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android_kernel_samsung_sm86…/include/uapi/camera/media/cam_isp.h
Karthik Anantha Ram f44caab866 msm: camera: isp: Add uapi for IFE/SFE HW blocks 
Add support for IFE/SFE UAPI changes in ISP driver for
Waipio SoC.

CRs-Fixed: 2733230
Change-Id: I5320d2cf02afe1a2d203da65604c83d7b38cad38
Signed-off-by: Karthik Anantha Ram <kartanan@codeaurora.org>
Signed-off-by: Vishalsingh Hajeri <vhajeri@codeaurora.org>
Signed-off-by: Mukund Madhusudan Atre <matre@codeaurora.org>
2020-09-01 12:51:22 -07:00

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/* SPDX-License-Identifier: GPL-2.0-only WITH Linux-syscall-note */
/*
* Copyright (c) 2016-2020, The Linux Foundation. All rights reserved.
*/
#ifndef __UAPI_CAM_ISP_H__
#define __UAPI_CAM_ISP_H__
#include <camera/media/cam_defs.h>
#include <camera/media/cam_isp_vfe.h>
#include <camera/media/cam_isp_ife.h>
#include <camera/media/cam_isp_sfe.h>
#include <camera/media/cam_cpas.h>
/* ISP driver name */
#define CAM_ISP_DEV_NAME "cam-isp"
/* HW type */
#define CAM_ISP_HW_BASE 0
#define CAM_ISP_HW_CSID 1
#define CAM_ISP_HW_VFE 2
#define CAM_ISP_HW_IFE 3
#define CAM_ISP_HW_ISPIF 4
#define CAM_ISP_HW_IFE_LITE 5
#define CAM_ISP_HW_CSID_LITE 6
#define CAM_ISP_HW_SFE 7
#define CAM_ISP_HW_MAX 8
/* Color Pattern */
#define CAM_ISP_PATTERN_BAYER_RGRGRG 0
#define CAM_ISP_PATTERN_BAYER_GRGRGR 1
#define CAM_ISP_PATTERN_BAYER_BGBGBG 2
#define CAM_ISP_PATTERN_BAYER_GBGBGB 3
#define CAM_ISP_PATTERN_YUV_YCBYCR 4
#define CAM_ISP_PATTERN_YUV_YCRYCB 5
#define CAM_ISP_PATTERN_YUV_CBYCRY 6
#define CAM_ISP_PATTERN_YUV_CRYCBY 7
#define CAM_ISP_PATTERN_MAX 8
/* Usage Type */
#define CAM_ISP_RES_USAGE_SINGLE 0
#define CAM_ISP_RES_USAGE_DUAL 1
#define CAM_ISP_RES_USAGE_MAX 2
/* Resource ID */
#define CAM_ISP_RES_ID_PORT 0
#define CAM_ISP_RES_ID_CLK 1
#define CAM_ISP_RES_ID_MAX 2
/* Resource Type - Type of resource for the resource id
* defined in cam_isp_vfe.h, cam_isp_ife.h
*/
/* Lane Type in input resource for Port */
#define CAM_ISP_LANE_TYPE_DPHY 0
#define CAM_ISP_LANE_TYPE_CPHY 1
#define CAM_ISP_LANE_TYPE_MAX 2
/* ISP Resurce Composite Group ID */
#define CAM_ISP_RES_COMP_GROUP_NONE 0
#define CAM_ISP_RES_COMP_GROUP_ID_0 1
#define CAM_ISP_RES_COMP_GROUP_ID_1 2
#define CAM_ISP_RES_COMP_GROUP_ID_2 3
#define CAM_ISP_RES_COMP_GROUP_ID_3 4
#define CAM_ISP_RES_COMP_GROUP_ID_4 5
#define CAM_ISP_RES_COMP_GROUP_ID_5 6
#define CAM_ISP_RES_COMP_GROUP_ID_MAX 6
/* ISP packet opcode for ISP */
#define CAM_ISP_PACKET_OP_BASE 0
#define CAM_ISP_PACKET_INIT_DEV 1
#define CAM_ISP_PACKET_UPDATE_DEV 2
#define CAM_ISP_PACKET_OP_MAX 3
/* ISP packet meta_data type for command buffer */
#define CAM_ISP_PACKET_META_BASE 0
