Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Laurent Pinchart | 283 | 73.89% | 12 | 50.00% |
Kieran Bingham | 90 | 23.50% | 10 | 41.67% |
Niklas Söderlund | 5 | 1.31% | 1 | 4.17% |
Takashi Saito | 5 | 1.31% | 1 | 4.17% |
Total | 383 | 24 |
/* SPDX-License-Identifier: GPL-2.0+ */ /* * vsp1_pipe.h -- R-Car VSP1 Pipeline * * Copyright (C) 2013-2015 Renesas Electronics Corporation * * Contact: Laurent Pinchart (laurent.pinchart@ideasonboard.com) */ #ifndef __VSP1_PIPE_H__ #define __VSP1_PIPE_H__ #include <linux/kref.h> #include <linux/list.h> #include <linux/spinlock.h> #include <linux/wait.h> #include <media/media-entity.h> struct vsp1_dl_list; struct vsp1_rwpf; /* * struct vsp1_format_info - VSP1 video format description * @fourcc: V4L2 pixel format FCC identifier * @mbus: media bus format code * @hwfmt: VSP1 hardware format * @swap: swap register control * @planes: number of planes * @bpp: bits per pixel * @swap_yc: the Y and C components are swapped (Y comes before C) * @swap_uv: the U and V components are swapped (V comes before U) * @hsub: horizontal subsampling factor * @vsub: vertical subsampling factor * @alpha: has an alpha channel */ struct vsp1_format_info { u32 fourcc; unsigned int mbus; unsigned int hwfmt; unsigned int swap; unsigned int planes; unsigned int bpp[3]; bool swap_yc; bool swap_uv; unsigned int hsub; unsigned int vsub; bool alpha; }; enum vsp1_pipeline_state { VSP1_PIPELINE_STOPPED, VSP1_PIPELINE_RUNNING, VSP1_PIPELINE_STOPPING, }; /* * struct vsp1_partition_window - Partition window coordinates * @left: horizontal coordinate of the partition start in pixels relative to the * left edge of the image * @width: partition width in pixels */ struct vsp1_partition_window { unsigned int left; unsigned int width; }; /* * struct vsp1_partition - A description of a slice for the partition algorithm * @rpf: The RPF partition window configuration * @uds_sink: The UDS input partition window configuration * @uds_source: The UDS output partition window configuration * @sru: The SRU partition window configuration * @wpf: The WPF partition window configuration */ struct vsp1_partition { struct vsp1_partition_window rpf; struct vsp1_partition_window uds_sink; struct vsp1_partition_window uds_source; struct vsp1_partition_window sru; struct vsp1_partition_window wpf; }; /* * struct vsp1_pipeline - A VSP1 hardware pipeline * @pipe: the media pipeline * @irqlock: protects the pipeline state * @state: current state * @wq: wait queue to wait for state change completion * @frame_end: frame end interrupt handler * @lock: protects the pipeline use count and stream count * @kref: pipeline reference count * @stream_count: number of streaming video nodes * @buffers_ready: bitmask of RPFs and WPFs with at least one buffer available * @sequence: frame sequence number * @num_inputs: number of RPFs * @inputs: array of RPFs in the pipeline (indexed by RPF index) * @output: WPF at the output of the pipeline * @brx: BRx entity, if present * @hgo: HGO entity, if present * @hgt: HGT entity, if present * @lif: LIF entity, if present * @uds: UDS entity, if present * @uds_input: entity at the input of the UDS, if the UDS is present * @entities: list of entities in the pipeline * @stream_config: cached stream configuration for video pipelines * @configured: when false the @stream_config shall be written to the hardware * @interlaced: True when the pipeline is configured in interlaced mode * @partitions: The number of partitions used to process one frame * @partition: The current partition for configuration to process * @part_table: The pre-calculated partitions used by the pipeline */ struct vsp1_pipeline { struct media_pipeline pipe; spinlock_t irqlock; enum vsp1_pipeline_state state; wait_queue_head_t wq; void (*frame_end)(struct vsp1_pipeline *pipe, unsigned int completion); struct mutex lock; struct kref kref; unsigned int stream_count; unsigned int buffers_ready; unsigned int sequence; unsigned int num_inputs; struct vsp1_rwpf *inputs[VSP1_MAX_RPF]; struct vsp1_rwpf *output; struct vsp1_entity *brx; struct vsp1_entity *hgo; struct vsp1_entity *hgt; struct vsp1_entity *lif; struct vsp1_entity *uds; struct vsp1_entity *uds_input; /* * The order of this list must be identical to the order of the entities * in the pipeline, as it is assumed by the partition algorithm that we * can walk this list in sequence. */ struct list_head entities; struct vsp1_dl_body *stream_config; bool configured; bool interlaced; unsigned int partitions; struct vsp1_partition *partition; struct vsp1_partition *part_table; }; void vsp1_pipeline_reset(struct vsp1_pipeline *pipe); void vsp1_pipeline_init(struct vsp1_pipeline *pipe); void vsp1_pipeline_run(struct vsp1_pipeline *pipe); bool vsp1_pipeline_stopped(struct vsp1_pipeline *pipe); int vsp1_pipeline_stop(struct vsp1_pipeline *pipe); bool vsp1_pipeline_ready(struct vsp1_pipeline *pipe); void vsp1_pipeline_frame_end(struct vsp1_pipeline *pipe); void vsp1_pipeline_propagate_alpha(struct vsp1_pipeline *pipe, struct vsp1_dl_body *dlb, unsigned int alpha); void vsp1_pipeline_propagate_partition(struct vsp1_pipeline *pipe, struct vsp1_partition *partition, unsigned int index, struct vsp1_partition_window *window); const struct vsp1_format_info *vsp1_get_format_info(struct vsp1_device *vsp1, u32 fourcc); #endif /* __VSP1_PIPE_H__ */
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