#ifndef __UAPI_MSMB_ISP__ #define __UAPI_MSMB_ISP__ #include <linux/videodev2.h> #define MAX_PLANES_PER_STREAM 3 #define MAX_NUM_STREAM 7 #define ISP_VERSION_47 47 #define ISP_VERSION_46 46 #define ISP_VERSION_44 44 #define ISP_VERSION_40 40 #define ISP_VERSION_32 32 #define ISP_NATIVE_BUF_BIT (0x10000 << 0) #define ISP0_BIT (0x10000 << 1) #define ISP1_BIT (0x10000 << 2) #define ISP_META_CHANNEL_BIT (0x10000 << 3) #define ISP_SCRATCH_BUF_BIT (0x10000 << 4) #define ISP_OFFLINE_STATS_BIT (0x10000 << 5) #define ISP_STATS_STREAM_BIT 0x80000000 struct msm_vfe_cfg_cmd_list; enum ISP_START_PIXEL_PATTERN { ISP_BAYER_RGRGRG, ISP_BAYER_GRGRGR, ISP_BAYER_BGBGBG, ISP_BAYER_GBGBGB, ISP_YUV_YCbYCr, ISP_YUV_YCrYCb, ISP_YUV_CbYCrY, ISP_YUV_CrYCbY, ISP_PIX_PATTERN_MAX }; enum msm_vfe_plane_fmt { Y_PLANE, CB_PLANE, CR_PLANE, CRCB_PLANE, CBCR_PLANE, VFE_PLANE_FMT_MAX }; enum msm_vfe_input_src { VFE_PIX_0, VFE_RAW_0, VFE_RAW_1, VFE_RAW_2, VFE_SRC_MAX, }; enum msm_vfe_axi_stream_src { PIX_ENCODER, PIX_VIEWFINDER, PIX_VIDEO, CAMIF_RAW, IDEAL_RAW, RDI_INTF_0, RDI_INTF_1, RDI_INTF_2, VFE_AXI_SRC_MAX }; enum msm_vfe_frame_skip_pattern { NO_SKIP, EVERY_2FRAME, EVERY_3FRAME, EVERY_4FRAME, EVERY_5FRAME, EVERY_6FRAME, EVERY_7FRAME, EVERY_8FRAME, EVERY_16FRAME, EVERY_32FRAME, SKIP_ALL, SKIP_RANGE, MAX_SKIP, }; /* * Define an unused period. When this period is set it means that the stream is * stopped(i.e the pattern is 0). We don't track the current pattern, just the * period defines what the pattern is, if period is this then pattern is 0 else * pattern is 1 */ #define MSM_VFE_STREAM_STOP_PERIOD 15 enum msm_isp_stats_type { MSM_ISP_STATS_AEC, /* legacy based AEC */ MSM_ISP_STATS_AF, /* legacy based AF */ MSM_ISP_STATS_AWB, /* legacy based AWB */ MSM_ISP_STATS_RS, /* legacy based RS */ MSM_ISP_STATS_CS, /* legacy based CS */ MSM_ISP_STATS_IHIST, /* legacy based HIST */ MSM_ISP_STATS_SKIN, /* legacy based SKIN */ MSM_ISP_STATS_BG, /* Bayer Grids */ MSM_ISP_STATS_BF, /* Bayer Focus */ MSM_ISP_STATS_BE, /* Bayer Exposure*/ MSM_ISP_STATS_BHIST, /* Bayer Hist */ MSM_ISP_STATS_BF_SCALE, /* Bayer Focus scale */ MSM_ISP_STATS_HDR_BE, /* HDR Bayer Exposure */ MSM_ISP_STATS_HDR_BHIST, /* HDR Bayer Hist */ MSM_ISP_STATS_AEC_BG, /* AEC BG */ MSM_ISP_STATS_MAX /* MAX */ }; /* * @stats_type_mask: Stats type mask (enum msm_isp_stats_type). * @stream_src_mask: Stream src mask (enum msm_vfe_axi_stream_src) * @skip_mode: skip pattern, if skip mode is range only then min/max is used * @min_frame_id: minimum frame id (valid only if skip_mode = RANGE) * @max_frame_id: maximum frame id (valid only if skip_mode = RANGE) */ struct msm_isp_sw_framskip { uint32_t stats_type_mask; uint32_t stream_src_mask; enum msm_vfe_frame_skip_pattern skip_mode; uint32_t min_frame_id; uint32_t max_frame_id; }; enum msm_vfe_testgen_color_pattern { COLOR_BAR_8_COLOR, UNICOLOR_WHITE, UNICOLOR_YELLOW, UNICOLOR_CYAN, UNICOLOR_GREEN, UNICOLOR_MAGENTA, UNICOLOR_RED, UNICOLOR_BLUE, UNICOLOR_BLACK, MAX_COLOR, }; enum