// SPDX-License-Identifier: GPL-2.0 OR MIT /* Copyright 2017-2019 Qiang Yu */ #include #include #include #include #include #include #include "lima_devfreq.h" #include "lima_drv.h" #include "lima_sched.h" #include "lima_vm.h" #include "lima_mmu.h" #include "lima_l2_cache.h" #include "lima_gem.h" #include "lima_trace.h" struct lima_fence { struct dma_fence base; struct lima_sched_pipe *pipe; }; static struct kmem_cache *lima_fence_slab; static int lima_fence_slab_refcnt; int lima_sched_slab_init(void) { if (!lima_fence_slab) { lima_fence_slab = kmem_cache_create( "lima_fence", sizeof(struct lima_fence), 0, SLAB_HWCACHE_ALIGN, NULL); if (!lima_fence_slab) return -ENOMEM; } lima_fence_slab_refcnt++; return 0; } void lima_sched_slab_fini(void) { if (!--lima_fence_slab_refcnt) { kmem_cache_destroy(lima_fence_slab); lima_fence_slab = NULL; } } static inline struct lima_fence *to_lima_fence(struct dma_fence *fence) { return container_of(fence, struct lima_fence, base); } static const char *lima_fence_get_driver_name(struct dma_fence *fence) { return "lima"; } static const char *lima_fence_get_timeline_name(struct dma_fence *fence) { struct lima_fence *f = to_lima_fence(fence); return f->pipe->base.name; } static void lima_fence_release_rcu(struct rcu_head *rcu) { struct dma_fence *f = container_of(rcu, struct dma_fence, rcu); struct lima_fence *fence = to_lima_fence(f); kmem_cache_free(lima_fence_slab, fence); } static void lima_fence_release(struct dma_fence *fence) { struct lima_fence *f = to_lima_fence(fence); call_rcu(&f->base.rcu, lima_fence_release_rcu); } static const struct dma_fence_ops lima_fence_ops = { .get_driver_name = lima_fence_get_driver_name, .get_timeline_name = lima_fence_get_timeline_name, .release = lima_fence_release, }; static struct lima_fence *lima_fence_create(struct lima_sched_pipe *pipe) { struct lima_fence *fence; fence = kmem_cache_zalloc(lima_fence_slab, GFP_KERNEL); if (!fence) return NULL; fence->pipe = pipe; dma_fence_init(&fence->base, &lima_fence_ops, &pipe->fence_lock, pipe->fence_context, ++pipe->fence_seqno); return fence; } static inline struct lima_sched_task *to_lima_task(struct drm_sched_job *job) { return container_of(job, struct lima_sched_task, base); } static inline struct lima_sched_pipe *to_lima_pipe(struct drm_gpu_scheduler *sched) { return container_of(sched, struct lima_sched_pipe, base); } int lima_sched_task_init(struct lima_sched_task *task, struct lima_sched_context *context, struct lima_bo **bos, int num_bos, struct lima_vm *vm) { int err, i; task->bos = kmemdup(bos, sizeof(*bos) * num_bos, GFP_KERNEL); if (!task->bos) return -ENOMEM; for (i = 0; i < num_bos; i++) drm_gem_object_get(&bos[i]->base.base); err = drm_sched_job_init(&task->base, &context->base, 1, vm); if (err) { kfree(task->bos); return err; } drm_sched_job_arm(&task->base); task->num_bos = num_bos; task->vm = lima_vm_get(vm); return 0; } void lima_sched_task_fini(struct lima_sched_task *task) { int i; drm_sched_job_cleanup(&task->base); if (task->bos) { for (i = 0; i < task->num_bos; i++) drm_gem_object_put(&task->bos[i]->base.base); kfree(task->bos); } lima_vm_put(task->vm); } int lima_sched_context_init(struct lima_sched_pipe *pipe, struct lima_sched_context *context) { struct