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/*-
* Copyright (c) 2014 Chelsio Communications, Inc.
* All rights reserved.
* Written by: Navdeep Parhar <np@FreeBSD.org>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/types.h>
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/counter.h>
#include <sys/lock.h>
#include <sys/mutex.h>
#include <sys/malloc.h>
#include <machine/cpu.h>
#include <net/mp_ring.h>
union ring_state {
struct {
uint16_t pidx_head;
uint16_t pidx_tail;
uint16_t cidx;
uint16_t flags;
};
uint64_t state;
};
enum {
IDLE = 0, /* consumer ran to completion, nothing more to do. */
BUSY, /* consumer is running already, or will be shortly. */
STALLED, /* consumer stopped due to lack of resources. */
ABDICATED, /* consumer stopped even though there was work to be
done because it wants another thread to take over. */
};
static inline uint16_t
space_available(struct ifmp_ring *r, union ring_state s)
{
uint16_t x = r->size - 1;
if (s.cidx == s.pidx_head)
return (x);
else if (s.cidx > s.pidx_head)
return (s.cidx - s.pidx_head - 1);
else
return (x - s.pidx_head + s.cidx);
}
static inline uint16_t
increment_idx(struct ifmp_ring *r, uint16_t idx, uint16_t n)
{
int x = r->size - idx;
MPASS(x > 0);
return (x > n ? idx + n : n - x);
}
/* Consumer is about to update the ring's state to s */
static inline uint16_t
state_to_flags(union ring_state s, int abdicate)
{
if (s.cidx == s.pidx_tail)
return (IDLE);
else if (abdicate && s.pidx_tail != s.pidx_head)
return (ABDICATED);
return (BUSY);
}
#ifdef MP_RING_NO_64BIT_ATOMICS
static void
drain_ring_locked(struct ifmp_ring *r, union ring_state os, uint16_t prev, int budget)
{
union ring_state ns;
int n, pending, total;
uint16_t cidx = os.cidx;
uint16_t pidx = os.pidx_tail;
MPASS(os.flags == BUSY);
MPASS(cidx != pidx);
if (prev == IDLE)
counter_u64_add(r->starts, 1);
pending = 0;
total = 0;
while (cidx != pidx) {
/* Items from cidx to pidx are available for consumption. */
n = r->drain(r, cidx, pidx);
if (n == 0) {
os.state = ns.state = r->state;
ns.cidx = cidx;
ns.flags = STALLED;
r->state = ns.state;
if (prev != STALLED)
counter_u64_add(r->stalls, 1);
else if (total > 0) {
counter_u64_add(r->restarts, 1);
counter_u64_add(r->stalls, 1);
}
break;
}
cidx = increment_idx(r, cidx, n);
pending += n;
total += n;
/*
* We update the cidx only if we've caught up with the pidx, the
* real cidx is getting too far ahead of the one visible to
* everyone else, or we have exceeded our budget.
*/
if (cidx != pidx && pending < 64 && total < budget)
continue;
os.state = ns.state = r->state;
ns.cidx = cidx;
ns.flags = state_to_flags(ns, total >= budget);
r->state = ns.state;
if (ns.flags == ABDICATED)
counter_u64_add(r->abdications, 1);
if (ns.flags != BUSY) {
/* Wrong loop exit if we're going to stall. */
MPASS(ns.flags != STALLED);
if (prev == STALLED) {
MPASS(total > 0);
counter_u64_add(r->restarts, 1);
}
break;
}
/*
* The acquire style atomic above guarantees visibility of items
* associated with any pidx change that we notice here.
*/
pidx = ns.pidx_tail;
pending = 0;
}
}
#else
/*
* Caller passes in a state, with a guarantee that there is work to do and that
* all items up to the pidx_tail in the state are visible.
*/
static void
drain_ring_lockless(struct ifmp_ring *r, union ring_state os, uint16_t prev, int budget)
{
union ring_state ns;
int n, pending, total;
uint16_t cidx = os.cidx;
uint16_t pidx = os.pidx_tail;
MPASS(os.flags == BUSY);
MPASS(cidx != pidx);
if (prev == IDLE)
counter_u64_add(r->starts, 1);
pending = 0;
total = 0;
while (cidx != pidx) {
/* Items from cidx to pidx are available for consumption. */
n = r->drain(r, cidx, pidx);
if (n == 0) {
critical_enter();
os.state = r->state;
do {
ns.state = os.state;
ns.cidx = cidx;
ns.flags = STALLED;
} while (atomic_fcmpset_64(&r->state, &os.state,
ns.state) == 0);
critical_exit();
if (prev != STALLED)
counter_u64_add(r->stalls, 1);
else if (total > 0) {
counter_u64_add(r->restarts, 1);
counter_u64_add(r->stalls, 1);
}
break;
}
cidx = increment_idx(r, cidx, n);
pending += n;
total += n;
/*
* We update the cidx only if we've caught up with the pidx, the
* real cidx is getting too far ahead of the one visible to
* everyone else, or we have exceeded our budget.