#define CAM_ISP_PACKET_META_LEFT 1
#define CAM_ISP_PACKET_META_RIGHT 2
#define CAM_ISP_PACKET_META_COMMON 3
#define CAM_ISP_PACKET_META_DMI_LEFT 4
#define CAM_ISP_PACKET_META_DMI_RIGHT 5
#define CAM_ISP_PACKET_META_DMI_COMMON 6
#define CAM_ISP_PACKET_META_CLOCK 7
#define CAM_ISP_PACKET_META_CSID 8
#define CAM_ISP_PACKET_META_DUAL_CONFIG 9
#define CAM_ISP_PACKET_META_GENERIC_BLOB_LEFT 10
#define CAM_ISP_PACKET_META_GENERIC_BLOB_RIGHT 11
#define CAM_ISP_PACKET_META_GENERIC_BLOB_COMMON 12
#define CAM_ISP_PACKET_META_REG_DUMP_PER_REQUEST 13
#define CAM_ISP_PACKET_META_REG_DUMP_ON_FLUSH 14
#define CAM_ISP_PACKET_META_REG_DUMP_ON_ERROR 15
#define CAM_ISP_PACKET_META_MODE_SWITCH_CONFIG 16
#define CAM_ISP_PACKET_META_CSID_LEFT 17
#define CAM_ISP_PACKET_META_CSID_RIGHT 18
#define CAM_ISP_PACKET_META_CSID_COMMON 19
/* SFE packet meta_data type for command buffer */
#define CAM_ISP_SFE_PACKET_META_LEFT 0x15
#define CAM_ISP_SFE_PACKET_META_RIGHT 0x16
#define CAM_ISP_SFE_PACKET_META_COMMON 0x17
#define CAM_ISP_SFE_PACKET_META_DUAL_CONFIG 0x18
/* DSP mode */
#define CAM_ISP_DSP_MODE_NONE 0
#define CAM_ISP_DSP_MODE_ONE_WAY 1
#define CAM_ISP_DSP_MODE_ROUND 2
/* ISP Generic Cmd Buffer Blob types */
#define CAM_ISP_GENERIC_BLOB_TYPE_HFR_CONFIG 0
#define CAM_ISP_GENERIC_BLOB_TYPE_CLOCK_CONFIG 1
#define CAM_ISP_GENERIC_BLOB_TYPE_BW_CONFIG 2
#define CAM_ISP_GENERIC_BLOB_TYPE_UBWC_CONFIG 3
#define CAM_ISP_GENERIC_BLOB_TYPE_CSID_CLOCK_CONFIG 4
#define CAM_ISP_GENERIC_BLOB_TYPE_FE_CONFIG 5
#define CAM_ISP_GENERIC_BLOB_TYPE_UBWC_CONFIG_V2 6
#define CAM_ISP_GENERIC_BLOB_TYPE_IFE_CORE_CONFIG 7
#define CAM_ISP_GENERIC_BLOB_TYPE_VFE_OUT_CONFIG 8
#define CAM_ISP_GENERIC_BLOB_TYPE_BW_CONFIG_V2 9
#define CAM_ISP_GENERIC_BLOB_TYPE_CSID_CONFIG 10
#define CAM_ISP_GENERIC_BLOB_TYPE_SENSOR_DIMENSION_CONFIG 11
#define CAM_ISP_GENERIC_BLOB_TYPE_CSID_QCFA_CONFIG 12
#define CAM_ISP_GENERIC_BLOB_TYPE_SENSOR_BLANKING_CONFIG 13
#define CAM_ISP_GENERIC_BLOB_TYPE_TPG_CORE_CONFIG 14
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_CLOCK_CONFIG 21
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_CORE_CONFIG 22
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_OUT_CONFIG 23
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_HFR_CONFIG 24
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_FE_CONFIG 25
#define CAM_ISP_GENERIC_BLOB_TYPE_SFE_SCRATCH_BUF_CFG 26
#define CAM_ISP_VC_DT_CFG 4
#define CAM_ISP_IFE0_HW 0x1
#define CAM_ISP_IFE1_HW 0x2
#define CAM_ISP_IFE0_LITE_HW 0x4
#define CAM_ISP_IFE1_LITE_HW 0x8
#define CAM_ISP_IFE2_LITE_HW 0x10
#define CAM_ISP_IFE3_LITE_HW 0x20
#define CAM_ISP_IFE4_LITE_HW 0x40
#define CAM_ISP_IFE2_HW 0x100
#define CAM_ISP_SFE0_HW 0x1000