msm_vfe_camif_input { CAMIF_DISABLED, CAMIF_PAD_REG_INPUT, CAMIF_MIDDI_INPUT, CAMIF_MIPI_INPUT, }; struct msm_vfe_fetch_engine_cfg { uint32_t input_format; uint32_t buf_width; uint32_t buf_height; uint32_t fetch_width; uint32_t fetch_height; uint32_t x_offset; uint32_t y_offset; uint32_t buf_stride; }; enum msm_vfe_camif_output_format { CAMIF_QCOM_RAW, CAMIF_MIPI_RAW, CAMIF_PLAIN_8, CAMIF_PLAIN_16, CAMIF_MAX_FORMAT, }; /* * Camif output general configuration */ struct msm_vfe_camif_subsample_cfg { uint32_t irq_subsample_period; uint32_t irq_subsample_pattern; uint32_t sof_counter_step; uint32_t pixel_skip; uint32_t line_skip; uint32_t first_line; uint32_t last_line; uint32_t first_pixel; uint32_t last_pixel; enum msm_vfe_camif_output_format output_format; }; /* * Camif frame and window configuration */ struct msm_vfe_camif_cfg { uint32_t lines_per_frame; uint32_t pixels_per_line; uint32_t first_pixel; uint32_t last_pixel; uint32_t first_line; uint32_t last_line; uint32_t epoch_line0; uint32_t epoch_line1; uint32_t is_split; enum msm_vfe_camif_input camif_input; struct msm_vfe_camif_subsample_cfg subsample_cfg; }; struct msm_vfe_testgen_cfg { uint32_t lines_per_frame; uint32_t pixels_per_line; uint32_t v_blank; uint32_t h_blank; enum ISP_START_PIXEL_PATTERN pixel_bayer_pattern; uint32_t rotate_period; enum msm_vfe_testgen_color_pattern color_bar_pattern; uint32_t burst_num_frame; }; enum msm_vfe_inputmux { CAMIF, TESTGEN, EXTERNAL_READ, }; enum msm_vfe_stats_composite_group { STATS_COMPOSITE_GRP_NONE, STATS_COMPOSITE_GRP_1, STATS_COMPOSITE_GRP_2, STATS_COMPOSITE_GRP_MAX, }; enum msm_vfe_hvx_streaming_cmd { HVX_DISABLE, HVX_ONE_WAY, HVX_ROUND_TRIP }; struct msm_vfe_pix_cfg { struct msm_vfe_camif_cfg camif_cfg; struct msm_vfe_testgen_cfg testgen_cfg; struct msm_vfe_fetch_engine_cfg fetch_engine_cfg; enum msm_vfe_inputmux input_mux; enum ISP_START_PIXEL_PATTERN pixel_pattern; uint32_t input_format; enum msm_vfe_hvx_streaming_cmd hvx_cmd; uint32_t is_split; }; struct msm_vfe_rdi_cfg { uint8_t cid; uint8_t frame_based; }; struct msm_vfe_input_cfg { union { struct msm_vfe_pix_cfg pix_cfg; struct msm_vfe_rdi_cfg rdi_cfg; } d; enum msm_vfe_input_src input_src; uint32_t input_pix_clk; }; struct msm_vfe_fetch_eng_start { uint32_t session_id; uint32_t stream_id; uint32_t buf_idx; uint8_t offline_mode; uint32_t fd; uint32_t buf_addr; uint32_t frame_id; }; struct msm_vfe_axi_plane_cfg { uint32_t output_width; /*Include padding*/ uint32_t output_height; uint32_t output_stride; uint32_t output_scan_lines; uint32_t output_plane_format; /*Y/Cb/Cr/CbCr*/ uint32_t plane_addr_offset; uint8_t csid_src; /*RDI 0-2*/ uint8_t rdi_cid;/*CID 1-16*/ }; enum msm_stream_memory_input_t { MEMORY_INPUT_DISABLED, MEMORY_INPUT_ENABLED }; struct msm_vfe_axi_stream_request_cmd { uint32_t session_id; uint32_t stream_id; uint32_t vt_enable; uint32_t