*/
if (cidx != pidx && pending < 64 && total < budget)
continue;
critical_enter();
os.state = r->state;
do {
ns.state = os.state;
ns.cidx = cidx;
ns.flags = state_to_flags(ns, total >= budget);
} while (atomic_fcmpset_acq_64(&r->state, &os.state,
ns.state) == 0);
critical_exit();
if (ns.flags == ABDICATED)
counter_u64_add(r->abdications, 1);
if (ns.flags != BUSY) {
/* Wrong loop exit if we're going to stall. */
MPASS(ns.flags != STALLED);
if (prev == STALLED) {
MPASS(total > 0);
counter_u64_add(r->restarts, 1);
}
break;
}
/*
* The acquire style atomic above guarantees visibility of items
* associated with any pidx change that we notice here.
*/
pidx = ns.pidx_tail;
pending = 0;
}
}
#endif
int
ifmp_ring_alloc(struct ifmp_ring **pr, int size, void *cookie, mp_ring_drain_t drain,
mp_ring_can_drain_t can_drain, struct malloc_type *mt, int flags)
{
struct ifmp_ring *r;
/* All idx are 16b so size can be 65536 at most */
if (pr == NULL || size < 2 || size > 65536 || drain == NULL ||
can_drain == NULL)
return (EINVAL);
*pr = NULL;
flags &= M_NOWAIT | M_WAITOK;
MPASS(flags != 0);
r = malloc(__offsetof(struct ifmp_ring, items[size]), mt, flags | M_ZERO);
if (r == NULL)
return (ENOMEM);
r->size = size;
r->cookie = cookie;
r->mt = mt;
r->drain = drain;
r->can_drain = can_drain;
r->enqueues = counter_u64_alloc(flags);
r->drops = counter_u64_alloc(flags);
r->starts = counter_u64_alloc(flags);
r->stalls = counter_u64_alloc(flags);
r->restarts = counter_u64_alloc(flags);
r->abdications = counter_u64_alloc(flags);
if (r->enqueues == NULL || r->drops == NULL || r->starts == NULL ||
r->stalls == NULL || r->restarts == NULL ||
r->abdications == NULL) {
ifmp_ring_free(r);
return (ENOMEM);
}
*pr = r;
#ifdef MP_RING_NO_64BIT_ATOMICS
mtx_init(&r->lock, "mp_ring lock", NULL, MTX_DEF);
#endif
return (0);
}
void
ifmp_ring_free(struct ifmp_ring *r)
{
if (r == NULL)
return;
if (r->enqueues != NULL)
counter_u64_free(r->enqueues);
if (r->drops != NULL)
counter_u64_free(r->drops);
if (r->starts != NULL)
counter_u64_free(r->starts);
if (r->stalls != NULL)
counter_u64_free(r->stalls);
if (r->restarts != NULL)
counter_u64_free(r->restarts);
if (r->abdications != NULL)
counter_u64_free(r->abdications);
free(r, r->mt);
}
/*
* Enqueue n items and maybe drain the ring for some time.
*
* Returns an errno.
*/
#ifdef MP_RING_NO_64BIT_ATOMICS
int
ifmp_ring_enqueue(struct ifmp_ring *r, void **items, int n, int budget, int abdicate)
{
union ring_state os, ns;
uint16_t pidx_start, pidx_stop;
int i;
MPASS(items != NULL);
MPASS(n > 0);
mtx_lock(&r->lock);
/*
* Reserve room for the new items. Our reservation, if successful, is
* from 'pidx_start' to 'pidx_stop'.
*/
os.state = r->state;
if (n >= space_available(r, os)) {
counter_u64_add(r->drops, n);
MPASS(os.flags != IDLE);
mtx_unlock(&r->lock);
if (os.flags == STALLED)
ifmp_ring_check_drainage(r, 0);
return (ENOBUFS);
}
ns.state = os.state;
ns.pidx_head = increment_idx(r, os.pidx_head, n);
r->state = ns.state;
pidx_start = os.pidx_head;
pidx_stop = ns.pidx_head;
/*
* Wait for other producers who got in ahead of us to enqueue their
* items, one producer at a time. It is our turn when the ring's
* pidx_tail reaches the beginning of our reservation (pidx_start).
*/
while (ns.pidx_tail != pidx_start) {
cpu_spinwait();
ns.state = r->state;
}
/* Now it is our turn to fill up the area we reserved earlier. */
i = pidx_start;
do {
r->items[i] = *items++;
if (__predict_false(++i == r->size))
i = 0;
} while (i != pidx_stop);
/*
* Update the ring's pidx_tail. The release style atomic guarantees
* that the items are visible to any thread that sees the updated pidx.
