Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yunfei Dong | 406 | 56.70% | 29 | 72.50% |
Tiffany Lin | 286 | 39.94% | 3 | 7.50% |
Mingjia Zhang | 7 | 0.98% | 1 | 2.50% |
Alexandre Courbot | 7 | 0.98% | 4 | 10.00% |
Nícolas F. R. A. Prado | 5 | 0.70% | 1 | 2.50% |
Xiaoyong Lu | 4 | 0.56% | 1 | 2.50% |
Chen-Yu Tsai | 1 | 0.14% | 1 | 2.50% |
Total | 716 | 40 |
/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (c) 2023 MediaTek Inc. * Author: Yunfei Dong <yunfei.dong@mediatek.com> */ #ifndef _MTK_VCODEC_DEC_DRV_H_ #define _MTK_VCODEC_DEC_DRV_H_ #include "../common/mtk_vcodec_cmn_drv.h" #include "../common/mtk_vcodec_dbgfs.h" #include "../common/mtk_vcodec_fw_priv.h" #include "../common/mtk_vcodec_util.h" #include "vdec_msg_queue.h" #define MTK_VCODEC_DEC_NAME "mtk-vcodec-dec" #define IS_VDEC_LAT_ARCH(hw_arch) ((hw_arch) >= MTK_VDEC_LAT_SINGLE_CORE) #define IS_VDEC_INNER_RACING(capability) ((capability) & MTK_VCODEC_INNER_RACING) /* * enum mtk_vdec_format_types - Structure used to get supported * format types according to decoder capability */ enum mtk_vdec_format_types { MTK_VDEC_FORMAT_MM21 = 0x20, MTK_VDEC_FORMAT_MT21C = 0x40, MTK_VDEC_FORMAT_H264_SLICE = 0x100, MTK_VDEC_FORMAT_VP8_FRAME = 0x200, MTK_VDEC_FORMAT_VP9_FRAME = 0x400, MTK_VDEC_FORMAT_AV1_FRAME = 0x800, MTK_VDEC_FORMAT_HEVC_FRAME = 0x1000, MTK_VCODEC_INNER_RACING = 0x20000, MTK_VDEC_IS_SUPPORT_10BIT = 0x40000, }; /* * enum mtk_vdec_hw_count - Supported hardware count */ enum mtk_vdec_hw_count { MTK_VDEC_NO_HW = 0, MTK_VDEC_ONE_CORE, MTK_VDEC_ONE_LAT_ONE_CORE, MTK_VDEC_MAX_HW_COUNT, }; /* * enum mtk_vdec_hw_arch - Used to separate different hardware architecture */ enum mtk_vdec_hw_arch { MTK_VDEC_PURE_SINGLE_CORE, MTK_VDEC_LAT_SINGLE_CORE, }; /** * struct vdec_pic_info - picture size information * @pic_w: picture width * @pic_h: picture height * @buf_w: picture buffer width (64 aligned up from pic_w) * @buf_h: picture buffer heiht (64 aligned up from pic_h) * @fb_sz: bitstream size of each plane * E.g. suppose picture size is 176x144, * buffer size will be aligned to 176x160. * @cap_fourcc: fourcc number(may changed when resolution change) * @reserved: align struct to 64-bit in order to adjust 32-bit and 64-bit os. */ struct vdec_pic_info { unsigned int pic_w; unsigned int pic_h; unsigned int buf_w; unsigned int buf_h; unsigned int fb_sz[VIDEO_MAX_PLANES]; unsigned int cap_fourcc; unsigned int reserved; }; /** * struct mtk_vcodec_dec_pdata - compatible data for each IC * @init_vdec_params: init vdec params * @ctrls_setup: init vcodec dec ctrls * @worker: worker to start a decode job * @flush_decoder: function that flushes the decoder * @get_cap_buffer: get capture buffer from capture queue * @cap_to_disp: put capture buffer to disp list for lat and core arch * @vdec_vb2_ops: struct vb2_ops * * @vdec_formats: supported video decoder formats * @num_formats: count of video decoder formats * @default_out_fmt: default output buffer format * @default_cap_fmt: default capture buffer format * * @hw_arch: hardware arch is used to separate pure_sin_core and lat_sin_core * * @is_subdev_supported: whether support parent-node architecture(subdev) * @uses_stateless_api: whether the decoder uses the stateless API with requests */ struct mtk_vcodec_dec_pdata { void (*init_vdec_params)(struct mtk_vcodec_dec_ctx *ctx); int (*ctrls_setup)(struct mtk_vcodec_dec_ctx *ctx); void (*worker)(struct work_struct *work); int (*flush_decoder)(struct mtk_vcodec_dec_ctx *ctx); struct vdec_fb *(*get_cap_buffer)(struct mtk_vcodec_dec_ctx *ctx); void (*cap_to_disp)(struct mtk_vcodec_dec_ctx *ctx, int error, struct media_request *src_buf_req); const struct vb2_ops *vdec_vb2_ops; const struct mtk_video_fmt *vdec_formats; const int *num_formats; const struct mtk_video_fmt *default_out_fmt; const struct mtk_video_fmt *default_cap_fmt; enum mtk_vdec_hw_arch hw_arch; bool is_subdev_supported; bool uses_stateless_api; }; /** * struct mtk_vcodec_dec_ctx - Context (instance) private data. * * @type: type of decoder instance * @dev: pointer to the mtk_vcodec_dec_dev of the device * @list: link to ctx_list of mtk_vcodec_dec_dev * * @fh: struct v4l2_fh * @m2m_ctx: pointer to the v4l2_m2m_ctx of the context * @q_data: store information of input and output queue of the context * @id: index of the context that this structure describes * @state: state of the context * * @dec_if: hooked decoder driver interface * @drv_handle: driver handle for specific decode/encode instance * * @picinfo: store picture info after header parsing * @dpb_size: store dpb count after header parsing * * @int_cond: variable used by the waitqueue * @int_type: type of the last interrupt * @queue: waitqueue that can be used to wait for this context to finish * @irq_status: irq status * * @ctrl_hdl: handler for v4l2 framework * @decode_work: worker for the decoding * @last_decoded_picinfo: pic information get from latest decode * @empty_flush_buf: a fake size-0 capture buffer that indicates flush. Used * for stateful decoder. * @is_flushing: set to true if flushing is in progress. * * @current_codec: current set input codec, in V4L2 pixel format * @capture_fourcc: capture queue type in V4L2 pixel format * * @colorspace: enum v4l2_colorspace; supplemental to pixelformat * @ycbcr_enc: enum v4l2_ycbcr_encoding, Y'CbCr encoding * @quantization: enum v4l2_quantization, colorspace quantization * @xfer_func: enum v4l2_xfer_func, colorspace transfer function * * @decoded_frame_cnt: number of decoded frames * @lock: protect variables accessed by V4L2 threads and worker thread such as * mtk_video_dec_buf. * @hw_id: hardware index used to identify different hardware. * * @msg_queue: msg queue used to store lat buffer information. * @vpu_inst: vpu instance pointer. * * @is_10bit_bitstream: set to true if it's 10bit bitstream */ struct mtk_vcodec_dec_ctx { enum mtk_instance_type type; struct mtk_vcodec_dec_dev *dev; struct list_head list; struct v4l2_fh fh; struct v4l2_m2m_ctx *m2m_ctx; struct mtk_q_data q_data[2]; int id; enum mtk_instance_state state; const struct vdec_common_if *dec_if; void *drv_handle; struct vdec_pic_info picinfo; int dpb_size; int int_cond[MTK_VDEC_HW_MAX]; int int_type[MTK_VDEC_HW_MAX]; wait_queue_head_t queue[MTK_VDEC_HW_MAX]; unsigned int irq_status; struct v4l2_ctrl_handler ctrl_hdl; struct work_struct decode_work; struct vdec_pic_info last_decoded_picinfo; struct v4l2_m2m_buffer empty_flush_buf; bool is_flushing; u32 current_codec; u32 capture_fourcc; enum v4l2_colorspace colorspace; enum v4l2_ycbcr_encoding ycbcr_enc; enum v4l2_quantization quantization; enum v4l2_xfer_func xfer_func; int decoded_frame_cnt; struct mutex lock; int hw_id; struct vdec_msg_queue msg_queue; void *vpu_inst; bool is_10bit_bitstream; }; /** * struct mtk_vcodec_dec_dev - driver data * @v4l2_dev: V4L2 device to register video devices for. * @vfd_dec: Video device for decoder * @mdev_dec: Media device for decoder * * @m2m_dev_dec: m2m device for decoder * @plat_dev: platform device * @ctx_list: list of struct mtk_vcodec_ctx * @curr_ctx: The context that is waiting for codec hardware * * @reg_base: Mapped address of MTK Vcodec registers. * @vdec_pdata: decoder IC-specific data * @vdecsys_regmap: VDEC_SYS register space passed through syscon * * @fw_handler: used to communicate with the firmware. * @id_counter: used to identify current opened instance * * @dec_mutex: decoder hardware lock * @dev_mutex: video_device lock * @decode_workqueue: decode work queue * * @irqlock: protect data access by irq handler and work thread * @dec_irq: decoder irq resource * * @pm: power management control * @dec_capability: used to identify decode capability, ex: 4k * * @core_workqueue: queue used for core hardware decode * * @subdev_dev: subdev hardware device * @subdev_prob_done: check whether all used hw device is prob done * @subdev_bitmap: used to record hardware is ready or not * * @dec_active_cnt: used to mark whether need to record register value * @vdec_racing_info: record register value * @dec_racing_info_mutex: mutex lock used for inner racing mode * @dbgfs: debug log related information */ struct mtk_vcodec_dec_dev { struct v4l2_device v4l2_dev; struct video_device *vfd_dec; struct media_device mdev_dec; struct v4l2_m2m_dev *m2m_dev_dec; struct platform_device *plat_dev; struct list_head ctx_list; struct mtk_vcodec_dec_ctx *curr_ctx; void __iomem *reg_base[NUM_MAX_VCODEC_REG_BASE]; const struct mtk_vcodec_dec_pdata *vdec_pdata; struct regmap *vdecsys_regmap; struct mtk_vcodec_fw *fw_handler; u64 id_counter; /* decoder hardware mutex lock */ struct mutex dec_mutex[MTK_VDEC_HW_MAX]; struct mutex dev_mutex; struct workqueue_struct *decode_workqueue; spinlock_t irqlock; int dec_irq; struct mtk_vcodec_pm pm; unsigned int dec_capability; struct workqueue_struct *core_workqueue; void *subdev_dev[MTK_VDEC_HW_MAX]; int (*subdev_prob_done)(struct mtk_vcodec_dec_dev *vdec_dev); DECLARE_BITMAP(subdev_bitmap, MTK_VDEC_HW_MAX); atomic_t dec_active_cnt; u32 vdec_racing_info[132]; /* Protects access to vdec_racing_info data */ struct mutex dec_racing_info_mutex; struct mtk_vcodec_dbgfs dbgfs; }; static inline struct mtk_vcodec_dec_ctx *fh_to_dec_ctx(struct v4l2_fh *fh) { return container_of(fh, struct mtk_vcodec_dec_ctx, fh); } static inline struct mtk_vcodec_dec_ctx *ctrl_to_dec_ctx(struct v4l2_ctrl *ctrl) { return container_of(ctrl->handler, struct mtk_vcodec_dec_ctx, ctrl_hdl); } /* Wake up context wait_queue */ static inline void wake_up_dec_ctx(struct mtk_vcodec_dec_ctx *ctx, unsigned int reason, unsigned int hw_id) { ctx->int_cond[hw_id] = 1; ctx->int_type[hw_id] = reason; wake_up_interruptible(&ctx->queue[hw_id]); } #define mtk_vdec_err(ctx, fmt, args...) \ mtk_vcodec_err((ctx)->id, (ctx)->dev->plat_dev, fmt, ##args) #define mtk_vdec_debug(ctx, fmt, args...) \ mtk_vcodec_debug((ctx)->id, (ctx)->dev->plat_dev, fmt, ##args) #define mtk_v4l2_vdec_err(ctx, fmt, args...) mtk_v4l2_err((ctx)->dev->plat_dev, fmt, ##args) #define mtk_v4l2_vdec_dbg(level, ctx, fmt, args...) \ mtk_v4l2_debug((ctx)->dev->plat_dev, level, fmt, ##args) #endif /* _MTK_VCODEC_DEC_DRV_H_ */
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