output_format;/*Planar/RAW/Misc*/ enum msm_vfe_axi_stream_src stream_src; /*CAMIF/IDEAL/RDIs*/ struct msm_vfe_axi_plane_cfg plane_cfg[MAX_PLANES_PER_STREAM]; uint32_t burst_count; uint32_t hfr_mode; uint8_t frame_base; uint32_t init_frame_drop; /*MAX 31 Frames*/ enum msm_vfe_frame_skip_pattern frame_skip_pattern; uint8_t buf_divert; /* if TRUE no vb2 buf done. */ /*Return values*/ uint32_t axi_stream_handle; uint32_t controllable_output; uint32_t burst_len; /* Flag indicating memory input stream */ enum msm_stream_memory_input_t memory_input; }; struct msm_vfe_axi_stream_release_cmd { uint32_t stream_handle; }; enum msm_vfe_axi_stream_cmd { STOP_STREAM, START_STREAM, STOP_IMMEDIATELY, }; struct msm_vfe_axi_stream_cfg_cmd { uint8_t num_streams; uint32_t stream_handle[VFE_AXI_SRC_MAX]; enum msm_vfe_axi_stream_cmd cmd; uint8_t sync_frame_id_src; }; enum msm_vfe_axi_stream_update_type { ENABLE_STREAM_BUF_DIVERT, DISABLE_STREAM_BUF_DIVERT, UPDATE_STREAM_FRAMEDROP_PATTERN, UPDATE_STREAM_STATS_FRAMEDROP_PATTERN, UPDATE_STREAM_AXI_CONFIG, UPDATE_STREAM_REQUEST_FRAMES, UPDATE_STREAM_ADD_BUFQ, UPDATE_STREAM_REMOVE_BUFQ, UPDATE_STREAM_SW_FRAME_DROP, UPDATE_STREAM_REQUEST_FRAMES_VER2, }; #define UPDATE_STREAM_REQUEST_FRAMES_VER2 UPDATE_STREAM_REQUEST_FRAMES_VER2 enum msm_vfe_iommu_type { IOMMU_ATTACH, IOMMU_DETACH, }; enum msm_vfe_buff_queue_id { VFE_BUF_QUEUE_DEFAULT, VFE_BUF_QUEUE_SHARED, VFE_BUF_QUEUE_MAX, }; struct msm_vfe_axi_stream_cfg_update_info { uint32_t stream_handle; uint32_t output_format; uint32_t user_stream_id; uint32_t frame_id; enum msm_vfe_frame_skip_pattern skip_pattern; struct msm_vfe_axi_plane_cfg plane_cfg[MAX_PLANES_PER_STREAM]; struct msm_isp_sw_framskip sw_skip_info; }; struct msm_vfe_axi_stream_cfg_update_info_req_frm { uint32_t stream_handle; uint32_t user_stream_id; uint32_t frame_id; uint32_t buf_index; }; struct msm_vfe_axi_halt_cmd { uint32_t stop_camif; uint32_t overflow_detected; uint32_t blocking_halt; }; struct msm_vfe_axi_reset_cmd { uint32_t blocking; uint32_t frame_id; }; struct msm_vfe_axi_restart_cmd { uint32_t enable_camif; }; struct msm_vfe_axi_stream_update_cmd { uint32_t num_streams; enum msm_vfe_axi_stream_update_type update_type; /* * For backward compatibility, ensure 1st member of any struct * in union below is uint32_t stream_handle. */ union { struct msm_vfe_axi_stream_cfg_update_info update_info[MSM_ISP_STATS_MAX]; struct msm_vfe_axi_stream_cfg_update_info_req_frm req_frm_ver2; }; }; struct msm_vfe_smmu_attach_cmd { uint32_t security_mode; uint32_t iommu_attach_mode; }; struct msm_vfe_stats_stream_request_cmd { uint32_t session_id; uint32_t stream_id; enum msm_isp_stats_type stats_type; uint32_t composite_flag; uint32_t framedrop_pattern; uint32_t init_frame_drop; /*MAX 31 Frames*/ uint32_t irq_subsample_pattern; uint32_t buffer_offset; uint32_t stream_handle; }; struct msm_vfe_stats_stream_release_cmd { uint32_t