/* * Copyright (c) 2014-2021 The Linux Foundation. All rights reserved. * * Permission to use, copy, modify, and/or distribute this software for * any purpose with or without fee is hereby granted, provided that the * above copyright notice and this permission notice appear in all * copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /** * DOC: qdf_defer.h * This file abstracts deferred execution API's. */ #ifndef __QDF_DEFER_H #define __QDF_DEFER_H #include #include /** * TODO This implements work queues (worker threads, kernel threads etc.). * Note that there is no cancel on a scheduled work. You cannot free a work * item if its queued. You cannot know if a work item is queued or not unless * its running, hence you know its not queued. * * so if, say, a module is asked to unload itself, how exactly will it make * sure that the work's not queued, for OS'es that dont provide such a * mechanism?? */ /* * Representation of a work queue. */ typedef __qdf_work_t qdf_work_t; typedef __qdf_workqueue_t qdf_workqueue_t; /* * Representation of a bottom half. */ typedef __qdf_bh_t qdf_bh_t; #ifdef ENHANCED_OS_ABSTRACTION /** * qdf_create_bh - creates the bottom half deferred handler * @bh: pointer to bottom * @func: deferred function to run at bottom half interrupt context. * @arg: argument for the deferred function * Return: none */ void qdf_create_bh(qdf_bh_t *bh, qdf_defer_fn_t func, void *arg); /** * qdf_sched - schedule a bottom half (DPC) * @bh: pointer to bottom * Return: none */ void qdf_sched_bh(qdf_bh_t *bh); /** * qdf_destroy_bh - destroy the bh (synchronous) * @bh: pointer to bottom * Return: none */ void qdf_destroy_bh(qdf_bh_t *bh); /** * qdf_create_workqueue - create a workqueue, This runs in non-interrupt * context, so can be preempted by H/W & S/W intr * @name: string * * Return: pointer of type qdf_workqueue_t */ qdf_workqueue_t *qdf_create_workqueue(char *name); /** * qdf_create_singlethread_workqueue() - create a single threaded workqueue * @name: string * * This API creates a dedicated work queue with a single worker thread to avoid * wasting unnecessary resources when works which needs to be submitted in this * queue are not very critical and frequent. * * Return: pointer of type qdf_workqueue_t */ qdf_workqueue_t *qdf_create_singlethread_workqueue(char *name); /** * qdf_alloc_unbound_workqueue - allocate an unbound workqueue * @name: string * * Return: pointer of type qdf_workqueue_t */ qdf_workqueue_t *qdf_alloc_unbound_workqueue(char *name); /** * qdf_destroy_workqueue - Destroy the workqueue * @hdl: OS handle * @wqueue: pointer to workqueue * * Return: none */ void qdf_destroy_workqueue(qdf_handle_t hdl, qdf_workqueue_t *wqueue); /** * qdf_cancel_work() - Cancel a work * @work: pointer to work * * Cancel work and wait for its execution to finish. * This function can be used even if the work re-queues * itself or migrates to another workqueue. On return * from this function, work is guaranteed to be not * pending or executing on any CPU. The caller must * ensure that the workqueue on which work was last * queued can't be destroyed before this function returns. * * Return: true if work was pending, false otherwise */ bool qdf_cancel_work(qdf_work_t *work); /** * qdf_disable_work - disable the deferred task (synchronous) * @work: pointer to work * * Return: unsigned int */ uint32_t qdf_disable_work(qdf_work_t *work); /** * qdf_flush_work - Flush a deferred task on non-interrupt context * @work: pointer to work * * Wait until work has finished execution. work is guaranteed to be * idle on return if it hasn't been requeued since flush started. * * Return: none */ void qdf_flush_work(qdf_work_t *work); /** * qdf_create_work - create a work/task queue, This runs in non-interrupt * context, so can be preempted by H/W & S/W