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2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 2856 2857 2858 2859 2860 2861 2862 2863 2864 2865 2866 2867 2868 2869 2870 2871 2872 2873 2874 2875 2876 2877 2878 2879 2880 2881 2882 2883 2884 2885 2886 2887 2888 2889 2890 2891 2892 2893 2894 2895 2896 2897 2898 2899 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920 2921 2922 2923 2924 2925 2926 2927 2928 2929 | // SPDX-License-Identifier: GPL-2.0 OR MIT /************************************************************************** * * Copyright 2009-2023 VMware, Inc., Palo Alto, CA., USA * * 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDERS, AUTHORS AND/OR ITS SUPPLIERS 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. * **************************************************************************/ #include "vmwgfx_kms.h" #include "vmwgfx_bo.h" #include "vmw_surface_cache.h" #include <drm/drm_atomic.h> #include <drm/drm_atomic_helper.h> #include <drm/drm_damage_helper.h> #include <drm/drm_fourcc.h> #include <drm/drm_rect.h> #include <drm/drm_sysfs.h> #include <drm/drm_edid.h> void vmw_du_cleanup(struct vmw_display_unit *du) { struct vmw_private *dev_priv = vmw_priv(du->primary.dev); drm_plane_cleanup(&du->primary); if (vmw_cmd_supported(dev_priv)) drm_plane_cleanup(&du->cursor.base); drm_connector_unregister(&du->connector); drm_crtc_cleanup(&du->crtc); drm_encoder_cleanup(&du->encoder); drm_connector_cleanup(&du->connector); } /* * Display Unit Cursor functions */ static int vmw_du_cursor_plane_unmap_cm(struct vmw_plane_state *vps); static void vmw_cursor_update_mob(struct vmw_private *dev_priv, struct vmw_plane_state *vps, u32 *image, u32 width, u32 height, u32 hotspotX, u32 hotspotY); struct vmw_svga_fifo_cmd_define_cursor { u32 cmd; SVGAFifoCmdDefineAlphaCursor cursor; }; /** * vmw_send_define_cursor_cmd - queue a define cursor command * @dev_priv: the private driver struct * @image: buffer which holds the cursor image * @width: width of the mouse cursor image * @height: height of the mouse cursor image * @hotspotX: the horizontal position of mouse hotspot * @hotspotY: the vertical position of mouse hotspot */ static void vmw_send_define_cursor_cmd(struct vmw_private *dev_priv, u32 *image, u32 width, u32 height, u32 hotspotX, u32 hotspotY) { struct vmw_svga_fifo_cmd_define_cursor *cmd; const u32 image_size = width * height * sizeof(*image); const u32 cmd_size = sizeof(*cmd) + image_size; /* Try to reserve fifocmd space and swallow any failures; such reservations cannot be left unconsumed for long under the risk of clogging other fifocmd users, so we treat reservations separtely from the way we treat other fallible KMS-atomic resources at prepare_fb */ cmd = VMW_CMD_RESERVE(dev_priv, cmd_size); if (unlikely(!cmd)) return; memset(cmd, 0, sizeof(*cmd)); memcpy(&cmd[1], image, image_size); cmd->cmd = SVGA_CMD_DEFINE_ALPHA_CURSOR; cmd->cursor.id = 0; cmd->cursor.width = width; cmd->cursor.height = height; cmd->cursor.hotspotX = hotspotX; cmd->cursor.hotspotY = hotspotY; vmw_cmd_commit_flush(dev_priv, cmd_size); } /** * vmw_cursor_update_image - update the cursor image on the provided plane * @dev_priv: the private driver struct * @vps: the plane state of the cursor plane * @image: buffer which holds the cursor image * @width: width of the mouse cursor image * @height: height of the mouse cursor image * @hotspotX: the horizontal position of mouse hotspot * @hotspotY: the vertical position of mouse hotspot */ static void vmw_cursor_update_image(struct vmw_private *dev_priv, struct vmw_plane_state *vps, u32 *image, u32 width, u32 height, u32 hotspotX, u32 hotspotY) { if (vps->cursor.bo) vmw_cursor_update_mob(dev_priv, vps, image, vps->base.crtc_w, vps->base.crtc_h, hotspotX, hotspotY); else vmw_send_define_cursor_cmd(dev_priv, image, width, height, hotspotX, hotspotY); } /** * vmw_cursor_update_mob - Update cursor vis CursorMob mechanism * * Called from inside vmw_du_cursor_plane_atomic_update to actually * make the cursor-image live. * * @dev_priv: device to work with * @vps: the plane state of the cursor plane * @image: cursor source data to fill the MOB with * @width: source data width * @height: source data height * @hotspotX: cursor hotspot x * @hotspotY: cursor hotspot Y */ static void vmw_cursor_update_mob(struct vmw_private *dev_priv, struct vmw_plane_state *vps, u32 *image, u32 width, u32 height, u32 hotspotX, u32 hotspotY) { SVGAGBCursorHeader *header; SVGAGBAlphaCursorHeader *alpha_header; const u32 image_size = width * height * sizeof(*image); header = vmw_bo_map_and_cache(vps->cursor.bo); alpha_header = &header->header.alphaHeader; memset(header, 0, sizeof(*header)); header->type = SVGA_ALPHA_CURSOR; header->sizeInBytes = image_size; alpha_header->hotspotX = hotspotX; alpha_header->hotspotY = hotspotY; alpha_header->width = width; alpha_header->height = height; memcpy(header + 1, image, image_size); vmw_write(dev_priv, SVGA_REG_CURSOR_MOBID, vps->cursor.bo->tbo.resource->start); } static u32 vmw_du_cursor_mob_size(u32 w, u32 h) { return w * h * sizeof(u32) + sizeof(SVGAGBCursorHeader); } /** * vmw_du_cursor_plane_acquire_image -- Acquire the image data * @vps: cursor plane state */ static u32 *vmw_du_cursor_plane_acquire_image(struct vmw_plane_state *vps) { if (vps->surf) { if (vps->surf_mapped) return vmw_bo_map_and_cache(vps->surf->res.guest_memory_bo); return vps->surf->snooper.image; } else if (vps->bo) return vmw_bo_map_and_cache(vps->bo); return NULL; } static bool vmw_du_cursor_plane_has_changed(struct vmw_plane_state *old_vps, struct vmw_plane_state *new_vps) { void *old_image; void *new_image; u32 size; bool changed; if (old_vps->base.crtc_w != new_vps->base.crtc_w || old_vps->base.crtc_h != new_vps->base.crtc_h) return true; if (old_vps->cursor.hotspot_x != new_vps->cursor.hotspot_x || old_vps->cursor.hotspot_y != new_vps->cursor.hotspot_y) return true; size = new_vps->base.crtc_w * new_vps->base.crtc_h * sizeof(u32); old_image = vmw_du_cursor_plane_acquire_image(old_vps); new_image = vmw_du_cursor_plane_acquire_image(new_vps); changed = false; if (old_image && new_image && old_image != new_image) changed = memcmp(old_image, new_image, size) != 0; return changed; } static void vmw_du_destroy_cursor_mob(struct vmw_bo **vbo) { if (!(*vbo)) return; ttm_bo_unpin(&(*vbo)->tbo); vmw_bo_unreference(vbo); } static void vmw_du_put_cursor_mob(struct vmw_cursor_plane *vcp, struct vmw_plane_state *vps) { u32 i; if (!vps->cursor.bo) return; vmw_du_cursor_plane_unmap_cm(vps); /* Look for a free slot to return this mob to the cache. */ for (i = 0; i < ARRAY_SIZE(vcp->cursor_mobs); i++) { if (!vcp->cursor_mobs[i]) { vcp->cursor_mobs[i] = vps->cursor.bo; vps->cursor.bo = NULL; return; } } /* Cache is full: See if this mob is bigger than an existing mob. */ for (i = 0; i < ARRAY_SIZE(vcp->cursor_mobs); i++) { if (vcp->cursor_mobs[i]->tbo.base.size < vps->cursor.bo->tbo.base.size) { vmw_du_destroy_cursor_mob(&vcp->cursor_mobs[i]); vcp->cursor_mobs[i] = vps->cursor.bo; vps->cursor.bo = NULL; return; } } /* Destroy it if it's not worth caching. */ vmw_du_destroy_cursor_mob(&vps->cursor.bo); } static int vmw_du_get_cursor_mob(struct vmw_cursor_plane *vcp, struct vmw_plane_state *vps) { struct vmw_private *dev_priv = vcp->base.dev->dev_private; u32 size = vmw_du_cursor_mob_size(vps->base.crtc_w, vps->base.crtc_h); u32 i; u32 cursor_max_dim, mob_max_size; struct vmw_fence_obj *fence = NULL; int ret; if (!dev_priv->has_mob || (dev_priv->capabilities2 & SVGA_CAP2_CURSOR_MOB) == 0) return -EINVAL; mob_max_size = vmw_read(dev_priv, SVGA_REG_MOB_MAX_SIZE); cursor_max_dim = vmw_read(dev_priv, SVGA_REG_CURSOR_MAX_DIMENSION); if (size > mob_max_size || vps->base.crtc_w > cursor_max_dim || vps->base.crtc_h > cursor_max_dim) return -EINVAL; if (vps->cursor.bo) { if (vps->cursor.bo->tbo.base.size >= size) return 0; vmw_du_put_cursor_mob(vcp, vps); } /* Look for an unused mob in the cache. */ for (i = 0; i < ARRAY_SIZE(vcp->cursor_mobs); i++) { if (vcp->cursor_mobs[i] && vcp->cursor_mobs[i]->tbo.base.size >= size) { vps->cursor.bo = vcp->cursor_mobs[i]; vcp->cursor_mobs[i] = NULL; return 0; } } /* Create a new mob if we can't find an existing one. */ ret = vmw_bo_create_and_populate(dev_priv, size, VMW_BO_DOMAIN_MOB, &vps->cursor.bo); if (ret != 0) return ret; /* Fence the mob creation so we are guarateed to have the mob */ ret = ttm_bo_reserve(&vps->cursor.bo->tbo, false, false, NULL); if (ret != 0) goto teardown; ret = vmw_execbuf_fence_commands(NULL, dev_priv, &fence, NULL); if (ret != 0) { ttm_bo_unreserve(&vps->cursor.bo->tbo); goto teardown; } dma_fence_wait(&fence->base, false); dma_fence_put(&fence->base); ttm_bo_unreserve(&vps->cursor.bo->tbo); return 0; teardown: vmw_du_destroy_cursor_mob(&vps->cursor.bo); return ret; } static void vmw_cursor_update_position(struct vmw_private *dev_priv, bool show, int x, int y) { const uint32_t svga_cursor_on = show ? SVGA_CURSOR_ON_SHOW : SVGA_CURSOR_ON_HIDE; uint32_t count; spin_lock(&dev_priv->cursor_lock); if (dev_priv->capabilities2 & SVGA_CAP2_EXTRA_REGS) { vmw_write(dev_priv, SVGA_REG_CURSOR4_X, x); vmw_write(dev_priv, SVGA_REG_CURSOR4_Y, y); vmw_write(dev_priv, SVGA_REG_CURSOR4_SCREEN_ID, SVGA3D_INVALID_ID); vmw_write(dev_priv, SVGA_REG_CURSOR4_ON, svga_cursor_on); vmw_write(dev_priv, SVGA_REG_CURSOR4_SUBMIT, 1); } else if (vmw_is_cursor_bypass3_enabled(dev_priv)) { vmw_fifo_mem_write(dev_priv, SVGA_FIFO_CURSOR_ON, svga_cursor_on); vmw_fifo_mem_write(dev_priv, SVGA_FIFO_CURSOR_X, x); vmw_fifo_mem_write(dev_priv, SVGA_FIFO_CURSOR_Y, y); count = vmw_fifo_mem_read(dev_priv, SVGA_FIFO_CURSOR_COUNT); vmw_fifo_mem_write(dev_priv, SVGA_FIFO_CURSOR_COUNT, ++count); } else { vmw_write(dev_priv, SVGA_REG_CURSOR_X, x); vmw_write(dev_priv, SVGA_REG_CURSOR_Y, y); vmw_write(dev_priv, SVGA_REG_CURSOR_ON, svga_cursor_on); } spin_unlock(&dev_priv->cursor_lock); } void vmw_kms_cursor_snoop(struct vmw_surface *srf, struct ttm_object_file *tfile, struct ttm_buffer_object *bo, SVGA3dCmdHeader *header) { struct ttm_bo_kmap_obj map; unsigned long kmap_offset; unsigned long kmap_num; SVGA3dCopyBox *box; unsigned box_count; void *virtual; bool is_iomem; struct vmw_dma_cmd { SVGA3dCmdHeader header; SVGA3dCmdSurfaceDMA dma; } *cmd; int i, ret; const struct SVGA3dSurfaceDesc *desc = vmw_surface_get_desc(VMW_CURSOR_SNOOP_FORMAT); const u32 image_pitch = VMW_CURSOR_SNOOP_WIDTH * desc->pitchBytesPerBlock; cmd = container_of(header, struct vmw_dma_cmd, header); /* No snooper installed, nothing to copy */ if (!srf->snooper.image) return; if (cmd->dma.host.face != 0 || cmd->dma.host.mipmap != 0) { DRM_ERROR("face and mipmap for cursors should never != 0\n"); return; } if (cmd->header.size < 64) { DRM_ERROR("at least one full copy box must be given\n"); return; } box = (SVGA3dCopyBox *)&cmd[1]; box_count = (cmd->header.size - sizeof(SVGA3dCmdSurfaceDMA)) / sizeof(SVGA3dCopyBox); if (cmd->dma.guest.ptr.offset % PAGE_SIZE || box->x != 0 || box->y != 0 || box->z != 0 || box->srcx != 0 || box->srcy != 0 || box->srcz != 0 || box->d != 1 || box_count != 1 || box->w > VMW_CURSOR_SNOOP_WIDTH || box->h > VMW_CURSOR_SNOOP_HEIGHT) { /* TODO handle none page aligned offsets */ /* TODO handle more dst & src != 0 */ /* TODO handle more then one copy */ DRM_ERROR("Can't snoop dma request for cursor!\n"); DRM_ERROR("(%u, %u, %u) (%u, %u, %u) (%ux%ux%u) %u %u\n", box->srcx, box->srcy, box->srcz, box->x, box->y, box->z, box->w, box->h, box->d, box_count, cmd->dma.guest.ptr.offset); return; } kmap_offset = cmd->dma.guest.ptr.offset >> PAGE_SHIFT; kmap_num = (VMW_CURSOR_SNOOP_HEIGHT*image_pitch) >> PAGE_SHIFT; ret = ttm_bo_reserve(bo, true, false, NULL); if (unlikely(ret != 0)) { DRM_ERROR("reserve failed\n"); return; } ret = ttm_bo_kmap(bo, kmap_offset, kmap_num, &map); if (unlikely(ret != 0)) goto err_unreserve; virtual = ttm_kmap_obj_virtual(&map, &is_iomem); if (box->w == VMW_CURSOR_SNOOP_WIDTH && cmd->dma.guest.pitch == image_pitch) { memcpy(srf->snooper.image, virtual, VMW_CURSOR_SNOOP_HEIGHT*image_pitch); } else { /* Image is unsigned pointer. */ for (i = 0; i < box->h; i++) memcpy(srf->snooper.image + i * image_pitch, virtual + i * cmd->dma.guest.pitch, box->w * desc->pitchBytesPerBlock); } srf->snooper.age++; ttm_bo_kunmap(&map); err_unreserve: ttm_bo_unreserve(bo); } /** * vmw_kms_legacy_hotspot_clear - Clear legacy hotspots * * @dev_priv: Pointer to the device private struct. * * Clears all legacy hotspots. */ void vmw_kms_legacy_hotspot_clear(struct vmw_private *dev_priv) { struct drm_device *dev = &dev_priv->drm; struct vmw_display_unit *du; struct drm_crtc *crtc; drm_modeset_lock_all(dev); drm_for_each_crtc(crtc, dev) { du = vmw_crtc_to_du(crtc); du->hotspot_x = 0; du->hotspot_y = 0; } drm_modeset_unlock_all(dev); } void vmw_kms_cursor_post_execbuf(struct vmw_private *dev_priv) { struct drm_device *dev = &dev_priv->drm; struct vmw_display_unit *du; struct drm_crtc *crtc; mutex_lock(&dev->mode_config.mutex); list_for_each_entry(crtc, &dev->mode_config.crtc_list, head) { du = vmw_crtc_to_du(crtc); if (!du->cursor_surface || du->cursor_age == du->cursor_surface->snooper.age || !du->cursor_surface->snooper.image) continue; du->cursor_age = du->cursor_surface->snooper.age; vmw_send_define_cursor_cmd(dev_priv, du->cursor_surface->snooper.image, VMW_CURSOR_SNOOP_WIDTH, VMW_CURSOR_SNOOP_HEIGHT, du->hotspot_x + du->core_hotspot_x, du->hotspot_y + du->core_hotspot_y); } mutex_unlock(&dev->mode_config.mutex); } void vmw_du_cursor_plane_destroy(struct drm_plane *plane) { struct vmw_cursor_plane *vcp = vmw_plane_to_vcp(plane); u32 i; vmw_cursor_update_position(plane->dev->dev_private, false, 0, 0); for (i = 0; i < ARRAY_SIZE(vcp->cursor_mobs); i++) vmw_du_destroy_cursor_mob(&vcp->cursor_mobs[i]); drm_plane_cleanup(plane); } void vmw_du_primary_plane_destroy(struct drm_plane *plane) { drm_plane_cleanup(plane); /* Planes are static in our case so we don't free it */ } /** * vmw_du_plane_unpin_surf - unpins resource associated with a framebuffer surface * * @vps: plane state associated with the display surface * @unreference: true if we also want to unreference the display. */ void vmw_du_plane_unpin_surf(struct vmw_plane_state *vps, bool unreference) { if (vps->surf) { if (vps->pinned) { vmw_resource_unpin(&vps->surf->res); vps->pinned--; } if (unreference) { if (vps->pinned) DRM_ERROR("Surface still pinned\n"); vmw_surface_unreference(&vps->surf); } } } /** * vmw_du_plane_cleanup_fb - Unpins the plane surface * * @plane: display plane * @old_state: Contains the FB to clean up * * Unpins the framebuffer surface * * Returns 0 on success */ void vmw_du_plane_cleanup_fb(struct drm_plane *plane, struct drm_plane_state *old_state) { struct vmw_plane_state *vps = vmw_plane_state_to_vps(old_state); vmw_du_plane_unpin_surf(vps, false); } /** * vmw_du_cursor_plane_map_cm - Maps the cursor mobs. * * @vps: plane_state * * Returns 0 on success */ static int vmw_du_cursor_plane_map_cm(struct vmw_plane_state *vps) { int ret; u32 size = vmw_du_cursor_mob_size(vps->base.crtc_w, vps->base.crtc_h); struct ttm_buffer_object *bo; if (!vps->cursor.bo) return -EINVAL; bo = &vps->cursor.bo->tbo; if (bo->base.size < size) return -EINVAL; if (vps->cursor.bo->map.virtual) return 0; ret = ttm_bo_reserve(bo, false, false, NULL); if (unlikely(ret != 0)) return -ENOMEM; vmw_bo_map_and_cache(vps->cursor.bo); ttm_bo_unreserve(bo); if (unlikely(ret != 0)) return -ENOMEM; return 0; } /** * vmw_du_cursor_plane_unmap_cm - Unmaps the cursor mobs. * * @vps: state of the cursor plane * * Returns 0 on success */ static int vmw_du_cursor_plane_unmap_cm(struct vmw_plane_state *vps) { int ret = 0; struct vmw_bo *vbo = vps->cursor.bo; if (!vbo || !vbo->map.virtual) return 0; ret = ttm_bo_reserve(&vbo->tbo, true, false, NULL); if (likely(ret == 0)) { vmw_bo_unmap(vbo); ttm_bo_unreserve(&vbo->tbo); } return ret; } /** * vmw_du_cursor_plane_cleanup_fb - Unpins the plane surface * * @plane: cursor plane * @old_state: contains the state to clean up * * Unmaps all cursor bo mappings and unpins the cursor surface * * Returns 0 on success */ void vmw_du_cursor_plane_cleanup_fb(struct drm_plane *plane, struct drm_plane_state *old_state) { struct vmw_cursor_plane *vcp = vmw_plane_to_vcp(plane); struct vmw_plane_state *vps = vmw_plane_state_to_vps(old_state); if (vps->surf_mapped) { vmw_bo_unmap(vps->surf->res.guest_memory_bo); vps->surf_mapped = false; } vmw_du_cursor_plane_unmap_cm(vps); vmw_du_put_cursor_mob(vcp, vps); vmw_du_plane_unpin_surf(vps, false); if (vps->surf) { vmw_surface_unreference(&vps->surf); vps->surf = NULL; } if (vps->bo) { vmw_bo_unreference(&vps->bo); vps->bo = NULL; } } /** * vmw_du_cursor_plane_prepare_fb - Readies the cursor by referencing it * * @plane: display plane * @new_state: info on the new plane state, including the FB * * Returns 0 on success */ int vmw_du_cursor_plane_prepare_fb(struct drm_plane *plane, struct drm_plane_state *new_state) { struct drm_framebuffer *fb = new_state->fb; struct vmw_cursor_plane *vcp = vmw_plane_to_vcp(plane); struct vmw_plane_state *vps = vmw_plane_state_to_vps(new_state); int ret = 0; if (vps->surf) { if (vps->surf_mapped) { vmw_bo_unmap(vps->surf->res.guest_memory_bo); vps->surf_mapped = false; } vmw_surface_unreference(&vps->surf); vps->surf = NULL; } if (vps->bo) { vmw_bo_unreference(&vps->bo); vps->bo = NULL; } if (fb) { if (vmw_framebuffer_to_vfb(fb)->bo) { vps->bo = vmw_framebuffer_to_vfbd(fb)->buffer; vmw_bo_reference(vps->bo); } else { vps->surf = vmw_framebuffer_to_vfbs(fb)->surface; vmw_surface_reference(vps->surf); } } if (!vps->surf && vps->bo) { const u32 size = new_state->crtc_w * new_state->crtc_h * sizeof(u32); /* * Not using vmw_bo_map_and_cache() helper here as we need to * reserve the ttm_buffer_object first which * vmw_bo_map_and_cache() omits. */ ret = ttm_bo_reserve(&vps->bo->tbo, true, false, NULL); if (unlikely(ret != 0)) return -ENOMEM; ret = ttm_bo_kmap(&vps->bo->tbo, 0, PFN_UP(size), &vps->bo->map); ttm_bo_unreserve(&vps->bo->tbo); if (unlikely(ret != 0)) return -ENOMEM; } else if (vps->surf && !vps->bo && vps->surf->res.guest_memory_bo) { WARN_ON(vps->surf->snooper.image); ret = ttm_bo_reserve(&vps->surf->res.guest_memory_bo->tbo, true, false, NULL); if (unlikely(ret != 0)) return -ENOMEM; vmw_bo_map_and_cache(vps->surf->res.guest_memory_bo); ttm_bo_unreserve(&vps->surf->res.guest_memory_bo->tbo); vps->surf_mapped = true; } if (vps->surf || vps->bo) { vmw_du_get_cursor_mob(vcp, vps); vmw_du_cursor_plane_map_cm(vps); } return 0; } void vmw_du_cursor_plane_atomic_update(struct drm_plane *plane, struct drm_atomic_state *state) { struct drm_plane_state *new_state = drm_atomic_get_new_plane_state(state, plane); struct drm_plane_state *old_state = drm_atomic_get_old_plane_state(state, plane); struct drm_crtc *crtc = new_state->crtc ?: old_state->crtc; struct vmw_private *dev_priv = vmw_priv(crtc->dev); struct vmw_display_unit *du = vmw_crtc_to_du(crtc); struct vmw_plane_state *vps = vmw_plane_state_to_vps(new_state); struct vmw_plane_state *old_vps = vmw_plane_state_to_vps(old_state); s32 hotspot_x, hotspot_y; hotspot_x = du->hotspot_x + new_state->hotspot_x; hotspot_y = du->hotspot_y + new_state->hotspot_y; du->cursor_surface = vps->surf; du->cursor_bo = vps->bo; if (!vps->surf && !vps->bo) { vmw_cursor_update_position(dev_priv, false, 0, 0); return; } vps->cursor.hotspot_x = hotspot_x; vps->cursor.hotspot_y = hotspot_y; if (vps->surf) { du->cursor_age = du->cursor_surface->snooper.age; } if (!vmw_du_cursor_plane_has_changed(old_vps, vps)) { /* * If it hasn't changed, avoid making the device do extra * work by keeping the old cursor active. */ struct vmw_cursor_plane_state tmp = old_vps->cursor; old_vps->cursor = vps->cursor; vps->cursor = tmp; } else { void *image = vmw_du_cursor_plane_acquire_image(vps); if (image) vmw_cursor_update_image(dev_priv, vps, image, new_state->crtc_w, new_state->crtc_h, hotspot_x, hotspot_y); } du->cursor_x = new_state->crtc_x + du->set_gui_x; du->cursor_y = new_state->crtc_y + du->set_gui_y; vmw_cursor_update_position(dev_priv, true, du->cursor_x + hotspot_x, du->cursor_y + hotspot_y); du->core_hotspot_x = hotspot_x - du->hotspot_x; du->core_hotspot_y = hotspot_y - du->hotspot_y; } /** * vmw_du_primary_plane_atomic_check - check if the new state is okay * * @plane: display plane * @state: info on the new plane state, including the FB * * Check if the new state is settable given the current state. Other * than what the atomic helper checks, we care about crtc fitting * the FB and maintaining one active framebuffer. * * Returns 0 on success */ int vmw_du_primary_plane_atomic_check(struct drm_plane *plane, struct drm_atomic_state *state) { struct drm_plane_state *new_state = drm_atomic_get_new_plane_state(state, plane); struct drm_plane_state *old_state = drm_atomic_get_old_plane_state(state, plane); struct drm_crtc_state *crtc_state = NULL; struct drm_framebuffer *new_fb = new_state->fb; struct drm_framebuffer *old_fb = old_state->fb; int ret; /* * Ignore damage clips if the framebuffer attached to the plane's state * has changed since the last plane update (page-flip). In this case, a * full plane update should happen because uploads are done per-buffer. */ if (old_fb != new_fb) new_state->ignore_damage_clips = true; if (new_state->crtc) crtc_state = drm_atomic_get_new_crtc_state(state, new_state->crtc); ret = drm_atomic_helper_check_plane_state(new_state, crtc_state, DRM_PLANE_NO_SCALING, DRM_PLANE_NO_SCALING, false, true); if (!ret && new_fb) { struct drm_crtc *crtc = new_state->crtc; struct vmw_display_unit *du = vmw_crtc_to_du(crtc); vmw_connector_state_to_vcs(du->connector.state); } return ret; } /** * vmw_du_cursor_plane_atomic_check - check if the new state is okay * * @plane: cursor plane * @state: info on the new plane state * * This is a chance to fail if the new cursor state does not fit * our requirements. * * Returns 0 on success */ int vmw_du_cursor_plane_atomic_check(struct drm_plane *plane, struct drm_atomic_state *state) { struct drm_plane_state *new_state = drm_atomic_get_new_plane_state(state, plane); int ret = 0; struct drm_crtc_state *crtc_state = NULL; struct vmw_surface *surface = NULL; struct drm_framebuffer *fb = new_state->fb; if (new_state->crtc) crtc_state = drm_atomic_get_new_crtc_state(new_state->state, new_state->crtc); ret = drm_atomic_helper_check_plane_state(new_state, crtc_state, DRM_PLANE_NO_SCALING, DRM_PLANE_NO_SCALING, true, true); if (ret) return ret; /* Turning off */ if (!fb) return 0; /* A lot of the code assumes this */ if (new_state->crtc_w != 64 || new_state->crtc_h != 64) { DRM_ERROR("Invalid cursor dimensions (%d, %d)\n", new_state->crtc_w, new_state->crtc_h); return -EINVAL; } if (!vmw_framebuffer_to_vfb(fb)->bo) { surface = vmw_framebuffer_to_vfbs(fb)->surface; WARN_ON(!surface); if (!surface || (!surface->snooper.image && !surface->res.guest_memory_bo)) { DRM_ERROR("surface not suitable for cursor\n"); return -EINVAL; } } return 0; } int vmw_du_crtc_atomic_check(struct drm_crtc *crtc, struct drm_atomic_state *state) { struct vmw_private *vmw = vmw_priv(crtc->dev); struct drm_crtc_state *new_state = drm_atomic_get_new_crtc_state(state, crtc); struct vmw_display_unit *du = vmw_crtc_to_du(new_state->crtc); int connector_mask = drm_connector_mask(&du->connector); bool has_primary = new_state->plane_mask & drm_plane_mask(crtc->primary); /* * This is fine in general, but broken userspace might expect * some actual rendering so give a clue as why it's blank. */ if (new_state->enable && !has_primary) drm_dbg_driver(&vmw->drm, "CRTC without a primary plane will be blank.\n"); if (new_state->connector_mask != connector_mask && new_state->connector_mask != 0) { DRM_ERROR("Invalid connectors configuration\n"); return -EINVAL; } /* * Our virtual device does not have a dot clock, so use the logical * clock value as the dot clock. */ if (new_state->mode.crtc_clock == 0) new_state->adjusted_mode.crtc_clock = new_state->mode.clock; return 0; } void vmw_du_crtc_atomic_begin(struct drm_crtc *crtc, struct drm_atomic_state *state) { } void vmw_du_crtc_atomic_flush(struct drm_crtc *crtc, struct drm_atomic_state *state) { } /** * vmw_du_crtc_duplicate_state - duplicate crtc state * @crtc: DRM crtc * * Allocates and returns a copy of the crtc state (both common and * vmw-specific) for the specified crtc. * * Returns: The newly allocated crtc state, or NULL on failure. */ struct drm_crtc_state * vmw_du_crtc_duplicate_state(struct drm_crtc *crtc) { struct drm_crtc_state *state; struct vmw_crtc_state *vcs; if (WARN_ON(!crtc->state)) return NULL; vcs = kmemdup(crtc->state, sizeof(*vcs), GFP_KERNEL); if (!vcs) return NULL; state = &vcs->base; __drm_atomic_helper_crtc_duplicate_state(crtc, state); return state; } /** * vmw_du_crtc_reset - creates a blank vmw crtc state * @crtc: DRM crtc * * Resets the atomic state for @crtc by freeing the state pointer (which * might be NULL, e.g. at driver load time) and allocating a new empty state * object. */ void vmw_du_crtc_reset(struct drm_crtc *crtc) { struct vmw_crtc_state *vcs; if (crtc->state) { __drm_atomic_helper_crtc_destroy_state(crtc->state); kfree(vmw_crtc_state_to_vcs(crtc->state)); } vcs = kzalloc(sizeof(*vcs), GFP_KERNEL); if (!vcs) { DRM_ERROR("Cannot allocate vmw_crtc_state\n"); return; } __drm_atomic_helper_crtc_reset(crtc, &vcs->base); } /** * vmw_du_crtc_destroy_state - destroy crtc state * @crtc: DRM crtc * @state: state object to destroy * * Destroys the crtc state (both common and vmw-specific) for the * specified plane. */ void vmw_du_crtc_destroy_state(struct drm_crtc *crtc, struct drm_crtc_state *state) { drm_atomic_helper_crtc_destroy_state(crtc, state); } /** * vmw_du_plane_duplicate_state - duplicate plane state * @plane: drm plane * * Allocates and returns a copy of the plane state (both common and * vmw-specific) for the specified plane. * * Returns: The newly allocated plane state, or NULL on failure. */ struct drm_plane_state * vmw_du_plane_duplicate_state(struct drm_plane *plane) { struct drm_plane_state *state; struct vmw_plane_state *vps; vps = kmemdup(plane->state, sizeof(*vps), GFP_KERNEL); if (!vps) return NULL; vps->pinned = 0; vps->cpp = 0; memset(&vps->cursor, 0, sizeof(vps->cursor)); /* Each ref counted resource needs to be acquired again */ if (vps->surf) (void) vmw_surface_reference(vps->surf); if (vps->bo) (void) vmw_bo_reference(vps->bo); state = &vps->base; __drm_atomic_helper_plane_duplicate_state(plane, state); return state; } /** * vmw_du_plane_reset - creates a blank vmw plane state * @plane: drm plane * * Resets the atomic state for @plane by freeing the state pointer (which might * be NULL, e.g. at driver load time) and allocating a new empty state object. */ void vmw_du_plane_reset(struct drm_plane *plane) { struct vmw_plane_state *vps; if (plane->state) vmw_du_plane_destroy_state(plane, plane->state); vps = kzalloc(sizeof(*vps), GFP_KERNEL); if (!vps) { DRM_ERROR("Cannot allocate vmw_plane_state\n"); return; } __drm_atomic_helper_plane_reset(plane, &vps->base); } /** * vmw_du_plane_destroy_state - destroy plane state * @plane: DRM plane * @state: state object to destroy * * Destroys the plane state (both common and vmw-specific) for the * specified plane. */ void vmw_du_plane_destroy_state(struct drm_plane *plane, struct drm_plane_state *state) { struct vmw_plane_state *vps = vmw_plane_state_to_vps(state); /* Should have been freed by cleanup_fb */ if (vps->surf) vmw_surface_unreference(&vps->surf); if (vps->bo) vmw_bo_unreference(&vps->bo); drm_atomic_helper_plane_destroy_state(plane, state); } /** * vmw_du_connector_duplicate_state - duplicate connector state * @connector: DRM connector * * Allocates and returns a copy of the connector state (both common and * vmw-specific) for the specified connector. * * Returns: The newly allocated connector state, or NULL on failure. */ struct drm_connector_state * vmw_du_connector_duplicate_state(struct drm_connector *connector) { struct drm_connector_state *state; struct vmw_connector_state *vcs; if (WARN_ON(!connector->state)) return NULL; vcs = kmemdup(connector->state, sizeof(*vcs), GFP_KERNEL); if (!vcs) return NULL; state = &vcs->base; __drm_atomic_helper_connector_duplicate_state(connector, state); return state; } /** * vmw_du_connector_reset - creates a blank vmw connector state * @connector: DRM connector * * Resets the atomic state for @connector by freeing the state pointer (which * might be NULL, e.g. at driver load time) and allocating a new empty state * object. */ void vmw_du_connector_reset(struct drm_connector *connector) { struct vmw_connector_state *vcs; if (connector->state) { __drm_atomic_helper_connector_destroy_state(connector->state); kfree(vmw_connector_state_to_vcs(connector->state)); } vcs = kzalloc(sizeof(*vcs), GFP_KERNEL); if (!vcs) { DRM_ERROR("Cannot allocate vmw_connector_state\n"); return; } __drm_atomic_helper_connector_reset(connector, &vcs->base); } /** * vmw_du_connector_destroy_state - destroy connector state * @connector: DRM connector * @state: state object to destroy * * Destroys the connector state (both common and vmw-specific) for the * specified plane. */ void vmw_du_connector_destroy_state(struct drm_connector *connector, struct drm_connector_state *state) { drm_atomic_helper_connector_destroy_state(connector, state); } /* * Generic framebuffer code */ /* * Surface framebuffer code */ static void vmw_framebuffer_surface_destroy(struct drm_framebuffer *framebuffer) { struct vmw_framebuffer_surface *vfbs = vmw_framebuffer_to_vfbs(framebuffer); drm_framebuffer_cleanup(framebuffer); vmw_surface_unreference(&vfbs->surface); kfree(vfbs); } /** * vmw_kms_readback - Perform a readback from the screen system to * a buffer-object backed framebuffer. * * @dev_priv: Pointer to the device private structure. * @file_priv: Pointer to a struct drm_file identifying the caller. * Must be set to NULL if @user_fence_rep is NULL. * @vfb: Pointer to the buffer-object backed framebuffer. * @user_fence_rep: User-space provided structure for fence information. * Must be set to non-NULL if @file_priv is non-NULL. * @vclips: Array of clip rects. * @num_clips: Number of clip rects in @vclips. * * Returns 0 on success, negative error code on failure. -ERESTARTSYS if * interrupted. */ int vmw_kms_readback(struct vmw_private *dev_priv, struct drm_file *file_priv, struct vmw_framebuffer *vfb, struct drm_vmw_fence_rep __user *user_fence_rep, struct drm_vmw_rect *vclips, uint32_t num_clips) { switch (dev_priv->active_display_unit) { case vmw_du_screen_object: return vmw_kms_sou_readback(dev_priv, file_priv, vfb, user_fence_rep, vclips, num_clips, NULL); case vmw_du_screen_target: return vmw_kms_stdu_readback(dev_priv, file_priv, vfb, user_fence_rep, NULL, vclips, num_clips, 1, NULL); default: WARN_ONCE(true, "Readback called with invalid display system.\n"); } return -ENOSYS; } static const struct drm_framebuffer_funcs vmw_framebuffer_surface_funcs = { .destroy = vmw_framebuffer_surface_destroy, .dirty = drm_atomic_helper_dirtyfb, }; static int vmw_kms_new_framebuffer_surface(struct vmw_private *dev_priv, struct vmw_surface *surface, struct vmw_framebuffer **out, const struct drm_mode_fb_cmd2 *mode_cmd, bool is_bo_proxy) { struct drm_device *dev = &dev_priv->drm; struct vmw_framebuffer_surface *vfbs; enum SVGA3dSurfaceFormat format; int ret; /* 3D is only supported on HWv8 and newer hosts */ if (dev_priv->active_display_unit == vmw_du_legacy) return -ENOSYS; /* * Sanity checks. */ if (!drm_any_plane_has_format(&dev_priv->drm, mode_cmd->pixel_format, mode_cmd->modifier[0])) { drm_dbg(&dev_priv->drm, "unsupported pixel format %p4cc / modifier 0x%llx\n", &mode_cmd->pixel_format, mode_cmd->modifier[0]); return -EINVAL; } /* Surface must be marked as a scanout. */ if (unlikely(!surface->metadata.scanout)) return -EINVAL; if (unlikely(surface->metadata.mip_levels[0] != 1 || surface->metadata.num_sizes != 1 || surface->metadata.base_size.width < mode_cmd->width || surface->metadata.base_size.height < mode_cmd->height || surface->metadata.base_size.depth != 1)) { DRM_ERROR("Incompatible surface dimensions " "for requested mode.\n"); return -EINVAL; } switch (mode_cmd->pixel_format) { case DRM_FORMAT_ARGB8888: format = SVGA3D_A8R8G8B8; break; case DRM_FORMAT_XRGB8888: format = SVGA3D_X8R8G8B8; break; case DRM_FORMAT_RGB565: format = SVGA3D_R5G6B5; break; case DRM_FORMAT_XRGB1555: format = SVGA3D_A1R5G5B5; break; default: DRM_ERROR("Invalid pixel format: %p4cc\n", &mode_cmd->pixel_format); return -EINVAL; } /* * For DX, surface format validation is done when surface->scanout * is set. */ if (!has_sm4_context(dev_priv) && format != surface->metadata.format) { DRM_ERROR("Invalid surface format for requested mode.\n"); return -EINVAL; } vfbs = kzalloc(sizeof(*vfbs), GFP_KERNEL); if (!vfbs) { ret = -ENOMEM; goto out_err1; } drm_helper_mode_fill_fb_struct(dev, &vfbs->base.base, mode_cmd); vfbs->surface = vmw_surface_reference(surface); vfbs->base.user_handle = mode_cmd->handles[0]; vfbs->is_bo_proxy = is_bo_proxy; *out = &vfbs->base; ret = drm_framebuffer_init(dev, &vfbs->base.base, &vmw_framebuffer_surface_funcs); if (ret) goto out_err2; return 0; out_err2: vmw_surface_unreference(&surface); kfree(vfbs); out_err1: return ret; } /* * Buffer-object framebuffer code */ static int vmw_framebuffer_bo_create_handle(struct drm_framebuffer *fb, struct drm_file *file_priv, unsigned int *handle) { struct vmw_framebuffer_bo *vfbd = vmw_framebuffer_to_vfbd(fb); return drm_gem_handle_create(file_priv, &vfbd->buffer->tbo.base, handle); } static void vmw_framebuffer_bo_destroy(struct drm_framebuffer *framebuffer) { struct vmw_framebuffer_bo *vfbd = vmw_framebuffer_to_vfbd(framebuffer); drm_framebuffer_cleanup(framebuffer); vmw_bo_unreference(&vfbd->buffer); kfree(vfbd); } static const struct drm_framebuffer_funcs vmw_framebuffer_bo_funcs = { .create_handle = vmw_framebuffer_bo_create_handle, .destroy = vmw_framebuffer_bo_destroy, .dirty = drm_atomic_helper_dirtyfb, }; /** * vmw_create_bo_proxy - create a proxy surface for the buffer object * * @dev: DRM device * @mode_cmd: parameters for the new surface * @bo_mob: MOB backing the buffer object * @srf_out: newly created surface * * When the content FB is a buffer object, we create a surface as a proxy to the * same buffer. This way we can do a surface copy rather than a surface DMA. * This is a more efficient approach * * RETURNS: * 0 on success, error code otherwise */ static int vmw_create_bo_proxy(struct drm_device *dev, const struct drm_mode_fb_cmd2 *mode_cmd, struct vmw_bo *bo_mob, struct vmw_surface **srf_out) { struct vmw_surface_metadata metadata = {0}; uint32_t format; struct vmw_resource *res; unsigned int bytes_pp; int ret; switch (mode_cmd->pixel_format) { case DRM_FORMAT_ARGB8888: case DRM_FORMAT_XRGB8888: format = SVGA3D_X8R8G8B8; bytes_pp = 4; break; case DRM_FORMAT_RGB565: case DRM_FORMAT_XRGB1555: format = SVGA3D_R5G6B5; bytes_pp = 2; break; case 8: format = SVGA3D_P8; bytes_pp = 1; break; default: DRM_ERROR("Invalid framebuffer format %p4cc\n", &mode_cmd->pixel_format); return -EINVAL; } metadata.format = format; metadata.mip_levels[0] = 1; metadata.num_sizes = 1; metadata.base_size.width = mode_cmd->pitches[0] / bytes_pp; metadata.base_size.height = mode_cmd->height; metadata.base_size.depth = 1; metadata.scanout = true; ret = vmw_gb_surface_define(vmw_priv(dev), &metadata, srf_out); if (ret) { DRM_ERROR("Failed to allocate proxy content buffer\n"); return ret; } res = &(*srf_out)->res; /* Reserve and switch the backing mob. */ mutex_lock(&res->dev_priv->cmdbuf_mutex); (void) vmw_resource_reserve(res, false, true); vmw_user_bo_unref(&res->guest_memory_bo); res->guest_memory_bo = vmw_user_bo_ref(bo_mob); res->guest_memory_offset = 0; vmw_resource_unreserve(res, false, false, false, NULL, 0); mutex_unlock(&res->dev_priv->cmdbuf_mutex); return 0; } static int vmw_kms_new_framebuffer_bo(struct vmw_private *dev_priv, struct vmw_bo *bo, struct vmw_framebuffer **out, const struct drm_mode_fb_cmd2 *mode_cmd) { struct drm_device *dev = &dev_priv->drm; struct vmw_framebuffer_bo *vfbd; unsigned int requested_size; int ret; requested_size = mode_cmd->height * mode_cmd->pitches[0]; if (unlikely(requested_size > bo->tbo.base.size)) { DRM_ERROR("Screen buffer object size is too small " "for requested mode.