Add support to Video Input Interface on Toshiba Visconti ARM SoCs. The interface device includes CSI2 Receiver, frame grabber and image signal processor. A driver instance provides three /dev/videoX device files; one for RGB image capture, another one for optional RGB capture with different parameters and the last one for RAW capture. The implementation has two kind of C sources: * viif_* The user interface. It registers a media controller framework instance, three V4L2 driver instances and corresponding subdriver instances. The driver provides streaming (DMA-BUF) interface and vendor specific controls to configure the image signal processor. Memory blocks are specified with videobuf2 buffer backed by DMA-BUF. * hwd_viif_* The hardware layer. It configures hardware registers following a request from viif_*.c This layer communicate with the hardware via registers. Memory blocks are specified with 32bit-truncated phisical address. For media controller framework the driver provides two items; * ISP subdevice: which controls CSI2 receiver and image signal processor. * Capture device: which controls video DMAC, videobuf2 buffers. Currently subdevices support only one default network. Future plan: * Power management operations will be added, once the visconti clock framework driver supports the Video Input Interface hardware. * When the visconti IOMMU driver (currently under review) is accepted, the hardware layer will use 32bit IO virtual address mapped by the dedicated IOMMU. Signed-off-by: Yuji Ishikawa <yuji2.ishikawa@xxxxxxxxxxxxx> --- Changelog v2: - Resend v1 because a patch exceeds size limit. Changelog v3: - Adapted to media control framework - Introduced ISP subdevice, capture device - Remove private IOCTLs and add vendor specific V4L2 controls - Change function name avoiding camelcase and uppercase letters --- drivers/media/platform/Kconfig | 2 + drivers/media/platform/Makefile | 4 + drivers/media/platform/visconti/Kconfig | 9 + drivers/media/platform/visconti/Makefile | 9 + drivers/media/platform/visconti/hwd_viif.c | 1791 +++++++++++ drivers/media/platform/visconti/hwd_viif.h | 701 +++++ .../media/platform/visconti/hwd_viif_csi2rx.c | 723 +++++ .../platform/visconti/hwd_viif_internal.h | 348 ++ .../media/platform/visconti/hwd_viif_l1isp.c | 2727 ++++++++++++++++ .../media/platform/visconti/hwd_viif_reg.h | 2802 +++++++++++++++++ drivers/media/platform/visconti/viif.c | 479 +++ drivers/media/platform/visconti/viif.h | 195 ++ .../media/platform/visconti/viif_capture.c | 1215 +++++++ .../media/platform/visconti/viif_controls.c | 1149 +++++++ drivers/media/platform/visconti/viif_isp.c | 852 +++++ include/uapi/linux/visconti_viif.h | 1724 ++++++++++ 16 files changed, 14730 insertions(+) create mode 100644 drivers/media/platform/visconti/Kconfig create mode 100644 drivers/media/platform/visconti/Makefile create mode 100644 drivers/media/platform/visconti/hwd_viif.c create mode 100644 drivers/media/platform/visconti/hwd_viif.h create mode 100644 drivers/media/platform/visconti/hwd_viif_csi2rx.c create mode 100644 drivers/media/platform/visconti/hwd_viif_internal.h create mode 100644 drivers/media/platform/visconti/hwd_viif_l1isp.c create mode 100644 drivers/media/platform/visconti/hwd_viif_reg.h create mode 100644 drivers/media/platform/visconti/viif.c create mode 100644 drivers/media/platform/visconti/viif.h create mode 100644 drivers/media/platform/visconti/viif_capture.c create mode 100644 drivers/media/platform/visconti/viif_controls.c create mode 100644 drivers/media/platform/visconti/viif_isp.c create mode 100644 include/uapi/linux/visconti_viif.h diff --git a/drivers/media/platform/Kconfig b/drivers/media/platform/Kconfig index cf4adc64c..0eb1dfc05 100644 --- a/drivers/media/platform/Kconfig +++ b/drivers/media/platform/Kconfig @@ -31,6 +31,8 @@ source "drivers/media/platform/davinci/Kconfig" source "drivers/media/platform/omap/Kconfig" +source "drivers/media/platform/visconti/Kconfig" + config VIDEO_ASPEED tristate "Aspeed AST2400 and AST2500 Video Engine driver" depends on VIDEO_V4L2 diff --git a/drivers/media/platform/Makefile b/drivers/media/platform/Makefile index a148553ba..4af489811 100644 --- a/drivers/media/platform/Makefile +++ b/drivers/media/platform/Makefile @@ -84,6 +84,10 @@ obj-$(CONFIG_VIDEO_QCOM_CAMSS) += qcom/camss/ obj-$(CONFIG_VIDEO_QCOM_VENUS) += qcom/venus/ +obj-$(CONFIG_ARCH_VISCONTI) += visconti/ + obj-y += sunxi/ obj-$(CONFIG_VIDEO_MESON_GE2D) += meson/ge2d/ + + diff --git a/drivers/media/platform/visconti/Kconfig b/drivers/media/platform/visconti/Kconfig new file mode 100644 index 000000000..1e4ca386d --- /dev/null +++ b/drivers/media/platform/visconti/Kconfig @@ -0,0 +1,9 @@ +config VIDEO_VISCONTI_VIIF + tristate "Visconti Camera Interface driver" + depends on VIDEO_V4L2 && MEDIA_CONTROLLER + depends on ARCH_VISCONTI + select VIDEOBUF2_DMA_CONTIG + select V4L2_FWNODE + help + This is V4L2 driver for Toshiba Visconti Camera Interface driver + diff --git a/drivers/media/platform/visconti/Makefile b/drivers/media/platform/visconti/Makefile new file mode 100644 index 000000000..13cf70ce3 --- /dev/null +++ b/drivers/media/platform/visconti/Makefile @@ -0,0 +1,9 @@ +# SPDX-License-Identifier: GPL-2.0 +# +# Makefile for the Visconti video input device driver +# + +visconti-viif-objs = viif.o viif_capture.o viif_controls.o viif_isp.o +visconti-viif-objs += hwd_viif_csi2rx.o hwd_viif.o hwd_viif_l1isp.o + +obj-$(CONFIG_VIDEO_VISCONTI_VIIF) += visconti-viif.o diff --git a/drivers/media/platform/visconti/hwd_viif.c b/drivers/media/platform/visconti/hwd_viif.c new file mode 100644 index 000000000..ac02bc982 --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif.c @@ -0,0 +1,1791 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/delay.h> +#include <linux/io.h> + +#include "hwd_viif.h" +#include "hwd_viif_internal.h" + +/* MIPI CSI2 DataType definition */ +#define CSI2_DT_YUV4228B VISCONTI_CSI2_DT_YUV4228B +#define CSI2_DT_YUV42210B VISCONTI_CSI2_DT_YUV42210B +#define CSI2_DT_RGB565 VISCONTI_CSI2_DT_RGB565 +#define CSI2_DT_RGB888 VISCONTI_CSI2_DT_RGB888 +#define CSI2_DT_RAW8 VISCONTI_CSI2_DT_RAW8 +#define CSI2_DT_RAW10 VISCONTI_CSI2_DT_RAW10 +#define CSI2_DT_RAW12 VISCONTI_CSI2_DT_RAW12 +#define CSI2_DT_RAW14 VISCONTI_CSI2_DT_RAW14 + +static struct hwd_viif_res hwd_VIIF0_res = { + .ch = 0, + .csi2rx_type = HWD_VIIF_CSI2_TYPE_4_LANES, + .sram_size_w_port = 0x200, + .sram_size_r_port = 0x200, + .sram_start_addr_gamma = 0x640, + .run_flag_main = (bool)false, +}; + +static struct hwd_viif_res hwd_VIIF1_res = { + .ch = 1, + .csi2rx_type = HWD_VIIF_CSI2_TYPE_4_LANES, + .sram_size_w_port = 0x200, + .sram_size_r_port = 0x200, + .sram_start_addr_gamma = 0x640, + .run_flag_main = (bool)false, +}; + +/** + * viif_id2res() - resource data for specified module ID + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: Pointer to resource access structure + */ +struct hwd_viif_res *viif_id2res(u32 module_id) +{ + return (module_id == 0) ? &hwd_VIIF0_res : &hwd_VIIF1_res; +} + +/** + * hwd_viif_initialize() - Initialize VIIF HWD layer. + * + * @csi2host_vaddr: VIIF CSI-2 RX register base address(virtual address) + * @capture_vaddr: VIIF capture(system, vdmac, l1isp, l2isp) register base address(virtual address) + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + */ +s32 hwd_viif_initialize(u32 module_id, void *csi2host_vaddr, void *capture_vaddr) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + /* Store virtual address of the register base */ + res->csi2host_reg = csi2host_vaddr; + res->capture_reg = capture_vaddr; + + return 0; +} + +/** + * hwd_viif_uninitialize() - De-initialize VIIF HWD layer. + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + */ +s32 hwd_viif_uninitialize(u32 module_id) +{ + return 0; +} + +/* Convert the unit of time-period (from sysclk, to num lines in the image) */ +static u32 sysclk_to_numlines(u64 time_in_sysclk, const struct hwd_viif_input_img *img) +{ + u64 v1 = time_in_sysclk * (u64)img->pixel_clock; + u64 v2 = (u64)img->htotal_size * HWD_VIIF_SYS_CLK; + + return (u32)(v1 / v2); +} + +static u32 lineperiod_in_sysclk(u64 hsize, u64 pixel_clock) +{ + return (u32)(hsize * HWD_VIIF_SYS_CLK / pixel_clock); +} + +/** + * hwd_viif_main_set_unit() - Set static configuration of MAIN unit(CH0 or CH1) + * + * @dt_image: DT of image [0x10-0x17, 0x1B, 0x1E, 0x1F, 0x22, 0x24-0x27, 0x2A-0x3F]) + * @in_img: Pointer to input image information + * @color_type: Color type of image [0x0, 0x1E, 0x1F, 0x22, 0x24, 0x2A-0x2D] + * @rawpack: RAW pack mode. For more refer @ref hwd_viif_raw_pack_mode + * @yuv_conv: YUV422 to YUV444 conversion mode. For more refer @ref hwd_viif_yuv_conversion_mode + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "dt_image" is out of range + * - [2] "in_img" is NULL + * - [3] member of "in_img" is invalid + * - [4] "color_type" is out of range + * - [5] "color_type" doesn't meet the condition shown in the below note + * - [6] "rawpack" is out of range + * - [7] "rawpack" is not HWD_VIIF_RAWPACK_DISABLE when color_type is other than RAW(0x2A-0x2C) + * - [8] "yuv_conv" is out of range + * - [9] "yuv_conv" is not HWD_VIIF_YUV_CONV_REPEAT + * when color_type is other than YUV422(0x1E or 0x1F) + * + * Note: valid combination between "dt_image" and "color_type" is + * - when "dt_image" is [0x10-0x17, 0x1B, 0x25-0x27, 0x2E-0x3F], "color_type" must be [0x2A-0x2D]. + * - when "dt_image" is valid value and other than [0x10-0x17, 0x1B, 0x25-0x27, 0x2E-0x3F], + * "color_type" must be "dt_image" + */ +s32 hwd_viif_main_set_unit(u32 module_id, u32 dt_image, const struct hwd_viif_input_img *in_img, + u32 color_type, u32 rawpack, u32 yuv_conv) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 total_hact_size = 0U, total_vact_size = 0U; + u32 sw_delay0, sw_delay1, hw_delay; + u32 val, color, sysclk_num; + u32 i; + + /* + * 0x00-0x09: ShortPacket/Undefined + * 0x18-0x1A: YUV420 + * 0x1C,0x1D: YUV420 CSPS + * 0x20,0x21,0x23: RGB444, RGB555, RGB666 + * 0x28,0x29: RAW6, RAW7 + */ + if (dt_image <= 0x09U || (dt_image >= 0x18U && dt_image <= 0x1AU) || dt_image == 0x1CU || + dt_image == 0x1DU || dt_image == 0x20U || dt_image == 0x21U || dt_image == 0x23U || + dt_image == 0x28U || dt_image == 0x29U || dt_image > HWD_VIIF_CSI2_MAX_DT) { + return -EINVAL; + } + + /*Case: Generic Long Packet, Reserved, User-Defined*/ + if ((dt_image >= 0x10U && dt_image <= 0x17U) || dt_image == 0x1bU || + (dt_image >= 0x25U && dt_image <= 0x27U) || dt_image >= 0x2eU) { + if (color_type != CSI2_DT_RAW8 && color_type != CSI2_DT_RAW10 && + color_type != CSI2_DT_RAW12 && color_type != CSI2_DT_RAW14) { + return -EINVAL; + } + } else { + /*Case: Otherwise: YUV, RGB, RAW*/ + /*Constraint: color_type must be dt_image*/ + if (color_type != dt_image) + return -EINVAL; + } + + if (!in_img) + return -EINVAL; + if (rawpack != HWD_VIIF_RAWPACK_DISABLE && rawpack != HWD_VIIF_RAWPACK_MSBFIRST && + rawpack != HWD_VIIF_RAWPACK_LSBFIRST) { + return -EINVAL; + } + if (color_type != CSI2_DT_RAW8 && color_type != CSI2_DT_RAW10 && + color_type != CSI2_DT_RAW12 && rawpack != HWD_VIIF_RAWPACK_DISABLE) { + return -EINVAL; + } + + if (in_img->pixel_clock < HWD_VIIF_MIN_PIXEL_CLOCK || + in_img->pixel_clock > HWD_VIIF_MAX_PIXEL_CLOCK || + in_img->htotal_size < HWD_VIIF_MIN_HTOTAL_PIXEL || + in_img->htotal_size > HWD_VIIF_MAX_HTOTAL_PIXEL || + in_img->vtotal_size < HWD_VIIF_MIN_VTOTAL_LINE || + in_img->vtotal_size > HWD_VIIF_MAX_VTOTAL_LINE || + in_img->vbp_size < HWD_VIIF_MIN_VBP_LINE || in_img->vbp_size > HWD_VIIF_MAX_VBP_LINE || + ((in_img->hactive_size % 2U) != 0U) || ((in_img->vactive_size % 2U) != 0U)) { + return -EINVAL; + } + + if (in_img->interpolation_mode != HWD_VIIF_L1_INPUT_INTERPOLATION_LINE && + in_img->interpolation_mode != HWD_VIIF_L1_INPUT_INTERPOLATION_PIXEL) { + return -EINVAL; + } + + if (in_img->input_num < HWD_VIIF_L1_INPUT_NUM_MIN || + in_img->input_num > HWD_VIIF_L1_INPUT_NUM_MAX) { + return -EINVAL; + } + + if (in_img->hobc_width != 0U && in_img->hobc_width != 16U && in_img->hobc_width != 32U && + in_img->hobc_width != 64U && in_img->hobc_width != 128U) { + return -EINVAL; + } + + if (in_img->hobc_margin > 30U || ((in_img->hobc_margin % 2U) != 0U)) + return -EINVAL; + + if (in_img->hobc_width == 0U && in_img->hobc_margin != 0U) + return -EINVAL; + + if (in_img->hobc_width != 0U && in_img->hobc_margin == 0U) + return -EINVAL; + + if (color_type == CSI2_DT_RAW8 || color_type == CSI2_DT_RAW10 || + color_type == CSI2_DT_RAW12 || color_type == CSI2_DT_RAW14) { + /* parameter check in case of L1ISP(in case of RAW) */ + if (in_img->hactive_size < HWD_VIIF_MIN_HACTIVE_PIXEL_W_L1ISP || + in_img->hactive_size > HWD_VIIF_MAX_HACTIVE_PIXEL_W_L1ISP || + in_img->vactive_size < HWD_VIIF_MIN_VACTIVE_LINE_W_L1ISP || + in_img->vactive_size > HWD_VIIF_MAX_VACTIVE_LINE_W_L1ISP || + ((in_img->hactive_size % 8U) != 0U)) { + return -EINVAL; + } + + /* check vbp range in case of L1ISP on */ + /* the constant value "7" is configuration margin */ + val = sysclk_to_numlines( + HWD_VIIF_TABLE_LOAD_TIME + HWD_VIIF_REGBUF_ACCESS_TIME * 2U, in_img) + + HWD_VIIF_L1_DELAY_W_HDRC + 7U; + if (in_img->vbp_size < val) + return -EINVAL; + + /* calculate total of horizontal active size and vertical active size */ + if (rawpack != HWD_VIIF_RAWPACK_DISABLE) { + val = (in_img->hactive_size + in_img->hobc_width + in_img->hobc_margin) * + 2U; + } else { + val = in_img->hactive_size + in_img->hobc_width + in_img->hobc_margin; + } + if (in_img->interpolation_mode == HWD_VIIF_L1_INPUT_INTERPOLATION_LINE) { + total_hact_size = val; + total_vact_size = in_img->vactive_size * in_img->input_num; + } else { + total_hact_size = val * in_img->input_num; + total_vact_size = in_img->vactive_size; + } + } else { + /* OTHER input than RAW(L1ISP is off) */ + if (in_img->hactive_size < HWD_VIIF_MIN_HACTIVE_PIXEL_WO_L1ISP || + in_img->hactive_size > HWD_VIIF_MAX_HACTIVE_PIXEL_WO_L1ISP || + in_img->vactive_size < HWD_VIIF_MIN_VACTIVE_LINE_WO_L1ISP || + in_img->vactive_size > HWD_VIIF_MAX_VACTIVE_LINE_WO_L1ISP || + in_img->interpolation_mode != HWD_VIIF_L1_INPUT_INTERPOLATION_LINE || + in_img->input_num != HWD_VIIF_L1_INPUT_NUM_MIN || in_img->hobc_width != 0U) { + return -EINVAL; + } + + /* check vbp range in case of L1ISP off */ + /* the constant value "16" is configuration margin */ + val = sysclk_to_numlines(HWD_VIIF_TABLE_LOAD_TIME + HWD_VIIF_REGBUF_ACCESS_TIME, + in_img) + + 16U; + if (in_img->vbp_size < val) + return -EINVAL; + + total_hact_size = in_img->hactive_size; + total_vact_size = in_img->vactive_size; + } + + if (in_img->htotal_size <= total_hact_size || + (in_img->vtotal_size <= (in_img->vbp_size + total_vact_size))) { + return -EINVAL; + } + + if (yuv_conv != HWD_VIIF_YUV_CONV_REPEAT && yuv_conv != HWD_VIIF_YUV_CONV_INTERPOLATION) + return -EINVAL; + + if (color_type != CSI2_DT_YUV4228B && color_type != CSI2_DT_YUV42210B && + yuv_conv != HWD_VIIF_YUV_CONV_REPEAT) { + return -EINVAL; + } + + /* Set DT and color type of image data */ + writel((color_type << 8U) | dt_image, &res->capture_reg->sys.IPORTM_MAIN_DT); + writel(0x00, &res->capture_reg->sys.IPORTM_OTHER); + res->dt_image_main_w_isp = dt_image; + + /* Set back porch*/ + writel((in_img->vbp_size << 16U) | HWD_VIIF_HBP_SYSCLK, + &res->capture_reg->sys.BACK_PORCH_M); + + /* single pulse of vsync is input to DPGM */ + writel(HWD_VIIF_DPGM_VSYNC_PULSE, &res->capture_reg->sys.DPGM_VSYNC_SOURCE); + + /* image data will be input */ + /* set preprocess type before L2ISP based on color_type. */ + if (color_type == CSI2_DT_YUV4228B || color_type == CSI2_DT_YUV42210B) { + /* YUV422 */ + color = 3U; + } else if (color_type == CSI2_DT_RGB565 || color_type == CSI2_DT_RGB888) { + /* RGB */ + color = 0U; + } else { + /* RGB or YUV444 from L1ISP */ + color = 1U; + } + writel(color << 4U, &res->capture_reg->sys.PREPROCCESS_FMTM); + + /* set Total size and valid size information of image data */ + sysclk_num = lineperiod_in_sysclk(in_img->htotal_size, in_img->pixel_clock); + sysclk_num &= GENMASK(15, 0); + writel((in_img->vtotal_size << 16U) | sysclk_num, &res->capture_reg->sys.TOTALSIZE_M); + writel((total_vact_size << 16U) | total_hact_size, &res->capture_reg->sys.VALSIZE_M); + + /* set image size information to L2ISP */ + writel(in_img->vactive_size, &res->capture_reg->l2isp.L2_SENSOR_CROP_VSIZE); + writel(in_img->hactive_size, &res->capture_reg->l2isp.L2_SENSOR_CROP_HSIZE); + + /* RAW input case */ + if (color_type >= CSI2_DT_RAW8) { + val = (in_img->interpolation_mode << 3U) | (in_img->input_num); + writel(val, &res->capture_reg->l1isp.L1_IBUF_INPUT_ORDER); + writel(in_img->vactive_size, &res->capture_reg->l1isp.L1_SYSM_HEIGHT); + writel(in_img->hactive_size, &res->capture_reg->l1isp.L1_SYSM_WIDTH); + val = (in_img->hobc_margin << 8U) | in_img->hobc_width; + writel(val, &res->capture_reg->l1isp.L1_HOBC_MARGIN); + } + + /* Set rawpack */ + writel(rawpack, &res->capture_reg->sys.IPORTM_MAIN_RAW); + + /* Set yuv_conv */ + writel(yuv_conv, &res->capture_reg->sys.PREPROCCESS_C24M); + + /* Set vsync delay */ + hw_delay = in_img->vbp_size - sysclk_to_numlines(HWD_VIIF_TABLE_LOAD_TIME, in_img) + 4U; + hw_delay = min(hw_delay, 255U); + + sw_delay0 = hw_delay - sysclk_to_numlines(HWD_VIIF_REGBUF_ACCESS_TIME, in_img) + 2U; + + if (color_type == CSI2_DT_RAW8 || color_type == CSI2_DT_RAW10 || + color_type == CSI2_DT_RAW12 || color_type == CSI2_DT_RAW14) { + sw_delay1 = sysclk_to_numlines(HWD_VIIF_REGBUF_ACCESS_TIME, in_img) + + HWD_VIIF_L1_DELAY_WO_HDRC + 1U; + } else { + sw_delay1 = 10U; + } + writel(sw_delay0 << 16U, &res->capture_reg->sys.INT_M0_LINE); + writel((sw_delay1 << 16U) | hw_delay, &res->capture_reg->sys.INT_M1_LINE); + + /* M2_LINE is the same condition as M1_LINE */ + writel((sw_delay1 << 16U) | hw_delay, &res->capture_reg->sys.INT_M2_LINE); + + /* Update internal information of pixel clock, htotal_size, information of L2 ROI */ + res->pixel_clock = in_img->pixel_clock; + res->htotal_size = in_img->htotal_size; + res->l2_roi_path_info.roi_num = 0; + for (i = 0; i < HWD_VIIF_MAX_POST_NUM; i++) { + res->l2_roi_path_info.post_enable_flag[i] = false; + res->l2_roi_path_info.post_crop_x[i] = 0; + res->l2_roi_path_info.post_crop_y[i] = 0; + res->l2_roi_path_info.post_crop_w[i] = 0; + res->l2_roi_path_info.post_crop_h[i] = 0; + } + + return 0; +} + +/** + * hwd_viif_main_mask_vlatch() - Control Vlatch mask of MAIN unit + * + * @enable: or disable Vlatch mask of MAIN unit. For more refer @ref hwd_viif_enable_flag. + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - "enable" is out of range + */ +s32 hwd_viif_main_mask_vlatch(u32 module_id, u32 enable) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (enable != HWD_VIIF_ENABLE && enable != HWD_VIIF_DISABLE) + return -EINVAL; + + if (res->ch != 0U && res->ch != 1U) + return -EINVAL; + + if (enable == HWD_VIIF_ENABLE) + enable |= HWD_VIIF_ISP_VLATCH_MASK; + + /* Control Vlatch mask */ + writel(enable, &res->capture_reg->sys.IPORTM0_LD); + writel(enable, &res->capture_reg->sys.IPORTM1_LD); + + return 0; +} + +/** + * hwd_viif_main_status_err_set_irq_mask() - Set mask condition for STATUS error of MAIN unit + * + * @mask: STATUS error mask condition + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_main_status_err_set_irq_mask(u32 module_id, u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->sys.INT_M_MASK); +} + +/** + * hwd_viif_main_vsync_set_irq_mask() - Set mask condition for Vsync of MAIN unit + * + * @mask: Vsync mask condition + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_main_vsync_set_irq_mask(u32 module_id, u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->sys.INT_M_SYNC_MASK); +} + +#define VDM_BIT_W00 BIT(0) +#define VDM_BIT_W01 BIT(1) +#define VDM_BIT_W02 BIT(2) +#define VDM_BIT_W03 BIT(3) +#define VDM_BIT_W04 BIT(4) +#define VDM_BIT_W05 BIT(5) +#define VDM_BIT_R00 BIT(0) +#define VDM_BIT_R01 BIT(1) +#define VDM_BIT_R02 BIT(2) + +#define VDM_ABORT_MASK_SUB_W (VDM_BIT_W03 | VDM_BIT_W04 | VDM_BIT_W05) +#define VDM_ABORT_MASK_MAIN_W (VDM_BIT_W00 | VDM_BIT_W01 | VDM_BIT_W02) +#define VDM_ABORT_MASK_MAIN_R (VDM_BIT_R00 | VDM_BIT_R01 | VDM_BIT_R02) + +/** + * hwd_viif_sub_set_unit() - Set static configuration of SUB unit + * + * @dt_image: DT of image [0x1E, 0x1F, 0x22, 0x24, 0x2A-0x2D] + * @in_img: Pointer to input image information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "dt_image" is out of range + * - [2] "in_img" is NULL + * - [3] member of "in_img" is invalid + */ +s32 hwd_viif_sub_set_unit(u32 module_id, u32 dt_image, const struct hwd_viif_input_img *in_img) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 sysclk_num, temp_delay; + + if (dt_image < 0x2aU || dt_image > 0x2dU) + return -EINVAL; + + if (!in_img) + return -EINVAL; + + if (in_img->hactive_size != 0U || + in_img->interpolation_mode != HWD_VIIF_L1_INPUT_INTERPOLATION_LINE || + in_img->input_num != HWD_VIIF_L1_INPUT_NUM_MIN || in_img->hobc_width != 0U || + in_img->hobc_margin != 0U) { + return -EINVAL; + } + + if (in_img->pixel_clock < HWD_VIIF_MIN_PIXEL_CLOCK || + in_img->pixel_clock > HWD_VIIF_MAX_PIXEL_CLOCK || + in_img->htotal_size < HWD_VIIF_MIN_HTOTAL_PIXEL || + in_img->htotal_size > HWD_VIIF_MAX_HTOTAL_PIXEL || + in_img->vtotal_size < HWD_VIIF_MIN_VTOTAL_LINE || + in_img->vtotal_size > HWD_VIIF_MAX_VTOTAL_LINE || + in_img->vbp_size < HWD_VIIF_MIN_VBP_LINE || in_img->vbp_size > HWD_VIIF_MAX_VBP_LINE || + in_img->vactive_size < HWD_VIIF_MIN_VACTIVE_LINE_WO_L1ISP || + in_img->vactive_size > HWD_VIIF_MAX_VACTIVE_LINE_WO_L1ISP || + ((in_img->vactive_size % 2U) != 0U)) { + return -EINVAL; + } + + if (in_img->vtotal_size <= (in_img->vbp_size + in_img->vactive_size)) + return -EINVAL; + + /* Set DT of image data and DT of long packet data*/ + writel(dt_image, &res->capture_reg->sys.IPORTS_MAIN_DT); + writel(0x00, &res->capture_reg->sys.IPORTS_OTHER); + + /* Set line size and delay value of delayed Vsync */ + sysclk_num = lineperiod_in_sysclk(in_img->htotal_size, in_img->pixel_clock); + writel(sysclk_num & GENMASK(15, 0), &res->capture_reg->sys.INT_SA0_LINE); + temp_delay = in_img->vbp_size - 4U; + if (temp_delay > 255U) { + /* Replace the value with HW max spec */ + temp_delay = 255U; + } + writel(temp_delay, &res->capture_reg->sys.INT_SA1_LINE); + + return 0; +} + +#define VDMAC_SRAM_BASE_ADDR_W03 0x440U + +/** + * hwd_viif_sub_set_img_transmission() - Set image transfer condition of SUB unit + * + * @img: Pointer to output image information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] Member of "img" is invalid + */ +s32 hwd_viif_sub_set_img_transmission(u32 module_id, const struct hwd_viif_img *img) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + struct hwd_viif_vdm_write_port_reg *wport3; + u32 img_start_addr, img_end_addr; + u32 data_width, pitch, height; + u32 k, port_control; + + /* disable VDMAC when img is NULL */ + if (!img) { + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTS_IMGEN); + port_control = ~((u32)1U << 3U) & readl(&res->capture_reg->vdm.VDM_W_ENABLE); + writel(port_control, &res->capture_reg->vdm.VDM_W_ENABLE); + return 0; + } + + if (((img->width % 2U) != 0U) || ((img->height % 2U) != 0U)) + return -EINVAL; + + if (img->width < HWD_VIIF_MIN_OUTPUT_IMG_WIDTH || + img->height < HWD_VIIF_MIN_OUTPUT_IMG_HEIGHT || + img->width > HWD_VIIF_MAX_OUTPUT_IMG_WIDTH_SUB || + img->height > HWD_VIIF_MAX_OUTPUT_IMG_HEIGHT_SUB) { + return -EINVAL; + } + + img_start_addr = (u32)img->pixelmap[0].pmap_paddr; + pitch = img->pixelmap[0].pitch; + height = img->height; + + switch (img->format) { + case HWD_VIIF_ONE_COLOR_8: + data_width = 0U; + img_end_addr = img_start_addr + img->width - 1U; + k = 1; + break; + case HWD_VIIF_ONE_COLOR_16: + data_width = 1U; + img_end_addr = img_start_addr + (img->width * 2U) - 1U; + k = 2; + break; + default: + return -EINVAL; + } + + if ((img_start_addr % 4U) != 0U) + return -EINVAL; + + if ((pitch < (img->width * k)) || pitch > HWD_VIIF_MAX_PITCH || ((pitch % 4U) != 0U)) + return -EINVAL; + + wport3 = &res->capture_reg->vdm.w_port[3]; + writel(VDMAC_SRAM_BASE_ADDR_W03, &wport3->VDM_W_SRAM_BASE); + writel(res->sram_size_w_port, &wport3->VDM_W_SRAM_SIZE); + writel(img_start_addr, &wport3->VDM_W_STADR); + writel(img_end_addr, &wport3->VDM_W_ENDADR); + writel(height, &wport3->VDM_W_HEIGHT); + writel(pitch, &wport3->VDM_W_PITCH); + writel(data_width << 8U, &wport3->VDM_W_CFG0); + port_control = BIT(3) | readl(&res->capture_reg->vdm.VDM_W_ENABLE); + writel(port_control, &res->capture_reg->vdm.VDM_W_ENABLE); + writel(HWD_VIIF_ENABLE, &res->capture_reg->sys.IPORTS_IMGEN); + + return 0; +} + +/** + * hwd_viif_sub_status_err_set_irq_mask() - + * Set mask condition for STATUS error of SUB unit or VOIF loopback + * + * @mask: STATUS error mask condition + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_sub_status_err_set_irq_mask(u32 module_id, u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->sys.INT_S_MASK); +} + +/** + * hwd_viif_sub_vsync_set_irq_mask() - Set mask condition for Vsync of SUB unit or VOIF loopback + * + * @mask: Vsync mask condition + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_sub_vsync_set_irq_mask(u32 module_id, const u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->sys.INT_S_SYNC_MASK); +} + +/** + * hwd_viif_isp_set_regbuf_auto_transmission() - Set register buffer auto transmission + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_isp_set_regbuf_auto_transmission(u32 module_id) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + /* Set parameters for auto read transmission of register buffer */ + + if (res->dt_image_main_w_isp != 0x0U) { + /* + * configuration is done + * only when dt_image is not 0, means image data is input to ISP. + */ + writel(0x0, &res->capture_reg->l1isp.L1_CRGBF_TRN_A_CONF); + writel(0x0, &res->capture_reg->l2isp.L2_CRGBF_TRN_A_CONF); + writel(HWD_VIIF_L1_CRGBF_R_START_ADDR_LIMIT, + &res->capture_reg->l1isp.L1_CRGBF_TRN_RBADDR); + writel(HWD_VIIF_L1_CRGBF_R_END_ADDR_LIMIT, + &res->capture_reg->l1isp.L1_CRGBF_TRN_READDR); + writel(HWD_VIIF_L2_CRGBF_R_START_ADDR_LIMIT, + &res->capture_reg->l2isp.L2_CRGBF_TRN_RBADDR); + writel(HWD_VIIF_L2_CRGBF_R_END_ADDR_LIMIT, + &res->capture_reg->l2isp.L2_CRGBF_TRN_READDR); + val = BIT(16); + writel(val, &res->capture_reg->l2isp.L2_CRGBF_TRN_A_CONF); + writel(val, &res->capture_reg->l1isp.L1_CRGBF_TRN_A_CONF); + } +} + +/** + * hwd_viif_isp_disable_regbuf_auto_transmission() - Disable register buffer auto transmission + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_isp_disable_regbuf_auto_transmission(u32 module_id) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (res->dt_image_main_w_isp != 0x0U) { + writel(0x0, &res->capture_reg->l1isp.L1_CRGBF_TRN_A_CONF); + writel(0x0, &res->capture_reg->l2isp.L2_CRGBF_TRN_A_CONF); + } +} + +/** + * hwd_viif_isp_guard_start() - stop register auto update + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * + * This function call stops update of some hardware registers + * while the manual setup of VIIF, L1ISP registers is in progress. + * + * * regbuf