reactos/ntoskrnl/config/cmkcbncb.c
Victor Perevertkin 5c7ce4475e
[REACTOS] Cleanup INIT and some PAGE section allocations
- Change INIT_FUNCTION and INIT_SECTION to CODE_SEG("INIT") and DATA_SEG("INIT") respectively
- Remove INIT_FUNCTION from function prototypes
- Remove alloc_text pragma calls as they are not needed anymore
2020-11-02 21:45:31 +03:00

1196 lines
34 KiB
C

/*
* PROJECT: ReactOS Kernel
* LICENSE: GPL - See COPYING in the top level directory
* FILE: ntoskrnl/config/cmkcbncb.c
* PURPOSE: Routines for handling KCBs, NCBs, as well as key hashes.
* PROGRAMMERS: Alex Ionescu (alex.ionescu@reactos.org)
*/
/* INCLUDES ******************************************************************/
#include <ntoskrnl.h>
#define NDEBUG
#include <debug.h>
/* GLOBALS *******************************************************************/
ULONG CmpHashTableSize = 2048;
PCM_KEY_HASH_TABLE_ENTRY CmpCacheTable;
PCM_NAME_HASH_TABLE_ENTRY CmpNameCacheTable;
/* FUNCTIONS *****************************************************************/
CODE_SEG("INIT")
VOID
NTAPI
CmpInitializeCache(VOID)
{
ULONG Length, i;
/* Calculate length for the table */
Length = CmpHashTableSize * sizeof(CM_KEY_HASH_TABLE_ENTRY);
/* Allocate it */
CmpCacheTable = CmpAllocate(Length, TRUE, TAG_CM);
if (!CmpCacheTable)
{
/* Take the system down */
KeBugCheckEx(CONFIG_INITIALIZATION_FAILED, 3, 1, 0, 0);
}
/* Zero out the table */
RtlZeroMemory(CmpCacheTable, Length);
/* Initialize the locks */
for (i = 0;i < CmpHashTableSize; i++)
{
/* Setup the pushlock */
ExInitializePushLock(&CmpCacheTable[i].Lock);
}
/* Calculate length for the name cache */
Length = CmpHashTableSize * sizeof(CM_NAME_HASH_TABLE_ENTRY);
/* Now allocate the name cache table */
CmpNameCacheTable = CmpAllocate(Length, TRUE, TAG_CM);
if (!CmpNameCacheTable)
{
/* Take the system down */
KeBugCheckEx(CONFIG_INITIALIZATION_FAILED, 3, 3, 0, 0);
}
/* Zero out the table */
RtlZeroMemory(CmpNameCacheTable, Length);
/* Initialize the locks */
for (i = 0;i < CmpHashTableSize; i++)
{
/* Setup the pushlock */
ExInitializePushLock(&CmpNameCacheTable[i].Lock);
}
/* Setup the delayed close table */
CmpInitializeDelayedCloseTable();
}
VOID
NTAPI
CmpRemoveKeyHash(IN PCM_KEY_HASH KeyHash)
{
PCM_KEY_HASH *Prev;
PCM_KEY_HASH Current;
ASSERT_VALID_HASH(KeyHash);
/* Lookup all the keys in this index entry */
Prev = &GET_HASH_ENTRY(CmpCacheTable, KeyHash->ConvKey)->Entry;
while (TRUE)
{
/* Save the current one and make sure it's valid */
Current = *Prev;
ASSERT(Current != NULL);
ASSERT_VALID_HASH(Current);
/* Check if it matches */
if (Current == KeyHash)
{
/* Then write the previous one */
*Prev = Current->NextHash;
if (*Prev) ASSERT_VALID_HASH(*Prev);
break;
}
/* Otherwise, keep going */
Prev = &Current->NextHash;
}
}
PCM_KEY_CONTROL_BLOCK
NTAPI
CmpInsertKeyHash(IN PCM_KEY_HASH KeyHash,
IN BOOLEAN IsFake)
{
ULONG i;
PCM_KEY_HASH Entry;
ASSERT_VALID_HASH(KeyHash);
/* Get the hash index */
i = GET_HASH_INDEX(KeyHash->ConvKey);
/* If this is a fake key, increase the key cell to use the parent data */
if (IsFake) KeyHash->KeyCell++;
/* Loop the hash table */
Entry = CmpCacheTable[i].Entry;
while (Entry)
{
/* Check if this matches */
ASSERT_VALID_HASH(Entry);
if ((KeyHash->ConvKey == Entry->ConvKey) &&
