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429 lines
12 KiB
C
429 lines
12 KiB
C
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/** @file
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Implementation of synchronization functions.
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Copyright (c) 2006 - 2018, Intel Corporation. All rights reserved.<BR>
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#include "BaseSynchronizationLibInternals.h"
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/**
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Microsoft Visual Studio 7.1 Function Prototypes for read write barrier Intrinsics.
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**/
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void _ReadWriteBarrier (void);
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#pragma intrinsic(_ReadWriteBarrier)
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#define SPIN_LOCK_RELEASED ((UINTN) 1)
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#define SPIN_LOCK_ACQUIRED ((UINTN) 2)
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/**
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Retrieves the architecture specific spin lock alignment requirements for
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optimal spin lock performance.
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This function retrieves the spin lock alignment requirements for optimal
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performance on a given CPU architecture. The spin lock alignment is byte alignment.
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It must be a power of two and is returned by this function. If there are no alignment
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requirements, then 1 must be returned. The spin lock synchronization
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functions must function correctly if the spin lock size and alignment values
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returned by this function are not used at all. These values are hints to the
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consumers of the spin lock synchronization functions to obtain optimal spin
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lock performance.
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@return The architecture specific spin lock alignment.
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**/
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UINTN
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EFIAPI
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GetSpinLockProperties (
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VOID
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)
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{
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return InternalGetSpinLockProperties ();
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}
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/**
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Initializes a spin lock to the released state and returns the spin lock.
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This function initializes the spin lock specified by SpinLock to the released
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state, and returns SpinLock. Optimal performance can be achieved by calling
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GetSpinLockProperties() to determine the size and alignment requirements for
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SpinLock.
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If SpinLock is NULL, then ASSERT().
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@param SpinLock A pointer to the spin lock to initialize to the released
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state.
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@return SpinLock is in release state.
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**/
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SPIN_LOCK *
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EFIAPI
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InitializeSpinLock (
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OUT SPIN_LOCK *SpinLock
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)
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{
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ASSERT (SpinLock != NULL);
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_ReadWriteBarrier();
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*SpinLock = SPIN_LOCK_RELEASED;
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_ReadWriteBarrier();
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return SpinLock;
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}
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/**
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Waits until a spin lock can be placed in the acquired state.
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This function checks the state of the spin lock specified by SpinLock. If
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SpinLock is in the released state, then this function places SpinLock in the
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acquired state and returns SpinLock. Otherwise, this function waits
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indefinitely for the spin lock to be released, and then places it in the
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acquired state and returns SpinLock. All state transitions of SpinLock must
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be performed using MP safe mechanisms.
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If SpinLock is NULL, then ASSERT().
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If SpinLock was not initialized with InitializeSpinLock(), then ASSERT().
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If PcdSpinLockTimeout is not zero, and SpinLock is can not be acquired in
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PcdSpinLockTimeout microseconds, then ASSERT().
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@param SpinLock A pointer to the spin lock to place in the acquired state.
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@return SpinLock acquired the lock.
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**/
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SPIN_LOCK *
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EFIAPI
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AcquireSpinLock (
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IN OUT SPIN_LOCK *SpinLock
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)
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{
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UINT64 Current;
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UINT64 Previous;
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UINT64 Total;
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UINT64 Start;
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UINT64 End;
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UINT64 Timeout;
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INT64 Cycle;
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INT64 Delta;
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if (PcdGet32 (PcdSpinLockTimeout) == 0) {
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while (!AcquireSpinLockOrFail (SpinLock)) {
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CpuPause ();
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}
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} else if (!AcquireSpinLockOrFail (SpinLock)) {
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//
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// Get the current timer value
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//
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Current = GetPerformanceCounter();
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//
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// Initialize local variables
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//
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Start = 0;
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End = 0;
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Total = 0;
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//
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// Retrieve the performance counter properties and compute the number of performance
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// counter ticks required to reach the timeout
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//
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Timeout = DivU64x32 (
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MultU64x32 (
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GetPerformanceCounterProperties (&Start, &End),
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PcdGet32 (PcdSpinLockTimeout)
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),
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1000000
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);
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Cycle = End - Start;
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if (Cycle < 0) {
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Cycle = -Cycle;
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}
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Cycle++;
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while (!AcquireSpinLockOrFail (SpinLock)) {
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CpuPause ();
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Previous = Current;
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Current = GetPerformanceCounter();
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Delta = (INT64) (Current - Previous);
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if (Start > End) {
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Delta = -Delta;
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}
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if (Delta < 0) {
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Delta += Cycle;
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}
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Total += Delta;
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ASSERT (Total < Timeout);
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}
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}
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return SpinLock;
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}
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/**
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Attempts to place a spin lock in the acquired state.
