/* * Copyright (c) 2002-2004 MontaVista Software, Inc. * Copyright (c) 2006-2011 Red Hat, Inc. * * All rights reserved. * * Author: Steven Dake (sdake@redhat.com) * * This software licensed under BSD license, the text of which follows: * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - 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. * - Neither the name of the MontaVista Software, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT OWNER 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. */ #ifndef CS_QUEUE_H_DEFINED #define CS_QUEUE_H_DEFINED #include #include #include #include #include "assert.h" struct cs_queue { int head; int tail; int used; int usedhw; size_t size; void *items; size_t size_per_item; int iterator; pthread_mutex_t mutex; int threaded_mode_enabled; }; static inline int cs_queue_init (struct cs_queue *cs_queue, size_t cs_queue_items, size_t size_per_item, int threaded_mode_enabled) { cs_queue->head = 0; cs_queue->tail = cs_queue_items - 1; cs_queue->used = 0; cs_queue->usedhw = 0; cs_queue->size = cs_queue_items; cs_queue->size_per_item = size_per_item; cs_queue->threaded_mode_enabled = threaded_mode_enabled; cs_queue->items = malloc (cs_queue_items * size_per_item); if (cs_queue->items == 0) { return (-ENOMEM); } memset (cs_queue->items, 0, cs_queue_items * size_per_item); if (cs_queue->threaded_mode_enabled) { pthread_mutex_init (&cs_queue->mutex, NULL); } return (0); } static inline int cs_queue_reinit (struct cs_queue *cs_queue) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue->head = 0; cs_queue->tail = cs_queue->size - 1; cs_queue->used = 0; cs_queue->usedhw = 0; memset (cs_queue->items, 0, cs_queue->size * cs_queue->size_per_item); if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (0); } static inline void cs_queue_free (struct cs_queue *cs_queue) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_destroy (&cs_queue->mutex); } free (cs_queue->items); } static inline int cs_queue_is_full (struct cs_queue *cs_queue) { int full; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } full = ((cs_queue->size - 1) == cs_queue->used); if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (full); } static inline int cs_queue_is_empty (struct cs_queue *cs_queue) { int empty; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } empty = (cs_queue->used == 0); if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (empty); } static inline void cs_queue_item_add (struct cs_queue *cs_queue, void *item) { char *cs_queue_item; int cs_queue_position; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue_position = cs_queue->head; cs_queue_item = cs_queue->items; cs_queue_item += cs_queue_position * cs_queue->size_per_item; memcpy (cs_queue_item, item, cs_queue->size_per_item); assert (cs_queue->tail != cs_queue->head); cs_queue->head = (cs_queue->head + 1) % cs_queue->size; cs_queue->used++; if (cs_queue->used > cs_queue->usedhw) { cs_queue->usedhw = cs_queue->used; } if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } } static inline void *cs_queue_item_get (struct cs_queue *cs_queue) { char *cs_queue_item; int cs_queue_position; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue_position = (cs_queue->tail + 1) % cs_queue->size; cs_queue_item = cs_queue->items; cs_queue_item += cs_queue_position * cs_queue->size_per_item; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return ((void *)cs_queue_item); } static inline void cs_queue_item_remove (struct cs_queue *cs_queue) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue->tail = (cs_queue->tail + 1) % cs_queue->size; assert (cs_queue->tail != cs_queue->head); cs_queue->used--; assert (cs_queue->used >= 0); if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } } static inline void cs_queue_items_remove (struct cs_queue *cs_queue, int rel_count) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue->tail = (cs_queue->tail + rel_count) % cs_queue->size; assert (cs_queue->tail != cs_queue->head); cs_queue->used -= rel_count; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } } static inline void cs_queue_item_iterator_init (struct cs_queue *cs_queue) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue->iterator = (cs_queue->tail + 1) % cs_queue->size; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } } static inline void *cs_queue_item_iterator_get (struct cs_queue *cs_queue) { char *cs_queue_item; int cs_queue_position; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue_position = (cs_queue->iterator) % cs_queue->size; if (cs_queue->iterator == cs_queue->head) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (0); } cs_queue_item = cs_queue->items; cs_queue_item += cs_queue_position * cs_queue->size_per_item; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return ((void *)cs_queue_item); } static inline int cs_queue_item_iterator_next (struct cs_queue *cs_queue) { int next_res; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } cs_queue->iterator = (cs_queue->iterator + 1) % cs_queue->size; next_res = cs_queue->iterator == cs_queue->head; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (next_res); } static inline void cs_queue_avail (struct cs_queue *cs_queue, int *avail) { if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } *avail = cs_queue->size - cs_queue->used - 2; assert (*avail >= 0); if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } } static inline int cs_queue_used (struct cs_queue *cs_queue) { int used; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } used = cs_queue->used; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (used); } static inline int cs_queue_usedhw (struct cs_queue *cs_queue) { int usedhw; if (cs_queue->threaded_mode_enabled) { pthread_mutex_lock (&cs_queue->mutex); } usedhw = cs_queue->usedhw; if (cs_queue->threaded_mode_enabled) { pthread_mutex_unlock (&cs_queue->mutex); } return (usedhw); } #endif /* CS_QUEUE_H_DEFINED */