intr * @hdl: OS handle * @work: pointer to work * @func: deferred function to run at bottom half non-interrupt context. * @arg: argument for the deferred function * * Return: QDF status */ QDF_STATUS qdf_create_work(qdf_handle_t hdl, qdf_work_t *work, qdf_defer_fn_t func, void *arg); /** * qdf_sched_work - Schedule a deferred task on non-interrupt context * @hdl: OS handle * @work: pointer to work * * Retrun: none */ void qdf_sched_work(qdf_handle_t hdl, qdf_work_t *work); /** * qdf_queue_work - Queue the work/task * @hdl: OS handle * @wqueue: pointer to workqueue * @work: pointer to work * * Return: false if work was already on a queue, true otherwise */ bool qdf_queue_work(qdf_handle_t hdl, qdf_workqueue_t *wqueue, qdf_work_t *work); /** * qdf_flush_workqueue - flush the workqueue * @hdl: OS handle * @wqueue: pointer to workqueue * * Return: none */ void qdf_flush_workqueue(qdf_handle_t hdl, qdf_workqueue_t *wqueue); /** * qdf_destroy_work - destroy the deferred task (synchronous) * @hdl: OS handle * @work: pointer to work * * Return: none */ void qdf_destroy_work(qdf_handle_t hdl, qdf_work_t *work); #else /** * qdf_create_bh - creates the bottom half deferred handler * @bh: pointer to bottom * @func: deferred function to run at bottom half interrupt context. * @arg: argument for the deferred function * Return: none */ static inline void qdf_create_bh(qdf_bh_t *bh, qdf_defer_fn_t func, void *arg) { __qdf_init_bh(bh, func, arg); } /** * qdf_sched - schedule a bottom half (DPC) * @bh: pointer to bottom * Return: none */ static inline void qdf_sched_bh(qdf_bh_t *bh) { __qdf_sched_bh(bh); } /** * qdf_destroy_bh - destroy the bh (synchronous) * @bh: pointer to bottom * Return: none */ static inline void qdf_destroy_bh(qdf_bh_t *bh) { __qdf_disable_bh(bh); } /*********************Non-Interrupt Context deferred Execution***************/ /** * qdf_create_work - create a work/task queue, This runs in non-interrupt * context, so can be preempted by H/W & S/W intr * @hdl: OS handle * @work: pointer to work * @func: deferred function to run at bottom half non-interrupt context. * @arg: argument for the deferred function * * Return: QDF status */ static inline QDF_STATUS qdf_create_work(qdf_handle_t hdl, qdf_work_t *work, qdf_defer_fn_t func, void *arg) { return __qdf_init_work(work, func, arg); } #if 0 /** * qdf_create_workqueue - create a workqueue, This runs in non-interrupt * context, so can be preempted by H/W & S/W intr * @name: string * Return: pointer of type qdf_workqueue_t */ static inline qdf_workqueue_t *qdf_create_workqueue(char *name) { return __qdf_create_workqueue(name); } #endif /** * qdf_create_singlethread_workqueue() - create a single threaded workqueue * @name: string * * This API creates a dedicated work queue with a single worker thread to avoid * wasting unnecessary resources when works which needs to be submitted in this * queue are not very critical and frequent. * * Return: pointer of type qdf_workqueue_t */ static inline qdf_workqueue_t *qdf_create_singlethread_workqueue(char *name) { return __qdf_create_singlethread_workqueue(name); } #if 0 /** * qdf_alloc_high_prior_ordered_workqueue - alloc high-prior ordered workqueue * @name: string * * Return: pointer of type qdf_workqueue_t */ static inline qdf_workqueue_t *qdf_alloc_high_prior_ordered_workqueue(char *name) { return __qdf_alloc_high_prior_ordered_workqueue(name); } /** * qdf_alloc_unbound_workqueue - allocate an unbound workqueue * @name: string * * Return: pointer of type qdf_workqueue_t */ static inline qdf_workqueue_t *qdf_alloc_unbound_workqueue(char *name) { return __qdf_alloc_unbound_workqueue(name); } #endif /** * qdf_queue_work - Queue the work/task * @hdl: OS handle * @wqueue: pointer to workqueue * @work: pointer to work * Return: false if work