stream_handle; }; struct msm_vfe_stats_stream_cfg_cmd { uint8_t num_streams; uint32_t stream_handle[MSM_ISP_STATS_MAX]; uint8_t enable; uint32_t stats_burst_len; }; enum msm_vfe_reg_cfg_type { VFE_WRITE, VFE_WRITE_MB, VFE_READ, VFE_CFG_MASK, VFE_WRITE_DMI_16BIT, VFE_WRITE_DMI_32BIT, VFE_WRITE_DMI_64BIT, VFE_READ_DMI_16BIT, VFE_READ_DMI_32BIT, VFE_READ_DMI_64BIT, GET_MAX_CLK_RATE, GET_CLK_RATES, GET_ISP_ID, VFE_HW_UPDATE_LOCK, VFE_HW_UPDATE_UNLOCK, SET_WM_UB_SIZE, SET_UB_POLICY, }; struct msm_vfe_cfg_cmd2 { uint16_t num_cfg; uint16_t cmd_len; void __user *cfg_data; void __user *cfg_cmd; }; struct msm_vfe_cfg_cmd_list { struct msm_vfe_cfg_cmd2 cfg_cmd; struct msm_vfe_cfg_cmd_list *next; uint32_t next_size; }; struct msm_vfe_reg_rw_info { uint32_t reg_offset; uint32_t cmd_data_offset; uint32_t len; }; struct msm_vfe_reg_mask_info { uint32_t reg_offset; uint32_t mask; uint32_t val; }; struct msm_vfe_reg_dmi_info { uint32_t hi_tbl_offset; /*Optional*/ uint32_t lo_tbl_offset; /*Required*/ uint32_t len; }; struct msm_vfe_reg_cfg_cmd { union { struct msm_vfe_reg_rw_info rw_info; struct msm_vfe_reg_mask_info mask_info; struct msm_vfe_reg_dmi_info dmi_info; } u; enum msm_vfe_reg_cfg_type cmd_type; }; enum vfe_sd_type { VFE_SD_0 = 0, VFE_SD_1, VFE_SD_COMMON, VFE_SD_MAX, }; /* When you change the value below, check for the sof event_data size. * V4l2 limits payload to 64 bytes */ #define MS_NUM_SLAVE_MAX 1 /* Usecases when 2 HW need to be related or synced */ enum msm_vfe_dual_hw_type { DUAL_NONE = 0, DUAL_HW_VFE_SPLIT = 1, DUAL_HW_MASTER_SLAVE = 2, }; /* Type for 2 INTF when used in Master-Slave mode */ enum msm_vfe_dual_hw_ms_type { MS_TYPE_NONE, MS_TYPE_MASTER, MS_TYPE_SLAVE, }; struct msm_isp_set_dual_hw_ms_cmd { uint8_t num_src; /* Each session can be only one type but multiple intf if YUV cam */ enum msm_vfe_dual_hw_ms_type dual_hw_ms_type; /* Primary intf is mostly associated with preview. * This primary intf SOF frame_id and timestamp is tracked * and used to calculate delta */ enum msm_vfe_input_src primary_intf; /* input_src array indicates other input INTF that may be Master/Slave. * For these additional intf, frame_id and timestamp are not saved. * However, if these are slaves then they will still get their * frame_id from Master */ enum msm_vfe_input_src input_src[VFE_SRC_MAX]; uint32_t sof_delta_threshold; /* In milliseconds. Sent for Master */ }; enum msm_isp_buf_type { ISP_PRIVATE_BUF, ISP_SHARE_BUF, MAX_ISP_BUF_TYPE, }; struct msm_isp_unmap_buf_req { uint32_t fd; }; struct msm_isp_buf_request { uint32_t session_id; uint32_t stream_id; uint8_t num_buf; uint32_t handle; enum msm_isp_buf_type buf_type; }; struct msm_isp_qbuf_plane { uint32_t addr; uint32_t offset; uint32_t length; }; struct msm_isp_qbuf_buffer { struct msm_isp_qbuf_plane planes[MAX_PLANES_PER_STREAM]; uint32_t num_planes; }; struct msm_isp_qbuf_info { uint32_t handle; int32_t buf_idx; /*Only used for prepare