control: load/store HW register (settings, status) values to backup SRAM. + * * vlatch control: copy timer-counter register value to status register. + */ +void hwd_viif_isp_guard_start(u32 module_id) +{ + hwd_viif_isp_disable_regbuf_auto_transmission(module_id); + ndelay(500); + hwd_viif_main_mask_vlatch(module_id, HWD_VIIF_ENABLE); +} + +/** + * hwd_viif_isp_guard_start() - restart register auto update + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * + * see also hwd_viif_isp_guard_start(). + */ +void hwd_viif_isp_guard_end(u32 module_id) +{ + hwd_viif_main_mask_vlatch(module_id, HWD_VIIF_DISABLE); + hwd_viif_isp_set_regbuf_auto_transmission(module_id); +} + +#define L2_STATUS_REPORT_MASK 0x1eU + +/** + * hwd_viif_isp_get_info() - Get processing information of L1ISP and L2ISP + * + * @l1_info: L1ISP processing information + * @l2_transfer_status: status of L2ISP transmission + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_isp_get_info(u32 module_id, struct hwd_viif_l1_info *l1_info, u32 *l2_transfer_status) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, l2_status; + int i, j; + + if (l1_info) { + /* change register buffer to regbuf0 where driver gets information */ + writel(HWD_VIIF_ISP_REGBUF_MODE_BUFFER, &res->capture_reg->l1isp.L1_CRGBF_ACC_CONF); + + /* get AWB info */ + l1_info->awb_ave_u = readl(&res->capture_reg->l1isp.L1_AWHB_AVE_USIG); + l1_info->awb_ave_v = readl(&res->capture_reg->l1isp.L1_AWHB_AVE_VSIG); + l1_info->awb_accumulated_pixel = readl(&res->capture_reg->l1isp.L1_AWHB_NUM_UVON); + l1_info->awb_gain_r = readl(&res->capture_reg->l1isp.L1_AWHB_AWBGAINR); + l1_info->awb_gain_g = readl(&res->capture_reg->l1isp.L1_AWHB_AWBGAING); + l1_info->awb_gain_b = readl(&res->capture_reg->l1isp.L1_AWHB_AWBGAINB); + val = readl(&res->capture_reg->l1isp.L1_AWHB_R_CTR_STOP); + l1_info->awb_status_u = (FIELD_GET(BIT(1), val) != 0); + l1_info->awb_status_v = (FIELD_GET(BIT(0), val) != 0); + + /* get average luminance info */ + l1_info->avg_lum_weight = readl(&res->capture_reg->l1isp.L1_AEXP_RESULT_AVE); + val = readl(&res->capture_reg->l1isp.L1_AEXP_SATUR_BLACK_PIXNUM); + l1_info->avg_satur_pixnum = FIELD_GET(GENMASK(31, 16), val); + l1_info->avg_black_pixnum = FIELD_GET(GENMASK(15, 0), val); + for (i = 0; i < 8; i++) { + for (j = 0; j < 8; j++) { + l1_info->avg_lum_block[i][j] = + readl(&res->capture_reg->l1isp.L1_AEXP_AVE[i][j]); + } + } + l1_info->avg_lum_four_line_lum[0] = + readl(&res->capture_reg->l1isp.L1_AEXP_AVE4LINES0); + l1_info->avg_lum_four_line_lum[1] = + readl(&res->capture_reg->l1isp.L1_AEXP_AVE4LINES1); + l1_info->avg_lum_four_line_lum[2] = + readl(&res->capture_reg->l1isp.L1_AEXP_AVE4LINES2); + l1_info->avg_lum_four_line_lum[3] = + readl(&res->capture_reg->l1isp.L1_AEXP_AVE4LINES3); + + /* revert to register access from register buffer access */ + writel(HWD_VIIF_ISP_REGBUF_MODE_BYPASS, &res->capture_reg->l1isp.L1_CRGBF_ACC_CONF); + } + + if (l2_transfer_status) { + /* get L2ISP abort information */ + l2_status = readl(&res->capture_reg->l2isp.L2_CRGBF_ISP_INT); + writel(l2_status, &res->capture_reg->l2isp.L2_CRGBF_ISP_INT); + *l2_transfer_status = l2_status & L2_STATUS_REPORT_MASK; + } +} + +/** + * hwd_viif_isp_set_regbuf_irq_mask() - Set mask condition for ISP register buffer + * + * @mask_l1: Pointer to mask configuration for L1ISP register buffer interruption + * @mask_l2: Pointer to mask configuration for L2ISP register buffer interruption + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_isp_set_regbuf_irq_mask(u32 module_id, const u32 *mask_l1, const u32 *mask_l2) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(*mask_l1, &res->capture_reg->l1isp.L1_CRGBF_INT_MASK); + writel(*mask_l2, &res->capture_reg->l2isp.L2_CRGBF_INT_MASK); +} + +/** + * hwd_viif_l2_set_input_csc() - Set input CSC parameters of L2ISP + * + * @param: Pointer to input csc parameters of L2ISP + * @is_l1_rgb: input information of L2ISP + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] Member of "param" is invalid + */ +s32 hwd_viif_l2_set_input_csc(u32 module_id, const struct hwd_viif_csc_param *param, bool is_l1_rgb) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + struct hwd_viif_csc_param hwd_param; + u32 enable = HWD_VIIF_ENABLE; + bool csc_enable_flag = true; + u32 i, val; + + if (param) { + if (param->r_cr_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->g_y_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->b_cb_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->r_cr_out_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->g_y_out_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->b_cb_out_offset > HWD_VIIF_CSC_MAX_OFFSET) { + return -EINVAL; + } + + for (i = 0; i < HWD_VIIF_CSC_MAX_COEF_NUM; i++) { + if (param->coef[i] > HWD_VIIF_CSC_MAX_COEF_VALUE) + return -EINVAL; + } + + if (is_l1_rgb) { + /* translated parameters are used */ + hwd_param.r_cr_in_offset = param->b_cb_in_offset; + hwd_param.g_y_in_offset = param->r_cr_in_offset; + hwd_param.b_cb_in_offset = param->g_y_in_offset; + hwd_param.r_cr_out_offset = param->r_cr_out_offset; + hwd_param.g_y_out_offset = param->g_y_out_offset; + hwd_param.b_cb_out_offset = param->b_cb_out_offset; + hwd_param.coef[0] = param->coef[2]; + hwd_param.coef[1] = param->coef[0]; + hwd_param.coef[2] = param->coef[1]; + hwd_param.coef[3] = param->coef[5]; + hwd_param.coef[4] = param->coef[3]; + hwd_param.coef[5] = param->coef[4]; + hwd_param.coef[6] = param->coef[8]; + hwd_param.coef[7] = param->coef[6]; + hwd_param.coef[8] = param->coef[7]; + } else { + /* original parameters are used */ + hwd_param.r_cr_in_offset = param->r_cr_in_offset; + hwd_param.g_y_in_offset = param->g_y_in_offset; + hwd_param.b_cb_in_offset = param->b_cb_in_offset; + hwd_param.r_cr_out_offset = param->r_cr_out_offset; + hwd_param.g_y_out_offset = param->g_y_out_offset; + hwd_param.b_cb_out_offset = param->b_cb_out_offset; + hwd_param.coef[0] = param->coef[0]; + hwd_param.coef[1] = param->coef[1]; + hwd_param.coef[2] = param->coef[2]; + hwd_param.coef[3] = param->coef[3]; + hwd_param.coef[4] = param->coef[4]; + hwd_param.coef[5] = param->coef[5]; + hwd_param.coef[6] = param->coef[6]; + hwd_param.coef[7] = param->coef[7]; + hwd_param.coef[8] = param->coef[8]; + } + } else { + if (is_l1_rgb) { + /* fixed parameters are used */ + hwd_param.r_cr_in_offset = 0U; + hwd_param.g_y_in_offset = 0U; + hwd_param.b_cb_in_offset = 0U; + hwd_param.r_cr_out_offset = 0U; + hwd_param.g_y_out_offset = 0U; + hwd_param.b_cb_out_offset = 0U; + hwd_param.coef[0] = 0U; + hwd_param.coef[1] = 0x1000U; + hwd_param.coef[2] = 0U; + hwd_param.coef[3] = 0U; + hwd_param.coef[4] = 0U; + hwd_param.coef[5] = 0x1000U; + hwd_param.coef[6] = 0x1000U; + hwd_param.coef[7] = 0U; + hwd_param.coef[8] = 0U; + } else { + /* csc is disabled */ + enable = HWD_VIIF_DISABLE; + csc_enable_flag = false; + } + } + + if (csc_enable_flag) { + writel(hwd_param.g_y_in_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_YG_OFFSETI); + writel(hwd_param.coef[0], &res->capture_reg->sys.l2isp_input_csc.MTB_YG1); + val = (hwd_param.coef[1] << HWD_VIIF_MTB_CB_YG_COEF_OFFSET) | + (hwd_param.coef[2] << HWD_VIIF_MTB_CR_YG_COEF_OFFSET); + writel(val, &res->capture_reg->sys.l2isp_input_csc.MTB_YG2); + writel(hwd_param.g_y_out_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_YG_OFFSETO); + writel(hwd_param.b_cb_in_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_CB_OFFSETI); + writel(hwd_param.coef[3], &res->capture_reg->sys.l2isp_input_csc.MTB_CB1); + val = (hwd_param.coef[4] << HWD_VIIF_MTB_CB_CB_COEF_OFFSET) | + (hwd_param.coef[5] << HWD_VIIF_MTB_CR_CB_COEF_OFFSET); + writel(val, &res->capture_reg->sys.l2isp_input_csc.MTB_CB2); + writel(hwd_param.b_cb_out_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_CB_OFFSETO); + writel(hwd_param.r_cr_in_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_CR_OFFSETI); + writel(hwd_param.coef[6], &res->capture_reg->sys.l2isp_input_csc.MTB_CR1); + val = (hwd_param.coef[7] << HWD_VIIF_MTB_CB_CR_COEF_OFFSET) | + (hwd_param.coef[8] << HWD_VIIF_MTB_CR_CR_COEF_OFFSET); + writel(val, &res->capture_reg->sys.l2isp_input_csc.MTB_CR2); + writel(hwd_param.r_cr_out_offset, + &res->capture_reg->sys.l2isp_input_csc.MTB_CR_OFFSETO); + } + + writel(enable, &res->capture_reg->sys.l2isp_input_csc.MTB); + + return 0; +} + +/** + * hwd_viif_l2_set_undist() - Set undistortion parameters of L2ISP + * + * @param: Pointer to undistortion parameters of L2ISP + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "param" is NULL + * - [2] Member of "param" is invalid + */ +s32 hwd_viif_l2_set_undist(u32 module_id, const struct viif_l2_undist *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 grid_num_h, grid_num_v; + u32 i, val; + + if (!param) + return -EINVAL; + + if (param->through_mode != HWD_VIIF_ENABLE && param->through_mode != HWD_VIIF_DISABLE) + return -EINVAL; + + if (param->roi_mode[0] != HWD_VIIF_L2_UNDIST_POLY && + param->roi_mode[0] != HWD_VIIF_L2_UNDIST_GRID && + param->roi_mode[0] != HWD_VIIF_L2_UNDIST_POLY_TO_GRID && + param->roi_mode[0] != HWD_VIIF_L2_UNDIST_GRID_TO_POLY) { + return -EINVAL; + } + if (param->roi_mode[1] != HWD_VIIF_L2_UNDIST_POLY && + param->roi_mode[1] != HWD_VIIF_L2_UNDIST_GRID && + param->roi_mode[1] != HWD_VIIF_L2_UNDIST_POLY_TO_GRID && + param->roi_mode[1] != HWD_VIIF_L2_UNDIST_GRID_TO_POLY) { + return -EINVAL; + } + if (param->roi_write_area_delta[0] >= HWD_VIIF_L2_UNDIST_MAX_ROI_WRITE_AREA_DELTA || + param->roi_write_area_delta[1] >= HWD_VIIF_L2_UNDIST_MAX_ROI_WRITE_AREA_DELTA || + param->sensor_crop_ofs_h < HWD_VIIF_L2_UNDIST_MIN_SENSOR_CROP_OFS_H || + param->sensor_crop_ofs_h > HWD_VIIF_L2_UNDIST_MAX_SENSOR_CROP_OFS_H || + param->sensor_crop_ofs_v < HWD_VIIF_L2_UNDIST_MIN_SENSOR_CROP_OFS_V || + param->sensor_crop_ofs_v > HWD_VIIF_L2_UNDIST_MAX_SENSOR_CROP_OFS_V || + param->norm_scale > HWD_VIIF_L2_UNDIST_MAX_NORM_SCALE || + param->valid_r_norm2_poly >= HWD_VIIF_L2_UNDIST_MAX_VALID_R_NORM2 || + param->valid_r_norm2_grid >= HWD_VIIF_L2_UNDIST_MAX_VALID_R_NORM2) { + return -EINVAL; + } + + for (i = 0; i < HWD_VIIF_L2_UNDIST_POLY_NUM; i++) { + if (param->poly_write_g_coef[i] < HWD_VIIF_L2_UNDIST_MIN_POLY_COEF || + param->poly_write_g_coef[i] > HWD_VIIF_L2_UNDIST_MAX_POLY_COEF || + param->poly_read_b_coef[i] < HWD_VIIF_L2_UNDIST_MIN_POLY_COEF || + param->poly_read_b_coef[i] > HWD_VIIF_L2_UNDIST_MAX_POLY_COEF || + param->poly_read_g_coef[i] < HWD_VIIF_L2_UNDIST_MIN_POLY_COEF || + param->poly_read_g_coef[i] > HWD_VIIF_L2_UNDIST_MAX_POLY_COEF || + param->poly_read_r_coef[i] < HWD_VIIF_L2_UNDIST_MIN_POLY_COEF || + param->poly_read_r_coef[i] > HWD_VIIF_L2_UNDIST_MAX_POLY_COEF) { + return -EINVAL; + } + } + + if (param->grid_node_num_h < HWD_VIIF_L2_UNDIST_MIN_GRID_NUM || + param->grid_node_num_h > HWD_VIIF_L2_UNDIST_MAX_GRID_NUM || + param->grid_node_num_v < HWD_VIIF_L2_UNDIST_MIN_GRID_NUM || + param->grid_node_num_v > HWD_VIIF_L2_UNDIST_MAX_GRID_NUM) { + return -EINVAL; + } + + grid_num_h = param->grid_node_num_h; + grid_num_v = param->grid_node_num_v; + if ((grid_num_h % 2U) != 0U) + grid_num_h += 1U; + + if ((grid_num_v % 2U) != 0U) + grid_num_v += 1U; + + if ((grid_num_v * grid_num_h) > HWD_VIIF_L2_UNDIST_MAX_GRID_TOTAL_NUM || + param->grid_patch_hsize_inv >= HWD_VIIF_L2_UNDIST_MAX_GRID_PATCH_SIZE_INV || + param->grid_patch_vsize_inv >= HWD_VIIF_L2_UNDIST_MAX_GRID_PATCH_SIZE_INV) { + return -EINVAL; + } + + val = readl(&res->capture_reg->l2isp.L2_SENSOR_CROP_HSIZE) & GENMASK(12, 0); + if (((param->sensor_crop_ofs_h / 2) + ((s16)val)) > 4095) + return -EINVAL; + + val = readl(&res->capture_reg->l2isp.L2_SENSOR_CROP_VSIZE) & GENMASK(11, 0); + if (((param->sensor_crop_ofs_v / 2) + ((s16)val)) > 2047) + return -EINVAL; + + /* set parameters related to L2ISP UNDIST */ + if (param->through_mode == HWD_VIIF_ENABLE) { + /* Enable through mode */ + writel(HWD_VIIF_ENABLE, &res->capture_reg->l2isp.L2_MODE); + } else { + val = (param->roi_mode[0] << 1U) | (param->roi_mode[1] << 3U); + writel(val, &res->capture_reg->l2isp.L2_MODE); + val = (u32)param->sensor_crop_ofs_h & GENMASK(13, 0); + writel(val, &res->capture_reg->l2isp.L2_SENSOR_CROP_OFS_H); + val = (u32)param->sensor_crop_ofs_v & GENMASK(12, 0); + writel(val, &res->capture_reg->l2isp.L2_SENSOR_CROP_OFS_V); + writel(param->norm_scale, &res->capture_reg->l2isp.L2_NORM_SCALE); + writel(param->valid_r_norm2_poly, &res->capture_reg->l2isp.L2_VALID_R_NORM2_POLY); + writel(param->valid_r_norm2_grid, &res->capture_reg->l2isp.L2_VALID_R_NORM2_GRID); + writel(param->roi_write_area_delta[0], + &res->capture_reg->l2isp.L2_ROI_WRITE_AREA_DELTA[0]); + writel(param->roi_write_area_delta[1], + &res->capture_reg->l2isp.L2_ROI_WRITE_AREA_DELTA[1]); + + for (i = 0; i < HWD_VIIF_L2_UNDIST_POLY_NUM; i++) { + val = (u32)param->poly_write_g_coef[i]; + writel(val, &res->capture_reg->l2isp.L2_POLY10_WRITE_G_COEF[i]); + val = (u32)param->poly_read_b_coef[i]; + writel(val, &res->capture_reg->l2isp.L2_POLY10_READ_B_COEF[i]); + val = (u32)param->poly_read_g_coef[i]; + writel(val, &res->capture_reg->l2isp.L2_POLY10_READ_G_COEF[i]); + val = (u32)param->poly_read_r_coef[i]; + writel(val, &res->capture_reg->l2isp.L2_POLY10_READ_R_COEF[i]); + } + writel(param->grid_node_num_h, &res->capture_reg->l2isp.L2_GRID_NODE_NUM_H); + writel(param->grid_node_num_v, &res->capture_reg->l2isp.L2_GRID_NODE_NUM_V); + writel(param->grid_patch_hsize_inv, + &res->capture_reg->l2isp.L2_GRID_PATCH_HSIZE_INV); + writel(param->grid_patch_vsize_inv, + &res->capture_reg->l2isp.L2_GRID_PATCH_VSIZE_INV); + } + + return 0; +} + +/** + * hwd_viif_l2_set_undist_table_transmission() - + * Configure L2ISP transferring grid table for undistortion. + * + * @write_g: grid table address for G-WRITE(physical address) + * @read_b: grid table address for B-READ(physical address) + * @read_g: grid table address for G-READ(physical address) + * @read_r: grid table address for R-READ(physical address) + * @size: of each table [1024..8192] [byte] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "write_g", "read_b", "read_g" or "read_r" is not 4byte alignment + * - "size" is out of range + * - "size" is not 0 when all table addresses are 0 + */ +s32 hwd_viif_l2_set_undist_table_transmission(u32 module_id, uintptr_t write_g, uintptr_t read_b, + uintptr_t read_g, uintptr_t read_r, u32 size) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val = 0U; + + if (((write_g % HWD_VIIF_L2_VDM_ALIGN) != 0U) || ((read_b % HWD_VIIF_L2_VDM_ALIGN) != 0U) || + ((read_g % HWD_VIIF_L2_VDM_ALIGN) != 0U) || ((read_r % HWD_VIIF_L2_VDM_ALIGN) != 0U)) { + return -EINVAL; + } + + if ((size != 0U && size < HWD_VIIF_L2_UNDIST_MIN_TABLE_SIZE) || + size > HWD_VIIF_L2_UNDIST_MAX_TABLE_SIZE) { + return -EINVAL; + } + + if ((size % 4U) != 0U) + return -EINVAL; + + if (write_g == 0U && read_b == 0U && read_g == 0U && read_r == 0U && size != 0U) + return -EINVAL; + + if ((write_g != 0U || read_b != 0U || read_g != 0U || read_r != 0U) && size == 0U) + return -EINVAL; + + /* read_b: t_port[8], read_g: t_port[9], read_r: t_port[10], write_g: t_port[11] */ + if (read_b != 0U) { + writel((u32)read_b, &res->capture_reg->vdm.t_port[8].VDM_T_STADR); + writel(size, &res->capture_reg->vdm.t_port[8].VDM_T_SIZE); + val |= BIT(8); + } + if (read_g != 0U) { + writel((u32)read_g, &res->capture_reg->vdm.t_port[9].VDM_T_STADR); + writel(size, &res->capture_reg->vdm.t_port[9].VDM_T_SIZE); + val |= BIT(9); + } + if (read_r != 0U) { + writel((u32)read_r, &res->capture_reg->vdm.t_port[10].VDM_T_STADR); + writel(size, &res->capture_reg->vdm.t_port[10].VDM_T_SIZE); + val |= BIT(10); + } + if (write_g != 0U) { + writel((u32)write_g, &res->capture_reg->vdm.t_port[11].VDM_T_STADR); + writel(size, &res->capture_reg->vdm.t_port[11].VDM_T_SIZE); + val |= BIT(11); + } + + if (val != 0U) { + /* + * Set SRAM base address and size. + * t_group[1] is used only to transfer UNDIST table + */ + writel(HWD_VIIF_VDM_CFG_PARAM, &res->capture_reg->vdm.t_group[1].VDM_T_CFG); + writel(HWD_VIIF_L2_VDM_GRID_SRAM_BASE, + &res->capture_reg->vdm.t_group[1].VDM_T_SRAM_BASE); + writel(HWD_VIIF_L2_VDM_GRID_SRAM_SIZE, + &res->capture_reg->vdm.t_group[1].VDM_T_SRAM_SIZE); + } + + val |= (readl(&res->capture_reg->vdm.VDM_T_ENABLE) & ~((u32)0xfU << 8U)); + writel(val, &res->capture_reg->vdm.VDM_T_ENABLE); + + return 0; +} + +/** + * hwd_viif_l2_set_roi_num_1() - Set ROI path condition when ROI num is 1 + */ +static void hwd_viif_l2_set_roi_num_1(struct hwd_viif_res *res) +{ + struct hwd_viif_l2_roi_path_info *info = &res->l2_roi_path_info; + u32 val, x_min, x_max, y_min, y_max; + u32 i, x, y, w, h; + + /* ROI0 is input to POST0 and POST1 */ + if (info->post_enable_flag[0]) { + /* POST0 is enabled */ + x_min = info->post_crop_x[0]; + x_max = info->post_crop_x[0] + info->post_crop_w[0]; + y_min = info->post_crop_y[0]; + y_max = info->post_crop_y[0] + info->post_crop_h[0]; + if (info->post_enable_flag[1]) { + /* POST1 is enabled */ + x_min = min(x_min, info->post_crop_x[1]); + val = info->post_crop_x[1] + info->post_crop_w[1]; + x_max = max(x_max, val); + y_min = min(y_min, info->post_crop_y[1]); + val = info->post_crop_y[1] + info->post_crop_h[1]; + y_max = max(y_max, val); + } + x = x_min; + y = y_min; + w = x_max - x_min; + h = y_max - y_min; + } else if (info->post_enable_flag[1]) { + /* POST0 is disabled and POST1 is enabled */ + x = info->post_crop_x[1]; + w = info->post_crop_w[1]; + y = info->post_crop_y[1]; + h = info->post_crop_h[1]; + } else { + /* All POSTs are disabled */ + x = 0; + y = 0; + w = HWD_VIIF_CROP_MIN_W; + h = HWD_VIIF_CROP_MIN_H; + } + writel(x, &res->capture_reg->l2isp.roi[0].L2_ROI_OUT_OFS_H); + writel(y, &res->capture_reg->l2isp.roi[0].L2_ROI_OUT_OFS_V); + writel(w, &res->capture_reg->l2isp.roi[0].L2_ROI_OUT_HSIZE); + writel(h, &res->capture_reg->l2isp.roi[0].L2_ROI_OUT_VSIZE); + + for (i = 0; i < HWD_VIIF_MAX_POST_NUM; i++) { + if (info->post_enable_flag[i]) + writel(0, &res->capture_reg->l2isp.L2_ROI_TO_POST[i]); + else + writel(HWD_VIIF_L2_ROI_NONE, &res->capture_reg->l2isp.L2_ROI_TO_POST[i]); + } +} + +/** + * hwd_viif_l2_set_roi_num_2() - Set ROI path condition when ROI num is 2 + */ +static void hwd_viif_l2_set_roi_num_2(struct hwd_viif_res *res) +{ + struct hwd_viif_l2_roi_path_info *info = &res->l2_roi_path_info; + u32 i; + + for (i = 0; i < HWD_VIIF_L2_ROI_MAX_NUM; i++) { + /* ROI-n is the same as CROP area of POST-n */ + if (info->post_enable_flag[i]) { + writel(info->post_crop_x[i], + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_H); + writel(info->post_crop_y[i], + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_V); + writel(info->post_crop_w[i], + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_HSIZE); + writel(info->post_crop_h[i], + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_VSIZE); + writel(i, &res->capture_reg->l2isp.L2_ROI_TO_POST[i]); + } else { + writel(0, &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_H); + writel(0, &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_V); + writel(HWD_VIIF_CROP_MIN_W, + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_HSIZE); + writel(HWD_VIIF_CROP_MIN_H, + &res->capture_reg->l2isp.roi[i].L2_ROI_OUT_VSIZE); + writel(HWD_VIIF_L2_ROI_NONE, &res->capture_reg->l2isp.L2_ROI_TO_POST[i]); + } + } +} + +/** + * hwd_viif_l2_set_roi_path() - Set ROI path condition + */ +static void hwd_viif_l2_set_roi_path(struct hwd_viif_res *res) +{ + if (res->l2_roi_path_info.roi_num == 1U) + hwd_viif_l2_set_roi_num_1(res); + else + hwd_viif_l2_set_roi_num_2(res); +} + +/** + * hwd_viif_l2_set_roi() - Set ROI parameters of L2ISP + * + * @param: Pointer to ROI parameters of L2ISP + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "param" is NULL + * - [2] Member of "param" is invalid + * + * see also: #hwd_viif_l2_set_roi_path + */ +s32 hwd_viif_l2_set_roi(u32 module_id, const struct viif_l2_roi_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + int i; + + if (!param) + return -EINVAL; + + if (param->roi_num < 1 || param->roi_num > 2) + return -EINVAL; + + for (i = 0; i < 2; i++) { + if (param->roi_scale[i] < HWD_VIIF_L2_ROI_MIN_SCALE || + param->roi_scale[i] > HWD_VIIF_L2_ROI_MAX_SCALE || + param->roi_scale_inv[i] < HWD_VIIF_L2_ROI_MIN_SCALE_INV || + param->roi_scale_inv[i] > HWD_VIIF_L2_ROI_MAX_SCALE_INV || + param->corrected_wo_scale_hsize[i] < + HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_HSIZE || + param->corrected_wo_scale_hsize[i] > + HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_HSIZE || + param->corrected_wo_scale_vsize[i] < + HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_VSIZE || + param->corrected_wo_scale_vsize[i] > + HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_VSIZE || + param->corrected_hsize[i] < HWD_VIIF_L2_ROI_MIN_CORRECTED_HSIZE || + param->corrected_hsize[i] > HWD_VIIF_L2_ROI_MAX_CORRECTED_HSIZE || + param->corrected_vsize[i] < HWD_VIIF_L2_ROI_MIN_CORRECTED_VSIZE || + param->corrected_vsize[i] > HWD_VIIF_L2_ROI_MAX_CORRECTED_VSIZE) { + return -EINVAL; + } + } + + /* Set the number of ROI and update resource info with roi_num */ + writel(param->roi_num, &res->capture_reg->l2isp.L2_ROI_NUM); + res->l2_roi_path_info.roi_num = param->roi_num; + + /* Update ROI area and input to each POST */ + hwd_viif_l2_set_roi_path(res); + + /* Set the remaining parameters */ + for (i = 0; i < 2; i++) { + writel(param->roi_scale[i], &res->capture_reg->l2isp.roi[i].L2_ROI_SCALE); + writel(param->roi_scale_inv[i], &res->capture_reg->l2isp.roi[i].L2_ROI_SCALE_INV); + val = (param->corrected_wo_scale_hsize[i] << 13U) | param->corrected_hsize[i]; + writel(val, &res->capture_reg->l2isp.roi[i].L2_ROI_CORRECTED_HSIZE); + val = (param->corrected_wo_scale_vsize[i] << 12U) | param->corrected_vsize[i]; + writel(val, &res->capture_reg->l2isp.roi[i].L2_ROI_CORRECTED_VSIZE); + } + + return 0; +} + +/** + * hwd_viif_l2_set_gamma() - Set Gamma correction parameters of L2ISP + * + * @post_id: POST ID [0..1] + * @enable: or disable gamma correction of L2ISP. For more refer @ref hwd_viif_enable_flag. + * @vsplit: changing line position from 1st table to 2nd table [0..4094] + * @mode: Gamma correction mode. For more refer @ref hwd_viif_gamma_table_mode. + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "post_id", "enable", "vsplit" or "mode" is out of range + * - [2] "vsplit" is not 0 when "enable" is HWD_VIIF_DISABLE + * - [3] "mode" is not HWD_VIIF_GAMMA_COMPRESSED when enable is HWD_VIIF_DISABLE + * + * see also: #hwd_viif_l2_set_gamma + */ +s32 hwd_viif_l2_set_gamma(u32 module_id, u32 post_id, u32 enable, u32 vsplit, u32 mode) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + if (post_id >= HWD_VIIF_MAX_POST_NUM || + (enable != HWD_VIIF_ENABLE && enable != HWD_VIIF_DISABLE) || + vsplit > HWD_VIIF_GAMMA_MAX_VSPLIT || + (mode != HWD_VIIF_GAMMA_COMPRESSED && mode != HWD_VIIF_GAMMA_LINEAR) || + (enable == HWD_VIIF_DISABLE && vsplit != 0x0U) || + (enable == HWD_VIIF_DISABLE && mode != HWD_VIIF_GAMMA_COMPRESSED)) { + return -EINVAL; + } + + /* Set gamma parameters of L2ISP */ + val = (vsplit << 16U) | (mode << 4U) | enable; + writel(val, &res->capture_reg->l2isp.post[post_id].L2_POST_GAMMA_M); + + return 0; +} + +/** + * hwd_viif_l2_set_gamma_table_transmission() - Configure L2ISP transferring gamma table. + * + * @post_id: POST ID [0..1] + * @gamma_table: Pointer to gamma table information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - [1] "post_id" is out of range + * - [2] Member of "gamma_table" is invalid + */ +s32 hwd_viif_l2_set_gamma_table_transmission(u32 module_id, u32 post_id, + const struct hwd_viif_l2_gamma_table *gamma_table) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 vdm_enable = 0U; + u32 i, base_addr; + + if (post_id >= HWD_VIIF_MAX_POST_NUM) + return -EINVAL; + + for (i = 0; i < 6U; i++) { + if ((gamma_table->table[i] % HWD_VIIF_L2_VDM_ALIGN) != 0U) + return -EINVAL; + } + + /* table[0]: LUT0-G/Y: t_port[12 + post_id * 6] */ + /* table[1]: LUT1-G/Y: t_port[13 + post_id * 6] */ + /* table[2]: LUT0-B/U: t_port[14 + post_id * 6] */ + /* table[3]: LUT1-B/U: t_port[15 + post_id * 6] */ + /* table[4]: LUT0-R/V: t_port[16 + post_id * 6] */ + /* table[5]: LUT1-R/V: t_port[17 + post_id * 6] */ + for (i = 0; i < 6U; i++) { + if (gamma_table->table[i] != 0U) { + int idx = 12U + i + post_id * 6U; + + writel((u32)gamma_table->table[i], + &res->capture_reg->vdm.t_port[idx].VDM_T_STADR); + writel(HWD_VIIF_L2_VDM_GAMMA_TABLE_SIZE, + &res->capture_reg->vdm.t_port[idx].VDM_T_SIZE); + vdm_enable |= BIT(i); + } + } + if (vdm_enable != 0U) { + /* t_group[2..3] is used only to transfer GAMMA table */ + /* [2]: POST0, [3]: POST1 */ + writel(HWD_VIIF_VDM_CFG_PARAM, + &res->capture_reg->vdm.t_group[(post_id + 2U)].VDM_T_CFG); + base_addr = HWD_VIIF_L2_VDM_GAMMA_SRAM_BASE + + (HWD_VIIF_L2_VDM_GAMMA_SRAM_SIZE * post_id); + writel(base_addr, &res->capture_reg->vdm.t_group[(post_id + 2U)].VDM_T_SRAM_BASE); + writel(HWD_VIIF_L2_VDM_GAMMA_SRAM_SIZE, + &res->capture_reg->vdm.t_group[(post_id + 2U)].VDM_T_SRAM_SIZE); + vdm_enable = vdm_enable << (12U + (post_id * 6U)); + } + vdm_enable |= (readl(&res->capture_reg->vdm.VDM_T_ENABLE) & + ~((u32)0x3fU << (12U + (post_id * 6U)))); + writel(vdm_enable, &res->capture_reg->vdm.VDM_T_ENABLE); + + return 0; +} + +/** + * hwd_viif_l2_set_output_csc() - Set output CSC parameters of L2ISP + * + * @post_id: POST ID [0..1] + * @param: Pointer to output csc parameters of L2ISP + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "post_id" is out of range + * - [2] Member of "param" is invalid + */ +s32 hwd_viif_l2_set_output_csc(u32 module_id, u32 post_id, const struct hwd_viif_csc_param *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + struct hwd_viif_l2isp_post_reg *reg_l2isp_post; + u32 i, val; + + if (post_id >= HWD_VIIF_MAX_POST_NUM) + return -EINVAL; + + /* disable csc matrix when param is NULL */ + if (!param) { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l2isp.post[post_id].csc.MTB); + return 0; + } + + /* param is specified: go further check */ + if (param->r_cr_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->g_y_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->b_cb_in_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->r_cr_out_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->g_y_out_offset > HWD_VIIF_CSC_MAX_OFFSET || + param->b_cb_out_offset > HWD_VIIF_CSC_MAX_OFFSET) { + return -EINVAL; + } + + for (i = 0; i < HWD_VIIF_CSC_MAX_COEF_NUM; i++) { + if (param->coef[i] > HWD_VIIF_CSC_MAX_COEF_VALUE) + return -EINVAL; + } + + reg_l2isp_post = &res->capture_reg->l2isp.post[post_id]; + + writel(param->g_y_in_offset, ®_l2isp_post->csc.MTB_YG_OFFSETI); + writel(param->coef[0], ®_l2isp_post->csc.MTB_YG1); + val = (param->coef[1] << HWD_VIIF_MTB_CB_YG_COEF_OFFSET) | + (param->coef[2] << HWD_VIIF_MTB_CR_YG_COEF_OFFSET); + writel(val, ®_l2isp_post->csc.MTB_YG2); + writel(param->g_y_out_offset, ®_l2isp_post->csc.MTB_YG_OFFSETO); + writel(param->b_cb_in_offset, ®_l2isp_post->csc.MTB_CB_OFFSETI); + writel(param->coef[3], ®_l2isp_post->csc.MTB_CB1); + val = (param->coef[4] << HWD_VIIF_MTB_CB_CB_COEF_OFFSET) | + (param->coef[5] << HWD_VIIF_MTB_CR_CB_COEF_OFFSET); + writel(val, ®_l2isp_post->csc.MTB_CB2); + writel(param->b_cb_out_offset, ®_l2isp_post->csc.MTB_CB_OFFSETO); + writel(param->r_cr_in_offset, ®_l2isp_post->csc.MTB_CR_OFFSETI); + writel(param->coef[6], ®_l2isp_post->csc.MTB_CR1); + val = (param->coef[7] << HWD_VIIF_MTB_CB_CR_COEF_OFFSET) | + (param->coef[8] << HWD_VIIF_MTB_CR_CR_COEF_OFFSET); + writel(val, ®_l2isp_post->csc.MTB_CR2); + writel(param->r_cr_out_offset, ®_l2isp_post->csc.MTB_CR_OFFSETO); + writel(HWD_VIIF_ENABLE, ®_l2isp_post->csc.MTB); + + return 0; +} + +/** + * hwd_viif_l2_set_img_transmission() - Set image transfer condition of L2ISP + * + * @post_id: POST ID [0..1] + * @enable: or disable image transfer of MAIN unit. For more refer @ref hwd_viif_enable_flag. + * @src: Pointer to crop area information + * @out_process: Pointer to output process information + * @img: Pointer to output image information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "post_id" or "enable" is out of range + * - [2] "src" or "out_process" is NULL when "enable" is HWD_VIIF_ENABLE + * - [3] "src" or "out_process" is not NULL when "enable" is HWD_VIIF_DISABLE + * - [4] Member of "src" is out of range + * - [5] "w" of "src" is not equal to 2 * "width" of "image" + * when "half_scal" of "out_process" is HWD_VIIF_ENABLE + * - [6] "h" of "src" is not equal to 2 * "height" of "image" + * when "half_scal" of "out_process" is HWD_VIIF_ENABLE + * - [7] "w" of "src" is not equal to "width" of "image" + * when "half_scal" of "out_process" is HWD_VIIF_DISABLE + * - [8] "h" of "src" is not equal to "height" of "image" + * when "half_scal" of "out_process" is HWD_VIIF_DISABLE + * - [9] Member of "out_process" is invalid + * - [10] "alpha" of "out_process" is not 0 when "format" of "img" is not HWD_VIIF_ARGB8888_PACKED + * - [11] "format" of "img" is not HWD_VIIF_ONE_COLOR_8 or HWD_VIIF_ONE_COLOR_16 + * when "select_color" of "out_process" + * is HWD_VIIF_COLOR_Y_G, HWD_VIIF_COLOR_U_B or HWD_VIIF_COLOR_V_R + * - [12] Member of "img" is invalid + * + * see also: #hwd_viif_l2_set_roi_path + */ +s32 hwd_viif_l2_set_img_transmission(u32 module_id, u32 post_id, u32 enable, + const struct hwd_viif_img_area *src, + const struct hwd_viif_out_process *out_process, + const struct hwd_viif_img *img) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 pitch[HWD_VIIF_MAX_PLANE_NUM], img_start_addr[HWD_VIIF_MAX_PLANE_NUM]; + u32 i, val, loop, k, r[HWD_VIIF_MAX_PLANE_NUM]; + s32 ret = 0; + + /* pitch alignment for planar or one color format */ + u32 pitch_align = 128U; + + if (post_id >= HWD_VIIF_MAX_POST_NUM || + (enable != HWD_VIIF_ENABLE && enable != HWD_VIIF_DISABLE) || + (enable == HWD_VIIF_ENABLE && (!src || !out_process)) || + (enable == HWD_VIIF_DISABLE && (src || out_process))) { + return -EINVAL; + } + + /* DISABLE: no DMA transmission setup, set minimum crop rectangle */ + if (enable == HWD_VIIF_DISABLE) { + res->l2_roi_path_info.post_enable_flag[post_id] = false; + res->l2_roi_path_info.post_crop_x[post_id] = 0U; + res->l2_roi_path_info.post_crop_y[post_id] = 0U; + res->l2_roi_path_info.post_crop_w[post_id] = HWD_VIIF_CROP_MIN_W; + res->l2_roi_path_info.post_crop_h[post_id] = HWD_VIIF_CROP_MIN_H; + hwd_viif_l2_set_roi_path(res); + + return 0; + } + + /* further parameter check for ENABLE */ + if (out_process->half_scale != HWD_VIIF_ENABLE && + out_process->half_scale != HWD_VIIF_DISABLE) { + return -EINVAL; + } + + if (out_process->select_color != HWD_VIIF_COLOR_Y_G && + out_process->select_color != HWD_VIIF_COLOR_U_B && + out_process->select_color != HWD_VIIF_COLOR_V_R && + out_process->select_color != HWD_VIIF_COLOR_YUV_RGB) { + return -EINVAL; + } + + if (img->format != HWD_VIIF_ARGB8888_PACKED && out_process->alpha != 0U) + return -EINVAL; + + if (((img->width % 2U) != 0U) || ((img->height % 2U) != 0U) || + img->width < HWD_VIIF_MIN_OUTPUT_IMG_WIDTH || + img->height < HWD_VIIF_MIN_OUTPUT_IMG_HEIGHT || + img->width > HWD_VIIF_MAX_OUTPUT_IMG_WIDTH_ISP || + img->height > HWD_VIIF_MAX_OUTPUT_IMG_HEIGHT_ISP) { + return -EINVAL; + } + + if (src->x > HWD_VIIF_CROP_MAX_X_ISP || src->y > HWD_VIIF_CROP_MAX_Y_ISP || + src->w < HWD_VIIF_CROP_MIN_W || src->w > HWD_VIIF_CROP_MAX_W_ISP || + src->h < HWD_VIIF_CROP_MIN_H || src->h > HWD_VIIF_CROP_MAX_H_ISP) { + return -EINVAL; + } + + if (out_process->half_scale == HWD_VIIF_ENABLE) { + if ((src->w != (img->width * 2U)) || (src->h != (img->height * 2U))) + return -EINVAL; + } else { + if (src->w != img->width || src->h != img->height) + return -EINVAL; + } + + if (out_process->select_color == HWD_VIIF_COLOR_Y_G || + out_process->select_color == HWD_VIIF_COLOR_U_B || + out_process->select_color == HWD_VIIF_COLOR_V_R) { + if (img->format != HWD_VIIF_ONE_COLOR_8 && img->format != HWD_VIIF_ONE_COLOR_16) + return -EINVAL; + } + + /* build DMAC parameter */ + switch (img->format) { + case HWD_VIIF_YCBCR422_8_PACKED: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + loop = 1U; + k = 2U; + r[0] = 1U; + pitch_align = 256U; + break; + case HWD_VIIF_RGB888_PACKED: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + loop = 1U; + k = 3U; + r[0] = 1U; + pitch_align = 384U; + break; + case HWD_VIIF_ARGB8888_PACKED: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + loop = 1U; + k = 4U; + r[0] = 1U; + pitch_align = 512U; + break; + case HWD_VIIF_ONE_COLOR_8: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + loop = 1U; + k = 1U; + r[0] = 1U; + break; + case HWD_VIIF_ONE_COLOR_16: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + loop = 1U; + k = 2U; + r[0] = 1U; + break; + case HWD_VIIF_YCBCR422_8_PLANAR: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + img_start_addr[1] = (u32)img->pixelmap[1].pmap_paddr; + img_start_addr[2] = (u32)img->pixelmap[2].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + pitch[1] = img->pixelmap[1].pitch; + pitch[2] = img->pixelmap[2].pitch; + loop = HWD_VIIF_MAX_PLANE_NUM; + k = 1U; + r[0] = 1U; + r[1] = 2U; + r[2] = 2U; + break; + case HWD_VIIF_RGB888_YCBCR444_8_PLANAR: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + img_start_addr[1] = (u32)img->pixelmap[1].pmap_paddr; + img_start_addr[2] = (u32)img->pixelmap[2].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + pitch[1] = img->pixelmap[1].pitch; + pitch[2] = img->pixelmap[2].pitch; + loop = HWD_VIIF_MAX_PLANE_NUM; + k = 1U; + r[0] = 1U; + r[1] = 1U; + r[2] = 1U; + break; + case HWD_VIIF_YCBCR422_16_PLANAR: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + img_start_addr[1] = (u32)img->pixelmap[1].pmap_paddr; + img_start_addr[2] = (u32)img->pixelmap[2].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + pitch[1] = img->pixelmap[1].pitch; + pitch[2] = img->pixelmap[2].pitch; + loop = HWD_VIIF_MAX_PLANE_NUM; + k = 2U; + r[0] = 1U; + r[1] = 2U; + r[2] = 2U; + break; + case HWD_VIIF_RGB161616_YCBCR444_16_PLANAR: + img_start_addr[0] = (u32)img->pixelmap[0].pmap_paddr; + img_start_addr[1] = (u32)img->pixelmap[1].pmap_paddr; + img_start_addr[2] = (u32)img->pixelmap[2].pmap_paddr; + pitch[0] = img->pixelmap[0].pitch; + pitch[1] = img->pixelmap[1].pitch; + pitch[2] = img->pixelmap[2].pitch; + loop = HWD_VIIF_MAX_PLANE_NUM; + k = 2U; + r[0] = 1U; + r[1] = 1U; + r[2] = 1U; + break; + default: + return -EINVAL; + } + + for (i = 0; i < loop; i++) { + val = max(((img->width * k) / r[i]), 128U); + if (pitch[i] < val || pitch[i] > HWD_VIIF_MAX_PITCH_ISP || + ((pitch[i] % pitch_align) != 0U) || ((img_start_addr[i] % 4U) != 0U)) { + return -EINVAL; + } + } + + writel(img_start_addr[0], &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_STADR_G); + writel(pitch[0], &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_PITCH_G); + if (loop == HWD_VIIF_MAX_PLANE_NUM) { + writel(img_start_addr[1], + &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_STADR_B); + writel(img_start_addr[2], + &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_STADR_R); + writel(pitch[1], &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_PITCH_B); + writel(pitch[2], &res->capture_reg->l2isp.post[post_id].L2_POST_OUT_PITCH_R); + } + + /* Set CROP */ + val = (src->y << 16U) | src->x; + writel(val, &res->capture_reg->l2isp.post[post_id].L2_POST_CAP_OFFSET); + val = (src->h << 16U) | src->w; + writel(val, &res->capture_reg->l2isp.post[post_id].L2_POST_CAP_SIZE); + + /* Set output process */ + writel(out_process->half_scale, + &res->capture_reg->l2isp.post[post_id].L2_POST_HALF_SCALE_EN); + writel(out_process->select_color, &res->capture_reg->l2isp.post[post_id].L2_POST_C_SELECT); + writel((u32)out_process->alpha, &res->capture_reg->l2isp.post[post_id].L2_POST_OPORTALP); + writel(img->format, &res->capture_reg->l2isp.post[post_id].L2_POST_OPORTFMT); + + /* Update ROI area and input to each POST */ + res->l2_roi_path_info.post_enable_flag[post_id] = true; + res->l2_roi_path_info.post_crop_x[post_id] = src->x; + res->l2_roi_path_info.post_crop_y[post_id] = src->y; + res->l2_roi_path_info.post_crop_w[post_id] = src->w; + res->l2_roi_path_info.post_crop_h[post_id] = src->h; + hwd_viif_l2_set_roi_path(res); + + return ret; +} + +/** + * hwd_viif_l2_set_irq_mask() - Set mask condition for L2ISP + * + * @mask: L2ISP mask condition + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_l2_set_irq_mask(u32 module_id, u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->l2isp.L2_CRGBF_ISP_INT_MASK); +} + +/** + * hwd_viif_csi2rx_err_irq_handler() - CSI-2 RX error interruption handler + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: event information of CSI-2 RX error interruption + */ +u32 hwd_viif_csi2rx_err_irq_handler(u32 module_id) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + return readl(&res->csi2host_reg->CSI2RX_INT_ST_MAIN); +} + +/** + * hwd_viif_status_err_irq_handler() - STATUS error interruption handler + * + * @event_main: information of STATUS error interruption of MAIN unit + * @event_sub: information of STATUS error interruption of SUB unit(CH0 and CH1) + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_status_err_irq_handler(u32 module_id, u32 *event_main, u32 *event_sub) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, mask; + + *event_main = HWD_VIIF_NO_EVENT; + *event_sub = HWD_VIIF_NO_EVENT; + + val = readl(&res->capture_reg->sys.INT_M_STATUS); + mask = readl(&res->capture_reg->sys.INT_M_MASK); + val = val & ~mask; + if (val != HWD_VIIF_NO_EVENT) { + writel(val, &res->capture_reg->sys.INT_M_STATUS); + *event_main = val; + } + + val = readl(&res->capture_reg->sys.INT_S_STATUS); + mask = readl(&res->capture_reg->sys.INT_S_MASK); + val = val & ~mask; + if (val != HWD_VIIF_NO_EVENT) { + writel(val, &res->capture_reg->sys.INT_S_STATUS); + *event_sub = val; + } +} + +/** + * hwd_viif_vsync_irq_handler() - Vsync interruption handler + * + * @event_main: information of Vsync interruption of MAIN unit + * @event_sub: information of Vsync interruption of SUB unit(CH0 and CH1) + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_vsync_irq_handler(u32 module_id, u32 *event_main, u32 *event_sub) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, mask; + + *event_main = HWD_VIIF_NO_EVENT; + *event_sub = HWD_VIIF_NO_EVENT; + + val = readl(&res->capture_reg->sys.INT_M_SYNC); + mask = readl(&res->capture_reg->sys.INT_M_SYNC_MASK); + val = val & ~mask; + if (val != HWD_VIIF_NO_EVENT) { + writel(val, &res->capture_reg->sys.INT_M_SYNC); + *event_main = val; + } + + val = readl(&res->capture_reg->sys.INT_S_SYNC); + mask = readl(&res->capture_reg->sys.INT_S_SYNC_MASK); + val = val & ~mask; + if (val != HWD_VIIF_NO_EVENT) { + writel(val, &res->capture_reg->sys.INT_S_SYNC); + *event_sub = val; + } +} + +/** + * hwd_viif_isp_regbuf_irq_handler() - ISP register buffer interruption handler + * + * @event_l1: information of register buffer interruption of L1ISP + * @event_l2: information of register buffer interruption of L2ISP + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_isp_regbuf_irq_handler(u32 module_id, u32 *event_l1, u32 *event_l2) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + *event_l1 = HWD_VIIF_NO_EVENT; + *event_l2 = HWD_VIIF_NO_EVENT; + + val = readl(&res->capture_reg->l1isp.L1_CRGBF_INT_MASKED_STAT); + if (val != HWD_VIIF_NO_EVENT) { + *event_l1 = val; + writel(val, &res->capture_reg->l1isp.L1_CRGBF_INT_STAT); + } + + val = readl(&res->capture_reg->l2isp.L2_CRGBF_INT_MASKED_STAT); + if (val != HWD_VIIF_NO_EVENT) { + *event_l2 = val; + writel(val, &res->capture_reg->l2isp.L2_CRGBF_INT_STAT); + } +} diff --git a/drivers/media/platform/visconti/hwd_viif.h b/drivers/media/platform/visconti/hwd_viif.h new file mode 100644 index 000000000..d613a0a43 --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif.h @@ -0,0 +1,701 @@ +/* SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause */ +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#ifndef HWD_VIIF_H +#define HWD_VIIF_H + +#include <linux/errno.h> +#include <linux/types.h> + +#include <linux/visconti_viif.h> + +/* MIPI CSI2 Data Types */ +#define VISCONTI_CSI2_DT_YUV4228B 0x1E +#define VISCONTI_CSI2_DT_YUV42210B 0x1F +#define VISCONTI_CSI2_DT_RGB565 0x22 +#define VISCONTI_CSI2_DT_RGB888 0x24 +#define VISCONTI_CSI2_DT_RAW8 0x2A +#define VISCONTI_CSI2_DT_RAW10 0x2B +#define VISCONTI_CSI2_DT_RAW12 0x2C +#define VISCONTI_CSI2_DT_RAW14 0x2D + +/* hwd_viif_enable_flag */ +#define HWD_VIIF_DISABLE (0U) +#define HWD_VIIF_ENABLE (1U) + +/* hwd_viif_memory_sync_type */ +#define HWD_VIIF_MEM_SYNC_INTERNAL (0U) +#define HWD_VIIF_MEM_SYNC_CSI2 (1U) + +/* hwd_viif_color_format */ +#define HWD_VIIF_YCBCR422_8_PACKED (0U) +#define HWD_VIIF_RGB888_PACKED (1U) +#define HWD_VIIF_ARGB8888_PACKED (3U) +#define HWD_VIIF_YCBCR422_8_PLANAR (8U) +#define HWD_VIIF_RGB888_YCBCR444_8_PLANAR (9U) +#define HWD_VIIF_ONE_COLOR_8 (11U) +#define HWD_VIIF_YCBCR422_16_PLANAR (12U) +#define HWD_VIIF_RGB161616_YCBCR444_16_PLANAR (13U) +#define HWD_VIIF_ONE_COLOR_16 (15U) + +/* hwd_viif_raw_pack_mode */ +#define HWD_VIIF_RAWPACK_DISABLE (0U) +#define HWD_VIIF_RAWPACK_MSBFIRST (2U) +#define HWD_VIIF_RAWPACK_LSBFIRST (3U) + +/* hwd_viif_yuv_conversion_mode */ +#define HWD_VIIF_YUV_CONV_REPEAT (0U) +#define HWD_VIIF_YUV_CONV_INTERPOLATION (1U) + +/* hwd_viif_gamma_table_mode */ +#define HWD_VIIF_GAMMA_COMPRESSED (0U) +#define HWD_VIIF_GAMMA_LINEAR (1U) + +/* hwd_viif_output_color_mode */ +#define HWD_VIIF_COLOR_Y_G (0U) +#define HWD_VIIF_COLOR_U_B (1U) +#define HWD_VIIF_COLOR_V_R (2U) +#define HWD_VIIF_COLOR_YUV_RGB (4U) + +/* hwd_viif_hw_params */ +#define HWD_VIIF_MAX_CH (6U) +#define HWD_VIIF_MAX_PLANE_NUM (3U) + +/** + * enum hwd_viif_csi2_dphy - D-PHY Lane assignment + * + * specifies which line(L0-L3) is assigned to D0-D3 + */ +enum hwd_viif_csi2_dphy { + HWD_VIIF_CSI2_DPHY_L0L1L2L3 = 0U, + HWD_VIIF_CSI2_DPHY_L0L3L1L2 = 1U, + HWD_VIIF_CSI2_DPHY_L0L2L3L1 = 2U, + HWD_VIIF_CSI2_DPHY_L0L1L3L2 = 4U, + HWD_VIIF_CSI2_DPHY_L0L3L2L1 = 5U, + HWD_VIIF_CSI2_DPHY_L0L2L1L3 = 6U +}; + +/* hwd_viif_csi2rx_input_mode */ +#define HWD_VIIF_CSI2_INPUT_OWN (0U) +#define HWD_VIIF_CSI2_INPUT_OTHER (1U) + +/* hwd_viif_csi2rx_cal_status */ +#define HWD_VIIF_CSI2_CAL_NOT_DONE (0U) +#define HWD_VIIF_CSI2_CAL_SUCCESS (1U) +#define HWD_VIIF_CSI2_CAL_FAIL (2U) + +/* hwd_viif_csi2rx_not_capture */ +#define HWD_VIIF_CSI2_NOT_CAPTURE (-1) /**< csi2 not capture */ + +/* hwd_viif_l1_input_mode */ +#define HWD_VIIF_L1_INPUT_HDR (0U) +#define HWD_VIIF_L1_INPUT_PWL (1U) +#define HWD_VIIF_L1_INPUT_SDR (2U) +#define HWD_VIIF_L1_INPUT_HDR_IMG_CORRECT (3U) +#define HWD_VIIF_L1_INPUT_PWL_IMG_CORRECT (4U) + +/* hwd_viif_l1_raw_color_filter_mode */ +#define HWD_VIIF_L1_RAW_GR_R_B_GB (0U) +#define HWD_VIIF_L1_RAW_R_GR_GB_B (1U) +#define HWD_VIIF_L1_RAW_B_GB_GR_R (2U) +#define HWD_VIIF_L1_RAW_GB_B_R_GR (3U) + +/* hwd_viif_l1_input_interpolation_mode */ +#define HWD_VIIF_L1_INPUT_INTERPOLATION_LINE (0U) +#define HWD_VIIF_L1_INPUT_INTERPOLATION_PIXEL (1U) + +/* hwd_viif_l1_img_sens */ +#define HWD_VIIF_L1_IMG_SENSITIVITY_HIGH (0U) +#define HWD_VIIF_L1_IMG_SENSITIVITY_MIDDLE_LED (1U) +#define HWD_VIIF_L1_IMG_SENSITIVITY_LOW (2U) + +/* hwd_viif_l1_dpc */ +#define HWD_VIIF_L1_DPC_1PIXEL (0U) +#define HWD_VIIF_L1_DPC_2PIXEL (1U) + +/* hwd_viif_l1_rcnr_hry_type */ +#define HWD_VIIF_L1_RCNR_LOW_RESOLUTION (0U) +#define HWD_VIIF_L1_RCNR_MIDDLE_RESOLUTION (1U) +#define HWD_VIIF_L1_RCNR_HIGH_RESOLUTION (2U) +#define HWD_VIIF_L1_RCNR_ULTRA_HIGH_RESOLUTION (3U) + +/* hwd_viif_l1_rcnr_msf_blend_ratio */ +#define HWD_VIIF_L1_MSF_BLEND_RATIO_0_DIV_64 (0U) +#define HWD_VIIF_L1_MSF_BLEND_RATIO_1_DIV_64 (1U) +#define HWD_VIIF_L1_MSF_BLEND_RATIO_2_DIV_64 (2U) + +/* hwd_viif_l1_hdrs */ +#define HWD_VIIF_L1_HDRS_NOT_USE_MIDDLE_SENS_IMAGE (0U) +#define HWD_VIIF_L1_HDRS_USE_MIDDLE_SENS_IMAGE (1U) + +/* hwd_viif_l1_lsc_para_mag */ +#define HWD_VIIF_L1_PARA_COEF_GAIN_ONE_EIGHTH (0U) +#define HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FOURTH (1U) +#define HWD_VIIF_L1_PARA_COEF_GAIN_ONE_SECOND (2U) +#define HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FIRST (3U) + +/* hwd_viif_l1_lsc_grid_mag */ +#define HWD_VIIF_L1_GRID_COEF_GAIN_X1 (0U) +#define HWD_VIIF_L1_GRID_COEF_GAIN_X2 (1U) + +/* hwd_viif_l1_demosaic */ +#define HWD_VIIF_L1_DEMOSAIC_ACPI (0U) +#define HWD_VIIF_L1_DEMOSAIC_DMG (1U) + +/* hwd_viif_l1_awb_restart_cond */ +/* macros for L1ISP condition to restart auto white balance */ +#define HWD_VIIF_L1_AWB_RESTART_NO (0U) +#define HWD_VIIF_L1_AWB_RESTART_128FRAME (1U) +#define HWD_VIIF_L1_AWB_RESTART_64FRAME (2U) +#define HWD_VIIF_L1_AWB_RESTART_32FRAME (3U) +#define HWD_VIIF_L1_AWB_RESTART_16FRAME (4U) +#define HWD_VIIF_L1_AWB_RESTART_8FRAME (5U) +#define HWD_VIIF_L1_AWB_RESTART_4FRAME (6U) +#define HWD_VIIF_L1_AWB_RESTART_2FRAME (7U) + +/* hwd_viif_l1_awb_mag */ +#define HWD_VIIF_L1_AWB_ONE_SECOND (0U) +#define HWD_VIIF_L1_AWB_X1 (1U) +#define HWD_VIIF_L1_AWB_X2 (2U) +#define HWD_VIIF_L1_AWB_X4 (3U) + +/* hwd_viif_l1_awb_area_mode */ +#define HWD_VIIF_L1_AWB_AREA_MODE0 (0U) +#define HWD_VIIF_L1_AWB_AREA_MODE1 (1U) +#define HWD_VIIF_L1_AWB_AREA_MODE2 (2U) +#define HWD_VIIF_L1_AWB_AREA_MODE3 (3U) + +/* hwd_viif_l1_hdrc_tone_type */ +#define HWD_VIIF_L1_HDRC_TONE_USER (0U) +#define HWD_VIIF_L1_HDRC_TONE_PRESET (1U) + +/* hwd_viif_l1_bin_mode */ +#define HWD_VIIF_L1_HIST_BIN_MODE_LINEAR (0U) +#define HWD_VIIF_L1_HIST_BIN_MODE_LOG (1U) + +/* hwd_viif_l2_undist_mode */ +#define HWD_VIIF_L2_UNDIST_POLY (0U) +#define HWD_VIIF_L2_UNDIST_GRID (1U) +#define HWD_VIIF_L2_UNDIST_POLY_TO_GRID (2U) +#define HWD_VIIF_L2_UNDIST_GRID_TO_POLY (3U) + +/** + * struct hwd_viif_csi2rx_line_err_target + * + * Virtual Channel and Data Type pair for CSI2RX line error monitor + * + * When 0 is set to dt, line error detection is disabled. + * + * * VC can be 0 .. 3 + * * DT can be 0 or 0x10 .. 0x3F + */ +#define VISCONTI_CSI2_ERROR_MONITORS_NUM 8 +struct hwd_viif_csi2rx_line_err_target { + u32 vc[VISCONTI_CSI2_ERROR_MONITORS_NUM]; + u32 dt[VISCONTI_CSI2_ERROR_MONITORS_NUM]; +}; + +/** + * struct hwd_viif_csi2rx_irq_mask + * @mask: mask setting for CSI2RX error interruption + * + * * mask[0]: D-PHY fatal error + * * mask[1]: Packet fatal error + * * mask[2]: Frame fatal error + * * mask[3]: D-PHY error + * * mask[4]: Packet error + * * mask[5]: Line error + */ +#define VISCONTI_CSI2RX_IRQ_MASKS_NUM 6 +#define VISCONTI_CSI2RX_IRQ_MASK_DPHY_FATAL 0 +#define VISCONTI_CSI2RX_IRQ_MASK_PACKET_FATAL 1 +#define VISCONTI_CSI2RX_IRQ_MASK_FRAME_FATAL 2 +#define VISCONTI_CSI2RX_IRQ_MASK_DPHY_ERROR 3 +#define VISCONTI_CSI2RX_IRQ_MASK_PACKET_ERROR 4 +#define VISCONTI_CSI2RX_IRQ_MASK_LINE_ERROR 5 +struct hwd_viif_csi2rx_irq_mask { + u32 mask[VISCONTI_CSI2RX_IRQ_MASKS_NUM]; +}; + +/** + * struct hwd_viif_csi2rx_packet - CSI2 packet information + * @word_count: word count included in one packet[byte] [0..16384] + * @packet_num: the number of packet included in one packet [0..8192] + * + * each element means as below. + * * [0]: embedded data of MAIN unit + * * [1]: long packet data of MAIN unit + * * [2]: embedded data of SUB unit + * * [3]: long packet data of SUB unit + * + * Regarding word_count of long packet data, + * word count of odd line needs to be set in case of DT = 0x18, 0x19, 0x1C or 0x1D. + */ +#define VISCONTI_CSI2RX_PACKET_TYPES_NUM 4 +#define VISCONTI_CSI2RX_PACKET_TYPE_EMB_MAIN 0 +#define VISCONTI_CSI2RX_PACKET_TYPE_LONG_MAIN 1 +#define VISCONTI_CSI2RX_PACKET_TYPE_EMB_SUB 2 +#define VISCONTI_CSI2RX_PACKET_TYPE_LONG_SUB 3 +struct hwd_viif_csi2rx_packet { + u32 word_count[VISCONTI_CSI2RX_PACKET_TYPES_NUM]; + u32 packet_num[VISCONTI_CSI2RX_PACKET_TYPES_NUM]; +}; + +/** + * struct hwd_viif_pixelmap - pixelmap information + * @pmap_paddr: start address of pixel data(physical address). 4byte alignment. + * @pitch: pitch size of pixel map[byte] + * + * Condition of pitch in case of L2ISP output is as below. + * * max: 32704[byte] + * * min: the larger value of (active width of image * k / r) and 128[byte] + * * alignment: 64[byte] + * + * Condition of pitch in the other cases is as below. + * * max: 65536[byte] + * * min: active width of image * k / r[byte] + * * alignment: 4[byte] + * + * k is the size of 1 pixel and the value is as below. + * * HWD_VIIF_YCBCR422_8_PACKED: 2 + * * HWD_VIIF_RGB888_PACKED: 3 + * * HWD_VIIF_ARGB8888_PACKED: 4 + * * HWD_VIIF_YCBCR422_8_PLANAR: 1 + * * HWD_VIIF_RGB888_YCBCR444_8_PLANAR: 1 + * * HWD_VIIF_ONE_COLOR_8: 1 + * * HWD_VIIF_YCBCR422_16_PLANAR: 2 + * * HWD_VIIF_RGB161616_YCBCR444_16_PLANAR: 2 + * * HWD_VIIF_ONE_COLOR_16: 2 + * + * r is the correction factor for Cb or Cr of YCbCr422 planar and the value is as below. + * * YCbCr422 Cb-planar: 2 + * * YCbCr422 Cr-planar: 2 + * * others: 1 + * + */ +struct hwd_viif_pixelmap { + uintptr_t pmap_paddr; + u32 pitch; +}; + +/** + * struct hwd_viif_img - image information + * @width: active width of image[pixel] + * * [128..5760](output from L2ISP) + * * [128..4096](input to MAIN unit(memory input)) + * * [128..4096](output from SUB unit) + * * The value should be even. + * + * @height: active height of image[line] + * * [128..3240](output from L2ISP) + * * [128..2160](input to MAIN unit(memory input)) + * * [128..2160](output from SUB unit) + * * The value should be even. + * + * @format: hwd_viif_color_format "color format" + * * Below color formats are supported for input and output of MAIN unit + * * HWD_VIIF_YCBCR422_8_PACKED + * * HWD_VIIF_RGB888_PACKED + * * HWD_VIIF_ARGB8888_PACKED + * * HWD_VIIF_YCBCR422_8_PLANAR + * * HWD_VIIF_RGB888_YCBCR444_8_PLANAR + * * HWD_VIIF_ONE_COLOR_8 + * * HWD_VIIF_YCBCR422_16_PLANAR + * * HWD_VIIF_RGB161616_YCBCR444_16_PLANAR + * * HWD_VIIF_ONE_COLOR_16 + * * Below color formats are supported for output of SUB unit + * * HWD_VIIF_ONE_COLOR_8 + * * HWD_VIIF_ONE_COLOR_16 + * + * @pixelmap: pixelmap information + * * [0]: Y/G-planar, packed/Y/RAW + * * [1]: Cb/B-planar + * * [2]: Cr/R-planar + */ +struct hwd_viif_img { + u32 width; + u32 height; + u32 format; + struct hwd_viif_pixelmap pixelmap[3]; +}; + +/** + * struct hwd_viif_input_img - input image information + * @pixel_clock: pixel clock [3375..600000] [kHz]. 