(KeyHash->KeyCell == Entry->KeyCell) &&
(KeyHash->KeyHive == Entry->KeyHive))
{
/* Return it */
return CONTAINING_RECORD(Entry, CM_KEY_CONTROL_BLOCK, KeyHash);
}
/* Keep looping */
Entry = Entry->NextHash;
}
/* No entry found, add this one and return NULL since none existed */
KeyHash->NextHash = CmpCacheTable[i].Entry;
CmpCacheTable[i].Entry = KeyHash;
return NULL;
}
PCM_NAME_CONTROL_BLOCK
NTAPI
CmpGetNameControlBlock(IN PUNICODE_STRING NodeName)
{
PCM_NAME_CONTROL_BLOCK Ncb = NULL;
ULONG ConvKey = 0;
PWCHAR p, pp;
ULONG i;
BOOLEAN IsCompressed = TRUE, Found = FALSE;
PCM_NAME_HASH HashEntry;
ULONG NcbSize;
USHORT Length;
/* Loop the name */
p = NodeName->Buffer;
for (i = 0; i < NodeName->Length; i += sizeof(WCHAR))
{
/* Make sure it's not a slash */
if (*p != OBJ_NAME_PATH_SEPARATOR)
{
/* Add it to the hash */
ConvKey = 37 * ConvKey + RtlUpcaseUnicodeChar(*p);
}
/* Next character */
p++;
}
/* Set assumed lengh and loop to check */
Length = NodeName->Length / sizeof(WCHAR);
for (i = 0; i < (NodeName->Length / sizeof(WCHAR)); i++)
{
/* Check if this is a 16-bit character */
if (NodeName->Buffer[i] > (UCHAR)-1)
{
/* This is the actual size, and we know we're not compressed */
Length = NodeName->Length;
IsCompressed = FALSE;
break;
}
}
/* Lock the NCB entry */
CmpAcquireNcbLockExclusiveByKey(ConvKey);
/* Get the hash entry */
HashEntry = GET_HASH_ENTRY(CmpNameCacheTable, ConvKey)->Entry;
while (HashEntry)
{
/* Get the current NCB */
Ncb = CONTAINING_RECORD(HashEntry, CM_NAME_CONTROL_BLOCK, NameHash);
/* Check if the hash matches */
if ((ConvKey == HashEntry->ConvKey) && (Length == Ncb->NameLength))
{
/* Assume success */
Found = TRUE;
/* If the NCB is compressed, do a compressed name compare */
if (Ncb->Compressed)
{
/* Compare names */
if (CmpCompareCompressedName(NodeName, Ncb->Name, Length))
{
/* We failed */
Found = FALSE;
}
}
else
{
/* Do a manual compare */
p = NodeName->Buffer;
pp = Ncb->Name;
for (i = 0; i < Ncb->NameLength; i += sizeof(WCHAR))
{
/* Compare the character */
if (RtlUpcaseUnicodeChar(*p) != RtlUpcaseUnicodeChar(*pp))
{
/* Failed */
Found = FALSE;
break;
}
/* Next chars */
p++;
pp++;
}
}
/* Check if we found a name */
if (Found)
{
/* Reference it */
ASSERT(Ncb->RefCount != 0xFFFF);
Ncb->RefCount++;
break;
}
}
/* Go to the next hash */
HashEntry = HashEntry->NextHash;
}
/* Check if we didn't find it */
if (!Found)
{
/* Allocate one */
NcbSize = FIELD_OFFSET(CM_NAME_CONTROL_BLOCK, Name) + Length;
Ncb = CmpAllocate(NcbSize, TRUE, TAG_CM);
if (!Ncb)
{
/* Release the lock and fail */
CmpReleaseNcbLockByKey(ConvKey);
return NULL;
}
/* Clear it out */
RtlZeroMemory(Ncb, NcbSize);
/* Check if the name was compressed */
if (IsCompressed)
{
/* Copy the compressed name */
for (i = 0; i < NodeName->Length / sizeof(WCHAR); i++)
{
/* Copy Unicode to ANSI */
((PCHAR)Ncb->Name)[i] = (CHAR)RtlUpcaseUnicodeChar(NodeName->Buffer[i]);
}
}
else
{
/* Copy the name directly */
for (i = 0; i < NodeName->Length / sizeof(WCHAR); i++)
{
/* Copy each unicode character */
Ncb->Name[i] = RtlUpcaseUnicodeChar(NodeName->Buffer[i]);
}
}
/* Setup the rest of the NCB */
Ncb->Compressed = IsCompressed;
Ncb->ConvKey = ConvKey;
Ncb->RefCount++;
Ncb->NameLength = Length;
/* Insert the name in the hash table */
