/* * Copyright 2013 Red Hat Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: Dave Airlie * Alon Levy */ /* QXL cmd/ring handling */ #include "qxl_drv.h" #include "qxl_object.h" static int qxl_reap_surface_id(struct qxl_device *qdev, int max_to_reap); struct ring { struct qxl_ring_header header; uint8_t elements[0]; }; struct qxl_ring { struct ring *ring; int element_size; int n_elements; int prod_notify; wait_queue_head_t *push_event; spinlock_t lock; }; void qxl_ring_free(struct qxl_ring *ring) { kfree(ring); } void qxl_ring_init_hdr(struct qxl_ring *ring) { ring->ring->header.notify_on_prod = ring->n_elements; } struct qxl_ring * qxl_ring_create(struct qxl_ring_header *header, int element_size, int n_elements, int prod_notify, bool set_prod_notify, wait_queue_head_t *push_event) { struct qxl_ring *ring; ring = kmalloc(sizeof(*ring), GFP_KERNEL); if (!ring) return NULL; ring->ring = (struct ring *)header; ring->element_size = element_size; ring->n_elements = n_elements; ring->prod_notify = prod_notify; ring->push_event = push_event; if (set_prod_notify) qxl_ring_init_hdr(ring); spin_lock_init(&ring->lock); return ring; } static int qxl_check_header(struct qxl_ring *ring) { int ret; struct qxl_ring_header *header = &(ring->ring->header); unsigned long flags; spin_lock_irqsave(&ring->lock, flags); ret = header->prod - header->cons < header->num_items; if (ret == 0) header->notify_on_cons = header->cons + 1; spin_unlock_irqrestore(&ring->lock, flags); return ret; } int qxl_check_idle(struct qxl_ring *ring) { int ret; struct qxl_ring_header *header = &(ring->ring->header); unsigned long flags; spin_lock_irqsave(&ring->lock, flags); ret = header->prod == header->cons; spin_unlock_irqrestore(&ring->lock, flags); return ret; } int qxl_ring_push(struct qxl_ring *ring, const void *new_elt, bool interruptible) { struct qxl_ring_header *header = &(ring->ring->header); uint8_t *elt; int idx, ret; unsigned long flags; spin_lock_irqsave(&ring->lock, flags); if (header->prod - header->cons == header->num_items) { header->notify_on_cons = header->cons + 1; mb(); spin_unlock_irqrestore(&ring->lock, flags); if (!drm_can_sleep()) { while (!qxl_check_header(ring)) udelay(1); } else { if (interruptible) { ret = wait_event_interruptible(*ring->push_event, qxl_check_header(ring)); if (ret) return ret; } else { wait_event(*ring->push_event, qxl_check_header(ring)); } } spin_lock_irqsave(&ring->lock, flags); } idx = header->prod & (ring->n_elements - 1); elt = ring->ring->elements + idx * ring->element_size; memcpy((void *)elt, new_elt, ring->element_size); header->prod++; mb(); if (header->prod == header->notify_on_prod) outb(0, ring->prod_notify); spin_unlock_irqrestore(&ring->lock, flags); return 0; } static bool qxl_ring_pop(struct qxl_ring *ring, void *element) { volatile struct qxl_ring_header *header = &(ring->ring->header); volatile uint8_t *ring_elt; int idx; unsigned long flags; spin_lock_irqsave(&ring->lock, flags); if (header->cons == header->prod) { header->notify_on_prod = header->cons + 1; spin_unlock_irqrestore(&ring->lock, flags); return false; } idx = header->cons & (ring->n_elements - 1); ring_elt = ring->ring->elements + idx * ring->element_size; memcpy(element, (void *)ring_elt, ring->element_size); header->cons++; spin_unlock_irqrestore(&ring->lock, flags); return true; } int qxl_push_command_ring_release(struct qxl_device *qdev, struct qxl_release *release, uint32_t type, bool interruptible) { struct qxl_command cmd; cmd.type = type; cmd.data = qxl_bo_physical_address(qdev, release->release_bo, release->release_offset); return qxl_ring_push(qdev->command_ring, &cmd, interruptible); } int qxl_push_cursor_ring_release(struct qxl_device *qdev, struct