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numam-dpdk/lib/librte_ring/rte_ring_hts_elem_pvt.h
Feifei Wang 1fc73390bc ring: refactor exported headers 
For legacy modes, rename ring_generic/c11 to ring_generic/c11_pvt.
Furthermore, add new file ring_elem_pvt.h which includes ring_do_eq/deq
and ring element copy/delete APIs.

The update_tail internal helper has been prefixed with the library prefix.

For other modes, rename xx_c11_mem to xx_elem_pvt. Move all private APIs
into these new header files.

Finally, the external APIs and internal APIs will be separated from each
other. This can remind users not to use internal APIs and make ring
library easier to maintain.

Suggested-by: Honnappa Nagarahalli <honnappa.nagarahalli@arm.com>
Signed-off-by: Feifei Wang <feifei.wang2@arm.com>
Reviewed-by: Honnappa Nagarahalli <honnappa.nagarahalli@arm.com>
Reviewed-by: Ruifeng Wang <ruifeng.wang@arm.com>
Acked-by: Konstantin Ananyev <konstantin.ananyev@intel.com>
2021-01-29 11:37:14 +01:00

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/* SPDX-License-Identifier: BSD-3-Clause
*
* Copyright (c) 2010-2020 Intel Corporation
* Copyright (c) 2007-2009 Kip Macy kmacy@freebsd.org
* All rights reserved.
* Derived from FreeBSD's bufring.h
* Used as BSD-3 Licensed with permission from Kip Macy.
*/
#ifndef _RTE_RING_HTS_ELEM_PVT_H_
#define _RTE_RING_HTS_ELEM_PVT_H_
/**
* @file rte_ring_hts_elem_pvt.h
* It is not recommended to include this file directly,
* include <rte_ring.h> instead.
* Contains internal helper functions for head/tail sync (HTS) ring mode.
* For more information please refer to <rte_ring_hts.h>.
*/
/**
* @internal update tail with new value.
*/
static __rte_always_inline void
__rte_ring_hts_update_tail(struct rte_ring_hts_headtail *ht, uint32_t old_tail,
uint32_t num, uint32_t enqueue)
{
uint32_t tail;
RTE_SET_USED(enqueue);
tail = old_tail + num;
__atomic_store_n(&ht->ht.pos.tail, tail, __ATOMIC_RELEASE);
}
/**
* @internal waits till tail will become equal to head.
* Means no writer/reader is active for that ring.
* Suppose to work as serialization point.
*/
static __rte_always_inline void
__rte_ring_hts_head_wait(const struct rte_ring_hts_headtail *ht,
union __rte_ring_hts_pos *p)
{
while (p->pos.head != p->pos.tail) {
rte_pause();
p->raw = __atomic_load_n(&ht->ht.raw, __ATOMIC_ACQUIRE);
}
}
/**
* @internal This function updates the producer head for enqueue
*/
static __rte_always_inline unsigned int
__rte_ring_hts_move_prod_head(struct rte_ring *r, unsigned int num,
enum rte_ring_queue_behavior behavior, uint32_t *old_head,
uint32_t *free_entries)
{
uint32_t n;
union __rte_ring_hts_pos np, op;
const uint32_t capacity = r->capacity;
op.raw = __atomic_load_n(&r->hts_prod.ht.raw, __ATOMIC_ACQUIRE);
do {
/* Reset n to the initial burst count */
n = num;
/*
* wait for tail to be equal to head,
* make sure that we read prod head/tail *before*
* reading cons tail.
*/
__rte_ring_hts_head_wait(&r->hts_prod, &op);
/*
* The subtraction is done between two unsigned 32bits value
* (the result is always modulo 32 bits even if we have
* *old_head > cons_tail). So 'free_entries' is always between 0
* and capacity (which is < size).
*/
*free_entries = capacity + r->cons.tail - op.pos.head;
/* check that we have enough room in ring */
if (unlikely(n > *free_entries))
n = (behavior == RTE_RING_QUEUE_FIXED) ?
0 : *free_entries;
if (n == 0)
break;
np.pos.tail = op.pos.tail;
np.pos.head = op.pos.head + n;
/*
* this CAS(ACQUIRE, ACQUIRE) serves as a hoist barrier to prevent:
* - OOO reads of cons tail value
* - OOO copy of elems from the ring
*/
} while (__atomic_compare_exchange_n(&r->hts_prod.ht.raw,
&op.raw, np.raw,
0, __ATOMIC_ACQUIRE, __ATOMIC_ACQUIRE) == 0);
*old_head = op.pos.head;
return n;
}
/**
* @internal This function updates the consumer head for dequeue
*/
static __rte_always_inline unsigned int
