/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright (C) 2020 NVIDIA CORPORATION. All rights reserved. */ #ifndef __TEGRA_VI_H__ #define __TEGRA_VI_H__ #include #include #include #include #include #include #include #include #include #include #include #include #include "csi.h" #define V4L2_CID_TEGRA_SYNCPT_TIMEOUT_RETRY (V4L2_CTRL_CLASS_CAMERA | 0x1001) #define TEGRA_DEF_WIDTH 1920 #define TEGRA_DEF_HEIGHT 1080 #define TEGRA_IMAGE_FORMAT_DEF 32 #define MAX_FORMAT_NUM 64 enum tegra_vi_pg_mode { TEGRA_VI_PG_DISABLED = 0, TEGRA_VI_PG_DIRECT, TEGRA_VI_PG_PATCH, }; struct tegra_vi; struct tegra_vi_channel; /** * struct tegra_vi_ops - Tegra VI operations * @vi_enable: soc-specific operations needed to enable/disable the VI peripheral * @channel_host1x_syncpt_init: initialize synchronization points * @channel_host1x_syncpt_free: free all synchronization points * @vi_fmt_align: modify `pix` to fit the hardware alignment * requirements and fill image geometry * @channel_queue_setup: additional operations at the end of vb2_ops::queue_setup * @vi_start_streaming: starts media pipeline, subdevice streaming, sets up * VI for capture and runs capture start and capture finish * kthreads for capturing frames to buffer and returns them back. * @vi_stop_streaming: stops media pipeline and subdevice streaming and returns * back any queued buffers. */ struct tegra_vi_ops { int (*vi_enable)(struct tegra_vi *vi, bool on); int (*channel_host1x_syncpt_init)(struct tegra_vi_channel *chan); void (*channel_host1x_syncpt_free)(struct tegra_vi_channel *chan); void (*vi_fmt_align)(struct v4l2_pix_format *pix, unsigned int bpp); void (*channel_queue_setup)(struct tegra_vi_channel *chan); int (*vi_start_streaming)(struct vb2_queue *vq, u32 count); void (*vi_stop_streaming)(struct vb2_queue *vq); }; /** * struct tegra_vi_soc - NVIDIA Tegra Video Input SoC structure * * @video_formats: supported video formats * @nformats: total video formats * @default_video_format: default video format (pointer to a @video_formats item) * @ops: vi operations * @hw_revision: VI hw_revision * @vi_max_channels: supported max streaming channels * @vi_max_clk_hz: VI clock max frequency * @has_h_v_flip: the chip can do H and V flip, and the driver implements it */ struct tegra_vi_soc { const struct tegra_video_format *video_formats; const unsigned int nformats; const struct tegra_video_format *default_video_format; const struct tegra_vi_ops *ops; u32 hw_revision; unsigned int vi_max_channels; unsigned int vi_max_clk_hz; bool has_h_v_flip:1; }; /** * struct tegra_vi - NVIDIA Tegra Video Input device structure * * @dev: device struct * @client: host1x_client struct * @iomem: register base * @clk: main clock for VI block * @vdd: vdd regulator for VI hardware, normally it is avdd_dsi_csi * @soc: pointer to SoC data structure * @ops: vi operations * @vi_chans: list head for VI channels */ struct tegra_vi { struct device *dev; struct host1x_client client; void __iomem *iomem; struct clk *clk; struct regulator *vdd; const struct tegra_vi_soc *soc; const struct tegra_vi_ops *ops; struct list_head vi_chans; }; /** * struct tegra_vi_channel - Tegra video channel * * @list: list head for this entry * @video: V4L2 video device associated with the video channel * @video_lock: protects the @format and @queue fields * @pad: media pad for the video device entity * * @vi: Tegra video input device structure * @frame_start_sp: host1x syncpoint pointer to synchronize programmed capture * start condition with hardware frame start events through host1x * syncpoint counters. (Tegra210) * @mw_ack_sp: host1x syncpoint pointer to synchronize programmed memory write * ack trigger condition with hardware memory write done at end of * frame through host1x syncpoint counters (On Tegra20 used for the * OUT_1 syncpt) * @sp_incr_lock: protects cpu syncpoint increment. * @next_out_sp_idx: next expected value for mw_ack_sp[0], i.e. OUT_1 (Tegra20) * * @kthread_start_capture: kthread to start capture of single frame when * vb buffer is available. This thread programs VI CSI hardware * for single frame capture and waits for frame start event from * the hardware. On receiving frame start event, it wakes up * kthread_finish_capture thread to wait for finishing frame data * write to the memory. In case of missing frame start event, this * thread returns buffer back to vb with VB2_BUF_STATE_ERROR. * @start_wait: waitqueue for starting frame capture when buffer is available. * @kthread_finish_capture: kthread to finish the buffer capture and return to. * This thread is woken up by kthread_start_capture on receiving * frame start event from the hardware and this thread waits for * MW_ACK_DONE event which indicates completion of writing frame * data to the memory. On receiving MW_ACK_DONE event, buffer is * returned back to vb with VB2_BUF_STATE_DONE and in case of * missing MW_ACK_DONE event, buffer is returned back to vb with * VB2_BUF_STATE_ERROR. * @done_wait: waitqueue for finishing capture data writes