admin/linux
1
0
Fork 0
mirror of https://github.com/torvalds/linux.git synced 2025-12-07 20:06:24 +00:00
Code Issues Packages Projects Releases Wiki Activity

Merge tag 'media/v6.11-1' of git://git.kernel.org/pub/scm/linux/kernel/git/mchehab/linux-media

Browse Source 
Pull media updates from Mauro Carvalho Chehab:

 - New sensor drivers: gc05a2, gc08a3 and imx283

 - New serializer/deserializer drivers: max96714 and max96717

 - New JPEG encoder driver: e5010

 - Support for Raspberry Pi PiSP Backend (BE) ISP driver

 - Old documentation for av7110 driver removed, as a new version was
   added as Documentation/userspace-api/media/dvb/legacy*.rst

 - atompisp: Linux firmwares are now available, so drop firmware-related
   task from TODO and update firmware logic

 - The imx258 driver has gained several improvements

 - wave5 driver has gained support for HEVC decoding

 - em28xx gained support for MyGica UTV3

 - av7110 budget-patch driver removed

 - Lots of other cleanups, improvements and fixes

* tag 'media/v6.11-1' of git://git.kernel.org/pub/scm/linux/kernel/git/mchehab/linux-media: (301 commits)
  media: raspberrypi: Switch to remove_new
  media: uapi: pisp_be_config: Add extra config fields
  media: uapi: pisp_be_config: Re-sort pisp_be_tiles_config
  media: uapi: pisp_common: Capitalize all macros
  media: uapi: pisp_common: Add 32 bpp format test
  media: uapi: pisp_be_config: Drop BIT() from uAPI
  media: stm32: dcmipp: correct error handling in dcmipp_create_subdevs
  media: atomisp: Fix spelling mistakes in sh_css_sp.c
  media: atomisp: Fix spelling mistake in ia_css_debug.c
  media: atomisp: Fix spelling mistake in hmm_bo.c
  media: atomisp: Fix spelling mistake in ia_css_eed1_8.host.c
  media: atomisp: Fix spelling mistake in sh_css_internal.h
  media: atomisp: Fix spelling mistake "pipline" -> "pipeline"
  media: atomisp: Remove unused GPIO related defines and APIs
  media: atomisp: Replace COMPILATION_ERROR_IF() by static_assert()
  media: atomisp: Clean up unused macros from math_support.h
  media: atomisp: csi2-bridge: Add DMI quirk for OV5693 on Xiaomi Mipad2
  media: atomisp: Update TODO
  media: atomisp: Prefix firmware paths with "intel/ipu/"
  media: atomisp: Remove firmware_name module parameter
  ...
This commit is contained in:
Linus Torvalds
2024-07-17 18:30:10 -07:00
parent 0ffb8a4c96 68a72104cb
commit b1bc554e00
405 changed files with 22013 additions and 10240 deletions
Download Patch File Download Diff File Expand all files Collapse all files