\n"); return -EINVAL; } if (!drm_any_plane_has_format(&dev_priv->drm, mode_cmd->pixel_format, mode_cmd->modifier[0])) { drm_dbg(&dev_priv->drm, "unsupported pixel format %p4cc / modifier 0x%llx\n", &mode_cmd->pixel_format, mode_cmd->modifier[0]); return -EINVAL; } vfbd = kzalloc(sizeof(*vfbd), GFP_KERNEL); if (!vfbd) { ret = -ENOMEM; goto out_err1; } vfbd->base.base.obj[0] = &bo->tbo.base; drm_helper_mode_fill_fb_struct(dev, &vfbd->base.base, mode_cmd); vfbd->base.bo = true; vfbd->buffer = vmw_bo_reference(bo); vfbd->base.user_handle = mode_cmd->handles[0]; *out = &vfbd->base; ret = drm_framebuffer_init(dev, &vfbd->base.base, &vmw_framebuffer_bo_funcs); if (ret) goto out_err2; return 0; out_err2: vmw_bo_unreference(&bo); kfree(vfbd); out_err1: return ret; } /** * vmw_kms_srf_ok - check if a surface can be created * * @dev_priv: Pointer to device private struct. * @width: requested width * @height: requested height * * Surfaces need to be less than texture size */ static bool vmw_kms_srf_ok(struct vmw_private *dev_priv, uint32_t width, uint32_t height) { if (width > dev_priv->texture_max_width || height > dev_priv->texture_max_height) return false; return true; } /** * vmw_kms_new_framebuffer - Create a new framebuffer. * * @dev_priv: Pointer to device private struct. * @bo: Pointer to buffer object to wrap the kms framebuffer around. * Either @bo or @surface must be NULL. * @surface: Pointer to a surface to wrap the kms framebuffer around. * Either @bo or @surface must be NULL. * @only_2d: No presents will occur to this buffer object based framebuffer. * This helps the code to do some important optimizations. * @mode_cmd: Frame-buffer metadata. */ struct vmw_framebuffer * vmw_kms_new_framebuffer(struct vmw_private *dev_priv, struct vmw_bo *bo, struct vmw_surface *surface, bool only_2d, const struct drm_mode_fb_cmd2 *mode_cmd) { struct vmw_framebuffer *vfb = NULL; bool is_bo_proxy = false; int ret; /* * We cannot use the SurfaceDMA command in an non-accelerated VM, * therefore, wrap the buffer object in a surface so we can use the * SurfaceCopy command. */ if (vmw_kms_srf_ok(dev_priv, mode_cmd->width, mode_cmd->height) && bo && only_2d && mode_cmd->width > 64 && /* Don't create a proxy for cursor */ dev_priv->active_display_unit == vmw_du_screen_target) { ret = vmw_create_bo_proxy(&dev_priv->drm, mode_cmd, bo, &surface); if (ret) return ERR_PTR(ret); is_bo_proxy = true; } /* Create the new framebuffer depending one what we have */ if (surface) { ret = vmw_kms_new_framebuffer_surface(dev_priv, surface, &vfb, mode_cmd, is_bo_proxy); /* * vmw_create_bo_proxy() adds a reference that is no longer * needed */ if (is_bo_proxy) vmw_surface_unreference(&surface); } else if (bo) { ret = vmw_kms_new_framebuffer_bo(dev_priv, bo, &vfb, mode_cmd); } else { BUG(); } if (ret) return ERR_PTR(ret); return vfb; } /* * Generic Kernel modesetting functions */ static struct drm_framebuffer *vmw_kms_fb_create(struct drm_device *dev, struct drm_file *file_priv, const struct drm_mode_fb_cmd2 *mode_cmd) { struct vmw_private *dev_priv = vmw_priv(dev); struct vmw_framebuffer *vfb = NULL; struct vmw_surface *surface = NULL; struct vmw_bo *bo = NULL; int ret; /* returns either a bo or surface */ ret = vmw_user_lookup_handle(dev_priv, file_priv, mode_cmd->handles[0], &surface, &bo); if (ret) { DRM_ERROR("Invalid buffer object handle %u (0x%x).\n", mode_cmd->handles[0], mode_cmd->handles[0]); goto err_out; } if (!bo && !vmw_kms_srf_ok(dev_priv, mode_cmd->width, mode_cmd->height)) { DRM_ERROR("Surface size cannot exceed %dx%d\n", dev_priv->texture_max_width, dev_priv->texture_max_height); goto err_out; } vfb = vmw_kms_new_framebuffer(dev_priv, bo, surface, !(dev_priv->capabilities & SVGA_CAP_3D), mode_cmd); if (IS_ERR(vfb)) { ret = PTR_ERR(vfb); goto err_out; } err_out: /* vmw_user_lookup_handle takes one ref so does new_fb */ if (bo) vmw_user_bo_unref(&bo); if (surface) vmw_surface_unreference(&surface); if (ret) { DRM_ERROR("failed to create vmw_framebuffer: %i\n", ret); return ERR_PTR(ret); } return &vfb->base; } /** * vmw_kms_check_display_memory - Validates display memory required for a * topology * @dev: DRM device * @num_rects: number of drm_rect in rects * @rects: array of drm_rect representing the topology to validate indexed by * crtc index. * * Returns: * 0 on success otherwise negative error code */ static int vmw_kms_check_display_memory(struct drm_device *dev, uint32_t num_rects, struct drm_rect *rects) { struct vmw_private *dev_priv = vmw_priv(dev); struct drm_rect bounding_box = {0}; u64 total_pixels = 0, pixel_mem, bb_mem; int i; for (i = 0; i < num_rects; i++) { /* * For STDU only individual screen (screen target) is limited by * SCREENTARGET_MAX_WIDTH/HEIGHT registers. */ if (dev_priv->active_display_unit == vmw_du_screen_target && (drm_rect_width(&rects[i]) > dev_priv->stdu_max_width || drm_rect_height(&rects[i]) > dev_priv->stdu_max_height)) { VMW_DEBUG_KMS("Screen size not supported.\n"); return -EINVAL; } /* Bounding box upper left is at (0,0). */ if (rects[i].x2 > bounding_box.x2) bounding_box.x2 = rects[i].x2; if (rects[i].y2 > bounding_box.y2) bounding_box.y2 = rects[i].y2; total_pixels += (u64) drm_rect_width(&rects[i]) * (u64) drm_rect_height(&rects[i]); } /* Virtual svga device primary limits are always in 32-bpp. */ pixel_mem = total_pixels * 4; /* * For HV10 and below prim_bb_mem is vram size. When * SVGA_REG_MAX_PRIMARY_BOUNDING_BOX_MEM is not present vram size is * limit on primary bounding box */ if (pixel_mem > dev_priv->max_primary_mem) { VMW_DEBUG_KMS("Combined output size too large.\n"); return -EINVAL; } /* SVGA_CAP_NO_BB_RESTRICTION is available for STDU only. */ if (dev_priv->active_display_unit != vmw_du_screen_target || !(dev_priv->capabilities & SVGA_CAP_NO_BB_RESTRICTION)) { bb_mem = (u64) bounding_box.x2 * bounding_box.y2 * 4; if (bb_mem > dev_priv->max_primary_mem) { VMW_DEBUG_KMS("Topology is beyond supported limits.\n"); return -EINVAL; } } return 0; } /** * vmw_crtc_state_and_lock - Return new or current crtc state with locked * crtc mutex * @state: The atomic state pointer containing the new atomic state * @crtc: The crtc * * This function returns the new crtc state if it's part of the state update. * Otherwise returns the current crtc state. It also makes sure that the * crtc mutex is locked. * * Returns: A valid crtc state pointer or NULL. It may also return a * pointer error, in particular -EDEADLK if locking needs to be rerun. */ static struct drm_crtc_state * vmw_crtc_state_and_lock(struct drm_atomic_state *state, struct drm_crtc *crtc) { struct drm_crtc_state *crtc_state; crtc_state = drm_atomic_get_new_crtc_state(state, crtc); if (crtc_state) { lockdep_assert_held(&crtc->mutex.mutex.base); } else { int ret = drm_modeset_lock(&crtc->mutex, state->acquire_ctx); if (ret != 0 && ret != -EALREADY) return ERR_PTR(ret); crtc_state = crtc->state; } return crtc_state; } /** * vmw_kms_check_implicit - Verify that all implicit display units scan out * from the same fb after the new state is committed. * @dev: The drm_device. * @state: The new state to be checked. * * Returns: * Zero on success, * -EINVAL on invalid state, * -EDEADLK if modeset locking needs to be rerun. */ static int vmw_kms_check_implicit(struct drm_device *dev, struct drm_atomic_state *state) { struct drm_framebuffer *implicit_fb = NULL; struct drm_crtc *crtc; struct drm_crtc_state *crtc_state; struct drm_plane_state *plane_state; drm_for_each_crtc(crtc, dev) { struct vmw_display_unit *du = vmw_crtc_to_du(crtc); if (!du->is_implicit) continue; crtc_state = vmw_crtc_state_and_lock(state, crtc); if (IS_ERR(crtc_state)) return PTR_ERR(crtc_state); if (!crtc_state || !crtc_state->enable) continue; /* * Can't move primary planes across crtcs, so this is OK. * It also means we don't need to take the plane mutex. */ plane_state = du->primary.state; if (plane_state->crtc != crtc) continue; if (!implicit_fb) implicit_fb = plane_state->fb; else if (implicit_fb != plane_state->fb) return -EINVAL; } return 0; } /** * vmw_kms_check_topology - Validates topology in drm_atomic_state * @dev: DRM device * @state: the driver state object * * Returns: * 0 on success otherwise negative error code */ static int vmw_kms_check_topology(struct drm_device *dev, struct drm_atomic_state *state) { struct drm_crtc_state *old_crtc_state, *new_crtc_state; struct drm_rect *rects; struct drm_crtc *crtc; uint32_t i; int ret = 0; rects = kcalloc(dev->mode_config.num_crtc, sizeof(struct drm_rect), GFP_KERNEL); if (!rects) return -ENOMEM; drm_for_each_crtc(crtc, dev) { struct vmw_display_unit *du = vmw_crtc_to_du(crtc); struct drm_crtc_state *crtc_state; i = drm_crtc_index(crtc); crtc_state = vmw_crtc_state_and_lock(state, crtc); if (IS_ERR(crtc_state)) { ret = PTR_ERR(crtc_state); goto clean; } if (!crtc_state) continue; if (crtc_state->enable) { rects[i].x1 = du->gui_x; rects[i].y1 = du->gui_y; rects[i].x2 = du->gui_x + crtc_state->mode.hdisplay; rects[i].y2 = du->gui_y + crtc_state->mode.vdisplay; } else { rects[i].x1 = 0; rects[i].y1 = 0; rects[i].x2 = 0; rects[i].y2 = 0; } } /* Determine change to topology due to new atomic state */ for_each_oldnew_crtc_in_state(state, crtc, old_crtc_state, new_crtc_state, i) { struct vmw_display_unit *du = vmw_crtc_to_du(crtc); struct drm_connector *connector; struct drm_connector_state *conn_state; struct vmw_connector_state *vmw_conn_state; if (!du->pref_active && new_crtc_state->enable) { VMW_DEBUG_KMS("Enabling a disabled display unit\n"); ret = -EINVAL; goto clean; } /* * For vmwgfx each crtc has only one connector attached and it * is not changed so don't really need to check the * crtc->connector_mask and iterate over it. */ connector = &du->connector; conn_state = drm_atomic_get_connector_state(state, connector); if (IS_ERR(conn_state)) { ret = PTR_ERR(conn_state); goto clean; } vmw_conn_state = vmw_connector_state_to_vcs(conn_state); vmw_conn_state->gui_x = du->gui_x; vmw_conn_state->gui_y = du->gui_y; } ret = vmw_kms_check_display_memory(dev, dev->mode_config.num_crtc, rects); clean: kfree(rects); return ret; } /** * vmw_kms_atomic_check_modeset- validate state object for modeset changes * * @dev: DRM device * @state: the driver state object * * This is a simple wrapper around drm_atomic_helper_check_modeset() for * us to assign a value to mode->crtc_clock so that * drm_calc_timestamping_constants() won't throw an error message * * Returns: * Zero for success or -errno */ static int vmw_kms_atomic_check_modeset(struct drm_device *dev, struct drm_atomic_state *state) { struct drm_crtc *crtc; struct drm_crtc_state *crtc_state; bool need_modeset = false; int i, ret; ret = drm_atomic_helper_check(dev, state); if (ret) return ret; ret = vmw_kms_check_implicit(dev, state); if (ret) { VMW_DEBUG_KMS("Invalid implicit state\n"); return ret; } for_each_new_crtc_in_state(state, crtc, crtc_state, i) { if (drm_atomic_crtc_needs_modeset(crtc_state)) need_modeset = true; } if (need_modeset) return vmw_kms_check_topology(dev, state); return ret; } static const struct drm_mode_config_funcs vmw_kms_funcs = { .fb_create = vmw_kms_fb_create, .atomic_check = vmw_kms_atomic_check_modeset, .atomic_commit = drm_atomic_helper_commit, }; static int vmw_kms_generic_present(struct vmw_private *dev_priv, struct drm_file *file_priv, struct vmw_framebuffer *vfb, struct vmw_surface *surface, uint32_t sid, int32_t destX, int32_t destY, struct drm_vmw_rect *clips, uint32_t num_clips) { return vmw_kms_sou_do_surface_dirty(dev_priv, vfb, NULL, clips, &surface->res, destX, destY, num_clips, 1, NULL, NULL); } int vmw_kms_present(struct vmw_private *dev_priv, struct drm_file *file_priv, struct vmw_framebuffer *vfb, struct vmw_surface *surface, uint32_t sid, int32_t destX, int32_t destY, struct drm_vmw_rect *clips, uint32_t num_clips) { int ret; switch (dev_priv->active_display_unit) { case vmw_du_screen_target: ret = vmw_kms_stdu_surface_dirty(dev_priv, vfb, NULL, clips, &surface->res, destX, destY, num_clips, 1, NULL, NULL); break; case vmw_du_screen_object: ret = vmw_kms_generic_present(dev_priv, file_priv, vfb, surface, sid, destX, destY, clips, num_clips); break; default: WARN_ONCE(true, "Present called with invalid display system.\n"); ret = -ENOSYS; break; } if (ret) return ret; vmw_cmd_flush(dev_priv, false); return 0; } static void vmw_kms_create_hotplug_mode_update_property(struct vmw_private *dev_priv) { if (dev_priv->hotplug_mode_update_property) return; dev_priv->hotplug_mode_update_property = drm_property_create_range(&dev_priv->drm, DRM_MODE_PROP_IMMUTABLE, "hotplug_mode_update", 0, 1); } int vmw_kms_init(struct vmw_private *dev_priv) { struct drm_device *dev = &dev_priv->drm; int ret; static const char *display_unit_names[] = { "Invalid", "Legacy", "Screen Object", "Screen Target", "Invalid (max)" }; drm_mode_config_init(dev); dev->mode_config.funcs = &vmw_kms_funcs; dev->mode_config.min_width = 1; dev->mode_config.min_height = 1; dev->mode_config.max_width = dev_priv->texture_max_width; dev->mode_config.max_height = dev_priv->texture_max_height; dev->mode_config.preferred_depth = dev_priv->assume_16bpp ? 16 : 32; drm_mode_create_suggested_offset_properties(dev); vmw_kms_create_hotplug_mode_update_property(dev_priv); ret = vmw_kms_stdu_init_display(dev_priv); if (ret) { ret = vmw_kms_sou_init_display(dev_priv); if (ret) /* Fallback */ ret = vmw_kms_ldu_init_display(dev_priv); } BUILD_BUG_ON(ARRAY_SIZE(display_unit_names) != (vmw_du_max + 1)); drm_info(&dev_priv->drm, "%s display unit initialized\n", display_unit_names[dev_priv->active_display_unit]); return ret; } int vmw_kms_close(struct vmw_private *dev_priv) { int ret = 0; /* * Docs says we should take the lock before calling this function * but since it destroys encoders and our destructor calls * drm_encoder_cleanup which takes the lock we deadlock. */ drm_mode_config_cleanup(&dev_priv->drm); if (dev_priv->active_display_unit == vmw_du_legacy) ret = vmw_kms_ldu_close_display(dev_priv); return ret; } int vmw_kms_cursor_bypass_ioctl(struct drm_device *dev, void *data, struct drm_file *file_priv) { struct drm_vmw_cursor_bypass_arg *arg = data; struct vmw_display_unit *du; struct drm_crtc *crtc; int ret = 0; mutex_lock(&dev->mode_config.mutex); if (arg->flags & DRM_VMW_CURSOR_BYPASS_ALL) { list_for_each_entry(crtc, &dev->mode_config.crtc_list, head) { du = vmw_crtc_to_du(crtc); du->hotspot_x = arg->xhot; du->hotspot_y = arg->yhot; } mutex_unlock(&dev->mode_config.mutex); return 0; } crtc = drm_crtc_find(dev, file_priv, arg->crtc_id); if (!crtc) { ret = -ENOENT; goto out; } du = vmw_crtc_to_du(crtc); du->hotspot_x = arg->xhot; du->hotspot_y = arg->yhot; out: mutex_unlock(&dev->mode_config.mutex); return ret; } int vmw_kms_write_svga(struct vmw_private *vmw_priv, unsigned width, unsigned height, unsigned pitch, unsigned bpp, unsigned depth) { if (vmw_priv->capabilities & SVGA_CAP_PITCHLOCK) vmw_write(vmw_priv, SVGA_REG_PITCHLOCK, pitch); else if (vmw_fifo_have_pitchlock(vmw_priv)) vmw_fifo_mem_write(vmw_priv, SVGA_FIFO_PITCHLOCK, pitch); vmw_write(vmw_priv, SVGA_REG_WIDTH, width); vmw_write(vmw_priv, SVGA_REG_HEIGHT, height); if ((vmw_priv->capabilities & SVGA_CAP_8BIT_EMULATION) != 0) vmw_write(vmw_priv, SVGA_REG_BITS_PER_PIXEL, bpp); if (vmw_read(vmw_priv, SVGA_REG_DEPTH) != depth) { DRM_ERROR("Invalid depth %u for %u bpp, host expects %u\n", depth, bpp, vmw_read(vmw_priv, SVGA_REG_DEPTH)); return -EINVAL; } return 0; } static bool vmw_kms_validate_mode_vram(struct vmw_private *dev_priv, u64 pitch, u64 height) { return (pitch * height) < (u64)dev_priv->vram_size; } /** * vmw_du_update_layout - Update the display unit with topology from resolution * plugin and generate DRM uevent * @dev_priv: device private * @num_rects: number of drm_rect in rects * @rects: toplogy to update */ static int vmw_du_update_layout(struct vmw_private *dev_priv, unsigned int num_rects, struct drm_rect *rects) { struct drm_device *dev = &dev_priv->drm; struct vmw_display_unit *du; struct drm_connector *con; struct drm_connector_list_iter conn_iter; struct drm_modeset_acquire_ctx ctx; struct drm_crtc *crtc; int ret; /* Currently gui_x/y is protected with the crtc mutex */ mutex_lock(&dev->mode_config.mutex); drm_modeset_acquire_init(&ctx, 0); retry: drm_for_each_crtc(crtc, dev) { ret = drm_modeset_lock(&crtc->mutex, &ctx); if (ret < 0) { if (ret == -EDEADLK) { drm_modeset_backoff(&ctx); goto retry; } goto out_fini; } } drm_connector_list_iter_begin(dev, &conn_iter); drm_for_each_connector_iter(con, &conn_iter) { du = vmw_connector_to_du(con); if (num_rects > du->unit) { du->pref_width = drm_rect_width(&rects[du->unit]); du->pref_height = drm_rect_height(&rects[du->unit]); du->pref_active = true; du->gui_x = rects[du->unit].x1; du->gui_y = rects[du->unit].y1; } else { du->pref_width = VMWGFX_MIN_INITIAL_WIDTH; du->pref_height = VMWGFX_MIN_INITIAL_HEIGHT; du->pref_active = false; du->gui_x = 0; du->gui_y = 0; } } drm_connector_list_iter_end(&conn_iter); list_for_each_entry(con, &dev->mode_config.connector_list, head) { du = vmw_connector_to_du(con); if (num_rects > du->unit) { drm_object_property_set_value (&con->base, dev->mode_config.suggested_x_property, du->gui_x); drm_object_property_set_value (&con->base, dev->mode_config.suggested_y_property, du->gui_y); } else { drm_object_property_set_value (&con->base, dev->mode_config.suggested_x_property, 0); drm_object_property_set_value (&con->base, dev->mode_config.suggested_y_property, 0); } con->status = vmw_du_connector_detect(con, true); } out_fini: drm_modeset_drop_locks(&ctx); drm_modeset_acquire_fini(&ctx); mutex_unlock(&dev->mode_config.mutex); drm_sysfs_hotplug_event(dev); return 0; } int vmw_du_crtc_gamma_set(struct drm_crtc *crtc, u16 *r, u16 *g, u16 *b, uint32_t size, struct drm_modeset_acquire_ctx *ctx) { struct vmw_private *dev_priv = vmw_priv(crtc->dev); int i; for (i = 0; i < size; i++) { DRM_DEBUG("%d