMap)
#pragma alloc_text(PAGE,HvpEnlistBinInMap)
#pragma alloc_text(PAGE,HvpGetBinMemAlloc)
#endif
extern struct {
PHHIVE Hive;
ULONG Status;
ULONG Space;
HCELL_INDEX MapPoint;
PHBIN BinPoint;
} HvCheckHiveDebug;
//Dragos: Modified functions
NTSTATUS
HvpBuildMapAndCopy(
PHHIVE Hive,
PVOID Image
)
/*++
Routine Description:
Creates the map for the Stable storage of the hive, and inits
the map for the volatile storage.
Following fields in hive must already be filled in:
Allocate, Free
Will initialize Storage structure of HHIVE.
This function is called for the HINIT_MEMORY case. The hive is guaranteed
to be in paged-pool. More than that, the hive image is contiguous.
It'll then copy from that image to the new paged-pool allocations.
Arguments:
Hive - Pointer to hive control structure to build map for.
Image - pointer to flat memory image of original hive.
Return Value:
TRUE - it worked
FALSE - either hive is corrupt or no memory for map
--*/
{
PHBASE_BLOCK BaseBlock;
ULONG Length;
ULONG MapSlots;
ULONG Tables;
PHMAP_TABLE t = NULL;
PHMAP_DIRECTORY d = NULL;
PHBIN Bin;
PHBIN CurrentBin;
ULONG Offset;
ULONG_PTR Address;
PHMAP_ENTRY Me;
NTSTATUS Status;
PULONG Vector;
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"HvpBuildMap:\n"));
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"\tHive=%p",Hive));
//
// Compute size of data region to be mapped
//
BaseBlock = Hive->BaseBlock;
Length = BaseBlock->Length;
if ((Length % HBLOCK_SIZE) != 0 ) {
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit1;
}
MapSlots = Length / HBLOCK_SIZE;
if( MapSlots > 0 ) {
Tables = (MapSlots-1) / HTABLE_SLOTS;
} else {
Tables = 0;
}
Hive->Storage[Stable].Length = Length;
//
// allocate dirty vector if one is not already present (from HvpRecoverData)
//
if (Hive->DirtyVector.Buffer == NULL) {
Vector = (PULONG)((Hive->Allocate)(ROUND_UP(Length/HSECTOR_SIZE/8,sizeof(ULONG)), TRUE,CM_FIND_LEAK_TAG22));
if (Vector == NULL) {
Status = STATUS_NO_MEMORY;
goto ErrorExit1;
}
RtlZeroMemory(Vector, Length / HSECTOR_SIZE / 8);
RtlInitializeBitMap(&Hive->DirtyVector, Vector, Length / HSECTOR_SIZE);
Hive->DirtyAlloc = ROUND_UP(Length/HSECTOR_SIZE/8,sizeof(ULONG));
}
//
// allocate and build structure for map
//
if (Tables == 0) {
//
// Just 1 table, no need for directory
//
t = (Hive->Allocate)(sizeof(HMAP_TABLE), FALSE,CM_FIND_LEAK_TAG23);
if (t == NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit1;
}
RtlZeroMemory(t, sizeof(HMAP_TABLE));
Hive->Storage[Stable].Map =
(PHMAP_DIRECTORY)&(Hive->Storage[Stable].SmallDir);
Hive->Storage[Stable].SmallDir = t;
} else {
//
// Need directory and multiple tables
//
d = (PHMAP_DIRECTORY)(Hive->Allocate)(sizeof(HMAP_DIRECTORY), FALSE,CM_FIND_LEAK_TAG24);
if (d == NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit1;
}
RtlZeroMemory(d, sizeof(HMAP_DIRECTORY));
//
// Allocate tables and fill in dir
//
if (HvpAllocateMap(Hive, d, 0, Tables) == FALSE) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit2;
}
Hive->Storage[Stable].Map = d;
Hive->Storage[Stable].SmallDir = 0;
}
//
// Now we have to allocate the memory for the HBINs and fill in
// the map appropriately. We are careful never to allocate less
// than a page to avoid fragmenting pool. As long as the page
// size is a multiple of HBLOCK_SIZE (a fairly good assumption as
// long as HBLOCK_SIZE is 4k) this strategy will prevent pool
// fragmentation.