HashEntry = &Ncb->NameHash;
HashEntry->NextHash = GET_HASH_ENTRY(CmpNameCacheTable, ConvKey)->Entry;
GET_HASH_ENTRY(CmpNameCacheTable, ConvKey)->Entry = HashEntry;
}
/* Release NCB lock */
CmpReleaseNcbLockByKey(ConvKey);
/* Return the NCB found */
return Ncb;
}
VOID
NTAPI
CmpRemoveKeyControlBlock(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
/* Make sure we have the exclusive lock */
CMP_ASSERT_KCB_LOCK(Kcb);
/* Remove the key hash */
CmpRemoveKeyHash(&Kcb->KeyHash);
}
VOID
NTAPI
CmpDereferenceNameControlBlockWithLock(IN PCM_NAME_CONTROL_BLOCK Ncb)
{
PCM_NAME_HASH Current, *Next;
ULONG ConvKey = Ncb->ConvKey;
/* Lock the NCB */
CmpAcquireNcbLockExclusiveByKey(ConvKey);
/* Decrease the reference count */
ASSERT(Ncb->RefCount >= 1);
if (!(--Ncb->RefCount))
{
/* Find the NCB in the table */
Next = &GET_HASH_ENTRY(CmpNameCacheTable, Ncb->ConvKey)->Entry;
while (TRUE)
{
/* Check the current entry */
Current = *Next;
ASSERT(Current != NULL);
if (Current == &Ncb->NameHash)
{
/* Unlink it */
*Next = Current->NextHash;
break;
}
/* Get to the next one */
Next = &Current->NextHash;
}
/* Found it, now free it */
CmpFree(Ncb, 0);
}
/* Release the lock */
CmpReleaseNcbLockByKey(ConvKey);
}
BOOLEAN
NTAPI
CmpReferenceKeyControlBlock(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
CMTRACE(CM_REFERENCE_DEBUG,
"%s - Referencing KCB: %p\n", __FUNCTION__, Kcb);
/* Check if this is the KCB's first reference */
if (Kcb->RefCount == 0)
{
/* Check if the KCB is locked in shared mode */
if (!CmpIsKcbLockedExclusive(Kcb))
{
/* Convert it to exclusive */
if (!CmpTryToConvertKcbSharedToExclusive(Kcb))
{
/* Set the delayed close index so that we can be ignored */
Kcb->DelayedCloseIndex = 1;
/* Increase the reference count while we release the lock */
InterlockedIncrement((PLONG)&Kcb->RefCount);
/* Go from shared to exclusive */
CmpConvertKcbSharedToExclusive(Kcb);
/* Decrement the reference count; the lock is now held again */
InterlockedDecrement((PLONG)&Kcb->RefCount);
/* Check if we still control the index */
if (Kcb->DelayedCloseIndex == 1)
{
/* Reset it */
Kcb->DelayedCloseIndex = 0;
}
else
{
/* Sanity check */
ASSERT((Kcb->DelayedCloseIndex == CmpDelayedCloseSize) ||
(Kcb->DelayedCloseIndex == 0));
}
}
}
}
/* Increase the reference count */
if ((InterlockedIncrement((PLONG)&Kcb->RefCount) & 0xFFFF) == 0)
{
/* We've overflown to 64K references, bail out */
InterlockedDecrement((PLONG)&Kcb->RefCount);
return FALSE;
}
/* Check if this was the last close index */
if (!Kcb->DelayedCloseIndex)
{
/* Check if the KCB is locked in shared mode */
if (!CmpIsKcbLockedExclusive(Kcb))
{
/* Convert it to exclusive */
if (!CmpTryToConvertKcbSharedToExclusive(Kcb))
{
/* Go from shared to exclusive */
CmpConvertKcbSharedToExclusive(Kcb);
}
}
/* If we're still the last entry, remove us */
if (!Kcb->DelayedCloseIndex) CmpRemoveFromDelayedClose(Kcb);
}
/* Return success */
return TRUE;
}
VOID
NTAPI
CmpCleanUpKcbValueCache(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
PULONG_PTR CachedList;
ULONG i;
/* Make sure we have the exclusive lock */
CMP_ASSERT_KCB_LOCK(Kcb);
/* Check if the value list is cached */
if (CMP_IS_CELL_CACHED(Kcb->ValueCache.ValueList))
{
/* Get the cache list */