#define CAM_ISP_SFE1_HW 0x2000
#define CAM_ISP_PXL_PATH 0x1
#define CAM_ISP_PPP_PATH 0x2
#define CAM_ISP_LCR_PATH 0x4
#define CAM_ISP_RDI0_PATH 0x8
#define CAM_ISP_RDI1_PATH 0x10
#define CAM_ISP_RDI2_PATH 0x20
#define CAM_ISP_RDI3_PATH 0x40
/* Per Path Usage Data */
#define CAM_ISP_USAGE_INVALID 0
#define CAM_ISP_USAGE_LEFT_PX 1
#define CAM_ISP_USAGE_RIGHT_PX 2
#define CAM_ISP_USAGE_RDI 3
#define CAM_ISP_USAGE_SFE_LEFT 4
#define CAM_ISP_USAGE_SFE_RIGHT 5
#define CAM_ISP_USAGE_SFE_RDI 6
/* Acquire with custom hw */
#define CAM_ISP_ACQ_CUSTOM_NONE 0
#define CAM_ISP_ACQ_CUSTOM_PRIMARY 1
#define CAM_ISP_ACQ_CUSTOM_SECONDARY 2
#define CAM_IFE_CSID_RDI_MAX 4
/* Feature Flag indicators */
#define CAM_ISP_PARAM_FETCH_SECURITY_MODE BIT(0)
/* ISP core cfg flag params */
#define CAM_ISP_PARAM_CORE_CFG_HDR_MUX_SEL BIT(0)
#define CAM_ISP_PARAM_CORE_CFG_PP_FORMAT BIT(16)
/* Query devices */
/**
* struct cam_isp_dev_cap_info - A cap info for particular hw type
*
* @hw_type: Hardware type for the cap info
* @num_hw: Number of HW of type @hw_type
* @hw_version: Hardware version
*
*/
struct cam_isp_dev_cap_info {
__u32 hw_type;
__u32 num_hw;
struct cam_hw_version hw_version;
};
/**
* struct cam_isp_query_cap_cmd - ISP query device capability payload
*
* @device_iommu: returned iommu handles for device
* @cdm_iommu: returned iommu handles for cdm
* @num_dev: returned number of device capabilities
* @reserved: reserved field for alignment
* @dev_caps: returned device capability array
*
*/
struct cam_isp_query_cap_cmd {
struct cam_iommu_handle device_iommu;
struct cam_iommu_handle cdm_iommu;
__s32 num_dev;
__u32 reserved;
struct cam_isp_dev_cap_info dev_caps[CAM_ISP_HW_MAX];
};
/* Acquire Device */
/**
* struct cam_isp_out_port_info - An output port resource info
*
* @res_type: output resource type defined in file
* cam_isp_vfe.h or cam_isp_ife.h
* @format: output format of the resource
* @wdith: output width in pixels
* @height: output height in lines
* @comp_grp_id: composite group id for the resource.
* @split_point: split point in pixels for the dual VFE.
* @secure_mode: flag to tell if output should be run in secure
* mode or not. See cam_defs.h for definition
* @reserved: reserved field for alignment
*
*/
struct cam_isp_out_port_info {
__u32 res_type;
__u32 format;
__u32 width;
__u32 height;
__u32 comp_grp_id;
__u32 split_point;
__u32 secure_mode;
__u32 reserved;
};
/**
* struct cam_isp_out_port_info_v2 - An output port resource info
*
* @res_type: output resource type defined in file
* cam_isp_vfe.h or cam_isp_ife.h
* @format: output format of the resource
* @wdith: output width in pixels
* @height: output height in lines
* @comp_grp_id: composite group id for the resource.