968
include/uapi/linux/media/raspberrypi/pisp_be_config.h Normal file
View File

@@ -0,0 +1,968 @@
/* SPDX-License-Identifier: GPL-2.0-only WITH Linux-syscall-note */
/*
* PiSP Back End configuration definitions.
*
* Copyright (C) 2021 - Raspberry Pi Ltd
*
*/
#ifndef _UAPI_PISP_BE_CONFIG_H_
#define _UAPI_PISP_BE_CONFIG_H_
#include <linux/types.h>
#include "pisp_common.h"
/* byte alignment for inputs */
#define PISP_BACK_END_INPUT_ALIGN 4u
/* alignment for compressed inputs */
#define PISP_BACK_END_COMPRESSED_ALIGN 8u
/* minimum required byte alignment for outputs */
#define PISP_BACK_END_OUTPUT_MIN_ALIGN 16u
/* preferred byte alignment for outputs */
#define PISP_BACK_END_OUTPUT_MAX_ALIGN 64u
/* minimum allowed tile width anywhere in the pipeline */
#define PISP_BACK_END_MIN_TILE_WIDTH 16u
/* minimum allowed tile width anywhere in the pipeline */
#define PISP_BACK_END_MIN_TILE_HEIGHT 16u
#define PISP_BACK_END_NUM_OUTPUTS 2
#define PISP_BACK_END_HOG_OUTPUT 1
#define PISP_BACK_END_NUM_TILES 64
enum pisp_be_bayer_enable {
PISP_BE_BAYER_ENABLE_INPUT = 0x000001,
PISP_BE_BAYER_ENABLE_DECOMPRESS = 0x000002,
PISP_BE_BAYER_ENABLE_DPC = 0x000004,
PISP_BE_BAYER_ENABLE_GEQ = 0x000008,
PISP_BE_BAYER_ENABLE_TDN_INPUT = 0x000010,
PISP_BE_BAYER_ENABLE_TDN_DECOMPRESS = 0x000020,
PISP_BE_BAYER_ENABLE_TDN = 0x000040,
PISP_BE_BAYER_ENABLE_TDN_COMPRESS = 0x000080,
PISP_BE_BAYER_ENABLE_TDN_OUTPUT = 0x000100,
PISP_BE_BAYER_ENABLE_SDN = 0x000200,
PISP_BE_BAYER_ENABLE_BLC = 0x000400,
PISP_BE_BAYER_ENABLE_STITCH_INPUT = 0x000800,
PISP_BE_BAYER_ENABLE_STITCH_DECOMPRESS = 0x001000,
PISP_BE_BAYER_ENABLE_STITCH = 0x002000,
PISP_BE_BAYER_ENABLE_STITCH_COMPRESS = 0x004000,
PISP_BE_BAYER_ENABLE_STITCH_OUTPUT = 0x008000,
PISP_BE_BAYER_ENABLE_WBG = 0x010000,
PISP_BE_BAYER_ENABLE_CDN = 0x020000,
PISP_BE_BAYER_ENABLE_LSC = 0x040000,
PISP_BE_BAYER_ENABLE_TONEMAP = 0x080000,
PISP_BE_BAYER_ENABLE_CAC = 0x100000,
PISP_BE_BAYER_ENABLE_DEBIN = 0x200000,
PISP_BE_BAYER_ENABLE_DEMOSAIC = 0x400000,
};
enum pisp_be_rgb_enable {
PISP_BE_RGB_ENABLE_INPUT = 0x000001,
PISP_BE_RGB_ENABLE_CCM = 0x000002,
PISP_BE_RGB_ENABLE_SAT_CONTROL = 0x000004,
PISP_BE_RGB_ENABLE_YCBCR = 0x000008,
PISP_BE_RGB_ENABLE_FALSE_COLOUR = 0x000010,
PISP_BE_RGB_ENABLE_SHARPEN = 0x000020,
/* Preferred colours would occupy 0x000040 */
PISP_BE_RGB_ENABLE_YCBCR_INVERSE = 0x000080,
PISP_BE_RGB_ENABLE_GAMMA = 0x000100,
PISP_BE_RGB_ENABLE_CSC0 = 0x000200,
PISP_BE_RGB_ENABLE_CSC1 = 0x000400,
PISP_BE_RGB_ENABLE_DOWNSCALE0 = 0x001000,
PISP_BE_RGB_ENABLE_DOWNSCALE1 = 0x002000,
PISP_BE_RGB_ENABLE_RESAMPLE0 = 0x008000,
PISP_BE_RGB_ENABLE_RESAMPLE1 = 0x010000,
PISP_BE_RGB_ENABLE_OUTPUT0 = 0x040000,
PISP_BE_RGB_ENABLE_OUTPUT1 = 0x080000,
PISP_BE_RGB_ENABLE_HOG = 0x200000
};
#define PISP_BE_RGB_ENABLE_CSC(i) (PISP_BE_RGB_ENABLE_CSC0 << (i))
#define PISP_BE_RGB_ENABLE_DOWNSCALE(i) (PISP_BE_RGB_ENABLE_DOWNSCALE0 << (i))
#define PISP_BE_RGB_ENABLE_RESAMPLE(i) (PISP_BE_RGB_ENABLE_RESAMPLE0 << (i))
#define PISP_BE_RGB_ENABLE_OUTPUT(i) (PISP_BE_RGB_ENABLE_OUTPUT0 << (i))
/*
* We use the enable flags to show when blocks are "dirty", but we need some
* extra ones too.
*/
enum pisp_be_dirty {
PISP_BE_DIRTY_GLOBAL = 0x0001,
PISP_BE_DIRTY_SH_FC_COMBINE = 0x0002,
PISP_BE_DIRTY_CROP = 0x0004
};
/**
* struct pisp_be_global_config - PiSP global enable bitmaps
* @bayer_enables: Bayer input enable flags
* @rgb_enables: RGB output enable flags
* @bayer_order: Bayer input format ordering
* @pad: Padding bytes
*/
struct pisp_be_global_config {
__u32 bayer_enables;
__u32 rgb_enables;
__u8 bayer_order;
__u8 pad[3];
} __attribute__((packed));
/**
* struct pisp_be_input_buffer_config - PiSP Back End input buffer
* @addr: Input buffer address
*/
struct pisp_be_input_buffer_config {
/* low 32 bits followed by high 32 bits (for each of up to 3 planes) */
__u32 addr[3][2];
} __attribute__((packed));
/**
* struct pisp_be_dpc_config - PiSP Back End DPC config
*
* Defective Pixel Correction configuration
*
* @coeff_level: Coefficient for the darkest neighbouring pixel value
* @coeff_range: Coefficient for the range of pixels for this Bayer channel
* @pad: Padding byte
* @flags: DPC configuration flags
*/
struct pisp_be_dpc_config {
__u8 coeff_level;
__u8 coeff_range;
__u8 pad;
#define PISP_BE_DPC_FLAG_FOLDBACK 1
__u8 flags;
} __attribute__((packed));
/**
* struct pisp_be_geq_config - PiSP Back End GEQ config
*
* Green Equalisation configuration
*
* @offset: Offset value for threshold calculation
* @slope_sharper: Slope/Sharper configuration
* @min: Minimum value the threshold may have
* @max: Maximum value the threshold may have
*/
struct pisp_be_geq_config {
__u16 offset;
#define PISP_BE_GEQ_SHARPER (1U << 15)
#define PISP_BE_GEQ_SLOPE ((1 << 10) - 1)
/* top bit is the "sharper" flag, slope value is bottom 10 bits */
__u16 slope_sharper;
__u16 min;
__u16 max;
} __attribute__((packed));
/**
* struct pisp_be_tdn_input_buffer_config - PiSP Back End TDN input buffer
* @addr: TDN input buffer address
*/
struct pisp_be_tdn_input_buffer_config {
/* low 32 bits followed by high 32 bits */
__u32 addr[2];
} __attribute__((packed));
/**
* struct pisp_be_tdn_config - PiSP Back End TDN config
*
* Temporal Denoise configuration
*
* @black_level: Black level value subtracted from pixels
* @ratio: Multiplier for the LTA input frame
* @noise_constant: Constant offset value used in noise estimation
* @noise_slope: Noise estimation multiplier
* @threshold: Threshold for TDN operations
* @reset: Disable TDN operations
* @pad: Padding byte
*/
struct pisp_be_tdn_config {
__u16 black_level;
__u16 ratio;
__u16 noise_constant;
__u16 noise_slope;
__u16 threshold;
__u8 reset;
__u8 pad;
} __attribute__((packed));
/**
* struct pisp_be_tdn_output_buffer_config - PiSP Back End TDN output buffer
* @addr: TDN output buffer address
*/
struct pisp_be_tdn_output_buffer_config {
/* low 32 bits followed by high 32 bits */
__u32 addr[2];
} __attribute__((packed));
/**
* struct pisp_be_sdn_config - PiSP Back End SDN config
*
* Spatial Denoise configuration
*