drm_gpu_scheduler *sched = &pipe->base; return drm_sched_entity_init(&context->base, DRM_SCHED_PRIORITY_NORMAL, &sched, 1, NULL); } void lima_sched_context_fini(struct lima_sched_pipe *pipe, struct lima_sched_context *context) { drm_sched_entity_destroy(&context->base); } struct dma_fence *lima_sched_context_queue_task(struct lima_sched_task *task) { struct dma_fence *fence = dma_fence_get(&task->base.s_fence->finished); trace_lima_task_submit(task); drm_sched_entity_push_job(&task->base); return fence; } static int lima_pm_busy(struct lima_device *ldev) { int ret; /* resume GPU if it has been suspended by runtime PM */ ret = pm_runtime_resume_and_get(ldev->dev); if (ret < 0) return ret; lima_devfreq_record_busy(&ldev->devfreq); return 0; } static void lima_pm_idle(struct lima_device *ldev) { lima_devfreq_record_idle(&ldev->devfreq); /* GPU can do auto runtime suspend */ pm_runtime_mark_last_busy(ldev->dev); pm_runtime_put_autosuspend(ldev->dev); } static struct dma_fence *lima_sched_run_job(struct drm_sched_job *job) { struct lima_sched_task *task = to_lima_task(job); struct lima_sched_pipe *pipe = to_lima_pipe(job->sched); struct lima_device *ldev = pipe->ldev; struct lima_fence *fence; int i, err; /* after GPU reset */ if (job->s_fence->finished.error < 0) return NULL; fence = lima_fence_create(pipe); if (!fence) return NULL; err = lima_pm_busy(ldev); if (err < 0) { dma_fence_put(&fence->base); return NULL; } task->fence = &fence->base; /* for caller usage of the fence, otherwise irq handler * may consume the fence before caller use it */ dma_fence_get(task->fence); pipe->current_task = task; /* this is needed for MMU to work correctly, otherwise GP/PP * will hang or page fault for unknown reason after running for * a while. * * Need to investigate: * 1. is it related to TLB * 2. how much performance will be affected by L2 cache flush * 3. can we reduce the calling of this function because all * GP/PP use the same L2 cache on mali400 * * TODO: * 1. move this to task fini to save some wait time? * 2. when GP/PP use different l2 cache, need PP wait GP l2 * cache flush? */ for (i = 0; i < pipe->num_l2_cache; i++) lima_l2_cache_flush(pipe->l2_cache[i]); lima_vm_put(pipe->current_vm); pipe->current_vm = lima_vm_get(task->vm); if (pipe->bcast_mmu) lima_mmu_switch_vm(pipe->bcast_mmu, pipe->current_vm); else { for (i = 0; i < pipe->num_mmu; i++) lima_mmu_switch_vm(pipe->mmu[i], pipe->current_vm); } trace_lima_task_run(task); pipe->error = false; pipe->task_run(pipe, task); return task->fence; } static void lima_sched_build_error_task_list(struct lima_sched_task *task) { struct lima_sched_error_task *et; struct lima_sched_pipe *pipe = to_lima_pipe(task->base.sched); struct lima_ip *ip = pipe->processor[0]; int pipe_id = ip->id == lima_ip_gp ? lima_pipe_gp : lima_pipe_pp; struct lima_device *dev = ip->dev; struct lima_sched_context *sched_ctx = container_of(task->base.entity, struct lima_sched_context, base); struct lima_ctx *ctx = container_of(sched_ctx, struct lima_ctx, context[pipe_id]); struct lima_dump_task *dt; struct lima_dump_chunk *chunk; struct lima_dump_chunk_pid *pid_chunk; struct lima_dump_chunk_buffer *buffer_chunk; u32 size, task_size, mem_size; int i; struct iosys_map