* @split_point: split point in pixels for the dual VFE.
* @secure_mode: flag to tell if output should be run in secure
* mode or not. See cam_defs.h for definition
* @wm_mode: WM mode
* @out_port_res1: Output reserved field
* @out_port_res2: Output reserved field
*
*/
struct cam_isp_out_port_info_v2 {
__u32 res_type;
__u32 format;
__u32 width;
__u32 height;
__u32 comp_grp_id;
__u32 split_point;
__u32 secure_mode;
__u32 wm_mode;
__u32 out_port_res1;
__u32 out_port_res2;
};
/**
* struct cam_isp_in_port_info - An input port resource info
*
* @res_type: input resource type define in file
* cam_isp_vfe.h or cam_isp_ife.h
* @lane_type: lane type: c-phy or d-phy.
* @lane_num: active lane number
* @lane_cfg: lane configurations: 4 bits per lane
* @vc: input virtual channel number
* @dt: input data type number
* @format: input format
* @test_pattern: test pattern for the testgen
* @usage_type: whether dual vfe is required
* @left_start: left input start offset in pixels
* @left_stop: left input stop offset in pixels
* @left_width: left input width in pixels
* @right_start: right input start offset in pixels.
* Only for Dual VFE
* @right_stop: right input stop offset in pixels.
* Only for Dual VFE
* @right_width: right input width in pixels.
* Only for dual VFE
* @line_start: top of the line number
* @line_stop: bottome of the line number
* @height: input height in lines
* @pixel_clk; sensor output clock
* @batch_size: batch size for HFR mode
* @dsp_mode: DSP stream mode (Defines as CAM_ISP_DSP_MODE_*)
* @hbi_cnt: HBI count for the camif input
* @reserved: Reserved field for alignment
* @num_out_res: number of the output resource associated
* @data: payload that contains the output resources
*
*/
struct cam_isp_in_port_info {
__u32 res_type;
__u32 lane_type;
__u32 lane_num;
__u32 lane_cfg;
__u32 vc;
__u32 dt;
__u32 format;
__u32 test_pattern;
__u32 usage_type;
__u32 left_start;
__u32 left_stop;
__u32 left_width;
__u32 right_start;
__u32 right_stop;
__u32 right_width;
__u32 line_start;
__u32 line_stop;
__u32 height;
__u32 pixel_clk;
__u32 batch_size;
__u32 dsp_mode;
__u32 hbi_cnt;
__u32 reserved;
__u32 num_out_res;
struct cam_isp_out_port_info data[1];
};
/**
* struct cam_isp_in_port_info_v2 - An input port resource info
*
* @res_type: input resource type define in file
* cam_isp_vfe.h or cam_isp_ife.h
* @lane_type: lane type: c-phy or d-phy.
* @lane_num: active lane number
* @lane_cfg: lane configurations: 4 bits per lane
* @vc: input virtual channel number
* @dt: input data type number
* @num_valid_vc_dt: valid vc and dt in array
* @format: input format
* @test_pattern: test pattern for the testgen
* @usage_type: whether dual vfe is required
* @left_start: left input start offset in pixels
* @left_stop: left input stop offset in pixels
* @left_width: left input width in pixels
* @right_start: right input start offset in pixels.
* Only for Dual VFE
* @right_stop: right input stop offset in pixels.
* only for Dual VFE
* @right_width: right input width in pixels.
* only for dual VFE
* @line_start: top of the line number
* @line_stop: bottome of the line number
* @height: input height in lines
* @pixel_clk; sensor output clock
* @batch_size: batch size for HFR mode
* @dsp_mode: DSP stream mode (Defines as CAM_ISP_DSP_MODE_*)
* @hbi_cnt: HBI count for the camif input
* @cust_node: if any custom HW block is present before IFE
* @num_out_res: number of the output resource associated
* @horizontal_bin: Horizontal Binning info
* @qcfa_bin: Quadra Binning info
* @sfe_in_path_type: SFE input path type
* 0:15 - refer to cam_isp_sfe.h for SFE paths
* 16:31 - Corresponding IFE i/p path type
* Example:((CAM_ISP_PXL_PATH << 16) |
* CAM_ISP_SFE_INLINE_PIX)
* This will acquire SFE inline IPP and IFE IPP
* PPP is an exception CSID PPP -> IFE PPP
* @vc_dt_pattern_id: TPG pattern - SparsePD, sHDR etc.