* @black_level: Black level subtracted from pixel for noise estimation
* @leakage: Proportion of the original undenoised value to mix in
* denoised output
* @pad: Padding byte
* @noise_constant: Noise constant used for noise estimation
* @noise_slope: Noise slope value used for noise estimation
* @noise_constant2: Second noise constant used for noise estimation
* @noise_slope2: Second slope value used for noise estimation
*/
struct pisp_be_sdn_config {
__u16 black_level;
__u8 leakage;
__u8 pad;
__u16 noise_constant;
__u16 noise_slope;
__u16 noise_constant2;
__u16 noise_slope2;
} __attribute__((packed));
/**
* struct pisp_be_stitch_input_buffer_config - PiSP Back End Stitch input
* @addr: Stitch input buffer address
*/
struct pisp_be_stitch_input_buffer_config {
/* low 32 bits followed by high 32 bits */
__u32 addr[2];
} __attribute__((packed));
#define PISP_BE_STITCH_STREAMING_LONG 0x8000
#define PISP_BE_STITCH_EXPOSURE_RATIO_MASK 0x7fff
/**
* struct pisp_be_stitch_config - PiSP Back End Stitch config
*
* Stitch block configuration
*
* @threshold_lo: Low threshold value
* @threshold_diff_power: Low and high threshold difference
* @pad: Padding bytes
* @exposure_ratio: Multiplier to convert long exposure pixels into
* short exposure pixels
* @motion_threshold_256: Motion threshold above which short exposure
* pixels are used
* @motion_threshold_recip: Reciprocal of motion_threshold_256 value
*/
struct pisp_be_stitch_config {
__u16 threshold_lo;
__u8 threshold_diff_power;
__u8 pad;
/* top bit indicates whether streaming input is the long exposure */
__u16 exposure_ratio;
__u8 motion_threshold_256;
__u8 motion_threshold_recip;
} __attribute__((packed));
/**
* struct pisp_be_stitch_output_buffer_config - PiSP Back End Stitch output
* @addr: Stitch input buffer address
*/
struct pisp_be_stitch_output_buffer_config {
/* low 32 bits followed by high 32 bits */
__u32 addr[2];
} __attribute__((packed));
/**
* struct pisp_be_cdn_config - PiSP Back End CDN config
*
* Colour Denoise configuration
*
* @thresh: Constant for noise estimation
* @iir_strength: Relative strength of the IIR part of the filter
* @g_adjust: Proportion of the change assigned to the G channel
*/
struct pisp_be_cdn_config {
__u16 thresh;
__u8 iir_strength;
__u8 g_adjust;
} __attribute__((packed));
#define PISP_BE_LSC_LOG_GRID_SIZE 5
#define PISP_BE_LSC_GRID_SIZE (1 << PISP_BE_LSC_LOG_GRID_SIZE)
#define PISP_BE_LSC_STEP_PRECISION 18
/**
* struct pisp_be_lsc_config - PiSP Back End LSC config
*
* Lens Shading Correction configuration
*
* @grid_step_x: Reciprocal of cell size width
* @grid_step_y: Reciprocal of cell size height
* @lut_packed: Jointly-coded RGB gains for each LSC grid
*/
struct pisp_be_lsc_config {
/* (1<<18) / grid_cell_width */
__u16 grid_step_x;
/* (1<<18) / grid_cell_height */
__u16 grid_step_y;
/* RGB gains jointly encoded in 32 bits */
#define PISP_BE_LSC_LUT_SIZE (PISP_BE_LSC_GRID_SIZE + 1)
__u32 lut_packed[PISP_BE_LSC_LUT_SIZE][PISP_BE_LSC_LUT_SIZE];
} __attribute__((packed));
/**
* struct pisp_be_lsc_extra - PiSP Back End LSC Extra config
* @offset_x: Horizontal offset into the LSC table of this tile
* @offset_y: Vertical offset into the LSC table of this tile
*/
struct pisp_be_lsc_extra {
__u16 offset_x;
__u16 offset_y;
} __attribute__((packed));
#define PISP_BE_CAC_LOG_GRID_SIZE 3
#define PISP_BE_CAC_GRID_SIZE (1 << PISP_BE_CAC_LOG_GRID_SIZE)
#define PISP_BE_CAC_STEP_PRECISION 20
/**
* struct pisp_be_cac_config - PiSP Back End CAC config
*
* Chromatic Aberration Correction config
*
* @grid_step_x: Reciprocal of cell size width
* @grid_step_y: Reciprocal of cell size height
* @lut: Pixel shift for the CAC grid
*/
struct pisp_be_cac_config {
/* (1<<20) / grid_cell_width */
__u16 grid_step_x;
/* (1<<20) / grid_cell_height */
__u16 grid_step_y;
/* [gridy][gridx][rb][xy] */
#define PISP_BE_CAC_LUT_SIZE (PISP_BE_CAC_GRID_SIZE + 1)
__s8 lut[PISP_BE_CAC_LUT_SIZE][PISP_BE_CAC_LUT_SIZE][2][2];
} __attribute__((packed));
/**
* struct pisp_be_cac_extra - PiSP Back End CAC extra config
* @offset_x: Horizontal offset into the CAC table of this tile
* @offset_y: Horizontal offset into the CAC table of this tile
*/
struct pisp_be_cac_extra {
__u16 offset_x;
__u16 offset_y;
} __attribute__((packed));
#define PISP_BE_DEBIN_NUM_COEFFS 4
/**
* struct pisp_be_debin_config - PiSP Back End Debin config
*
* Debinning configuration
*
* @coeffs: Filter coefficients for debinning
* @h_enable: Horizontal debinning enable
* @v_enable: Vertical debinning enable
* @pad: Padding bytes
*/
struct pisp_be_debin_config {
__s8 coeffs[PISP_BE_DEBIN_NUM_COEFFS];
__s8 h_enable;
__s8 v_enable;
__s8 pad[2];
} __attribute__((packed));
#define PISP_BE_TONEMAP_LUT_SIZE 64
/**
* struct pisp_be_tonemap_config - PiSP Back End Tonemap config
*
* Tonemapping configuration
*
* @detail_constant: Constant value for threshold calculation
* @detail_slope: Slope value for threshold calculation
* @iir_strength: Relative strength of the IIR fiter
* @strength: Strength factor
* @lut: Look-up table for tonemap curve
*/
struct pisp_be_tonemap_config {
__u16 detail_constant;
__u16 detail_slope;
__u16 iir_strength;
__u16 strength;
__u32 lut[PISP_BE_TONEMAP_LUT_SIZE];
} __attribute__((packed));
/**
* struct pisp_be_demosaic_config - PiSP Back End Demosaic config
*
* Demosaic configuration
*
* @sharper: Use other Bayer channels to increase sharpness
* @fc_mode: Built-in false colour suppression mode
* @pad: Padding bytes
*/
struct pisp_be_demosaic_config {
__u8 sharper;
__u8 fc_mode;
__u8 pad[2];
} __attribute__((packed));
/**
* struct pisp_be_ccm_config - PiSP Back End CCM config
*
* Colour Correction Matrix configuration
*
* @coeffs: Matrix coefficients
* @pad: Padding bytes
* @offsets: Offsets triplet
*/
struct pisp_be_ccm_config {
__s16 coeffs[9];
__u8 pad[2];
__s32 offsets[3];
} __attribute__((packed));
/**
* struct pisp_be_sat_control_config - PiSP Back End SAT config
*
* Saturation Control configuration
*
* @shift_r: Left shift for Red colour channel
* @shift_g: Left shift for Green colour channel