//
// If we come across an HBIN that is entirely composed of a freed
// HCELL, then we do not allocate memory, but mark its HBLOCKs in
// the map as not present. HvAllocateCell will allocate memory for
// the bin when it is needed.
//
Offset = 0;
Bin = (PHBIN)Image;
while (Bin < (PHBIN)((PUCHAR)(Image) + Length)) {
if ( (Bin->Size > (Length-Offset)) ||
(Bin->Signature != HBIN_SIGNATURE) ||
(Bin->FileOffset != Offset)
)
{
//
// Bin is bogus
//
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit2;
}
CurrentBin = (PHBIN)(Hive->Allocate)(Bin->Size, FALSE,CM_FIND_LEAK_TAG25);
if (CurrentBin==NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit2; //fixfix
}
RtlCopyMemory(CurrentBin,
(PUCHAR)Image+Offset,
Bin->Size);
//
// create map entries for each block/page in bin
//
Address = (ULONG_PTR)CurrentBin;
do {
Me = HvpGetCellMap(Hive, Offset);
VALIDATE_CELL_MAP(__LINE__,Me,Hive,Offset);
Me->BlockAddress = Address;
Me->BinAddress = (ULONG_PTR)CurrentBin;
if (Address == (ULONG_PTR)CurrentBin) {
Me->BinAddress |= HMAP_NEWALLOC;
Me->MemAlloc = CurrentBin->Size;
} else {
Me->MemAlloc = 0;
}
Me->BinAddress |= HMAP_INPAGEDPOOL;
// we don't need to set this - just for debug purposes
ASSERT( (Me->CmView = NULL) == NULL );
Address += HBLOCK_SIZE;
Offset += HBLOCK_SIZE;
} while ( Address < ((ULONG_PTR)CurrentBin + CurrentBin->Size ));
if (Hive->ReadOnly == FALSE) {
//
// add free cells in the bin to the appropriate free lists
//
if ( ! HvpEnlistFreeCells(Hive,
CurrentBin,
CurrentBin->FileOffset
)) {
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit2;
}
}
Bin = (PHBIN)((ULONG_PTR)Bin + Bin->Size);
}
return STATUS_SUCCESS;
ErrorExit2:
if (d != NULL) {
//
// directory was built and allocated, so clean it up
//
HvpFreeMap(Hive, d, 0, Tables);
(Hive->Free)(d, sizeof(HMAP_DIRECTORY));
}
ErrorExit1:
return Status;
}
NTSTATUS
HvpInitMap(
PHHIVE Hive
)
/*++
Routine Description:
Initialize the map for the Stable Volatile storage of the hive.
Following fields in hive must already be filled in:
Allocate, Free
Will initialize Storage structure of HHIVE.
Arguments:
Hive - Pointer to hive control structure to build map for.
Return Value:
STATUS_SUCCESS - it worked
STATUS_xxx - the errorneous status
--*/
{
PHBASE_BLOCK BaseBlock;
ULONG Length;
ULONG MapSlots;
ULONG Tables;
PHMAP_TABLE t = NULL;
PHMAP_DIRECTORY d = NULL;
NTSTATUS Status;
PULONG Vector = NULL;
#ifndef _CM_LDR_
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"HvpInitMap:\n"));
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"\tHive=%p",Hive));
#endif //_CM_LDR_
//
// Compute size of data region to be mapped
//
BaseBlock = Hive->BaseBlock;
Length = BaseBlock->Length;
if ((Length % HBLOCK_SIZE) != 0) {
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit1;
}
MapSlots = Length / HBLOCK_SIZE;
if( MapSlots > 0 ) {
Tables = (MapSlots-1) / HTABLE_SLOTS;
} else {
Tables = 0;
}
Hive->Storage[Stable].Length = Length;
//
// allocate dirty vector if one is not already present (from HvpRecoverData)
//
if (Hive->DirtyVector.Buffer == NULL) {
Vector = (PULONG)((Hive->Allocate)(ROUND_UP(Length/HSECTOR_SIZE/8,sizeof(ULONG)), TRUE,CM_FIND_LEAK_TAG27));