r/g/b = 0x%04x / 0x%04x / 0x%04x\n", i, r[i], g[i], b[i]); vmw_write(dev_priv, SVGA_PALETTE_BASE + i * 3 + 0, r[i] >> 8); vmw_write(dev_priv, SVGA_PALETTE_BASE + i * 3 + 1, g[i] >> 8); vmw_write(dev_priv, SVGA_PALETTE_BASE + i * 3 + 2, b[i] >> 8); } return 0; } int vmw_du_connector_dpms(struct drm_connector *connector, int mode) { return 0; } enum drm_connector_status vmw_du_connector_detect(struct drm_connector *connector, bool force) { uint32_t num_displays; struct drm_device *dev = connector->dev; struct vmw_private *dev_priv = vmw_priv(dev); struct vmw_display_unit *du = vmw_connector_to_du(connector); num_displays = vmw_read(dev_priv, SVGA_REG_NUM_DISPLAYS); return ((vmw_connector_to_du(connector)->unit < num_displays && du->pref_active) ? connector_status_connected : connector_status_disconnected); } /** * vmw_guess_mode_timing - Provide fake timings for a * 60Hz vrefresh mode. * * @mode: Pointer to a struct drm_display_mode with hdisplay and vdisplay * members filled in. */ void vmw_guess_mode_timing(struct drm_display_mode *mode) { mode->hsync_start = mode->hdisplay + 50; mode->hsync_end = mode->hsync_start + 50; mode->htotal = mode->hsync_end + 50; mode->vsync_start = mode->vdisplay + 50; mode->vsync_end = mode->vsync_start + 50; mode->vtotal = mode->vsync_end + 50; mode->clock = (u32)mode->htotal * (u32)mode->vtotal / 100 * 6; } /** * vmw_kms_update_layout_ioctl - Handler for DRM_VMW_UPDATE_LAYOUT ioctl * @dev: drm device for the ioctl * @data: data pointer for the ioctl * @file_priv: drm file for the ioctl call * * Update preferred topology of display unit as per ioctl request. The topology * is expressed as array of drm_vmw_rect. * e.g. * [0 0 640 480] [640 0 800 600] [0 480 640 480] * * NOTE: * The x and y offset (upper left) in drm_vmw_rect cannot be less than 0. Beside * device limit on topology, x + w and y + h (lower right) cannot be greater * than INT_MAX. So topology beyond these limits will return with error. * * Returns: * Zero on success, negative errno on failure. */ int vmw_kms_update_layout_ioctl(struct drm_device *dev, void *data, struct drm_file *file_priv) { struct vmw_private *dev_priv = vmw_priv(dev); struct drm_mode_config *mode_config = &dev->mode_config; struct drm_vmw_update_layout_arg *arg = (struct drm_vmw_update_layout_arg *)data; void __user *user_rects; struct drm_vmw_rect *rects; struct drm_rect *drm_rects; unsigned rects_size; int ret, i; if (!arg->num_outputs) { struct drm_rect def_rect = {0, 0, VMWGFX_MIN_INITIAL_WIDTH, VMWGFX_MIN_INITIAL_HEIGHT}; vmw_du_update_layout(dev_priv, 1, &def_rect); return 0; } rects_size = arg->num_outputs * sizeof(struct drm_vmw_rect); rects = kcalloc(arg->num_outputs, sizeof(struct drm_vmw_rect), GFP_KERNEL); if (unlikely(!rects)) return -ENOMEM; user_rects = (void __user *)(unsigned long)arg->rects; ret = copy_from_user(rects, user_rects, rects_size); if (unlikely(ret != 0)) { DRM_ERROR("Failed to get rects.\n"); ret = -EFAULT; goto out_free; } drm_rects = (struct drm_rect *)rects; VMW_DEBUG_KMS("Layout count = %u\n", arg->num_outputs); for (i = 0; i < arg->num_outputs; i++) { struct drm_vmw_rect curr_rect; /* Verify user-space for overflow as kernel use drm_rect */ if ((rects[i].x + rects[i].w > INT_MAX) || (rects[i].y + rects[i].h > INT_MAX)) { ret = -ERANGE; goto out_free; } curr_rect = rects[i]; drm_rects[i].x1 = curr_rect.x; drm_rects[i].y1 = curr_rect.y; drm_rects[i].x2 = curr_rect.x + curr_rect.w; drm_rects[i].y2 = curr_rect.y + curr_rect.h; VMW_DEBUG_KMS(" x1 = %d y1 = %d x2 = %d y2 = %d\n", drm_rects[i].x1, drm_rects[i].y1, drm_rects[i].x2, drm_rects[i].y2); /* * Currently this check is limiting the topology within * mode_config->max (which actually is max texture size * supported by virtual device). This limit is here to address * window managers that create a big framebuffer for whole * topology. */ if (drm_rects[i].x1 < 0 || drm_rects[i].y1 < 0 || drm_rects[i].x2 > mode_config->max_width || drm_rects[i].y2 > mode_config->max_height) { VMW_DEBUG_KMS("Invalid layout %d %d %d %d\n", drm_rects[i].x1, drm_rects[i].y1, drm_rects[i].x2, drm_rects[i].y2); ret = -EINVAL; goto out_free; } } ret = vmw_kms_check_display_memory(dev, arg->num_outputs, drm_rects); if (ret == 0) vmw_du_update_layout(dev_priv, arg->num_outputs, drm_rects); out_free: kfree(rects); return ret; } /** * vmw_kms_helper_dirty - Helper to build commands and perform actions based * on a set of cliprects and a set of display units. * * @dev_priv: Pointer to a device private structure. * @framebuffer: Pointer to the framebuffer on which to perform the actions. * @clips: A set of struct drm_clip_rect. Either this os @vclips must be NULL. * Cliprects are given in framebuffer coordinates. * @vclips: A set of struct drm_vmw_rect cliprects. Either this or @clips must * be NULL. Cliprects are given in source coordinates. * @dest_x: X coordinate offset for the crtc / destination clip rects. * @dest_y: Y coordinate offset for the crtc / destination clip rects. * @num_clips: Number of cliprects in the @clips or @vclips array. * @increment: Integer with which to increment the clip counter when looping. * Used to skip a predetermined number of clip rects. * @dirty: Closure structure. See the description of struct vmw_kms_dirty. */ int vmw_kms_helper_dirty(struct vmw_private *dev_priv, struct vmw_framebuffer *framebuffer, const struct drm_clip_rect *clips, const struct drm_vmw_rect *vclips, s32 dest_x, s32 dest_y, int num_clips, int increment, struct vmw_kms_dirty *dirty) { struct vmw_display_unit *units[VMWGFX_NUM_DISPLAY_UNITS]; struct drm_crtc *crtc; u32 num_units = 0; u32 i, k; dirty->dev_priv = dev_priv; /* If crtc is passed, no need to iterate over other display units */ if (dirty->crtc) { units[num_units++] = vmw_crtc_to_du(dirty->crtc); } else { list_for_each_entry(crtc, &dev_priv->drm.mode_config.crtc_list, head) { struct drm_plane *plane = crtc->primary; if (plane->state->fb == &framebuffer->base) units[num_units++] = vmw_crtc_to_du(crtc); } } for (k = 0; k < num_units; k++) { struct vmw_display_unit *unit = units[k]; s32 crtc_x = unit->crtc.x; s32 crtc_y = unit->crtc.y; s32 crtc_width = unit->crtc.mode.hdisplay; s32 crtc_height = unit->crtc.mode.vdisplay; const struct drm_clip_rect *clips_ptr = clips; const struct drm_vmw_rect *vclips_ptr = vclips; dirty->unit = unit; if (dirty->fifo_reserve_size > 0) { dirty->cmd = VMW_CMD_RESERVE(dev_priv, dirty->fifo_reserve_size); if (!dirty->cmd) return -ENOMEM; memset(dirty->cmd, 0, dirty->fifo_reserve_size); } dirty->num_hits = 0; for (i = 0; i < num_clips; i++, clips_ptr += increment, vclips_ptr += increment) { s32 clip_left; s32 clip_top; /* * Select clip array type. Note that integer type * in @clips is unsigned short, whereas in @vclips * it's 32-bit. */ if (clips) { dirty->fb_x = (s32) clips_ptr->x1; dirty->fb_y = (s32) clips_ptr->y1; dirty->unit_x2 = (s32) clips_ptr->x2 + dest_x - crtc_x; dirty->unit_y2 = (s32) clips_ptr->y2 + dest_y - crtc_y; } else { dirty->fb_x = vclips_ptr->x; dirty->fb_y = vclips_ptr->y; dirty->unit_x2 = dirty->fb_x + vclips_ptr->w + dest_x - crtc_x; dirty->unit_y2 = dirty->fb_y + vclips_ptr->h + dest_y - crtc_y; } dirty->unit_x1 = dirty->fb_x + dest_x - crtc_x; dirty->unit_y1 = dirty->fb_y + dest_y - crtc_y; /* Skip this clip if it's outside the crtc region */ if (dirty->unit_x1 >= crtc_width || dirty->unit_y1 >= crtc_height || dirty->unit_x2 <= 0 || dirty->unit_y2 <= 0) continue; /* Clip right and bottom to crtc limits */ dirty->unit_x2 = min_t(s32, dirty->unit_x2, crtc_width); dirty->unit_y2 = min_t(s32, dirty->unit_y2, crtc_height); /* Clip left and top to crtc limits */ clip_left = min_t(s32, dirty->unit_x1, 0); clip_top = min_t(s32, dirty->unit_y1, 0); dirty->unit_x1 -= clip_left; dirty->unit_y1 -= clip_top; dirty->fb_x -= clip_left; dirty->fb_y -= clip_top; dirty->clip(dirty); } dirty->fifo_commit(dirty); } return 0; } /** * vmw_kms_helper_validation_finish - Helper for post KMS command submission * cleanup and fencing * @dev_priv: Pointer to the device-private struct * @file_priv: Pointer identifying the client when user-space fencing is used * @ctx: Pointer to the validation context * @out_fence: If non-NULL, returned refcounted fence-pointer * @user_fence_rep: If non-NULL, pointer to user-space address area * in which to copy user-space fence info */ void vmw_kms_helper_validation_finish(struct vmw_private *dev_priv, struct drm_file *file_priv, struct vmw_validation_context *ctx, struct vmw_fence_obj **out_fence, struct drm_vmw_fence_rep __user * user_fence_rep) { struct vmw_fence_obj *fence = NULL; uint32_t handle = 0; int ret = 0; if (file_priv || user_fence_rep || vmw_validation_has_bos(ctx) || out_fence) ret = vmw_execbuf_fence_commands(file_priv, dev_priv, &fence, file_priv ? &handle : NULL); vmw_validation_done(ctx, fence); if (file_priv) vmw_execbuf_copy_fence_user(dev_priv, vmw_fpriv(file_priv), ret, user_fence_rep, fence, handle, -1); if (out_fence) *out_fence = fence; else vmw_fence_obj_unreference(&fence); } /** * vmw_kms_update_proxy - Helper function to update a proxy surface from * its backing MOB. * * @res: Pointer to the surface resource * @clips: Clip rects in framebuffer (surface) space. * @num_clips: Number of clips in @clips. * @increment: Integer with which to increment the clip counter when looping. * Used to skip a predetermined number of clip rects. * * This function makes sure the proxy surface is updated from its backing MOB * using the region given by @clips. The surface resource @res and its backing * MOB needs to be reserved and validated on call. */ int vmw_kms_update_proxy(struct vmw_resource *res, const struct drm_clip_rect *clips, unsigned num_clips, int increment) { struct vmw_private *dev_priv = res->dev_priv; struct drm_vmw_size *size = &vmw_res_to_srf(res)->metadata.base_size; struct { SVGA3dCmdHeader header; SVGA3dCmdUpdateGBImage body; } *cmd; SVGA3dBox *box; size_t copy_size = 0; int i; if (!clips) return 0; cmd = VMW_CMD_RESERVE(dev_priv, sizeof(*cmd) * num_clips); if (!cmd) return -ENOMEM; for (i = 0; i < num_clips; ++i, clips += increment, ++cmd) { box = &cmd->body.box; cmd->header.id = SVGA_3D_CMD_UPDATE_GB_IMAGE; cmd->header.size = sizeof(cmd->body); cmd->body.image.sid = res->id; cmd->body.image.face = 0; cmd->body.image.mipmap = 0; if (clips->x1 > size->width || clips->x2 > size->width || clips->y1 > size->height || clips->y2 > size->height) { DRM_ERROR("Invalid clips outsize of framebuffer.\n"); return -EINVAL; } box->x = clips->x1; box->y = clips->y1; box->z = 0; box->w = clips->x2 - clips->x1; box->h = clips->y2 - clips->y1; box->d = 1; copy_size += sizeof(*cmd); } vmw_cmd_commit(dev_priv, copy_size); return 0; } /** * vmw_kms_create_implicit_placement_property - Set up the implicit placement * property. * * @dev_priv: Pointer to a device private struct. * * Sets up the implicit placement property unless it's already set up. */ void vmw_kms_create_implicit_placement_property(struct vmw_private *dev_priv) { if (dev_priv->implicit_placement_property) return; dev_priv->implicit_placement_property = drm_property_create_range(&dev_priv->drm, DRM_MODE_PROP_IMMUTABLE, "implicit_placement", 0, 1); } /** * vmw_kms_suspend - Save modesetting state and turn modesetting off. * * @dev: Pointer to the drm device * Return: 0 on success. Negative error code on failure. */ int vmw_kms_suspend(struct drm_device *dev) { struct vmw_private *dev_priv = vmw_priv(dev); dev_priv->suspend_state = drm_atomic_helper_suspend(dev); if (IS_ERR(dev_priv->suspend_state)) { int ret = PTR_ERR(dev_priv->suspend_state); DRM_ERROR("Failed kms suspend: %d\n", ret); dev_priv->suspend_state = NULL; return ret; } return 0; } /** * vmw_kms_resume - Re-enable modesetting and restore state * * @dev: Pointer to the drm device * Return: 0 on success. Negative error code on failure. * * State is resumed from a previous vmw_kms_suspend(). It's illegal * to call this function without a previous vmw_kms_suspend(). */ int vmw_kms_resume(struct drm_device *dev) { struct vmw_private *dev_priv = vmw_priv(dev); int ret; if (WARN_ON(!dev_priv->suspend_state)) return 0; ret = drm_atomic_helper_resume(dev, dev_priv->suspend_state); dev_priv->suspend_state = NULL; return ret; } /** * vmw_kms_lost_device - Notify kms that modesetting capabilities will be lost * * @dev: Pointer to the drm device */ void vmw_kms_lost_device(struct drm_device *dev) { drm_atomic_helper_shutdown(dev); } /** * vmw_du_helper_plane_update - Helper to do plane update on a display unit. * @update: The closure structure. * * Call this helper after setting callbacks in &vmw_du_update_plane to do plane * update on display unit. * * Return: 0 on success or a negative error code on failure. */ int vmw_du_helper_plane_update(struct vmw_du_update_plane *update) { struct drm_plane_state *state = update->plane->state; struct drm_plane_state *old_state = update->old_state; struct drm_atomic_helper_damage_iter iter; struct drm_rect clip; struct drm_rect bb; DECLARE_VAL_CONTEXT(val_ctx, NULL, 0); uint32_t reserved_size = 0; uint32_t submit_size = 0; uint32_t curr_size = 0; uint32_t num_hits = 0; void *cmd_start; char *cmd_next; int ret; /* * Iterate in advance to check if really need plane update and find the * number of clips that actually are in plane src for fifo allocation. */ drm_atomic_helper_damage_iter_init(&iter, old_state, state); drm_atomic_for_each_plane_damage(&iter, &clip) num_hits++; if (num_hits == 0) return 0; if (update->vfb->bo) { struct vmw_framebuffer_bo *vfbbo = container_of(update->vfb, typeof(*vfbbo), base); /* * For screen targets we want a mappable bo, for everything else we want * accelerated i.e. host backed (vram or gmr) bo. If the display unit * is not screen target then mob's shouldn't be available. */ if (update->dev_priv->active_display_unit == vmw_du_screen_target) { vmw_bo_placement_set(vfbbo->buffer, VMW_BO_DOMAIN_SYS | VMW_BO_DOMAIN_MOB | VMW_BO_DOMAIN_GMR, VMW_BO_DOMAIN_SYS | VMW_BO_DOMAIN_MOB | VMW_BO_DOMAIN_GMR); } else { WARN_ON(update->dev_priv->has_mob); vmw_bo_placement_set_default_accelerated(vfbbo->buffer); } ret = vmw_validation_add_bo(&val_ctx, vfbbo->buffer); } else { struct vmw_framebuffer_surface *vfbs = container_of(update->vfb, typeof(*vfbs), base); ret = vmw_validation_add_resource(&val_ctx, &vfbs->surface->res, 0, VMW_RES_DIRTY_NONE, NULL, NULL); } if (ret) return ret; ret = vmw_validation_prepare(&val_ctx, update->mutex, update->intr); if (ret) goto out_unref; reserved_size = update->calc_fifo_size(update, num_hits); cmd_start = VMW_CMD_RESERVE(update->dev_priv, reserved_size); if (!cmd_start) { ret = -ENOMEM; goto out_revert; } cmd_next = cmd_start; if (update->post_prepare) { curr_size = update->post_prepare(update, cmd_next); cmd_next += curr_size; submit_size += curr_size; } if (update->pre_clip) { curr_size = update->pre_clip(update, cmd_next, num_hits); cmd_next += curr_size; submit_size += curr_size; } bb.x1 = INT_MAX; bb.y1 = INT_MAX; bb.x2 = INT_MIN; bb.y2 = INT_MIN; drm_atomic_helper_damage_iter_init(&iter, old_state, state); drm_atomic_for_each_plane_damage(&iter, &clip) { uint32_t fb_x = clip.x1; uint32_t fb_y = clip.y1; vmw_du_translate_to_crtc(state, &clip); if (update->clip) { curr_size = update->clip(update, cmd_next, &clip, fb_x, fb_y); cmd_next += curr_size; submit_size += curr_size; } bb.x1 = min_t(int, bb.x1, clip.x1); bb.y1 = min_t(int, bb.y1, clip.y1); bb.x2 = max_t(int, bb.x2, clip.x2); bb.y2 = max_t(int, bb.y2, clip.y2); } curr_size = update->post_clip(update, cmd_next, &bb); submit_size += curr_size; if (reserved_size < submit_size) submit_size = 0; vmw_cmd_commit(update->dev_priv, submit_size); vmw_kms_helper_validation_finish(update->dev_priv, NULL, &val_ctx, update->out_fence, NULL); return ret; out_revert: vmw_validation_revert(&val_ctx); out_unref: vmw_validation_unref_lists(&val_ctx); return ret; } /** * vmw_connector_mode_valid - implements drm_connector_helper_funcs.mode_valid callback * * @connector: the drm connector, part of a DU container * @mode: drm mode to check * * Returns MODE_OK on success, or a drm_mode_status error code. */ enum drm_mode_status vmw_connector_mode_valid(struct drm_connector *connector, struct drm_display_mode *mode) { enum drm_mode_status ret; struct drm_device *dev = connector->dev; struct vmw_private *dev_priv = vmw_priv(dev); u32 assumed_cpp = 4; if (dev_priv->assume_16bpp) assumed_cpp = 2; ret = drm_mode_validate_size(mode, dev_priv->texture_max_width, dev_priv->texture_max_height); if (ret != MODE_OK) return ret; if (!vmw_kms_validate_mode_vram(dev_priv, mode->hdisplay * assumed_cpp, mode->vdisplay)) return MODE_MEM; return MODE_OK; } /** * vmw_connector_get_modes - implements drm_connector_helper_funcs.get_modes callback * * @connector: the drm connector, part of a DU container * * Returns the number of added modes. */ int vmw_connector_get_modes(struct drm_connector *connector) { struct vmw_display_unit *du = vmw_connector_to_du(connector); struct drm_device *dev = connector->dev; struct vmw_private *dev_priv = vmw_priv(dev); struct drm_display_mode *mode = NULL; struct drm_display_mode prefmode = { DRM_MODE("preferred", DRM_MODE_TYPE_DRIVER | DRM_MODE_TYPE_PREFERRED, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, DRM_MODE_FLAG_NHSYNC | DRM_MODE_FLAG_PVSYNC) }; u32 max_width; u32 max_height; u32 num_modes; /* Add preferred mode */ mode = drm_mode_duplicate(dev, &prefmode); if (!mode) return 0; mode->hdisplay = du->pref_width; mode->vdisplay = du->pref_height; vmw_guess_mode_timing(mode); drm_mode_set_name(mode); drm_mode_probed_add(connector, mode); drm_dbg_kms(dev, "preferred mode " DRM_MODE_FMT "\n", DRM_MODE_ARG(mode)); /* Probe connector for all modes not exceeding our geom limits */ max_width = dev_priv->texture_max_width; max_height = dev_priv->texture_max_height; if (dev_priv->active_display_unit == vmw_du_screen_target) { max_width = min(dev_priv->stdu_max_width, max_width); max_height = min(dev_priv->stdu_max_height, max_height); } num_modes = 1 + drm_add_modes_noedid(connector, max_width, max_height); return num_modes; } |