* @shift_b: Left shift for Blue colour channel
* @pad: Padding byte
*/
struct pisp_be_sat_control_config {
__u8 shift_r;
__u8 shift_g;
__u8 shift_b;
__u8 pad;
} __attribute__((packed));
/**
* struct pisp_be_false_colour_config - PiSP Back End False Colour config
*
* False Colour configuration
*
* @distance: Distance of neighbouring pixels, either 1 or 2
* @pad: Padding bytes
*/
struct pisp_be_false_colour_config {
__u8 distance;
__u8 pad[3];
} __attribute__((packed));
#define PISP_BE_SHARPEN_SIZE 5
#define PISP_BE_SHARPEN_FUNC_NUM_POINTS 9
/**
* struct pisp_be_sharpen_config - PiSP Back End Sharpening config
*
* Sharpening configuration
*
* @kernel0: Coefficient for filter 0
* @pad0: Padding byte
* @kernel1: Coefficient for filter 1
* @pad1: Padding byte
* @kernel2: Coefficient for filter 2
* @pad2: Padding byte
* @kernel3: Coefficient for filter 3
* @pad3: Padding byte
* @kernel4: Coefficient for filter 4
* @pad4: Padding byte
* @threshold_offset0: Offset for filter 0 response calculation
* @threshold_slope0: Slope multiplier for the filter 0 response calculation
* @scale0: Scale factor for filter 0 response calculation
* @pad5: Padding byte
* @threshold_offset1: Offset for filter 0 response calculation
* @threshold_slope1: Slope multiplier for the filter 0 response calculation
* @scale1: Scale factor for filter 0 response calculation
* @pad6: Padding byte
* @threshold_offset2: Offset for filter 0 response calculation
* @threshold_slope2: Slope multiplier for the filter 0 response calculation
* @scale2: Scale factor for filter 0 response calculation
* @pad7: Padding byte
* @threshold_offset3: Offset for filter 0 response calculation
* @threshold_slope3: Slope multiplier for the filter 0 response calculation
* @scale3: Scale factor for filter 0 response calculation
* @pad8: Padding byte
* @threshold_offset4: Offset for filter 0 response calculation
* @threshold_slope4: Slope multiplier for the filter 0 response calculation
* @scale4: Scale factor for filter 0 response calculation
* @pad9: Padding byte
* @positive_strength: Factor to scale the positive sharpening strength
* @positive_pre_limit: Maximum allowed possible positive sharpening value
* @positive_func: Gain factor applied to positive sharpening response
* @positive_limit: Final gain factor applied to positive sharpening
* @negative_strength: Factor to scale the negative sharpening strength
* @negative_pre_limit: Maximum allowed possible negative sharpening value
* @negative_func: Gain factor applied to negative sharpening response
* @negative_limit: Final gain factor applied to negative sharpening
* @enables: Filter enable mask
* @white: White output pixel filter mask
* @black: Black output pixel filter mask
* @grey: Grey output pixel filter mask
*/
struct pisp_be_sharpen_config {
__s8 kernel0[PISP_BE_SHARPEN_SIZE * PISP_BE_SHARPEN_SIZE];
__s8 pad0[3];
__s8 kernel1[PISP_BE_SHARPEN_SIZE * PISP_BE_SHARPEN_SIZE];
__s8 pad1[3];
__s8 kernel2[PISP_BE_SHARPEN_SIZE * PISP_BE_SHARPEN_SIZE];
__s8 pad2[3];
__s8 kernel3[PISP_BE_SHARPEN_SIZE * PISP_BE_SHARPEN_SIZE];
__s8 pad3[3];
__s8 kernel4[PISP_BE_SHARPEN_SIZE * PISP_BE_SHARPEN_SIZE];
__s8 pad4[3];
__u16 threshold_offset0;
__u16 threshold_slope0;
__u16 scale0;
__u16 pad5;
__u16 threshold_offset1;
__u16 threshold_slope1;
__u16 scale1;
__u16 pad6;
__u16 threshold_offset2;
__u16 threshold_slope2;
__u16 scale2;
__u16 pad7;
__u16 threshold_offset3;
__u16 threshold_slope3;
__u16 scale3;
__u16 pad8;
__u16 threshold_offset4;
__u16 threshold_slope4;
__u16 scale4;
__u16 pad9;
__u16 positive_strength;
__u16 positive_pre_limit;
__u16 positive_func[PISP_BE_SHARPEN_FUNC_NUM_POINTS];
__u16 positive_limit;
__u16 negative_strength;
__u16 negative_pre_limit;
__u16 negative_func[PISP_BE_SHARPEN_FUNC_NUM_POINTS];
__u16 negative_limit;
__u8 enables;
__u8 white;
__u8 black;
__u8 grey;
} __attribute__((packed));
/**
* struct pisp_be_sh_fc_combine_config - PiSP Back End Sharpening and
* False Colour config
*
* Sharpening and False Colour configuration
*
* @y_factor: Control amount of desaturation of pixels being darkened
* @c1_factor: Control amount of brightening of a pixel for the Cb
* channel
* @c2_factor: Control amount of brightening of a pixel for the Cr
* channel
* @pad: Padding byte
*/
struct pisp_be_sh_fc_combine_config {
__u8 y_factor;
__u8 c1_factor;
__u8 c2_factor;
__u8 pad;
} __attribute__((packed));
#define PISP_BE_GAMMA_LUT_SIZE 64
/**
* struct pisp_be_gamma_config - PiSP Back End Gamma configuration
* @lut: Gamma curve look-up table
*/
struct pisp_be_gamma_config {
__u32 lut[PISP_BE_GAMMA_LUT_SIZE];
} __attribute__((packed));
/**
* struct pisp_be_crop_config - PiSP Back End Crop config
*
* Crop configuration
*
* @offset_x: Number of pixels cropped from the left of the tile
* @offset_y: Number of pixels cropped from the top of the tile
* @width: Width of the cropped tile output
* @height: Height of the cropped tile output
*/
struct pisp_be_crop_config {
__u16 offset_x, offset_y;
__u16 width, height;
} __attribute__((packed));
#define PISP_BE_RESAMPLE_FILTER_SIZE 96
/**
* struct pisp_be_resample_config - PiSP Back End Resampling config
*
* Resample configuration
*
* @scale_factor_h: Horizontal scale factor
* @scale_factor_v: Vertical scale factor
* @coef: Resample coefficients
*/
struct pisp_be_resample_config {
__u16 scale_factor_h, scale_factor_v;
__s16 coef[PISP_BE_RESAMPLE_FILTER_SIZE];
} __attribute__((packed));
/**
* struct pisp_be_resample_extra - PiSP Back End Resample config
*
* Resample configuration
*
* @scaled_width: Width in pixels of the scaled output
* @scaled_height: Height in pixels of the scaled output
* @initial_phase_h: Initial horizontal phase
* @initial_phase_v: Initial vertical phase
*/
struct pisp_be_resample_extra {
__u16 scaled_width;
__u16 scaled_height;
__s16 initial_phase_h[3];
__s16 initial_phase_v[3];
} __attribute__((packed));
/**
* struct pisp_be_downscale_config - PiSP Back End Downscale config
*
* Downscale configuration
*
* @scale_factor_h: Horizontal scale factor
* @scale_factor_v: Vertical scale factor