was already on a queue, true otherwise */ static inline bool qdf_queue_work(qdf_handle_t hdl, qdf_workqueue_t *wqueue, qdf_work_t *work) { return __qdf_queue_work(wqueue, work); } /** * qdf_flush_workqueue - flush the workqueue * @hdl: OS handle * @wqueue: pointer to workqueue * Return: none */ static inline void qdf_flush_workqueue(qdf_handle_t hdl, qdf_workqueue_t *wqueue) { return __qdf_flush_workqueue(wqueue); } #if 0 /** * qdf_destroy_workqueue - Destroy the workqueue * @hdl: OS handle * @wqueue: pointer to workqueue * Return: none */ static inline void qdf_destroy_workqueue(qdf_handle_t hdl, qdf_workqueue_t *wqueue) { return __qdf_destroy_workqueue(wqueue); } #endif /** * qdf_sched_work - Schedule a deferred task on non-interrupt context * @hdl: OS handle * @work: pointer to work * Retrun: none */ static inline void qdf_sched_work(qdf_handle_t hdl, qdf_work_t *work) { __qdf_sched_work(work); } #if 0 /** * qdf_cancel_work() - Cancel a work * @work: pointer to work * * Cancel work and wait for its execution to finish. * This function can be used even if the work re-queues * itself or migrates to another workqueue. On return * from this function, work is guaranteed to be not * pending or executing on any CPU. The caller must * ensure that the workqueue on which work was last * queued can't be destroyed before this function returns. * * Return: true if work was pending, false otherwise */ static inline bool qdf_cancel_work(qdf_work_t *work) { return __qdf_cancel_work(work); } #endif #if 1 /** * qdf_destroy_work - destroy the deferred task (synchronous) * @hdl: OS handle * @work: pointer to work * Return: none */ void qdf_destroy_work(qdf_handle_t hdl, qdf_work_t *work); #endif /** * qdf_flush_work - Flush a deferred task on non-interrupt context * @work: pointer to work * * Wait until work has finished execution. work is guaranteed to be * idle on return if it hasn't been requeued since flush started. * * Return: none */ #if 0 static inline void qdf_flush_work(qdf_work_t *work) { __qdf_flush_work(work); } #else void qdf_flush_work(qdf_work_t *work); #endif /** * qdf_disable_work - disable the deferred task (synchronous) * @work: pointer to work * Return: unsigned int */ #if 0 static inline uint32_t qdf_disable_work(qdf_work_t *work) { return __qdf_disable_work(work); } #else uint32_t qdf_disable_work(qdf_work_t *work); #endif #if 0 /** * qdf_destroy_work - destroy the deferred task (synchronous) * @hdl: OS handle * @work: pointer to work * Return: none */ static inline void qdf_destroy_work(qdf_handle_t hdl, qdf_work_t *work) { __qdf_disable_work(work); } #endif #if 1 /** * qdf_cancel_work() - Cancel a work * @work: pointer to work * * Cancel work and wait for its execution to finish. * This function can be used even if the work re-queues * itself or migrates to another workqueue. On return * from this function, work is guaranteed to be not * pending or executing on any CPU. The caller must * ensure that the workqueue on which work was last * queued can't be destroyed before this function returns. * * Return: true if work was pending, false otherwise */ bool qdf_cancel_work(qdf_work_t *work); /** * qdf_create_workqueue - create a workqueue, This runs in non-interrupt * context, so can be preempted by H/W & S/W intr * @name: string * Return: pointer of type qdf_workqueue_t */ qdf_workqueue_t *qdf_create_workqueue(char *name); /** * qdf_destroy_workqueue - Destroy the workqueue * @hdl: OS handle * @wqueue: pointer to workqueue * Return: none */ void qdf_destroy_workqueue(qdf_handle_t hdl, qdf_workqueue_t *wqueue); /** * qdf_alloc_unbound_workqueue - allocate an unbound workqueue * @name: string * * Return: pointer of type qdf_workqueue_t */ qdf_workqueue_t *qdf_alloc_unbound_workqueue(char *name); #endif #endif #endif /*_QDF_DEFER_H*/