__rte_ring_hts_move_cons_head(struct rte_ring *r, unsigned int num,
enum rte_ring_queue_behavior behavior, uint32_t *old_head,
uint32_t *entries)
{
uint32_t n;
union __rte_ring_hts_pos np, op;
op.raw = __atomic_load_n(&r->hts_cons.ht.raw, __ATOMIC_ACQUIRE);
/* move cons.head atomically */
do {
/* Restore n as it may change every loop */
n = num;
/*
* wait for tail to be equal to head,
* make sure that we read cons head/tail *before*
* reading prod tail.
*/
__rte_ring_hts_head_wait(&r->hts_cons, &op);
/* The subtraction is done between two unsigned 32bits value
* (the result is always modulo 32 bits even if we have
* cons_head > prod_tail). So 'entries' is always between 0
* and size(ring)-1.
*/
*entries = r->prod.tail - op.pos.head;
/* Set the actual entries for dequeue */
if (n > *entries)
n = (behavior == RTE_RING_QUEUE_FIXED) ? 0 : *entries;
if (unlikely(n == 0))
break;
np.pos.tail = op.pos.tail;
np.pos.head = op.pos.head + n;
/*
* this CAS(ACQUIRE, ACQUIRE) serves as a hoist barrier to prevent:
* - OOO reads of prod tail value
* - OOO copy of elems from the ring
*/
} while (__atomic_compare_exchange_n(&r->hts_cons.ht.raw,
&op.raw, np.raw,
0, __ATOMIC_ACQUIRE, __ATOMIC_ACQUIRE) == 0);
*old_head = op.pos.head;
return n;
}
/**
* @internal Enqueue several objects on the HTS ring.
*
* @param r
* A pointer to the ring structure.
* @param obj_table
* A pointer to a table of objects.
* @param esize
* The size of ring element, in bytes. It must be a multiple of 4.
* This must be the same value used while creating the ring. Otherwise
* the results are undefined.
* @param n
* The number of objects to add in the ring from the obj_table.
* @param behavior
* RTE_RING_QUEUE_FIXED: Enqueue a fixed number of items from a ring
* RTE_RING_QUEUE_VARIABLE: Enqueue as many items as possible from ring
* @param free_space
* returns the amount of space after the enqueue operation has finished
* @return
* Actual number of objects enqueued.
* If behavior == RTE_RING_QUEUE_FIXED, this will be 0 or n only.
*/
static __rte_always_inline unsigned int
__rte_ring_do_hts_enqueue_elem(struct rte_ring *r, const void *obj_table,
uint32_t esize, uint32_t n, enum rte_ring_queue_behavior behavior,
uint32_t *free_space)
{
uint32_t free, head;
n = __rte_ring_hts_move_prod_head(r, n, behavior, &head, &free);
if (n != 0) {
__rte_ring_enqueue_elems(r, head, obj_table, esize, n);
__rte_ring_hts_update_tail(&r->hts_prod, head, n, 1);
}
if (free_space != NULL)
*free_space = free - n;
return n;
}
/**
* @internal Dequeue several objects from the HTS ring.
*
* @param r
* A pointer to the ring structure.
* @param obj_table
* A pointer to a table of objects.
* @param esize
* The size of ring element, in bytes. It must be a multiple of 4.
* This must be the same value used while creating the ring. Otherwise
* the results are undefined.
* @param n
* The number of objects to pull from the ring.
* @param behavior
* RTE_RING_QUEUE_FIXED: Dequeue a fixed number of items from a ring
* RTE_RING_QUEUE_VARIABLE: Dequeue as many items as possible from ring
* @param available
* returns the number of remaining ring entries after the dequeue has finished
* @return
* - Actual number of objects dequeued.
* If behavior == RTE_RING_QUEUE_FIXED, this will be 0 or n only.
*/
static __rte_always_inline unsigned int
__rte_ring_do_hts_dequeue_elem(struct rte_ring *r, void *obj_table,
uint32_t esize, uint32_t n, enum rte_ring_queue_behavior behavior,
uint32_t *available)
{
uint32_t entries, head;
n = __rte_ring_hts_move_cons_head(r, n, behavior, &head, &entries);
if (n != 0) {
__rte_ring_dequeue_elems(r, head, obj_table, esize, n);
__rte_ring_hts_update_tail(&r->hts_cons, head, n, 0);
}
if (available != NULL)
*available = entries - n;
return n;
}
#endif /* _RTE_RING_HTS_ELEM_PVT_H_ */
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