#include <rte_atomic.h>
#include <rte_branch_prediction.h>
+#define RTE_TAILQ_RING_NAME "RTE_RING"
+
enum rte_ring_queue_behavior {
RTE_RING_QUEUE_FIXED = 0, /* Enq/Deq a fixed number of items from a ring */
RTE_RING_QUEUE_VARIABLE /* Enq/Deq as many items a possible from ring */
* if RTE_RING_PAUSE_REP not defined. */
#endif
+struct rte_memzone; /* forward declaration, so as not to require memzone.h */
+
/**
* An RTE ring structure.
*
struct rte_ring {
char name[RTE_RING_NAMESIZE]; /**< Name of the ring. */
int flags; /**< Flags supplied at creation. */
+ const struct rte_memzone *memzone;
+ /**< Memzone, if any, containing the rte_ring */
/** Ring producer status. */
struct prod {
* rte_errno set appropriately. Possible errno values include:
* - E_RTE_NO_CONFIG - function could not get pointer to rte_config structure
* - E_RTE_SECONDARY - function was called from a secondary process instance
- * - E_RTE_NO_TAILQ - no tailq list could be got for the ring list
* - EINVAL - count provided is not a power of 2
* - ENOSPC - the maximum number of memzones has already been allocated
* - EEXIST - a memzone with the same name already exists
*/
struct rte_ring *rte_ring_create(const char *name, unsigned count,
int socket_id, unsigned flags);
+/**
+ * De-allocate all memory used by the ring.
+ *
+ * @param r
+ * Ring to free
+ */
+void rte_ring_free(struct rte_ring *r);
/**
* Change the high water mark.
/* write entries in ring */
ENQUEUE_PTRS();
- rte_compiler_barrier();
+ rte_smp_wmb();
/* if we exceed the watermark */
if (unlikely(((mask + 1) - free_entries + n) > r->prod.watermark)) {
/* write entries in ring */
ENQUEUE_PTRS();
- rte_compiler_barrier();
+ rte_smp_wmb();
/* if we exceed the watermark */
if (unlikely(((mask + 1) - free_entries + n) > r->prod.watermark)) {
/* copy in table */
DEQUEUE_PTRS();
- rte_compiler_barrier();
+ rte_smp_rmb();
/*
* If there are other dequeues in progress that preceded us,
/* copy in table */
DEQUEUE_PTRS();
- rte_compiler_barrier();
+ rte_smp_rmb();
__RING_STAT_ADD(r, deq_success, n);
r->cons.tail = cons_next;
{
uint32_t prod_tail = r->prod.tail;
uint32_t cons_tail = r->cons.tail;
- return (((cons_tail - prod_tail - 1) & r->prod.mask) == 0);
+ return ((cons_tail - prod_tail - 1) & r->prod.mask) == 0;
}
/**
{
uint32_t prod_tail = r->prod.tail;
uint32_t cons_tail = r->cons.tail;
- return ((prod_tail - cons_tail) & r->prod.mask);
+ return (prod_tail - cons_tail) & r->prod.mask;
}
/**
{
uint32_t prod_tail = r->prod.tail;
uint32_t cons_tail = r->cons.tail;
- return ((cons_tail - prod_tail - 1) & r->prod.mask);
+ return (cons_tail - prod_tail - 1) & r->prod.mask;
}
/**
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