qxl_release *release, uint32_t type, bool interruptible) { struct qxl_command cmd; cmd.type = type; cmd.data = qxl_bo_physical_address(qdev, release->release_bo, release->release_offset); return qxl_ring_push(qdev->cursor_ring, &cmd, interruptible); } bool qxl_queue_garbage_collect(struct qxl_device *qdev, bool flush) { if (!qxl_check_idle(qdev->release_ring)) { schedule_work(&qdev->gc_work); if (flush) flush_work(&qdev->gc_work); return true; } return false; } int qxl_garbage_collect(struct qxl_device *qdev) { struct qxl_release *release; uint64_t id, next_id; int i = 0; union qxl_release_info *info; while (qxl_ring_pop(qdev->release_ring, &id)) { DRM_DEBUG_DRIVER("popped %lld\n", id); while (id) { release = qxl_release_from_id_locked(qdev, id); if (release == NULL) break; info = qxl_release_map(qdev, release); next_id = info->next; qxl_release_unmap(qdev, release, info); DRM_DEBUG_DRIVER("popped %lld, next %lld\n", id, next_id); switch (release->type) { case QXL_RELEASE_DRAWABLE: case QXL_RELEASE_SURFACE_CMD: case QXL_RELEASE_CURSOR_CMD: break; default: DRM_ERROR("unexpected release type\n"); break; } id = next_id; qxl_release_free(qdev, release); ++i; } } DRM_DEBUG_DRIVER("%d\n", i); return i; } int qxl_alloc_bo_reserved(struct qxl_device *qdev, struct qxl_release *release, unsigned long size, struct qxl_bo **_bo) { struct qxl_bo *bo; int ret; ret = qxl_bo_create(qdev, size, false /* not kernel - device */, false, QXL_GEM_DOMAIN_VRAM, NULL, &bo); if (ret) { DRM_ERROR("failed to allocate VRAM BO\n"); return ret; } ret = qxl_release_list_add(release, bo); if (ret) goto out_unref; *_bo = bo; return 0; out_unref: qxl_bo_unref(&bo); return ret; } static int wait_for_io_cmd_user(struct qxl_device *qdev, uint8_t val, long port, bool intr) { int irq_num; long addr = qdev->io_base + port; int ret; mutex_lock(&qdev->async_io_mutex); irq_num = atomic_read(&qdev->irq_received_io_cmd); if (qdev->last_sent_io_cmd > irq_num) { if (intr) ret = wait_event_interruptible_timeout(qdev->io_cmd_event, atomic_read(&qdev->irq_received_io_cmd) > irq_num, 5*HZ); else ret = wait_event_timeout(qdev->io_cmd_event, atomic_read(&qdev->irq_received_io_cmd) > irq_num, 5*HZ); /* 0 is timeout, just bail the "hw" has gone away */ if (ret <= 0) goto out; irq_num = atomic_read(&qdev->irq_received_io_cmd); } outb(val, addr); qdev->last_sent_io_cmd = irq_num + 1; if (intr) ret = wait_event_interruptible_timeout(qdev->io_cmd_event, atomic_read(&qdev->irq_received_io_cmd) > irq_num, 5*HZ); else ret = wait_event_timeout(qdev->io_cmd_event, atomic_read(&qdev->irq_received_io_cmd) > irq_num, 5*HZ); out: if (ret > 0) ret = 0; mutex_unlock(&qdev->async_io_mutex); return ret; } static void wait_for_io_cmd(struct qxl_device *qdev, uint8_t val, long port) { int ret; restart: ret = wait_for_io_cmd_user(qdev, val, port, false); if (ret == -ERESTARTSYS) goto restart; } int qxl_io_update_area(struct qxl_device *qdev, struct qxl_bo *surf, const struct qxl_rect *area) { int surface_id; uint32_t surface_width, surface_height; int ret; if (!surf->hw_surf_alloc) DRM_ERROR("got io update area with no hw surface\n"); if (surf->is_primary) surface_id = 0; else surface_id = surf->surface_id; surface_width = surf->surf.width; surface_height = surf->surf.height; if (area->left < 0 || area->top < 0 || area->right > surface_width || area->bottom > surface_height) return -EINVAL; mutex_lock(&qdev->update_area_mutex); qdev->ram_header->update_area = *area; qdev->ram_header->update_surface = surface_id; ret = wait_for_io_cmd_user(qdev, 0, QXL_IO_UPDATE_AREA_ASYNC, true); mutex_unlock(&qdev->update_area_mutex); return ret; } void qxl_io_notify_oom(struct qxl_device *qdev) { outb(0, qdev->io_base + QXL_IO_NOTIFY_OOM); } void qxl_io_flush_release(struct qxl_device *qdev) { outb(0, qdev->io_base + QXL_IO_FLUSH_RELEASE); } void qxl_io_flush_surfaces(struct qxl_device *qdev) { wait_for_io_cmd(qdev, 0, QXL_IO_FLUSH_SURFACES_ASYNC); } void qxl_io_destroy_primary(struct qxl_device *qdev) { wait_for_io_cmd(qdev, 0, QXL_IO_DESTROY_PRIMARY_ASYNC); qdev->primary_created = false; } void qxl_io_create_primary(struct qxl_device *qdev, unsigned int offset, struct qxl_bo *bo) { struct qxl_surface_create *create; DRM_DEBUG_DRIVER("qdev %p, ram_header %p\n", qdev, qdev->ram_header); create = &qdev->ram_header->create_surface; create->format = bo->surf.format; create->width = bo->surf.width; create->height = bo->surf.height; create->stride = bo->surf.stride; if (bo->shadow) { create->mem = qxl_bo_physical_address(qdev, bo->shadow, offset); } else { create->mem = qxl_bo_physical_address(qdev, bo, offset); } DRM_DEBUG_DRIVER("mem = %llx, from %p\n", create->mem, bo->kptr); create->flags = QXL_SURF_FLAG_KEEP_DATA; create->type = QXL_SURF_TYPE_PRIMARY; wait_for_io_cmd(qdev, 0, QXL_IO_CREATE_PRIMARY_ASYNC); qdev->primary_created = true; } void qxl_io_memslot_add(struct qxl_device *qdev, uint8_t id) { DRM_DEBUG_DRIVER("qxl_memslot_add %d\n", id); wait_for_io_cmd(qdev, id, QXL_IO_MEMSLOT_ADD_ASYNC); } void qxl_io_reset(struct qxl_device *qdev) { outb(0, qdev->io_base + QXL_IO_RESET); } void qxl_io_monitors_config(struct qxl_device *qdev) { wait_for_io_cmd(qdev, 0, QXL_IO_MONITORS_CONFIG_ASYNC); } int qxl_surface_id_alloc(struct qxl_device *qdev, struct qxl_bo *surf) { uint32_t handle; int idr_ret; int count = 0; again: idr_preload(GFP_ATOMIC); spin_lock(&qdev->surf_id_idr_lock); idr_ret = idr_alloc(&qdev->surf_id_idr, NULL, 1, 0, GFP_NOWAIT); spin_unlock(&qdev->surf_id_idr_lock); idr_preload_end(); if (idr_ret < 0) return idr_ret; handle = idr_ret; if (handle >= qdev->rom->n_surfaces) { count++; spin_lock(&qdev->surf_id_idr_lock); idr_remove(&qdev->surf_id_idr, handle); spin_unlock(&qdev->surf_id_idr_lock); qxl_reap_surface_id(qdev, 2); goto again; } surf->surface_id = handle; spin_lock(&qdev->surf_id_idr_lock); qdev->last_alloced_surf_id = handle; spin_unlock(&qdev->surf_id_idr_lock); return 0; } void qxl_surface_id_dealloc(struct qxl_device *qdev, uint32_t surface_id) { spin_lock(&qdev->surf_id_idr_lock); idr_remove(&qdev->surf_id_idr, surface_id); spin_unlock(&qdev->surf_id_idr_lock); } int qxl_hw_surface_alloc(struct qxl_device *qdev, struct qxl_bo *surf, struct ttm_mem_reg *new_mem) { struct qxl_surface_cmd *cmd; struct qxl_release *release; int ret; if (surf->hw_surf_alloc) return 0; ret = qxl_alloc_surface_release_reserved(qdev, QXL_SURFACE_CMD_CREATE, NULL, &release); if (ret) return ret; ret = qxl_release_reserve_list(release, true); if (ret) return ret; cmd = (struct qxl_surface_cmd *)qxl_release_map(qdev, release); cmd->type = QXL_SURFACE_CMD_CREATE; cmd->flags = QXL_SURF_FLAG_KEEP_DATA; cmd->u.surface_create.format = surf->surf.format; cmd->u.surface_create.width = surf->surf.width; cmd->u.surface_create.height = surf->surf.height; cmd->u.surface_create.stride = surf->surf.stride; if (new_mem) { int slot_id = surf->type == QXL_GEM_DOMAIN_VRAM ? qdev->main_mem_slot : qdev->surfaces_mem_slot; struct qxl_memslot *slot = &(qdev->mem_slots[slot_id]); /* TODO - need to hold one of the locks to read tbo.offset */ cmd->u.surface_create.data = slot->high_bits; cmd->u.surface_create.data |= (new_mem->start << PAGE_SHIFT) + surf->tbo.bdev->man[new_mem->mem_type].gpu_offset; } else cmd->u.surface_create.data = qxl_bo_physical_address(qdev, surf, 0); cmd->surface_id = surf->surface_id; qxl_release_unmap(qdev, release, &cmd->release_info); surf->surf_create = release; /* no need