to memory. * * @format: active V4L2 pixel format * @fmtinfo: format information corresponding to the active @format * @queue: vb2 buffers queue * @sequence: V4L2 buffers sequence number * * @addr_offset_u: U plane base address, relative to buffer base address (only for planar) * @addr_offset_v: V plane base address, relative to buffer base address (only for planar) * @start_offset: 1st Y byte to write, relative to buffer base address (for H/V flip) * @start_offset_u: 1st U byte to write, relative to buffer base address (for H/V flip) * @start_offset_v: 1st V byte to write, relative to buffer base address (for H/V flip) * * @capture: list of queued buffers for capture * @start_lock: protects the capture queued list * @done: list of capture done queued buffers * @done_lock: protects the capture done queue list * * @portnos: VI channel port numbers * @totalports: total number of ports used for this channel * @numgangports: number of ports combined together as a gang for capture * @of_node: device node of VI channel * * @ctrl_handler: V4L2 control handler of this video channel * @syncpt_timeout_retry: syncpt timeout retry count for the capture * @fmts_bitmap: a bitmap for supported formats matching v4l2 subdev formats * @tpg_fmts_bitmap: a bitmap for supported TPG formats * @pg_mode: test pattern generator mode (disabled/direct/patch) * @notifier: V4L2 asynchronous subdevs notifier * * @hflip: Horizontal flip is enabled * @vflip: Vertical flip is enabled */ struct tegra_vi_channel { struct list_head list; struct video_device video; /* protects the @format and @queue fields */ struct mutex video_lock; struct media_pad pad; struct tegra_vi *vi; struct host1x_syncpt *frame_start_sp[GANG_PORTS_MAX]; struct host1x_syncpt *mw_ack_sp[GANG_PORTS_MAX]; /* protects the cpu syncpoint increment */ spinlock_t sp_incr_lock[GANG_PORTS_MAX]; u32 next_out_sp_idx; struct task_struct *kthread_start_capture; wait_queue_head_t start_wait; struct task_struct *kthread_finish_capture; wait_queue_head_t done_wait; struct v4l2_pix_format format; const struct tegra_video_format *fmtinfo; struct vb2_queue queue; u32 sequence; unsigned int addr_offset_u; unsigned int addr_offset_v; unsigned int start_offset; unsigned int start_offset_u; unsigned int start_offset_v; struct list_head capture; /* protects the capture queued list */ spinlock_t start_lock; struct list_head done; /* protects the capture done queue list */ spinlock_t done_lock; unsigned char portnos[GANG_PORTS_MAX]; u8 totalports; u8 numgangports; struct device_node *of_node; struct v4l2_ctrl_handler ctrl_handler; unsigned int syncpt_timeout_retry; DECLARE_BITMAP(fmts_bitmap, MAX_FORMAT_NUM); DECLARE_BITMAP(tpg_fmts_bitmap, MAX_FORMAT_NUM); enum tegra_vi_pg_mode pg_mode; struct v4l2_async_notifier notifier; bool hflip:1; bool vflip:1; }; /** * struct tegra_channel_buffer - video channel buffer * * @buf: vb2 buffer base object * @queue: buffer list entry in the channel queued buffers list * @chan: channel that uses the buffer * @addr: Tegra IOVA buffer address for VI output * @mw_ack_sp_thresh: MW_ACK_DONE syncpoint threshold corresponding * to the capture buffer. */ struct tegra_channel_buffer { struct vb2_v4l2_buffer buf; struct list_head queue; struct tegra_vi_channel *chan; dma_addr_t addr; u32 mw_ack_sp_thresh[GANG_PORTS_MAX]; }; /* * VI channel input data type enum. * These data type enum value gets programmed into corresponding Tegra VI * channel register bits. */ enum tegra_image_dt { TEGRA_IMAGE_DT_YUV420_8 = 24, TEGRA_IMAGE_DT_YUV420_10, TEGRA_IMAGE_DT_YUV420CSPS_8 = 28, TEGRA_IMAGE_DT_YUV420CSPS_10, TEGRA_IMAGE_DT_YUV422_8, TEGRA_IMAGE_DT_YUV422_10, TEGRA_IMAGE_DT_RGB444, TEGRA_IMAGE_DT_RGB555, TEGRA_IMAGE_DT_RGB565, TEGRA_IMAGE_DT_RGB666, TEGRA_IMAGE_DT_RGB888, TEGRA_IMAGE_DT_RAW6 = 40, TEGRA_IMAGE_DT_RAW7, TEGRA_IMAGE_DT_RAW8, TEGRA_IMAGE_DT_RAW10, TEGRA_IMAGE_DT_RAW12, TEGRA_IMAGE_DT_RAW14, }; /** * struct tegra_video_format - Tegra video format description * * @img_dt: MIPI CSI-2 data type (for CSI-2 only) * @bit_width: format width in bits per component (for CSI/Tegra210 only) * @code: media bus format code * @bpp: bytes per pixel (when stored in memory) * @img_fmt: image format (for CSI/Tegra210 only) * @fourcc: V4L2 pixel format FCC identifier */ struct tegra_video_format { enum tegra_image_dt img_dt; unsigned int bit_width; unsigned int code; unsigned int bpp; u32 img_fmt; u32 fourcc; }; #if defined(CONFIG_ARCH_TEGRA_2x_SOC) extern const struct tegra_vi_soc tegra20_vi_soc; #endif #if defined(CONFIG_ARCH_TEGRA_210_SOC) extern const struct tegra_vi_soc tegra210_vi_soc; #endif struct v4l2_subdev * tegra_channel_get_remote_csi_subdev(struct tegra_vi_channel *chan); struct v4l2_subdev * tegra_channel_get_remote_source_subdev(struct tegra_vi_channel *chan); int tegra_channel_set_stream(struct tegra_vi_channel *chan, bool on); void tegra_channel_release_buffers(struct tegra_vi_channel *chan, enum vb2_buffer_state state); void tegra_channels_cleanup(struct tegra_vi *vi); #endif