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This function checks the state of the spin lock specified by SpinLock. If
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SpinLock is in the released state, then this function places SpinLock in the
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acquired state and returns TRUE. Otherwise, FALSE is returned. All state
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transitions of SpinLock must be performed using MP safe mechanisms.
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If SpinLock is NULL, then ASSERT().
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If SpinLock was not initialized with InitializeSpinLock(), then ASSERT().
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@param SpinLock A pointer to the spin lock to place in the acquired state.
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@retval TRUE SpinLock was placed in the acquired state.
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@retval FALSE SpinLock could not be acquired.
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**/
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BOOLEAN
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EFIAPI
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AcquireSpinLockOrFail (
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IN OUT SPIN_LOCK *SpinLock
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)
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{
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SPIN_LOCK LockValue;
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VOID *Result;
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ASSERT (SpinLock != NULL);
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LockValue = *SpinLock;
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ASSERT (LockValue == SPIN_LOCK_ACQUIRED || LockValue == SPIN_LOCK_RELEASED);
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_ReadWriteBarrier ();
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Result = InterlockedCompareExchangePointer (
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(VOID**)SpinLock,
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(VOID*)SPIN_LOCK_RELEASED,
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(VOID*)SPIN_LOCK_ACQUIRED
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);
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_ReadWriteBarrier ();
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return (BOOLEAN) (Result == (VOID*) SPIN_LOCK_RELEASED);
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}
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/**
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Releases a spin lock.
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This function places the spin lock specified by SpinLock in the release state
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and returns SpinLock.
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If SpinLock is NULL, then ASSERT().
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If SpinLock was not initialized with InitializeSpinLock(), then ASSERT().
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@param SpinLock A pointer to the spin lock to release.
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@return SpinLock released the lock.
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**/
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SPIN_LOCK *
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EFIAPI
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ReleaseSpinLock (
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IN OUT SPIN_LOCK *SpinLock
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)
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{
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SPIN_LOCK LockValue;
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ASSERT (SpinLock != NULL);
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LockValue = *SpinLock;
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ASSERT (LockValue == SPIN_LOCK_ACQUIRED || LockValue == SPIN_LOCK_RELEASED);
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_ReadWriteBarrier ();
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*SpinLock = SPIN_LOCK_RELEASED;
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_ReadWriteBarrier ();
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return SpinLock;
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}
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/**
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Performs an atomic increment of an 32-bit unsigned integer.
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Performs an atomic increment of the 32-bit unsigned integer specified by
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Value and returns the incremented value. The increment operation must be
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performed using MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the 32-bit value to increment.
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@return The incremented value.
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**/
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UINT32
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EFIAPI
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InterlockedIncrement (
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IN volatile UINT32 *Value
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)
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{
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ASSERT (Value != NULL);
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return InternalSyncIncrement (Value);
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}
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/**
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Performs an atomic decrement of an 32-bit unsigned integer.
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Performs an atomic decrement of the 32-bit unsigned integer specified by
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Value and returns the decremented value. The decrement operation must be
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performed using MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the 32-bit value to decrement.
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@return The decremented value.
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**/
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UINT32
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EFIAPI
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InterlockedDecrement (
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IN volatile UINT32 *Value
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)
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{
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ASSERT (Value != NULL);
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return InternalSyncDecrement (Value);
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}
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/**
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Performs an atomic compare exchange operation on a 16-bit unsigned integer.
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Performs an atomic compare exchange operation on the 16-bit unsigned integer
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specified by Value. If Value is equal to CompareValue, then Value is set to
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ExchangeValue and CompareValue is returned. If Value is not equal to CompareValue,
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then Value is returned. The compare exchange operation must be performed using
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MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the 16-bit value for the compare exchange
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operation.
