* operation (atomic_read_explicit, or a load operation preceding a
* atomic_thread_fence) will not be moved prior to the consume
* barrier. Non-data-dependent loads and stores can be reordered to
- * happen before the the consume barrier.
+ * happen before the consume barrier.
*
* RCU is the prime example of the use of the consume barrier: The
* consume barrier guarantees that reads from a RCU protected object
#if __CHECKER__
/* sparse doesn't understand some GCC extensions we use. */
#include "ovs-atomic-pthreads.h"
- #elif HAVE_STDATOMIC_H
- #include "ovs-atomic-c11.h"
#elif __has_extension(c_atomic)
#include "ovs-atomic-clang.h"
+ #elif HAVE_STDATOMIC_H
+ #include "ovs-atomic-c11.h"
#elif __GNUC__ >= 4 && __GNUC_MINOR__ >= 7
#include "ovs-atomic-gcc4.7+.h"
#elif __GNUC__ && defined(__x86_64__)
#include "ovs-atomic-i586.h"
#elif HAVE_GCC4_ATOMICS
#include "ovs-atomic-gcc4+.h"
+ #elif _MSC_VER && _M_IX86 >= 500
+ #include "ovs-atomic-msvc.h"
#else
/* ovs-atomic-pthreads implementation is provided for portability.
* It might be too slow for real use because Open vSwitch is
typedef ATOMIC(int16_t) atomic_int16_t;
typedef ATOMIC(int32_t) atomic_int32_t;
+/* Relaxed atomic operations.
+ *
+ * When an operation on an atomic variable is not expected to synchronize
+ * with operations on other (atomic or non-atomic) variables, no memory
+ * barriers are needed and the relaxed memory ordering can be used. These
+ * macros make such uses less daunting, but not invisible. */
+#define atomic_store_relaxed(VAR, VALUE) \
+ atomic_store_explicit(VAR, VALUE, memory_order_relaxed)
+#define atomic_read_relaxed(VAR, DST) \
+ atomic_read_explicit(VAR, DST, memory_order_relaxed)
+#define atomic_compare_exchange_strong_relaxed(DST, EXP, SRC) \
+ atomic_compare_exchange_strong_explicit(DST, EXP, SRC, \
+ memory_order_relaxed, \
+ memory_order_relaxed)
+#define atomic_compare_exchange_weak_relaxed(DST, EXP, SRC) \
+ atomic_compare_exchange_weak_explicit(DST, EXP, SRC, \
+ memory_order_relaxed, \
+ memory_order_relaxed)
+#define atomic_add_relaxed(RMW, ARG, ORIG) \
+ atomic_add_explicit(RMW, ARG, ORIG, memory_order_relaxed)
+#define atomic_sub_relaxed(RMW, ARG, ORIG) \
+ atomic_sub_explicit(RMW, ARG, ORIG, memory_order_relaxed)
+#define atomic_or_relaxed(RMW, ARG, ORIG) \
+ atomic_or_explicit(RMW, ARG, ORIG, memory_order_relaxed)
+#define atomic_xor_relaxed(RMW, ARG, ORIG) \
+ atomic_xor_explicit(RMW, ARG, ORIG, memory_order_relaxed)
+#define atomic_and_relaxed(RMW, ARG, ORIG) \
+ atomic_and_explicit(RMW, ARG, ORIG, memory_order_relaxed)
+#define atomic_flag_test_and_set_relaxed(FLAG) \
+ atomic_flag_test_and_set_explicit(FLAG, memory_order_relaxed)
+#define atomic_flag_clear_relaxed(FLAG) \
+ atomic_flag_clear_explicit(FLAG, memory_order_relaxed)
+
+/* A simplified atomic count. Does not provide any synchronization with any
+ * other variables.
+ *
+ * Typically a counter is not used to synchronize the state of any other
+ * variables (with the notable exception of reference count, below).
+ * This abstraction releaves the user from the memory order considerations,
+ * and may make the code easier to read.
+ *
+ * We only support the unsigned int counters, as those are the most common. */
+typedef struct atomic_count {
+ atomic_uint count;
+} atomic_count;
+
+#define ATOMIC_COUNT_INIT(VALUE) { VALUE }
+
+static inline void
+atomic_count_init(atomic_count *count, unsigned int value)
+{
+ atomic_init(&count->count, value);
+}
+
+static inline unsigned int
+atomic_count_inc(atomic_count *count)
+{
+ unsigned int old;
+
+ atomic_add_relaxed(&count->count, 1, &old);
+
+ return old;
+}
+
+static inline unsigned int
+atomic_count_dec(atomic_count *count)
+{
+ unsigned int old;
+
+ atomic_sub_relaxed(&count->count, 1, &old);
+
+ return old;
+}
+
+static inline unsigned int
+atomic_count_get(atomic_count *count)
+{
+ unsigned int value;
+
+ atomic_read_relaxed(&count->count, &value);
+
+ return value;
+}
+
+static inline void
+atomic_count_set(atomic_count *count, unsigned int value)
+{
+ atomic_store_relaxed(&count->count, value);
+}
+
/* Reference count. */
struct ovs_refcount {
atomic_uint count;