map; int ret; mutex_lock(&dev->error_task_list_lock); if (dev->dump.num_tasks >= lima_max_error_tasks) { dev_info(dev->dev, "fail to save task state from %s pid %d: " "error task list is full\n", ctx->pname, ctx->pid); goto out; } /* frame chunk */ size = sizeof(struct lima_dump_chunk) + pipe->frame_size; /* process name chunk */ size += sizeof(struct lima_dump_chunk) + sizeof(ctx->pname); /* pid chunk */ size += sizeof(struct lima_dump_chunk); /* buffer chunks */ for (i = 0; i < task->num_bos; i++) { struct lima_bo *bo = task->bos[i]; size += sizeof(struct lima_dump_chunk); size += bo->heap_size ? bo->heap_size : lima_bo_size(bo); } task_size = size + sizeof(struct lima_dump_task); mem_size = task_size + sizeof(*et); et = kvmalloc(mem_size, GFP_KERNEL); if (!et) { dev_err(dev->dev, "fail to alloc task dump buffer of size %x\n", mem_size); goto out; } et->data = et + 1; et->size = task_size; dt = et->data; memset(dt, 0, sizeof(*dt)); dt->id = pipe_id; dt->size = size; chunk = (struct lima_dump_chunk *)(dt + 1); memset(chunk, 0, sizeof(*chunk)); chunk->id = LIMA_DUMP_CHUNK_FRAME; chunk->size = pipe->frame_size; memcpy(chunk + 1, task->frame, pipe->frame_size); dt->num_chunks++; chunk = (void *)(chunk + 1) + chunk->size; memset(chunk, 0, sizeof(*chunk)); chunk->id = LIMA_DUMP_CHUNK_PROCESS_NAME; chunk->size = sizeof(ctx->pname); memcpy(chunk + 1, ctx->pname, sizeof(ctx->pname)); dt->num_chunks++; pid_chunk = (void *)(chunk + 1) + chunk->size; memset(pid_chunk, 0, sizeof(*pid_chunk)); pid_chunk->id = LIMA_DUMP_CHUNK_PROCESS_ID; pid_chunk->pid = ctx->pid; dt->num_chunks++; buffer_chunk = (void *)(pid_chunk + 1) + pid_chunk->size; for (i = 0; i < task->num_bos; i++) { struct lima_bo *bo = task->bos[i]; void *data; memset(buffer_chunk, 0, sizeof(*buffer_chunk)); buffer_chunk->id = LIMA_DUMP_CHUNK_BUFFER; buffer_chunk->va = lima_vm_get_va(task->vm, bo); if (bo->heap_size) { buffer_chunk->size = bo->heap_size; data = vmap(bo->base.pages, bo->heap_size >> PAGE_SHIFT, VM_MAP, pgprot_writecombine(PAGE_KERNEL)); if (!data) { kvfree(et); goto out; } memcpy(buffer_chunk + 1, data, buffer_chunk->size); vunmap(data); } else { buffer_chunk->size = lima_bo_size(bo); ret = drm_gem_vmap_unlocked(&bo->base.base, &map); if (ret) { kvfree(et); goto out; } memcpy(buffer_chunk + 1, map.vaddr, buffer_chunk->size); drm_gem_vunmap_unlocked(&bo->base.base, &map); } buffer_chunk = (void *)(buffer_chunk + 1) + buffer_chunk->size; dt->num_chunks++; } list_add(&et->list, &dev->error_task_list); dev->dump.size += et->size; dev->dump.num_tasks++; dev_info(dev->dev, "save error task state success\n"); out: mutex_unlock(&dev->error_task_list_lock); } static enum drm_gpu_sched_stat lima_sched_timedout_job(struct drm_sched_job *job) { struct lima_sched_pipe *pipe = to_lima_pipe(job->sched); struct lima_sched_task *task = to_lima_task(job); struct lima_device *ldev = pipe->ldev; struct lima_ip *ip = pipe->processor[0]; int i; /* * If the GPU managed to complete this jobs fence, the timeout is * spurious. Bail out. */ if (dma_fence_is_signaled(task->fence)) { DRM_WARN("%s spurious timeout\n", lima_ip_name(ip)); return DRM_GPU_SCHED_STAT_NOMINAL; } /* * Lima IRQ handler may take a long time to process an interrupt * if there is