0 needs to be set for long packet data. + * @htotal_size: horizontal total size + * * [143..65535] [pixel] for image data + * * [239..109225] [ns] for long packet data + * @hactive_size: horizontal active size [pixel] + * * [128..4096] without L1ISP + * * [640..3840] with L1ISP + * * The value should be even. In addition, the value should be a multiple of 8 with L1ISP + * * 0 needs to be set for the configuration of long packet data or SUB unit output. + * @vtotal_size: vertical total size [line] + * * [144..16383] for image data + * * 0 needs to be set for the configuration of long packet data. + * @vbp_size: vertical back porch size + * * [5..4095] [line] for image data + * * [5..4095] [the number of packet] for long packet data + * @vactive_size: vertical active size [line] + * * [128..2160] without L1ISP + * * [480..2160] with L1ISP + * * The value should be even. + * * 0 needs to be set for the configuration of long packet data. + * @interpolation_mode: input image interpolation mode for hwd_viif_l1_input_interpolation_mode + * * HWD_VIIF_L1_INPUT_INTERPOLATION_LINE needs to be set in the below cases. + * * image data(without L1ISP) or long packet data + * * image data or long packet data of SUB unit + * @input_num: the number of input images [1..3] + * * 1 needs to be set in the below cases. + * * image data(without L1ISP) or long packet data + * * image data or long packet data of SUB unit + * @hobc_width: the number of horizontal optical black pixels [0,16,32,64 or 128] + * * 0 needs to be set in the below cases. + * * in case of hobc_margin = 0 + * * image data(without L1ISP) or long packet data + * * image data or long packet data of SUB unit + * @hobc_margin: the number of horizontal optical black margin[0..30] (even number) + * * 0 needs to be set in the below cases. + * * in case of hobc_width = 0 + * * image data(without L1ISP) or long packet data + * * image data or long packet data of SUB unit + * + * Below conditions need to be satisfied. + * * interpolation_mode is HWD_VIIF_L1_INPUT_INTERPOLATION_LINE: + * (htotal_size > (hactive_size + hobc_width + hobc_margin)) && + * (vtotal_size > (vbp_size + vactive_size * input_num)) + * * interpolation_mode is HWD_VIIF_L1_INPUT_INTERPOLATION_PIXEL: + * (htotal_size > ((hactive_size + hobc_width + hobc_margin) * input_num)) && + * (vtotal_size > (vbp_size + vactive_size)) + * * L1ISP is used: + * vbp_size >= (54720[cycle] / 500000[kHz]) * (pixel_clock / htotal_size) + 38 + ISST time + * * L1ISP is not used: + * vbp_size >= (39360[cycle] / 500000[kHz]) * (pixel_clock / htotal_size) + 16 + ISST time + * + * Note: L1ISP is used when RAW data is input to MAIN unit + */ +struct hwd_viif_input_img { + u32 pixel_clock; + u32 htotal_size; + u32 hactive_size; + u32 vtotal_size; + u32 vbp_size; + u32 vactive_size; + u32 interpolation_mode; + u32 input_num; + u32 hobc_width; + u32 hobc_margin; +}; + +/** + * struct hwd_viif_csc_param - color conversion information + * @r_cr_in_offset: input offset of R/Cr[pix value] [0x0..0x1FFFF] + * @g_y_in_offset: input offset of G/Y[pix value] [0x0..0x1FFFF] + * @b_cb_in_offset: input offset of B/Cb[pix value] [0x0..0x1FFFF] + * @coef: coefficient of matrix [0x0..0xFFFF] + * * [0] : c00(YG_YG), [1] : c01(UB_YG), [2] : c02(VR_YG), + * * [3] : c10(YG_UB), [4] : c11(UB_UB), [5] : c12(VR_UB), + * * [6] : c20(YG_VR), [7] : c21(UB_VR), [8] : c22(VR_VR) + * @r_cr_out_offset: output offset of R/Cr[pix value] [0x0..0x1FFFF] + * @g_y_out_offset: output offset of G/Y[pix value] [0x0..0x1FFFF] + * @b_cb_out_offset: output offset of B/Cb[pix value] [0x0..0x1FFFF] + */ +struct hwd_viif_csc_param { + u32 r_cr_in_offset; + u32 g_y_in_offset; + u32 b_cb_in_offset; + u32 coef[9]; + u32 r_cr_out_offset; + u32 g_y_out_offset; + u32 b_cb_out_offset; +}; + +/** + * struct hwd_viif_img_area - image area definition + * @x: x position [0..8062] [pixel] + * @y: y position [0..3966] [line] + * @w: image width [128..8190] [pixel] + * @h: image height [128..4094] [line] + */ +struct hwd_viif_img_area { + u32 x; + u32 y; + u32 w; + u32 h; +}; + +/** + * struct hwd_viif_out_process - configuration of output process of MAIN unit and L2ISP + * @half_scale: hwd_viif_enable_flag "enable or disable half scale" + * @select_color: hwd_viif_output_color_mode "select output color" + * @alpha: alpha value used in case of ARGB8888 output [0..255] + */ +struct hwd_viif_out_process { + u32 half_scale; + u32 select_color; + u8 alpha; +}; + +/** + * struct hwd_viif_l1_lsc - HWD L1ISP lens shading correction parameters + * @lssc_parabola_param: parabola shading correction parameter + * * NULL: disable parabola shading correction + * * not NULL: enable parabola shading correction + * @lssc_grid_param: grid shading correction parameter + * * NULL: disable grid shading correction + * * not NULL: enable grid shading correction + * @lssc_pwhb_r_gain_max: maximum R gain of preset white balance correction + * @lssc_pwhb_r_gain_min: minimum R gain of preset white balance correction + * @lssc_pwhb_gr_gain_max: maximum Gr gain of preset white balance correction + * @lssc_pwhb_gr_gain_min: minimum Gr gain of preset white balance correction + * @lssc_pwhb_gb_gain_max: maximum Gb gain of preset white balance correction + * @lssc_pwhb_gb_gain_min: minimum Gb gain of preset white balance correction + * @lssc_pwhb_b_gain_max: maximum B gain of preset white balance correction + * @lssc_pwhb_b_gain_min: minimum B gain of preset white balance correction + * + * Range and accuracy of lssc_pwhb_xxx_gain_xxx are as below. + * - range: [0x0..0x7FF] + * - accuracy : 1/256 + */ +struct hwd_viif_l1_lsc { + struct viif_l1_lsc_parabola_param *lssc_parabola_param; + struct viif_l1_lsc_grid_param *lssc_grid_param; + u32 lssc_pwhb_r_gain_max; + u32 lssc_pwhb_r_gain_min; + u32 lssc_pwhb_gr_gain_max; + u32 lssc_pwhb_gr_gain_min; + u32 lssc_pwhb_gb_gain_max; + u32 lssc_pwhb_gb_gain_min; + u32 lssc_pwhb_b_gain_max; + u32 lssc_pwhb_b_gain_min; +}; + +/** + * struct hwd_viif_l1_img_quality_adjustment - HWD L1ISP image quality adjustment parameters + * @coef_cb: Cb coefficient [0x0..0xffff] accuracy: 1/65536 + * @coef_cr: Cr coefficient [0x0..0xffff] accuracy: 1/65536 + * @brightness: brightness value [-32768..32767] (0 means off.) + * @linear_contrast: linear contrast value [0x0..0xff] accuracy: 1/128 (128 means off.) + * @*nonlinear_contrast: pointer to nonlinear contrast parameter + * @*lum_noise_reduction: pointer to luminance noise reduction parameter + * @*edge_enhancement: pointer to edge enhancement parameter + * @*uv_suppression: pointer to UV suppression parameter + * @*coring_suppression: pointer to coring suppression parameter + * @*edge_suppression: pointer to edge enhancement parameter + * @*color_level: pointer to color level adjustment parameter + * @color_noise_reduction_enable: enable/disable color noise reduction @ref hwd_viif_enable_flag + */ +struct hwd_viif_l1_img_quality_adjustment { + u16 coef_cb; + u16 coef_cr; + s16 brightness; + u8 linear_contrast; + struct viif_l1_nonlinear_contrast *nonlinear_contrast; + struct viif_l1_lum_noise_reduction *lum_noise_reduction; + struct viif_l1_edge_enhancement *edge_enhancement; + struct viif_l1_uv_suppression *uv_suppression; + struct viif_l1_coring_suppression *coring_suppression; + struct viif_l1_edge_suppression *edge_suppression; + struct viif_l1_color_level *color_level; + u32 color_noise_reduction_enable; +}; + +/** + * struct hwd_viif_l1_info - HWD L1ISP processing information + * @context_id: context id + * @ag_cont_hobc_high: analog gain for high sensitivity image of OBCC + * @ag_cont_hobc_middle_led: analog gain for middle sensitivity or led image of OBCC + * @ag_cont_hobc_low: analog gain for low sensitivity image of OBCC + * @ag_cont_abpc_high: analog gain for high sensitivity image of ABPC + * @ag_cont_abpc_middle_led: analog gain for middle sensitivity or led image of ABPC + * @ag_cont_abpc_low: analog gain for low sensitivity image of ABPC + * @ag_cont_rcnr_high: analog gain for high sensitivity image of RCNR + * @ag_cont_rcnr_middle_led: analog gain for middle sensitivity or led image of RCNR + * @ag_cont_rcnr_low: analog gain for low sensitivity image of RCNR + * @ag_cont_lssc: analog gain for LSSC + * @ag_cont_mpro: analog gain for color matrix correction + * @ag_cont_vpro: analog gain for image quality adjustment + * @dpc_defect_num_h: + * the number of dynamically corrected defective pixel(high sensitivity image) + * @dpc_defect_num_m: + * the number of dynamically corrected defective pixel(middle sensitivity or led image) + * @dpc_defect_num_l: + * the number of dynamically corrected defective pixel(low sensitivity image) + * @hdrc_tnp_fb_smth_max: the maximum value of luminance information after smoothing filter at HDRC + * @avg_lum_weight: weighted average luminance value at average luminance generation + * @avg_lum_block[8][8]: + * average luminance of each block [y][x]: + * y means vertical position and x means horizontal position. + * @avg_lum_four_line_lum[4]: + * 4-lines average luminance. avg_lum_four_line_lum[n] corresponds to aexp_ave4linesy[n] + * @avg_satur_pixnum: the number of saturated pixel at average luminance generation + * @avg_black_pixnum: the number of black pixel at average luminance generation + * @awb_ave_u: average U at AWHB [pixel] + * @awb_ave_v: average V at AWHB [pixel] + * @awb_accumulated_pixel: the number of accumulated pixel at AWHB + * @awb_gain_r: R gain applied in the next frame at AWHB + * @awb_gain_g: G gain applied in the next frame at AWHB + * @awb_gain_b: B gain applied in the next frame at AWHB + * @awb_status_u: status of U convergence at AWHB (true: converged, false: not converged) + * @awb_status_v: status of V convergence at AWHB (true: converged, false: not converged) + */ +struct hwd_viif_l1_info { + u32 context_id; + u8 ag_cont_hobc_high; + u8 ag_cont_hobc_middle_led; + u8 ag_cont_hobc_low; + u8 ag_cont_abpc_high; + u8 ag_cont_abpc_middle_led; + u8 ag_cont_abpc_low; + u8 ag_cont_rcnr_high; + u8 ag_cont_rcnr_middle_led; + u8 ag_cont_rcnr_low; + u8 ag_cont_lssc; + u8 ag_cont_mpro; + u8 ag_cont_vpro; + u32 dpc_defect_num_h; + u32 dpc_defect_num_m; + u32 dpc_defect_num_l; + u32 hdrc_tnp_fb_smth_max; + u32 avg_lum_weight; + u32 avg_lum_block[8][8]; + u32 avg_lum_four_line_lum[4]; + u16 avg_satur_pixnum; + u16 avg_black_pixnum; + u32 awb_ave_u; + u32 awb_ave_v; + u32 awb_accumulated_pixel; + u32 awb_gain_r; + u32 awb_gain_g; + u32 awb_gain_b; + bool awb_status_u; + bool awb_status_v; +}; + +/** + * struct hwd_viif_l2_gamma_table - HWD L2ISP Gamma table physical address + * @table[6]: table address(physical address) 4byte alignment + * + * relation between element and table is as below. + * * [0]: G/Y(1st table) + * * [1]: G/Y(2nd table) + * * [2]: B/U(1st table) + * * [3]: B/U(2nd table) + * * [4]: R/V(1st table) + * * [5]: R/V(2nd table) + * + * when 0 is set to table address, table transfer is disabled. + */ +struct hwd_viif_l2_gamma_table { + uintptr_t table[6]; +}; + +/* VIIF common */ +s32 hwd_viif_initialize(u32 module_id, void *csi2host_vaddr, void *capture_vaddr); +s32 hwd_viif_uninitialize(u32 module_id); +u32 hwd_viif_csi2rx_err_irq_handler(u32 module_id); +void hwd_viif_status_err_irq_handler(u32 module_id, u32 *event_main, u32 *event_sub); +void hwd_viif_vsync_irq_handler(u32 module_id, u32 *event_main, u32 *event_sub); +void hwd_viif_isp_regbuf_irq_handler(u32 module_id, u32 *event_l1, u32 *event_l2); + +/* control MAIN unit */ +s32 hwd_viif_main_set_unit(u32 module_id, u32 dt_image, const struct hwd_viif_input_img *in_img, + u32 color_type, u32 rawpack, u32 yuv_conv); +s32 hwd_viif_main_mask_vlatch(u32 module_id, u32 enable); +void hwd_viif_main_status_err_set_irq_mask(u32 module_id, u32 mask); +void hwd_viif_main_vsync_set_irq_mask(u32 module_id, u32 mask); + +/* conrol SUB unit */ +s32 hwd_viif_sub_set_unit(u32 module_id, u32 dt_image, const struct hwd_viif_input_img *in_img); +s32 hwd_viif_sub_set_img_transmission(u32 module_id, const struct hwd_viif_img *img); +void hwd_viif_sub_status_err_set_irq_mask(u32 module_id, u32 mask); +void hwd_viif_sub_vsync_set_irq_mask(u32 module_id, u32 mask); + +/* control MIPI CSI2 Receiver unit */ +s32 hwd_viif_csi2rx_initialize(u32 module_id, u32 num_lane, u32 lane_assign, u32 dphy_rate, + u32 rext_calibration, + const struct hwd_viif_csi2rx_line_err_target *err_target, + u32 input_mode, const struct hwd_viif_csi2rx_irq_mask *mask); +s32 hwd_viif_csi2rx_uninitialize(u32 module_id); +s32 hwd_viif_csi2rx_start(u32 module_id, s32 vc_main, s32 vc_sub, + const struct hwd_viif_csi2rx_packet *packet, u32 voif_through); +s32 hwd_viif_csi2rx_stop(u32 module_id); +s32 hwd_viif_csi2rx_get_calibration_status( + u32 module_id, struct viif_csi2rx_dphy_calibration_status *calibration_status); +s32 hwd_viif_csi2rx_get_err_status(u32 module_id, u32 *err_phy_fatal, u32 *err_pkt_fatal, + u32 *err_frame_fatal, u32 *err_phy, u32 *err_pkt, u32 *err_line); + +/* control L1 Image Signal Processor */ +void hwd_viif_isp_set_regbuf_auto_transmission(u32 module_id); +void hwd_viif_isp_disable_regbuf_auto_transmission(u32 module_id); +void hwd_viif_isp_get_info(u32 module_id, struct hwd_viif_l1_info *l1_info, + u32 *l2_transfer_status); +void hwd_viif_isp_set_regbuf_irq_mask(u32 module_id, const u32 *mask_l1, const u32 *mask_l2); + +s32 hwd_viif_l1_set_input_mode(u32 module_id, u32 mode, u32 depth, u32 raw_color_filter); +s32 hwd_viif_l1_set_rgb_to_y_coef(u32 module_id, u16 coef_r, u16 coef_g, u16 coef_b); +s32 hwd_viif_l1_set_ag_mode(u32 module_id, const struct viif_l1_ag_mode_config *param); +s32 hwd_viif_l1_set_ag(u32 module_id, u16 gain_h, u16 gain_m, u16 gain_l); +s32 hwd_viif_l1_set_hdre(u32 module_id, const struct viif_l1_hdre_config *param); +s32 hwd_viif_l1_set_img_extraction(u32 module_id, u32 input_black_gr, u32 input_black_r, + u32 input_black_b, u32 input_black_gb); +s32 hwd_viif_l1_set_dpc(u32 module_id, const struct viif_l1_dpc *param_h, + const struct viif_l1_dpc *param_m, const struct viif_l1_dpc *param_l); +s32 hwd_viif_l1_set_dpc_table_transmission(u32 module_id, uintptr_t table_h, uintptr_t table_m, + uintptr_t table_l); +s32 hwd_viif_l1_set_preset_white_balance(u32 module_id, u32 dstmaxval, + const struct viif_l1_preset_wb *param_h, + const struct viif_l1_preset_wb *param_m, + const struct viif_l1_preset_wb *param_l); +s32 hwd_viif_l1_set_raw_color_noise_reduction( + u32 module_id, const struct viif_l1_raw_color_noise_reduction *param_h, + const struct viif_l1_raw_color_noise_reduction *param_m, + const struct viif_l1_raw_color_noise_reduction *param_l); +s32 hwd_viif_l1_set_hdrs(u32 module_id, const struct viif_l1_hdrs_config *param); +s32 hwd_viif_l1_set_black_level_correction( + u32 module_id, const struct viif_l1_black_level_correction_config *param); +s32 hwd_viif_l1_set_lsc(u32 module_id, const struct hwd_viif_l1_lsc *param); +s32 hwd_viif_l1_set_lsc_table_transmission(u32 module_id, uintptr_t table_gr, uintptr_t table_r, + uintptr_t table_b, uintptr_t table_gb); +s32 hwd_viif_l1_set_main_process(u32 module_id, u32 demosaic_mode, u32 damp_lsbsel, + const struct viif_l1_color_matrix_correction *color_matrix, + u32 dst_maxval); +s32 hwd_viif_l1_set_awb(u32 module_id, const struct viif_l1_awb *param, u32 awhb_wbmrg, + u32 awhb_wbmgg, u32 awhb_wbmbg); +s32 hwd_viif_l1_lock_awb_gain(u32 module_id, u32 enable); +s32 hwd_viif_l1_set_hdrc(u32 module_id, const struct viif_l1_hdrc *param, u32 hdrc_thr_sft_amt); +s32 hwd_viif_l1_set_hdrc_ltm(u32 module_id, const struct viif_l1_hdrc_ltm_config *param); +s32 hwd_viif_l1_set_gamma(u32 module_id, const struct viif_l1_gamma *param); +s32 hwd_viif_l1_set_img_quality_adjustment(u32 module_id, + const struct hwd_viif_l1_img_quality_adjustment *param); +s32 hwd_viif_l1_set_avg_lum_generation(u32 module_id, + const struct viif_l1_avg_lum_generation_config *param); +void hwd_viif_l1_set_irq_mask(u32 module_id, u32 mask); + +/* control L2 Image Signal Processor */ +s32 hwd_viif_l2_set_input_csc(u32 module_id, const struct hwd_viif_csc_param *param, + bool is_l1_rgb); +s32 hwd_viif_l2_set_undist(u32 module_id, const struct viif_l2_undist *param); +s32 hwd_viif_l2_set_undist_table_transmission(u32 module_id, uintptr_t write_g, uintptr_t read_b, + uintptr_t read_g, uintptr_t read_r, u32 size); +s32 hwd_viif_l2_set_roi(u32 module_id, const struct viif_l2_roi_config *param); +s32 hwd_viif_l2_set_gamma(u32 module_id, u32 post_id, u32 enable, u32 vsplit, u32 mode); +s32 hwd_viif_l2_set_gamma_table_transmission(u32 module_id, u32 post_id, + const struct hwd_viif_l2_gamma_table *gamma_table); +s32 hwd_viif_l2_set_output_csc(u32 module_id, u32 post_id, const struct hwd_viif_csc_param *param); +s32 hwd_viif_l2_set_img_transmission(u32 module_id, u32 post_id, u32 enable, + const struct hwd_viif_img_area *src, + const struct hwd_viif_out_process *out_process, + const struct hwd_viif_img *img); +void hwd_viif_l2_set_irq_mask(u32 module_id, u32 mask); + +struct hwd_viif_res *viif_id2res(u32 module_id); + +void hwd_viif_isp_guard_start(u32 module_id); +void hwd_viif_isp_guard_end(u32 module_id); + +#endif /* HWD_VIIF_H */ diff --git a/drivers/media/platform/visconti/hwd_viif_csi2rx.c b/drivers/media/platform/visconti/hwd_viif_csi2rx.c new file mode 100644 index 000000000..9c97b916b --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif_csi2rx.c @@ -0,0 +1,723 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/delay.h> +#include <linux/io.h> +#include <linux/timekeeping.h> +#include "hwd_viif.h" +#include "hwd_viif_internal.h" + +#define CSI2_DT_YUV4208 0x18 +#define CSI2_DT_YUV42010 0x19 +#define CSI2_DT_YUV4208L 0x1A +#define CSI2_DT_YUV4208C 0x1C +#define CSI2_DT_YUV42010C 0x1D +#define CSI2_DT_YUV4228B VISCONTI_CSI2_DT_YUV4228B +#define CSI2_DT_YUV42210B VISCONTI_CSI2_DT_YUV42210B +#define CSI2_DT_RGB444 0x20 +#define CSI2_DT_RGB555 0x21 +#define CSI2_DT_RGB565 VISCONTI_CSI2_DT_RGB565 +#define CSI2_DT_RGB666 0x23 +#define CSI2_DT_RGB888 VISCONTI_CSI2_DT_RGB888 +#define CSI2_DT_RAW8 VISCONTI_CSI2_DT_RAW8 +#define CSI2_DT_RAW10 VISCONTI_CSI2_DT_RAW10 +#define CSI2_DT_RAW12 VISCONTI_CSI2_DT_RAW12 +#define CSI2_DT_RAW14 VISCONTI_CSI2_DT_RAW14 + +#define ROUNDUP_BY_4(val) (((val) + 3U) & 0xfffffffcU) + +#define TESTCTRL0_PHY_TESTCLK_1 0x2 +#define TESTCTRL0_PHY_TESTCLK_0 0x0 +#define TESTCTRL1_PHY_TESTEN 0x10000 +#define TESTCTRL1_PHY_TESTDOUT_SHIFT 8U + +/** + * hwd_viif_csi2rx_write_dphy_param() - Write CSI2RX DPHY params + * + * @test_mode: test code address + * @test_in: test code data + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +static void hwd_viif_csi2rx_write_dphy_param(u32 test_mode, u8 test_in, struct hwd_viif_res *res) +{ + /* select MSB address register */ + writel(TESTCTRL1_PHY_TESTEN, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* set MSB address of test_mode */ + writel(FIELD_GET(0xF00, test_mode), &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* select and set LSB address register */ + writel(TESTCTRL1_PHY_TESTEN | FIELD_GET(0xFF, test_mode), + &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* set the test code data */ + writel((u32)test_in, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); +} + +/** + * hwd_viif_csi2rx_read_dphy_param() - Read CSI2RX DPHY params + * + * @test_mode: test code address + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: test code data + */ +static u8 hwd_viif_csi2rx_read_dphy_param(u32 test_mode, struct hwd_viif_res *res) +{ + u32 read_data; + + /* select MSB address register */ + writel(TESTCTRL1_PHY_TESTEN, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* set MSB address of test_mode */ + writel(FIELD_GET(0xF00, test_mode), &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* select and set LSB address register */ + writel(TESTCTRL1_PHY_TESTEN | FIELD_GET(0xFF, test_mode), + &res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + + /* rise and clear the testclk */ + writel(TESTCTRL0_PHY_TESTCLK_1, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(TESTCTRL0_PHY_TESTCLK_0, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* read the test code data */ + read_data = readl(&res->csi2host_reg->CSI2RX_PHY_TESTCTRL1); + return (u8)(read_data >> TESTCTRL1_PHY_TESTDOUT_SHIFT); +} + +/** + * enum dphy_testcode - DPHY registers via the local communication path + */ +enum dphy_testcode { + DIG_RDWR_RX_SYS_0 = 0x001, + DIG_RDWR_RX_SYS_1 = 0x002, + DIG_RDWR_RX_SYS_3 = 0x004, + DIG_RDWR_RX_SYS_7 = 0x008, + DIG_RDWR_RX_RX_STARTUP_OVR_2 = 0x0E2, + DIG_RDWR_RX_RX_STARTUP_OVR_3 = 0x0E3, + DIG_RDWR_RX_RX_STARTUP_OVR_4 = 0x0E4, + DIG_RDWR_RX_RX_STARTUP_OVR_5 = 0x0E5, + DIG_RDWR_RX_CB_2 = 0x1AC, + DIG_RD_RX_TERM_CAL_0 = 0x220, + DIG_RD_RX_TERM_CAL_1 = 0x221, + DIG_RD_RX_TERM_CAL_2 = 0x222, + DIG_RDWR_RX_CLKLANE_LANE_6 = 0x307, + DIG_RD_RX_CLKLANE_OFFSET_CAL_0 = 0x39D, + DIG_RD_RX_LANE0_OFFSET_CAL_0 = 0x59F, + DIG_RD_RX_LANE0_DDL_0 = 0x5E0, + DIG_RD_RX_LANE1_OFFSET_CAL_0 = 0x79F, + DIG_RD_RX_LANE1_DDL_0 = 0x7E0, + DIG_RD_RX_LANE2_OFFSET_CAL_0 = 0x99F, + DIG_RD_RX_LANE2_DDL_0 = 0x9E0, + DIG_RD_RX_LANE3_OFFSET_CAL_0 = 0xB9F, + DIG_RD_RX_LANE3_DDL_0 = 0xBE0, +}; + +#define SYS_0_HSFREQRANGE_OVR BIT(5) +#define SYS_7_RESERVED FIELD_PREP(0x1F, 0x0C) +#define SYS_7_DESKEW_POL BIT(5) +#define STARTUP_OVR_4_CNTVAL FIELD_PREP(0x70, 0x01) +#define STARTUP_OVR_4_DDL_EN BIT(0) +#define STARTUP_OVR_5_BYPASS BIT(0) +#define CB_2_LPRX_BIAS BIT(6) +#define CB_2_RESERVED FIELD_PREP(0x3F, 0x0B) +#define CLKLANE_RXHS_PULL_LONG BIT(7) + +static const struct hwd_viif_dphy_hs_info dphy_hs_info[] = { + { 80, 0x0, 0x1cc }, { 85, 0x10, 0x1cc }, { 95, 0x20, 0x1cc }, { 105, 0x30, 0x1cc }, + { 115, 0x1, 0x1cc }, { 125, 0x11, 0x1cc }, { 135, 0x21, 0x1cc }, { 145, 0x31, 0x1cc }, + { 155, 0x2, 0x1cc }, { 165, 0x12, 0x1cc }, { 175, 0x22, 0x1cc }, { 185, 0x32, 0x1cc }, + { 198, 0x3, 0x1cc }, { 213, 0x13, 0x1cc }, { 228, 0x23, 0x1cc }, { 243, 0x33, 0x1cc }, + { 263, 0x4, 0x1cc }, { 288, 0x14, 0x1cc }, { 313, 0x25, 0x1cc }, { 338, 0x35, 0x1cc }, + { 375, 0x5, 0x1cc }, { 425, 0x16, 0x1cc }, { 475, 0x26, 0x1cc }, { 525, 0x37, 0x1cc }, + { 575, 0x7, 0x1cc }, { 625, 0x18, 0x1cc }, { 675, 0x28, 0x1cc }, { 725, 0x39, 0x1cc }, + { 775, 0x9, 0x1cc }, { 825, 0x19, 0x1cc }, { 875, 0x29, 0x1cc }, { 925, 0x3a, 0x1cc }, + { 975, 0xa, 0x1cc }, { 1025, 0x1a, 0x1cc }, { 1075, 0x2a, 0x1cc }, { 1125, 0x3b, 0x1cc }, + { 1175, 0xb, 0x1cc }, { 1225, 0x1b, 0x1cc }, { 1275, 0x2b, 0x1cc }, { 1325, 0x3c, 0x1cc }, + { 1375, 0xc, 0x1cc }, { 1425, 0x1c, 0x1cc }, { 1475, 0x2c, 0x1cc } +}; + +/** + * hwd_viif_csi2rx_get_dphy_hs_transfer_info() - Get DPHY HS info from table + * + * @dphy_rate: DPHY clock in MHz + * @hsfreqrange: HS Frequency Range + * @osc_freq_target: OSC Frequency Target + * Return: None + */ +static void hwd_viif_csi2rx_get_dphy_hs_transfer_info(u32 dphy_rate, u32 *hsfreqrange, + u32 *osc_freq_target, + struct hwd_viif_res *res) +{ + int table_size = ARRAY_SIZE(dphy_hs_info); + int i; + + for (i = 1; i < table_size; i++) { + if (dphy_rate < dphy_hs_info[i].rate) { + *hsfreqrange = dphy_hs_info[i - 1].hsfreqrange; + *osc_freq_target = dphy_hs_info[i - 1].osc_freq_target; + return; + } + } + + /* not found; return the largest entry */ + *hsfreqrange = dphy_hs_info[table_size - 1].hsfreqrange; + *osc_freq_target = dphy_hs_info[table_size - 1].osc_freq_target; +} + +/** + * hwd_viif_csi2rx_set_dphy_rate() - Set D-PHY rate + * + * @dphy_rate: D-PHY rate of 1 Lane[Mbps] [80..1500] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +static void hwd_viif_csi2rx_set_dphy_rate(u32 dphy_rate, struct hwd_viif_res *res) +{ + u32 hsfreqrange, osc_freq_target; + + hwd_viif_csi2rx_get_dphy_hs_transfer_info(dphy_rate, &hsfreqrange, &osc_freq_target, res); + + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_SYS_1, (u8)hsfreqrange, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_SYS_0, SYS_0_HSFREQRANGE_OVR, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_RX_STARTUP_OVR_5, STARTUP_OVR_5_BYPASS, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_RX_STARTUP_OVR_4, STARTUP_OVR_4_CNTVAL, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_CB_2, CB_2_LPRX_BIAS | CB_2_RESERVED, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_SYS_7, SYS_7_DESKEW_POL | SYS_7_RESERVED, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_CLKLANE_LANE_6, CLKLANE_RXHS_PULL_LONG, res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_RX_STARTUP_OVR_2, + FIELD_GET(0xff, osc_freq_target), res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_RX_STARTUP_OVR_3, + FIELD_GET(0xf00, osc_freq_target), res); + hwd_viif_csi2rx_write_dphy_param(DIG_RDWR_RX_RX_STARTUP_OVR_4, + STARTUP_OVR_4_CNTVAL | STARTUP_OVR_4_DDL_EN, res); + + writel(HWD_VIIF_DPHY_CFG_CLK_25M, &res->capture_reg->sys.DPHY_FREQRANGE); +} + +/** + * hwd_viif_csi2rx_check_dphy_calibration_status() - Check D-PHY calibration status + * + * @test_mode: test code related to calibration information + * @shift_val_err: shift value related to error information + * @shift_val_done: shift value related to done information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: HWD_VIIF_CSI2_CAL_NOT_DONE calibration is not done(out of target or not completed) + * Return: HWD_VIIF_CSI2_CAL_FAIL calibration was failed + * Return: HWD_VIIF_CSI2_CAL_SUCCESS calibration was succeeded + */ +static u32 hwd_viif_csi2rx_check_dphy_calibration_status(u32 test_mode, u32 shift_val_err, + u32 shift_val_done, + struct hwd_viif_res *res) +{ + u32 read_data = (u32)hwd_viif_csi2rx_read_dphy_param(test_mode, res); + + if (!(read_data & BIT(shift_val_done))) + return HWD_VIIF_CSI2_CAL_NOT_DONE; + + /* error check is not required for termination calibration with REXT(0x221) */ + if (test_mode == DIG_RD_RX_TERM_CAL_1) + return HWD_VIIF_CSI2_CAL_SUCCESS; + + /* done with error */ + if (read_data & BIT(shift_val_err)) + return HWD_VIIF_CSI2_CAL_FAIL; + + return HWD_VIIF_CSI2_CAL_SUCCESS; +} + +/** + * hwd_viif_csi2rx_initialize() - Initialize CSI-2 RX driver + * + * @num_lane: [1..4](VIIF CH0-CH1) + * @lane_assign: lane connection. For more refer @ref hwd_viif_dphy_lane_assignment + * @dphy_rate: D-PHY rate of 1 Lane[Mbps] [80..1500] + * @rext_calibration: enable or disable rext calibration. + * For more refer @ref hwd_viif_csi2rx_cal_status + * @err_target: Pointer to configuration for Line error detection. + * @input_mode: CSI-2 input mode of VIIF CH1. For more refer @ref hwd_viif_csi2rx_input_mode + * @mask: MASK of CSI-2 RX error interruption + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "num_lane", "lane_assign", "dphy_rate", "rext_calibration" or "input_mode" is out of range + * - [2] "err_target" is NULL + * - [3] member of "err_target" is invalid + */ +s32 hwd_viif_csi2rx_initialize(u32 module_id, u32 num_lane, u32 lane_assign, u32 dphy_rate, + u32 rext_calibration, + const struct hwd_viif_csi2rx_line_err_target *err_target, + u32 input_mode, const struct hwd_viif_csi2rx_irq_mask *mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 i, val; + + if (res->csi2rx_type == HWD_VIIF_CSI2_TYPE_4_LANES) { + if (num_lane == 0U || num_lane > 4U || lane_assign > HWD_VIIF_CSI2_DPHY_L0L2L1L3) + return -EINVAL; + } else { + if ((num_lane != 1U && num_lane != 2U) || + lane_assign != HWD_VIIF_CSI2_DPHY_L0L1L2L3) { + return -EINVAL; + } + } + + if (dphy_rate < HWD_VIIF_DPHY_MIN_DATA_RATE || dphy_rate > HWD_VIIF_DPHY_MAX_DATA_RATE || + (rext_calibration != HWD_VIIF_ENABLE && rext_calibration != HWD_VIIF_DISABLE) || + input_mode > HWD_VIIF_CSI2_INPUT_OTHER || + (res->ch != 1U && input_mode != HWD_VIIF_CSI2_INPUT_OWN) || !err_target) { + return -EINVAL; + } + + for (i = 0; i < 8U; i++) { + if (err_target->vc[i] > HWD_VIIF_CSI2_MAX_VC || + err_target->dt[i] > HWD_VIIF_CSI2_MAX_DT || + (err_target->dt[i] < HWD_VIIF_CSI2_MIN_DT && err_target->dt[i] != 0U)) { + return -EINVAL; + } + } + + if (input_mode == HWD_VIIF_CSI2_INPUT_OWN) { + /* 1st phase of initialization */ + writel(HWD_VIIF_ENABLE, &res->csi2host_reg->CSI2RX_RESETN); + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_PHY_RSTZ); + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_PHY_SHUTDOWNZ); + writel(HWD_VIIF_ENABLE, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + ndelay(15U); + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + + /* Configure D-PHY frequency range */ + hwd_viif_csi2rx_set_dphy_rate(dphy_rate, res); + + /* 2nd phase of initialization */ + writel((num_lane - 1U), &res->csi2host_reg->CSI2RX_NLANES); + ndelay(5U); + + /* configuration not to use rext */ + if (rext_calibration == HWD_VIIF_DISABLE) { + hwd_viif_csi2rx_write_dphy_param(0x004, 0x10, res); + ndelay(5U); + } + + /* Release D-PHY from Reset */ + writel(HWD_VIIF_ENABLE, &res->csi2host_reg->CSI2RX_PHY_SHUTDOWNZ); + ndelay(5U); + writel(HWD_VIIF_ENABLE, &res->csi2host_reg->CSI2RX_PHY_RSTZ); + + /* configuration of line error target */ + val = (err_target->vc[3] << 30U) | (err_target->dt[3] << 24U) | + (err_target->vc[2] << 22U) | (err_target->dt[2] << 16U) | + (err_target->vc[1] << 14U) | (err_target->dt[1] << 8U) | + (err_target->vc[0] << 6U) | (err_target->dt[0]); + writel(val, &res->csi2host_reg->CSI2RX_DATA_IDS_1); + if (res->csi2rx_type == HWD_VIIF_CSI2_TYPE_4_LANES) { + val = (err_target->vc[7] << 30U) | (err_target->dt[7] << 24U) | + (err_target->vc[6] << 22U) | (err_target->dt[6] << 16U) | + (err_target->vc[5] << 14U) | (err_target->dt[5] << 8U) | + (err_target->vc[4] << 6U) | (err_target->dt[4]); + writel(val, &res->csi2host_reg->CSI2RX_DATA_IDS_2); + } + + /* configuration of mask */ + writel(mask->mask[0], &res->csi2host_reg->CSI2RX_INT_MSK_PHY_FATAL); + writel(mask->mask[1], &res->csi2host_reg->CSI2RX_INT_MSK_PKT_FATAL); + writel(mask->mask[2], &res->csi2host_reg->CSI2RX_INT_MSK_FRAME_FATAL); + writel(mask->mask[3], &res->csi2host_reg->CSI2RX_INT_MSK_PHY); + writel(mask->mask[4], &res->csi2host_reg->CSI2RX_INT_MSK_PKT); + writel(mask->mask[5], &res->csi2host_reg->CSI2RX_INT_MSK_LINE); + + /* configuration of lane assignment */ + writel(lane_assign, &res->capture_reg->sys.DPHY_LANE); + + res->other_csi2_flag = false; + } else { + /* configuration of csi2 port */ + writel(input_mode, &res->capture_reg->sys.CSI2SELECT); + + res->other_csi2_flag = true; + } + return 0; +} + +/** + * hwd_viif_csi2rx_uninitialize() - Uninitialize CSI-2 RX driver + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + */ +s32 hwd_viif_csi2rx_uninitialize(u32 module_id) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (!res->other_csi2_flag) { + /* CSI2RX can be uninitialized because it has been enabled. */ + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_PHY_SHUTDOWNZ); + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_PHY_RSTZ); + writel(HWD_VIIF_ENABLE, &res->csi2host_reg->CSI2RX_PHY_TESTCTRL0); + writel(HWD_VIIF_DISABLE, &res->csi2host_reg->CSI2RX_RESETN); + } + + return 0; +} + +/** + * hwd_viif_csi2rx_start() - Start CSI-2 input + * + * @vc_main: control CSI-2 input of MAIN unit. + * enable with configured VC: 0, 1, 2 or 3, keep disabling: + * @vc_sub: control CSI-2 input of SUB unit. + * enable with configured VC: 0, 1, 2 or 3, keep disabling: + * @packet: Pointer to packet information of embedded data and long packet data + * @voif_through: enable or disable VOIF through output. For more refer @ref drv_VIIF_enable_flag + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * HWD_VIIF_CSI2_NOT_CAPTURE + * HWD_VIIF_CSI2_NOT_CAPTURE + * - [1] "vc_main", "vc_sub" or "voif_through" is out of range + * - [2] member of "packet" is invalid + * - [3] "voif_through" is not HWD_VIIF_DISABLE in case of CH other than CH1 + */ +s32 hwd_viif_csi2rx_start(u32 module_id, s32 vc_main, s32 vc_sub, + const struct hwd_viif_csi2rx_packet *packet, u32 voif_through) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, i, pitch, height, dt, start_addr, end_addr; + u32 enable_vc0 = HWD_VIIF_DISABLE; + u32 enable_vc1 = HWD_VIIF_DISABLE; + + if (vc_main > 3 || vc_main < HWD_VIIF_CSI2_NOT_CAPTURE || vc_sub > 3 || + vc_sub < HWD_VIIF_CSI2_NOT_CAPTURE) { + return -EINVAL; + } + + if (res->ch >= 2U && vc_sub != HWD_VIIF_CSI2_NOT_CAPTURE) + return -EINVAL; + + for (i = 0; i < 4U; i++) { + if (packet->word_count[i] > HWD_VIIF_CSI2_MAX_WORD_COUNT || + packet->packet_num[i] > HWD_VIIF_CSI2_MAX_PACKET_NUM) { + return -EINVAL; + } + + if ((i == 2U || i == 3U) && res->ch >= 2U) + if (packet->word_count[i] != 0U || packet->packet_num[i] != 0U) + return -EINVAL; + } + + if (voif_through != HWD_VIIF_ENABLE && voif_through != HWD_VIIF_DISABLE) + return -EINVAL; + + if (res->ch != 1U && voif_through == HWD_VIIF_ENABLE) + return -EINVAL; + + writel(HWD_VIIF_INPUT_CSI2, &res->capture_reg->sys.IPORTM); + + if (vc_main != HWD_VIIF_CSI2_NOT_CAPTURE) { + writel((u32)vc_main, &res->capture_reg->sys.VCID0SELECT); + enable_vc0 = HWD_VIIF_ENABLE; + } + if (vc_sub != HWD_VIIF_CSI2_NOT_CAPTURE) { + writel((u32)vc_sub, &res->capture_reg->sys.VCID1SELECT); + enable_vc1 = HWD_VIIF_ENABLE; + } + + if (res->ch == 0U || res->ch == 1U) { + /* emb of MAIN unit: word_count[0], packet_num[0] and w_port[1](= w01) */ + pitch = ROUNDUP_BY_4(packet->word_count[0]); + writel(pitch, &res->capture_reg->vdm.w_port[1].VDM_W_PITCH); + writel(packet->packet_num[0], &res->capture_reg->vdm.w_port[1].