CachedList = (PULONG_PTR)CMP_GET_CACHED_DATA(Kcb->ValueCache.ValueList);
for (i = 0; i < Kcb->ValueCache.Count; i++)
{
/* Check if this cell is cached */
if (CMP_IS_CELL_CACHED(CachedList[i]))
{
/* Free it */
CmpFree((PVOID)CMP_GET_CACHED_CELL(CachedList[i]), 0);
}
}
/* Now free the list */
CmpFree((PVOID)CMP_GET_CACHED_CELL(Kcb->ValueCache.ValueList), 0);
Kcb->ValueCache.ValueList = HCELL_NIL;
}
else if (Kcb->ExtFlags & CM_KCB_SYM_LINK_FOUND)
{
/* This is a sym link, check if there's only one reference left */
if ((Kcb->ValueCache.RealKcb->RefCount == 1) &&
!(Kcb->ValueCache.RealKcb->Delete))
{
/* Disable delay close for the KCB */
Kcb->ValueCache.RealKcb->ExtFlags |= CM_KCB_NO_DELAY_CLOSE;
}
/* Dereference the KCB */
CmpDelayDerefKeyControlBlock(Kcb->ValueCache.RealKcb);
Kcb->ExtFlags &= ~CM_KCB_SYM_LINK_FOUND;
}
}
VOID
NTAPI
CmpCleanUpKcbCacheWithLock(IN PCM_KEY_CONTROL_BLOCK Kcb,
IN BOOLEAN LockHeldExclusively)
{
PCM_KEY_CONTROL_BLOCK Parent;
PAGED_CODE();
/* Sanity checks */
CMP_ASSERT_KCB_LOCK(Kcb);
ASSERT(Kcb->RefCount == 0);
/* Cleanup the value cache */
CmpCleanUpKcbValueCache(Kcb);
/* Dereference the NCB */
CmpDereferenceNameControlBlockWithLock(Kcb->NameBlock);
/* Check if we have an index hint block and free it */
if (Kcb->ExtFlags & CM_KCB_SUBKEY_HINT) CmpFree(Kcb->IndexHint, 0);
/* Check if we were already deleted */
Parent = Kcb->ParentKcb;
if (!Kcb->Delete) CmpRemoveKeyControlBlock(Kcb);
/* Set invalid KCB signature */
Kcb->Signature = CM_KCB_INVALID_SIGNATURE;
/* Free the KCB as well */
CmpFreeKeyControlBlock(Kcb);
/* Check if we have a parent */
if (Parent)
{
/* Dereference the parent */
LockHeldExclusively ?
CmpDereferenceKeyControlBlockWithLock(Parent,LockHeldExclusively) :
CmpDelayDerefKeyControlBlock(Parent);
}
}
VOID
NTAPI
CmpCleanUpSubKeyInfo(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
PCM_KEY_NODE KeyNode;
/* Make sure we have the exclusive lock */
CMP_ASSERT_KCB_LOCK(Kcb);
/* Check if there's any cached subkey */
if (Kcb->ExtFlags & (CM_KCB_NO_SUBKEY | CM_KCB_SUBKEY_ONE | CM_KCB_SUBKEY_HINT))
{
/* Check if there's a hint */
if (Kcb->ExtFlags & (CM_KCB_SUBKEY_HINT))
{
/* Kill it */
CmpFree(Kcb->IndexHint, 0);
}
/* Remove subkey flags */
Kcb->ExtFlags &= ~(CM_KCB_NO_SUBKEY | CM_KCB_SUBKEY_ONE | CM_KCB_SUBKEY_HINT);
}
/* Check if there's no linked cell */
if (Kcb->KeyCell == HCELL_NIL)
{
/* Make sure it's a delete */
ASSERT(Kcb->Delete);
KeyNode = NULL;
}
else
{
/* Get the key node */
KeyNode = (PCM_KEY_NODE)HvGetCell(Kcb->KeyHive, Kcb->KeyCell);
}
/* Check if we got the node */
if (!KeyNode)
{
/* We didn't, mark the cached data invalid */
Kcb->ExtFlags |= CM_KCB_INVALID_CACHED_INFO;
}
else
{
/* We have a keynode, update subkey counts */
Kcb->ExtFlags &= ~CM_KCB_INVALID_CACHED_INFO;
Kcb->SubKeyCount = KeyNode->SubKeyCounts[Stable] +
KeyNode->SubKeyCounts[Volatile];
/* Release the cell */
HvReleaseCell(Kcb->KeyHive, Kcb->KeyCell);
}
}
VOID
NTAPI
CmpDereferenceKeyControlBlock(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
LONG OldRefCount, NewRefCount;
ULONG ConvKey;
CMTRACE(CM_REFERENCE_DEBUG,
"%s - Dereferencing KCB: %p\n", __FUNCTION__, Kcb);
/* Get the ref count and update it */
OldRefCount = *(PLONG)&Kcb->RefCount;
NewRefCount = OldRefCount - 1;
/* Check if we still have references */