if (Vector == NULL) {
Status = STATUS_NO_MEMORY;
goto ErrorExit1;
}
RtlZeroMemory(Vector, Length / HSECTOR_SIZE / 8);
RtlInitializeBitMap(&Hive->DirtyVector, Vector, Length / HSECTOR_SIZE);
Hive->DirtyAlloc = ROUND_UP(Length/HSECTOR_SIZE/8,sizeof(ULONG));
}
//
// allocate and build structure for map
//
if (Tables == 0) {
//
// Just 1 table, no need for directory
//
t = (Hive->Allocate)(sizeof(HMAP_TABLE), FALSE,CM_FIND_LEAK_TAG26);
if (t == NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit1;
}
RtlZeroMemory(t, sizeof(HMAP_TABLE));
Hive->Storage[Stable].Map =
(PHMAP_DIRECTORY)&(Hive->Storage[Stable].SmallDir);
Hive->Storage[Stable].SmallDir = t;
} else {
//
// Need directory and multiple tables
//
d = (PHMAP_DIRECTORY)(Hive->Allocate)(sizeof(HMAP_DIRECTORY), FALSE,CM_FIND_LEAK_TAG28);
if (d == NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit1;
}
RtlZeroMemory(d, sizeof(HMAP_DIRECTORY));
//
// Allocate tables and fill in dir
//
if (HvpAllocateMap(Hive, d, 0, Tables) == FALSE) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto ErrorExit2;
}
Hive->Storage[Stable].Map = d;
Hive->Storage[Stable].SmallDir = 0;
}
return STATUS_SUCCESS;
ErrorExit2:
if (d != NULL) {
//
// directory was built and allocated, so clean it up
//
HvpFreeMap(Hive, d, 0, Tables);
(Hive->Free)(d, sizeof(HMAP_DIRECTORY));
}
ErrorExit1:
if( Vector ) {
(Hive->Free)(Vector, ROUND_UP(Length/HSECTOR_SIZE/8,sizeof(ULONG)));
Hive->DirtyVector.Buffer = NULL;
}
return Status;
}
NTSTATUS
HvpEnlistBinInMap(
PHHIVE Hive,
ULONG Length,
PHBIN Bin,
ULONG Offset,
PVOID CmView OPTIONAL
)
/*++
Routine Description:
Creates map entries and enlist free cells for the specified bin
Arguments:
Hive - Pointer to hive control structure containing the target map
Length - the Length of the hive image
Bin - the bin to be enlisted
Offset - the offset within the hive file
CmView - pointer to the mapped view of the bin. If NULL, the bin resides in paged pool
Return Value:
STATUS_SUCCESS - it worked
STATUS_REGISTRY_CORRUPT - the bin is inconsistent
STATUS_REGISTRY_RECOVERED - if we have fixed the bin on-the-fly (self heal feature).
--*/
{
NTSTATUS Status = STATUS_SUCCESS;
ULONG BinOffset;
ULONG_PTR Address;
PHMAP_ENTRY Me;
#ifndef _CM_LDR_
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"HvpEnlistBinInMap:\n"));
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"\tHive=%p\t Offset=%08lx",Hive,Offset));
#endif //_CM_LDR_
#ifndef _CM_LDR_
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_BIN_MAP,"HvpEnlistBinInMap: BinAddress = 0x%p\t Size = 0x%lx\n", Bin, Bin->Size));
#endif //_CM_LDR_
//
// create map entries for each block/page in bin
//
BinOffset = Offset;
for (Address = (ULONG_PTR)Bin;
Address < ((ULONG_PTR)Bin + Bin->Size);
Address += HBLOCK_SIZE
)
{
Me = HvpGetCellMap(Hive, Offset);
VALIDATE_CELL_MAP(__LINE__,Me,Hive,Offset);
Me->BlockAddress = Address;
Me->BinAddress = (ULONG_PTR)Bin;
if (Offset == BinOffset) {
Me->BinAddress |= HMAP_NEWALLOC;
Me->MemAlloc = Bin->Size;
} else {
Me->MemAlloc = 0;
}
//
// take care here !!!!!