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[1].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[1].VDM_W_ENDADR); + + /* long packet of MAIN unit: word_count[1], packet_num[1] and w_port[0](= w00) */ + dt = readl(&res->capture_reg->sys.IPORTM_OTHER); + if (dt == CSI2_DT_YUV4208 || dt == CSI2_DT_YUV4208 || dt == CSI2_DT_YUV4208C || + dt == CSI2_DT_YUV42010C) { + pitch = ROUNDUP_BY_4(packet->word_count[1]) + + ROUNDUP_BY_4(packet->word_count[1] * 2U); + height = packet->packet_num[1] >> 1U; + } else { + pitch = ROUNDUP_BY_4(packet->word_count[1]); + height = packet->packet_num[1]; + } + writel(pitch, &res->capture_reg->vdm.w_port[0].VDM_W_PITCH); + writel(height, &res->capture_reg->vdm.w_port[0].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[0].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[0].VDM_W_ENDADR); + + /* emb of SUB unit: word_count[2], packet_num[2] and w_port[5](= w05) */ + pitch = ROUNDUP_BY_4(packet->word_count[2]); + writel(pitch, &res->capture_reg->vdm.w_port[5].VDM_W_PITCH); + writel(packet->packet_num[2], &res->capture_reg->vdm.w_port[5].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[5].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[5].VDM_W_ENDADR); + + /* long packet of SUB unit: word_count[3], packet_num[3] and w_port[4](= w04) */ + dt = readl(&res->capture_reg->sys.IPORTS_OTHER); + if (dt == CSI2_DT_YUV4208 || dt == CSI2_DT_YUV42010 || dt == CSI2_DT_YUV4208C || + dt == CSI2_DT_YUV42010C) { + pitch = ROUNDUP_BY_4(packet->word_count[3]) + + ROUNDUP_BY_4(packet->word_count[3] * 2U); + height = packet->packet_num[3] >> 1U; + } else { + pitch = ROUNDUP_BY_4(packet->word_count[3]); + height = packet->packet_num[3]; + } + writel(pitch, &res->capture_reg->vdm.w_port[4].VDM_W_PITCH); + writel(height, &res->capture_reg->vdm.w_port[4].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[4].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[4].VDM_W_ENDADR); + } else { + /* emb of MAIN unit: word_count[0], packet_num[0] and w_port[4](= w04) */ + pitch = ROUNDUP_BY_4(packet->word_count[0]); + writel(pitch, &res->capture_reg->vdm.w_port[4].VDM_W_PITCH); + writel(packet->packet_num[0], &res->capture_reg->vdm.w_port[4].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[4].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[4].VDM_W_ENDADR); + + /* long packet of MAIN unit: word_count[1], packet_num[1] and w_port[3](= w03) */ + dt = readl(&res->capture_reg->sys.IPORTM_OTHER); + if (dt == CSI2_DT_YUV4208 || dt == CSI2_DT_YUV42010 || dt == CSI2_DT_YUV4208C || + dt == CSI2_DT_YUV42010C) { + pitch = ROUNDUP_BY_4(packet->word_count[1]) + + ROUNDUP_BY_4(packet->word_count[1] * 2U); + height = packet->packet_num[1] >> 1U; + } else { + pitch = ROUNDUP_BY_4(packet->word_count[1]); + height = packet->packet_num[1]; + } + writel(pitch, &res->capture_reg->vdm.w_port[3].VDM_W_PITCH); + writel(height, &res->capture_reg->vdm.w_port[3].VDM_W_HEIGHT); + start_addr = readl(&res->capture_reg->vdm.w_port[3].VDM_W_STADR); + end_addr = start_addr + pitch - 1U; + writel(end_addr, &res->capture_reg->vdm.w_port[3].VDM_W_ENDADR); + + /* Set CSI2 sync to Memory input mode for test data usecase */ + writel(HWD_VIIF_MEM_SYNC_CSI2, &res->capture_reg->sys.IPORTI_M_SYNCMODE); + } + + if (voif_through == HWD_VIIF_ENABLE) { + /* Enable VOIF through input */ + writel(voif_through, &res->capture_reg->sys.CSI2THROUGHEN); + } + + /* Control VC port enable */ + val = enable_vc0 | (enable_vc1 << 4U); + writel(val, &res->capture_reg->sys.VCPORTEN); + + if (enable_vc0 == HWD_VIIF_ENABLE) { + /* Update flag information for run status of MAIN unit */ + res->run_flag_main = true; + } + + return 0; +} + +/** + * hwd_viif_csi2rx_stop() - Stop CSI-2 input + * + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -ETIMEDOUT Driver timeout error + */ +s32 hwd_viif_csi2rx_stop(u32 module_id) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 status_r, status_w, status_t, l2_status; + u64 timeout_ns, cur_ns; + bool run_flag = true; + s32 ret = 0; + + if (res->ch != 0U && res->ch != 1U) + return -1; + + /* Disable auto transmission of register buffer */ + writel(0, &res->capture_reg->l1isp.L1_CRGBF_TRN_A_CONF); + writel(0, &res->capture_reg->l2isp.L2_CRGBF_TRN_A_CONF); + + /* Wait for completion of register buffer transmission */ + udelay(HWD_VIIF_WAIT_ISP_REGBF_TRNS_COMPLETE_TIME); + + if (res->ch == 1U) { + /* Disable VOIF through input */ + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.CSI2THROUGHEN); + } + + /* Stop all VCs, long packet input and emb data input of MAIN unit */ + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.VCPORTEN); + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTM_OTHEREN); + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTM_EMBEN); + + /* Stop image data input, long packet input and emb data input of SUB unit */ + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTS_OTHEREN); + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTS_EMBEN); + writel(HWD_VIIF_DISABLE, &res->capture_reg->sys.IPORTS_IMGEN); + + /* Stop VDMAC for all table ports, input ports and write ports */ + writel(HWD_VIIF_DISABLE, &res->capture_reg->vdm.VDM_T_ENABLE); + writel(HWD_VIIF_DISABLE, &res->capture_reg->vdm.VDM_R_ENABLE); + writel(HWD_VIIF_DISABLE, &res->capture_reg->vdm.VDM_W_ENABLE); + + /* Stop all groups(g00, g01 and g02) of VDMAC */ + writel(0x7, &res->capture_reg->vdm.VDM_ABORTSET); + + timeout_ns = ktime_get_ns() + HWD_VIIF_WAIT_ABORT_COMPLETE_TIME * 1000; + + do { + /* Get VDMAC transfer status */ + status_r = readl(&res->capture_reg->vdm.VDM_R_RUN); + status_w = readl(&res->capture_reg->vdm.VDM_W_RUN); + status_t = readl(&res->capture_reg->vdm.VDM_T_RUN); + + l2_status = readl(&res->capture_reg->l2isp.L2_BUS_L2_STATUS); + + if (status_r == 0U && status_w == 0U && status_t == 0U && l2_status == 0U) + run_flag = false; + + cur_ns = ktime_get_ns(); + + if (cur_ns > timeout_ns) { + ret = -ETIMEDOUT; + run_flag = false; + } + } while (run_flag); + + if (ret == 0) { + /* Clear run flag of MAIN unit */ + res->run_flag_main = false; + } + + return ret; +} + +/** + * hwd_viif_csi2rx_get_calibration_status() - Get CSI-2 RX calibration status + * + * @calibration_status: Pointer to D-PHY calibration status information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error + * - [1] "calibration_status" is NULL + */ +s32 hwd_viif_csi2rx_get_calibration_status( + u32 module_id, struct viif_csi2rx_dphy_calibration_status *calibration_status) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (!calibration_status) + return -EINVAL; + + /* arg0; test register, arg1: error bit, arg2: done bit */ + /* 0x221: termination calibration with REXT */ + calibration_status->term_cal_with_rext = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_TERM_CAL_1, 0, 7, res); + /* 0x39D: clock lane offset calibration */ + calibration_status->clock_lane_offset_cal = hwd_viif_csi2rx_check_dphy_calibration_status( + DIG_RD_RX_CLKLANE_OFFSET_CAL_0, 4, 0, res); + /* 0x59F: data lane0 offset calibration */ + calibration_status->data_lane0_offset_cal = hwd_viif_csi2rx_check_dphy_calibration_status( + DIG_RD_RX_LANE0_OFFSET_CAL_0, 2, 1, res); + /* 0x79F: data lane1 offset calibration */ + calibration_status->data_lane1_offset_cal = hwd_viif_csi2rx_check_dphy_calibration_status( + DIG_RD_RX_LANE1_OFFSET_CAL_0, 2, 1, res); + /* 0x5E0: data lane0 DDL(Digital Delay Line) calibration */ + calibration_status->data_lane0_ddl_tuning_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE0_DDL_0, 1, 2, res); + /* 0x7E0: data lane1 DDL calibration */ + calibration_status->data_lane1_ddl_tuning_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE1_DDL_0, 1, 2, res); + + if (res->csi2rx_type == HWD_VIIF_CSI2_TYPE_4_LANES) { + /* 0x99F: data lane2 offset calibration */ + calibration_status->data_lane2_offset_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE2_OFFSET_CAL_0, + 2, 1, res); + /* 0xB9F: data lane3 offset calibration */ + calibration_status->data_lane3_offset_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE3_OFFSET_CAL_0, + 2, 1, res); + /* 0x9E0: data lane2 DDL calibration */ + calibration_status->data_lane2_ddl_tuning_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE2_DDL_0, 1, 2, + res); + /* 0xBE0: data lane3 DDL calibration */ + calibration_status->data_lane3_ddl_tuning_cal = + hwd_viif_csi2rx_check_dphy_calibration_status(DIG_RD_RX_LANE3_DDL_0, 1, 2, + res); + } else { + calibration_status->data_lane2_offset_cal = HWD_VIIF_CSI2_CAL_NOT_DONE; + calibration_status->data_lane3_offset_cal = HWD_VIIF_CSI2_CAL_NOT_DONE; + calibration_status->data_lane2_ddl_tuning_cal = HWD_VIIF_CSI2_CAL_NOT_DONE; + calibration_status->data_lane3_ddl_tuning_cal = HWD_VIIF_CSI2_CAL_NOT_DONE; + } + + return 0; +} + +/** + * hwd_viif_csi2rx_get_err_status() - Get CSI-2 RX error status + * + * @err_phy_fatal: Pointer to D-PHY fatal error information + * @err_pkt_fatal: Pointer to Packet fatal error information + * @err_frame_fatal: Pointer to Frame fatal error information + * @err_phy: Pointer to D-PHY error information + * @err_pkt: Pointer to Packet error information + * @err_line: Pointer to Line error information + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 Operation completes successfully + * Return: -EINVAL Parameter error, + * when "err_phy_fatal", "err_pkt_fatal", "err_frame_fatal", + * "err_phy", "err_pkt" or "err_line" is NULL + */ +s32 hwd_viif_csi2rx_get_err_status(u32 module_id, u32 *err_phy_fatal, u32 *err_pkt_fatal, + u32 *err_frame_fatal, u32 *err_phy, u32 *err_pkt, u32 *err_line) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (!err_phy_fatal || !err_pkt_fatal || !err_frame_fatal || !err_phy || !err_pkt || + !err_line) { + return -EINVAL; + } + *err_phy_fatal = readl(&res->csi2host_reg->CSI2RX_INT_ST_PHY_FATAL); + *err_pkt_fatal = readl(&res->csi2host_reg->CSI2RX_INT_ST_PKT_FATAL); + *err_frame_fatal = readl(&res->csi2host_reg->CSI2RX_INT_ST_FRAME_FATAL); + *err_phy = readl(&res->csi2host_reg->CSI2RX_INT_ST_PHY); + *err_pkt = readl(&res->csi2host_reg->CSI2RX_INT_ST_PKT); + *err_line = readl(&res->csi2host_reg->CSI2RX_INT_ST_LINE); + + return 0; +} diff --git a/drivers/media/platform/visconti/hwd_viif_internal.h b/drivers/media/platform/visconti/hwd_viif_internal.h new file mode 100644 index 000000000..5c9a314fb --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif_internal.h @@ -0,0 +1,348 @@ +/* SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause */ +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#ifndef HWD_VIIF_INTERNAL_H +#define HWD_VIIF_INTERNAL_H + +#include "hwd_viif_reg.h" + +#define HWD_VIIF_CSI2_TYPE_4_LANES (0U) +#define HWD_VIIF_CSI2_TYPE_2_LANES (1U) +#define HWD_VIIF_CSI2_MAX_VC (3U) +#define HWD_VIIF_CSI2_MIN_DT (0x10U) +#define HWD_VIIF_CSI2_MAX_DT (0x3fU) +#define HWD_VIIF_CSI2_MAX_WORD_COUNT (16384U) +#define HWD_VIIF_CSI2_MAX_PACKET_NUM (8192U) +#define HWD_VIIF_DPHY_MIN_DATA_RATE (80U) +#define HWD_VIIF_DPHY_MAX_DATA_RATE (1500U) +#define HWD_VIIF_DPHY_CFG_CLK_25M (32U) +#define HWD_VIIF_DPHY_TRANSFER_HS_TABLE_NUM (43U) + +/* maximum horizontal/vertical position/dimension of CROP with ISP */ +#define HWD_VIIF_CROP_MAX_X_ISP (8062U) +#define HWD_VIIF_CROP_MAX_Y_ISP (3966U) +#define HWD_VIIF_CROP_MAX_W_ISP (8190U) +#define HWD_VIIF_CROP_MAX_H_ISP (4094U) + +/* maximum horizontal/vertical position/dimension of CROP without ISP */ +#define HWD_VIIF_CROP_MAX_X (1920U) +#define HWD_VIIF_CROP_MAX_Y (1408U) +#define HWD_VIIF_CROP_MIN_W (128U) +#define HWD_VIIF_CROP_MAX_W (2048U) +#define HWD_VIIF_CROP_MIN_H (128U) +#define HWD_VIIF_CROP_MAX_H (1536U) + +/* pixel clock: [kHz] */ +#define HWD_VIIF_MIN_PIXEL_CLOCK (3375U) +#define HWD_VIIF_MAX_PIXEL_CLOCK (600000U) + +/* picture size: [pixel], [ns] */ +#define HWD_VIIF_MIN_HTOTAL_PIXEL (143U) +#define HWD_VIIF_MIN_HTOTAL_NSEC (239U) +#define HWD_VIIF_MAX_HTOTAL_PIXEL (65535U) +#define HWD_VIIF_MAX_HTOTAL_NSEC (109225U) + +/* horizontal back porch size: [system clock] */ +#define HWD_VIIF_HBP_SYSCLK (10U) + +/* active picture size: [pixel] */ +#define HWD_VIIF_MIN_HACTIVE_PIXEL_WO_L1ISP (128U) +#define HWD_VIIF_MAX_HACTIVE_PIXEL_WO_L1ISP (4096U) +#define HWD_VIIF_MIN_HACTIVE_PIXEL_W_L1ISP (640U) +#define HWD_VIIF_MAX_HACTIVE_PIXEL_W_L1ISP (3840U) + +/* picture vertical size: [line], [packet] */ +#define HWD_VIIF_MIN_VTOTAL_LINE (144U) +#define HWD_VIIF_MAX_VTOTAL_LINE (16383U) +#define HWD_VIIF_MIN_VBP_LINE (5U) +#define HWD_VIIF_MAX_VBP_LINE (4095U) +#define HWD_VIIF_MIN_VBP_PACKET (5U) +#define HWD_VIIF_MAX_VBP_PACKET (4095U) +#define HWD_VIIF_MIN_VACTIVE_LINE_WO_L1ISP (128U) +#define HWD_VIIF_MAX_VACTIVE_LINE_WO_L1ISP (2160U) +#define HWD_VIIF_MIN_VACTIVE_LINE_W_L1ISP (480U) +#define HWD_VIIF_MAX_VACTIVE_LINE_W_L1ISP (2160U) + +/* image source select */ +#define HWD_VIIF_INPUT_CSI2 (0U) + +#define HWD_VIIF_CSC_MAX_OFFSET (0x0001FFFFU) +#define HWD_VIIF_CSC_MAX_COEF_VALUE (0x0000FFFFU) +#define HWD_VIIF_CSC_MAX_COEF_NUM (9U) +#define HWD_VIIF_GAMMA_MAX_VSPLIT (4094U) +#define HWD_VIIF_MTB_CB_YG_COEF_OFFSET (16U) +#define HWD_VIIF_MTB_CR_YG_COEF_OFFSET (0U) +#define HWD_VIIF_MTB_CB_CB_COEF_OFFSET (16U) +#define HWD_VIIF_MTB_CR_CB_COEF_OFFSET (0U) +#define HWD_VIIF_MTB_CB_CR_COEF_OFFSET (16U) +#define HWD_VIIF_MTB_CR_CR_COEF_OFFSET (0U) +#define HWD_VIIF_MAX_PITCH_ISP (32704U) +#define HWD_VIIF_MAX_PITCH (65536U) + +/* size of minimum/maximum input image */ +#define HWD_VIIF_MIN_INPUT_IMG_WIDTH (128U) +#define HWD_VIIF_MAX_INPUT_IMG_WIDTH_ISP (4096U) +#define HWD_VIIF_MAX_INPUT_IMG_WIDTH (2048U) +#define HWD_VIIF_MIN_INPUT_IMG_HEIGHT (128U) +#define HWD_VIIF_MAX_INPUT_IMG_HEIGHT_ISP (2160U) +#define HWD_VIIF_MAX_INPUT_IMG_HEIGHT (1536U) +#define HWD_VIIF_MAX_INPUT_LINE_SIZE (16384U) + +/* size of minimum/maximum output image */ +#define HWD_VIIF_MIN_OUTPUT_IMG_WIDTH (128U) +#define HWD_VIIF_MAX_OUTPUT_IMG_WIDTH_ISP (5760U) +#define HWD_VIIF_MAX_OUTPUT_IMG_WIDTH_SUB (4096U) + +#define HWD_VIIF_MIN_OUTPUT_IMG_HEIGHT (128U) +#define HWD_VIIF_MAX_OUTPUT_IMG_HEIGHT_ISP (3240U) +#define HWD_VIIF_MAX_OUTPUT_IMG_HEIGHT_SUB (2160U) + +#define HWD_VIIF_NO_EVENT (0x0U) + +/* System clock: [kHz] */ +#define HWD_VIIF_SYS_CLK (500000UL) + +/* + * wait time for force abort to complete(max 1line time = 1228.8[us] + * when width = 4096, RAW24, 80Mbps + */ +#define HWD_VIIF_WAIT_ABORT_COMPLETE_TIME (1229U) + +/* + * complete time of register buffer transfer. + * actual time is about 30us in case of L1ISP + */ +#define HWD_VIIF_WAIT_ISP_REGBF_TRNS_COMPLETE_TIME (39U) + +/* internal operation latencies: [system clock]*/ +#define HWD_VIIF_TABLE_LOAD_TIME (24000UL) +#define HWD_VIIF_REGBUF_ACCESS_TIME (15360UL) + +/* offset of Vsync delay: [line] */ +#define HWD_VIIF_L1_DELAY_W_HDRC (31U) +#define HWD_VIIF_L1_DELAY_WO_HDRC (11U) + +/* data width is 32bit */ +#define HWD_VIIF_VDM_CFG_PARAM (0x00000210U) + +/* vsync mode is pulse */ +#define HWD_VIIF_DPGM_VSYNC_PULSE (1U) + +/* Vlatch mask bit for L1ISP and L2ISP */ +#define HWD_VIIF_ISP_VLATCH_MASK (2U) + +/* Register buffer */ +#define HWD_VIIF_ISP_MAX_CONTEXT_NUM (4U) +#define HWD_VIIF_ISP_REGBUF_MODE_BYPASS (0U) +#define HWD_VIIF_ISP_REGBUF_MODE_BUFFER (1U) +#define HWD_VIIF_ISP_REGBUF_READ (1U) + +/* constants for L1 ISP*/ +#define HWD_VIIF_L1_INPUT_MODE_NUM (5U) +#define HWD_VIIF_L1_INPUT_DEPTH_MIN (8U) +#define HWD_VIIF_L1_INPUT_DEPTH_MAX (24U) +#define HWD_VIIF_L1_INPUT_DEPTH_SDR_MAX (12U) +#define HWD_VIIF_L1_INPUT_DEPTH_PWL_MAX (14U) +#define HWD_VIIF_L1_RAW_MODE_NUM (4U) +#define HWD_VIIF_L1_INPUT_NUM_MIN (1U) +#define HWD_VIIF_L1_INPUT_NUM_MAX (3U) +#define HWD_VIIF_L1_AG_ID_NUM (4U) +#define HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM (3U) +#define HWD_VIIF_L1_HDRE_MAX_KNEEPOINT_VAL (0x3fffU) +#define HWD_VIIF_L1_HDRE_MAX_HDRE_SIG_VAL (0xffffffU) +#define HWD_VIIF_L1_HDRE_MAX_OUT_PIXEL_RATIO (0x400000U) +#define HWD_VIIF_L1_HDRE_MAX_OUT_PIXEL_VAL (0xffffffU) +#define HWD_VIIF_L1_OBCC_MAX_AG_VAL (511U) +#define HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL (0xffffffU) +#define HWD_VIIF_L1_DPC_MAX_RATIO_LIMIT_VAL (1023U) +#define HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL (1U) +#define HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL (31U) +#define HWD_VIIF_L1_VDM_ALIGN (0x8U) /* port interface width is 64bit */ +#define HWD_VIIF_L1_VDM_CFG_PARAM (0x00000310U) /* data width is 64bit */ +#define HWD_VIIF_L1_VDM_SRAM_BASE (0x00000600U) +#define HWD_VIIF_L1_VDM_SRAM_SIZE (0x00000020U) +#define HWD_VIIF_L1_VDM_DPC_TABLE_SIZE (0x2000U) +#define HWD_VIIF_L1_VDM_LSC_TABLE_SIZE (0x600U) +#define HWD_VIIF_L1_PWHB_MAX_OUT_PIXEL_VAL (4095U) +#define HWD_VIIF_L1_PWHB_MAX_GAIN_VAL (0x80000U) +#define HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL (63U) +#define HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL (31U) +#define HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL (3U) +#define HWD_VIIF_L1_RCNR_MAX_ZERO_CLIP_VAL (256U) +#define HWD_VIIF_L1_RCNR_MAX_BLEND_VAL (16U) +#define HWD_VIIF_L1_RCNR_MAX_BLACK_LEVEL_VAL (64U) +#define HWD_VIIF_L1_RCNR_MIN_0DIV_GUARD_VAL (4U) +#define HWD_VIIF_L1_RCNR_MAX_0DIV_GUARD_VAL (16U) +#define HWD_VIIF_L1_RCNR_MAX_CALC_MSF_NOISE_MULTI_VAL (32U) +#define HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL (2U) +#define HWD_VIIF_L1_RCNR_MAX_UP_LIMIT_GRGB_SENS_RATIO (15U) +#define HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO (0x400U) +#define HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO (0x400000U) +#define HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL (0x400000U) +#define HWD_VIIF_L1_HDRS_MAX_DST_MAX_VAL (0xffffffU) +#define HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL (4095U) +#define HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL (0xffffffU) +#define HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL (0x100000U) +#define HWD_VIIF_L1_BLACK_LEVEL_MAX_DST_VAL (0xffffffU) +#define HWD_VIIF_LSC_MIN_GAIN (-4096) +#define HWD_VIIF_LSC_MAX_GAIN (4096) +#define HWD_VIIF_LSC_GRID_MIN_COORDINATE (1U) +#define HWD_VIIF_LSC_PWB_MAX_COEF_VAL (0x800U) +#define HWD_VIIF_DAMP_MAX_LSBSEL (15U) +#define HWD_VIIF_MAIN_PROCESS_MAX_OUT_PIXEL_VAL (0xffffffU) +#define HWD_VIIF_AWB_MIN_GAIN (64U) +#define HWD_VIIF_AWB_MAX_GAIN (1024U) +#define HWD_VIIF_AWB_GATE_LOWER (-127) +#define HWD_VIIF_AWB_GATE_UPPER (127) +#define HWD_VIIF_AWB_UNSIGNED_GATE_UPPER (127U) +#define HWD_VIIF_AWB_MAX_UV_CONVERGENCE_SPEED (15U) +#define HWD_VIIF_AWB_MAX_UV_CONVERGENCE_LEVEL (31U) +#define HWD_VIIF_AWB_INTEGRATION_STOP_TH (1023U) +#define HWD_VIIF_L1_HDRC_MAX_THROUGH_SHIFT_VAL (8U) +#define HWD_VIIF_L1_HDRC_MIN_INPUT_DATA_WIDTH (10U) +#define HWD_VIIF_L1_HDRC_MAX_INPUT_DATA_WIDTH (24U) +#define HWD_VIIF_L1_HDRC_MAX_PT_SLOPE (13U) +#define HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO (256U) +#define HWD_VIIF_L1_HDRC_MAX_FLARE_VAL (0xffffffU) +#define HWD_VIIF_L1_HDRC_MAX_BLEND_LUMA (16U) +#define HWD_VIIF_L1_HDRC_MAX_LTM_TONE_BLEND_RATIO (0x400000U) +#define HWD_VIIF_L1_HDRC_MAX_LTM_MAGNIFICATION (0x4000U) +#define HWD_VIIF_L1_HDRC_RATIO_OFFSET (10U) +#define HWD_VIIF_L1_GAMMA_MAX_VAL (8191U) +#define HWD_VIIF_L1_SUPPRESSION_MAX_VAL (0x4000U) +#define HWD_VIIF_L1_EDGE_SUPPRESSION_MAX_LIMIT (15U) +#define HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN (0x1000U) +#define HWD_VIIF_L1_AEXP_MAX_WEIGHT (3U) +#define HWD_VIIF_L1_AEXP_MAX_BLOCK_TH (256U) +#define HWD_VIIF_L1_AEXP_MAX_SATURATION_PIXEL_TH (0xffffffU) +#define HWD_VIIF_L1_AEXP_MIN_BLOCK_WIDTH (64U) +#define HWD_VIIF_L1_AEXP_MIN_BLOCK_HEIGHT (64U) +#define HWD_VIIF_L1_HIST_COLOR_RGBY (2U) +#define HWD_VIIF_L1_HIST_MAX_BLOCK_NUM (8U) +#define HWD_VIIF_L1_HIST_MAX_STEP (15U) +#define HWD_VIIF_L1_HIST_MAX_BIN_SHIFT (31U) +#define HWD_VIIF_L1_HIST_MAX_COEF (65536U) +#define HWD_VIIF_L1_HIST_MIN_ADD_B_COEF (-65536) +#define HWD_VIIF_L1_HIST_MIN_ADD_A_COEF (-16777216) +#define HWD_VIIF_L1_HIST_MAX_ADD_A_COEF (16777216) +#define HWD_VIIF_L1_HIST_VDM_SIZE (4096U) +#define HWD_VIIF_L1_HIST_VDM_SRAM_BASE (0x00000400U) +#define HWD_VIIF_L1_HIST_VDM_SRAM_SIZE (0x00000040U) +#define HWD_VIIF_L1_CRGBF_R_START_ADDR_LIMIT (0x0200U) +#define HWD_VIIF_L1_CRGBF_R_END_ADDR_LIMIT (0x10BFU) +#define HWD_VIIF_L1_COEF_MIN (256U) +#define HWD_VIIF_L1_COEF_MAX (65024U) + +/* constants for L2 ISP */ +#define HWD_VIIF_L2_VDM_ALIGN (0x4U) +#define HWD_VIIF_L2_VDM_GRID_SRAM_BASE (0x00000620U) +#define HWD_VIIF_L2_VDM_GRID_SRAM_SIZE (0x00000020U) +#define HWD_VIIF_L2_VDM_GAMMA_SRAM_BASE (0x00000640U) +#define HWD_VIIF_L2_VDM_GAMMA_SRAM_SIZE (0x00000020U) +#define HWD_VIIF_L2_VDM_GAMMA_TABLE_SIZE (0x00000200U) +#define HWD_VIIF_L2_UNDIST_POLY_NUM (11U) +#define HWD_VIIF_L2_UNDIST_MIN_SENSOR_CROP_OFS_H (-4296) +#define HWD_VIIF_L2_UNDIST_MAX_SENSOR_CROP_OFS_H (4296) +#define HWD_VIIF_L2_UNDIST_MIN_SENSOR_CROP_OFS_V (-2360) +#define HWD_VIIF_L2_UNDIST_MAX_SENSOR_CROP_OFS_V (2360) +#define HWD_VIIF_L2_UNDIST_MAX_NORM_SCALE (1677721U) +#define HWD_VIIF_L2_UNDIST_MAX_VALID_R_NORM2 (0x4000000U) +#define HWD_VIIF_L2_UNDIST_MAX_ROI_WRITE_AREA_DELTA (0x800U) +#define HWD_VIIF_L2_UNDIST_MIN_POLY_COEF (-2147352576) +#define HWD_VIIF_L2_UNDIST_MAX_POLY_COEF (2147352576) +#define HWD_VIIF_L2_UNDIST_MIN_GRID_NUM (16U) +#define HWD_VIIF_L2_UNDIST_MAX_GRID_NUM (64U) +#define HWD_VIIF_L2_UNDIST_MAX_GRID_TOTAL_NUM (2048U) +#define HWD_VIIF_L2_UNDIST_MAX_GRID_PATCH_SIZE_INV (0x800000U) +#define HWD_VIIF_L2_UNDIST_MIN_TABLE_SIZE (0x400U) +#define HWD_VIIF_L2_UNDIST_MAX_TABLE_SIZE (0x2000U) +#define HWD_VIIF_L2_ROI_MIN_NUM (1U) +#define HWD_VIIF_L2_ROI_MAX_NUM (2U) +#define HWD_VIIF_L2_ROI_MIN_SCALE (32768U) +#define HWD_VIIF_L2_ROI_MAX_SCALE (131072U) +#define HWD_VIIF_L2_ROI_MIN_SCALE_INV (32768U) +#define HWD_VIIF_L2_ROI_MAX_SCALE_INV (131072U) +#define HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_HSIZE (128U) +#define HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_HSIZE (8190U) +#define HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_VSIZE (128U) +#define HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_VSIZE (4094U) +#define HWD_VIIF_L2_ROI_MIN_CORRECTED_HSIZE (128U) +#define HWD_VIIF_L2_ROI_MAX_CORRECTED_HSIZE (8190U) +#define HWD_VIIF_L2_ROI_MIN_CORRECTED_VSIZE (128U) +#define HWD_VIIF_L2_ROI_MAX_CORRECTED_VSIZE (4094U) +#define HWD_VIIF_L2_CRGBF_R_START_ADDR_LIMIT (0x1CU) +#define HWD_VIIF_L2_CRGBF_R_END_ADDR_LIMIT (0x1FU) +#define HWD_VIIF_L2_ROI_NONE (3U) +#define HWD_VIIF_MAX_POST_NUM (2U) +#define HWD_VIIF_L2_INPUT_OTHER_CH (0x50U) + +/** + * struct hwd_viif_l2_roi_path_info - L2ISP ROI path control information + * + * @roi_num: the number of ROIs which are used. + * @post_enable_flag: flag to show which of POST is enabled. + * @post_crop_x: CROP x of each L2ISP POST + * @post_crop_y: CROP y of each L2ISP POST + * @post_crop_w: CROP w of each L2ISP POST + * @post_crop_h: CROP h of each L2ISP POST + */ +struct hwd_viif_l2_roi_path_info { + u32 roi_num; + bool post_enable_flag[HWD_VIIF_MAX_POST_NUM]; + u32 post_crop_x[HWD_VIIF_MAX_POST_NUM]; + u32 post_crop_y[HWD_VIIF_MAX_POST_NUM]; + u32 post_crop_w[HWD_VIIF_MAX_POST_NUM]; + u32 post_crop_h[HWD_VIIF_MAX_POST_NUM]; +}; + +/** + * struct hwd_viif_res - driver internal resource structure + * + * @ch: channel ID + * @csi2rx_type: type of CSI-2 RX + * @sram_size_w_port: vdmac sram size of write port + * @sram_size_r_port: vdmac sram size of read port + * @sram_start_addr_gamma: start address of vdmac sram for gamma table + * @pixel_clock: pixel clock + * @htotal_size: horizontal total size + * @dt_image_main_w_isp: Data type of image data for ISP path + * @csi2host_reg: pointer to register access structure of CSI-2 RX host controller + * @capture_reg: pointer to register access structure of capture unit + * @l2_roi_path_info: ROI path information of L2ISP + * @run_flag_main: run flag of MAIN unit(true: run, false: not run) + * @other_csi2_flag: flag to indicate that packet is input from other channel + */ +struct hwd_viif_res { + const u32 ch; + const u32 csi2rx_type; + const u32 sram_size_w_port; + const u32 sram_size_r_port; + const u32 sram_start_addr_gamma; + u32 pixel_clock; + u32 htotal_size; + u32 dt_image_main_w_isp; + struct hwd_viif_csi2host_reg *csi2host_reg; + struct hwd_viif_capture_reg *capture_reg; + struct hwd_viif_l2_roi_path_info l2_roi_path_info; + bool run_flag_main; + bool other_csi2_flag; +}; + +/** + * struct hwd_viif_dphy_hs_info - dphy hs information + * + * @rate: Data rate [Mbps] + * @hsfreqrange: IP operating frequency(hsfreqrange) + * @osc_freq_target: DDL target oscillation frequency(osc_freq_target) + */ +struct hwd_viif_dphy_hs_info { + u32 rate; + u32 hsfreqrange; + u32 osc_freq_target; +}; + +#endif /* HWD_VIIF_INTERNAL_H */ diff --git a/drivers/media/platform/visconti/hwd_viif_l1isp.c b/drivers/media/platform/visconti/hwd_viif_l1isp.c