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--- Libc/Libc-825.24/include/libkern/OSAtomic.h
+++ Libc/Libc-391.2.9/include/libkern/OSAtomic.h
@@ -1,5 +1,5 @@
/*
- * Copyright (c) 2004-2006 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2004 Apple Computer, Inc. All rights reserved.
*
* @APPLE_LICENSE_HEADER_START@
*
@@ -29,729 +29,128 @@
#include <stdint.h>
#include <stdbool.h>
-#include <Availability.h>
-
-/*! @header
- * These are the preferred versions of the atomic and synchronization operations.
+/* These are the preferred versions of the atomic and synchronization operations.
* Their implementation is customized at boot time for the platform, including
* late-breaking errata fixes as necessary. They are thread safe.
*
- * WARNING: all addresses passed to these functions must be "naturally aligned",
- * i.e. * <code>int32_t</code> pointers must be 32-bit aligned (low 2 bits of
- * address are zeroes), and <code>int64_t</code> pointers must be 64-bit aligned
- * (low 3 bits of address are zeroes.)
+ * WARNING: all addresses passed to these functions must be "naturally aligned", ie
+ * int32_t's must be 32-bit aligned (low 2 bits of address zero), and int64_t's
+ * must be 64-bit aligned (low 3 bits of address zero.)
*
- * Note that some versions of the atomic functions incorporate memory barriers
- * and some do not. Barriers strictly order memory access on weakly-ordered
- * architectures such as PPC. All loads and stores that appear (in sequential
- * program order) before the barrier are guaranteed to complete before any
- * load or store that appears after the barrier.
+ * Note that some versions of the atomic functions incorporate memory barriers,
+ * and some do not. Barriers strictly order memory access on a weakly-ordered
+ * architecture such as PPC. All loads and stores executed in sequential program
+ * order before the barrier will complete before any load or store executed after
+ * the barrier. On a uniprocessor, the barrier operation is typically a nop.
+ * On a multiprocessor, the barrier can be quite expensive.
*
- * On a uniprocessor system, the barrier operation is typically a no-op. On a
- * multiprocessor system, the barrier can be quite expensive on some platforms,
- * such as PPC.
- *
- * Most code should use the barrier functions to ensure that memory shared between
- * threads is properly synchronized. For example, if you want to initialize
+ * Most code will want to use the barrier functions to insure that memory shared
+ * between threads is properly synchronized. For example, if you want to initialize
* a shared data structure and then atomically increment a variable to indicate
- * that the initialization is complete, you must use {@link OSAtomicIncrement32Barrier}
- * to ensure that the stores to your data structure complete before the atomic
- * increment.
- *
- * Likewise, the consumer of that data structure must use {@link OSAtomicDecrement32Barrier},
+ * that the initialization is complete, then you MUST use OSAtomicIncrement32Barrier()
+ * to ensure that the stores to your data structure complete before the atomic add.
+ * Likewise, the consumer of that data structure MUST use OSAtomicDecrement32Barrier(),
* in order to ensure that their loads of the structure are not executed before
* the atomic decrement. On the other hand, if you are simply incrementing a global
- * counter, then it is safe and potentially faster to use {@link OSAtomicIncrement32}.
+ * counter, then it is safe and potentially faster to use OSAtomicIncrement32().
*
* If you are unsure which version to use, prefer the barrier variants as they are
* safer.
*
* The spinlock and queue operations always incorporate a barrier.
- *
- * For the kernel-space version of this header, see
- * {@link //apple_ref/doc/header/OSAtomic.h OSAtomic.h (Kernel Framework)}
- *
- * @apiuid //apple_ref/doc/header/user_space_OSAtomic.h
*/
__BEGIN_DECLS
-/*! @group Arithmetic functions
- All functions in this group return the new value.
+/* Arithmetic functions. They return the new value. All the "or", "and", and "xor"
+ * operations, and the barrier forms of add, are layered on top of compare-and-swap.
*/
+int32_t OSAtomicAdd32( int32_t theAmount, int32_t *theValue );
+int32_t OSAtomicAdd32Barrier( int32_t theAmount, int32_t *theValue );
-/*! @abstract Atomically adds two 32-bit values.
- @discussion
- This function adds the value given by <code>__theAmount</code> to the
- value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the new value.
