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reactos/ntoskrnl/ex/fastinterlck.c
Timo Kreuzer 9ea495ba33 Create a branch for header work. 
svn path=/branches/header-work/; revision=45691
2010-02-26 22:57:55 +00:00

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/*
* PROJECT: ReactOS Kernel
* LICENSE: BSD - See COPYING.ARM in the top level directory
* FILE: ntoskrnl/ex/fastinterlck.c
* PURPOSE: Portable Ex*Interlocked and REGISTER routines for non-x86
* PROGRAMMERS: ReactOS Portable Systems Group
*/
/* INCLUDES *******************************************************************/
#if defined(_ARM_) || defined(_PPC_) || defined(NTOS_USE_GENERICS)
#include <ntoskrnl.h>
#define NDEBUG
#include <debug.h>
#undef ExInterlockedPushEntrySList
#undef ExInterlockedPopEntrySList
#undef ExInterlockedAddULong
#undef ExInterlockedIncrementLong
#undef ExInterlockedDecrementLong
#undef ExInterlockedAddLargeStatistic
/* FUNCTIONS ******************************************************************/
PSLIST_ENTRY
NTAPI
InterlockedPushEntrySList(IN PSLIST_HEADER ListHead,
IN PSLIST_ENTRY ListEntry)
{
PSINGLE_LIST_ENTRY FirstEntry, NextEntry;
PSINGLE_LIST_ENTRY Entry = (PVOID)ListEntry, Head = (PVOID)ListHead;
FirstEntry = Head->Next;
do
{
Entry->Next = FirstEntry;
NextEntry = FirstEntry;
FirstEntry = (PVOID)_InterlockedCompareExchange((PLONG)Head,
(LONG)Entry,
(LONG)FirstEntry);
} while (FirstEntry != NextEntry);
return FirstEntry;
}
PSLIST_ENTRY
NTAPI
InterlockedPopEntrySList(IN PSLIST_HEADER ListHead)
{
PSINGLE_LIST_ENTRY FirstEntry, NextEntry, Head = (PVOID)ListHead;
FirstEntry = Head->Next;
do
{
if (!FirstEntry) return NULL;
NextEntry = FirstEntry;
FirstEntry = (PVOID)_InterlockedCompareExchange((PLONG)Head,
(LONG)FirstEntry->Next,
(LONG)FirstEntry);
} while (FirstEntry != NextEntry);
return FirstEntry;
}
PSINGLE_LIST_ENTRY
FASTCALL
ExInterlockedFlushSList(IN PSLIST_HEADER ListHead)
{
return (PVOID)_InterlockedExchange((PLONG)&ListHead->Next.Next, (LONG)NULL);
}
PSLIST_ENTRY
FASTCALL
ExInterlockedPushEntrySList(IN PSLIST_HEADER ListHead,
IN PSLIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
return InterlockedPushEntrySList(ListHead, ListEntry);
}
PSINGLE_LIST_ENTRY
NTAPI
ExInterlockedPopEntrySList(IN PSLIST_HEADER ListHead,
IN PKSPIN_LOCK Lock)
{
return InterlockedPopEntrySList(ListHead);
}
ULONG
FASTCALL
ExfInterlockedAddUlong(IN PULONG Addend,
IN ULONG Increment,
PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
KeAcquireSpinLock(Lock, &OldIrql);
*Addend += Increment;
KeReleaseSpinLock(Lock, OldIrql);
return *Addend;
}
LONGLONG
FASTCALL
ExfInterlockedCompareExchange64(IN OUT LONGLONG volatile *Destination,
IN PLONGLONG Exchange,
IN PLONGLONG Comparand)
{
LONGLONG Result;
Result = *Destination;
if (*Destination == *Comparand) *Destination = *Exchange;
return Result;
}
PLIST_ENTRY
FASTCALL
ExfInterlockedInsertHeadList(IN PLIST_ENTRY ListHead,
IN PLIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PLIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!IsListEmpty(ListHead)) OldHead = ListEntry->Flink;
InsertHeadList(ListHead, ListEntry);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PLIST_ENTRY