* @scale_recip_h: Horizontal reciprocal factor
* @scale_recip_v: Vertical reciprocal factor
*/
struct pisp_be_downscale_config {
__u16 scale_factor_h;
__u16 scale_factor_v;
__u16 scale_recip_h;
__u16 scale_recip_v;
} __attribute__((packed));
/**
* struct pisp_be_downscale_extra - PiSP Back End Downscale Extra config
* @scaled_width: Scaled image width
* @scaled_height: Scaled image height
*/
struct pisp_be_downscale_extra {
__u16 scaled_width;
__u16 scaled_height;
} __attribute__((packed));
/**
* struct pisp_be_hog_config - PiSP Back End HOG config
*
* Histogram of Oriented Gradients configuration
*
* @compute_signed: Set 0 for unsigned gradients, 1 for signed
* @channel_mix: Channels proportions to use
* @stride: Stride in bytes between blocks directly below
*/
struct pisp_be_hog_config {
__u8 compute_signed;
__u8 channel_mix[3];
__u32 stride;
} __attribute__((packed));
struct pisp_be_axi_config {
__u8 r_qos; /* Read QoS */
__u8 r_cache_prot; /* Read { prot[2:0], cache[3:0] } */
__u8 w_qos; /* Write QoS */
__u8 w_cache_prot; /* Write { prot[2:0], cache[3:0] } */
} __attribute__((packed));
/**
* enum pisp_be_transform - PiSP Back End Transform flags
* @PISP_BE_TRANSFORM_NONE: No transform
* @PISP_BE_TRANSFORM_HFLIP: Horizontal flip
* @PISP_BE_TRANSFORM_VFLIP: Vertical flip
* @PISP_BE_TRANSFORM_ROT180: 180 degress rotation
*/
enum pisp_be_transform {
PISP_BE_TRANSFORM_NONE = 0x0,
PISP_BE_TRANSFORM_HFLIP = 0x1,
PISP_BE_TRANSFORM_VFLIP = 0x2,
PISP_BE_TRANSFORM_ROT180 =
(PISP_BE_TRANSFORM_HFLIP | PISP_BE_TRANSFORM_VFLIP)
};
struct pisp_be_output_format_config {
struct pisp_image_format_config image;
__u8 transform;
__u8 pad[3];
__u16 lo;
__u16 hi;
__u16 lo2;
__u16 hi2;
} __attribute__((packed));
/**
* struct pisp_be_output_buffer_config - PiSP Back End Output buffer
* @addr: Output buffer address
*/
struct pisp_be_output_buffer_config {
/* low 32 bits followed by high 32 bits (for each of 3 planes) */
__u32 addr[3][2];
} __attribute__((packed));
/**
* struct pisp_be_hog_buffer_config - PiSP Back End HOG buffer
* @addr: HOG buffer address
*/
struct pisp_be_hog_buffer_config {
/* low 32 bits followed by high 32 bits */
__u32 addr[2];
} __attribute__((packed));
/**
* struct pisp_be_config - RaspberryPi PiSP Back End Processing configuration
*
* @input_buffer: Input buffer addresses
* @tdn_input_buffer: TDN input buffer addresses
* @stitch_input_buffer: Stitch input buffer addresses
* @tdn_output_buffer: TDN output buffer addresses
* @stitch_output_buffer: Stitch output buffer addresses
* @output_buffer: Output buffers addresses
* @hog_buffer: HOG buffer addresses
* @global: Global PiSP configuration
* @input_format: Input image format
* @decompress: Decompress configuration
* @dpc: Defective Pixel Correction configuration
* @geq: Green Equalisation configuration
* @tdn_input_format: Temporal Denoise input format
* @tdn_decompress: Temporal Denoise decompress configuration
* @tdn: Temporal Denoise configuration
* @tdn_compress: Temporal Denoise compress configuration
* @tdn_output_format: Temporal Denoise output format
* @sdn: Spatial Denoise configuration
* @blc: Black Level Correction configuration
* @stitch_compress: Stitch compress configuration
* @stitch_output_format: Stitch output format
* @stitch_input_format: Stitch input format
* @stitch_decompress: Stitch decompress configuration
* @stitch: Stitch configuration
* @lsc: Lens Shading Correction configuration
* @wbg: White Balance Gain configuration
* @cdn: Colour Denoise configuration
* @cac: Colour Aberration Correction configuration
* @debin: Debinning configuration
* @tonemap: Tonemapping configuration
* @demosaic: Demosaicing configuration
* @ccm: Colour Correction Matrix configuration
* @sat_control: Saturation Control configuration
* @ycbcr: YCbCr colour correction configuration
* @sharpen: Sharpening configuration
* @false_colour: False colour correction
* @sh_fc_combine: Sharpening and False Colour correction
* @ycbcr_inverse: Inverse YCbCr colour correction
* @gamma: Gamma curve configuration
* @csc: Color Space Conversion configuration
* @downscale: Downscale configuration
* @resample: Resampling configuration
* @output_format: Output format configuration
* @hog: HOG configuration
* @axi: AXI bus configuration
* @lsc_extra: LSC extra info
* @cac_extra: CAC extra info
* @downscale_extra: Downscaler extra info
* @resample_extra: Resample extra info
* @crop: Crop configuration
* @hog_format: HOG format info
* @dirty_flags_bayer: Bayer enable dirty flags
* (:c:type:`pisp_be_bayer_enable`)
* @dirty_flags_rgb: RGB enable dirty flags
* (:c:type:`pisp_be_rgb_enable`)
* @dirty_flags_extra: Extra dirty flags
*/
struct pisp_be_config {
/* I/O configuration: */
struct pisp_be_input_buffer_config input_buffer;
struct pisp_be_tdn_input_buffer_config tdn_input_buffer;
struct pisp_be_stitch_input_buffer_config stitch_input_buffer;
struct pisp_be_tdn_output_buffer_config tdn_output_buffer;
struct pisp_be_stitch_output_buffer_config stitch_output_buffer;
struct pisp_be_output_buffer_config
output_buffer[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_hog_buffer_config hog_buffer;
/* Processing configuration: */
struct pisp_be_global_config global;
struct pisp_image_format_config input_format;
struct pisp_decompress_config decompress;
struct pisp_be_dpc_config dpc;
struct pisp_be_geq_config geq;
struct pisp_image_format_config tdn_input_format;
struct pisp_decompress_config tdn_decompress;
struct pisp_be_tdn_config tdn;
struct pisp_compress_config tdn_compress;
struct pisp_image_format_config tdn_output_format;
struct pisp_be_sdn_config sdn;
struct pisp_bla_config blc;
struct pisp_compress_config stitch_compress;
struct pisp_image_format_config stitch_output_format;
struct pisp_image_format_config stitch_input_format;
struct pisp_decompress_config stitch_decompress;
struct pisp_be_stitch_config stitch;
struct pisp_be_lsc_config lsc;
struct pisp_wbg_config wbg;
struct pisp_be_cdn_config cdn;
struct pisp_be_cac_config cac;
struct pisp_be_debin_config debin;
struct pisp_be_tonemap_config tonemap;
