Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Stephen Chandler Paul | 881 | 99.55% | 1 | 50.00% |
Linus Torvalds | 4 | 0.45% | 1 | 50.00% |
Total | 885 | 2 |
// SPDX-License-Identifier: MIT #include <uapi/linux/sched/types.h> #include <drm/drm_print.h> #include <drm/drm_vblank.h> #include <drm/drm_vblank_work.h> #include <drm/drm_crtc.h> #include "drm_internal.h" /** * DOC: vblank works * * Many DRM drivers need to program hardware in a time-sensitive manner, many * times with a deadline of starting and finishing within a certain region of * the scanout. Most of the time the safest way to accomplish this is to * simply do said time-sensitive programming in the driver's IRQ handler, * which allows drivers to avoid being preempted during these critical * regions. Or even better, the hardware may even handle applying such * time-critical programming independently of the CPU. * * While there's a decent amount of hardware that's designed so that the CPU * doesn't need to be concerned with extremely time-sensitive programming, * there's a few situations where it can't be helped. Some unforgiving * hardware may require that certain time-sensitive programming be handled * completely by the CPU, and said programming may even take too long to * handle in an IRQ handler. Another such situation would be where the driver * needs to perform a task that needs to complete within a specific scanout * period, but might possibly block and thus cannot be handled in an IRQ * context. Both of these situations can't be solved perfectly in Linux since * we're not a realtime kernel, and thus the scheduler may cause us to miss * our deadline if it decides to preempt us. But for some drivers, it's good * enough if we can lower our chance of being preempted to an absolute * minimum. * * This is where &drm_vblank_work comes in. &drm_vblank_work provides a simple * generic delayed work implementation which delays work execution until a * particular vblank has passed, and then executes the work at realtime * priority. This provides the best possible chance at performing * time-sensitive hardware programming on time, even when the system is under * heavy load. &drm_vblank_work also supports rescheduling, so that self * re-arming work items can be easily implemented. */ void drm_handle_vblank_works(struct drm_vblank_crtc *vblank) { struct drm_vblank_work *work, *next; u64 count = atomic64_read(&vblank->count); bool wake = false; assert_spin_locked(&vblank->dev->event_lock); list_for_each_entry_safe(work, next, &vblank->pending_work, node) { if (!drm_vblank_passed(count, work->count)) continue; list_del_init(&work->node); drm_vblank_put(vblank->dev, vblank->pipe); kthread_queue_work(vblank->worker, &work->base); wake = true; } if (wake) wake_up_all(&vblank->work_wait_queue); } /* Handle cancelling any pending vblank work items and drop respective vblank * references in response to vblank interrupts being disabled. */ void drm_vblank_cancel_pending_works(struct drm_vblank_crtc *vblank) { struct drm_vblank_work *work, *next; assert_spin_locked(&vblank->dev->event_lock); list_for_each_entry_safe(work, next, &vblank->pending_work, node) { list_del_init(&work->node); drm_vblank_put(vblank->dev, vblank->pipe); } wake_up_all(&vblank->work_wait_queue); } /** * drm_vblank_work_schedule - schedule a vblank work * @work: vblank work to schedule * @count: target vblank count * @nextonmiss: defer until the next vblank if target vblank was missed * * Schedule @work for execution once the crtc vblank count reaches @count. * * If the crtc vblank count has already reached @count and @nextonmiss is * %false the work starts to execute immediately. * * If the crtc vblank count has already reached @count and @nextonmiss is * %true the work is deferred until the next vblank (as if @count has been * specified as crtc vblank count + 1). * * If @work is already scheduled, this function will reschedule said work * using the new @count. This can be used for self-rearming work items. * * Returns: * %1 if @work was successfully (re)scheduled, %0 if it was either already * scheduled or cancelled, or a negative error code on failure. */ int drm_vblank_work_schedule(struct drm_vblank_work *work, u64 count, bool nextonmiss) { struct drm_vblank_crtc *vblank = work->vblank; struct drm_device *dev = vblank->dev; u64 cur_vbl; unsigned long irqflags; bool passed, inmodeset, rescheduling = false, wake = false; int ret = 0; spin_lock_irqsave(&dev->event_lock, irqflags); if (work->cancelling) goto out; spin_lock(&dev->vbl_lock); inmodeset = vblank->inmodeset; spin_unlock(&dev->vbl_lock); if (inmodeset) goto out; if (list_empty(&work->node)) { ret = drm_vblank_get(dev, vblank->pipe); if (ret < 0) goto out; } else if (work->count == count) { /* Already scheduled w/ same vbl count */ goto out; } else { rescheduling = true; } work->count = count; cur_vbl = drm_vblank_count(dev, vblank->pipe); passed = drm_vblank_passed(cur_vbl, count); if (passed) drm_dbg_core(dev, "crtc %d vblank %llu already passed (current %llu)\n", vblank->pipe, count, cur_vbl); if (!nextonmiss && passed) { drm_vblank_put(dev, vblank->pipe); ret = kthread_queue_work(vblank->worker, &work->base); if (rescheduling) { list_del_init(&work->node); wake = true; } } else { if (!rescheduling) list_add_tail(&work->node, &vblank->pending_work); ret = true; } out: spin_unlock_irqrestore(&dev->event_lock, irqflags); if (wake) wake_up_all(&vblank->work_wait_queue); return ret; } EXPORT_SYMBOL(drm_vblank_work_schedule); /** * drm_vblank_work_cancel_sync - cancel a vblank work and wait for it to * finish executing * @work: vblank work to cancel * * Cancel an already scheduled vblank work and wait for its * execution to finish. * * On return, @work is guaranteed to no longer be scheduled or running, even * if it's self-arming. * * Returns: * %True if the work was cancelled before it started to execute, %false * otherwise. */ bool drm_vblank_work_cancel_sync(struct drm_vblank_work *work) { struct drm_vblank_crtc *vblank = work->vblank; struct drm_device *dev = vblank->dev; bool ret = false; spin_lock_irq(&dev->event_lock); if (!list_empty(&work->node)) { list_del_init(&work->node); drm_vblank_put(vblank->dev, vblank->pipe); ret = true; } work->cancelling++; spin_unlock_irq(&dev->event_lock); wake_up_all(&vblank->work_wait_queue); if (kthread_cancel_work_sync(&work->base)) ret = true; spin_lock_irq(&dev->event_lock); work->cancelling--; spin_unlock_irq(&dev->event_lock); return ret; } EXPORT_SYMBOL(drm_vblank_work_cancel_sync); /** * drm_vblank_work_flush - wait for a scheduled vblank work to finish * executing * @work: vblank work to flush * * Wait until @work has finished executing once. */ void drm_vblank_work_flush(struct drm_vblank_work *work) { struct drm_vblank_crtc *vblank = work->vblank; struct drm_device *dev = vblank->dev; spin_lock_irq(&dev->event_lock); wait_event_lock_irq(vblank->work_wait_queue, list_empty(&work->node), dev->event_lock); spin_unlock_irq(&dev->event_lock); kthread_flush_work(&work->base); } EXPORT_SYMBOL(drm_vblank_work_flush); /** * drm_vblank_work_init - initialize a vblank work item * @work: vblank work item * @crtc: CRTC whose vblank will trigger the work execution * @func: work function to be executed * * Initialize a vblank work item for a specific crtc. */ void drm_vblank_work_init(struct drm_vblank_work *work, struct drm_crtc *crtc, void (*func)(struct kthread_work *work)) { kthread_init_work(&work->base, func); INIT_LIST_HEAD(&work->node); work->vblank = &crtc->dev->vblank[drm_crtc_index(crtc)]; } EXPORT_SYMBOL(drm_vblank_work_init); int drm_vblank_worker_init(struct drm_vblank_crtc *vblank) { struct kthread_worker *worker; INIT_LIST_HEAD(&vblank->pending_work); init_waitqueue_head(&vblank->work_wait_queue); worker = kthread_create_worker(0, "card%d-crtc%d", vblank->dev->primary->index, vblank->pipe); if (IS_ERR(worker)) return PTR_ERR(worker); vblank->worker = worker; sched_set_fifo(worker->task); return 0; }
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