another IRQ handler hogging the processing. * In order to catch such cases and not report spurious Lima job * timeouts, synchronize the IRQ handler and re-check the fence * status. */ for (i = 0; i < pipe->num_processor; i++) synchronize_irq(pipe->processor[i]->irq); if (pipe->bcast_processor) synchronize_irq(pipe->bcast_processor->irq); if (dma_fence_is_signaled(task->fence)) { DRM_WARN("%s unexpectedly high interrupt latency\n", lima_ip_name(ip)); return DRM_GPU_SCHED_STAT_NOMINAL; } /* * The task might still finish while this timeout handler runs. * To prevent a race condition on its completion, mask all irqs * on the running core until the next hard reset completes. */ pipe->task_mask_irq(pipe); if (!pipe->error) DRM_ERROR("%s job timeout\n", lima_ip_name(ip)); drm_sched_stop(&pipe->base, &task->base); drm_sched_increase_karma(&task->base); if (lima_max_error_tasks) lima_sched_build_error_task_list(task); pipe->task_error(pipe); if (pipe->bcast_mmu) lima_mmu_page_fault_resume(pipe->bcast_mmu); else { for (i = 0; i < pipe->num_mmu; i++) lima_mmu_page_fault_resume(pipe->mmu[i]); } lima_vm_put(pipe->current_vm); pipe->current_vm = NULL; pipe->current_task = NULL; lima_pm_idle(ldev); drm_sched_resubmit_jobs(&pipe->base); drm_sched_start(&pipe->base); return DRM_GPU_SCHED_STAT_NOMINAL; } static void lima_sched_free_job(struct drm_sched_job *job) { struct lima_sched_task *task = to_lima_task(job); struct lima_sched_pipe *pipe = to_lima_pipe(job->sched); struct lima_vm *vm = task->vm; struct lima_bo **bos = task->bos; int i; dma_fence_put(task->fence); for (i = 0; i < task->num_bos; i++) lima_vm_bo_del(vm, bos[i]); lima_sched_task_fini(task); kmem_cache_free(pipe->task_slab, task); } static const struct drm_sched_backend_ops lima_sched_ops = { .run_job = lima_sched_run_job, .timedout_job = lima_sched_timedout_job, .free_job = lima_sched_free_job, }; static void lima_sched_recover_work(struct work_struct *work) { struct lima_sched_pipe *pipe = container_of(work, struct lima_sched_pipe, recover_work); int i; for (i = 0; i < pipe->num_l2_cache; i++) lima_l2_cache_flush(pipe->l2_cache[i]); if (pipe->bcast_mmu) { lima_mmu_flush_tlb(pipe->bcast_mmu); } else { for (i = 0; i < pipe->num_mmu; i++) lima_mmu_flush_tlb(pipe->mmu[i]); } if (pipe->task_recover(pipe)) drm_sched_fault(&pipe->base); } int lima_sched_pipe_init(struct lima_sched_pipe *pipe, const char *name) { unsigned int timeout = lima_sched_timeout_ms > 0 ? lima_sched_timeout_ms : 10000; pipe->fence_context = dma_fence_context_alloc(1); spin_lock_init(&pipe->fence_lock); INIT_WORK(&pipe->recover_work, lima_sched_recover_work); return drm_sched_init(&pipe->base, &lima_sched_ops, NULL, DRM_SCHED_PRIORITY_COUNT, 1, lima_job_hang_limit, msecs_to_jiffies(timeout), NULL, NULL, name, pipe->ldev->dev); } void lima_sched_pipe_fini(struct lima_sched_pipe *pipe) { drm_sched_fini(&pipe->base); } void lima_sched_pipe_task_done(struct lima_sched_pipe *pipe) { struct lima_sched_task *task = pipe->current_task; struct lima_device *ldev = pipe->ldev; if (pipe->error) { if (task && task->recoverable) schedule_work(&pipe->recover_work); else drm_sched_fault(&pipe->base); } else { pipe->task_fini(pipe); dma_fence_signal(task->fence); lima_pm_idle(ldev); } }