struct pisp_be_demosaic_config demosaic;
struct pisp_be_ccm_config ccm;
struct pisp_be_sat_control_config sat_control;
struct pisp_be_ccm_config ycbcr;
struct pisp_be_sharpen_config sharpen;
struct pisp_be_false_colour_config false_colour;
struct pisp_be_sh_fc_combine_config sh_fc_combine;
struct pisp_be_ccm_config ycbcr_inverse;
struct pisp_be_gamma_config gamma;
struct pisp_be_ccm_config csc[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_downscale_config downscale[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_resample_config resample[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_output_format_config
output_format[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_hog_config hog;
struct pisp_be_axi_config axi;
/* Non-register fields: */
struct pisp_be_lsc_extra lsc_extra;
struct pisp_be_cac_extra cac_extra;
struct pisp_be_downscale_extra
downscale_extra[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_resample_extra resample_extra[PISP_BACK_END_NUM_OUTPUTS];
struct pisp_be_crop_config crop;
struct pisp_image_format_config hog_format;
__u32 dirty_flags_bayer; /* these use pisp_be_bayer_enable */
__u32 dirty_flags_rgb; /* use pisp_be_rgb_enable */
__u32 dirty_flags_extra; /* these use pisp_be_dirty_t */
} __attribute__((packed));
/**
* enum pisp_tile_edge - PiSP Back End Tile position
* @PISP_LEFT_EDGE: Left edge tile
* @PISP_RIGHT_EDGE: Right edge tile
* @PISP_TOP_EDGE: Top edge tile
* @PISP_BOTTOM_EDGE: Bottom edge tile
*/
enum pisp_tile_edge {
PISP_LEFT_EDGE = (1 << 0),
PISP_RIGHT_EDGE = (1 << 1),
PISP_TOP_EDGE = (1 << 2),
PISP_BOTTOM_EDGE = (1 << 3)
};
/**
* struct pisp_tile - Raspberry Pi PiSP Back End tile configuration
*
* Tile parameters: each set of tile parameters is a 160-bytes block of data
* which contains the tile processing parameters.
*
* @edge: Edge tile flag
* @pad0: Padding bytes
* @input_addr_offset: Top-left pixel offset, in bytes
* @input_addr_offset2: Top-left pixel offset, in bytes for the second/
* third image planes
* @input_offset_x: Horizontal offset in pixels of this tile in the
* input image
* @input_offset_y: Vertical offset in pixels of this tile in the
* input image
* @input_width: Width in pixels of this tile
* @input_height: Height in pixels of the this tile
* @tdn_input_addr_offset: TDN input image offset, in bytes
* @tdn_output_addr_offset: TDN output image offset, in bytes
* @stitch_input_addr_offset: Stitch input image offset, in bytes
* @stitch_output_addr_offset: Stitch output image offset, in bytes
* @lsc_grid_offset_x: Horizontal offset in the LSC table for this tile
* @lsc_grid_offset_y: Vertical offset in the LSC table for this tile
* @cac_grid_offset_x: Horizontal offset in the CAC table for this tile
* @cac_grid_offset_y: Horizontal offset in the CAC table for this tile
* @crop_x_start: Number of pixels cropped from the left of the
* tile
* @crop_x_end: Number of pixels cropped from the right of the
* tile
* @crop_y_start: Number of pixels cropped from the top of the
* tile
* @crop_y_end: Number of pixels cropped from the bottom of the
* tile
* @downscale_phase_x: Initial horizontal phase in pixels
* @downscale_phase_y: Initial vertical phase in pixels
* @resample_in_width: Width in pixels of the tile entering the
* Resample block
* @resample_in_height: Height in pixels of the tile entering the
* Resample block
* @resample_phase_x: Initial horizontal phase for the Resample block
* @resample_phase_y: Initial vertical phase for the Resample block
* @output_offset_x: Horizontal offset in pixels where the tile will
* be written into the output image
* @output_offset_y: Vertical offset in pixels where the tile will be
* written into the output image
* @output_width: Width in pixels in the output image of this tile
* @output_height: Height in pixels in the output image of this tile
* @output_addr_offset: Offset in bytes into the output buffer
* @output_addr_offset2: Offset in bytes into the output buffer for the
* second and third plane
* @output_hog_addr_offset: Offset in bytes into the HOG buffer where
* results of this tile are to be written
*/
struct pisp_tile {
__u8 edge; /* enum pisp_tile_edge */
__u8 pad0[3];
/* 4 bytes */
__u32 input_addr_offset;
__u32 input_addr_offset2;
__u16 input_offset_x;
__u16 input_offset_y;
__u16 input_width;
__u16 input_height;
/* 20 bytes */
__u32 tdn_input_addr_offset;
__u32 tdn_output_addr_offset;
__u32 stitch_input_addr_offset;
__u32 stitch_output_addr_offset;
/* 36 bytes */
__u32 lsc_grid_offset_x;
__u32 lsc_grid_offset_y;
/* 44 bytes */
__u32 cac_grid_offset_x;
__u32 cac_grid_offset_y;
/* 52 bytes */
__u16 crop_x_start[PISP_BACK_END_NUM_OUTPUTS];
__u16 crop_x_end[PISP_BACK_END_NUM_OUTPUTS];
__u16 crop_y_start[PISP_BACK_END_NUM_OUTPUTS];
__u16 crop_y_end[PISP_BACK_END_NUM_OUTPUTS];
/* 68 bytes */
/* Ordering is planes then branches */
__u16 downscale_phase_x[3 * PISP_BACK_END_NUM_OUTPUTS];
__u16 downscale_phase_y[3 * PISP_BACK_END_NUM_OUTPUTS];
/* 92 bytes */
__u16 resample_in_width[PISP_BACK_END_NUM_OUTPUTS];
__u16 resample_in_height[PISP_BACK_END_NUM_OUTPUTS];
/* 100 bytes */
/* Ordering is planes then branches */
__u16 resample_phase_x[3 * PISP_BACK_END_NUM_OUTPUTS];
__u16 resample_phase_y[3 * PISP_BACK_END_NUM_OUTPUTS];
/* 124 bytes */
__u16 output_offset_x[PISP_BACK_END_NUM_OUTPUTS];
__u16 output_offset_y[PISP_BACK_END_NUM_OUTPUTS];
__u16 output_width[PISP_BACK_END_NUM_OUTPUTS];
__u16 output_height[PISP_BACK_END_NUM_OUTPUTS];
/* 140 bytes */
__u32 output_addr_offset[PISP_BACK_END_NUM_OUTPUTS];
__u32 output_addr_offset2[PISP_BACK_END_NUM_OUTPUTS];
/* 156 bytes */
__u32 output_hog_addr_offset;
/* 160 bytes */
} __attribute__((packed));
/**
* struct pisp_be_tiles_config - Raspberry Pi PiSP Back End configuration
* @tiles: Tile descriptors
* @num_tiles: Number of tiles
* @config: PiSP Back End configuration
*/
struct pisp_be_tiles_config {
struct pisp_be_config config;
struct pisp_tile tiles[PISP_BACK_END_NUM_TILES];
__u32 num_tiles;
} __attribute__((packed));
#endif /* _UAPI_PISP_BE_CONFIG_H_ */