- */
-int32_t OSAtomicAdd32( int32_t __theAmount, volatile int32_t *__theValue );
+inline static
+int32_t OSAtomicIncrement32( int32_t *theValue )
+ { return OSAtomicAdd32( 1, theValue); }
+inline static
+int32_t OSAtomicIncrement32Barrier( int32_t *theValue )
+ { return OSAtomicAdd32Barrier( 1, theValue); }
+
+inline static
+int32_t OSAtomicDecrement32( int32_t *theValue )
+ { return OSAtomicAdd32( -1, theValue); }
+inline static
+int32_t OSAtomicDecrement32Barrier( int32_t *theValue )
+ { return OSAtomicAdd32Barrier( -1, theValue); }
+
+int32_t OSAtomicOr32( uint32_t theMask, uint32_t *theValue );
+int32_t OSAtomicOr32Barrier( uint32_t theMask, uint32_t *theValue );
+
+int32_t OSAtomicAnd32( uint32_t theMask, uint32_t *theValue );
+int32_t OSAtomicAnd32Barrier( uint32_t theMask, uint32_t *theValue );
+
+int32_t OSAtomicXor32( uint32_t theMask, uint32_t *theValue );
+int32_t OSAtomicXor32Barrier( uint32_t theMask, uint32_t *theValue );
+
+#if defined(__ppc64__) || defined(__i386__)
+
+int64_t OSAtomicAdd64( int64_t theAmount, int64_t *theValue );
+int64_t OSAtomicAdd64Barrier( int64_t theAmount, int64_t *theValue );
+
+inline static
+int64_t OSAtomicIncrement64( int64_t *theValue )
+ { return OSAtomicAdd64( 1, theValue); }
+inline static
+int64_t OSAtomicIncrement64Barrier( int64_t *theValue )
+ { return OSAtomicAdd64Barrier( 1, theValue); }
+
+inline static
+int64_t OSAtomicDecrement64( int64_t *theValue )
+ { return OSAtomicAdd64( -1, theValue); }
+inline static
+int64_t OSAtomicDecrement64Barrier( int64_t *theValue )
+ { return OSAtomicAdd64Barrier( -1, theValue); }
+
+#endif /* defined(__ppc64__) || defined(__i386__) */
-/*! @abstract Atomically adds two 32-bit values.
- @discussion
- This function adds the value given by <code>__theAmount</code> to the
- value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
+/* Compare and swap. They return true if the swap occured.
+ */
+bool OSAtomicCompareAndSwap32( int32_t oldValue, int32_t newValue, int32_t *theValue );
+bool OSAtomicCompareAndSwap32Barrier( int32_t oldValue, int32_t newValue, int32_t *theValue );
- This function is equivalent to {@link OSAtomicAdd32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-int32_t OSAtomicAdd32Barrier( int32_t __theAmount, volatile int32_t *__theValue );
+#if defined(__ppc64__) || defined(__i386__)
+bool OSAtomicCompareAndSwap64( int64_t oldValue, int64_t newValue, int64_t *theValue );
+bool OSAtomicCompareAndSwap64Barrier( int64_t oldValue, int64_t newValue, int64_t *theValue );
-/*! @abstract Atomically increments a 32-bit value.
- */
-__inline static
-int32_t OSAtomicIncrement32( volatile int32_t *__theValue )
- { return OSAtomicAdd32( 1, __theValue); }
-
-
-/*! @abstract Atomically increments a 32-bit value with a barrier.
- @discussion
- This function is equivalent to {@link OSAtomicIncrement32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-__inline static
-int32_t OSAtomicIncrement32Barrier( volatile int32_t *__theValue )
- { return OSAtomicAdd32Barrier( 1, __theValue); }
-
-/*! @abstract Atomically decrements a 32-bit value. */
-__inline static
-int32_t OSAtomicDecrement32( volatile int32_t *__theValue )
- { return OSAtomicAdd32( -1, __theValue); }
-
-/*! @abstract Atomically increments a 32-bit value with a barrier.
- @discussion
- This function is equivalent to {@link OSAtomicDecrement32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-__inline static
-int32_t OSAtomicDecrement32Barrier( volatile int32_t *__theValue )
- { return OSAtomicAdd32Barrier( -1, __theValue); }
-
-
-/*! @abstract Atomically adds two 64-bit values.
- @discussion
- This function adds the value given by <code>__theAmount</code> to the
- value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- */
-int64_t OSAtomicAdd64( int64_t __theAmount, volatile int64_t *__theValue );
-
-
-/*! @abstract Atomically adds two 64-bit values with a barrier.