* @feature_flag: See the macros defined under feature flag above
* @ife_res_2: payload for future use
* @data: payload that contains the output resources
*
*/
struct cam_isp_in_port_info_v2 {
__u32 res_type;
__u32 lane_type;
__u32 lane_num;
__u32 lane_cfg;
__u32 vc[CAM_ISP_VC_DT_CFG];
__u32 dt[CAM_ISP_VC_DT_CFG];
__u32 num_valid_vc_dt;
__u32 format;
__u32 test_pattern;
__u32 usage_type;
__u32 left_start;
__u32 left_stop;
__u32 left_width;
__u32 right_start;
__u32 right_stop;
__u32 right_width;
__u32 line_start;
__u32 line_stop;
__u32 height;
__u32 pixel_clk;
__u32 batch_size;
__u32 dsp_mode;
__u32 hbi_cnt;
__u32 cust_node;
__u32 num_out_res;
__u32 offline_mode;
__u32 horizontal_bin;
__u32 qcfa_bin;
__u32 sfe_in_path_type;
__u32 vc_dt_pattern_id;
__u32 feature_flag;
__u32 ife_res_2;
struct cam_isp_out_port_info_v2 data[1];
};
/**
* struct cam_isp_resource - A resource bundle
*
* @resoruce_id: resource id for the resource bundle
* @length: length of the while resource blob
* @handle_type: type of the resource handle
* @reserved: reserved field for alignment
* @res_hdl: resource handle that points to the
* resource array;
*
*/
struct cam_isp_resource {
__u32 resource_id;
__u32 length;
__u32 handle_type;
__u32 reserved;
__u64 res_hdl;
};
/**
* struct cam_isp_port_hfr_config - HFR configuration for this port
*
* @resource_type: Resource type
* @subsample_pattern: Subsample pattern. Used in HFR mode. It
* should be consistent with batchSize and
* CAMIF programming.
* @subsample_period: Subsample period. Used in HFR mode. It
* should be consistent with batchSize and
* CAMIF programming.
* @framedrop_pattern: Framedrop pattern
* @framedrop_period: Framedrop period
* @reserved: Reserved for alignment
*/
struct cam_isp_port_hfr_config {
__u32 resource_type;
__u32 subsample_pattern;
__u32 subsample_period;
__u32 framedrop_pattern;
__u32 framedrop_period;
__u32 reserved;
} __attribute__((packed));
/**
* struct cam_isp_resource_hfr_config - Resource HFR configuration
*
* @num_ports: Number of ports
* @reserved: Reserved for alignment
* @port_hfr_config: HFR configuration for each IO port
*/
struct cam_isp_resource_hfr_config {
__u32 num_ports;
__u32 reserved;
struct cam_isp_port_hfr_config port_hfr_config[1];
} __attribute__((packed));
/**
* struct cam_isp_dual_split_params - dual isp spilt parameters
*
* @split_point: Split point information x, where (0 < x < width)
* left ISP's input ends at x + righ padding and
* Right ISP's input starts at x - left padding
* @right_padding: Padding added past the split point for left
* ISP's input
* @left_padding: Padding added before split point for right
* ISP's input
* @reserved: Reserved filed for alignment
*
*/
struct cam_isp_dual_split_params {
__u32 split_point;
__u32 right_padding;
__u32 left_padding;
__u32 reserved;
};
/**
* struct cam_isp_dual_stripe_config - stripe config per bus client
*
* @offset: Start horizontal offset relative to
* output buffer
* In UBWC mode, this value indicates the H_INIT
* value in pixel
* @width: Width of the stripe in bytes
* @tileconfig Ubwc meta tile config. Contain the partial
* tile info
* @port_id: port id of ISP output
*
*/
struct cam_isp_dual_stripe_config {
__u32 offset;
__u32 width;
__u32 tileconfig;
__u32 port_id;
};
/**
* struct cam_isp_dual_config - dual isp configuration
*
* @num_ports Number of isp output ports
* @reserved Reserved field for alignment
* @split_params: Inpput split parameters
* @stripes: Stripe information
*
*/
struct cam_isp_dual_config {
__u32 num_ports;
__u32 reserved;
struct cam_isp_dual_split_params split_params;
struct cam_isp_dual_stripe_config stripes[1];
} __attribute__((packed));
/**
* struct cam_isp_clock_config - Clock configuration
*
* @usage_type: Usage type (Single/Dual)
* @num_rdi: Number of RDI votes
* @left_pix_hz: Pixel Clock for Left ISP
* @right_pix_hz: Pixel Clock for Right ISP, valid only if Dual
* @rdi_hz: RDI Clock. ISP clock will be max of RDI and
* PIX clocks. For a particular context which ISP
* HW the RDI is allocated to is not known to UMD.
