The ExInterlockedAddUlong routine adds an unsigned long value to a given unsigned integer as an atomic operation.
ULONG ExInterlockedAddUlong( _Inout_ PULONG Addend, _In_ ULONG Increment, _Inout_ PKSPIN_LOCK Lock );
Addend [in, out]
A pointer to an unsigned long integer whose value is to be adjusted by the Increment value.
Specifies an unsigned long integer to be added.
Lock [in, out]
A pointer to a spin lock to be used to synchronize access to the Addend.
ExInterlockedAddUlong returns the original (unsummed) value of the Addend.
Consider using InterlockedExchangeAdd instead of this routine. InterlockedExchangeAdd can be more efficient because it does not use a spin lock and it is inlined by the compiler.
Support routines that do interlocked operations are assumed to be incapable of causing a page fault. That is, neither their code nor any of the data they touch can cause a page fault without bringing down the system. They use spin locks to achieve atomicity on symmetric multiprocessor machines. The caller must provide resident storage for the Lock, which must be initialized with KeInitializeSpinLock before the initial call to an ExInterlockedXxx.
The Lock passed to ExInterlockedAddULong is used to assure that the add operation on Addend is atomic with respect to any other operations on the same value which synchronize with this same spin lock.
ExInterlockedAddUlong masks interrupts. Consequently, it can be used for synchronization between an ISR and other driver code, provided that the same Lock is never reused in a call to a routine that runs at IRQL = DISPATCH_LEVEL.
Note that calls to InterlockedXxx are guaranteed to be atomic with respect to other InterlockedXxx calls without caller-supplied spin locks.
Callers of ExInterlockedAddUlong run at any IRQL. The storage for the Addend parameter must be resident at all IRQLs.
Available starting with Windows 2000.
|Wdm.h (include Wdm.h, Ntddk.h, or Ntifs.h)|
Any level (see Remarks section)