if ((NewRefCount & 0xFFFF) > 0)
{
/* Do the dereference */
if (InterlockedCompareExchange((PLONG)&Kcb->RefCount,
NewRefCount,
OldRefCount) == OldRefCount)
{
/* We'de done */
return;
}
}
/* Save the key */
ConvKey = Kcb->ConvKey;
/* Do the dereference inside the lock */
CmpAcquireKcbLockExclusive(Kcb);
CmpDereferenceKeyControlBlockWithLock(Kcb, FALSE);
CmpReleaseKcbLockByKey(ConvKey);
}
VOID
NTAPI
CmpDereferenceKeyControlBlockWithLock(IN PCM_KEY_CONTROL_BLOCK Kcb,
IN BOOLEAN LockHeldExclusively)
{
CMTRACE(CM_REFERENCE_DEBUG,
"%s - Dereferencing KCB: %p\n", __FUNCTION__, Kcb);
/* Sanity check */
ASSERT_KCB_VALID(Kcb);
/* Check if this is the last reference */
if ((InterlockedDecrement((PLONG)&Kcb->RefCount) & 0xFFFF) == 0)
{
/* Make sure we have the exclusive lock */
CMP_ASSERT_KCB_LOCK(Kcb);
/* Check if we should do a direct delete */
if (((CmpHoldLazyFlush) &&
!(Kcb->ExtFlags & CM_KCB_SYM_LINK_FOUND) &&
!(Kcb->Flags & KEY_SYM_LINK)) ||
(Kcb->ExtFlags & CM_KCB_NO_DELAY_CLOSE) ||
(Kcb->Delete))
{
/* Clean up the KCB*/
CmpCleanUpKcbCacheWithLock(Kcb, LockHeldExclusively);
}
else
{
/* Otherwise, use delayed close */
CmpAddToDelayedClose(Kcb, LockHeldExclusively);
}
}
}
VOID
NTAPI
InitializeKCBKeyBodyList(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
/* Initialize the list */
InitializeListHead(&Kcb->KeyBodyListHead);
/* Clear the bodies */
Kcb->KeyBodyArray[0] =
Kcb->KeyBodyArray[1] =
Kcb->KeyBodyArray[2] =
Kcb->KeyBodyArray[3] = NULL;
}
PCM_KEY_CONTROL_BLOCK
NTAPI
CmpCreateKeyControlBlock(IN PHHIVE Hive,
IN HCELL_INDEX Index,
IN PCM_KEY_NODE Node,
IN PCM_KEY_CONTROL_BLOCK Parent,
IN ULONG Flags,
IN PUNICODE_STRING KeyName)
{
PCM_KEY_CONTROL_BLOCK Kcb, FoundKcb = NULL;
UNICODE_STRING NodeName;
ULONG ConvKey = 0, i;
BOOLEAN IsFake, HashLock;
PWCHAR p;
/* Make sure we own this hive in case it's being unloaded */
if ((Hive->HiveFlags & HIVE_IS_UNLOADING) &&
(((PCMHIVE)Hive)->CreatorOwner != KeGetCurrentThread()))
{
/* Fail */
return NULL;
}
/* Check if this is a fake KCB */
IsFake = Flags & CMP_CREATE_FAKE_KCB ? TRUE : FALSE;
/* If we have a parent, use its ConvKey */
if (Parent) ConvKey = Parent->ConvKey;
/* Make a copy of the name */
NodeName = *KeyName;
/* Remove leading slash */
while ((NodeName.Length) && (*NodeName.Buffer == OBJ_NAME_PATH_SEPARATOR))
{
/* Move the buffer by one */
NodeName.Buffer++;
NodeName.Length -= sizeof(WCHAR);
}
/* Make sure we didn't get just a slash or something */
ASSERT(NodeName.Length > 0);
/* Now setup the hash */
p = NodeName.Buffer;
for (i = 0; i < NodeName.Length; i += sizeof(WCHAR))
{
/* Make sure it's a valid character */
if (*p != OBJ_NAME_PATH_SEPARATOR)
{
/* Add this key to the hash */
ConvKey = 37 * ConvKey + RtlUpcaseUnicodeChar(*p);
}
/* Move on */
p++;
}
/* Allocate the KCB */
Kcb = CmpAllocateKeyControlBlock();
if (!Kcb) return NULL;
/* Initailize the key list */
InitializeKCBKeyBodyList(Kcb);
/* Set it up */
Kcb->Signature = CM_KCB_SIGNATURE;
Kcb->Delete = FALSE;
Kcb->RefCount = 1;
Kcb->KeyHive = Hive;
Kcb->KeyCell = Index;
Kcb->ConvKey = ConvKey;
Kcb->DelayedCloseIndex = CmpDelayedCloseSize;
Kcb->InDelayClose = 0;
ASSERT_KCB_VALID(Kcb);
/* Check if we have two hash entires */
HashLock = Flags & CMP_LOCK_HASHES_FOR_KCB ? TRUE : FALSE;
