/* * Copyright (C) 2013-2018 ARM Limited. All rights reserved. * * This program is free software and is provided to you under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. * * A copy of the licence is included with the program, and can also be obtained from Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include "mali_timeline.h" #include "mali_kernel_common.h" #include "mali_scheduler.h" #include "mali_soft_job.h" #include "mali_timeline_fence_wait.h" #include "mali_timeline_sync_fence.h" #include "mali_executor.h" #include "mali_pp_job.h" #define MALI_TIMELINE_SYSTEM_LOCKED(system) (mali_spinlock_reentrant_is_held((system)->spinlock, _mali_osk_get_tid())) #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) _mali_osk_wq_work_t *sync_fence_callback_work_t = NULL; _mali_osk_spinlock_irq_t *sync_fence_callback_list_lock = NULL; static _MALI_OSK_LIST_HEAD_STATIC_INIT(sync_fence_callback_queue); #endif /* * Following three elements are used to record how many * gp, physical pp or virtual pp jobs are delayed in the whole * timeline system, we can use these three value to decide * if need to deactivate idle group. */ _mali_osk_atomic_t gp_tracker_count; _mali_osk_atomic_t phy_pp_tracker_count; _mali_osk_atomic_t virt_pp_tracker_count; static mali_scheduler_mask mali_timeline_system_release_waiter(struct mali_timeline_system *system, struct mali_timeline_waiter *waiter); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) #include #if LINUX_VERSION_CODE < KERNEL_VERSION(3,5,0) #include #include #include struct mali_deferred_fence_put_entry { struct hlist_node list; struct sync_fence *fence; }; static HLIST_HEAD(mali_timeline_sync_fence_to_free_list); static DEFINE_SPINLOCK(mali_timeline_sync_fence_to_free_lock); static void put_sync_fences(struct work_struct *ignore) { struct hlist_head list; struct hlist_node *tmp, *pos; unsigned long flags; struct mali_deferred_fence_put_entry *o; spin_lock_irqsave(&mali_timeline_sync_fence_to_free_lock, flags); hlist_move_list(&mali_timeline_sync_fence_to_free_list, &list); spin_unlock_irqrestore(&mali_timeline_sync_fence_to_free_lock, flags); hlist_for_each_entry_safe(o, pos, tmp, &list, list) { sync_fence_put(o->fence); kfree(o); } } static DECLARE_DELAYED_WORK(delayed_sync_fence_put, put_sync_fences); #endif /* LINUX_VERSION_CODE < KERNEL_VERSION(3,5,0) */ /* Callback that is called when a sync fence a tracker is waiting on is signaled. */ #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) static void mali_timeline_sync_fence_callback(struct sync_fence *sync_fence, struct sync_fence_waiter *sync_fence_waiter) #else static void mali_timeline_sync_fence_callback(struct mali_internal_sync_fence *sync_fence, struct mali_internal_sync_fence_waiter *sync_fence_waiter) #endif { struct mali_timeline_tracker *tracker; MALI_IGNORE(sync_fence); MALI_DEBUG_ASSERT_POINTER(sync_fence_waiter); tracker = _MALI_OSK_CONTAINER_OF(sync_fence_waiter, struct mali_timeline_tracker, sync_fence_waiter); MALI_DEBUG_ASSERT_POINTER(tracker); _mali_osk_spinlock_irq_lock(sync_fence_callback_list_lock); _mali_osk_list_addtail(&tracker->sync_fence_signal_list, &sync_fence_callback_queue); _mali_osk_spinlock_irq_unlock(sync_fence_callback_list_lock); _mali_osk_wq_schedule_work(sync_fence_callback_work_t); } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ static mali_scheduler_mask mali_timeline_tracker_time_out(struct mali_timeline_tracker *tracker) { MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_SOFT == tracker->type); return mali_soft_job_system_timeout_job((struct mali_soft_job *) tracker->job); } static void mali_timeline_timer_callback(void *data) { struct mali_timeline_system *system; struct mali_timeline_tracker *tracker; struct mali_timeline *timeline; mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; u32 tid = _mali_osk_get_tid(); timeline = (struct mali_timeline *) data; MALI_DEBUG_ASSERT_POINTER(timeline); system = timeline->system; MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); if (!system->timer_enabled) { mali_spinlock_reentrant_signal(system->spinlock, tid); return; } tracker = timeline->tracker_tail; timeline->timer_active = MALI_FALSE; if (NULL != tracker && MALI_TRUE == tracker->timer_active) { /* This is likely the delayed work that has been schedule out before cancelled. */ if (MALI_TIMELINE_TIMEOUT_HZ > (_mali_osk_time_tickcount() - tracker->os_tick_activate)) { mali_spinlock_reentrant_signal(system->spinlock, tid); return; } schedule_mask = mali_timeline_tracker_time_out(tracker); tracker->timer_active = MALI_FALSE; } else { MALI_PRINT_ERROR(("Mali Timeline: Soft job timer callback without a waiting tracker.\n")); } mali_spinlock_reentrant_signal(system->spinlock, tid); mali_executor_schedule_from_mask(schedule_mask, MALI_FALSE); } void mali_timeline_system_stop_timer(struct mali_timeline_system *system) { u32 i; u32 tid = _mali_osk_get_tid(); MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); system->timer_enabled = MALI_FALSE; mali_spinlock_reentrant_signal(system->spinlock, tid); for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); if (NULL != timeline->delayed_work) { _mali_osk_wq_delayed_cancel_work_sync(timeline->delayed_work); timeline->timer_active = MALI_FALSE; } } } static void mali_timeline_destroy(struct mali_timeline *timeline) { MALI_DEBUG_ASSERT_POINTER(timeline); if (NULL != timeline) { /* Assert that the timeline object has been properly cleaned up before destroying it. */ MALI_DEBUG_ASSERT(timeline->point_oldest == timeline->point_next); MALI_DEBUG_ASSERT(NULL == timeline->tracker_head); MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail); MALI_DEBUG_ASSERT(NULL == timeline->waiter_head); MALI_DEBUG_ASSERT(NULL == timeline->waiter_tail); MALI_DEBUG_ASSERT(NULL != timeline->system); MALI_DEBUG_ASSERT(MALI_TIMELINE_MAX > timeline->id); if (NULL != timeline->delayed_work) { _mali_osk_wq_delayed_cancel_work_sync(timeline->delayed_work); _mali_osk_wq_delayed_delete_work_nonflush(timeline->delayed_work); } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (NULL != timeline->sync_tl) { #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_timeline_destroy(timeline->sync_tl); #else mali_internal_sync_timeline_destroy(timeline->sync_tl); #endif } #else _mali_osk_free(timeline); #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ } } static struct mali_timeline *mali_timeline_create(struct mali_timeline_system *system, enum mali_timeline_id id) { struct mali_timeline *timeline; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(id < MALI_TIMELINE_MAX); timeline = (struct mali_timeline *) _mali_osk_calloc(1, sizeof(struct mali_timeline)); if (NULL == timeline) { return NULL; } /* Initially the timeline is empty. */ #if defined(MALI_TIMELINE_DEBUG_START_POINT) /* Start the timeline a bit before wrapping when debugging. */ timeline->point_next = UINT_MAX - MALI_TIMELINE_MAX_POINT_SPAN - 128; #else timeline->point_next = 1; #endif timeline->point_oldest = timeline->point_next; /* The tracker and waiter lists will initially be empty. */ timeline->system = system; timeline->id = id; timeline->delayed_work = _mali_osk_wq_delayed_create_work(mali_timeline_timer_callback, timeline); if (NULL == timeline->delayed_work) { mali_timeline_destroy(timeline); return NULL; } timeline->timer_active = MALI_FALSE; #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) { char timeline_name[32]; switch (id) { case MALI_TIMELINE_GP: _mali_osk_snprintf(timeline_name, 32, "mali-%u-gp", _mali_osk_get_pid()); break; case MALI_TIMELINE_PP: _mali_osk_snprintf(timeline_name, 32, "mali-%u-pp", _mali_osk_get_pid()); break; case MALI_TIMELINE_SOFT: _mali_osk_snprintf(timeline_name, 32, "mali-%u-soft", _mali_osk_get_pid()); break; default: MALI_PRINT_ERROR(("Mali Timeline: Invalid timeline id %d\n", id)); mali_timeline_destroy(timeline); return NULL; } timeline->destroyed = MALI_FALSE; timeline->sync_tl = mali_sync_timeline_create(timeline, timeline_name); if (NULL == timeline->sync_tl) { mali_timeline_destroy(timeline); return NULL; } timeline->spinlock = mali_spinlock_reentrant_init(_MALI_OSK_LOCK_ORDER_TIMELINE_SYSTEM); if (NULL == timeline->spinlock) { mali_timeline_destroy(timeline); return NULL; } } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ return timeline; } static void mali_timeline_insert_tracker(struct mali_timeline *timeline, struct mali_timeline_tracker *tracker) { MALI_DEBUG_ASSERT_POINTER(timeline); MALI_DEBUG_ASSERT_POINTER(tracker); if (mali_timeline_is_full(timeline)) { /* Don't add tracker if timeline is full. */ tracker->point = MALI_TIMELINE_NO_POINT; return; } tracker->timeline = timeline; tracker->point = timeline->point_next; /* Find next available point. */ timeline->point_next++; if (MALI_TIMELINE_NO_POINT == timeline->point_next) { timeline->point_next++; } MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline)); if (MALI_TIMELINE_TRACKER_GP == tracker->type) { _mali_osk_atomic_inc(&gp_tracker_count); } else if (MALI_TIMELINE_TRACKER_PP == tracker->type) { if (mali_pp_job_is_virtual((struct mali_pp_job *)tracker->job)) { _mali_osk_atomic_inc(&virt_pp_tracker_count); } else { _mali_osk_atomic_inc(&phy_pp_tracker_count); } } /* Add tracker as new head on timeline's tracker list. */ if (NULL == timeline->tracker_head) { /* Tracker list is empty. */ MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail); timeline->tracker_tail = tracker; MALI_DEBUG_ASSERT(NULL == tracker->timeline_next); MALI_DEBUG_ASSERT(NULL == tracker->timeline_prev); } else { MALI_DEBUG_ASSERT(NULL == timeline->tracker_head->timeline_next); tracker->timeline_prev = timeline->tracker_head; timeline->tracker_head->timeline_next = tracker; MALI_DEBUG_ASSERT(NULL == tracker->timeline_next); } timeline->tracker_head = tracker; MALI_DEBUG_ASSERT(NULL == timeline->tracker_head->timeline_next); MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail->timeline_prev); } /* Inserting the waiter object into the given timeline */ static void mali_timeline_insert_waiter(struct mali_timeline *timeline, struct mali_timeline_waiter *waiter_new) { struct mali_timeline_waiter *waiter_prev; struct mali_timeline_waiter *waiter_next; /* Waiter time must be between timeline head and tail, and there must * be less than MALI_TIMELINE_MAX_POINT_SPAN elements between */ MALI_DEBUG_ASSERT((waiter_new->point - timeline->point_oldest) < MALI_TIMELINE_MAX_POINT_SPAN); MALI_DEBUG_ASSERT((-waiter_new->point + timeline->point_next) < MALI_TIMELINE_MAX_POINT_SPAN); /* Finding out where to put this waiter, in the linked waiter list of the given timeline **/ waiter_prev = timeline->waiter_head; /* Insert new after waiter_prev */ waiter_next = NULL; /* Insert new before waiter_next */ /* Iterating backwards from head (newest) to tail (oldest) until we * find the correct spot to insert the new waiter */ while (waiter_prev && mali_timeline_point_after(waiter_prev->point, waiter_new->point)) { waiter_next = waiter_prev; waiter_prev = waiter_prev->timeline_prev; } if (NULL == waiter_prev && NULL == waiter_next) { /* list is empty */ timeline->waiter_head = waiter_new; timeline->waiter_tail = waiter_new; } else if (NULL == waiter_next) { /* insert at head */ waiter_new->timeline_prev = timeline->waiter_head; timeline->waiter_head->timeline_next = waiter_new; timeline->waiter_head = waiter_new; } else if (NULL == waiter_prev) { /* insert at tail */ waiter_new->timeline_next = timeline->waiter_tail; timeline->waiter_tail->timeline_prev = waiter_new; timeline->waiter_tail = waiter_new; } else { /* insert between */ waiter_new->timeline_next = waiter_next; waiter_new->timeline_prev = waiter_prev; waiter_next->timeline_prev = waiter_new; waiter_prev->timeline_next = waiter_new; } } static void mali_timeline_update_delayed_work(struct mali_timeline *timeline) { struct mali_timeline_system *system; struct mali_timeline_tracker *oldest_tracker; MALI_DEBUG_ASSERT_POINTER(timeline); MALI_DEBUG_ASSERT(MALI_TIMELINE_SOFT == timeline->id); system = timeline->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); /* Timer is disabled, early out. */ if (!system->timer_enabled) return; oldest_tracker = timeline->tracker_tail; if (NULL != oldest_tracker && 0 == oldest_tracker->trigger_ref_count) { if (MALI_FALSE == oldest_tracker->timer_active) { if (MALI_TRUE == timeline->timer_active) { _mali_osk_wq_delayed_cancel_work_async(timeline->delayed_work); } _mali_osk_wq_delayed_schedule_work(timeline->delayed_work, MALI_TIMELINE_TIMEOUT_HZ); oldest_tracker->timer_active = MALI_TRUE; timeline->timer_active = MALI_TRUE; } } else if (MALI_TRUE == timeline->timer_active) { _mali_osk_wq_delayed_cancel_work_async(timeline->delayed_work); timeline->timer_active = MALI_FALSE; } } static mali_scheduler_mask mali_timeline_update_oldest_point(struct mali_timeline *timeline) { mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; MALI_DEBUG_ASSERT_POINTER(timeline); MALI_DEBUG_CODE({ struct mali_timeline_system *system = timeline->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); }); if (NULL != timeline->tracker_tail) { /* Set oldest point to oldest tracker's point */ timeline->point_oldest = timeline->tracker_tail->point; } else { /* No trackers, mark point list as empty */ timeline->point_oldest = timeline->point_next; } /* Release all waiters no longer on the timeline's point list. * Releasing a waiter can trigger this function to be called again, so * we do not store any pointers on stack. */ while (NULL != timeline->waiter_tail) { u32 waiter_time_relative; u32 time_head_relative; struct mali_timeline_waiter *waiter = timeline->waiter_tail; time_head_relative = timeline->point_next - timeline->point_oldest; waiter_time_relative = waiter->point - timeline->point_oldest; if (waiter_time_relative < time_head_relative) { /* This and all following waiters are on the point list, so we are done. */ break; } /* Remove waiter from timeline's waiter list. */ if (NULL != waiter->timeline_next) { waiter->timeline_next->timeline_prev = NULL; } else { /* This was the last waiter */ timeline->waiter_head = NULL; } timeline->waiter_tail = waiter->timeline_next; /* Release waiter. This could activate a tracker, if this was * the last waiter for the tracker. */ schedule_mask |= mali_timeline_system_release_waiter(timeline->system, waiter); } return schedule_mask; } static mali_scheduler_mask mali_timeline_release_with_depended_point(struct mali_timeline_tracker *tracker) { struct mali_timeline *timeline; struct mali_timeline_waiter *waiter; mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; timeline = tracker->timeline; MALI_DEBUG_ASSERT_POINTER(timeline); MALI_DEBUG_ASSERT(MALI_TIMELINE_SOFT == timeline->id); MALI_DEBUG_CODE({ struct mali_timeline_system *system = timeline->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); }); /* Only release the waiter that wait for the tracker. */ waiter = timeline->waiter_tail; while (NULL != waiter) { if (waiter->point == tracker->point) { struct mali_timeline_waiter *waiter_next; struct mali_timeline_waiter *waiter_prev; waiter_next = waiter->timeline_next; waiter_prev = waiter->timeline_prev; waiter->timeline_next = NULL; waiter->timeline_prev = NULL; if (NULL != waiter_prev) { waiter_prev->timeline_next = waiter_next; } if (NULL != waiter_next) { waiter_next->timeline_prev = waiter_prev; } if (waiter == timeline->waiter_tail) timeline->waiter_tail = waiter_next; if (waiter == timeline->waiter_head) timeline->waiter_head = NULL; schedule_mask |= mali_timeline_system_release_waiter(timeline->system, waiter); waiter = waiter_next; }else { waiter = waiter->timeline_next; } } return schedule_mask; } void mali_timeline_tracker_init(struct mali_timeline_tracker *tracker, mali_timeline_tracker_type type, struct mali_timeline_fence *fence, void *job) { MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT_POINTER(job); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAX > type); /* Zero out all tracker members. */ _mali_osk_memset(tracker, 0, sizeof(*tracker)); tracker->type = type; tracker->job = job; tracker->trigger_ref_count = 1; /* Prevents any callback from trigging while adding it */ tracker->os_tick_create = _mali_osk_time_tickcount(); MALI_DEBUG_CODE(tracker->magic = MALI_TIMELINE_TRACKER_MAGIC); tracker->activation_error = MALI_TIMELINE_ACTIVATION_ERROR_NONE; /* Copy fence. */ if (NULL != fence) { _mali_osk_memcpy(&tracker->fence, fence, sizeof(struct mali_timeline_fence)); } } mali_scheduler_mask mali_timeline_tracker_release(struct mali_timeline_tracker *tracker) { struct mali_timeline *timeline; struct mali_timeline_system *system; struct mali_timeline_tracker *tracker_next, *tracker_prev; mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; u32 tid = _mali_osk_get_tid(); /* Upon entry a group lock will be held, but not a scheduler lock. */ MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic); /* Tracker should have been triggered */ MALI_DEBUG_ASSERT(0 == tracker->trigger_ref_count); /* All waiters should have been released at this point */ MALI_DEBUG_ASSERT(NULL == tracker->waiter_head); MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail); MALI_DEBUG_PRINT(3, ("Mali Timeline: releasing tracker for job 0x%08X\n", tracker->job)); timeline = tracker->timeline; if (NULL == timeline) { /* Tracker was not on a timeline, there is nothing to release. */ return MALI_SCHEDULER_MASK_EMPTY; } system = timeline->system; MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); /* Tracker should still be on timeline */ MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline)); MALI_DEBUG_ASSERT(mali_timeline_is_point_on(timeline, tracker->point)); /* Tracker is no longer valid. */ MALI_DEBUG_CODE(tracker->magic = 0); tracker_next = tracker->timeline_next; tracker_prev = tracker->timeline_prev; tracker->timeline_next = NULL; tracker->timeline_prev = NULL; /* Removing tracker from timeline's tracker list */ if (NULL == tracker_next) { /* This tracker was the head */ timeline->tracker_head = tracker_prev; } else { tracker_next->timeline_prev = tracker_prev; } if (NULL == tracker_prev) { /* This tracker was the tail */ timeline->tracker_tail = tracker_next; MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); /* Update the timeline's oldest time and release any waiters */ schedule_mask |= mali_timeline_update_oldest_point(timeline); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); } else { tracker_prev->timeline_next = tracker_next; if (MALI_TIMELINE_SOFT == tracker->timeline->id) { /* Use the signaled soft tracker to release the depended soft waiter */ schedule_mask |= mali_timeline_release_with_depended_point(tracker); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); } } MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); /* Update delayed work only when it is the soft job timeline */ if (MALI_TIMELINE_SOFT == tracker->timeline->id) { mali_timeline_update_delayed_work(tracker->timeline); } mali_spinlock_reentrant_signal(system->spinlock, tid); return schedule_mask; } void mali_timeline_system_release_waiter_list(struct mali_timeline_system *system, struct mali_timeline_waiter *tail, struct mali_timeline_waiter *head) { MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(head); MALI_DEBUG_ASSERT_POINTER(tail); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); head->tracker_next = system->waiter_empty_list; system->waiter_empty_list = tail; } static mali_scheduler_mask mali_timeline_tracker_activate(struct mali_timeline_tracker *tracker) { mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; struct mali_timeline_system *system; struct mali_timeline *timeline; u32 tid = _mali_osk_get_tid(); MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic); system = tracker->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); tracker->os_tick_activate = _mali_osk_time_tickcount(); if (NULL != tracker->waiter_head) { mali_timeline_system_release_waiter_list(system, tracker->waiter_tail, tracker->waiter_head); tracker->waiter_head = NULL; tracker->waiter_tail = NULL; } switch (tracker->type) { case MALI_TIMELINE_TRACKER_GP: schedule_mask = mali_scheduler_activate_gp_job((struct mali_gp_job *) tracker->job); _mali_osk_atomic_dec(&gp_tracker_count); break; case MALI_TIMELINE_TRACKER_PP: if (mali_pp_job_is_virtual((struct mali_pp_job *)tracker->job)) { _mali_osk_atomic_dec(&virt_pp_tracker_count); } else { _mali_osk_atomic_dec(&phy_pp_tracker_count); } schedule_mask = mali_scheduler_activate_pp_job((struct mali_pp_job *) tracker->job); break; case MALI_TIMELINE_TRACKER_SOFT: timeline = tracker->timeline; MALI_DEBUG_ASSERT_POINTER(timeline); schedule_mask |= mali_soft_job_system_activate_job((struct mali_soft_job *) tracker->job); /* Start a soft timer to make sure the soft job be released in a limited time */ mali_spinlock_reentrant_wait(system->spinlock, tid); mali_timeline_update_delayed_work(timeline); mali_spinlock_reentrant_signal(system->spinlock, tid); break; case MALI_TIMELINE_TRACKER_WAIT: mali_timeline_fence_wait_activate((struct mali_timeline_fence_wait_tracker *) tracker->job); break; case MALI_TIMELINE_TRACKER_SYNC: #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) mali_timeline_sync_fence_activate((struct mali_timeline_sync_fence_tracker *) tracker->job); #else MALI_PRINT_ERROR(("Mali Timeline: sync tracker not supported\n", tracker->type)); #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ break; default: MALI_PRINT_ERROR(("Mali Timeline - Illegal tracker type: %d\n", tracker->type)); break; } return schedule_mask; } void mali_timeline_system_tracker_get(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker) { u32 tid = _mali_osk_get_tid(); MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count); tracker->trigger_ref_count++; mali_spinlock_reentrant_signal(system->spinlock, tid); } mali_scheduler_mask mali_timeline_system_tracker_put(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker, mali_timeline_activation_error activation_error) { u32 tid = _mali_osk_get_tid(); mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count); tracker->trigger_ref_count--; tracker->activation_error |= activation_error; if (0 == tracker->trigger_ref_count) { schedule_mask |= mali_timeline_tracker_activate(tracker); tracker = NULL; } mali_spinlock_reentrant_signal(system->spinlock, tid); return schedule_mask; } void mali_timeline_fence_copy_uk_fence(struct mali_timeline_fence *fence, _mali_uk_fence_t *uk_fence) { u32 i; MALI_DEBUG_ASSERT_POINTER(fence); MALI_DEBUG_ASSERT_POINTER(uk_fence); for (i = 0; i < MALI_TIMELINE_MAX; ++i) { fence->points[i] = uk_fence->points[i]; } fence->sync_fd = uk_fence->sync_fd; } struct mali_timeline_system *mali_timeline_system_create(struct mali_session_data *session) { u32 i; struct mali_timeline_system *system; MALI_DEBUG_ASSERT_POINTER(session); MALI_DEBUG_PRINT(4, ("Mali Timeline: creating timeline system\n")); system = (struct mali_timeline_system *) _mali_osk_calloc(1, sizeof(struct mali_timeline_system)); if (NULL == system) { return NULL; } system->spinlock = mali_spinlock_reentrant_init(_MALI_OSK_LOCK_ORDER_TIMELINE_SYSTEM); if (NULL == system->spinlock) { mali_timeline_system_destroy(system); return NULL; } for (i = 0; i < MALI_TIMELINE_MAX; ++i) { system->timelines[i] = mali_timeline_create(system, (enum mali_timeline_id)i); if (NULL == system->timelines[i]) { mali_timeline_system_destroy(system); return NULL; } } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) system->signaled_sync_tl = mali_sync_timeline_create(NULL, "mali-always-signaled"); if (NULL == system->signaled_sync_tl) { mali_timeline_system_destroy(system); return NULL; } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ system->waiter_empty_list = NULL; system->session = session; system->timer_enabled = MALI_TRUE; system->wait_queue = _mali_osk_wait_queue_init(); if (NULL == system->wait_queue) { mali_timeline_system_destroy(system); return NULL; } return system; } #if defined(CONFIG_MALI_DMA_BUF_FENCE) ||defined(CONFIG_SYNC) ||defined(CONFIG_SYNC_FILE) /** * Check if there are any trackers left on timeline. * * Used as a wait queue conditional. * * @param data Timeline. * @return MALI_TRUE if there are no trackers on timeline, MALI_FALSE if not. */ static mali_bool mali_timeline_has_no_trackers(void *data) { struct mali_timeline *timeline = (struct mali_timeline *) data; MALI_DEBUG_ASSERT_POINTER(timeline); return mali_timeline_is_empty(timeline); } #if defined(CONFIG_SYNC) ||defined(CONFIG_SYNC_FILE) /** * Cancel sync fence waiters waited upon by trackers on all timelines. * * Will return after all timelines have no trackers left. * * @param system Timeline system. */ static void mali_timeline_cancel_sync_fence_waiters(struct mali_timeline_system *system) { u32 i; u32 tid = _mali_osk_get_tid(); struct mali_timeline_tracker *tracker, *tracker_next; _MALI_OSK_LIST_HEAD_STATIC_INIT(tracker_list); MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); MALI_DEBUG_ASSERT(system->session->is_aborting); mali_spinlock_reentrant_wait(system->spinlock, tid); /* Cancel sync fence waiters. */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); tracker_next = timeline->tracker_tail; while (NULL != tracker_next) { tracker = tracker_next; tracker_next = tracker->timeline_next; if (NULL == tracker->sync_fence) continue; MALI_DEBUG_PRINT(3, ("Mali Timeline: Cancelling sync fence wait for tracker 0x%08X.\n", tracker)); /* Cancel sync fence waiter. */ #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) if (0 == sync_fence_cancel_async(tracker->sync_fence, &tracker->sync_fence_waiter)) { #else if (0 == mali_internal_sync_fence_cancel_async(tracker->sync_fence, &tracker->sync_fence_waiter)) { #endif /* Callback was not called, move tracker to local list. */ _mali_osk_list_add(&tracker->sync_fence_cancel_list, &tracker_list); } } } mali_spinlock_reentrant_signal(system->spinlock, tid); /* Manually call sync fence callback in order to release waiter and trigger activation of tracker. */ _MALI_OSK_LIST_FOREACHENTRY(tracker, tracker_next, &tracker_list, struct mali_timeline_tracker, sync_fence_cancel_list) { mali_timeline_sync_fence_callback(tracker->sync_fence, &tracker->sync_fence_waiter); } /* Sleep until all sync fence callbacks are done and all timelines are empty. */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); _mali_osk_wait_queue_wait_event(system->wait_queue, mali_timeline_has_no_trackers, (void *) timeline); } } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ #if defined(CONFIG_MALI_DMA_BUF_FENCE) static void mali_timeline_cancel_dma_fence_waiters(struct mali_timeline_system *system) { u32 i, j; u32 tid = _mali_osk_get_tid(); struct mali_pp_job *pp_job = NULL; struct mali_pp_job *next_pp_job = NULL; struct mali_timeline *timeline = NULL; struct mali_timeline_tracker *tracker, *tracker_next; _MALI_OSK_LIST_HEAD_STATIC_INIT(pp_job_list); MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); MALI_DEBUG_ASSERT(system->session->is_aborting); mali_spinlock_reentrant_wait(system->spinlock, tid); /* Cancel dma fence waiters. */ timeline = system->timelines[MALI_TIMELINE_PP]; MALI_DEBUG_ASSERT_POINTER(timeline); tracker_next = timeline->tracker_tail; while (NULL != tracker_next) { mali_bool fence_is_signaled = MALI_TRUE; tracker = tracker_next; tracker_next = tracker->timeline_next; if (NULL == tracker->waiter_dma_fence) continue; pp_job = (struct mali_pp_job *)tracker->job; MALI_DEBUG_ASSERT_POINTER(pp_job); MALI_DEBUG_PRINT(3, ("Mali Timeline: Cancelling dma fence waiter for tracker 0x%08X.\n", tracker)); for (j = 0; j < pp_job->dma_fence_context.num_dma_fence_waiter; j++) { if (pp_job->dma_fence_context.mali_dma_fence_waiters[j]) { /* Cancel a previously callback from the fence. * This function returns true if the callback is successfully removed, * or false if the fence has already been signaled. */ #if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 10, 0) bool ret = dma_fence_remove_callback(pp_job->dma_fence_context.mali_dma_fence_waiters[j]->fence, &pp_job->dma_fence_context.mali_dma_fence_waiters[j]->base); #else bool ret = fence_remove_callback(pp_job->dma_fence_context.mali_dma_fence_waiters[j]->fence, &pp_job->dma_fence_context.mali_dma_fence_waiters[j]->base); #endif if (ret) { fence_is_signaled = MALI_FALSE; } } } /* Callbacks were not called, move pp job to local list. */ if (MALI_FALSE == fence_is_signaled) _mali_osk_list_add(&pp_job->list, &pp_job_list); } mali_spinlock_reentrant_signal(system->spinlock, tid); /* Manually call dma fence callback in order to release waiter and trigger activation of tracker. */ _MALI_OSK_LIST_FOREACHENTRY(pp_job, next_pp_job, &pp_job_list, struct mali_pp_job, list) { mali_timeline_dma_fence_callback((void *)pp_job); } /* Sleep until all dma fence callbacks are done and all timelines are empty. */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); _mali_osk_wait_queue_wait_event(system->wait_queue, mali_timeline_has_no_trackers, (void *) timeline); } } #endif #endif void mali_timeline_system_abort(struct mali_timeline_system *system) { MALI_DEBUG_CODE(u32 tid = _mali_osk_get_tid();); MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); MALI_DEBUG_ASSERT(system->session->is_aborting); MALI_DEBUG_PRINT(3, ("Mali Timeline: Aborting timeline system for session 0x%08X.