to add a release to the fence for this surface bo, since it is only released when we ask to destroy the surface and it would never signal otherwise */ qxl_push_command_ring_release(qdev, release, QXL_CMD_SURFACE, false); qxl_release_fence_buffer_objects(release); surf->hw_surf_alloc = true; spin_lock(&qdev->surf_id_idr_lock); idr_replace(&qdev->surf_id_idr, surf, surf->surface_id); spin_unlock(&qdev->surf_id_idr_lock); return 0; } int qxl_hw_surface_dealloc(struct qxl_device *qdev, struct qxl_bo *surf) { struct qxl_surface_cmd *cmd; struct qxl_release *release; int ret; int id; if (!surf->hw_surf_alloc) return 0; ret = qxl_alloc_surface_release_reserved(qdev, QXL_SURFACE_CMD_DESTROY, surf->surf_create, &release); if (ret) return ret; surf->surf_create = NULL; /* remove the surface from the idr, but not the surface id yet */ spin_lock(&qdev->surf_id_idr_lock); idr_replace(&qdev->surf_id_idr, NULL, surf->surface_id); spin_unlock(&qdev->surf_id_idr_lock); surf->hw_surf_alloc = false; id = surf->surface_id; surf->surface_id = 0; release->surface_release_id = id; cmd = (struct qxl_surface_cmd *)qxl_release_map(qdev, release); cmd->type = QXL_SURFACE_CMD_DESTROY; cmd->surface_id = id; qxl_release_unmap(qdev, release, &cmd->release_info); qxl_push_command_ring_release(qdev, release, QXL_CMD_SURFACE, false); qxl_release_fence_buffer_objects(release); return 0; } static int qxl_update_surface(struct qxl_device *qdev, struct qxl_bo *surf) { struct qxl_rect rect; int ret; /* if we are evicting, we need to make sure the surface is up to date */ rect.left = 0; rect.right = surf->surf.width; rect.top = 0; rect.bottom = surf->surf.height; retry: ret = qxl_io_update_area(qdev, surf, &rect); if (ret == -ERESTARTSYS) goto retry; return ret; } static void qxl_surface_evict_locked(struct qxl_device *qdev, struct qxl_bo *surf, bool do_update_area) { /* no need to update area if we are just freeing the surface normally */ if (do_update_area) qxl_update_surface(qdev, surf); /* nuke the surface id at the hw */ qxl_hw_surface_dealloc(qdev, surf); } void qxl_surface_evict(struct qxl_device *qdev, struct qxl_bo *surf, bool do_update_area) { mutex_lock(&qdev->surf_evict_mutex); qxl_surface_evict_locked(qdev, surf, do_update_area); mutex_unlock(&qdev->surf_evict_mutex); } static int qxl_reap_surf(struct qxl_device *qdev, struct qxl_bo *surf, bool stall) { int ret; ret = qxl_bo_reserve(surf, false); if (ret) return ret; if (stall) mutex_unlock(&qdev->surf_evict_mutex); ret = ttm_bo_wait(&surf->tbo, true, !stall); if (stall) mutex_lock(&qdev->surf_evict_mutex); if (ret) { qxl_bo_unreserve(surf); return ret; } qxl_surface_evict_locked(qdev, surf, true); qxl_bo_unreserve(surf); return 0; } static int qxl_reap_surface_id(struct qxl_device *qdev, int max_to_reap) { int num_reaped = 0; int i, ret; bool stall = false; int start = 0; mutex_lock(&qdev->surf_evict_mutex); again: spin_lock(&qdev->surf_id_idr_lock); start = qdev->last_alloced_surf_id + 1; spin_unlock(&qdev->surf_id_idr_lock); for (i = start; i < start + qdev->rom->n_surfaces; i++) { void *objptr; int surfid = i % qdev->rom->n_surfaces; /* this avoids the case where the objects is in the idr but has been evicted half way - its makes the idr lookup atomic with the eviction */ spin_lock(&qdev->surf_id_idr_lock); objptr = idr_find(&qdev->surf_id_idr, surfid); spin_unlock(&qdev->surf_id_idr_lock); if (!objptr) continue; ret = qxl_reap_surf(qdev, objptr, stall); if (ret == 0) num_reaped++; if (num_reaped >= max_to_reap) break; } if (num_reaped == 0 && stall == false) { stall = true; goto again; } mutex_unlock(&qdev->surf_evict_mutex); if (num_reaped) { usleep_range(500, 1000); qxl_queue_garbage_collect(qdev, true); } return 0; }