if (!HashLock)
{
/* It's not locked, do we have a parent? */
if (Parent)
{
/* Lock the parent KCB and ourselves */
CmpAcquireTwoKcbLocksExclusiveByKey(ConvKey, Parent->ConvKey);
}
else
{
/* Lock only ourselves */
CmpAcquireKcbLockExclusive(Kcb);
}
}
/* Check if we already have a KCB */
FoundKcb = CmpInsertKeyHash(&Kcb->KeyHash, IsFake);
if (FoundKcb)
{
/* Sanity check */
ASSERT(!FoundKcb->Delete);
Kcb->Signature = CM_KCB_INVALID_SIGNATURE;
/* Free the one we allocated and reference this one */
CmpFreeKeyControlBlock(Kcb);
ASSERT_KCB_VALID(FoundKcb);
Kcb = FoundKcb;
if (!CmpReferenceKeyControlBlock(Kcb))
{
/* We got too many handles */
ASSERT(Kcb->RefCount + 1 != 0);
Kcb = NULL;
}
else
{
/* Check if we're not creating a fake one, but it used to be fake */
if ((Kcb->ExtFlags & CM_KCB_KEY_NON_EXIST) && !(IsFake))
{
/* Set the hive and cell */
Kcb->KeyHive = Hive;
Kcb->KeyCell = Index;
/* This means that our current information is invalid */
Kcb->ExtFlags = CM_KCB_INVALID_CACHED_INFO;
}
/* Check if we didn't have any valid data */
if (!(Kcb->ExtFlags & (CM_KCB_NO_SUBKEY |
CM_KCB_SUBKEY_ONE |
CM_KCB_SUBKEY_HINT)))
{
/* Calculate the index hint */
Kcb->SubKeyCount = Node->SubKeyCounts[Stable] +
Node->SubKeyCounts[Volatile];
/* Cached information is now valid */
Kcb->ExtFlags &= ~CM_KCB_INVALID_CACHED_INFO;
}
/* Setup the other data */
Kcb->KcbLastWriteTime = Node->LastWriteTime;
Kcb->KcbMaxNameLen = (USHORT)Node->MaxNameLen;
Kcb->KcbMaxValueNameLen = (USHORT)Node->MaxValueNameLen;
Kcb->KcbMaxValueDataLen = Node->MaxValueDataLen;
}
}
else
{
/* No KCB, do we have a parent? */
if (Parent)
{
/* Reference the parent */
if (((Parent->TotalLevels + 1) < 512) &&
(CmpReferenceKeyControlBlock(Parent)))
{
/* Link it */
Kcb->ParentKcb = Parent;
Kcb->TotalLevels = Parent->TotalLevels + 1;
}
else
{
/* Remove the KCB and free it */
CmpRemoveKeyControlBlock(Kcb);
Kcb->Signature = CM_KCB_INVALID_SIGNATURE;
CmpFreeKeyControlBlock(Kcb);
Kcb = NULL;
}
}
else
{
/* No parent, this is the root node */
Kcb->ParentKcb = NULL;
Kcb->TotalLevels = 1;
}
/* Check if we have a KCB */
if (Kcb)
{
/* Get the NCB */
Kcb->NameBlock = CmpGetNameControlBlock(&NodeName);
if (Kcb->NameBlock)
{
/* Fill it out */
Kcb->ValueCache.Count = Node->ValueList.Count;
Kcb->ValueCache.ValueList = Node->ValueList.List;
Kcb->Flags = Node->Flags;
Kcb->ExtFlags = 0;
Kcb->DelayedCloseIndex = CmpDelayedCloseSize;
/* Remember if this is a fake key */
if (IsFake) Kcb->ExtFlags |= CM_KCB_KEY_NON_EXIST;
/* Setup the other data */
Kcb->SubKeyCount = Node->SubKeyCounts[Stable] +
Node->SubKeyCounts[Volatile];
Kcb->KcbLastWriteTime = Node->LastWriteTime;
Kcb->KcbMaxNameLen = (USHORT)Node->MaxNameLen;
Kcb->KcbMaxValueNameLen = (USHORT)Node->MaxValueNameLen;
Kcb->KcbMaxValueDataLen = (USHORT)Node->MaxValueDataLen;
}
else
{
/* Dereference the KCB */
CmpDereferenceKeyControlBlockWithLock(Parent, FALSE);
/* Remove the KCB and free it */
CmpRemoveKeyControlBlock(Kcb);
Kcb->Signature = CM_KCB_INVALID_SIGNATURE;
CmpFreeKeyControlBlock(Kcb);
Kcb = NULL;
}
}
}
/* Check if this is a KCB inside a frozen hive */
if ((Kcb) && (((PCMHIVE)Hive)->Frozen) && (!(Kcb->Flags & KEY_SYM_LINK)))
{
/* Don't add these to the delay close */
Kcb->ExtFlags |= CM_KCB_NO_DELAY_CLOSE;
}