- @discussion
- This function adds the value given by <code>__theAmount</code> to the
- value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicAdd64}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-int64_t OSAtomicAdd64Barrier( int64_t __theAmount, volatile int64_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_4, __IPHONE_3_2);
-
-
-/*! @abstract Atomically increments a 64-bit value. */
-__inline static
-int64_t OSAtomicIncrement64( volatile int64_t *__theValue )
- { return OSAtomicAdd64( 1, __theValue); }
-
-/*! @abstract Atomically increments a 64-bit value with a barrier.
- @discussion
- This function is equivalent to {@link OSAtomicIncrement64}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-__inline static
-int64_t OSAtomicIncrement64Barrier( volatile int64_t *__theValue )
- { return OSAtomicAdd64Barrier( 1, __theValue); }
-
-
-/*! @abstract Atomically decrements a 64-bit value.
- @discussion
- This function is equivalent to {@link OSAtomicIncrement64}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-__inline static
-int64_t OSAtomicDecrement64( volatile int64_t *__theValue )
- { return OSAtomicAdd64( -1, __theValue); }
-
-
-/*! @abstract Atomically decrements a 64-bit value with a barrier.
- @discussion
- This function is equivalent to {@link OSAtomicDecrement64}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-__inline static
-int64_t OSAtomicDecrement64Barrier( volatile int64_t *__theValue )
- { return OSAtomicAdd64Barrier( -1, __theValue); }
-
-
-/*! @group Boolean functions (AND, OR, XOR)
- *
- * @discussion Functions in this group come in four variants for each operation:
- * with and without barriers, and functions that return the original value or
- * the result value of the operation.
- *
- * The "Orig" versions return the original value, (before the operation); the non-Orig
- * versions return the value after the operation. All are layered on top of
- * {@link OSAtomicCompareAndSwap32} and similar.
- */
-
-/*! @abstract Atomic bitwise OR of two 32-bit values.
- @discussion
- This function performs the bitwise OR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the new value.
- */
-int32_t OSAtomicOr32( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise OR of two 32-bit values with barrier.
- @discussion
- This function performs the bitwise OR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicOr32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-int32_t OSAtomicOr32Barrier( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise OR of two 32-bit values returning original.
- @discussion
- This function performs the bitwise OR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicOr32Orig( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-/*! @abstract Atomic bitwise OR of two 32-bit values returning original with barrier.
- @discussion
- This function performs the bitwise OR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicOr32Orig}
- except that it also introduces a barrier.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicOr32OrigBarrier( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-
-
-/*! @abstract Atomic bitwise AND of two 32-bit values.
- @discussion
- This function performs the bitwise AND of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the new value.
- */
-int32_t OSAtomicAnd32( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise AND of two 32-bit values with barrier.
- @discussion
- This function performs the bitwise AND of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicAnd32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-int32_t OSAtomicAnd32Barrier( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise AND of two 32-bit values returning original.
- @discussion
- This function performs the bitwise AND of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicAnd32Orig( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-/*! @abstract Atomic bitwise AND of two 32-bit values returning original with barrier.
- @discussion
- This function performs the bitwise AND of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicAnd32Orig}
- except that it also introduces a barrier.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicAnd32OrigBarrier( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-
-
-/*! @abstract Atomic bitwise XOR of two 32-bit values.
- @discussion
- This function performs the bitwise XOR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the new value.
- */
-int32_t OSAtomicXor32( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise XOR of two 32-bit values with barrier.
- @discussion
- This function performs the bitwise XOR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicXor32}
- except that it also introduces a barrier.
- @result Returns the new value.
- */
-int32_t OSAtomicXor32Barrier( uint32_t __theMask, volatile uint32_t *__theValue );
-
-
-/*! @abstract Atomic bitwise XOR of two 32-bit values returning original.
- @discussion
- This function performs the bitwise XOR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicXor32Orig( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-/*! @abstract Atomic bitwise XOR of two 32-bit values returning original with barrier.
- @discussion
- This function performs the bitwise XOR of the value given by <code>__theMask</code>
- with the value in the memory location referenced by <code>__theValue</code>,
- storing the result back to that memory location atomically.
-
- This function is equivalent to {@link OSAtomicXor32Orig}
- except that it also introduces a barrier.
- @result Returns the original value referenced by <code>__theValue</code>.
- */
-int32_t OSAtomicXor32OrigBarrier( uint32_t __theMask, volatile uint32_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_3_2);
-
-
-/*! @group Compare and swap
- * Functions in this group return true if the swap occured. There are several versions,
- * depending on data type and on whether or not a barrier is used.