202
include/uapi/linux/media/raspberrypi/pisp_common.h Normal file
View File

@@ -0,0 +1,202 @@
/* SPDX-License-Identifier: GPL-2.0-only WITH Linux-syscall-note */
/*
* RP1 PiSP common definitions.
*
* Copyright (C) 2021 - Raspberry Pi Ltd.
*
*/
#ifndef _UAPI_PISP_COMMON_H_
#define _UAPI_PISP_COMMON_H_
#include <linux/types.h>
struct pisp_image_format_config {
/* size in pixels */
__u16 width;
__u16 height;
/* must match struct pisp_image_format below */
__u32 format;
__s32 stride;
/* some planar image formats will need a second stride */
__s32 stride2;
} __attribute__((packed));
enum pisp_bayer_order {
/*
* Note how bayer_order&1 tells you if G is on the even pixels of the
* checkerboard or not, and bayer_order&2 tells you if R is on the even
* rows or is swapped with B. Note that if the top (of the 8) bits is
* set, this denotes a monochrome or greyscale image, and the lower bits
* should all be ignored.
*/
PISP_BAYER_ORDER_RGGB = 0,
PISP_BAYER_ORDER_GBRG = 1,
PISP_BAYER_ORDER_BGGR = 2,
PISP_BAYER_ORDER_GRBG = 3,
PISP_BAYER_ORDER_GREYSCALE = 128
};
enum pisp_image_format {
/*
* Precise values are mostly tbd. Generally these will be portmanteau
* values comprising bit fields and flags. This format must be shared
* throughout the PiSP.
*/
PISP_IMAGE_FORMAT_BPS_8 = 0x00000000,
PISP_IMAGE_FORMAT_BPS_10 = 0x00000001,
PISP_IMAGE_FORMAT_BPS_12 = 0x00000002,
PISP_IMAGE_FORMAT_BPS_16 = 0x00000003,
PISP_IMAGE_FORMAT_BPS_MASK = 0x00000003,
PISP_IMAGE_FORMAT_PLANARITY_INTERLEAVED = 0x00000000,
PISP_IMAGE_FORMAT_PLANARITY_SEMI_PLANAR = 0x00000010,
PISP_IMAGE_FORMAT_PLANARITY_PLANAR = 0x00000020,
PISP_IMAGE_FORMAT_PLANARITY_MASK = 0x00000030,
PISP_IMAGE_FORMAT_SAMPLING_444 = 0x00000000,
PISP_IMAGE_FORMAT_SAMPLING_422 = 0x00000100,
PISP_IMAGE_FORMAT_SAMPLING_420 = 0x00000200,
PISP_IMAGE_FORMAT_SAMPLING_MASK = 0x00000300,
PISP_IMAGE_FORMAT_ORDER_NORMAL = 0x00000000,
PISP_IMAGE_FORMAT_ORDER_SWAPPED = 0x00001000,
PISP_IMAGE_FORMAT_SHIFT_0 = 0x00000000,
PISP_IMAGE_FORMAT_SHIFT_1 = 0x00010000,
PISP_IMAGE_FORMAT_SHIFT_2 = 0x00020000,
PISP_IMAGE_FORMAT_SHIFT_3 = 0x00030000,
PISP_IMAGE_FORMAT_SHIFT_4 = 0x00040000,
PISP_IMAGE_FORMAT_SHIFT_5 = 0x00050000,
PISP_IMAGE_FORMAT_SHIFT_6 = 0x00060000,
PISP_IMAGE_FORMAT_SHIFT_7 = 0x00070000,
PISP_IMAGE_FORMAT_SHIFT_8 = 0x00080000,
PISP_IMAGE_FORMAT_SHIFT_MASK = 0x000f0000,
PISP_IMAGE_FORMAT_BPP_32 = 0x00100000,
PISP_IMAGE_FORMAT_UNCOMPRESSED = 0x00000000,
PISP_IMAGE_FORMAT_COMPRESSION_MODE_1 = 0x01000000,
PISP_IMAGE_FORMAT_COMPRESSION_MODE_2 = 0x02000000,
PISP_IMAGE_FORMAT_COMPRESSION_MODE_3 = 0x03000000,
PISP_IMAGE_FORMAT_COMPRESSION_MASK = 0x03000000,
PISP_IMAGE_FORMAT_HOG_SIGNED = 0x04000000,
PISP_IMAGE_FORMAT_HOG_UNSIGNED = 0x08000000,
PISP_IMAGE_FORMAT_INTEGRAL_IMAGE = 0x10000000,
PISP_IMAGE_FORMAT_WALLPAPER_ROLL = 0x20000000,
PISP_IMAGE_FORMAT_THREE_CHANNEL = 0x40000000,
/* Lastly a few specific instantiations of the above. */
PISP_IMAGE_FORMAT_SINGLE_16 = PISP_IMAGE_FORMAT_BPS_16,
PISP_IMAGE_FORMAT_THREE_16 = PISP_IMAGE_FORMAT_BPS_16 |
PISP_IMAGE_FORMAT_THREE_CHANNEL
};
#define PISP_IMAGE_FORMAT_BPS_8(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) == PISP_IMAGE_FORMAT_BPS_8)
#define PISP_IMAGE_FORMAT_BPS_10(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) == PISP_IMAGE_FORMAT_BPS_10)
#define PISP_IMAGE_FORMAT_BPS_12(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) == PISP_IMAGE_FORMAT_BPS_12)
#define PISP_IMAGE_FORMAT_BPS_16(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) == PISP_IMAGE_FORMAT_BPS_16)
#define PISP_IMAGE_FORMAT_BPS(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) ? \
8 + (2 << (((fmt) & PISP_IMAGE_FORMAT_BPS_MASK) - 1)) : 8)
#define PISP_IMAGE_FORMAT_SHIFT(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_SHIFT_MASK) / PISP_IMAGE_FORMAT_SHIFT_1)
#define PISP_IMAGE_FORMAT_THREE_CHANNEL(fmt) \
((fmt) & PISP_IMAGE_FORMAT_THREE_CHANNEL)
#define PISP_IMAGE_FORMAT_SINGLE_CHANNEL(fmt) \
(!((fmt) & PISP_IMAGE_FORMAT_THREE_CHANNEL))
#define PISP_IMAGE_FORMAT_COMPRESSED(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_COMPRESSION_MASK) != \
PISP_IMAGE_FORMAT_UNCOMPRESSED)
#define PISP_IMAGE_FORMAT_SAMPLING_444(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_SAMPLING_MASK) == \
PISP_IMAGE_FORMAT_SAMPLING_444)
#define PISP_IMAGE_FORMAT_SAMPLING_422(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_SAMPLING_MASK) == \
PISP_IMAGE_FORMAT_SAMPLING_422)
#define PISP_IMAGE_FORMAT_SAMPLING_420(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_SAMPLING_MASK) == \
PISP_IMAGE_FORMAT_SAMPLING_420)
#define PISP_IMAGE_FORMAT_ORDER_NORMAL(fmt) \
(!((fmt) & PISP_IMAGE_FORMAT_ORDER_SWAPPED))
#define PISP_IMAGE_FORMAT_ORDER_SWAPPED(fmt) \
((fmt) & PISP_IMAGE_FORMAT_ORDER_SWAPPED)
#define PISP_IMAGE_FORMAT_INTERLEAVED(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_PLANARITY_MASK) == \
PISP_IMAGE_FORMAT_PLANARITY_INTERLEAVED)
#define PISP_IMAGE_FORMAT_SEMIPLANAR(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_PLANARITY_MASK) == \
PISP_IMAGE_FORMAT_PLANARITY_SEMI_PLANAR)
#define PISP_IMAGE_FORMAT_PLANAR(fmt) \
(((fmt) & PISP_IMAGE_FORMAT_PLANARITY_MASK) == \
PISP_IMAGE_FORMAT_PLANARITY_PLANAR)
#define PISP_IMAGE_FORMAT_WALLPAPER(fmt) \
((fmt) & PISP_IMAGE_FORMAT_WALLPAPER_ROLL)
#define PISP_IMAGE_FORMAT_BPP_32(fmt) ((fmt) & PISP_IMAGE_FORMAT_BPP_32)
#define PISP_IMAGE_FORMAT_HOG(fmt) \
((fmt) & \
(PISP_IMAGE_FORMAT_HOG_SIGNED | PISP_IMAGE_FORMAT_HOG_UNSIGNED))
#define PISP_WALLPAPER_WIDTH 128 /* in bytes */
struct pisp_bla_config {
__u16 black_level_r;
__u16 black_level_gr;
__u16 black_level_gb;
__u16 black_level_b;
__u16 output_black_level;
__u8 pad[2];
} __attribute__((packed));
struct pisp_wbg_config {
__u16 gain_r;
__u16 gain_g;
__u16 gain_b;
__u8 pad[2];
} __attribute__((packed));
struct pisp_compress_config {
/* value subtracted from incoming data */
__u16 offset;
__u8 pad;
/* 1 => Companding; 2 => Delta (recommended); 3 => Combined (for HDR) */
__u8 mode;
} __attribute__((packed));
struct pisp_decompress_config {
/* value added to reconstructed data */
__u16 offset;
__u8 pad;
/* 1 => Companding; 2 => Delta (recommended); 3 => Combined (for HDR) */
__u8 mode;
} __attribute__((packed));
enum pisp_axi_flags {
/*
* round down bursts to end at a 32-byte boundary, to align following
* bursts
*/
PISP_AXI_FLAG_ALIGN = 128,
/* for FE writer: force WSTRB high, to pad output to 16-byte boundary */
PISP_AXI_FLAG_PAD = 64,
/* for FE writer: Use Output FIFO level to trigger "panic" */
PISP_AXI_FLAG_PANIC = 32,
};
struct pisp_axi_config {
/*
* burst length minus one, which must be in the range 0:15; OR'd with
* flags
*/
__u8 maxlen_flags;
/* { prot[2:0], cache[3:0] } fields, echoed on AXI bus */
__u8 cache_prot;
/* QoS field(s) (4x4 bits for FE writer; 4 bits for other masters) */
__u16 qos;
} __attribute__((packed));
#endif /* _UAPI_PISP_COMMON_H_ */