buffer*/ struct msm_isp_qbuf_buffer buffer; /*Only used for diverted buffer*/ uint32_t dirty_buf; }; struct msm_isp_clk_rates { uint32_t svs_rate; uint32_t nominal_rate; uint32_t high_rate; }; struct msm_vfe_axi_src_state { enum msm_vfe_input_src input_src; uint32_t src_active; uint32_t src_frame_id; }; enum msm_isp_event_mask_index { ISP_EVENT_MASK_INDEX_STATS_NOTIFY = 0, ISP_EVENT_MASK_INDEX_ERROR = 1, ISP_EVENT_MASK_INDEX_IOMMU_P_FAULT = 2, ISP_EVENT_MASK_INDEX_STREAM_UPDATE_DONE = 3, ISP_EVENT_MASK_INDEX_REG_UPDATE = 4, ISP_EVENT_MASK_INDEX_SOF = 5, ISP_EVENT_MASK_INDEX_BUF_DIVERT = 6, ISP_EVENT_MASK_INDEX_COMP_STATS_NOTIFY = 7, ISP_EVENT_MASK_INDEX_MASK_FE_READ_DONE = 8, ISP_EVENT_MASK_INDEX_BUF_DONE = 9, ISP_EVENT_MASK_INDEX_REG_UPDATE_MISSING = 10, ISP_EVENT_MASK_INDEX_PING_PONG_MISMATCH = 11, ISP_EVENT_MASK_INDEX_BUF_FATAL_ERROR = 12, }; #define ISP_EVENT_SUBS_MASK_NONE 0 #define ISP_EVENT_SUBS_MASK_STATS_NOTIFY \ (1 << ISP_EVENT_MASK_INDEX_STATS_NOTIFY) #define ISP_EVENT_SUBS_MASK_ERROR \ (1 << ISP_EVENT_MASK_INDEX_ERROR) #define ISP_EVENT_SUBS_MASK_IOMMU_P_FAULT \ (1 << ISP_EVENT_MASK_INDEX_IOMMU_P_FAULT) #define ISP_EVENT_SUBS_MASK_STREAM_UPDATE_DONE \ (1 << ISP_EVENT_MASK_INDEX_STREAM_UPDATE_DONE) #define ISP_EVENT_SUBS_MASK_REG_UPDATE \ (1 << ISP_EVENT_MASK_INDEX_REG_UPDATE) #define ISP_EVENT_SUBS_MASK_SOF \ (1 << ISP_EVENT_MASK_INDEX_SOF) #define ISP_EVENT_SUBS_MASK_BUF_DIVERT \ (1 << ISP_EVENT_MASK_INDEX_BUF_DIVERT) #define ISP_EVENT_SUBS_MASK_COMP_STATS_NOTIFY \ (1 << ISP_EVENT_MASK_INDEX_COMP_STATS_NOTIFY) #define ISP_EVENT_SUBS_MASK_FE_READ_DONE \ (1 << ISP_EVENT_MASK_INDEX_MASK_FE_READ_DONE) #define ISP_EVENT_SUBS_MASK_BUF_DONE \ (1 << ISP_EVENT_MASK_INDEX_BUF_DONE) #define ISP_EVENT_SUBS_MASK_REG_UPDATE_MISSING \ (1 << ISP_EVENT_MASK_INDEX_REG_UPDATE_MISSING) #define ISP_EVENT_SUBS_MASK_PING_PONG_MISMATCH \ (1 << ISP_EVENT_MASK_INDEX_PING_PONG_MISMATCH) #define ISP_EVENT_SUBS_MASK_BUF_FATAL_ERROR \ (1 << ISP_EVENT_MASK_INDEX_BUF_FATAL_ERROR) enum msm_isp_event_idx { ISP_REG_UPDATE = 0, ISP_EPOCH_0 = 1, ISP_EPOCH_1 = 2, ISP_START_ACK = 3, ISP_STOP_ACK = 4, ISP_IRQ_VIOLATION = 5, ISP_STATS_OVERFLOW = 6, ISP_BUF_DONE = 7, ISP_FE_RD_DONE = 8, ISP_IOMMU_P_FAULT = 9, ISP_ERROR = 10, ISP_HW_FATAL_ERROR = 11, ISP_PING_PONG_MISMATCH = 12, ISP_REG_UPDATE_MISSING = 13, ISP_BUF_FATAL_ERROR = 14, ISP_EVENT_MAX = 15 }; #define ISP_EVENT_OFFSET 8 #define ISP_EVENT_BASE (V4L2_EVENT_PRIVATE_START) #define ISP_BUF_EVENT_BASE (ISP_EVENT_BASE + (1 << ISP_EVENT_OFFSET)) #define ISP_STATS_EVENT_BASE (ISP_EVENT_BASE + (2 << ISP_EVENT_OFFSET)) #define ISP_CAMIF_EVENT_BASE (ISP_EVENT_BASE + (3 << ISP_EVENT_OFFSET)) #define ISP_STREAM_EVENT_BASE (ISP_EVENT_BASE + (4 << ISP_EVENT_OFFSET)) #define ISP_EVENT_REG_UPDATE (ISP_EVENT_BASE + ISP_REG_UPDATE) #define ISP_EVENT_EPOCH_0 (ISP_EVENT_BASE + ISP_EPOCH_0) #define ISP_EVENT_EPOCH_1 (ISP_EVENT_BASE + ISP_EPOCH_1) #define