*/
os.state = ns.state = r->state;
ns.pidx_tail = pidx_stop;
if (abdicate) {
if (os.flags == IDLE)
ns.flags = ABDICATED;
} else
ns.flags = BUSY;
r->state = ns.state;
counter_u64_add(r->enqueues, n);
if (!abdicate) {
/*
* Turn into a consumer if some other thread isn't active as a consumer
* already.
*/
if (os.flags != BUSY)
drain_ring_locked(r, ns, os.flags, budget);
}
mtx_unlock(&r->lock);
return (0);
}
#else
int
ifmp_ring_enqueue(struct ifmp_ring *r, void **items, int n, int budget, int abdicate)
{
union ring_state os, ns;
uint16_t pidx_start, pidx_stop;
int i;
MPASS(items != NULL);
MPASS(n > 0);
/*
* Reserve room for the new items. Our reservation, if successful, is
* from 'pidx_start' to 'pidx_stop'.
*/
os.state = r->state;
for (;;) {
if (n >= space_available(r, os)) {
counter_u64_add(r->drops, n);
MPASS(os.flags != IDLE);
if (os.flags == STALLED)
ifmp_ring_check_drainage(r, 0);
return (ENOBUFS);
}
ns.state = os.state;
ns.pidx_head = increment_idx(r, os.pidx_head, n);
critical_enter();
if (atomic_fcmpset_64(&r->state, &os.state, ns.state))
break;
critical_exit();
cpu_spinwait();
}
pidx_start = os.pidx_head;
pidx_stop = ns.pidx_head;
/*
* Wait for other producers who got in ahead of us to enqueue their
* items, one producer at a time. It is our turn when the ring's
* pidx_tail reaches the beginning of our reservation (pidx_start).
*/
while (ns.pidx_tail != pidx_start) {
cpu_spinwait();
ns.state = r->state;
}
/* Now it is our turn to fill up the area we reserved earlier. */
i = pidx_start;
do {
r->items[i] = *items++;
if (__predict_false(++i == r->size))
i = 0;
} while (i != pidx_stop);
/*
* Update the ring's pidx_tail. The release style atomic guarantees
* that the items are visible to any thread that sees the updated pidx.
*/
os.state = r->state;
do {
ns.state = os.state;
ns.pidx_tail = pidx_stop;
if (abdicate) {
if (os.flags == IDLE)
ns.flags = ABDICATED;
} else
ns.flags = BUSY;
} while (atomic_fcmpset_rel_64(&r->state, &os.state, ns.state) == 0);
critical_exit();
counter_u64_add(r->enqueues, n);
if (!abdicate) {
/*
* Turn into a consumer if some other thread isn't active as a consumer
* already.
*/
if (os.flags != BUSY)
drain_ring_lockless(r, ns, os.flags, budget);
}
return (0);
}
#endif
void
ifmp_ring_check_drainage(struct ifmp_ring *r, int budget)
{
union ring_state os, ns;
os.state = r->state;
if ((os.flags != STALLED && os.flags != ABDICATED) || // Only continue in STALLED and ABDICATED
os.pidx_head != os.pidx_tail || // Require work to be available
(os.flags != ABDICATED && r->can_drain(r) == 0)) // Can either drain, or everyone left
return;
MPASS(os.cidx != os.pidx_tail); /* implied by STALLED */
ns.state = os.state;
ns.flags = BUSY;
#ifdef MP_RING_NO_64BIT_ATOMICS
mtx_lock(&r->lock);
if (r->state != os.state) {
mtx_unlock(&r->lock);
return;
}
r->state = ns.state;
drain_ring_locked(r, ns, os.flags, budget);
mtx_unlock(&r->lock);
#else
/*
* The acquire style atomic guarantees visibility of items associated
* with the pidx that we read here.
*/
if (!atomic_cmpset_acq_64(&r->state, os.state, ns.state))
return;
drain_ring_lockless(r, ns, os.flags, budget);
#endif
}
void
ifmp_ring_reset_stats(struct ifmp_ring *r)
{
counter_u64_zero(r->enqueues);
counter_u64_zero(r->drops);
counter_u64_zero(r->starts);
counter_u64_zero(r->stalls);
counter_u64_zero(r->restarts);
counter_u64_zero(r->abdications);
}
int
ifmp_ring_is_idle(struct ifmp_ring *r)
{
union ring_state s;
s.state = r->state;
if (s.pidx_head == s.pidx_tail && s.pidx_tail == s.cidx &&
s.flags == IDLE)
return (1);
return (0);
}
int
ifmp_ring_is_stalled(struct ifmp_ring *r)
{
union ring_state s;
s.state = r->state;
if (s.pidx_head == s.pidx_tail && s.flags == STALLED)
return (1);
return (0);
}
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