/* * Copyright (C) 2013 Google, Inc. * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #ifndef _VIDEO_ADF_H #define _VIDEO_ADF_H #include <linux/device.h> #include <linux/dma-buf.h> #include <linux/idr.h> #include <linux/kref.h> #include <linux/kthread.h> #include <linux/ktime.h> #include <linux/list.h> #include <linux/module.h> #include <linux/platform_device.h> #include <linux/scatterlist.h> #include <linux/sched.h> #include <linux/spinlock.h> #include <linux/wait.h> #include <linux/workqueue.h> #include <uapi/video/adf.h> #include "sync.h" struct adf_obj; struct adf_obj_ops; struct adf_device; struct adf_device_ops; struct adf_interface; struct adf_interface_ops; struct adf_overlay_engine; struct adf_overlay_engine_ops; /** * struct adf_buffer - buffer displayed by adf_post * * @overlay_engine: target overlay engine * @w: width of display region in pixels * @h: height of display region in pixels * @format: DRM-style fourcc, see drm_fourcc.h for standard formats * @dma_bufs: dma_buf for each plane * @offset: location of first pixel to scan out, in bytes * @pitch: length of a scanline including padding, in bytes * @n_planes: number of planes in buffer * @acquire_fence: sync_fence which will clear when the buffer is * ready for display * * &struct adf_buffer is the in-kernel counterpart to the userspace-facing * &struct adf_buffer_config. */ struct adf_buffer { struct adf_overlay_engine *overlay_engine; u32 w; u32 h; u32 format; struct dma_buf *dma_bufs[ADF_MAX_PLANES]; u32 offset[ADF_MAX_PLANES]; u32 pitch[ADF_MAX_PLANES]; u8 n_planes; struct sync_fence *acquire_fence; }; /** * struct adf_buffer_mapping - state for mapping a &struct adf_buffer into the * display device * * @attachments: dma-buf attachment for each plane * @sg_tables: SG tables for each plane */ struct adf_buffer_mapping { struct dma_buf_attachment *attachments[ADF_MAX_PLANES]; struct sg_table *sg_tables[ADF_MAX_PLANES]; }; /** * struct adf_post - request to flip to a new set of buffers * * @n_bufs: number of buffers displayed * @bufs: buffers displayed * @mappings: in-device mapping state for each buffer * @custom_data_size: size of driver-private data * @custom_data: driver-private data * * &struct adf_post is the in-kernel counterpart to the userspace-facing * &struct adf_post_config. */ struct adf_post { size_t n_bufs; struct adf_buffer *bufs; struct adf_buffer_mapping *mappings; size_t custom_data_size; void *custom_data; }; /** * struct adf_attachment - description of attachment between an overlay engine * and an interface * * @overlay_engine: the overlay engine * @interface: the interface * * &struct adf_attachment is the in-kernel counterpart to the userspace-facing * &struct adf_attachment_config. */ struct adf_attachment { struct adf_overlay_engine *overlay_engine; struct adf_interface *interface; }; struct adf_pending_post { struct list_head head; struct adf_post config; void *state; }; enum adf_obj_type { ADF_OBJ_OVERLAY_ENGINE = 0, ADF_OBJ_INTERFACE = 1, ADF_OBJ_DEVICE = 2, }; /** * struct adf_obj_ops - common ADF object implementation ops * * @open: handle opening the object's device node * @release: handle releasing an open file * @ioctl: handle custom ioctls * * @supports_event: return whether the object supports generating events of type * @type * @set_event: enable or disable events of type @type * @event_type_str: return a string representation of custom event @type * (@type >= %ADF_EVENT_DEVICE_CUSTOM). * * @custom_data: copy up to %ADF_MAX_CUSTOM_DATA_SIZE bytes of driver-private * data into @data (allocated by ADF) and return the number of copied bytes * in @size. Return 0 on success or an error code (<0) on failure. */ struct adf_obj_ops { /* optional */ int (*open)(struct adf_obj *obj, struct inode *inode, struct file *file); /* optional */ void (*release)(struct adf_obj *obj, struct inode *inode, struct file *file); /* optional */ long (*ioctl)(struct adf_obj *obj, unsigned int cmd, unsigned long arg); /* optional */ bool (*supports_event)(struct adf_obj *obj, enum adf_event_type type); /* required if supports_event is implemented */ void (*set_event)(struct adf_obj *obj, enum adf_event_type type, bool enabled); /* optional */ const char *(*event_type_str)(struct adf_obj *obj, enum adf_event_type type); /* optional */ int (*custom_data)(struct adf_obj *obj, void *data, size_t *size); }; struct adf_obj { enum adf_obj_type type; char name[ADF_NAME_LEN]; struct adf_device *parent; const struct adf_obj_ops *ops; struct device dev; struct spinlock file_lock; struct list_head file_list; struct mutex event_lock; struct rb_root event_refcount; int id; int minor; }; /** * struct adf_device_quirks - common display device quirks * * @buffer_padding: whether the last scanline of a buffer extends to the * buffer's pitch (@ADF_BUFFER_PADDED_TO_PITCH) or