ISP_EVENT_START_ACK (ISP_EVENT_BASE + ISP_START_ACK) #define ISP_EVENT_STOP_ACK (ISP_EVENT_BASE + ISP_STOP_ACK) #define ISP_EVENT_IRQ_VIOLATION (ISP_EVENT_BASE + ISP_IRQ_VIOLATION) #define ISP_EVENT_STATS_OVERFLOW (ISP_EVENT_BASE + ISP_STATS_OVERFLOW) #define ISP_EVENT_ERROR (ISP_EVENT_BASE + ISP_ERROR) #define ISP_EVENT_SOF (ISP_CAMIF_EVENT_BASE) #define ISP_EVENT_EOF (ISP_CAMIF_EVENT_BASE + 1) #define ISP_EVENT_BUF_DONE (ISP_EVENT_BASE + ISP_BUF_DONE) #define ISP_EVENT_BUF_DIVERT (ISP_BUF_EVENT_BASE) #define ISP_EVENT_STATS_NOTIFY (ISP_STATS_EVENT_BASE) #define ISP_EVENT_COMP_STATS_NOTIFY (ISP_EVENT_STATS_NOTIFY + MSM_ISP_STATS_MAX) #define ISP_EVENT_FE_READ_DONE (ISP_EVENT_BASE + ISP_FE_RD_DONE) #define ISP_EVENT_IOMMU_P_FAULT (ISP_EVENT_BASE + ISP_IOMMU_P_FAULT) #define ISP_EVENT_HW_FATAL_ERROR (ISP_EVENT_BASE + ISP_HW_FATAL_ERROR) #define ISP_EVENT_PING_PONG_MISMATCH (ISP_EVENT_BASE + ISP_PING_PONG_MISMATCH) #define ISP_EVENT_REG_UPDATE_MISSING (ISP_EVENT_BASE + ISP_REG_UPDATE_MISSING) #define ISP_EVENT_BUF_FATAL_ERROR (ISP_EVENT_BASE + ISP_BUF_FATAL_ERROR) #define ISP_EVENT_STREAM_UPDATE_DONE (ISP_STREAM_EVENT_BASE) /* The msm_v4l2_event_data structure should match the * v4l2_event.u.data field. * should not exceed 64 bytes */ struct msm_isp_buf_event { uint32_t session_id; uint32_t stream_id; uint32_t handle; uint32_t output_format; int8_t buf_idx; }; struct msm_isp_fetch_eng_event { uint32_t session_id; uint32_t stream_id; uint32_t handle; uint32_t fd; int8_t buf_idx; int8_t offline_mode; }; struct msm_isp_stats_event { uint32_t stats_mask; /* 4 bytes */ uint8_t stats_buf_idxs[MSM_ISP_STATS_MAX]; /* 11 bytes */ }; struct msm_isp_stream_ack { uint32_t session_id; uint32_t stream_id; uint32_t handle; }; enum msm_vfe_error_type { ISP_ERROR_NONE, ISP_ERROR_CAMIF, ISP_ERROR_BUS_OVERFLOW, ISP_ERROR_RETURN_EMPTY_BUFFER, ISP_ERROR_FRAME_ID_MISMATCH, ISP_ERROR_MAX, }; struct msm_isp_error_info { enum msm_vfe_error_type err_type; uint32_t session_id; uint32_t stream_id; uint32_t stream_id_mask; }; /* This structure reports delta between master and slave */ struct msm_isp_ms_delta_info { uint8_t num_delta_info; uint32_t delta[MS_NUM_SLAVE_MAX]; }; /* This is sent in EPOCH irq */ struct msm_isp_output_info { uint8_t regs_not_updated; /* mask with bufq_handle for regs not updated or return empty */ uint16_t output_err_mask; /* mask with stream_idx for get_buf failed */ uint8_t stream_framedrop_mask; /* mask with stats stream_idx for get_buf failed */ uint16_t stats_framedrop_mask; /* delta between master and slave */ }; /* This structure is piggybacked with SOF event */ struct msm_isp_sof_info { uint8_t regs_not_updated; /* mask with AXI_SRC for regs not updated */ uint16_t reg_update_fail_mask; /* mask with bufq_handle for get_buf failed */ uint32_t stream_get_buf_fail_mask; /* mask with stats stream_idx for get_buf failed */ uint16_t stats_get_buf_fail_mask; /* delta between master