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@param CompareValue A 16-bit value used in a compare operation.
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@param ExchangeValue A 16-bit value used in an exchange operation.
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@return The original *Value before exchange.
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**/
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UINT16
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EFIAPI
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InterlockedCompareExchange16 (
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IN OUT volatile UINT16 *Value,
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IN UINT16 CompareValue,
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IN UINT16 ExchangeValue
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)
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{
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ASSERT (Value != NULL);
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return InternalSyncCompareExchange16 (Value, CompareValue, ExchangeValue);
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}
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/**
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Performs an atomic compare exchange operation on a 32-bit unsigned integer.
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Performs an atomic compare exchange operation on the 32-bit unsigned integer
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specified by Value. If Value is equal to CompareValue, then Value is set to
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ExchangeValue and CompareValue is returned. If Value is not equal to CompareValue,
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then Value is returned. The compare exchange operation must be performed using
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MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the 32-bit value for the compare exchange
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operation.
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@param CompareValue A 32-bit value used in a compare operation.
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@param ExchangeValue A 32-bit value used in an exchange operation.
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@return The original *Value before exchange.
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**/
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UINT32
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EFIAPI
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InterlockedCompareExchange32 (
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IN OUT volatile UINT32 *Value,
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IN UINT32 CompareValue,
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IN UINT32 ExchangeValue
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)
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{
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ASSERT (Value != NULL);
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return InternalSyncCompareExchange32 (Value, CompareValue, ExchangeValue);
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}
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/**
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Performs an atomic compare exchange operation on a 64-bit unsigned integer.
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Performs an atomic compare exchange operation on the 64-bit unsigned integer specified
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by Value. If Value is equal to CompareValue, then Value is set to ExchangeValue and
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CompareValue is returned. If Value is not equal to CompareValue, then Value is returned.
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The compare exchange operation must be performed using MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the 64-bit value for the compare exchange
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operation.
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@param CompareValue A 64-bit value used in a compare operation.
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@param ExchangeValue A 64-bit value used in an exchange operation.
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@return The original *Value before exchange.
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**/
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UINT64
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EFIAPI
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InterlockedCompareExchange64 (
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IN OUT volatile UINT64 *Value,
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IN UINT64 CompareValue,
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IN UINT64 ExchangeValue
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)
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{
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ASSERT (Value != NULL);
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return InternalSyncCompareExchange64 (Value, CompareValue, ExchangeValue);
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}
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/**
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Performs an atomic compare exchange operation on a pointer value.
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Performs an atomic compare exchange operation on the pointer value specified
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by Value. If Value is equal to CompareValue, then Value is set to
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ExchangeValue and CompareValue is returned. If Value is not equal to
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CompareValue, then Value is returned. The compare exchange operation must be
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performed using MP safe mechanisms.
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If Value is NULL, then ASSERT().
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@param Value A pointer to the pointer value for the compare exchange
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operation.
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@param CompareValue A pointer value used in a compare operation.
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@param ExchangeValue A pointer value used in an exchange operation.
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@return The original *Value before exchange.
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**/
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VOID *
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EFIAPI
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InterlockedCompareExchangePointer (
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IN OUT VOID * volatile *Value,
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IN VOID *CompareValue,
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IN VOID *ExchangeValue
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)
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{
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UINT8 SizeOfValue;
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SizeOfValue = (UINT8) sizeof (*Value);
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switch (SizeOfValue) {
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case sizeof (UINT32):
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return (VOID*)(UINTN)InterlockedCompareExchange32 (
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(volatile UINT32*)Value,
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(UINT32)(UINTN)CompareValue,
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(UINT32)(UINTN)ExchangeValue
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);
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case sizeof (UINT64):
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return (VOID*)(UINTN)InterlockedCompareExchange64 (
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(volatile UINT64*)Value,
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(UINT64)(UINTN)CompareValue,
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(UINT64)(UINTN)ExchangeValue
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);
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default:
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ASSERT (FALSE);
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return NULL;
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}
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}
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