- */
-
-
-/*! @abstract Compare and swap for 32-bit values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwap32( int32_t __oldValue, int32_t __newValue, volatile int32_t *__theValue );
-
-
-/*! @abstract Compare and swap for 32-bit values with barrier.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap32}
- except that it also introduces a barrier.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwap32Barrier( int32_t __oldValue, int32_t __newValue, volatile int32_t *__theValue );
-
-
-/*! @abstract Compare and swap pointers.
- @discussion
- This function compares the pointer stored in <code>__oldValue</code> to the pointer
- in the memory location referenced by <code>__theValue</code>. If the pointers
- match, this function stores the pointer from <code>__newValue</code> into
- that memory location atomically.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapPtr( void *__oldValue, void *__newValue, void * volatile *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap pointers with barrier.
- @discussion
- This function compares the pointer stored in <code>__oldValue</code> to the pointer
- in the memory location referenced by <code>__theValue</code>. If the pointers
- match, this function stores the pointer from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwapPtr}
- except that it also introduces a barrier.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapPtrBarrier( void *__oldValue, void *__newValue, void * volatile *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap for <code>int</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap32}.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapInt( int __oldValue, int __newValue, volatile int *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap for <code>int</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwapInt}
- except that it also introduces a barrier.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap32Barrier}.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapIntBarrier( int __oldValue, int __newValue, volatile int *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap for <code>long</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap32} on 32-bit architectures,
- or {@link OSAtomicCompareAndSwap64} on 64-bit architectures.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapLong( long __oldValue, long __newValue, volatile long *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap for <code>long</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwapLong}
- except that it also introduces a barrier.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap32} on 32-bit architectures,
- or {@link OSAtomicCompareAndSwap64} on 64-bit architectures.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwapLongBarrier( long __oldValue, long __newValue, volatile long *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_2_0);
-
-
-/*! @abstract Compare and swap for <code>uint64_t</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwap64( int64_t __oldValue, int64_t __newValue, volatile int64_t *__theValue );
-
-
-/*! @abstract Compare and swap for <code>uint64_t</code> values.
- @discussion
- This function compares the value in <code>__oldValue</code> to the value
- in the memory location referenced by <code>__theValue</code>. If the values
- match, this function stores the value from <code>__newValue</code> into
- that memory location atomically.
-
- This function is equivalent to {@link OSAtomicCompareAndSwap64}
- except that it also introduces a barrier.
- @result Returns TRUE on a match, FALSE otherwise.
- */
-bool OSAtomicCompareAndSwap64Barrier( int64_t __oldValue, int64_t __newValue, volatile int64_t *__theValue ) __OSX_AVAILABLE_STARTING(__MAC_10_4, __IPHONE_3_2);
+#endif /* defined(__ppc64__) || defined(__i386__) */
/* Test and set. They return the original value of the bit, and operate on bit (0x80>>(n&7))
- * in byte ((char*)theAddress + (n>>3)).
+ * in byte ((char*)theAddress + (n>>3)). They are layered on top of the compare-and-swap
+ * operation.
*/
-/*! @abstract Atomic test and set
- @discussion
- This function tests a bit in the value referenced by <code>__theAddress</code>
- and if it is not set, sets it. The bit is chosen by the value of <code>__n</code>.
- The bits are numbered in order beginning with bit 1 as the lowest order bit.
-
- For example, if <code>__theAddress</code> points to a 64-bit value,
- to compare the value of the highest bit, you would specify <code>64</code> for
- <code>__n</code>.
- @result
- Returns the original value of the bit being tested.
- */
-bool OSAtomicTestAndSet( uint32_t __n, volatile void *__theAddress );
-
-
-/*! @abstract Atomic test and set with barrier
- @discussion
- This function tests a bit in the value referenced by <code>__theAddress</code>
- and if it is not set, sets it. The bit is chosen by the value of <code>__n</code>.
- The bits are numbered in order beginning with bit 1 as the lowest order bit.
-
- For example, if <code>__theAddress</code> points to a 64-bit value,
- to compare the value of the highest bit, you would specify <code>64</code> for
- <code>__n</code>.
-
- This function is equivalent to {@link OSAtomicTestAndSet}
- except that it also introduces a barrier.
- @result
- Returns the original value of the bit being tested.
- */
-
-bool OSAtomicTestAndSetBarrier( uint32_t __n, volatile void *__theAddress );
-
-
-
-/*! @abstract Atomic test and clear
- @discussion
- This function tests a bit in the value referenced by <code>__theAddress</code>
- and if it is not cleared, clears it. The bit is chosen by the value of <code>__n</code>.