just to the visible * width (@ADF_BUFFER_UNPADDED) */ struct adf_device_quirks { /* optional, defaults to ADF_BUFFER_PADDED_TO_PITCH */ enum { ADF_BUFFER_PADDED_TO_PITCH = 0, ADF_BUFFER_UNPADDED = 1, } buffer_padding; }; /** * struct adf_device_ops - display device implementation ops * * @owner: device's module * @base: common operations (see &struct adf_obj_ops) * @quirks: device's quirks (see &struct adf_device_quirks) * * @attach: attach overlay engine @eng to interface @intf. Return 0 on success * or error code (<0) on failure. * @detach: detach overlay engine @eng from interface @intf. Return 0 on * success or error code (<0) on failure. * * @validate_custom_format: validate the number and size of planes * in buffers with a custom format (i.e., not one of the @DRM_FORMAT_* * types defined in drm/drm_fourcc.h). Return 0 if the buffer is valid or * an error code (<0) otherwise. * * @validate: validate that the proposed configuration @cfg is legal. The * driver may optionally allocate and return some driver-private state in * @driver_state, which will be passed to the corresponding post(). The * driver may NOT commit any changes to hardware. Return 0 if @cfg is * valid or an error code (<0) otherwise. * @complete_fence: create a hardware-backed sync fence to be signaled when * @cfg is removed from the screen. If unimplemented, ADF automatically * creates an sw_sync fence. Return the sync fence on success or a * PTR_ERR() on failure. * @post: flip @cfg onto the screen. Wait for the display to begin scanning out * @cfg before returning. * @advance_timeline: signal the sync fence for the last configuration to leave * the display. If unimplemented, ADF automatically advances an sw_sync * timeline. * @state_free: free driver-private state allocated during validate() */ struct adf_device_ops { /* required */ struct module *owner; const struct adf_obj_ops base; /* optional */ const struct adf_device_quirks quirks; /* optional */ int (*attach)(struct adf_device *dev, struct adf_overlay_engine *eng, struct adf_interface *intf); /* optional */ int (*detach)(struct adf_device *dev, struct adf_overlay_engine *eng, struct adf_interface *intf); /* required if any of the device's overlay engines supports at least one custom format */ int (*validate_custom_format)(struct adf_device *dev, struct adf_buffer *buf); /* required */ int (*validate)(struct adf_device *dev, struct adf_post *cfg, void **driver_state); /* optional */ struct sync_fence *(*complete_fence)(struct adf_device *dev, struct adf_post *cfg, void *driver_state); /* required */ void (*post)(struct adf_device *dev, struct adf_post *cfg, void *driver_state); /* required if complete_fence is implemented */ void (*advance_timeline)(struct adf_device *dev, struct adf_post *cfg, void *driver_state); /* required if validate allocates driver state */ void (*state_free)(struct adf_device *dev, void *driver_state); }; struct adf_attachment_list { struct adf_attachment attachment; struct list_head head; }; struct adf_device { struct adf_obj base; struct device *dev; const struct adf_device_ops *ops; struct mutex client_lock; struct idr interfaces; size_t n_interfaces; struct idr overlay_engines; struct list_head post_list; struct mutex post_lock; struct kthread_worker post_worker; struct task_struct *post_thread; struct kthread_work post_work; struct list_head attached; size_t n_attached; struct list_head attach_allowed; size_t n_attach_allowed; struct adf_pending_post *onscreen; struct sw_sync_timeline *timeline; int timeline_max; }; /** * struct adf_interface_ops - display interface implementation ops * * @base: common operations (see &struct adf_obj_ops) * * @blank: change the display's DPMS state. Return 0 on success or error * code (<0) on failure. * * @alloc_simple_buffer: allocate a buffer with the specified @w, @h, and * @format. @format will be a standard RGB format (i.e., * adf_format_is_rgb(@format) == true). Return 0 on success or error code * (<0) on failure. On success, return the buffer, offset, and pitch in * @dma_buf, @offset, and @pitch respectively. * @describe_simple_post: provide driver-private data needed to post a single * buffer @buf. Copy up to ADF_MAX_CUSTOM_DATA_SIZE bytes into @data * (allocated by ADF) and return the number of bytes in @size. Return 0 on * success or error code (<0) on failure. * * @modeset: change the interface's mode. @mode is not necessarily part of the * modelist passed to adf_hotplug_notify_connected(); the driver may * accept or reject custom modes at its discretion. Return 0 on success or * error code (<0) if the mode could not be set. * * @screen_size: copy the screen dimensions in millimeters into @width_mm * and @height_mm. Return 0 on success or error code (<0) if the display * dimensions are unknown. * * @type_str: return a string