and slave */ struct msm_isp_ms_delta_info ms_delta_info; }; struct msm_isp_event_data { /*Wall clock except for buffer divert events *which use monotonic clock */ struct timeval timestamp; /* Monotonic timestamp since bootup */ struct timeval mono_timestamp; uint32_t frame_id; union { /* Sent for Stats_Done event */ struct msm_isp_stats_event stats; /* Sent for Buf_Divert event */ struct msm_isp_buf_event buf_done; /* Sent for offline fetch done event */ struct msm_isp_fetch_eng_event fetch_done; /* Sent for Error_Event */ struct msm_isp_error_info error_info; /* * This struct needs to be removed once * userspace switches to sof_info */ struct msm_isp_output_info output_info; /* Sent for SOF event */ struct msm_isp_sof_info sof_info; } u; /* union can have max 52 bytes */ }; #define V4L2_PIX_FMT_QBGGR8 v4l2_fourcc('Q', 'B', 'G', '8') #define V4L2_PIX_FMT_QGBRG8 v4l2_fourcc('Q', 'G', 'B', '8') #define V4L2_PIX_FMT_QGRBG8 v4l2_fourcc('Q', 'G', 'R', '8') #define V4L2_PIX_FMT_QRGGB8 v4l2_fourcc('Q', 'R', 'G', '8') #define V4L2_PIX_FMT_QBGGR10 v4l2_fourcc('Q', 'B', 'G', '0') #define V4L2_PIX_FMT_QGBRG10 v4l2_fourcc('Q', 'G', 'B', '0') #define V4L2_PIX_FMT_QGRBG10 v4l2_fourcc('Q', 'G', 'R', '0') #define V4L2_PIX_FMT_QRGGB10 v4l2_fourcc('Q', 'R', 'G', '0') #define V4L2_PIX_FMT_QBGGR12 v4l2_fourcc('Q', 'B', 'G', '2') #define V4L2_PIX_FMT_QGBRG12 v4l2_fourcc('Q', 'G', 'B', '2') #define V4L2_PIX_FMT_QGRBG12 v4l2_fourcc('Q', 'G', 'R', '2') #define V4L2_PIX_FMT_QRGGB12 v4l2_fourcc('Q', 'R', 'G', '2') #define V4L2_PIX_FMT_QBGGR14 v4l2_fourcc('Q', 'B', 'G', '4') #define V4L2_PIX_FMT_QGBRG14 v4l2_fourcc('Q', 'G', 'B', '4') #define V4L2_PIX_FMT_QGRBG14 v4l2_fourcc('Q', 'G', 'R', '4') #define V4L2_PIX_FMT_QRGGB14 v4l2_fourcc('Q', 'R', 'G', '4') #define V4L2_PIX_FMT_P16BGGR10 v4l2_fourcc('P', 'B', 'G', '0') #define V4L2_PIX_FMT_P16GBRG10 v4l2_fourcc('P', 'G', 'B', '0') #define V4L2_PIX_FMT_P16GRBG10 v4l2_fourcc('P', 'G', 'R', '0') #define V4L2_PIX_FMT_P16RGGB10 v4l2_fourcc('P', 'R', 'G', '0') #define V4L2_PIX_FMT_NV14 v4l2_fourcc('N', 'V', '1', '4') #define V4L2_PIX_FMT_NV41 v4l2_fourcc('N', 'V', '4', '1') #define V4L2_PIX_FMT_META v4l2_fourcc('Q', 'M', 'E', 'T') #define V4L2_PIX_FMT_SBGGR14 v4l2_fourcc('B', 'G', '1', '4') /* 14 BGBG.GRGR.*/ #define V4L2_PIX_FMT_SGBRG14 v4l2_fourcc('G', 'B', '1', '4') /* 14 GBGB.RGRG.*/ #define V4L2_PIX_FMT_SGRBG14 v4l2_fourcc('B', 'A', '1', '4') /* 14 GRGR.BGBG.*/ #define V4L2_PIX_FMT_SRGGB14 v4l2_fourcc('R', 'G', '1', '4') /* 14 RGRG.GBGB.