- The bits are numbered in order beginning with bit 1 as the lowest order bit.
-
- For example, if <code>__theAddress</code> points to a 64-bit value,
- to compare the value of the highest bit, you would specify <code>64</code> for
- <code>__n</code>.
- @result
- Returns the original value of the bit being tested.
- */
-bool OSAtomicTestAndClear( uint32_t __n, volatile void *__theAddress );
-
-
-/*! @abstract Atomic test and clear
- @discussion
- This function tests a bit in the value referenced by <code>__theAddress</code>
- and if it is not cleared, clears it. The bit is chosen by the value of <code>__n</code>.
- The bits are numbered in order beginning with bit 1 as the lowest order bit.
-
- For example, if <code>__theAddress</code> points to a 64-bit value,
- to compare the value of the highest bit, you would specify <code>64</code> for
- <code>__n</code>.
-
- This function is equivalent to {@link OSAtomicTestAndSet}
- except that it also introduces a barrier.
- @result
- Returns the original value of the bit being tested.
- */
-bool OSAtomicTestAndClearBarrier( uint32_t __n, volatile void *__theAddress );
+bool OSAtomicTestAndSet( uint32_t n, void *theAddress );
+bool OSAtomicTestAndSetBarrier( uint32_t n, void *theAddress );
+bool OSAtomicTestAndClear( uint32_t n, void *theAddress );
+bool OSAtomicTestAndClearBarrier( uint32_t n, void *theAddress );
-
-/*! @group Spinlocks
- * These spinlocks use memory barriers as required to synchronize access to shared
- * memory protected by the lock.
- */
-
-/*! @abstract The default value for an <code>OSSpinLock</code>.
- @discussion
- The convention is that unlocked is zero, locked is nonzero.
+/* Spinlocks. These use memory barriers as required to synchronize access to shared
+ * memory protected by the lock. The lock operation spins, but employs various strategies
+ * to back off if the lock is held, making it immune to most priority-inversion livelocks.
+ * The try operation immediately returns false if the lock was held, true if it took the
+ * lock. The convention is that unlocked is zero, locked is nonzero.
*/
#define OS_SPINLOCK_INIT 0
+typedef int32_t OSSpinLock;
-/*! @abstract Data type for a spinlock.
- @discussion
- You should always initialize a spinlock to {@link OS_SPINLOCK_INIT} before
- using it.
- */
-typedef int32_t OSSpinLock;
+bool OSSpinLockTry( OSSpinLock *lock );
+void OSSpinLockLock( OSSpinLock *lock );
+void OSSpinLockUnlock( OSSpinLock *lock );
-/*! @abstract Locks a spinlock if it would not block
- @result
- Returns <code>false</code> if the lock was already held by another thread,
- <code>true</code> if it took the lock successfully.
- */
-bool OSSpinLockTry( volatile OSSpinLock *__lock );
-
-
-/*! @abstract Locks a spinlock
- @discussion
- Although the lock operation spins, it employs various strategies
- to back off if the lock is held, making it immune to most priority-inversion
- livelocks.
- */
-void OSSpinLockLock( volatile OSSpinLock *__lock );
-
-
-/*! @abstract Unlocks a spinlock */
-void OSSpinLockUnlock( volatile OSSpinLock *__lock );
-
-
-/*! @group Lockless atomic enqueue and dequeue
- * These routines manipulate singly-linked LIFO lists.
- */
-
-/*! @abstract The data structure for a queue head.
- @discussion
- You should always initialize a queue head structure with the
- initialization vector {@link OS_ATOMIC_QUEUE_INIT} before use.
- */
-#if defined(__x86_64__)
-
-typedef volatile struct {
- void *opaque1;
- long opaque2;
-} __attribute__ ((aligned (16))) OSQueueHead;
-
-#else
-
-typedef volatile struct {
- void *opaque1;
- long opaque2;
-} OSQueueHead;
-
-#endif
-
-/*! @abstract The initialization vector for a queue head. */
-#define OS_ATOMIC_QUEUE_INIT { NULL, 0 }
-
-/*! @abstract Enqueue an item onto a list.
- @discussion
- Memory barriers are incorporated as needed to permit thread-safe access
- to the queue element.
- @param __list
- The list on which you want to enqueue the item.
- @param __new
- The item to add.
- @param __offset
- The "offset" parameter is the offset (in bytes) of the link field
- from the beginning of the data structure being queued (<code>__new</code>).