* Hence pass the clock and let KMD decide.
*/
struct cam_isp_clock_config {
__u32 usage_type;
__u32 num_rdi;
__u64 left_pix_hz;
__u64 right_pix_hz;
__u64 rdi_hz[1];
} __attribute__((packed));
/**
* struct cam_isp_csid_clock_config - CSID clock configuration
*
* @csid_clock CSID clock
*/
struct cam_isp_csid_clock_config {
__u64 csid_clock;
} __attribute__((packed));
/**
* struct cam_isp_csid_qcfa_config - CSID qcfa binning support configuration
*
* @csid_binning CSID binning
*/
struct cam_isp_csid_qcfa_config {
__u32 csid_binning;
} __attribute__((packed));
/**
* struct cam_isp_bw_vote - Bandwidth vote information
*
* @resource_id: Resource ID
* @reserved: Reserved field for alignment
* @cam_bw_bps: Bandwidth vote for CAMNOC
* @ext_bw_bps: Bandwidth vote for path-to-DDR after CAMNOC
*/
struct cam_isp_bw_vote {
__u32 resource_id;
__u32 reserved;
__u64 cam_bw_bps;
__u64 ext_bw_bps;
} __attribute__((packed));
/**
* struct cam_isp_bw_config - Bandwidth configuration
*
* @usage_type: Usage type (Single/Dual)
* @num_rdi: Number of RDI votes
* @left_pix_vote: Bandwidth vote for left ISP
* @right_pix_vote: Bandwidth vote for right ISP
* @rdi_vote: RDI bandwidth requirements
*/
struct cam_isp_bw_config {
__u32 usage_type;
__u32 num_rdi;
struct cam_isp_bw_vote left_pix_vote;
struct cam_isp_bw_vote right_pix_vote;
struct cam_isp_bw_vote rdi_vote[1];
} __attribute__((packed));
/**
* struct cam_isp_bw_config_v2 - Bandwidth configuration
*
* @usage_type: Usage type (Single/Dual)
* @num_paths: Number of axi data paths
* @axi_path Per path vote info
*/
struct cam_isp_bw_config_v2 {
__u32 usage_type;
__u32 num_paths;
struct cam_axi_per_path_bw_vote axi_path[1];
} __attribute__((packed));
/**
* struct cam_fe_config - Fetch Engine configuration
*
* @version: fetch engine veriosn
* @min_vbi: require min vbi
* @fs_mode: indicates if fs mode enabled
* @fs_line_sync_en: frame level sync or line level
* sync for fetch engine
* @hbi_count: hbi count
* @fs_sync_enable: indicates if fetch engine working
* wokring in sync with write engine
* @go_cmd_sel: softwrae go_cmd or hw go_cmd
* @client_enable: enable read engine
* @source_addr: adrress of buffer to read from
* @width: buffer width
* @height: buffer height
* @stride: buffer stride (here equal to width)
* @format: format of image in buffer
* @unpacker_cfg: unpacker config type
* @latency_buf_size: latency buffer for read engine
*/
struct cam_fe_config {
__u64 version;
__u32 min_vbi;
__u32 fs_mode;
__u32 fs_line_sync_en;
__u32 hbi_count;
__u32 fs_sync_enable;
__u32 go_cmd_sel;
__u32 client_enable;
__u32 source_addr;
__u32 width;
__u32 height;
__u32 stride;
__u32 format;
__u32 unpacker_cfg;
__u32 latency_buf_size;
} __attribute__((packed));
/**
* struct cam_isp_sensor_path_dimension
*
* @width expected width
* @height expected height
* @measure_enabled flag to indicate if pixel measurement is to be enabled
*/
struct cam_isp_sensor_dimension {
__u32 width;
__u32 height;
__u32 measure_enabled;
} __attribute__((packed));
/**
* struct cam_isp_sensor_blanking_config
*
* @hbi HBI value
* @vbi VBI value
*/
struct cam_isp_sensor_blanking_config {