2
include/uapi/linux/v4l2-controls.h
View File

@@ -898,6 +898,8 @@ enum v4l2_mpeg_video_av1_level {
V4L2_MPEG_VIDEO_AV1_LEVEL_7_3 = 23
};
#define V4L2_CID_MPEG_VIDEO_AVERAGE_QP (V4L2_CID_CODEC_BASE + 657)
/* MPEG-class control IDs specific to the CX2341x driver as defined by V4L2 */
#define V4L2_CID_CODEC_CX2341X_BASE (V4L2_CTRL_CLASS_CODEC | 0x1000)
#define V4L2_CID_MPEG_CX2341X_VIDEO_SPATIAL_FILTER_MODE (V4L2_CID_CODEC_CX2341X_BASE+0)

17
include/uapi/linux/videodev2.h
View File

@@ -582,6 +582,8 @@ struct v4l2_pix_format {
/* RGB formats (6 or 8 bytes per pixel) */
#define V4L2_PIX_FMT_BGR48_12 v4l2_fourcc('B', '3', '1', '2') /* 48 BGR 12-bit per component */
#define V4L2_PIX_FMT_BGR48 v4l2_fourcc('B', 'G', 'R', '6') /* 48 BGR 16-bit per component */
#define V4L2_PIX_FMT_RGB48 v4l2_fourcc('R', 'G', 'B', '6') /* 48 RGB 16-bit per component */
#define V4L2_PIX_FMT_ABGR64_12 v4l2_fourcc('B', '4', '1', '2') /* 64 BGRA 12-bit per component */
/* Grey formats */
@@ -814,6 +816,18 @@ struct v4l2_pix_format {
#define V4L2_PIX_FMT_IPU3_SGRBG10 v4l2_fourcc('i', 'p', '3', 'G') /* IPU3 packed 10-bit GRBG bayer */
#define V4L2_PIX_FMT_IPU3_SRGGB10 v4l2_fourcc('i', 'p', '3', 'r') /* IPU3 packed 10-bit RGGB bayer */
/* Raspberry Pi PiSP compressed formats. */
#define V4L2_PIX_FMT_PISP_COMP1_RGGB v4l2_fourcc('P', 'C', '1', 'R') /* PiSP 8-bit mode 1 compressed RGGB bayer */
#define V4L2_PIX_FMT_PISP_COMP1_GRBG v4l2_fourcc('P', 'C', '1', 'G') /* PiSP 8-bit mode 1 compressed GRBG bayer */
#define V4L2_PIX_FMT_PISP_COMP1_GBRG v4l2_fourcc('P', 'C', '1', 'g') /* PiSP 8-bit mode 1 compressed GBRG bayer */
#define V4L2_PIX_FMT_PISP_COMP1_BGGR v4l2_fourcc('P', 'C', '1', 'B') /* PiSP 8-bit mode 1 compressed BGGR bayer */
#define V4L2_PIX_FMT_PISP_COMP1_MONO v4l2_fourcc('P', 'C', '1', 'M') /* PiSP 8-bit mode 1 compressed monochrome */
#define V4L2_PIX_FMT_PISP_COMP2_RGGB v4l2_fourcc('P', 'C', '2', 'R') /* PiSP 8-bit mode 2 compressed RGGB bayer */
#define V4L2_PIX_FMT_PISP_COMP2_GRBG v4l2_fourcc('P', 'C', '2', 'G') /* PiSP 8-bit mode 2 compressed GRBG bayer */
#define V4L2_PIX_FMT_PISP_COMP2_GBRG v4l2_fourcc('P', 'C', '2', 'g') /* PiSP 8-bit mode 2 compressed GBRG bayer */
#define V4L2_PIX_FMT_PISP_COMP2_BGGR v4l2_fourcc('P', 'C', '2', 'B') /* PiSP 8-bit mode 2 compressed BGGR bayer */
#define V4L2_PIX_FMT_PISP_COMP2_MONO v4l2_fourcc('P', 'C', '2', 'M') /* PiSP 8-bit mode 2 compressed monochrome */
/* SDR formats - used only for Software Defined Radio devices */
#define V4L2_SDR_FMT_CU8 v4l2_fourcc('C', 'U', '0', '8') /* IQ u8 */
#define V4L2_SDR_FMT_CU16LE v4l2_fourcc('C', 'U', '1', '6') /* IQ u16le */
@@ -841,6 +855,9 @@ struct v4l2_pix_format {
#define V4L2_META_FMT_RK_ISP1_PARAMS v4l2_fourcc('R', 'K', '1', 'P') /* Rockchip ISP1 3A Parameters */
#define V4L2_META_FMT_RK_ISP1_STAT_3A v4l2_fourcc('R', 'K', '1', 'S') /* Rockchip ISP1 3A Statistics */
/* Vendor specific - used for RaspberryPi PiSP */
#define V4L2_META_FMT_RPI_BE_CFG v4l2_fourcc('R', 'P', 'B', 'C') /* PiSP BE configuration */
#ifdef __KERNEL__
/*
* Line-based metadata formats. Remember to update v4l_fill_fmtdesc() when