new file mode 100644 index 000000000..c6cd08776 --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif_l1isp.c @@ -0,0 +1,2727 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/io.h> +#include "hwd_viif.h" +#include "hwd_viif_internal.h" + +/** + * hwd_viif_l1_set_input_mode() - Configure L1ISP input mode. + * + * @mode: L1ISP preprocessing mode @ref hwd_viif_l1_input_mode + * @depth: input color depth (even only) + * - [8..24] in case of mode = #HWD_VIIF_L1_INPUT_HDR or #HWD_VIIF_L1_INPUT_HDR_IMG_CORRECT + * - [8..14] in case of mode = #HWD_VIIF_L1_INPUT_PWL or #HWD_VIIF_L1_INPUT_PWL_IMG_CORRECT + * - [8..12] in case of mode = #HWD_VIIF_L1_INPUT_SDR + * @raw_color_filter: RAW color filter array @ref hwd_viif_l1_raw_color_filter_mode + * @interpolation_order: interpolation order for input image + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "mode" is out of range + * - "depth" is out of range + * - "raw_color_filter" is out of range + * - "interpolation_order" is NULL in case of "mode" == #HWD_VIIF_L1_INPUT_SDR + * - "interpolation_order" is not NULL in case of "mode" != #HWD_VIIF_L1_INPUT_SDR + * + * Note that if 'mode' is not HWD_VIIF_L1_INPUT_SDR, NULL shall be set to 'interpolation_order'. + */ +s32 hwd_viif_l1_set_input_mode(u32 module_id, u32 mode, u32 depth, u32 raw_color_filter) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 depth_max; + + if (mode >= HWD_VIIF_L1_INPUT_MODE_NUM || mode == HWD_VIIF_L1_INPUT_SDR) + return -EINVAL; + + if (mode == HWD_VIIF_L1_INPUT_PWL || mode == HWD_VIIF_L1_INPUT_PWL_IMG_CORRECT) + depth_max = HWD_VIIF_L1_INPUT_DEPTH_PWL_MAX; + else + depth_max = HWD_VIIF_L1_INPUT_DEPTH_MAX; + + if (depth < HWD_VIIF_L1_INPUT_DEPTH_MIN || depth > depth_max || ((depth % 2U) != 0U) || + raw_color_filter >= HWD_VIIF_L1_RAW_MODE_NUM) { + return -EINVAL; + } + + writel(mode, &res->capture_reg->l1isp.L1_SYSM_INPUT_MODE); + writel(depth, &res->capture_reg->l1isp.L1_IBUF_DEPTH); + writel(raw_color_filter, &res->capture_reg->l1isp.L1_SYSM_START_COLOR); + + return 0; +} + +/** + * hwd_viif_l1_set_rgb_to_y_coef() - Configure L1ISP RGB coefficients to calculate Y. + * + * @coef_r: R coefficient to calculate Y [256..65024] accuracy: 1/65536 + * @coef_g: G coefficient to calculate Y [256..65024] accuracy: 1/65536 + * @coef_b: B coefficient to calculate Y [256..65024] accuracy: 1/65536 + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "coef_r" is out of range + * - "coef_g" is out of range + * - "coef_b" is out of range + * + * Note that it is possible that coef_r/g/b has rounding error when the value is set to HW register + */ +s32 hwd_viif_l1_set_rgb_to_y_coef(u32 module_id, u16 coef_r, u16 coef_g, u16 coef_b) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (coef_r < HWD_VIIF_L1_COEF_MIN || coef_r > HWD_VIIF_L1_COEF_MAX || + coef_g < HWD_VIIF_L1_COEF_MIN || coef_g > HWD_VIIF_L1_COEF_MAX || + coef_b < HWD_VIIF_L1_COEF_MIN || coef_b > HWD_VIIF_L1_COEF_MAX) { + return -EINVAL; + } + + writel((u32)coef_r, &res->capture_reg->l1isp.L1_SYSM_YCOEF_R); + writel((u32)coef_g, &res->capture_reg->l1isp.L1_SYSM_YCOEF_G); + writel((u32)coef_b, &res->capture_reg->l1isp.L1_SYSM_YCOEF_B); + + return 0; +} + +/** + * hwd_viif_l1_set_ag_mode() - Configure L1ISP AG mode. + * + * @param: pointer to struct hwd_viif_l1_ag_mode + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param" is NULL + * - each member of "param" is invalid + */ +s32 hwd_viif_l1_set_ag_mode(u32 module_id, const struct viif_l1_ag_mode_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + u32 val; + + if (!param || param->sysm_ag_psel_hobc_high >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_hobc_middle_led >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_hobc_low >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_abpc_high >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_abpc_middle_led >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_abpc_low >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_rcnr_high >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_rcnr_middle_led >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_psel_rcnr_low >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_ssel_lssc >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM || + param->sysm_ag_psel_lssc >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_ssel_mpro >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM || + param->sysm_ag_psel_mpro >= HWD_VIIF_L1_AG_ID_NUM || + param->sysm_ag_ssel_vpro >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM || + param->sysm_ag_psel_vpro >= HWD_VIIF_L1_AG_ID_NUM || + (param->sysm_ag_cont_hobc_en_high != HWD_VIIF_ENABLE && + param->sysm_ag_cont_hobc_en_high != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_hobc_en_middle_led != HWD_VIIF_ENABLE && + param->sysm_ag_cont_hobc_en_middle_led != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_hobc_en_low != HWD_VIIF_ENABLE && + param->sysm_ag_cont_hobc_en_low != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_rcnr_en_high != HWD_VIIF_ENABLE && + param->sysm_ag_cont_rcnr_en_high != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_rcnr_en_middle_led != HWD_VIIF_ENABLE && + param->sysm_ag_cont_rcnr_en_middle_led != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_rcnr_en_low != HWD_VIIF_ENABLE && + param->sysm_ag_cont_rcnr_en_low != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_lssc_en != HWD_VIIF_ENABLE && + param->sysm_ag_cont_lssc_en != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_mpro_en != HWD_VIIF_ENABLE && + param->sysm_ag_cont_mpro_en != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_vpro_en != HWD_VIIF_ENABLE && + param->sysm_ag_cont_vpro_en != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_abpc_en_middle_led != HWD_VIIF_ENABLE && + param->sysm_ag_cont_abpc_en_middle_led != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_abpc_en_high != HWD_VIIF_ENABLE && + param->sysm_ag_cont_abpc_en_high != HWD_VIIF_DISABLE) || + (param->sysm_ag_cont_abpc_en_low != HWD_VIIF_ENABLE && + param->sysm_ag_cont_abpc_en_low != HWD_VIIF_DISABLE)) { + return -EINVAL; + } + + /* SYSM_AG_PARAM */ + val = ((u32)param->sysm_ag_grad[0] << 16U) | ((u32)param->sysm_ag_ofst[0]); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_PARAM_A); + val = ((u32)param->sysm_ag_grad[1] << 16U) | ((u32)param->sysm_ag_ofst[1]); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_PARAM_B); + val = ((u32)param->sysm_ag_grad[2] << 16U) | ((u32)param->sysm_ag_ofst[2]); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_PARAM_C); + val = ((u32)param->sysm_ag_grad[3] << 16U) | ((u32)param->sysm_ag_ofst[3]); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_PARAM_D); + + /* SYSM_AG_SEL */ + val = ((u32)param->sysm_ag_psel_hobc_high << 6U) | + ((u32)param->sysm_ag_psel_hobc_middle_led << 4U) | + ((u32)param->sysm_ag_psel_hobc_low << 2U); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_HOBC); + + val = ((u32)param->sysm_ag_psel_abpc_high << 6U) | + ((u32)param->sysm_ag_psel_abpc_middle_led << 4U) | + ((u32)param->sysm_ag_psel_abpc_low << 2U); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_ABPC); + + val = ((u32)param->sysm_ag_psel_rcnr_high << 6U) | + ((u32)param->sysm_ag_psel_rcnr_middle_led << 4U) | + ((u32)param->sysm_ag_psel_rcnr_low << 2U); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_RCNR); + + val = ((u32)param->sysm_ag_ssel_lssc << 2U) | ((u32)param->sysm_ag_psel_lssc); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_LSSC); + + val = ((u32)param->sysm_ag_ssel_mpro << 2U) | ((u32)param->sysm_ag_psel_mpro); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_MPRO); + + val = ((u32)param->sysm_ag_ssel_vpro << 2U) | ((u32)param->sysm_ag_psel_vpro); + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_SEL_VPRO); + + /* SYSM_AG_CONT */ + val = (param->sysm_ag_cont_hobc_en_middle_led << 24U) | + ((u32)(param->sysm_ag_cont_hobc_test_middle_led) << 16U) | + (param->sysm_ag_cont_hobc_en_high << 8U) | (u32)param->sysm_ag_cont_hobc_test_high; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_HOBC01_EN); + val = (param->sysm_ag_cont_hobc_en_low << 8U) | (u32)param->sysm_ag_cont_hobc_test_low; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_HOBC2_EN); + + val = (param->sysm_ag_cont_abpc_en_middle_led << 24U) | + ((u32)(param->sysm_ag_cont_abpc_test_middle_led) << 16U) | + (param->sysm_ag_cont_abpc_en_high << 8U) | (u32)param->sysm_ag_cont_abpc_test_high; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_ABPC01_EN); + val = (param->sysm_ag_cont_abpc_en_low << 8U) | (u32)param->sysm_ag_cont_abpc_test_low; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_ABPC2_EN); + + val = (param->sysm_ag_cont_rcnr_en_middle_led << 24U) | + ((u32)(param->sysm_ag_cont_rcnr_test_middle_led) << 16U) | + (param->sysm_ag_cont_rcnr_en_high << 8U) | (u32)param->sysm_ag_cont_rcnr_test_high; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_RCNR01_EN); + val = (param->sysm_ag_cont_rcnr_en_low << 8U) | (u32)param->sysm_ag_cont_rcnr_test_low; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_RCNR2_EN); + + val = (param->sysm_ag_cont_lssc_en << 8U) | (u32)param->sysm_ag_cont_lssc_test; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_LSSC_EN); + + val = (param->sysm_ag_cont_mpro_en << 8U) | (u32)param->sysm_ag_cont_mpro_test; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_MPRO_EN); + + val = (param->sysm_ag_cont_vpro_en << 8U) | (u32)param->sysm_ag_cont_vpro_test; + writel(val, &res->capture_reg->l1isp.L1_SYSM_AG_CONT_VPRO_EN); + + return 0; +} + +/** + * hwd_viif_l1_set_ag() - Configure L1ISP analog gain. + * + * @gain_h: analog gain value for high sensitivity image [0..65535] + * @gain_m: analog gain value for middle sensitivity or led image [0..65535] + * @gain_l: analog gain value for low sensitivity image [0..65535] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + */ +s32 hwd_viif_l1_set_ag(u32 module_id, u16 gain_h, u16 gain_m, u16 gain_l) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel((u32)gain_h, &res->capture_reg->l1isp.L1_SYSM_AG_H); + writel((u32)gain_m, &res->capture_reg->l1isp.L1_SYSM_AG_M); + writel((u32)gain_l, &res->capture_reg->l1isp.L1_SYSM_AG_L); + + return 0; +} + +/** + * hwd_viif_l1_set_hdre() - Configure L1ISP HDR extension parameters. + * + * @param: pointer to struct hwd_viif_l1_hdre + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param" is NULL + * - each member of "param" is invalid + */ +s32 hwd_viif_l1_set_hdre(u32 module_id, const struct viif_l1_hdre_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 idx; + + if (!param) + return -EINVAL; + + for (idx = 0; idx < 16U; idx++) { + if (param->hdre_src_point[idx] > HWD_VIIF_L1_HDRE_MAX_KNEEPOINT_VAL) + return -EINVAL; + } + + for (idx = 0; idx < 17U; idx++) { + if (param->hdre_dst_base[idx] > HWD_VIIF_L1_HDRE_MAX_HDRE_SIG_VAL || + param->hdre_ratio[idx] >= HWD_VIIF_L1_HDRE_MAX_OUT_PIXEL_RATIO) { + return -EINVAL; + } + } + + if (param->hdre_dst_max_val > HWD_VIIF_L1_HDRE_MAX_OUT_PIXEL_VAL) + return -EINVAL; + + writel(param->hdre_src_point[0], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT00); + writel(param->hdre_src_point[1], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT01); + writel(param->hdre_src_point[2], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT02); + writel(param->hdre_src_point[3], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT03); + writel(param->hdre_src_point[4], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT04); + writel(param->hdre_src_point[5], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT05); + writel(param->hdre_src_point[6], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT06); + writel(param->hdre_src_point[7], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT07); + writel(param->hdre_src_point[8], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT08); + writel(param->hdre_src_point[9], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT09); + writel(param->hdre_src_point[10], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT10); + writel(param->hdre_src_point[11], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT11); + writel(param->hdre_src_point[12], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT12); + writel(param->hdre_src_point[13], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT13); + writel(param->hdre_src_point[14], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT14); + writel(param->hdre_src_point[15], &res->capture_reg->l1isp.L1_HDRE_SRCPOINT15); + + writel(0, &res->capture_reg->l1isp.L1_HDRE_SRCBASE00); + writel(param->hdre_src_point[0], &res->capture_reg->l1isp.L1_HDRE_SRCBASE01); + writel(param->hdre_src_point[1], &res->capture_reg->l1isp.L1_HDRE_SRCBASE02); + writel(param->hdre_src_point[2], &res->capture_reg->l1isp.L1_HDRE_SRCBASE03); + writel(param->hdre_src_point[3], &res->capture_reg->l1isp.L1_HDRE_SRCBASE04); + writel(param->hdre_src_point[4], &res->capture_reg->l1isp.L1_HDRE_SRCBASE05); + writel(param->hdre_src_point[5], &res->capture_reg->l1isp.L1_HDRE_SRCBASE06); + writel(param->hdre_src_point[6], &res->capture_reg->l1isp.L1_HDRE_SRCBASE07); + writel(param->hdre_src_point[7], &res->capture_reg->l1isp.L1_HDRE_SRCBASE08); + writel(param->hdre_src_point[8], &res->capture_reg->l1isp.L1_HDRE_SRCBASE09); + writel(param->hdre_src_point[9], &res->capture_reg->l1isp.L1_HDRE_SRCBASE10); + writel(param->hdre_src_point[10], &res->capture_reg->l1isp.L1_HDRE_SRCBASE11); + writel(param->hdre_src_point[11], &res->capture_reg->l1isp.L1_HDRE_SRCBASE12); + writel(param->hdre_src_point[12], &res->capture_reg->l1isp.L1_HDRE_SRCBASE13); + writel(param->hdre_src_point[13], &res->capture_reg->l1isp.L1_HDRE_SRCBASE14); + writel(param->hdre_src_point[14], &res->capture_reg->l1isp.L1_HDRE_SRCBASE15); + writel(param->hdre_src_point[15], &res->capture_reg->l1isp.L1_HDRE_SRCBASE16); + + writel(param->hdre_dst_base[0], &res->capture_reg->l1isp.L1_HDRE_DSTBASE00); + writel(param->hdre_dst_base[1], &res->capture_reg->l1isp.L1_HDRE_DSTBASE01); + writel(param->hdre_dst_base[2], &res->capture_reg->l1isp.L1_HDRE_DSTBASE02); + writel(param->hdre_dst_base[3], &res->capture_reg->l1isp.L1_HDRE_DSTBASE03); + writel(param->hdre_dst_base[4], &res->capture_reg->l1isp.L1_HDRE_DSTBASE04); + writel(param->hdre_dst_base[5], &res->capture_reg->l1isp.L1_HDRE_DSTBASE05); + writel(param->hdre_dst_base[6], &res->capture_reg->l1isp.L1_HDRE_DSTBASE06); + writel(param->hdre_dst_base[7], &res->capture_reg->l1isp.L1_HDRE_DSTBASE07); + writel(param->hdre_dst_base[8], &res->capture_reg->l1isp.L1_HDRE_DSTBASE08); + writel(param->hdre_dst_base[9], &res->capture_reg->l1isp.L1_HDRE_DSTBASE09); + writel(param->hdre_dst_base[10], &res->capture_reg->l1isp.L1_HDRE_DSTBASE10); + writel(param->hdre_dst_base[11], &res->capture_reg->l1isp.L1_HDRE_DSTBASE11); + writel(param->hdre_dst_base[12], &res->capture_reg->l1isp.L1_HDRE_DSTBASE12); + writel(param->hdre_dst_base[13], &res->capture_reg->l1isp.L1_HDRE_DSTBASE13); + writel(param->hdre_dst_base[14], &res->capture_reg->l1isp.L1_HDRE_DSTBASE14); + writel(param->hdre_dst_base[15], &res->capture_reg->l1isp.L1_HDRE_DSTBASE15); + writel(param->hdre_dst_base[16], &res->capture_reg->l1isp.L1_HDRE_DSTBASE16); + + writel(param->hdre_ratio[0], &res->capture_reg->l1isp.L1_HDRE_RATIO00); + writel(param->hdre_ratio[1], &res->capture_reg->l1isp.L1_HDRE_RATIO01); + writel(param->hdre_ratio[2], &res->capture_reg->l1isp.L1_HDRE_RATIO02); + writel(param->hdre_ratio[3], &res->capture_reg->l1isp.L1_HDRE_RATIO03); + writel(param->hdre_ratio[4], &res->capture_reg->l1isp.L1_HDRE_RATIO04); + writel(param->hdre_ratio[5], &res->capture_reg->l1isp.L1_HDRE_RATIO05); + writel(param->hdre_ratio[6], &res->capture_reg->l1isp.L1_HDRE_RATIO06); + writel(param->hdre_ratio[7], &res->capture_reg->l1isp.L1_HDRE_RATIO07); + writel(param->hdre_ratio[8], &res->capture_reg->l1isp.L1_HDRE_RATIO08); + writel(param->hdre_ratio[9], &res->capture_reg->l1isp.L1_HDRE_RATIO09); + writel(param->hdre_ratio[10], &res->capture_reg->l1isp.L1_HDRE_RATIO10); + writel(param->hdre_ratio[11], &res->capture_reg->l1isp.L1_HDRE_RATIO11); + writel(param->hdre_ratio[12], &res->capture_reg->l1isp.L1_HDRE_RATIO12); + writel(param->hdre_ratio[13], &res->capture_reg->l1isp.L1_HDRE_RATIO13); + writel(param->hdre_ratio[14], &res->capture_reg->l1isp.L1_HDRE_RATIO14); + writel(param->hdre_ratio[15], &res->capture_reg->l1isp.L1_HDRE_RATIO15); + writel(param->hdre_ratio[16], &res->capture_reg->l1isp.L1_HDRE_RATIO16); + + writel(param->hdre_dst_max_val, &res->capture_reg->l1isp.L1_HDRE_DSTMAXVAL); + + return 0; +} + +/** + * hwd_viif_l1_set_img_extraction() - Configure L1ISP image extraction parameters. + * + * @input_black_gr: black level of Gr input pixel [0x0..0xffffff] + * @input_black_r: black level of R input pixel [0x0..0xffffff] + * @input_black_b: black level of B input pixel [0x0..0xffffff] + * @input_black_gb: black level of Gb input pixel [0x0..0xffffff] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "input_black_gr" is out of range + * - "input_black_r" is out of range + * - "input_black_b" is out of range + * - "input_black_gb" is out of range + */ +s32 hwd_viif_l1_set_img_extraction(u32 module_id, u32 input_black_gr, u32 input_black_r, + u32 input_black_b, u32 input_black_gb) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (input_black_gr > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL || + input_black_r > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL || + input_black_b > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL || + input_black_gb > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL) { + return -EINVAL; + } + + writel(input_black_gr, &res->capture_reg->l1isp.L1_SLIC_SRCBLACKLEVEL_GR); + writel(input_black_r, &res->capture_reg->l1isp.L1_SLIC_SRCBLACKLEVEL_R); + writel(input_black_b, &res->capture_reg->l1isp.L1_SLIC_SRCBLACKLEVEL_B); + writel(input_black_gb, &res->capture_reg->l1isp.L1_SLIC_SRCBLACKLEVEL_GB); + + return 0; +} + +/** + * hwd_viif_l1_set_dpc() - Configure L1ISP defect pixel correction parameters. + * + * @param_h: pointer to defect pixel correction parameters for high sensitivity image + * @param_m: pointer to defect pixel correction parameters for middle sensitivity or led image + * @param_l: pointer to defect pixel correction parameters for low sensitivity image + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param_h", "param_m" and "param_l" are NULL + * - each member of "param_h" is invalid + * - each member of "param_m" is invalid + * - each member of "param_l" is invalid + */ +s32 hwd_viif_l1_set_dpc(u32 module_id, const struct viif_l1_dpc *param_h, + const struct viif_l1_dpc *param_m, const struct viif_l1_dpc *param_l) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + const struct viif_l1_dpc *param; + u32 idx; + u32 val; + + if (!param_h && !param_m && !param_l) + return -EINVAL; + + for (idx = 0U; idx < 3U; idx++) { + if (idx == 0U) + param = param_h; + else if (idx == 1U) + param = param_m; + else + param = param_l; + + if (!param) + continue; + + if ((param->abpc_sta_en != HWD_VIIF_ENABLE && + param->abpc_sta_en != HWD_VIIF_DISABLE) || + (param->abpc_dyn_en != HWD_VIIF_ENABLE && + param->abpc_dyn_en != HWD_VIIF_DISABLE)) { + return -EINVAL; + } + + if (param->abpc_dyn_en != HWD_VIIF_ENABLE) + continue; + + if ((param->abpc_dyn_mode != HWD_VIIF_L1_DPC_1PIXEL && + param->abpc_dyn_mode != HWD_VIIF_L1_DPC_2PIXEL) || + param->abpc_ratio_limit > HWD_VIIF_L1_DPC_MAX_RATIO_LIMIT_VAL || + param->abpc_dark_limit > HWD_VIIF_L1_DPC_MAX_RATIO_LIMIT_VAL || + param->abpc_sn_coef_w_ag_min < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_ag_min > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_ag_mid < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_ag_mid > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_ag_max < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_ag_max > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_min < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_min > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_mid < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_mid > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_max < HWD_VIIF_L1_DPC_MIN_LUMA_ADJ_VAL || + param->abpc_sn_coef_b_ag_max > HWD_VIIF_L1_DPC_MAX_LUMA_ADJ_VAL || + param->abpc_sn_coef_w_th_min >= param->abpc_sn_coef_w_th_max || + param->abpc_sn_coef_b_th_min >= param->abpc_sn_coef_b_th_max) { + return -EINVAL; + } + } + + val = 0; + if (param_h) + val |= param_h->abpc_sta_en << 24U; + + if (param_m) + val |= param_m->abpc_sta_en << 16U; + + if (param_l) + val |= param_l->abpc_sta_en << 8U; + + writel(val, &res->capture_reg->l1isp.L1_ABPC012_STA_EN); + + val = 0; + if (param_h) + val |= param_h->abpc_dyn_en << 24U; + + if (param_m) + val |= param_m->abpc_dyn_en << 16U; + + if (param_l) + val |= param_l->abpc_dyn_en << 8U; + + writel(val, &res->capture_reg->l1isp.L1_ABPC012_DYN_EN); + + val = 0; + if (param_h) + val |= param_h->abpc_dyn_mode << 24U; + + if (param_m) + val |= param_m->abpc_dyn_mode << 16U; + + if (param_l) + val |= param_l->abpc_dyn_mode << 8U; + + writel(val, &res->capture_reg->l1isp.L1_ABPC012_DYN_MODE); + + if (param_h) { + writel(param_h->abpc_ratio_limit, &res->capture_reg->l1isp.L1_ABPC0_RATIO_LIMIT); + writel(param_h->abpc_dark_limit, &res->capture_reg->l1isp.L1_ABPC0_DARK_LIMIT); + writel(param_h->abpc_sn_coef_w_ag_min, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_AG_MIN); + writel(param_h->abpc_sn_coef_w_ag_mid, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_AG_MID); + writel(param_h->abpc_sn_coef_w_ag_max, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_AG_MAX); + writel(param_h->abpc_sn_coef_b_ag_min, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_AG_MIN); + writel(param_h->abpc_sn_coef_b_ag_mid, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_AG_MID); + writel(param_h->abpc_sn_coef_b_ag_max, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_AG_MAX); + writel((u32)param_h->abpc_sn_coef_w_th_min, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_TH_MIN); + writel((u32)param_h->abpc_sn_coef_w_th_max, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_TH_MAX); + writel((u32)param_h->abpc_sn_coef_b_th_min, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_TH_MIN); + writel((u32)param_h->abpc_sn_coef_b_th_max, + &res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_TH_MAX); + } + + if (param_m) { + writel(param_m->abpc_ratio_limit, &res->capture_reg->l1isp.L1_ABPC1_RATIO_LIMIT); + writel(param_m->abpc_dark_limit, &res->capture_reg->l1isp.L1_ABPC1_DARK_LIMIT); + writel(param_m->abpc_sn_coef_w_ag_min, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_AG_MIN); + writel(param_m->abpc_sn_coef_w_ag_mid, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_AG_MID); + writel(param_m->abpc_sn_coef_w_ag_max, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_AG_MAX); + writel(param_m->abpc_sn_coef_b_ag_min, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_AG_MIN); + writel(param_m->abpc_sn_coef_b_ag_mid, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_AG_MID); + writel(param_m->abpc_sn_coef_b_ag_max, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_AG_MAX); + writel((u32)param_m->abpc_sn_coef_w_th_min, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_TH_MIN); + writel((u32)param_m->abpc_sn_coef_w_th_max, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_TH_MAX); + writel((u32)param_m->abpc_sn_coef_b_th_min, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_TH_MIN); + writel((u32)param_m->abpc_sn_coef_b_th_max, + &res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_TH_MAX); + } + + if (param_l) { + writel(param_l->abpc_ratio_limit, &res->capture_reg->l1isp.L1_ABPC2_RATIO_LIMIT); + writel(param_l->abpc_dark_limit, &res->capture_reg->l1isp.L1_ABPC2_DARK_LIMIT); + writel(param_l->abpc_sn_coef_w_ag_min, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_AG_MIN); + writel(param_l->abpc_sn_coef_w_ag_mid, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_AG_MID); + writel(param_l->abpc_sn_coef_w_ag_max, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_AG_MAX); + writel(param_l->abpc_sn_coef_b_ag_min, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_AG_MIN); + writel(param_l->abpc_sn_coef_b_ag_mid, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_AG_MID); + writel(param_l->abpc_sn_coef_b_ag_max, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_AG_MAX); + writel((u32)param_l->abpc_sn_coef_w_th_min, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_TH_MIN); + writel((u32)param_l->abpc_sn_coef_w_th_max, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_TH_MAX); + writel((u32)param_l->abpc_sn_coef_b_th_min, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_TH_MIN); + writel((u32)param_l->abpc_sn_coef_b_th_max, + &res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_TH_MAX); + } + + return 0; +} + +/** + * hwd_viif_l1_set_dpc_table_transmission() - + * Configure L1ISP transferring defect pixel correction table. + * + * @table_h: defect pixel correction table for high sensitivity image(physical address) + * @table_m: defect pixel correction table for middle sensitivity or led image(physical address) + * @table_l: defect pixel correction table for low sensitivity image(physical address) + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "table_h", "table_m" or "table_l" is not 8byte alignment + * + * Note that when 0 is set to table address, table transfer of the table is disabled. + */ +s32 hwd_viif_l1_set_dpc_table_transmission(u32 module_id, uintptr_t table_h, uintptr_t table_m, + uintptr_t table_l) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val = 0x0U; + + if (((table_h % HWD_VIIF_L1_VDM_ALIGN) != 0U) || + ((table_m % HWD_VIIF_L1_VDM_ALIGN) != 0U) || + ((table_l % HWD_VIIF_L1_VDM_ALIGN) != 0U)) { + return -EINVAL; + } + + /* VDM common settings */ + + writel(HWD_VIIF_L1_VDM_CFG_PARAM, &res->capture_reg->vdm.t_group[0].VDM_T_CFG); + writel(HWD_VIIF_L1_VDM_SRAM_BASE, &res->capture_reg->vdm.t_group[0].VDM_T_SRAM_BASE); + writel(HWD_VIIF_L1_VDM_SRAM_SIZE, &res->capture_reg->vdm.t_group[0].VDM_T_SRAM_SIZE); + + if (table_h != 0U) { + writel((u32)table_h, &res->capture_reg->vdm.t_port[0].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_DPC_TABLE_SIZE, &res->capture_reg->vdm.t_port[0].VDM_T_SIZE); + val |= 0x1U; + } + + if (table_m != 0U) { + writel((u32)table_m, &res->capture_reg->vdm.t_port[1].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_DPC_TABLE_SIZE, &res->capture_reg->vdm.t_port[1].VDM_T_SIZE); + val |= 0x2U; + } + + if (table_l != 0U) { + writel((u32)table_l, &res->capture_reg->vdm.t_port[2].