- The link field should be a pointer type.
- The <code>__offset</code> value needs to be same for all enqueuing and
- dequeuing operations on the same queue, even if different structure types
- are enqueued on that queue. The use of <code>offsetset()</code>, defined in
- <code>stddef.h</code> is the common way to specify the <code>__offset</code>
- value.
- */
-void OSAtomicEnqueue( OSQueueHead *__list, void *__new, size_t __offset) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_4_0);
-
-
-/*! @abstract Dequeue an item from a list.
- @discussion
- Memory barriers are incorporated as needed to permit thread-safe access
- to the queue element.
- @param __list
- The list on which you want to enqueue the item.
- @param __offset
- The "offset" parameter is the offset (in bytes) of the link field
- from the beginning of the data structure being queued (<code>__new</code>).
- The link field should be a pointer type.
- The <code>__offset</code> value needs to be same for all enqueuing and
- dequeuing operations on the same queue, even if different structure types
- are enqueued on that queue. The use of <code>offsetset()</code>, defined in
- <code>stddef.h</code> is the common way to specify the <code>__offset</code>
- value.
- @result
- Returns the most recently enqueued element, or <code>NULL</code> if the
- list is empty.
- */
-void* OSAtomicDequeue( OSQueueHead *__list, size_t __offset) __OSX_AVAILABLE_STARTING(__MAC_10_5, __IPHONE_4_0);
-
-#if defined(__x86_64__) || defined(__i386__)
-
-/*! @group Lockless atomic fifo enqueue and dequeue
- * These routines manipulate singly-linked FIFO lists.
- */
-
-/*! @abstract The data structure for a fifo queue head.
- @discussion
- You should always initialize a fifo queue head structure with the
- initialization vector {@link OS_ATOMIC_FIFO_QUEUE_INIT} before use.
- */
-#if defined(__x86_64__)
-
-typedef volatile struct {
- void *opaque1;
- void *opaque2;
- int opaque3;
-} __attribute__ ((aligned (16))) OSFifoQueueHead;
-
-#else
-
-typedef volatile struct {
- void *opaque1;
- void *opaque2;
- int opaque3;
-} OSFifoQueueHead;
-
-#endif
-
-/*! @abstract The initialization vector for a fifo queue head. */
-#define OS_ATOMIC_FIFO_QUEUE_INIT { NULL, NULL, 0 }
-
-/*! @abstract Enqueue an item onto a list.
- @discussion
- Memory barriers are incorporated as needed to permit thread-safe access
- to the queue element.
- @param __list
- The list on which you want to enqueue the item.
- @param __new
- The item to add.
- @param __offset
- The "offset" parameter is the offset (in bytes) of the link field
- from the beginning of the data structure being queued (<code>__new</code>).
- The link field should be a pointer type.
- The <code>__offset</code> value needs to be same for all enqueuing and
- dequeuing operations on the same queue, even if different structure types
- are enqueued on that queue. The use of <code>offsetset()</code>, defined in
- <code>stddef.h</code> is the common way to specify the <code>__offset</code>
- value.
- */
-void OSAtomicFifoEnqueue( OSFifoQueueHead *__list, void *__new, size_t __offset) __OSX_AVAILABLE_STARTING(__MAC_10_7, __IPHONE_NA);
-
-/*! @abstract Dequeue an item from a list.
- @discussion
- Memory barriers are incorporated as needed to permit thread-safe access
- to the queue element.
- @param __list
- The list on which you want to enqueue the item.
- @param __offset
- The "offset" parameter is the offset (in bytes) of the link field
- from the beginning of the data structure being queued (<code>__new</code>).
- The link field should be a pointer type.
- The <code>__offset</code> value needs to be same for all enqueuing and
- dequeuing operations on the same queue, even if different structure types
- are enqueued on that queue. The use of <code>offsetset()</code>, defined in
- <code>stddef.h</code> is the common way to specify the <code>__offset</code>
- value.
- @result
- Returns the oldest enqueued element, or <code>NULL</code> if the
- list is empty.
- */
-void* OSAtomicFifoDequeue( OSFifoQueueHead *__list, size_t __offset) __OSX_AVAILABLE_STARTING(__MAC_10_7, __IPHONE_NA);
-
-#endif /* __i386__ || __x86_64__ */
-
-/*! @group Memory barriers */
-
-/*! @abstract Memory barrier.
- @discussion
- This function serves as both a read and write barrier.
+/* Memory barrier. It is both a read and write barrier.
*/
void OSMemoryBarrier( void );