FASTCALL
ExfInterlockedInsertTailList(IN PLIST_ENTRY ListHead,
IN PLIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PLIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!IsListEmpty(ListHead)) OldHead = ListEntry->Blink;
InsertTailList(ListHead, ListEntry);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PSINGLE_LIST_ENTRY
FASTCALL
ExfInterlockedPopEntryList(IN PSINGLE_LIST_ENTRY ListHead,
IN PKSPIN_LOCK Lock)
{
UNIMPLEMENTED;
return NULL;
}
PSINGLE_LIST_ENTRY
FASTCALL
ExfInterlockedPushEntryList(IN PSINGLE_LIST_ENTRY ListHead,
IN PSINGLE_LIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
UNIMPLEMENTED;
return NULL;
}
PLIST_ENTRY
FASTCALL
ExfInterlockedRemoveHeadList(IN PLIST_ENTRY ListHead,
IN PKSPIN_LOCK Lock)
{
return ExInterlockedRemoveHeadList(ListHead, Lock);
}
LARGE_INTEGER
NTAPI
ExInterlockedAddLargeInteger(IN PLARGE_INTEGER Addend,
IN LARGE_INTEGER Increment,
IN PKSPIN_LOCK Lock)
{
LARGE_INTEGER Integer = {{0}};
UNIMPLEMENTED;
return Integer;
}
ULONG
NTAPI
ExInterlockedAddUlong(IN PULONG Addend,
IN ULONG Increment,
PKSPIN_LOCK Lock)
{
return (ULONG)_InterlockedExchangeAdd((PLONG)Addend, Increment);
}
INTERLOCKED_RESULT
NTAPI
ExInterlockedIncrementLong(IN PLONG Addend,
IN PKSPIN_LOCK Lock)
{
return _InterlockedIncrement(Addend);
}
INTERLOCKED_RESULT
NTAPI
ExInterlockedDecrementLong(IN PLONG Addend,
IN PKSPIN_LOCK Lock)
{
return _InterlockedDecrement(Addend);
}
ULONG
NTAPI
ExInterlockedExchangeUlong(IN PULONG Target,
IN ULONG Value,
IN PKSPIN_LOCK Lock)
{
return (ULONG)_InterlockedExchange((PLONG)Target, Value);
}
PLIST_ENTRY
NTAPI
ExInterlockedInsertHeadList(IN PLIST_ENTRY ListHead,
IN PLIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PLIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!IsListEmpty(ListHead)) OldHead = ListEntry->Flink;
InsertHeadList(ListHead, ListEntry);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PLIST_ENTRY
NTAPI
ExInterlockedInsertTailList(IN PLIST_ENTRY ListHead,
IN PLIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PLIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!IsListEmpty(ListHead)) OldHead = ListEntry->Blink;
InsertTailList(ListHead, ListEntry);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PSINGLE_LIST_ENTRY
NTAPI
ExInterlockedPopEntryList(IN PSINGLE_LIST_ENTRY ListHead,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PSINGLE_LIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!ListHead->Next) OldHead = PopEntryList(ListHead);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PSINGLE_LIST_ENTRY
NTAPI
ExInterlockedPushEntryList(IN PSINGLE_LIST_ENTRY ListHead,
IN PSINGLE_LIST_ENTRY ListEntry,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PSINGLE_LIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!ListHead->Next) OldHead = PushEntryList(ListHead, ListEntry);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
PLIST_ENTRY
NTAPI
ExInterlockedRemoveHeadList(IN PLIST_ENTRY ListHead,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
PLIST_ENTRY OldHead = NULL;
KeAcquireSpinLock(Lock, &OldIrql);
if (!IsListEmpty(ListHead)) OldHead = RemoveHeadList(ListHead);
KeReleaseSpinLock(Lock, OldIrql);