__u32 hbi;
__u32 vbi;
} __attribute__((packed));
/**
* struct cam_isp_sensor_config - Sensor Dimension configuration
*
* @ppp_path: expected ppp path configuration
* @ipp_path: expected ipp path configuration
* @rdi_path: expected rdi path configuration
* @hbi: HBI value
* @vbi: VBI value
*/
struct cam_isp_sensor_config {
struct cam_isp_sensor_dimension ppp_path;
struct cam_isp_sensor_dimension ipp_path;
struct cam_isp_sensor_dimension rdi_path[CAM_IFE_CSID_RDI_MAX];
__u32 hbi;
__u32 vbi;
} __attribute__((packed));
/**
* struct cam_isp_core_config - ISP core registers configuration
*
* @version: Version info
* @vid_ds16_r2pd: Enables Y and C merging PD output for video DS16
* @vid_ds4_r2pd: Enables Y and C merging PD output for video DS4
* @disp_ds16_r2pd: Enables Y and C merging PD output for disp DS16
* @disp_ds4_r2pd: Enables Y and C merging PD output for disp DS4
* @dsp_streaming_tap_point: This selects source for DSP streaming interface
* @ihist_src_sel: Selects input for IHIST module
* @hdr_be_src_sel: Selects input for HDR BE module
* @hdr_bhist_src_sel: Selects input for HDR BHIST module
* @input_mux_sel_pdaf: Selects input for PDAF
* @input_mux_sel_pp: Selects input for Pixel Pipe
* @core_cfg_flag: Core config flag to set HDR mux/PP
* input format type
*/
struct cam_isp_core_config {
__u32 version;
__u32 vid_ds16_r2pd;
__u32 vid_ds4_r2pd;
__u32 disp_ds16_r2pd;
__u32 disp_ds4_r2pd;
__u32 dsp_streaming_tap_point;
__u32 ihist_src_sel;
__u32 hdr_be_src_sel;
__u32 hdr_bhist_src_sel;
__u32 input_mux_sel_pdaf;
__u32 input_mux_sel_pp;
__u32 core_cfg_flag;
} __attribute__((packed));
/**
* struct cam_isp_sfe_core_config - SFE core registers configuration
*
* @version : Version info
* @mode_sel : Selects core for sHDR/non-sHDR mode
* @ops_mode_cfg : Selects core if is inline/offline mode
* @fs_mode_cfg : Selects output in fast shutter mode
* @sfe_params : SFE params for future use
*/
struct cam_isp_sfe_core_config {
__u32 version;
__u32 mode_sel;
__u32 ops_mode_cfg;
__u32 fs_mode_cfg;
__u32 sfe_params[6];
} __attribute__((packed));
/**
* struct cam_isp_sfe_scratch_buf_info - Scratch buf info
*
* @mem_handle : Scratch buffer handle
* @offset : Offset to the buffer
* @width : Width in pixels
* @height : Height in pixels
* @stride : Stride in pixels
* @slice_height : Slice height in lines
* @resource_type : rsrc type
* @scratch_buf_params : for future use
*/
struct cam_isp_sfe_scratch_buf_info {
__s32 mem_handle;
__u32 offset;
__u32 width;
__u32 height;
__u32 stride;
__u32 slice_height;
__u32 resource_type;
__u32 scratch_buf_params[5];
};
/**
* struct cam_isp_sfe_init_scratch_buf_config - SFE init buffer cfg
* Provides scratch buffer info for SFE ports
* as part of INIT packet
*
* @num_ports : Number of ports
* @reserved : reserved
* @port_scratch_cfg : scratch buffer info
*/
struct cam_isp_sfe_init_scratch_buf_config {
__u32 num_ports;
__u32 reserved;
struct cam_isp_sfe_scratch_buf_info port_scratch_cfg[1];
};
/**
* struct cam_isp_tpg_core_config - TPG core registers configuration
*
* @version : Version info
* @vc_dt_pattern_id : TPG pattern - SparsePD, sHDR etc.