//
if( CmView == NULL ) {
Me->BinAddress |= HMAP_INPAGEDPOOL;
// we don't need to set this - just for debug purposes
ASSERT( (Me->CmView = NULL) == NULL );
} else {
Me->BinAddress |= HMAP_INVIEW;
// this should be already set by now
//ASSERT( Me->CmView == CmView );
}
Offset += HBLOCK_SIZE;
}
if (Hive->ReadOnly == FALSE) {
//
// add free cells in the bin to the apropriate free lists
//
if ( ! HvpEnlistFreeCells(Hive, Bin, BinOffset)) {
HvCheckHiveDebug.Hive = Hive;
HvCheckHiveDebug.Status = 0xA002;
HvCheckHiveDebug.Space = Length;
HvCheckHiveDebug.MapPoint = BinOffset;
HvCheckHiveDebug.BinPoint = Bin;
if( CmDoSelfHeal() ) {
Status = STATUS_REGISTRY_RECOVERED;
} else {
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit;
}
}
}
//
// logical consistency check
//
ASSERT(Offset == (BinOffset + Bin->Size));
ErrorExit:
return Status;
}
NTSTATUS
HvpBuildMap(
PHHIVE Hive,
PVOID Image
)
/*++
Routine Description:
Creates the map for the Stable storage of the hive, and inits
the map for the volatile storage.
Following fields in hive must already be filled in:
Allocate, Free
Will initialize Storage structure of HHIVE.
Arguments:
Hive - Pointer to hive control structure to build map for.
Image - pointer to in memory image of the hive
Return Value:
TRUE - it worked
FALSE - either hive is corrupt or no memory for map
--*/
{
PHBIN Bin;
ULONG Offset;
NTSTATUS Status;
ULONG Length;
#ifndef _CM_LDR_
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"HvpBuildMap:\n"));
CmKdPrintEx((DPFLTR_CONFIG_ID,CML_HIVE,"\tHive=%p",Hive));
#endif //_CM_LDR_
//
// Init the map
//
Status = HvpInitMap(Hive);
if( !NT_SUCCESS(Status) ) {
//
// just return failure; HvpInitMap took care of cleanup
//
return Status;
}
//
// Fill in the map
//
Offset = 0;
Bin = (PHBIN)Image;
Length = Hive->Storage[Stable].Length;
while (Bin < (PHBIN)((PUCHAR)(Image) + Length)) {
//
// Check the validity of the bin header
//
if ( (Bin->Size > Length) ||
(Bin->Size < HBLOCK_SIZE) ||
(Bin->Signature != HBIN_SIGNATURE) ||
(Bin->FileOffset != Offset)) {
//
// Bin is bogus
//
HvCheckHiveDebug.Hive = Hive;
HvCheckHiveDebug.Status = 0xA001;
HvCheckHiveDebug.Space = Length;
HvCheckHiveDebug.MapPoint = Offset;
HvCheckHiveDebug.BinPoint = Bin;
//
// for the loader.
//
if( CmDoSelfHeal() ) {
//
// put the correct signature, fileoffset and binsize in place;
// HvEnlistBinInMap will take care of the cells consistency.
//
Bin->Signature = HBIN_SIGNATURE;
Bin->FileOffset = Offset;
if ( ((Offset + Bin->Size) > Length) ||
(Bin->Size < HBLOCK_SIZE) ||
(Bin->Size % HBLOCK_SIZE) ) {
Bin->Size = HBLOCK_SIZE;
}
//
// signal back to the caller that we have altered the hive.
//
CmMarkSelfHeal(Hive);
} else {
Status = STATUS_REGISTRY_CORRUPT;
goto ErrorExit;
}
}
//
// enlist this bin
//
Status = HvpEnlistBinInMap(Hive, Length, Bin, Offset, NULL);
//
// for the loader.
//
if( CmDoSelfHeal() && (Status == STATUS_REGISTRY_RECOVERED) ) {
CmMarkSelfHeal(Hive);
Status = STATUS_SUCCESS;
}
if( !NT_SUCCESS(Status) ) {
goto ErrorExit;
}
//
// the next bin
//
Offset += Bin->Size;
Bin = (PHBIN)((ULONG_PTR)Bin + Bin->Size);
}
return STATUS_SUCCESS;
ErrorExit:
//
// Clean up the directory table
//
#ifndef _CM_LDR_
HvpCleanMap( Hive );
#endif //_CM_LDR_
return Status;
}
BOOLEAN
HvpEnlistFreeCells(
PHHIVE Hive,
PHBIN Bin,
ULONG BinOffset
)
/*++
Routine Description:
Scan through the cells in the bin, locating the free ones.
Enlist them in the hive's free list set.
N.B. Bin MUST already be mapped when this is called.