\n", system->session)); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) mali_timeline_cancel_sync_fence_waiters(system); #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ #if defined(CONFIG_MALI_DMA_BUF_FENCE) mali_timeline_cancel_dma_fence_waiters(system); #endif /* Should not be any waiters or trackers left at this point. */ MALI_DEBUG_CODE({ u32 i; mali_spinlock_reentrant_wait(system->spinlock, tid); for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); MALI_DEBUG_ASSERT(timeline->point_oldest == timeline->point_next); MALI_DEBUG_ASSERT(NULL == timeline->tracker_head); MALI_DEBUG_ASSERT(NULL == timeline->tracker_tail); MALI_DEBUG_ASSERT(NULL == timeline->waiter_head); MALI_DEBUG_ASSERT(NULL == timeline->waiter_tail); } mali_spinlock_reentrant_signal(system->spinlock, tid); }); } void mali_timeline_system_destroy(struct mali_timeline_system *system) { u32 i; struct mali_timeline_waiter *waiter, *next; #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) u32 tid = _mali_osk_get_tid(); #endif MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); MALI_DEBUG_PRINT(4, ("Mali Timeline: destroying timeline system\n")); if (NULL != system) { /* There should be no waiters left on this queue. */ if (NULL != system->wait_queue) { _mali_osk_wait_queue_term(system->wait_queue); system->wait_queue = NULL; } /* Free all waiters in empty list */ waiter = system->waiter_empty_list; while (NULL != waiter) { next = waiter->tracker_next; _mali_osk_free(waiter); waiter = next; } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (NULL != system->signaled_sync_tl) { #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_timeline_destroy(system->signaled_sync_tl); #else mali_internal_sync_timeline_destroy(system->signaled_sync_tl); #endif } for (i = 0; i < MALI_TIMELINE_MAX; ++i) { if ((NULL != system->timelines[i]) && (NULL != system->timelines[i]->spinlock)) { mali_spinlock_reentrant_wait(system->timelines[i]->spinlock, tid); system->timelines[i]->destroyed = MALI_TRUE; mali_spinlock_reentrant_signal(system->timelines[i]->spinlock, tid); } } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { if (NULL != system->timelines[i]) { mali_timeline_destroy(system->timelines[i]); } } if (NULL != system->spinlock) { mali_spinlock_reentrant_term(system->spinlock); } _mali_osk_free(system); } } /** * Find how many waiters are needed for a given fence. * * @param fence The fence to check. * @return Number of waiters needed for fence. */ static u32 mali_timeline_fence_num_waiters(struct mali_timeline_fence *fence) { u32 i, num_waiters = 0; MALI_DEBUG_ASSERT_POINTER(fence); for (i = 0; i < MALI_TIMELINE_MAX; ++i) { if (MALI_TIMELINE_NO_POINT != fence->points[i]) { ++num_waiters; } } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (-1 != fence->sync_fd) ++num_waiters; #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ return num_waiters; } static struct mali_timeline_waiter *mali_timeline_system_get_zeroed_waiter(struct mali_timeline_system *system) { struct mali_timeline_waiter *waiter; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); waiter = system->waiter_empty_list; if (NULL != waiter) { /* Remove waiter from empty list and zero it */ system->waiter_empty_list = waiter->tracker_next; _mali_osk_memset(waiter, 0, sizeof(*waiter)); } /* Return NULL if list was empty. */ return waiter; } static void mali_timeline_system_allocate_waiters(struct mali_timeline_system *system, struct mali_timeline_waiter **tail, struct mali_timeline_waiter **head, int max_num_waiters) { u32 i, tid = _mali_osk_get_tid(); mali_bool do_alloc; struct mali_timeline_waiter *waiter; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(tail); MALI_DEBUG_ASSERT_POINTER(head); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); *head = *tail = NULL; do_alloc = MALI_FALSE; i = 0; while (i < max_num_waiters) { if (MALI_FALSE == do_alloc) { waiter = mali_timeline_system_get_zeroed_waiter(system); if (NULL == waiter) { do_alloc = MALI_TRUE; mali_spinlock_reentrant_signal(system->spinlock, tid); continue; } } else { waiter = _mali_osk_calloc(1, sizeof(struct mali_timeline_waiter)); if (NULL == waiter) break; } ++i; if (NULL == *tail) { *tail = waiter; *head = waiter; } else { (*head)->tracker_next = waiter; *head = waiter; } } if (MALI_TRUE == do_alloc) { mali_spinlock_reentrant_wait(system->spinlock, tid); } } /** * Create waiters for the given tracker. The tracker is activated when all waiters are release. * * @note Tracker can potentially be activated before this function returns. * * @param system Timeline system. * @param tracker Tracker we will create waiters for. * @param waiter_tail List of pre-allocated waiters. * @param waiter_head List of pre-allocated waiters. */ static void mali_timeline_system_create_waiters_and_unlock(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker, struct mali_timeline_waiter *waiter_tail, struct mali_timeline_waiter *waiter_head) { int i; u32 tid = _mali_osk_get_tid(); mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) struct sync_fence *sync_fence = NULL; #else struct mali_internal_sync_fence *sync_fence = NULL; #endif #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); MALI_DEBUG_ASSERT(NULL == tracker->waiter_head); MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail); MALI_DEBUG_ASSERT(NULL != tracker->job); /* Creating waiter object for all the timelines the fence is put on. Inserting this waiter * into the timelines sorted list of waiters */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { mali_timeline_point point; struct mali_timeline *timeline; struct mali_timeline_waiter *waiter; /* Get point on current timeline from tracker's fence. */ point = tracker->fence.points[i]; if (likely(MALI_TIMELINE_NO_POINT == point)) { /* Fence contains no point on this timeline so we don't need a waiter. */ continue; } timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); if (unlikely(!mali_timeline_is_point_valid(timeline, point))) { MALI_PRINT_ERROR(("Mali Timeline: point %d is not valid (oldest=%d, next=%d)\n", point, timeline->point_oldest, timeline->point_next)); continue; } if (likely(mali_timeline_is_point_released(timeline, point))) { /* Tracker representing the point has been released so we don't need a * waiter. */ continue; } if ((MALI_TIMELINE_SOFT == timeline->id) && mali_timeline_is_tracker_released(timeline, point)) { /* The tracker that the point related to has already been released, so no need to a waiter. */ continue; } /* The point is on timeline. */ MALI_DEBUG_ASSERT(mali_timeline_is_point_on(timeline, point)); /* Get a new zeroed waiter object. */ if (likely(NULL != waiter_tail)) { waiter = waiter_tail; waiter_tail = waiter_tail->tracker_next; } else { MALI_PRINT_ERROR(("Mali Timeline: failed to allocate memory for waiter\n")); continue; } /* Yanking the trigger ref count of the tracker. */ tracker->trigger_ref_count++; waiter->point = point; waiter->tracker = tracker; /* Insert waiter on tracker's singly-linked waiter list. */ if (NULL == tracker->waiter_head) { /* list is empty */ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail); tracker->waiter_tail = waiter; } else { tracker->waiter_head->tracker_next = waiter; } tracker->waiter_head = waiter; /* Add waiter to timeline. */ mali_timeline_insert_waiter(timeline, waiter); } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (-1 != tracker->fence.sync_fd) { int ret; struct mali_timeline_waiter *waiter; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_fence = sync_fence_fdget(tracker->fence.sync_fd); #else sync_fence = mali_internal_sync_fence_fdget(tracker->fence.sync_fd); #endif if (unlikely(NULL == sync_fence)) { MALI_PRINT_ERROR(("Mali Timeline: failed to get sync fence from fd %d\n", tracker->fence.sync_fd)); goto exit; } /* Check if we have a zeroed waiter object available. */ if (unlikely(NULL == waiter_tail)) { MALI_PRINT_ERROR(("Mali Timeline: failed to allocate memory for waiter\n")); goto exit; } /* Start asynchronous wait that will release waiter when the fence is signaled. */ #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_fence_waiter_init(&tracker->sync_fence_waiter, mali_timeline_sync_fence_callback); ret = sync_fence_wait_async(sync_fence, &tracker->sync_fence_waiter); #else mali_internal_sync_fence_waiter_init(&tracker->sync_fence_waiter, mali_timeline_sync_fence_callback); ret = mali_internal_sync_fence_wait_async(sync_fence, &tracker->sync_fence_waiter); #endif if (1 == ret) { /* Fence already signaled, no waiter needed. */ tracker->fence.sync_fd = -1; goto exit; } else if (0 != ret) { MALI_PRINT_ERROR(("Mali Timeline: sync fence fd %d signaled with error %d\n", tracker->fence.sync_fd, ret)); tracker->activation_error |= MALI_TIMELINE_ACTIVATION_ERROR_SYNC_BIT; goto exit; } /* Grab new zeroed waiter object. */ waiter = waiter_tail; waiter_tail = waiter_tail->tracker_next; /* Increase the trigger ref count of the tracker. */ tracker->trigger_ref_count++; waiter->point = MALI_TIMELINE_NO_POINT; waiter->tracker = tracker; /* Insert waiter on tracker's singly-linked waiter list. */ if (NULL == tracker->waiter_head) { /* list is empty */ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail); tracker->waiter_tail = waiter; } else { tracker->waiter_head->tracker_next = waiter; } tracker->waiter_head = waiter; /* Also store waiter in separate field for easy access by sync callback. */ tracker->waiter_sync = waiter; /* Store the sync fence in tracker so we can retrieve in abort session, if needed. */ tracker->sync_fence = sync_fence; sync_fence = NULL; } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE)*/ #if defined(CONFIG_MALI_DMA_BUF_FENCE) if ((NULL != tracker->timeline) && (MALI_TIMELINE_PP == tracker->timeline->id)) { struct mali_pp_job *job = (struct mali_pp_job *)tracker->job; if (0 < job->dma_fence_context.num_dma_fence_waiter) { struct mali_timeline_waiter *waiter; /* Check if we have a zeroed waiter object available. */ if (unlikely(NULL == waiter_tail)) { MALI_PRINT_ERROR(("Mali Timeline: failed to allocate memory for waiter\n")); goto exit; } /* Grab new zeroed waiter object. */ waiter = waiter_tail; waiter_tail = waiter_tail->tracker_next; /* Increase the trigger ref count of the tracker. */ tracker->trigger_ref_count++; waiter->point = MALI_TIMELINE_NO_POINT; waiter->tracker = tracker; /* Insert waiter on tracker's singly-linked waiter list. */ if (NULL == tracker->waiter_head) { /* list is empty */ MALI_DEBUG_ASSERT(NULL == tracker->waiter_tail); tracker->waiter_tail = waiter; } else { tracker->waiter_head->tracker_next = waiter; } tracker->waiter_head = waiter; /* Also store waiter in separate field for easy access by sync callback. */ tracker->waiter_dma_fence = waiter; } } #endif /* defined(CONFIG_MALI_DMA_BUF_FENCE)*/ #if defined(CONFIG_MALI_DMA_BUF_FENCE) ||defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) exit: #endif /* defined(CONFIG_MALI_DMA_BUF_FENCE) || defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ if (NULL != waiter_tail) { mali_timeline_system_release_waiter_list(system, waiter_tail, waiter_head); } /* Release the initial trigger ref count. */ tracker->trigger_ref_count--; /* If there were no waiters added to this tracker we activate immediately. */ if (0 == tracker->trigger_ref_count) { schedule_mask |= mali_timeline_tracker_activate(tracker); } mali_spinlock_reentrant_signal(system->spinlock, tid); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (NULL != sync_fence) { #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_fence_put(sync_fence); #else fput(sync_fence->file); #endif } #endif /* defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) */ mali_executor_schedule_from_mask(schedule_mask, MALI_FALSE); } mali_timeline_point mali_timeline_system_add_tracker(struct mali_timeline_system *system, struct mali_timeline_tracker *tracker, enum mali_timeline_id timeline_id) { int num_waiters = 0; struct mali_timeline_waiter *waiter_tail, *waiter_head; u32 tid = _mali_osk_get_tid(); mali_timeline_point point = MALI_TIMELINE_NO_POINT; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT(MALI_FALSE == system->session->is_aborting); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAX > tracker->type); MALI_DEBUG_ASSERT(MALI_TIMELINE_TRACKER_MAGIC == tracker->magic); MALI_DEBUG_PRINT(4, ("Mali Timeline: adding tracker for job %p, timeline: %d\n", tracker->job, timeline_id)); MALI_DEBUG_ASSERT(0 < tracker->trigger_ref_count); tracker->system = system; mali_spinlock_reentrant_wait(system->spinlock, tid); num_waiters = mali_timeline_fence_num_waiters(&tracker->fence); #if defined(CONFIG_MALI_DMA_BUF_FENCE) if (MALI_TIMELINE_PP == timeline_id) { struct mali_pp_job *job = (struct mali_pp_job *)tracker->job; if (0 < job->dma_fence_context.num_dma_fence_waiter) num_waiters++; } #endif /* Allocate waiters. */ mali_timeline_system_allocate_waiters(system, &waiter_tail, &waiter_head, num_waiters); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); /* Add tracker to timeline. This will allocate a point for the tracker on the timeline. If * timeline ID is MALI_TIMELINE_NONE the tracker will NOT be added to a timeline and the * point will be MALI_TIMELINE_NO_POINT. * * NOTE: the tracker can fail to be added if the timeline is full. If this happens, the * point will be MALI_TIMELINE_NO_POINT. */ MALI_DEBUG_ASSERT(timeline_id < MALI_TIMELINE_MAX || timeline_id == MALI_TIMELINE_NONE); if (likely(timeline_id < MALI_TIMELINE_MAX)) { struct mali_timeline *timeline = system->timelines[timeline_id]; mali_timeline_insert_tracker(timeline, tracker); MALI_DEBUG_ASSERT(!mali_timeline_is_empty(timeline)); } point = tracker->point; /* Create waiters for tracker based on supplied fence. Each waiter will increase the * trigger ref count. */ mali_timeline_system_create_waiters_and_unlock(system, tracker, waiter_tail, waiter_head); tracker = NULL; /* At this point the tracker object might have been freed so we should no longer * access it. */ /* The tracker will always be activated after calling add_tracker, even if NO_POINT is * returned. */ return point; } static mali_scheduler_mask