* @qcfa_en : Selects qcfa in color bar
* @pix_pattern : Pix pattern color bar cfg
* @tpg_params : TPG params for future use
*/
struct cam_isp_tpg_core_config {
__u32 version;
__u32 vc_dt_pattern_id;
__u32 qcfa_en;
__u32 pix_pattern;
__u32 tpg_params[6];
} __attribute__((packed));
/**
* struct cam_isp_acquire_hw_info - ISP acquire HW params
*
* @common_info_version : Version of common info struct used
* @common_info_size : Size of common info struct used
* @common_info_offset : Offset of common info from start of data
* @num_inputs : Number of inputs
* @input_info_version : Version of input info struct used
* @input_info_size : Size of input info struct used
* @input_info_offset : Offset of input info from start of data
* @data : Start of data region
*/
struct cam_isp_acquire_hw_info {
__u16 common_info_version;
__u16 common_info_size;
__u32 common_info_offset;
__u32 num_inputs;
__u32 input_info_version;
__u32 input_info_size;
__u32 input_info_offset;
__u64 data;
};
/**
* struct cam_isp_vfe_wm_config - VFE write master config per port
*
* @port_type : Unique ID of output port
* @wm_mode : Write master mode
* 0x0 - Line based mode
* 0x1 - Frame based mode
* 0x2 - Index based mode, valid for BAF only
* @h_init : Horizontal starting coordinate in pixels. Must be a
* multiple of 3 for TP10 format
* @height : Height in pixels
* @width : Width in pixels
* @virtual_frame_en : Enabling virtual frame will prevent actual request from
* being sent to NOC
* @stride : Write master stride
* @offset : Write master offset
* @addr_reuse_en : Enabling addr-reuse will write output to the same addr
* after the last addr that was read from FIFO.
* @reserved_2 : Reserved field for Write master config
* @reserved_3 : Reserved field for Write master config
* @reserved_4 : Reserved field for Write master config
*/
struct cam_isp_vfe_wm_config {
__u32 port_type;
__u32 wm_mode;
__u32 h_init;
__u32 height;
__u32 width;
__u32 virtual_frame_en;
__u32 stride;
__u32 offset;
__u32 addr_reuse_en;
__u32 reserved_2;
__u32 reserved_3;
__u32 reserved_4;
};
/**
* struct cam_isp_vfe_out_config - VFE write master config
*
* @num_ports : Number of ports
* @reserved : Reserved field
* @wm_config : VFE out config
*/
struct cam_isp_vfe_out_config {
__u32 num_ports;
__u32 reserved;
struct cam_isp_vfe_wm_config wm_config[1];
};
/**
* struct cam_isp_csid_epd_config - Support for EPD Packet config
*
* @is_epd_sensor : flag to check if epd supported
*/
struct cam_isp_csid_epd_config {
__u32 is_epd_supported;
};
#define CAM_ISP_ACQUIRE_COMMON_VER0 0x1000
#define CAM_ISP_ACQUIRE_COMMON_SIZE_VER0 0x0
#define CAM_ISP_ACQUIRE_INPUT_VER0 0x2000
#define CAM_ISP_ACQUIRE_INPUT_SIZE_VER0 sizeof(struct cam_isp_in_port_info)
#define CAM_ISP_ACQUIRE_OUT_VER0 0x3000
#define CAM_ISP_ACQUIRE_OUT_SIZE_VER0 sizeof(struct cam_isp_out_port_info)
#endif /* __UAPI_CAM_ISP_H__ */
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