return OldHead;
}
VOID
FASTCALL
ExInterlockedAddLargeStatistic(IN PLONGLONG Addend,
IN ULONG Increment)
{
UNIMPLEMENTED;
}
LONGLONG
FASTCALL
ExInterlockedCompareExchange64(IN OUT LONGLONG volatile *Destination,
IN PLONGLONG Exchange,
IN PLONGLONG Comparand,
IN PKSPIN_LOCK Lock)
{
KIRQL OldIrql;
LONGLONG Result;
KeAcquireSpinLock(Lock, &OldIrql);
Result = *Destination;
if (*Destination == *Comparand) *Destination = *Exchange;
KeReleaseSpinLock(Lock, OldIrql);
return Result;
}
VOID
NTAPI
READ_REGISTER_BUFFER_UCHAR(IN PUCHAR Register,
IN PUCHAR Buffer,
IN ULONG Count)
{
PUCHAR registerBuffer = Register;
PUCHAR readBuffer = Buffer;
ULONG readCount;
for (readCount = Count; readCount--; readBuffer++, registerBuffer++)
{
*readBuffer = *(volatile UCHAR * const)registerBuffer;
}
}
VOID
NTAPI
READ_REGISTER_BUFFER_ULONG(IN PULONG Register,
IN PULONG Buffer,
IN ULONG Count)
{
PULONG registerBuffer = Register;
PULONG readBuffer = Buffer;
ULONG readCount;
for (readCount = Count; readCount--; readBuffer++, registerBuffer++)
{
*readBuffer = *(volatile ULONG * const)registerBuffer;
}
}
VOID
NTAPI
READ_REGISTER_BUFFER_USHORT(IN PUSHORT Register,
IN PUSHORT Buffer,
IN ULONG Count)
{
PUSHORT registerBuffer = Register;
PUSHORT readBuffer = Buffer;
ULONG readCount;
for (readCount = Count; readCount--; readBuffer++, registerBuffer++)
{
*readBuffer = *(volatile USHORT * const)registerBuffer;
}
}
UCHAR
NTAPI
READ_REGISTER_UCHAR(IN PUCHAR Register)
{
return *(volatile UCHAR * const)Register;
}
ULONG
NTAPI
READ_REGISTER_ULONG(IN PULONG Register)
{
return *(volatile ULONG * const)Register;
}
USHORT
NTAPI
READ_REGISTER_USHORT(IN PUSHORT Register)
{
return *(volatile USHORT * const)Register;
}
VOID
NTAPI
WRITE_REGISTER_BUFFER_UCHAR(IN PUCHAR Register,
IN PUCHAR Buffer,
IN ULONG Count)
{
PUCHAR registerBuffer = Register;
PUCHAR writeBuffer = Buffer;
ULONG writeCount;
for (writeCount = Count; writeCount--; writeBuffer++, registerBuffer++)
{
*(volatile UCHAR * const)registerBuffer = *writeBuffer;
}
KeFlushWriteBuffer();
}
VOID
NTAPI
WRITE_REGISTER_BUFFER_ULONG(IN PULONG Register,
IN PULONG Buffer,
IN ULONG Count)
{
PULONG registerBuffer = Register;
PULONG writeBuffer = Buffer;
ULONG writeCount;
for (writeCount = Count; writeCount--; writeBuffer++, registerBuffer++)
{
*(volatile ULONG * const)registerBuffer = *writeBuffer;
}
KeFlushWriteBuffer();
}
VOID
NTAPI
WRITE_REGISTER_BUFFER_USHORT(IN PUSHORT Register,
IN PUSHORT Buffer,
IN ULONG Count)
{
PUSHORT registerBuffer = Register;
PUSHORT writeBuffer = Buffer;
ULONG writeCount;
for (writeCount = Count; writeCount--; writeBuffer++, registerBuffer++)
{
*(volatile USHORT * const)registerBuffer = *writeBuffer;
}
KeFlushWriteBuffer();
}
VOID
NTAPI
WRITE_REGISTER_UCHAR(IN PUCHAR Register,
IN UCHAR Value)
{
*(volatile UCHAR * const)Register = Value;
KeFlushWriteBuffer();
}
VOID
NTAPI
WRITE_REGISTER_ULONG(IN PULONG Register,
IN ULONG Value)
{
*(volatile ULONG * const)Register = Value;
KeFlushWriteBuffer();
}
VOID
NTAPI
WRITE_REGISTER_USHORT(IN PUSHORT Register,
IN USHORT Value)
{
*(volatile USHORT * const)Register = Value;
KeFlushWriteBuffer();
}
#endif
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