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/*
* Ouroboros - Copyright (C) 2016 - 2021
*
* Ring buffer for incoming packets
*
* Dimitri Staessens <dimitri@ouroboros.rocks>
* Sander Vrijders <sander@ouroboros.rocks>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* version 2.1 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., http://www.fsf.org/about/contact/.
*/
void shm_rbuff_destroy(struct shm_rbuff * rb)
{
char fn[FN_MAX_CHARS];
assert(rb);
#ifdef CONFIG_OUROBOROS_DEBUG
pthread_mutex_lock(rb->lock);
*rb->acl = *rb->acl & ACL_FLOWDOWN;
pthread_cond_broadcast(rb->del);
pthread_cond_broadcast(rb->add);
pthread_mutex_unlock(rb->lock);
#endif
sprintf(fn, SHM_RBUFF_PREFIX "%d.%d", rb->pid, rb->flow_id);
shm_rbuff_close(rb);
shm_unlink(fn);
}
int shm_rbuff_write(struct shm_rbuff * rb,
size_t idx)
{
int ret = 0;
assert(rb);
assert(idx < SHM_BUFFER_SIZE);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
if (*rb->acl != ACL_RDWR) {
if (*rb->acl & ACL_FLOWDOWN)
ret = -EFLOWDOWN;
else if (*rb->acl & ACL_RDONLY)
ret = -ENOTALLOC;
goto err;
}
if (!shm_rbuff_free(rb)) {
ret = -EAGAIN;
goto err;
}
if (shm_rbuff_empty(rb))
pthread_cond_broadcast(rb->add);
*head_el_ptr(rb) = (ssize_t) idx;
*rb->head = (*rb->head + 1) & ((SHM_RBUFF_SIZE) - 1);
pthread_mutex_unlock(rb->lock);
return 0;
err:
pthread_mutex_unlock(rb->lock);
return ret;
}
int shm_rbuff_write_b(struct shm_rbuff * rb,
size_t idx,
const struct timespec * abstime)
{
int ret = 0;
assert(rb);
assert(idx < SHM_BUFFER_SIZE);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
if (*rb->acl != ACL_RDWR) {
if (*rb->acl & ACL_FLOWDOWN)
ret = -EFLOWDOWN;
else if (*rb->acl & ACL_RDONLY)
ret = -ENOTALLOC;
goto err;
}
pthread_cleanup_push(__cleanup_mutex_unlock, rb->lock);
while (!shm_rbuff_free(rb)
&& ret != -ETIMEDOUT
&& !(*rb->acl & ACL_FLOWDOWN)) {
if (abstime != NULL)
ret = -pthread_cond_timedwait(rb->del,
rb->lock,
abstime);
else
ret = -pthread_cond_wait(rb->del, rb->lock);
#ifdef HAVE_ROBUST_MUTEX
if (ret == -EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
}
if (ret != -ETIMEDOUT) {
if (shm_rbuff_empty(rb))
pthread_cond_broadcast(rb->add);
*head_el_ptr(rb) = (ssize_t) idx;
*rb->head = (*rb->head + 1) & ((SHM_RBUFF_SIZE) - 1);
}
pthread_cleanup_pop(true);
return ret;
err:
pthread_mutex_unlock(rb->lock);
return ret;
}
static int check_rb_acl(struct shm_rbuff * rb)
{
if (*rb->acl & ACL_FLOWDOWN)
return -EFLOWDOWN;
if (*rb->acl & ACL_FLOWPEER)
return -EFLOWPEER;
return -EAGAIN;
}
ssize_t shm_rbuff_read(struct shm_rbuff * rb)
{
ssize_t ret = 0;
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
if (shm_rbuff_empty(rb)) {
ret = check_rb_acl(rb);
pthread_mutex_unlock(rb->lock);
return ret;
}
ret = *tail_el_ptr(rb);
*rb->tail = (*rb->tail + 1) & ((SHM_RBUFF_SIZE) - 1);
pthread_cond_broadcast(rb->del);
pthread_mutex_unlock(rb->lock);
return ret;
}
ssize_t shm_rbuff_read_b(struct shm_rbuff * rb,
const struct timespec * abstime)
{
ssize_t idx = -1;
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
if (shm_rbuff_empty(rb) && (*rb->acl & ACL_FLOWDOWN)) {
pthread_mutex_unlock(rb->lock);
return -EFLOWDOWN;
}
pthread_cleanup_push(__cleanup_mutex_unlock, rb->lock);
while (shm_rbuff_empty(rb) &&
idx != -ETIMEDOUT &&
check_rb_acl(rb) == -EAGAIN) {
if (abstime != NULL)
idx = -pthread_cond_timedwait(rb->add,
rb->lock,
abstime);
else
idx = -pthread_cond_wait(rb->add, rb->lock);
#ifdef HAVE_ROBUST_MUTEX
if (idx == -EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
}
if (!shm_rbuff_empty(rb)) {
idx = *tail_el_ptr(rb);
*rb->tail = (*rb->tail + 1) & ((SHM_RBUFF_SIZE) - 1);
pthread_cond_broadcast(rb->del);
} else if (idx != -ETIMEDOUT) {
idx = check_rb_acl(rb);
}
pthread_cleanup_pop(true);
assert(idx != -EAGAIN);
return idx;
}
void shm_rbuff_set_acl(struct shm_rbuff * rb,
uint32_t flags)
{
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
*rb->acl = (size_t) flags;
pthread_cond_broadcast(rb->del);
pthread_cond_broadcast(rb->add);
pthread_mutex_unlock(rb->lock);
}
uint32_t shm_rbuff_get_acl(struct shm_rbuff * rb)
{
uint32_t flags;
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
flags = (uint32_t) *rb->acl;
pthread_mutex_unlock(rb->lock);
return flags;
}
void shm_rbuff_fini(struct shm_rbuff * rb)
{
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
pthread_cleanup_push(__cleanup_mutex_unlock, rb->lock);
while (!shm_rbuff_empty(rb))
#ifndef HAVE_ROBUST_MUTEX
pthread_cond_wait(rb->del, rb->lock);
#else
if (pthread_cond_wait(rb->del, rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
pthread_cleanup_pop(true);
}
size_t shm_rbuff_queued(struct shm_rbuff * rb)
{
size_t ret;
assert(rb);
#ifndef HAVE_ROBUST_MUTEX
pthread_mutex_lock(rb->lock);
#else
if (pthread_mutex_lock(rb->lock) == EOWNERDEAD)
pthread_mutex_consistent(rb->lock);
#endif
ret = shm_rbuff_used(rb);
pthread_mutex_unlock(rb->lock);
return ret;
}
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