representation of custom @intf->type * (@intf->type >= @ADF_INTF_TYPE_DEVICE_CUSTOM). */ struct adf_interface_ops { const struct adf_obj_ops base; /* optional */ int (*blank)(struct adf_interface *intf, u8 state); /* optional */ int (*alloc_simple_buffer)(struct adf_interface *intf, u16 w, u16 h, u32 format, struct dma_buf **dma_buf, u32 *offset, u32 *pitch); /* optional */ int (*describe_simple_post)(struct adf_interface *intf, struct adf_buffer *fb, void *data, size_t *size); /* optional */ int (*modeset)(struct adf_interface *intf, struct drm_mode_modeinfo *mode); /* optional */ int (*screen_size)(struct adf_interface *intf, u16 *width_mm, u16 *height_mm); /* optional */ const char *(*type_str)(struct adf_interface *intf); }; struct adf_interface { struct adf_obj base; const struct adf_interface_ops *ops; struct drm_mode_modeinfo current_mode; enum adf_interface_type type; u32 idx; u32 flags; wait_queue_head_t vsync_wait; ktime_t vsync_timestamp; rwlock_t vsync_lock; u8 dpms_state; bool hotplug_detect; struct drm_mode_modeinfo *modelist; size_t n_modes; rwlock_t hotplug_modelist_lock; }; /** * struct adf_interface_ops - overlay engine implementation ops * * @base: common operations (see &struct adf_obj_ops) * * @supported_formats: list of fourccs the overlay engine can scan out * @n_supported_formats: length of supported_formats, up to * ADF_MAX_SUPPORTED_FORMATS */ struct adf_overlay_engine_ops { const struct adf_obj_ops base; /* required */ const u32 *supported_formats; /* required */ const size_t n_supported_formats; }; struct adf_overlay_engine { struct adf_obj base; const struct adf_overlay_engine_ops *ops; }; #define adf_obj_to_device(ptr) \ container_of((ptr), struct adf_device, base) #define adf_obj_to_interface(ptr) \ container_of((ptr), struct adf_interface, base) #define adf_obj_to_overlay_engine(ptr) \ container_of((ptr), struct adf_overlay_engine, base) int __printf(4, 5) adf_device_init(struct adf_device *dev, struct device *parent, const struct adf_device_ops *ops, const char *fmt, ...); void adf_device_destroy(struct adf_device *dev); int __printf(7, 8) adf_interface_init(struct adf_interface *intf, struct adf_device *dev, enum adf_interface_type type, u32 idx, u32 flags, const struct adf_interface_ops *ops, const char *fmt, ...); void adf_interface_destroy(struct adf_interface *intf); static inline struct adf_device *adf_interface_parent( struct adf_interface *intf) { return intf->base.parent; } int __printf(4, 5) adf_overlay_engine_init(struct adf_overlay_engine *eng, struct adf_device *dev, const struct adf_overlay_engine_ops *ops, const char *fmt, ...); void adf_overlay_engine_destroy(struct adf_overlay_engine *eng); static inline struct adf_device *adf_overlay_engine_parent( struct adf_overlay_engine *eng) { return eng->base.parent; } int adf_attachment_allow(struct adf_device *dev, struct adf_overlay_engine *eng, struct adf_interface *intf); const char *adf_obj_type_str(enum adf_obj_type type); const char *adf_interface_type_str(struct adf_interface *intf); const char *adf_event_type_str(struct adf_obj *obj, enum adf_event_type type); #define ADF_FORMAT_STR_SIZE 5 void adf_format_str(u32 format, char buf[ADF_FORMAT_STR_SIZE]); int adf_format_validate_yuv(struct adf_device *dev, struct adf_buffer *buf, u8 num_planes, u8 hsub, u8 vsub, u8 cpp[]); /** * adf_format_validate_rgb - validate the number and size of planes in buffers * with a custom RGB format. * * @dev: ADF device performing the validation * @buf: buffer to validate * @cpp: expected bytes per pixel * * adf_format_validate_rgb() is intended to be called as a helper from @dev's * validate_custom_format() op. @buf must have a single RGB plane. * * Returns 0 if @buf has a single plane with sufficient size, or -EINVAL * otherwise. */ static inline int adf_format_validate_rgb(struct adf_device *dev, struct adf_buffer *buf, u8 cpp) { return adf_format_validate_yuv(dev, buf, 1, 1, 1, &cpp); } int adf_event_get(struct adf_obj *obj, enum adf_event_type type); int adf_event_put(struct adf_obj *obj, enum adf_event_type type); int adf_event_notify(struct adf_obj *obj, struct adf_event *event); static inline void adf_vsync_get(struct adf_interface *intf) { adf_event_get(&intf->base, ADF_EVENT_VSYNC); } static inline void adf_vsync_put(struct adf_interface *intf) { adf_event_put(&intf->base, ADF_EVENT_VSYNC); } int adf_vsync_wait(struct adf_interface *intf, long timeout); void adf_vsync_notify(struct adf_interface *intf, ktime_t timestamp); int adf_hotplug_notify_connected(struct adf_interface *intf, struct drm_mode_modeinfo *modelist, size_t n_modes); void adf_hotplug_notify_disconnected(struct adf_interface *intf); void adf_modeinfo_set_name(struct drm_mode_modeinfo *mode); void adf_modeinfo_set_vrefresh(struct drm_mode_modeinfo *mode); #endif /* _VIDEO_ADF_H */