Arguments:
Hive - pointer to hive control structure map is being built for
Bin - pointer to bin to enlist cells from
BinOffset - offset of Bin in image
Return Value:
FALSE - registry is corrupt
TRUE - it worked
--*/
{
PHCELL p;
ULONG celloffset;
ULONG size;
HCELL_INDEX cellindex;
BOOLEAN Result = TRUE;
// PERFNOTE -- Keep this in mind as a possible optimization for NT6.
// Since now the hive is loaded in chunks of bins, we can drop the
// bins that are entirely free!!!!!!
//
//
// Scan all the cells in the bin, total free and allocated, check
// for impossible pointers.
//
celloffset = sizeof(HBIN);
p = (PHCELL)((PUCHAR)Bin + sizeof(HBIN));
while (p < (PHCELL)((PUCHAR)Bin + Bin->Size)) {
//
// if free cell, check it out, add it to free list for hive
//
if (p->Size >= 0) {
size = (ULONG)p->Size;
if ( (size > Bin->Size) ||
( (PHCELL)(size + (PUCHAR)p) >
(PHCELL)((PUCHAR)Bin + Bin->Size) ) ||
((size % HCELL_PAD(Hive)) != 0) ||
(size == 0) )
{
Result = FALSE;
if( CmDoSelfHeal() ) {
//
// self heal mode; enlist the remaining of the bin as free
// also zero it out so any references into the tampered area will be
// detected and fixed by the logical check later on
//
p->Size = (LONG)((PUCHAR)((PUCHAR)Bin + Bin->Size) - (PUCHAR)p);
RtlZeroMemory((PUCHAR)p + sizeof(ULONG),p->Size - sizeof(ULONG));
size = (ULONG)p->Size;
CmMarkSelfHeal(Hive);
} else {
goto Exit;
}
}
//
// cell is free, and is not obviously corrupt, add to free list
//
celloffset = (ULONG)((PUCHAR)p - (PUCHAR)Bin);
cellindex = BinOffset + celloffset;
//
// Enlist this free cell, but do not coalesce with the next free cell
// as we haven't gotten that far yet.
//
HvpEnlistFreeCell(Hive, cellindex, size, Stable, FALSE);
} else {
size = (ULONG)(p->Size * -1);
if ( (size > Bin->Size) ||
( (PHCELL)(size + (PUCHAR)p) >
(PHCELL)((PUCHAR)Bin + Bin->Size) ) ||
((size % HCELL_PAD(Hive)) != 0) ||
(size == 0) )
{
Result = FALSE;
if( CmDoSelfHeal() ) {
//
// Self heal mode; we have no other way than to enlist this cell as a free cell
//
p->Size = (LONG)((PUCHAR)((PUCHAR)Bin + Bin->Size) - (PUCHAR)p);
RtlZeroMemory((PUCHAR)p + sizeof(ULONG),p->Size - sizeof(ULONG));
size = (ULONG)p->Size;
celloffset = (ULONG)((PUCHAR)p - (PUCHAR)Bin);
cellindex = BinOffset + celloffset;
HvpEnlistFreeCell(Hive, cellindex, size, Stable, FALSE);
CmMarkSelfHeal(Hive);
} else {
goto Exit;
}
}
}
ASSERT( ((LONG)size) >= 0);
p = (PHCELL)((PUCHAR)p + size);
}
Exit:
return Result;
}
VOID
HvpCleanMap(
PHHIVE Hive
)
/*++
Routine Description:
Cleans all the map allocations for the stable storage
Arguments:
Hive - Pointer to hive control structure to build map for.
Return Value:
None
--*/
{
ULONG Length;
ULONG MapSlots;
ULONG Tables;
PHMAP_DIRECTORY d = NULL;
//
// Compute MapSlots and Tables based on the Length
//
Length = Hive->Storage[Stable].Length;
MapSlots = Length / HBLOCK_SIZE;
if( MapSlots > 0 ) {
Tables = (MapSlots-1) / HTABLE_SLOTS;
} else {
Tables = 0;
}
if( Hive->Storage[Stable].SmallDir == 0 ) {
//
// directory was built and allocated, so clean it up
//
d = Hive->Storage[Stable].Map;
if( d != NULL ) {
HvpFreeMap(Hive, d, 0, Tables);
(Hive->Free)(d, sizeof(HMAP_DIRECTORY));
}
} else {
//
// no directory, just a smalldir
//
(Hive->Free)(Hive->Storage[Stable].SmallDir, sizeof(HMAP_TABLE));
}
Hive->Storage[Stable].SmallDir = NULL;
Hive->Storage[Stable].Map = NULL;
}
VOID
HvpFreeMap(
PHHIVE Hive,
PHMAP_DIRECTORY Dir,
ULONG Start,
ULONG End
)
/*++
Routine Description:
Sweeps through the directory Dir points to and frees Tables.