mali_timeline_system_release_waiter(struct mali_timeline_system *system, struct mali_timeline_waiter *waiter) { struct mali_timeline_tracker *tracker; mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(waiter); MALI_DEBUG_ASSERT(MALI_TIMELINE_SYSTEM_LOCKED(system)); tracker = waiter->tracker; MALI_DEBUG_ASSERT_POINTER(tracker); /* At this point the waiter has been removed from the timeline's waiter list, but it is * still on the tracker's waiter list. All of the tracker's waiters will be released when * the tracker is activated. */ waiter->point = MALI_TIMELINE_NO_POINT; waiter->tracker = NULL; tracker->trigger_ref_count--; if (0 == tracker->trigger_ref_count) { /* This was the last waiter; activate tracker */ schedule_mask |= mali_timeline_tracker_activate(tracker); tracker = NULL; } return schedule_mask; } mali_timeline_point mali_timeline_system_get_latest_point(struct mali_timeline_system *system, enum mali_timeline_id timeline_id) { mali_timeline_point point; struct mali_timeline *timeline; u32 tid = _mali_osk_get_tid(); MALI_DEBUG_ASSERT_POINTER(system); if (MALI_TIMELINE_MAX <= timeline_id) { return MALI_TIMELINE_NO_POINT; } mali_spinlock_reentrant_wait(system->spinlock, tid); timeline = system->timelines[timeline_id]; MALI_DEBUG_ASSERT_POINTER(timeline); point = MALI_TIMELINE_NO_POINT; if (timeline->point_oldest != timeline->point_next) { point = timeline->point_next - 1; if (MALI_TIMELINE_NO_POINT == point) point--; } mali_spinlock_reentrant_signal(system->spinlock, tid); return point; } #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) static void mali_timeline_do_sync_fence_callback(void *arg) { _MALI_OSK_LIST_HEAD_STATIC_INIT(list); struct mali_timeline_tracker *tracker; struct mali_timeline_tracker *tmp_tracker; u32 tid = _mali_osk_get_tid(); MALI_IGNORE(arg); /* * Quickly "unhook" the jobs pending to be deleted, so we can release * the lock before we start deleting the job objects * (without any locks held) */ _mali_osk_spinlock_irq_lock(sync_fence_callback_list_lock); _mali_osk_list_move_list(&sync_fence_callback_queue, &list); _mali_osk_spinlock_irq_unlock(sync_fence_callback_list_lock); _MALI_OSK_LIST_FOREACHENTRY(tracker, tmp_tracker, &list, struct mali_timeline_tracker, sync_fence_signal_list) { mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; mali_bool is_aborting = MALI_FALSE; int fence_status = 0; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) struct sync_fence *sync_fence = NULL; #else struct mali_internal_sync_fence *sync_fence = NULL; #endif struct mali_timeline_system *system = NULL; struct mali_timeline_waiter *waiter = NULL; _mali_osk_list_delinit(&tracker->sync_fence_signal_list); sync_fence = tracker->sync_fence; MALI_DEBUG_ASSERT_POINTER(sync_fence); #if LINUX_VERSION_CODE < KERNEL_VERSION(3, 17, 0) fence_status = sync_fence->status; #elif LINUX_VERSION_CODE < KERNEL_VERSION(4, 9, 0) fence_status = atomic_read(&sync_fence->status); #else fence_status = mali_dma_fence_is_signaled(sync_fence->fence); #endif system = tracker->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); mali_spinlock_reentrant_wait(system->spinlock, tid); is_aborting = system->session->is_aborting; if (!is_aborting && (0 > fence_status)) { MALI_PRINT_ERROR(("Mali Timeline: sync fence fd %d signaled with error %d\n", tracker->fence.sync_fd, fence_status)); tracker->activation_error |= MALI_TIMELINE_ACTIVATION_ERROR_SYNC_BIT; } waiter = tracker->waiter_sync; MALI_DEBUG_ASSERT_POINTER(waiter); tracker->sync_fence = NULL; tracker->fence.sync_fd = -1; schedule_mask |= mali_timeline_system_release_waiter(system, waiter); /* If aborting, wake up sleepers that are waiting for sync fence callbacks to complete. */ if (is_aborting) { _mali_osk_wait_queue_wake_up(system->wait_queue); } mali_spinlock_reentrant_signal(system->spinlock, tid); /* * Older versions of Linux, before 3.5, doesn't support fput() in interrupt * context. For those older kernels, allocate a list object and put the * fence object on that and defer the call to sync_fence_put() to a workqueue. */ #if LINUX_VERSION_CODE < KERNEL_VERSION(3,5,0) { struct mali_deferred_fence_put_entry *obj; obj = kzalloc(sizeof(struct mali_deferred_fence_put_entry), GFP_ATOMIC); if (obj) { unsigned long flags; mali_bool schedule = MALI_FALSE; obj->fence = sync_fence; spin_lock_irqsave(&mali_timeline_sync_fence_to_free_lock, flags); if (hlist_empty(&mali_timeline_sync_fence_to_free_list)) schedule = MALI_TRUE; hlist_add_head(&obj->list, &mali_timeline_sync_fence_to_free_list); spin_unlock_irqrestore(&mali_timeline_sync_fence_to_free_lock, flags); if (schedule) schedule_delayed_work(&delayed_sync_fence_put, 0); } } #else #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 6, 0) sync_fence_put(sync_fence); #else fput(sync_fence->file); #endif #endif /* LINUX_VERSION_CODE < KERNEL_VERSION(3,5,0) */ if (!is_aborting) { mali_executor_schedule_from_mask(schedule_mask, MALI_TRUE); } } } #endif _mali_osk_errcode_t mali_timeline_initialize(void) { _mali_osk_atomic_init(&gp_tracker_count, 0); _mali_osk_atomic_init(&phy_pp_tracker_count, 0); _mali_osk_atomic_init(&virt_pp_tracker_count, 0); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) sync_fence_callback_list_lock = _mali_osk_spinlock_irq_init(_MALI_OSK_LOCKFLAG_UNORDERED, _MALI_OSK_LOCK_ORDER_FIRST); if (NULL == sync_fence_callback_list_lock) { return _MALI_OSK_ERR_NOMEM; } sync_fence_callback_work_t = _mali_osk_wq_create_work( mali_timeline_do_sync_fence_callback, NULL); if (NULL == sync_fence_callback_work_t) { return _MALI_OSK_ERR_FAULT; } #endif return _MALI_OSK_ERR_OK; } void mali_timeline_terminate(void) { _mali_osk_atomic_term(&gp_tracker_count); _mali_osk_atomic_term(&phy_pp_tracker_count); _mali_osk_atomic_term(&virt_pp_tracker_count); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (NULL != sync_fence_callback_list_lock) { _mali_osk_spinlock_irq_term(sync_fence_callback_list_lock); sync_fence_callback_list_lock = NULL; } if (NULL != sync_fence_callback_work_t) { _mali_osk_wq_delete_work(sync_fence_callback_work_t); sync_fence_callback_work_t = NULL; } #endif } #if defined(MALI_TIMELINE_DEBUG_FUNCTIONS) static mali_bool is_waiting_on_timeline(struct mali_timeline_tracker *tracker, enum mali_timeline_id id) { struct mali_timeline *timeline; struct mali_timeline_system *system; MALI_DEBUG_ASSERT_POINTER(tracker); MALI_DEBUG_ASSERT_POINTER(tracker->timeline); timeline = tracker->timeline; MALI_DEBUG_ASSERT_POINTER(timeline->system); system = timeline->system; if (MALI_TIMELINE_MAX > id) { if (MALI_TIMELINE_NO_POINT != tracker->fence.points[id]) { return mali_timeline_is_point_on(system->timelines[id], tracker->fence.points[id]); } else { return MALI_FALSE; } } else { MALI_DEBUG_ASSERT(MALI_TIMELINE_NONE == id); return MALI_FALSE; } } static const char *timeline_id_to_string(enum mali_timeline_id id) { switch (id) { case MALI_TIMELINE_GP: return "GP"; case MALI_TIMELINE_PP: return "PP"; case MALI_TIMELINE_SOFT: return "SOFT"; default: return "NONE"; } } static const char *timeline_tracker_type_to_string(enum mali_timeline_tracker_type type) { switch (type) { case MALI_TIMELINE_TRACKER_GP: return "GP"; case MALI_TIMELINE_TRACKER_PP: return "PP"; case MALI_TIMELINE_TRACKER_SOFT: return "SOFT"; case MALI_TIMELINE_TRACKER_WAIT: return "WAIT"; case MALI_TIMELINE_TRACKER_SYNC: return "SYNC"; default: return "INVALID"; } } mali_timeline_tracker_state mali_timeline_debug_get_tracker_state(struct mali_timeline_tracker *tracker) { struct mali_timeline *timeline = NULL; MALI_DEBUG_ASSERT_POINTER(tracker); timeline = tracker->timeline; if (0 != tracker->trigger_ref_count) { return MALI_TIMELINE_TS_WAITING; } if (timeline && (timeline->tracker_tail == tracker || NULL != tracker->timeline_prev)) { return MALI_TIMELINE_TS_ACTIVE; } if (timeline && (MALI_TIMELINE_NO_POINT == tracker->point)) { return MALI_TIMELINE_TS_INIT; } return MALI_TIMELINE_TS_FINISH; } void mali_timeline_debug_print_tracker(struct mali_timeline_tracker *tracker, _mali_osk_print_ctx *print_ctx) { const char *tracker_state = "IWAF"; char state_char = 'I'; char tracker_type[32] = {0}; MALI_DEBUG_ASSERT_POINTER(tracker); state_char = *(tracker_state + mali_timeline_debug_get_tracker_state(tracker)); _mali_osk_snprintf(tracker_type, sizeof(tracker_type), "%s", timeline_tracker_type_to_string(tracker->type)); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (0 != tracker->trigger_ref_count) { if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u), fd:%d, fence:(0x%08X)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], tracker->fence.sync_fd, (unsigned int)(uintptr_t)(tracker->sync_fence), (unsigned int)(uintptr_t)(tracker->job)); else MALI_DEBUG_PRINT(2, ("TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u), fd:%d, fence:(0x%08X)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], tracker->fence.sync_fd, (unsigned int)(uintptr_t)(tracker->sync_fence), (unsigned int)(uintptr_t)(tracker->job))); } else { if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: %s %u %c fd:%d fence:(0x%08X) job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->fence.sync_fd, (unsigned int)(uintptr_t)(tracker->sync_fence), (unsigned int)(uintptr_t)(tracker->job)); else MALI_DEBUG_PRINT(2, ("TL: %s %u %c fd:%d fence:(0x%08X) job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->fence.sync_fd, (unsigned int)(uintptr_t)(tracker->sync_fence), (unsigned int)(uintptr_t)(tracker->job))); } #else if (0 != tracker->trigger_ref_count) { if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], (unsigned int)(uintptr_t)(tracker->job)); else MALI_DEBUG_PRINT(2, ("TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], (unsigned int)(uintptr_t)(tracker->job))); } else { if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: %s %u %c job:(0x%08X)\n", tracker_type, tracker->point, state_char, (unsigned int)(uintptr_t)(tracker->job)); else MALI_DEBUG_PRINT(2, ("TL: %s %u %c job:(0x%08X)\n", tracker_type, tracker->point, state_char, (unsigned int)(uintptr_t)(tracker->job))); } #endif } void mali_timeline_debug_print_timeline(struct mali_timeline *timeline, _mali_osk_print_ctx *print_ctx) { struct mali_timeline_tracker *tracker = NULL; MALI_DEBUG_ASSERT_POINTER(timeline); tracker = timeline->tracker_tail; while (NULL != tracker) { mali_timeline_debug_print_tracker(tracker, print_ctx); tracker = tracker->timeline_next; } } #if !(LINUX_VERSION_CODE < KERNEL_VERSION(3, 17, 0)) void mali_timeline_debug_direct_print_tracker(struct mali_timeline_tracker *tracker) { const char *tracker_state = "IWAF"; char state_char = 'I'; char tracker_type[32] = {0}; MALI_DEBUG_ASSERT_POINTER(tracker); state_char = *(tracker_state + mali_timeline_debug_get_tracker_state(tracker)); _mali_osk_snprintf(tracker_type, sizeof(tracker_type), "%s", timeline_tracker_type_to_string(tracker->type)); #if defined(CONFIG_SYNC) || defined(CONFIG_SYNC_FILE) if (0 != tracker->trigger_ref_count) { MALI_PRINT(("TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u), fd:%d, fence:(0x%08X)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], tracker->fence.sync_fd, tracker->sync_fence, tracker->job)); } else { MALI_PRINT(("TL: %s %u %c fd:%d fence:(0x%08X) job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->fence.sync_fd, tracker->sync_fence, tracker->job)); } #else if (0 != tracker->trigger_ref_count) { MALI_PRINT(("TL: %s %u %c - ref_wait:%u [%s(%u),%s(%u),%s(%u)] job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->trigger_ref_count, is_waiting_on_timeline(tracker, MALI_TIMELINE_GP) ? "WaitGP" : " ", tracker->fence.points[0], is_waiting_on_timeline(tracker, MALI_TIMELINE_PP) ? "WaitPP" : " ", tracker->fence.points[1], is_waiting_on_timeline(tracker, MALI_TIMELINE_SOFT) ? "WaitSOFT" : " ", tracker->fence.points[2], tracker->job)); } else { MALI_PRINT(("TL: %s %u %c job:(0x%08X)\n", tracker_type, tracker->point, state_char, tracker->job)); } #endif } void mali_timeline_debug_direct_print_timeline(struct mali_timeline *timeline) { struct mali_timeline_tracker *tracker = NULL; MALI_DEBUG_ASSERT_POINTER(timeline); tracker = timeline->tracker_tail; while (NULL != tracker) { mali_timeline_debug_direct_print_tracker(tracker); tracker = tracker->timeline_next; } } #endif void mali_timeline_debug_print_system(struct mali_timeline_system *system, _mali_osk_print_ctx *print_ctx) { int i; int num_printed = 0; u32 tid = _mali_osk_get_tid(); MALI_DEBUG_ASSERT_POINTER(system); mali_spinlock_reentrant_wait(system->spinlock, tid); /* Print all timelines */ for (i = 0; i < MALI_TIMELINE_MAX; ++i) { struct mali_timeline *timeline = system->timelines[i]; MALI_DEBUG_ASSERT_POINTER(timeline); if (NULL == timeline->tracker_head) continue; if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: Timeline %s:\n", timeline_id_to_string((enum mali_timeline_id)i)); else MALI_DEBUG_PRINT(2, ("TL: Timeline %s: oldest (%u) next(%u)\n", timeline_id_to_string((enum mali_timeline_id)i), timeline->point_oldest, timeline->point_next)); mali_timeline_debug_print_timeline(timeline, print_ctx); num_printed++; } if (0 == num_printed) { if (print_ctx) _mali_osk_ctxprintf(print_ctx, "TL: All timelines empty\n"); else MALI_DEBUG_PRINT(2, ("TL: All timelines empty\n")); } mali_spinlock_reentrant_signal(system->spinlock, tid); } #endif /* defined(MALI_TIMELINE_DEBUG_FUNCTIONS) */ #if defined(CONFIG_MALI_DMA_BUF_FENCE) void mali_timeline_dma_fence_callback(void *pp_job_ptr) { struct mali_timeline_system *system; struct mali_timeline_waiter *waiter; struct mali_timeline_tracker *tracker; struct mali_pp_job *pp_job = (struct mali_pp_job *)pp_job_ptr; mali_scheduler_mask schedule_mask = MALI_SCHEDULER_MASK_EMPTY; u32 tid = _mali_osk_get_tid(); mali_bool is_aborting = MALI_FALSE; MALI_DEBUG_ASSERT_POINTER(pp_job); tracker = &pp_job->tracker; MALI_DEBUG_ASSERT_POINTER(tracker); system = tracker->system; MALI_DEBUG_ASSERT_POINTER(system); MALI_DEBUG_ASSERT_POINTER(system->session); mali_spinlock_reentrant_wait(system->spinlock, tid); waiter = tracker->waiter_dma_fence; MALI_DEBUG_ASSERT_POINTER(waiter); schedule_mask |= mali_timeline_system_release_waiter(system, waiter); is_aborting = system->session->is_aborting; /* If aborting, wake up sleepers that are waiting for dma fence callbacks to complete. */ if (is_aborting) { _mali_osk_wait_queue_wake_up(system->wait_queue); } mali_spinlock_reentrant_signal(system->spinlock, tid); if (!is_aborting) { mali_executor_schedule_from_mask(schedule_mask, MALI_TRUE); } } #endif