*/ enum msm_isp_ioctl_cmd_code { MSM_VFE_REG_CFG = BASE_VIDIOC_PRIVATE, MSM_ISP_REQUEST_BUF, MSM_ISP_ENQUEUE_BUF, MSM_ISP_RELEASE_BUF, MSM_ISP_REQUEST_STREAM, MSM_ISP_CFG_STREAM, MSM_ISP_RELEASE_STREAM, MSM_ISP_INPUT_CFG, MSM_ISP_SET_SRC_STATE, MSM_ISP_REQUEST_STATS_STREAM, MSM_ISP_CFG_STATS_STREAM, MSM_ISP_RELEASE_STATS_STREAM, MSM_ISP_REG_UPDATE_CMD, MSM_ISP_UPDATE_STREAM, MSM_VFE_REG_LIST_CFG, MSM_ISP_SMMU_ATTACH, MSM_ISP_UPDATE_STATS_STREAM, MSM_ISP_AXI_HALT, MSM_ISP_AXI_RESET, MSM_ISP_AXI_RESTART, MSM_ISP_FETCH_ENG_START, MSM_ISP_DEQUEUE_BUF, MSM_ISP_SET_DUAL_HW_MASTER_SLAVE, MSM_ISP_MAP_BUF_START_FE, MSM_ISP_UNMAP_BUF, }; #define VIDIOC_MSM_VFE_REG_CFG \ _IOWR('V', MSM_VFE_REG_CFG, \ struct msm_vfe_cfg_cmd2) #define VIDIOC_MSM_ISP_REQUEST_BUF \ _IOWR('V', MSM_ISP_REQUEST_BUF, \ struct msm_isp_buf_request) #define VIDIOC_MSM_ISP_ENQUEUE_BUF \ _IOWR('V', MSM_ISP_ENQUEUE_BUF, \ struct msm_isp_qbuf_info) #define VIDIOC_MSM_ISP_RELEASE_BUF \ _IOWR('V', MSM_ISP_RELEASE_BUF, \ struct msm_isp_buf_request) #define VIDIOC_MSM_ISP_REQUEST_STREAM \ _IOWR('V', MSM_ISP_REQUEST_STREAM, \ struct msm_vfe_axi_stream_request_cmd) #define VIDIOC_MSM_ISP_CFG_STREAM \ _IOWR('V', MSM_ISP_CFG_STREAM, \ struct msm_vfe_axi_stream_cfg_cmd) #define VIDIOC_MSM_ISP_RELEASE_STREAM \ _IOWR('V', MSM_ISP_RELEASE_STREAM, \ struct msm_vfe_axi_stream_release_cmd) #define VIDIOC_MSM_ISP_INPUT_CFG \ _IOWR('V', MSM_ISP_INPUT_CFG, \ struct msm_vfe_input_cfg) #define VIDIOC_MSM_ISP_SET_SRC_STATE \ _IOWR('V', MSM_ISP_SET_SRC_STATE, \ struct msm_vfe_axi_src_state) #define VIDIOC_MSM_ISP_REQUEST_STATS_STREAM \ _IOWR('V', MSM_ISP_REQUEST_STATS_STREAM, \ struct msm_vfe_stats_stream_request_cmd) #define VIDIOC_MSM_ISP_CFG_STATS_STREAM \ _IOWR('V', MSM_ISP_CFG_STATS_STREAM, \ struct msm_vfe_stats_stream_cfg_cmd) #define VIDIOC_MSM_ISP_RELEASE_STATS_STREAM \ _IOWR('V', MSM_ISP_RELEASE_STATS_STREAM, \ struct msm_vfe_stats_stream_release_cmd) #define VIDIOC_MSM_ISP_REG_UPDATE_CMD \ _IOWR('V', MSM_ISP_REG_UPDATE_CMD, \ enum msm_vfe_input_src) #define VIDIOC_MSM_ISP_UPDATE_STREAM \ _IOWR('V', MSM_ISP_UPDATE_STREAM, \ struct msm_vfe_axi_stream_update_cmd) #define VIDIOC_MSM_VFE_REG_LIST_CFG \ _IOWR('V', MSM_VFE_REG_LIST_CFG, \ struct msm_vfe_cfg_cmd_list) #define VIDIOC_MSM_ISP_SMMU_ATTACH \ _IOWR('V', MSM_ISP_SMMU_ATTACH, \ struct msm_vfe_smmu_attach_cmd) #define VIDIOC_MSM_ISP_UPDATE_STATS_STREAM \ _IOWR('V', MSM_ISP_UPDATE_STATS_STREAM, \ struct msm_vfe_axi_stream_update_cmd) #define VIDIOC_MSM_ISP_AXI_HALT \ _IOWR('V', MSM_ISP_AXI_HALT, \ struct msm_vfe_axi_halt_cmd) #define VIDIOC_MSM_ISP_AXI_RESET \ _IOWR('V', MSM_ISP_AXI_RESET, \ struct msm_vfe_axi_reset_cmd) #define VIDIOC_MSM_ISP_AXI_RESTART \ _IOWR('V', MSM_ISP_AXI_RESTART, \ struct msm_vfe_axi_restart_cmd) #define VIDIOC_MSM_ISP_FETCH_ENG_START \ _IOWR('V', MSM_ISP_FETCH_ENG_START, \ struct msm_vfe_fetch_eng_start) #define VIDIOC_MSM_ISP_DEQUEUE_BUF \ _IOWR('V', MSM_ISP_DEQUEUE_BUF, \ struct msm_isp_qbuf_info) #define VIDIOC_MSM_ISP_SET_DUAL_HW_MASTER_SLAVE \ _IOWR('V', MSM_ISP_SET_DUAL_HW_MASTER_SLAVE, \ struct msm_isp_set_dual_hw_ms_cmd) #define VIDIOC_MSM_ISP_MAP_BUF_START_FE \ _IOWR('V', MSM_ISP_MAP_BUF_START_FE, \ struct msm_vfe_fetch_eng_start) #define VIDIOC_MSM_ISP_UNMAP_BUF \ _IOWR('V', MSM_ISP_UNMAP_BUF, \ struct msm_isp_unmap_buf_req) #endif /* __MSMB_ISP__ */