/* Sanity check */
ASSERT((!Kcb) || (Kcb->Delete == FALSE));
/* Check if we had locked the hashes */
if (!HashLock)
{
/* We locked them manually, do we have a parent? */
if (Parent)
{
/* Unlock the parent KCB and ourselves */
CmpReleaseTwoKcbLockByKey(ConvKey, Parent->ConvKey);
}
else
{
/* Unlock only ourselves */
CmpReleaseKcbLockByKey(ConvKey);
}
}
/* Return the KCB */
return Kcb;
}
PUNICODE_STRING
NTAPI
CmpConstructName(IN PCM_KEY_CONTROL_BLOCK Kcb)
{
PUNICODE_STRING KeyName;
ULONG i;
USHORT NameLength;
PCM_KEY_CONTROL_BLOCK MyKcb;
PCM_KEY_NODE KeyNode;
BOOLEAN DeletedKey = FALSE;
PWCHAR TargetBuffer, CurrentNameW;
PUCHAR CurrentName;
/* Calculate how much size our key name is going to occupy */
NameLength = 0;
MyKcb = Kcb;
while (MyKcb)
{
/* Add length of the name */
if (!MyKcb->NameBlock->Compressed)
{
NameLength += MyKcb->NameBlock->NameLength;
}
else
{
NameLength += CmpCompressedNameSize(MyKcb->NameBlock->Name,
MyKcb->NameBlock->NameLength);
}
/* Sum up the separator too */
NameLength += sizeof(WCHAR);
/* Go to the parent KCB */
MyKcb = MyKcb->ParentKcb;
}
/* Allocate the unicode string now */
KeyName = CmpAllocate(NameLength + sizeof(UNICODE_STRING),
TRUE,
TAG_CM);
if (!KeyName) return NULL;
/* Set it up */
KeyName->Buffer = (PWSTR)(KeyName + 1);
KeyName->Length = NameLength;
KeyName->MaximumLength = NameLength;
/* Loop the keys again, now adding names */
NameLength = 0;
MyKcb = Kcb;
while (MyKcb)
{
/* Sanity checks for deleted and fake keys */
if ((!MyKcb->KeyCell && !MyKcb->Delete) ||
!MyKcb->KeyHive ||
MyKcb->ExtFlags & CM_KCB_KEY_NON_EXIST)
{
/* Failure */
CmpFree(KeyName, 0);
return NULL;
}
/* Try to get the name from the keynode,
if the key is not deleted */
if (!DeletedKey && !MyKcb->Delete)
{
KeyNode = HvGetCell(MyKcb->KeyHive, MyKcb->KeyCell);
if (!KeyNode)
{
/* Failure */
CmpFree(KeyName, 0);
return NULL;
}
}
else
{
/* The key was deleted */
KeyNode = NULL;
DeletedKey = TRUE;
}
/* Get the pointer to the beginning of the current key name */
NameLength += (MyKcb->NameBlock->NameLength + 1) * sizeof(WCHAR);
TargetBuffer = &KeyName->Buffer[(KeyName->Length - NameLength) / sizeof(WCHAR)];
/* Add a separator */
TargetBuffer[0] = OBJ_NAME_PATH_SEPARATOR;
/* Add the name, but remember to go from the end to the beginning */
if (!MyKcb->NameBlock->Compressed)
{
/* Get the pointer to the name (from the keynode, if possible) */
if ((MyKcb->Flags & (KEY_HIVE_ENTRY | KEY_HIVE_EXIT)) ||
!KeyNode)
{
CurrentNameW = MyKcb->NameBlock->Name;
}
else
{
CurrentNameW = KeyNode->Name;
}
/* Copy the name */
for (i=0; i < MyKcb->NameBlock->NameLength; i++)
{
TargetBuffer[i+1] = *CurrentNameW;
CurrentNameW++;
}
}
else
{
/* Get the pointer to the name (from the keynode, if possible) */
if ((MyKcb->Flags & (KEY_HIVE_ENTRY | KEY_HIVE_EXIT)) ||
!KeyNode)
{
CurrentName = (PUCHAR)MyKcb->NameBlock->Name;
}
else
{
CurrentName = (PUCHAR)KeyNode->Name;
}
/* Copy the name */
for (i=0; i < MyKcb->NameBlock->NameLength; i++)
{
TargetBuffer[i+1] = (WCHAR)*CurrentName;
CurrentName++;
}
}
/* Release the cell, if needed */
if (KeyNode) HvReleaseCell(MyKcb->KeyHive, MyKcb->KeyCell);
/* Go to the parent KCB */
MyKcb = MyKcb->ParentKcb;
}
/* Return resulting buffer (both UNICODE_STRING and
its buffer following it) */
return KeyName;