Will free Start-th through End-th entries, INCLUSIVE.
Arguments:
Hive - supplies pointer to hive control block of interest
Dir - supplies address of an HMAP_DIRECTORY structure
Start - index of first map table pointer to clean up
End - index of last map table pointer to clean up
Return Value:
NONE.
--*/
{
ULONG i;
if (End >= HDIRECTORY_SLOTS) {
End = HDIRECTORY_SLOTS - 1;
}
for (i = Start; i <= End; i++) {
if (Dir->Directory[i] != NULL) {
(Hive->Free)(Dir->Directory[i], sizeof(HMAP_TABLE));
Dir->Directory[i] = NULL;
}
}
return;
}
BOOLEAN
HvpAllocateMap(
PHHIVE Hive,
PHMAP_DIRECTORY Dir,
ULONG Start,
ULONG End
)
/*++
Routine Description:
Sweeps through the directory Dir points to and allocates Tables.
Will allocate Start-th through End-th entries, INCLUSIVE.
Does NOT clean up when out of memory, call HvpFreeMap to do that.
Arguments:
Hive - supplies pointer to hive control block of interest
Dir - supplies address of an HMAP_DIRECTORY structure
Start - index of first map table pointer to allocate for
End - index of last map table pointer to allocate for
Return Value:
TRUE - it worked
FALSE - insufficient memory
--*/
{
ULONG i,j;
PHMAP_TABLE t;
for (i = Start; i <= End; i++) {
ASSERT(Dir->Directory[i] == NULL);
t = (PHMAP_TABLE)((Hive->Allocate)(sizeof(HMAP_TABLE), FALSE,CM_FIND_LEAK_TAG29));
if (t == NULL) {
return FALSE;
}
// the zero memory stuff can be removed
RtlZeroMemory(t, sizeof(HMAP_TABLE));
for(j=0;j<HTABLE_SLOTS;j++) {
//
// Invalidate the entry
//
//
// ATTENTION : I don't really think we need this !!! <TBD>
//
t->Table[j].BinAddress = 0;
// we don't need to set this - just for debug purposes
ASSERT( (t->Table[j].CmView = NULL) == NULL );
}
Dir->Directory[i] = t;
}
return TRUE;
}
ULONG
HvpGetBinMemAlloc(
IN PHHIVE Hive,
PHBIN Bin,
IN HSTORAGE_TYPE Type
)
/*++
Routine Description:
Returns the bin MemAlloc (formelly kept right in the bin) by looking at
the map. We need this to avoid touching the bins only to set their MemAlloc.
Arguments:
Hive - supplies a pointer to the hive control structure for the
hive of interest
Bin - The bin in question
Type - Stable or Volatile
Return Value:
Pointer to the new BIN if we succeeded, NULL if we failed.
--*/
{
PHMAP_ENTRY Map;
HCELL_INDEX Cell;
#if DBG
ULONG i;
PHMAP_ENTRY Me;
#endif
#ifndef _CM_LDR_
PAGED_CODE();
#endif //_CM_LDR_
ASSERT( Bin->Signature == HBIN_SIGNATURE );
Cell = Bin->FileOffset + (Type * HCELL_TYPE_MASK);
Map = HvpGetCellMap(Hive, Cell);
VALIDATE_CELL_MAP(__LINE__,Map,Hive,Cell);
#if DBG
//
// some validation code
//
for( i=0;i<Bin->Size;i+=HBLOCK_SIZE) {
Cell = Bin->FileOffset + i + (Type * HCELL_TYPE_MASK);
Me = HvpGetCellMap(Hive, Cell);
VALIDATE_CELL_MAP(__LINE__,Me,Hive,Cell);
if( i == 0 ) {
ASSERT( Me->MemAlloc != 0 );
} else {
ASSERT( Me->MemAlloc == 0 );
}
}
#endif
return Map->MemAlloc;
}