}
VOID
NTAPI
EnlistKeyBodyWithKCB(IN PCM_KEY_BODY KeyBody,
IN ULONG Flags)
{
ULONG i;
/* Sanity check */
ASSERT(KeyBody->KeyControlBlock != NULL);
/* Initialize the list entry */
InitializeListHead(&KeyBody->KeyBodyList);
/* Check if we can use the parent KCB array */
for (i = 0; i < 4; i++)
{
/* Add it into the list */
if (!InterlockedCompareExchangePointer((PVOID*)&KeyBody->KeyControlBlock->
KeyBodyArray[i],
KeyBody,
NULL))
{
/* Added */
return;
}
}
/* Array full, check if we need to unlock the KCB */
if (Flags & CMP_ENLIST_KCB_LOCKED_SHARED)
{
/* It's shared, so release the KCB shared lock */
CmpReleaseKcbLock(KeyBody->KeyControlBlock);
ASSERT(!(Flags & CMP_ENLIST_KCB_LOCKED_EXCLUSIVE));
}
/* Check if we need to lock the KCB */
if (!(Flags & CMP_ENLIST_KCB_LOCKED_EXCLUSIVE))
{
/* Acquire the lock */
CmpAcquireKcbLockExclusive(KeyBody->KeyControlBlock);
}
/* Make sure we have the exclusive lock */
CMP_ASSERT_KCB_LOCK(KeyBody->KeyControlBlock);
/* Do the insert */
InsertTailList(&KeyBody->KeyControlBlock->KeyBodyListHead,
&KeyBody->KeyBodyList);
/* Check if we did a manual lock */
if (!(Flags & (CMP_ENLIST_KCB_LOCKED_SHARED |
CMP_ENLIST_KCB_LOCKED_EXCLUSIVE)))
{
/* Release the lock */
CmpReleaseKcbLock(KeyBody->KeyControlBlock);
}
}
VOID
NTAPI
DelistKeyBodyFromKCB(IN PCM_KEY_BODY KeyBody,
IN BOOLEAN LockHeld)
{
ULONG i;
/* Sanity check */
ASSERT(KeyBody->KeyControlBlock != NULL);
/* Check if we can use the parent KCB array */
for (i = 0; i < 4; i++)
{
/* Add it into the list */
if (InterlockedCompareExchangePointer((VOID*)&KeyBody->KeyControlBlock->
KeyBodyArray[i],
NULL,
KeyBody) == KeyBody)
{
/* Removed */
return;
}
}
/* Sanity checks */
ASSERT(IsListEmpty(&KeyBody->KeyControlBlock->KeyBodyListHead) == FALSE);
ASSERT(IsListEmpty(&KeyBody->KeyBodyList) == FALSE);
/* Lock the KCB */
if (!LockHeld) CmpAcquireKcbLockExclusive(KeyBody->KeyControlBlock);
CMP_ASSERT_KCB_LOCK(KeyBody->KeyControlBlock);
/* Remove the entry */
RemoveEntryList(&KeyBody->KeyBodyList);
/* Unlock it it if we did a manual lock */
if (!LockHeld) CmpReleaseKcbLock(KeyBody->KeyControlBlock);
}
VOID
NTAPI
CmpFlushNotifiesOnKeyBodyList(IN PCM_KEY_CONTROL_BLOCK Kcb,
IN BOOLEAN LockHeld)
{
PLIST_ENTRY NextEntry, ListHead;
PCM_KEY_BODY KeyBody;
/* Sanity check */
LockHeld ? CMP_ASSERT_EXCLUSIVE_REGISTRY_LOCK() : CmpIsKcbLockedExclusive(Kcb);
while (TRUE)
{
/* Is the list empty? */
ListHead = &Kcb->KeyBodyListHead;
if (!IsListEmpty(ListHead))
{
/* Loop the list */
NextEntry = ListHead->Flink;
while (NextEntry != ListHead)
{
/* Get the key body */
KeyBody = CONTAINING_RECORD(NextEntry, CM_KEY_BODY, KeyBodyList);
ASSERT(KeyBody->Type == CM_KEY_BODY_TYPE);
/* Check for notifications */
if (KeyBody->NotifyBlock)
{
/* Is the lock held? */
if (LockHeld)
{
/* Flush it */
CmpFlushNotify(KeyBody, LockHeld);
ASSERT(KeyBody->NotifyBlock == NULL);
continue;
}
/* Lock isn't held, so we need to take a reference */
if (ObReferenceObjectSafe(KeyBody))
{
/* Now we can flush */
CmpFlushNotify(KeyBody, LockHeld);
ASSERT(KeyBody->NotifyBlock == NULL);
/* Release the reference we took */
ObDereferenceObjectDeferDelete(KeyBody);
continue;
}
}
/* Try the next entry */
NextEntry = NextEntry->Flink;
}
}
/* List has been parsed, exit */
break;
}
}