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_DPC_TABLE_SIZE, &res->capture_reg->vdm.t_port[2].VDM_T_SIZE); + val |= 0x4U; + } + + val |= (readl(&res->capture_reg->vdm.VDM_T_ENABLE) & 0xfffffff8U); + writel(val, &res->capture_reg->vdm.VDM_T_ENABLE); + + return 0; +} + +/** + * hwd_viif_l1_set_preset_white_balance() - Configure L1ISP preset white balance parameters. + * + * @dstmaxval: maximum output pixel value [0..4095] + * @param_h: pointer to preset white balance parameters for high sensitivity image + * @param_m: pointer to preset white balance parameters for middle sensitivity or led image + * @param_l: pointer to preset white balance parameters for low sensitivity image + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "dstmaxval" is out of range + * - "param_h", "param_m", and "param_l" are NULL + * - each parameter of "param_h" is out of range + * - each parameter of "param_m" is out of range + * - each parameter of "param_l" is out of range + * Note that when NULL is set to "param_{h/m/l}", the corresponding parameters are not set to HW. + */ +s32 hwd_viif_l1_set_preset_white_balance(u32 module_id, u32 dstmaxval, + const struct viif_l1_preset_wb *param_h, + const struct viif_l1_preset_wb *param_m, + const struct viif_l1_preset_wb *param_l) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (dstmaxval > HWD_VIIF_L1_PWHB_MAX_OUT_PIXEL_VAL || (!param_h && !param_m && !param_l)) + return -EINVAL; + + if (param_h) { + if (param_h->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_h->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_h->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_h->gain_gb >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL) { + return -EINVAL; + } + } + + if (param_m) { + if (param_m->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_m->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_m->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_m->gain_gb >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL) { + return -EINVAL; + } + } + + if (param_l) { + if (param_l->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_l->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_l->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL || + param_l->gain_gb >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL) { + return -EINVAL; + } + } + + writel(dstmaxval, &res->capture_reg->l1isp.L1_PWHB_DSTMAXVAL); + + if (param_h) { + writel(param_h->gain_gr, &res->capture_reg->l1isp.L1_PWHB_H_GR); + writel(param_h->gain_r, &res->capture_reg->l1isp.L1_PWHB_HR); + writel(param_h->gain_b, &res->capture_reg->l1isp.L1_PWHB_HB); + writel(param_h->gain_gb, &res->capture_reg->l1isp.L1_PWHB_H_GB); + } + + if (param_m) { + writel(param_m->gain_gr, &res->capture_reg->l1isp.L1_PWHB_M_GR); + writel(param_m->gain_r, &res->capture_reg->l1isp.L1_PWHB_MR); + writel(param_m->gain_b, &res->capture_reg->l1isp.L1_PWHB_MB); + writel(param_m->gain_gb, &res->capture_reg->l1isp.L1_PWHB_M_GB); + } + + if (param_l) { + writel(param_l->gain_gr, &res->capture_reg->l1isp.L1_PWHB_L_GR); + writel(param_l->gain_r, &res->capture_reg->l1isp.L1_PWHB_LR); + writel(param_l->gain_b, &res->capture_reg->l1isp.L1_PWHB_LB); + writel(param_l->gain_gb, &res->capture_reg->l1isp.L1_PWHB_L_GB); + } + + return 0; +} + +/** + * hwd_viif_l1_set_raw_color_noise_reduction() - + * Configure L1ISP raw color noise reduction parameters. + * + * @param_h: pointer to raw color noise reduction parameters for high sensitivity image + * @param_m: pointer to raw color noise reduction parameters for middle sensitivity or led image + * @param_l: pointer to raw color noise reduction parameters for low sensitivity image + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param_h", "param_m", and "param_l" are NULL + * - each parameter of "param_h" is out of range + * - each parameter of "param_m" is out of range + * - each parameter of "param_l" is out of range + * Note that when NULL is set to "param_{h/m/l}", the corresponding parameters are not set to HW. + */ +s32 hwd_viif_l1_set_raw_color_noise_reduction( + u32 module_id, const struct viif_l1_raw_color_noise_reduction *param_h, + const struct viif_l1_raw_color_noise_reduction *param_m, + const struct viif_l1_raw_color_noise_reduction *param_l) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + const struct viif_l1_raw_color_noise_reduction *param; + u32 idx; + + if (!param_h && !param_m && !param_l) + return -EINVAL; + + for (idx = 0; idx < 3U; idx++) { + if (idx == 0U) + param = param_h; + else if (idx == 1U) + param = param_m; + else + param = param_l; + + if (!param) + continue; + + if (param->rcnr_sw != HWD_VIIF_ENABLE && param->rcnr_sw != HWD_VIIF_DISABLE) + return -EINVAL; + + if (param->rcnr_cnf_dark_ag0 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_cnf_dark_ag1 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_cnf_dark_ag2 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_cnf_ratio_ag0 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_cnf_ratio_ag1 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_cnf_ratio_ag2 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_cnf_clip_gain_r > HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL || + param->rcnr_cnf_clip_gain_g > HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL || + param->rcnr_cnf_clip_gain_b > HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL || + param->rcnr_a1l_dark_ag0 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_a1l_dark_ag1 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_a1l_dark_ag2 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL || + param->rcnr_a1l_ratio_ag0 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_a1l_ratio_ag1 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_a1l_ratio_ag2 > HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL || + param->rcnr_inf_zero_clip > HWD_VIIF_L1_RCNR_MAX_ZERO_CLIP_VAL || + param->rcnr_merge_d2blend_ag0 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL || + param->rcnr_merge_d2blend_ag1 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL || + param->rcnr_merge_d2blend_ag2 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL || + param->rcnr_merge_black > HWD_VIIF_L1_RCNR_MAX_BLACK_LEVEL_VAL || + param->rcnr_merge_mindiv < HWD_VIIF_L1_RCNR_MIN_0DIV_GUARD_VAL || + param->rcnr_merge_mindiv > HWD_VIIF_L1_RCNR_MAX_0DIV_GUARD_VAL) { + return -EINVAL; + } + + switch (param->rcnr_hry_type) { + case HWD_VIIF_L1_RCNR_LOW_RESOLUTION: + case HWD_VIIF_L1_RCNR_MIDDLE_RESOLUTION: + case HWD_VIIF_L1_RCNR_HIGH_RESOLUTION: + case HWD_VIIF_L1_RCNR_ULTRA_HIGH_RESOLUTION: + break; + default: + return -EINVAL; + } + + if (param->rcnr_anf_blend_ag0 != HWD_VIIF_L1_MSF_BLEND_RATIO_0_DIV_64 && + param->rcnr_anf_blend_ag0 != HWD_VIIF_L1_MSF_BLEND_RATIO_1_DIV_64 && + param->rcnr_anf_blend_ag0 != HWD_VIIF_L1_MSF_BLEND_RATIO_2_DIV_64) { + return -EINVAL; + } + if (param->rcnr_anf_blend_ag1 != HWD_VIIF_L1_MSF_BLEND_RATIO_0_DIV_64 && + param->rcnr_anf_blend_ag1 != HWD_VIIF_L1_MSF_BLEND_RATIO_1_DIV_64 && + param->rcnr_anf_blend_ag1 != HWD_VIIF_L1_MSF_BLEND_RATIO_2_DIV_64) { + return -EINVAL; + } + if (param->rcnr_anf_blend_ag2 != HWD_VIIF_L1_MSF_BLEND_RATIO_0_DIV_64 && + param->rcnr_anf_blend_ag2 != HWD_VIIF_L1_MSF_BLEND_RATIO_1_DIV_64 && + param->rcnr_anf_blend_ag2 != HWD_VIIF_L1_MSF_BLEND_RATIO_2_DIV_64) { + return -EINVAL; + } + + if (param->rcnr_lpf_threshold >= HWD_VIIF_L1_RCNR_MAX_CALC_MSF_NOISE_MULTI_VAL || + param->rcnr_merge_hlblend_ag0 > HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL || + param->rcnr_merge_hlblend_ag1 > HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL || + param->rcnr_merge_hlblend_ag2 > HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL || + (param->rcnr_gnr_sw != HWD_VIIF_DISABLE && + param->rcnr_gnr_sw != HWD_VIIF_ENABLE)) { + return -EINVAL; + } + + if (param->rcnr_gnr_sw == HWD_VIIF_ENABLE) { + if (param->rcnr_gnr_ratio > HWD_VIIF_L1_RCNR_MAX_UP_LIMIT_GRGB_SENS_RATIO) + return -EINVAL; + if (param->rcnr_gnr_wide_en != HWD_VIIF_DISABLE && + param->rcnr_gnr_wide_en != HWD_VIIF_ENABLE) { + return -EINVAL; + } + } + } + + if (param_h) { + writel(param_h->rcnr_sw, &res->capture_reg->l1isp.L1_RCNR0_SW); + + writel(param_h->rcnr_cnf_dark_ag0, &res->capture_reg->l1isp.L1_RCNR0_CNF_DARK_AG0); + writel(param_h->rcnr_cnf_dark_ag1, &res->capture_reg->l1isp.L1_RCNR0_CNF_DARK_AG1); + writel(param_h->rcnr_cnf_dark_ag2, &res->capture_reg->l1isp.L1_RCNR0_CNF_DARK_AG2); + + writel(param_h->rcnr_cnf_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR0_CNF_RATIO_AG0); + writel(param_h->rcnr_cnf_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR0_CNF_RATIO_AG1); + writel(param_h->rcnr_cnf_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR0_CNF_RATIO_AG2); + + writel(param_h->rcnr_cnf_clip_gain_r, + &res->capture_reg->l1isp.L1_RCNR0_CNF_CLIP_GAIN_R); + writel(param_h->rcnr_cnf_clip_gain_g, + &res->capture_reg->l1isp.L1_RCNR0_CNF_CLIP_GAIN_G); + writel(param_h->rcnr_cnf_clip_gain_b, + &res->capture_reg->l1isp.L1_RCNR0_CNF_CLIP_GAIN_B); + + writel(param_h->rcnr_a1l_dark_ag0, &res->capture_reg->l1isp.L1_RCNR0_A1L_DARK_AG0); + writel(param_h->rcnr_a1l_dark_ag1, &res->capture_reg->l1isp.L1_RCNR0_A1L_DARK_AG1); + writel(param_h->rcnr_a1l_dark_ag2, &res->capture_reg->l1isp.L1_RCNR0_A1L_DARK_AG2); + + writel(param_h->rcnr_a1l_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR0_A1L_RATIO_AG0); + writel(param_h->rcnr_a1l_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR0_A1L_RATIO_AG1); + writel(param_h->rcnr_a1l_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR0_A1L_RATIO_AG2); + + writel(param_h->rcnr_inf_zero_clip, + &res->capture_reg->l1isp.L1_RCNR0_INF_ZERO_CLIP); + + writel(param_h->rcnr_merge_d2blend_ag0, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_D2BLEND_AG0); + writel(param_h->rcnr_merge_d2blend_ag1, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_D2BLEND_AG1); + writel(param_h->rcnr_merge_d2blend_ag2, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_D2BLEND_AG2); + writel(param_h->rcnr_merge_black, &res->capture_reg->l1isp.L1_RCNR0_MERGE_BLACK); + writel(param_h->rcnr_merge_mindiv, &res->capture_reg->l1isp.L1_RCNR0_MERGE_MINDIV); + + writel(param_h->rcnr_hry_type, &res->capture_reg->l1isp.L1_RCNR0_HRY_TYPE); + + writel(param_h->rcnr_anf_blend_ag0, + &res->capture_reg->l1isp.L1_RCNR0_ANF_BLEND_AG0); + writel(param_h->rcnr_anf_blend_ag1, + &res->capture_reg->l1isp.L1_RCNR0_ANF_BLEND_AG1); + writel(param_h->rcnr_anf_blend_ag2, + &res->capture_reg->l1isp.L1_RCNR0_ANF_BLEND_AG2); + + writel(param_h->rcnr_lpf_threshold, + &res->capture_reg->l1isp.L1_RCNR0_LPF_THRESHOLD); + + writel(param_h->rcnr_merge_hlblend_ag0, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_HLBLEND_AG0); + writel(param_h->rcnr_merge_hlblend_ag1, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_HLBLEND_AG1); + writel(param_h->rcnr_merge_hlblend_ag2, + &res->capture_reg->l1isp.L1_RCNR0_MERGE_HLBLEND_AG2); + + writel(param_h->rcnr_gnr_sw, &res->capture_reg->l1isp.L1_RCNR0_GNR_SW); + + if (param_h->rcnr_gnr_sw == HWD_VIIF_ENABLE) { + writel(param_h->rcnr_gnr_ratio, + &res->capture_reg->l1isp.L1_RCNR0_GNR_RATIO); + writel(param_h->rcnr_gnr_wide_en, + &res->capture_reg->l1isp.L1_RCNR0_GNR_WIDE_EN); + } + } + + if (param_m) { + writel(param_m->rcnr_sw, &res->capture_reg->l1isp.L1_RCNR1_SW); + + writel(param_m->rcnr_cnf_dark_ag0, &res->capture_reg->l1isp.L1_RCNR1_CNF_DARK_AG0); + writel(param_m->rcnr_cnf_dark_ag1, &res->capture_reg->l1isp.L1_RCNR1_CNF_DARK_AG1); + writel(param_m->rcnr_cnf_dark_ag2, &res->capture_reg->l1isp.L1_RCNR1_CNF_DARK_AG2); + + writel(param_m->rcnr_cnf_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR1_CNF_RATIO_AG0); + writel(param_m->rcnr_cnf_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR1_CNF_RATIO_AG1); + writel(param_m->rcnr_cnf_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR1_CNF_RATIO_AG2); + + writel(param_m->rcnr_cnf_clip_gain_r, + &res->capture_reg->l1isp.L1_RCNR1_CNF_CLIP_GAIN_R); + writel(param_m->rcnr_cnf_clip_gain_g, + &res->capture_reg->l1isp.L1_RCNR1_CNF_CLIP_GAIN_G); + writel(param_m->rcnr_cnf_clip_gain_b, + &res->capture_reg->l1isp.L1_RCNR1_CNF_CLIP_GAIN_B); + + writel(param_m->rcnr_a1l_dark_ag0, &res->capture_reg->l1isp.L1_RCNR1_A1L_DARK_AG0); + writel(param_m->rcnr_a1l_dark_ag1, &res->capture_reg->l1isp.L1_RCNR1_A1L_DARK_AG1); + writel(param_m->rcnr_a1l_dark_ag2, &res->capture_reg->l1isp.L1_RCNR1_A1L_DARK_AG2); + + writel(param_m->rcnr_a1l_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR1_A1L_RATIO_AG0); + writel(param_m->rcnr_a1l_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR1_A1L_RATIO_AG1); + writel(param_m->rcnr_a1l_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR1_A1L_RATIO_AG2); + + writel(param_m->rcnr_inf_zero_clip, + &res->capture_reg->l1isp.L1_RCNR1_INF_ZERO_CLIP); + + writel(param_m->rcnr_merge_d2blend_ag0, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_D2BLEND_AG0); + writel(param_m->rcnr_merge_d2blend_ag1, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_D2BLEND_AG1); + writel(param_m->rcnr_merge_d2blend_ag2, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_D2BLEND_AG2); + writel(param_m->rcnr_merge_black, &res->capture_reg->l1isp.L1_RCNR1_MERGE_BLACK); + writel(param_m->rcnr_merge_mindiv, &res->capture_reg->l1isp.L1_RCNR1_MERGE_MINDIV); + + writel(param_m->rcnr_hry_type, &res->capture_reg->l1isp.L1_RCNR1_HRY_TYPE); + + writel(param_m->rcnr_anf_blend_ag0, + &res->capture_reg->l1isp.L1_RCNR1_ANF_BLEND_AG0); + writel(param_m->rcnr_anf_blend_ag1, + &res->capture_reg->l1isp.L1_RCNR1_ANF_BLEND_AG1); + writel(param_m->rcnr_anf_blend_ag2, + &res->capture_reg->l1isp.L1_RCNR1_ANF_BLEND_AG2); + + writel(param_m->rcnr_lpf_threshold, + &res->capture_reg->l1isp.L1_RCNR1_LPF_THRESHOLD); + + writel(param_m->rcnr_merge_hlblend_ag0, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_HLBLEND_AG0); + writel(param_m->rcnr_merge_hlblend_ag1, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_HLBLEND_AG1); + writel(param_m->rcnr_merge_hlblend_ag2, + &res->capture_reg->l1isp.L1_RCNR1_MERGE_HLBLEND_AG2); + + writel(param_m->rcnr_gnr_sw, &res->capture_reg->l1isp.L1_RCNR1_GNR_SW); + + if (param_m->rcnr_gnr_sw == HWD_VIIF_ENABLE) { + writel(param_m->rcnr_gnr_ratio, + &res->capture_reg->l1isp.L1_RCNR1_GNR_RATIO); + writel(param_m->rcnr_gnr_wide_en, + &res->capture_reg->l1isp.L1_RCNR1_GNR_WIDE_EN); + } + } + + if (param_l) { + writel(param_l->rcnr_sw, &res->capture_reg->l1isp.L1_RCNR2_SW); + + writel(param_l->rcnr_cnf_dark_ag0, &res->capture_reg->l1isp.L1_RCNR2_CNF_DARK_AG0); + writel(param_l->rcnr_cnf_dark_ag1, &res->capture_reg->l1isp.L1_RCNR2_CNF_DARK_AG1); + writel(param_l->rcnr_cnf_dark_ag2, &res->capture_reg->l1isp.L1_RCNR2_CNF_DARK_AG2); + + writel(param_l->rcnr_cnf_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR2_CNF_RATIO_AG0); + writel(param_l->rcnr_cnf_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR2_CNF_RATIO_AG1); + writel(param_l->rcnr_cnf_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR2_CNF_RATIO_AG2); + + writel(param_l->rcnr_cnf_clip_gain_r, + &res->capture_reg->l1isp.L1_RCNR2_CNF_CLIP_GAIN_R); + writel(param_l->rcnr_cnf_clip_gain_g, + &res->capture_reg->l1isp.L1_RCNR2_CNF_CLIP_GAIN_G); + writel(param_l->rcnr_cnf_clip_gain_b, + &res->capture_reg->l1isp.L1_RCNR2_CNF_CLIP_GAIN_B); + + writel(param_l->rcnr_a1l_dark_ag0, &res->capture_reg->l1isp.L1_RCNR2_A1L_DARK_AG0); + writel(param_l->rcnr_a1l_dark_ag1, &res->capture_reg->l1isp.L1_RCNR2_A1L_DARK_AG1); + writel(param_l->rcnr_a1l_dark_ag2, &res->capture_reg->l1isp.L1_RCNR2_A1L_DARK_AG2); + + writel(param_l->rcnr_a1l_ratio_ag0, + &res->capture_reg->l1isp.L1_RCNR2_A1L_RATIO_AG0); + writel(param_l->rcnr_a1l_ratio_ag1, + &res->capture_reg->l1isp.L1_RCNR2_A1L_RATIO_AG1); + writel(param_l->rcnr_a1l_ratio_ag2, + &res->capture_reg->l1isp.L1_RCNR2_A1L_RATIO_AG2); + + writel(param_l->rcnr_inf_zero_clip, + &res->capture_reg->l1isp.L1_RCNR2_INF_ZERO_CLIP); + + writel(param_l->rcnr_merge_d2blend_ag0, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_D2BLEND_AG0); + writel(param_l->rcnr_merge_d2blend_ag1, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_D2BLEND_AG1); + writel(param_l->rcnr_merge_d2blend_ag2, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_D2BLEND_AG2); + writel(param_l->rcnr_merge_black, &res->capture_reg->l1isp.L1_RCNR2_MERGE_BLACK); + writel(param_l->rcnr_merge_mindiv, &res->capture_reg->l1isp.L1_RCNR2_MERGE_MINDIV); + + writel(param_l->rcnr_hry_type, &res->capture_reg->l1isp.L1_RCNR2_HRY_TYPE); + + writel(param_l->rcnr_anf_blend_ag0, + &res->capture_reg->l1isp.L1_RCNR2_ANF_BLEND_AG0); + writel(param_l->rcnr_anf_blend_ag1, + &res->capture_reg->l1isp.L1_RCNR2_ANF_BLEND_AG1); + writel(param_l->rcnr_anf_blend_ag2, + &res->capture_reg->l1isp.L1_RCNR2_ANF_BLEND_AG2); + + writel(param_l->rcnr_lpf_threshold, + &res->capture_reg->l1isp.L1_RCNR2_LPF_THRESHOLD); + + writel(param_l->rcnr_merge_hlblend_ag0, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_HLBLEND_AG0); + writel(param_l->rcnr_merge_hlblend_ag1, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_HLBLEND_AG1); + writel(param_l->rcnr_merge_hlblend_ag2, + &res->capture_reg->l1isp.L1_RCNR2_MERGE_HLBLEND_AG2); + + writel(param_l->rcnr_gnr_sw, &res->capture_reg->l1isp.L1_RCNR2_GNR_SW); + + if (param_l->rcnr_gnr_sw == HWD_VIIF_ENABLE) { + writel(param_l->rcnr_gnr_ratio, + &res->capture_reg->l1isp.L1_RCNR2_GNR_RATIO); + writel(param_l->rcnr_gnr_wide_en, + &res->capture_reg->l1isp.L1_RCNR2_GNR_WIDE_EN); + } + } + + return 0; +} + +/** + * hwd_viif_l1_set_hdrs() - Configure L1ISP HDR synthesis parameters. + * + * @param: pointer to HDR synthesis parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param" is NULL + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_hdrs(u32 module_id, const struct viif_l1_hdrs_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (!param || + (param->hdrs_hdr_mode != HWD_VIIF_L1_HDRS_NOT_USE_MIDDLE_SENS_IMAGE && + param->hdrs_hdr_mode != HWD_VIIF_L1_HDRS_USE_MIDDLE_SENS_IMAGE) || + param->hdrs_hdr_ratio_m < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO || + param->hdrs_hdr_ratio_m > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO || + param->hdrs_hdr_ratio_l < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO || + param->hdrs_hdr_ratio_l > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO || + param->hdrs_hdr_ratio_e < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO || + param->hdrs_hdr_ratio_e > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO || + param->hdrs_dg_h >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL || + param->hdrs_dg_m >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL || + param->hdrs_dg_l >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL || + param->hdrs_dg_e >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL || + param->hdrs_blendend_h > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + param->hdrs_blendend_m > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + param->hdrs_blendend_e > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + param->hdrs_blendbeg_h > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + param->hdrs_blendbeg_m > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + param->hdrs_blendbeg_e > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL || + (param->hdrs_led_mode_on != HWD_VIIF_ENABLE && + param->hdrs_led_mode_on != HWD_VIIF_DISABLE) || + param->hdrs_dst_max_val > HWD_VIIF_L1_HDRS_MAX_DST_MAX_VAL) { + return -EINVAL; + } + + writel(param->hdrs_hdr_mode, &res->capture_reg->l1isp.L1_HDRS_HDRMODE); + + writel(param->hdrs_hdr_ratio_m, &res->capture_reg->l1isp.L1_HDRS_HDRRATIO_M); + writel(param->hdrs_hdr_ratio_l, &res->capture_reg->l1isp.L1_HDRS_HDRRATIO_L); + writel(param->hdrs_hdr_ratio_e, &res->capture_reg->l1isp.L1_HDRS_HDRRATIO_E); + + writel(param->hdrs_dg_h, &res->capture_reg->l1isp.L1_HDRS_DG_H); + writel(param->hdrs_dg_m, &res->capture_reg->l1isp.L1_HDRS_DG_M); + writel(param->hdrs_dg_l, &res->capture_reg->l1isp.L1_HDRS_DG_L); + writel(param->hdrs_dg_e, &res->capture_reg->l1isp.L1_HDRS_DG_E); + + writel(param->hdrs_blendend_h, &res->capture_reg->l1isp.L1_HDRS_BLENDEND_H); + writel(param->hdrs_blendend_m, &res->capture_reg->l1isp.L1_HDRS_BLENDEND_M); + writel(param->hdrs_blendend_e, &res->capture_reg->l1isp.L1_HDRS_BLENDEND_E); + + writel(param->hdrs_blendbeg_h, &res->capture_reg->l1isp.L1_HDRS_BLENDBEG_H); + writel(param->hdrs_blendbeg_m, &res->capture_reg->l1isp.L1_HDRS_BLENDBEG_M); + writel(param->hdrs_blendbeg_e, &res->capture_reg->l1isp.L1_HDRS_BLENDBEG_E); + + writel(param->hdrs_led_mode_on, &res->capture_reg->l1isp.L1_HDRS_LEDMODE_ON); + writel(param->hdrs_dst_max_val, &res->capture_reg->l1isp.L1_HDRS_DSTMAXVAL); + + return 0; +} + +/** + * hwd_viif_l1_set_black_level_correction() - Configure L1ISP black level correction parameters. + * + * @param: pointer to black level correction parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "param" is NULL + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_black_level_correction( + u32 module_id, const struct viif_l1_black_level_correction_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + if (!param || param->srcblacklevel_gr > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL || + param->srcblacklevel_r > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL || + param->srcblacklevel_b > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL || + param->srcblacklevel_gb > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL || + param->mulval_gr >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL || + param->mulval_r >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL || + param->mulval_b >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL || + param->mulval_gb >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL || + param->dstmaxval > HWD_VIIF_L1_BLACK_LEVEL_MAX_DST_VAL) { + return -EINVAL; + } + + writel(param->srcblacklevel_gr, &res->capture_reg->l1isp.L1_BLVC_SRCBLACKLEVEL_GR); + writel(param->srcblacklevel_r, &res->capture_reg->l1isp.L1_BLVC_SRCBLACKLEVEL_R); + writel(param->srcblacklevel_b, &res->capture_reg->l1isp.L1_BLVC_SRCBLACKLEVEL_B); + writel(param->srcblacklevel_gb, &res->capture_reg->l1isp.L1_BLVC_SRCBLACKLEVELGB); + + writel(param->mulval_gr, &res->capture_reg->l1isp.L1_BLVC_MULTVAL_GR); + writel(param->mulval_r, &res->capture_reg->l1isp.L1_BLVC_MULTVAL_R); + writel(param->mulval_b, &res->capture_reg->l1isp.L1_BLVC_MULTVAL_B); + writel(param->mulval_gb, &res->capture_reg->l1isp.L1_BLVC_MULTVAL_GB); + + writel(param->dstmaxval, &res->capture_reg->l1isp.L1_BLVC_DSTMAXVAL); + + return 0; +} + +/** + * hwd_viif_l1_set_lsc() - Configure L1ISP lens shading correction parameters. + * + * @param: pointer to lens shading correction parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - each parameter of "param" is out of range + * @note when NULL is set to "param" + */ +s32 hwd_viif_l1_set_lsc(u32 module_id, const struct hwd_viif_l1_lsc *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 sysm_width, sysm_height; + u32 grid_h_size = 0U; + u32 grid_v_size = 0U; + s32 ret = 0; + u32 idx; + u32 val; + u32 tmp; + + if (!param) { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_LSSC_EN); + return 0; + } + + sysm_width = readl(&res->capture_reg->l1isp.L1_SYSM_WIDTH); + sysm_height = readl(&res->capture_reg->l1isp.L1_SYSM_HEIGHT); + + if (param->lssc_parabola_param) { + if (param->lssc_parabola_param->lssc_para_h_center >= sysm_width || + param->lssc_parabola_param->lssc_para_v_center >= sysm_height || + param->lssc_parabola_param->lssc_para_h_gain >= HWD_VIIF_LSC_MAX_GAIN || + param->lssc_parabola_param->lssc_para_v_gain >= HWD_VIIF_LSC_MAX_GAIN) { + return -EINVAL; + } + + switch (param->lssc_parabola_param->lssc_para_mgsel2) { + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_EIGHTH: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FOURTH: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_SECOND: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FIRST: + break; + default: + return -EINVAL; + } + + switch (param->lssc_parabola_param->lssc_para_mgsel4) { + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_EIGHTH: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FOURTH: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_SECOND: + case HWD_VIIF_L1_PARA_COEF_GAIN_ONE_FIRST: + break; + default: + return -EINVAL; + } + + for (idx = 0U; idx < 8U; idx++) { + const struct viif_l1_lsc_parabola_ag_param *ag_param; + + switch (idx) { + case 0U: + ag_param = ¶m->lssc_parabola_param->r_2d; + break; + case 1U: + ag_param = ¶m->lssc_parabola_param->r_4d; + break; + case 2U: + ag_param = ¶m->lssc_parabola_param->gr_2d; + break; + case 3U: + ag_param = ¶m->lssc_parabola_param->gr_4d; + break; + case 4U: + ag_param = ¶m->lssc_parabola_param->gb_2d; + break; + case 5U: + ag_param = ¶m->lssc_parabola_param->gb_4d; + break; + case 6U: + ag_param = ¶m->lssc_parabola_param->b_2d; + break; + default: + ag_param = ¶m->lssc_parabola_param->b_4d; + break; + } + + if (!ag_param || ag_param->lssc_paracoef_h_l_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_h_l_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_h_l_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_h_l_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_h_l_min > ag_param->lssc_paracoef_h_l_max || + ag_param->lssc_paracoef_h_r_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_h_r_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_h_r_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_h_r_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_h_r_min > ag_param->lssc_paracoef_h_r_max || + ag_param->lssc_paracoef_v_u_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_v_u_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_v_u_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_v_u_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_v_u_min > ag_param->lssc_paracoef_v_u_max || + ag_param->lssc_paracoef_v_d_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_v_d_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_v_d_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_v_d_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_v_d_min > ag_param->lssc_paracoef_v_d_max || + ag_param->lssc_paracoef_hv_lu_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_lu_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_lu_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_lu_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_lu_min > ag_param->lssc_paracoef_hv_lu_max || + ag_param->lssc_paracoef_hv_ru_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_ru_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_ru_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_ru_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_ru_min > ag_param->lssc_paracoef_hv_ru_max || + ag_param->lssc_paracoef_hv_ld_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_ld_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_ld_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_ld_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_ld_min > ag_param->lssc_paracoef_hv_ld_max || + ag_param->lssc_paracoef_hv_rd_max < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_rd_max >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_rd_min < HWD_VIIF_LSC_MIN_GAIN || + ag_param->lssc_paracoef_hv_rd_min >= HWD_VIIF_LSC_MAX_GAIN || + ag_param->lssc_paracoef_hv_rd_min > ag_param->lssc_paracoef_hv_rd_max) { + return -EINVAL; + } + } + } + + if (param->lssc_grid_param) { + switch (param->lssc_grid_param->lssc_grid_h_size) { + case 32U: + grid_h_size = 5U; + break; + case 64U: + grid_h_size = 6U; + break; + case 128U: + grid_h_size = 7U; + break; + case 256U: + grid_h_size = 8U; + break; + case 512U: + grid_h_size = 9U; + break; + default: + ret = -EINVAL; + break; + } + + if (ret != 0) + return ret; + + switch (param->lssc_grid_param->lssc_grid_v_size) { + case 32U: + grid_v_size = 5U; + break; + case 64U: + grid_v_size = 6U; + break; + case 128U: + grid_v_size = 7U; + break; + case 256U: + grid_v_size = 8U; + break; + case 512U: + grid_v_size = 9U; + break; + default: + ret = -EINVAL; + break; + } + + if (ret != 0) + return ret; + + if (param->lssc_grid_param->lssc_grid_h_center < HWD_VIIF_LSC_GRID_MIN_COORDINATE || + param->lssc_grid_param->lssc_grid_h_center > + param->lssc_grid_param->lssc_grid_h_size) { + return -EINVAL; + } + + if (sysm_width > (param->lssc_grid_param->lssc_grid_h_center + + (param->lssc_grid_param->lssc_grid_h_size * 31U))) { + return -EINVAL; + } + + if (param->lssc_grid_param->lssc_grid_v_center < HWD_VIIF_LSC_GRID_MIN_COORDINATE || + param->lssc_grid_param->lssc_grid_v_center > + param->lssc_grid_param->lssc_grid_v_size) { + return -EINVAL; + } + + if (sysm_height > (param->lssc_grid_param->lssc_grid_v_center + + (param->lssc_grid_param->lssc_grid_v_size * 23U))) { + return -EINVAL; + } + + if (param->lssc_grid_param->lssc_grid_mgsel != HWD_VIIF_L1_GRID_COEF_GAIN_X1 && + param->lssc_grid_param->lssc_grid_mgsel != HWD_VIIF_L1_GRID_COEF_GAIN_X2) { + return -EINVAL; + } + } + + if (param->lssc_pwhb_r_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_r_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_r_gain_min > param->lssc_pwhb_r_gain_max || + param->lssc_pwhb_gr_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_gr_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_gr_gain_min > param->lssc_pwhb_gr_gain_max || + param->lssc_pwhb_gb_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_gb_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_gb_gain_min > param->lssc_pwhb_gb_gain_max || + param->lssc_pwhb_b_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_b_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL || + param->lssc_pwhb_b_gain_min > param->lssc_pwhb_b_gain_max) { + return -EINVAL; + } + + /* parabola shading */ + if (param->lssc_parabola_param) { + struct viif_l1_lsc_parabola_ag_param *r_2d; + struct viif_l1_lsc_parabola_ag_param *r_4d; + struct viif_l1_lsc_parabola_ag_param *gr_2d; + struct viif_l1_lsc_parabola_ag_param *gr_4d; + struct viif_l1_lsc_parabola_ag_param *gb_2d; + struct viif_l1_lsc_parabola_ag_param *gb_4d; + struct viif_l1_lsc_parabola_ag_param *b_2d; + struct viif_l1_lsc_parabola_ag_param *b_4d; + + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_LSSC_PARA_EN); + + writel(param->lssc_parabola_param->lssc_para_h_center, + &res->capture_reg->l1isp.L1_LSSC_PARA_H_CENTER); + writel(param->lssc_parabola_param->lssc_para_v_center, + &res->capture_reg->l1isp.L1_LSSC_PARA_V_CENTER); + + writel(param->lssc_parabola_param->lssc_para_h_gain, + &res->capture_reg->l1isp.L1_LSSC_PARA_H_GAIN); + writel(param->lssc_parabola_param->lssc_para_v_gain, + &res->capture_reg->l1isp.L1_LSSC_PARA_V_GAIN); + + writel(param->lssc_parabola_param->lssc_para_mgsel2, + &res->capture_reg->l1isp.L1_LSSC_PARA_MGSEL2); + writel(param->lssc_parabola_param->lssc_para_mgsel4, + &res->capture_reg->l1isp.L1_LSSC_PARA_MGSEL4); + + /* R 2D */ + r_2d = ¶m->lssc_parabola_param->r_2d; + tmp = (u32)r_2d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_H_L); + + tmp = (u32)r_2d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_H_R); + + tmp = (u32)r_2d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_V_U); + + tmp = (u32)r_2d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_V_D); + + tmp = (u32)r_2d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_LU); + + tmp = (u32)r_2d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_RU); + + tmp = (u32)r_2d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_LD); + + tmp = (u32)r_2d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_2d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_RD); + + /* R 4D */ + r_4d = ¶m->lssc_parabola_param->r_4d; + tmp = (u32)r_4d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_H_L); + + tmp = (u32)r_4d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_H_R); + + tmp = (u32)r_4d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_V_U); + + tmp = (u32)r_4d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_V_D); + + tmp = (u32)r_4d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_LU); + + tmp = (u32)r_4d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_RU); + + tmp = (u32)r_4d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_LD); + + tmp = (u32)r_4d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(r_4d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_RD); + + /* GR 2D */ + gr_2d = ¶m->lssc_parabola_param->gr_2d; + tmp = (u32)gr_2d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_H_L); + + tmp = (u32)gr_2d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_H_R); + + tmp = (u32)gr_2d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_V_U); + + tmp = (u32)gr_2d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_V_D); + + tmp = (u32)gr_2d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_LU); + + tmp = (u32)gr_2d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_RU); + + tmp = (u32)gr_2d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_LD); + + tmp = (u32)gr_2d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_2d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_RD); + + /* GR 4D */ + gr_4d = ¶m->lssc_parabola_param->gr_4d; + tmp = (u32)gr_4d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_H_L); + + tmp = (u32)gr_4d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_H_R); + + tmp = (u32)gr_4d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_V_U); + + tmp = (u32)gr_4d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_V_D); + + tmp = (u32)gr_4d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_LU); + + tmp = (u32)gr_4d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_RU); + + tmp = (u32)gr_4d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_LD); + + tmp = (u32)gr_4d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gr_4d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_RD); + + /* GB 2D */ + gb_2d = ¶m->lssc_parabola_param->gb_2d; + tmp = (u32)gb_2d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_H_L); + + tmp = (u32)gb_2d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_H_R); + + tmp = (u32)gb_2d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_V_U); + + tmp = (u32)gb_2d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_V_D); + + tmp = (u32)gb_2d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_LU); + + tmp = (u32)gb_2d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_RU); + + tmp = (u32)gb_2d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_LD); + + tmp = (u32)gb_2d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_2d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_RD); + + /* GB 4D */ + gb_4d = ¶m->lssc_parabola_param->gb_4d; + tmp = (u32)gb_4d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_H_L); + + tmp = (u32)gb_4d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_H_R); + + tmp = (u32)gb_4d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_V_U); + + tmp = (u32)gb_4d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_V_D); + + tmp = (u32)gb_4d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_LU); + + tmp = (u32)gb_4d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_RU); + + tmp = (u32)gb_4d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_LD); + + tmp = (u32)gb_4d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(gb_4d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_RD); + + /* B 2D */ + b_2d = ¶m->lssc_parabola_param->b_2d; + tmp = (u32)b_2d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_H_L); + + tmp = (u32)b_2d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_H_R); + + tmp = (u32)b_2d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_V_U); + + tmp = (u32)b_2d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_V_D); + + tmp = (u32)b_2d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_LU); + + tmp = (u32)b_2d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_RU); + + tmp = (u32)b_2d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_LD); + + tmp = (u32)b_2d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_2d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_RD); + + /* B 4D */ + b_4d = ¶m->lssc_parabola_param->b_4d; + tmp = (u32)b_4d->lssc_paracoef_h_l_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_h_l_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_H_L); + + tmp = (u32)b_4d->lssc_paracoef_h_r_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_h_r_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_H_R); + + tmp = (u32)b_4d->lssc_paracoef_v_u_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_v_u_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_V_U); + + tmp = (u32)b_4d->lssc_paracoef_v_d_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_v_d_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_V_D); + + tmp = (u32)b_4d->lssc_paracoef_hv_lu_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_hv_lu_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_LU); + + tmp = (u32)b_4d->lssc_paracoef_hv_ru_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_hv_ru_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_RU); + + tmp = (u32)b_4d->lssc_paracoef_hv_ld_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_hv_ld_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_LD); + + tmp = (u32)b_4d->lssc_paracoef_hv_rd_max & 0x1fffU; + val = (tmp << 16U) | (u32)(b_4d->lssc_paracoef_hv_rd_min & 0x1fffU); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_RD); + + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_LSSC_PARA_EN); + } + + /* grid shading */ + if (param->lssc_grid_param) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_LSSC_GRID_EN); + writel(grid_h_size, &res->capture_reg->l1isp.L1_LSSC_GRID_H_SIZE); + writel(grid_v_size, &res->capture_reg->l1isp.L1_LSSC_GRID_V_SIZE); + writel(param->lssc_grid_param->lssc_grid_h_center, + &res->capture_reg->l1isp.L1_LSSC_GRID_H_CENTER); + writel(param->lssc_grid_param->lssc_grid_v_center, + &res->capture_reg->l1isp.L1_LSSC_GRID_V_CENTER); + writel(param->lssc_grid_param->lssc_grid_mgsel, + &res->capture_reg->l1isp.L1_LSSC_GRID_MGSEL); + + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_LSSC_GRID_EN); + } + + /* preset white balance */ + val = (param->lssc_pwhb_r_gain_max << 16U) | (param->lssc_pwhb_r_gain_min); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PWHB_R_GAIN); + + val = (param->lssc_pwhb_gr_gain_max << 16U) | (param->lssc_pwhb_gr_gain_min); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PWHB_GR_GAIN); + + val = (param->lssc_pwhb_gb_gain_max << 16U) | (param->lssc_pwhb_gb_gain_min); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PWHB_GB_GAIN); + + val = (param->lssc_pwhb_b_gain_max << 16U) | (param->lssc_pwhb_b_gain_min); + writel(val, &res->capture_reg->l1isp.L1_LSSC_PWHB_B_GAIN); + + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_LSSC_EN); + + return 0; +} + +/** + * hwd_viif_l1_set_lsc_table_transmission() - Configure L1ISP transferring lens shading grid table. + * + * @table_gr: grid shading table for Gr(physical address) + * @table_r: grid shading table for R(physical address) + * @table_b: grid shading table for B(physical address) + * @table_gb: grid shading table for Gb(physical address) + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "table_h", "table_m" or "table_l" is not 8byte alignment + * + * Note that when 0 is set to table address, table transfer of the table is disabled. + */ +s32 hwd_viif_l1_set_lsc_table_transmission(u32 module_id, uintptr_t table_gr, uintptr_t table_r, + uintptr_t table_b, uintptr_t table_gb) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val = 0x0U; + + if (((table_gr % HWD_VIIF_L1_VDM_ALIGN) != 0U) || + ((table_r % HWD_VIIF_L1_VDM_ALIGN) != 0U) || + ((table_b % HWD_VIIF_L1_VDM_ALIGN) != 0U) || + ((table_gb % HWD_VIIF_L1_VDM_ALIGN) != 0U)) { + return -EINVAL; + } + /* VDM common settings */ + writel(HWD_VIIF_L1_VDM_CFG_PARAM, &res->capture_reg->vdm.t_group[0].VDM_T_CFG); + writel(HWD_VIIF_L1_VDM_SRAM_BASE, &res->capture_reg->vdm.t_group[0].VDM_T_SRAM_BASE); + writel(HWD_VIIF_L1_VDM_SRAM_SIZE, &res->capture_reg->vdm.t_group[0].VDM_T_SRAM_SIZE); + + if (table_gr != 0U) { + writel((u32)table_gr, &res->capture_reg->vdm.t_port[4].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_LSC_TABLE_SIZE, &res->capture_reg->vdm.t_port[4].VDM_T_SIZE); + val |= 0x10U; + } + + if (table_r != 0U) { + writel((u32)table_r, &res->capture_reg->vdm.t_port[5].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_LSC_TABLE_SIZE, &res->capture_reg->vdm.t_port[5].VDM_T_SIZE); + val |= 0x20U; + } + + if (table_b != 0U) { + writel((u32)table_b, &res->capture_reg->vdm.t_port[6].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_LSC_TABLE_SIZE, &res->capture_reg->vdm.t_port[6].VDM_T_SIZE); + val |= 0x40U; + } + + if (table_gb != 0U) { + writel((u32)table_gb, &res->capture_reg->vdm.t_port[7].VDM_T_STADR); + writel(HWD_VIIF_L1_VDM_LSC_TABLE_SIZE, &res->capture_reg->vdm.t_port[7].VDM_T_SIZE); + val |= 0x80U; + } + + val |= (readl(&res->capture_reg->vdm.VDM_T_ENABLE) & 0xffffff0fU); + writel(val, &res->capture_reg->vdm.VDM_T_ENABLE); + + return 0; +} + +/** + * hwd_viif_l1_set_main_process() - Configure L1ISP main process. + * + * @demosaic_mode: demosaic mode @ref hwd_viif_l1_demosaic + * @damp_lsbsel: output pixel clip range for auto white balance [0..15] + * @color_matrix: pointer to color matrix correction parameters + * @dst_maxval: output pixel maximum value [0x0..0xffffff] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * main process means digital amp, demosaic, and color matrix correction + * NULL means disabling color matrix correction + * - "demosaic_mode" is neither HWD_VIIF_L1_DEMOSAIC_ACPI nor HWD_VIIF_L1_DEMOSAIC_DMG + * - "damp_lsbsel" is out of range + * - each parameter of "color_matrix" is out of range + * - "dst_maxval" is out of range + */ +s32 hwd_viif_l1_set_main_process(u32 module_id, u32 demosaic_mode, u32 damp_lsbsel, + const struct viif_l1_color_matrix_correction *color_matrix, + u32 dst_maxval) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + if (demosaic_mode != HWD_VIIF_L1_DEMOSAIC_ACPI && + demosaic_mode != HWD_VIIF_L1_DEMOSAIC_DMG) { + return -EINVAL; + } + + if (damp_lsbsel > HWD_VIIF_DAMP_MAX_LSBSEL) + return -EINVAL; + + if (color_matrix) { + if (color_matrix->coef_rmg_min > color_matrix->coef_rmg_max || + color_matrix->coef_rmb_min > color_matrix->coef_rmb_max || + color_matrix->coef_gmr_min > color_matrix->coef_gmr_max || + color_matrix->coef_gmb_min > color_matrix->coef_gmb_max || + color_matrix->coef_bmr_min > color_matrix->coef_bmr_max || + color_matrix->coef_bmg_min > color_matrix->coef_bmg_max || + (u32)color_matrix->dst_minval > dst_maxval) + return -EINVAL; + } + + if (dst_maxval > HWD_VIIF_MAIN_PROCESS_MAX_OUT_PIXEL_VAL) + return -EINVAL; + + val = damp_lsbsel << 4U; + writel(val, &res->capture_reg->l1isp.L1_MPRO_CONF); + + writel(demosaic_mode, &res->capture_reg->l1isp.L1_MPRO_LCS_MODE); + + if (color_matrix) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_MPRO_SW); + + val = (u32)color_matrix->coef_rmg_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_RMG_MIN); + + val = (u32)color_matrix->coef_rmg_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_RMG_MAX); + + val = (u32)color_matrix->coef_rmb_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_RMB_MIN); + + val = (u32)color_matrix->coef_rmb_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_RMB_MAX); + + val = (u32)color_matrix->coef_gmr_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_GMR_MIN); + + val = (u32)color_matrix->coef_gmr_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_GMR_MAX); + + val = (u32)color_matrix->coef_gmb_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_GMB_MIN); + + val = (u32)color_matrix->coef_gmb_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_GMB_MAX); + + val = (u32)color_matrix->coef_bmr_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_BMR_MIN); + + val = (u32)color_matrix->coef_bmr_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_BMR_MAX); + + val = (u32)color_matrix->coef_bmg_min & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_BMG_MIN); + + val = (u32)color_matrix->coef_bmg_max & 0xffffU; + writel(val, &res->capture_reg->l1isp.L1_MPRO_LM0_BMG_MAX); + + writel((u32)color_matrix->dst_minval, &res->capture_reg->l1isp.L1_MPRO_DST_MINVAL); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_MPRO_SW); + } + + writel(dst_maxval, &res->capture_reg->l1isp.L1_MPRO_DST_MAXVAL); + + return 0; +} + +/** + * hwd_viif_l1_set_awb() - Configure L1ISP auto white balance parameters. + * + * @param: pointer to auto white balance parameters; NULL means disabling auto white balance + * @awhb_wbmrg: R gain of white balance adjustment [0x40..0x3FF] accuracy: 1/256 + * @awhb_wbmgg: G gain of white balance adjustment [0x40..0x3FF] accuracy: 1/256 + * @awhb_wbmbg: B gain of white balance adjustment [0x40..0x3FF] accuracy: 1/256 + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL + * - each parameter of "param" is out of range + * - awhb_wbm*g is out of range + */ +s32 hwd_viif_l1_set_awb(u32 module_id, const struct viif_l1_awb *param, u32 awhb_wbmrg, + u32 awhb_wbmgg, u32 awhb_wbmbg) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, ygate_data; + + if (awhb_wbmrg < HWD_VIIF_AWB_MIN_GAIN || awhb_wbmrg >= HWD_VIIF_AWB_MAX_GAIN || + awhb_wbmgg < HWD_VIIF_AWB_MIN_GAIN || awhb_wbmgg >= HWD_VIIF_AWB_MAX_GAIN || + awhb_wbmbg < HWD_VIIF_AWB_MIN_GAIN || awhb_wbmbg >= HWD_VIIF_AWB_MAX_GAIN) { + return -EINVAL; + } + + if (param) { + if (param->awhb_ygate_sel != HWD_VIIF_ENABLE && + param->awhb_ygate_sel != HWD_VIIF_DISABLE) { + return -EINVAL; + } + + if (param->awhb_ygate_data != 64U && param->awhb_ygate_data != 128U && + param->awhb_ygate_data != 256U && param->awhb_ygate_data != 512U) { + return -EINVAL; + } + + if (param->awhb_cgrange != HWD_VIIF_L1_AWB_ONE_SECOND && + param->awhb_cgrange != HWD_VIIF_L1_AWB_X1 && + param->awhb_cgrange != HWD_VIIF_L1_AWB_X2 && + param->awhb_cgrange != HWD_VIIF_L1_AWB_X4) { + return -EINVAL; + } + + if (param->awhb_ygatesw != HWD_VIIF_ENABLE && + param->awhb_ygatesw != HWD_VIIF_DISABLE) { + return -EINVAL; + } + + if (param->awhb_hexsw != HWD_VIIF_ENABLE && param->awhb_hexsw != HWD_VIIF_DISABLE) + return -EINVAL; + + if (param->awhb_areamode != HWD_VIIF_L1_AWB_AREA_MODE0 && + param->awhb_areamode != HWD_VIIF_L1_AWB_AREA_MODE1 && + param->awhb_areamode != HWD_VIIF_L1_AWB_AREA_MODE2 && + param->awhb_areamode != HWD_VIIF_L1_AWB_AREA_MODE3) { + return -EINVAL; + } + + val = readl(&res->capture_reg->l1isp.L1_SYSM_WIDTH); + if (param->awhb_area_hsize < 1U || (param->awhb_area_hsize > ((val - 8U) / 8U)) || + param->awhb_area_hofs > (val - 9U)) { + return -EINVAL; + } + + val = readl(&res->capture_reg->l1isp.L1_SYSM_HEIGHT); + if (param->awhb_area_vsize < 1U || (param->awhb_area_vsize > ((val - 4U) / 8U)) || + param->awhb_area_vofs > (val - 5U)) { + return -EINVAL; + } + + if ((param->awhb_sq_sw[0] != HWD_VIIF_ENABLE && + param->awhb_sq_sw[0] != HWD_VIIF_DISABLE) || + (param->awhb_sq_sw[1] != HWD_VIIF_ENABLE && + param->awhb_sq_sw[1] != HWD_VIIF_DISABLE) || + (param->awhb_sq_sw[2] != HWD_VIIF_ENABLE && + param->awhb_sq_sw[2] != HWD_VIIF_DISABLE) || + (param->awhb_sq_pol[0] != HWD_VIIF_ENABLE && + param->awhb_sq_pol[0] != HWD_VIIF_DISABLE) || + (param->awhb_sq_pol[1] != HWD_VIIF_ENABLE && + param->awhb_sq_pol[1] != HWD_VIIF_DISABLE) || + (param->awhb_sq_pol[2] != HWD_VIIF_ENABLE && + param->awhb_sq_pol[2] != HWD_VIIF_DISABLE)) { + return -EINVAL; + } + + if (param->awhb_bycut0p > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_bycut0n > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rycut0p > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rycut0n > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rbcut0h < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_rbcut0h > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_rbcut0l < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_rbcut0l > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_bycut_h[0] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_bycut_h[0] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_bycut_h[1] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_bycut_h[1] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_bycut_h[2] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_bycut_h[2] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_bycut_l[0] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_bycut_l[1] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_bycut_l[2] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rycut_h[0] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_rycut_h[0] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_rycut_h[1] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_rycut_h[1] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_rycut_h[2] < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_rycut_h[2] > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_rycut_l[0] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rycut_l[1] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_rycut_l[2] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER || + param->awhb_awbsftu < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_awbsftu > HWD_VIIF_AWB_GATE_UPPER || + param->awhb_awbsftv < HWD_VIIF_AWB_GATE_LOWER || + param->awhb_awbsftv > HWD_VIIF_AWB_GATE_UPPER || + (param->awhb_awbhuecor != HWD_VIIF_ENABLE && + param->awhb_awbhuecor != HWD_VIIF_DISABLE)) { + return -EINVAL; + } + + if (param->awhb_awbspd > HWD_VIIF_AWB_MAX_UV_CONVERGENCE_SPEED || + param->awhb_awbulv > HWD_VIIF_AWB_MAX_UV_CONVERGENCE_LEVEL || + param->awhb_awbvlv > HWD_VIIF_AWB_MAX_UV_CONVERGENCE_LEVEL || + param->awhb_awbondot > HWD_VIIF_AWB_INTEGRATION_STOP_TH) { + return -EINVAL; + } + + switch (param->awhb_awbfztim) { + case HWD_VIIF_L1_AWB_RESTART_NO: + case HWD_VIIF_L1_AWB_RESTART_128FRAME: + case HWD_VIIF_L1_AWB_RESTART_64FRAME: + case HWD_VIIF_L1_AWB_RESTART_32FRAME: + case HWD_VIIF_L1_AWB_RESTART_16FRAME: + case HWD_VIIF_L1_AWB_RESTART_8FRAME: + case HWD_VIIF_L1_AWB_RESTART_4FRAME: + case HWD_VIIF_L1_AWB_RESTART_2FRAME: + break; + default: + return -EINVAL; + } + } + + writel(awhb_wbmrg, &res->capture_reg->l1isp.L1_AWHB_WBMRG); + writel(awhb_wbmgg, &res->capture_reg->l1isp.L1_AWHB_WBMGG); + writel(awhb_wbmbg, &res->capture_reg->l1isp.L1_AWHB_WBMBG); + + val = readl(&res->capture_reg->l1isp.L1_AWHB_SW) & 0xffffff7fU; + + if (param) { + val |= (HWD_VIIF_ENABLE << 7U); + writel(val, &res->capture_reg->l1isp.L1_AWHB_SW); + + if (param->awhb_ygate_data == 64U) + ygate_data = 0U; + else if (param->awhb_ygate_data == 128U) + ygate_data = 1U; + else if (param->awhb_ygate_data == 256U) + ygate_data = 2U; + else + ygate_data = 3U; + + val = (param->awhb_ygate_sel << 7U) | (ygate_data << 5U) | (param->awhb_cgrange); + writel(val, &res->capture_reg->l1isp.L1_AWHB_GATE_CONF0); + + val = (param->awhb_ygatesw << 5U) | (param->awhb_hexsw << 4U) | + (param->awhb_areamode); + writel(val, &res->capture_reg->l1isp.L1_AWHB_GATE_CONF1); + + writel(param->awhb_area_hsize, &res->capture_reg->l1isp.L1_AWHB_AREA_HSIZE); + writel(param->awhb_area_vsize, &res->capture_reg->l1isp.L1_AWHB_AREA_VSIZE); + writel(param->awhb_area_hofs, &res->capture_reg->l1isp.L1_AWHB_AREA_HOFS); + writel(param->awhb_area_vofs, &res->capture_reg->l1isp.L1_AWHB_AREA_VOFS); + + writel(param->awhb_area_maskh, &res->capture_reg->l1isp.L1_AWHB_AREA_MASKH); + writel(param->awhb_area_maskl, &res->capture_reg->l1isp.L1_AWHB_AREA_MASKL); + + val = (param->awhb_sq_sw[0] << 7U) | (param->awhb_sq_pol[0] << 6U) | + (param->awhb_sq_sw[1] << 5U) | (param->awhb_sq_pol[1] << 4U) | + (param->awhb_sq_sw[2] << 3U) | (param->awhb_sq_pol[2] << 2U); + writel(val, &res->capture_reg->l1isp.L1_AWHB_SQ_CONF); + + writel((u32)param->awhb_ygateh, &res->capture_reg->l1isp.L1_AWHB_YGATEH); + writel((u32)param->awhb_ygatel, &res->capture_reg->l1isp.L1_AWHB_YGATEL); + + writel(param->awhb_bycut0p, &res->capture_reg->l1isp.L1_AWHB_BYCUT0P); + writel(param->awhb_bycut0n, &res->capture_reg->l1isp.L1_AWHB_BYCUT0N); + writel(param->awhb_rycut0p, &res->capture_reg->l1isp.L1_AWHB_RYCUT0P); + writel(param->awhb_rycut0n, &res->capture_reg->l1isp.L1_AWHB_RYCUT0N); + + val = (u32)param->awhb_rbcut0h & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_RBCUT0H); + val = (u32)param->awhb_rbcut0l & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_RBCUT0L); + + val = (u32)param->awhb_bycut_h[0] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_BYCUT1H); + writel(param->awhb_bycut_l[0], &res->capture_reg->l1isp.L1_AWHB_BYCUT1L); + val = (u32)param->awhb_bycut_h[1] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_BYCUT2H); + writel(param->awhb_bycut_l[1], &res->capture_reg->l1isp.L1_AWHB_BYCUT2L); + val = (u32)param->awhb_bycut_h[2] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_BYCUT3H); + writel(param->awhb_bycut_l[2], &res->capture_reg->l1isp.L1_AWHB_BYCUT3L); + + val = (u32)param->awhb_rycut_h[0] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_RYCUT1H); + writel(param->awhb_rycut_l[0], &res->capture_reg->l1isp.L1_AWHB_RYCUT1L); + val = (u32)param->awhb_rycut_h[1] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_RYCUT2H); + writel(param->awhb_rycut_l[1], &res->capture_reg->l1isp.L1_AWHB_RYCUT2L); + val = (u32)param->awhb_rycut_h[2] & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_RYCUT3H); + writel(param->awhb_rycut_l[2], &res->capture_reg->l1isp.L1_AWHB_RYCUT3L); + + val = (u32)param->awhb_awbsftu & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_AWBSFTU); + val = (u32)param->awhb_awbsftv & 0xffU; + writel(val, &res->capture_reg->l1isp.L1_AWHB_AWBSFTV); + + val = (param->awhb_awbhuecor << 4U) | (param->awhb_awbspd); + writel(val, &res->capture_reg->l1isp.L1_AWHB_AWBSPD); + + writel(param->awhb_awbulv, &res->capture_reg->l1isp.L1_AWHB_AWBULV); + writel(param->awhb_awbvlv, &res->capture_reg->l1isp.L1_AWHB_AWBVLV); + writel((u32)param->awhb_awbwait, &res->capture_reg->l1isp.L1_AWHB_AWBWAIT); + + writel(param->awhb_awbondot, &res->capture_reg->l1isp.L1_AWHB_AWBONDOT); + writel(param->awhb_awbfztim, &res->capture_reg->l1isp.L1_AWHB_AWBFZTIM); + + writel((u32)param->awhb_wbgrmax, &res->capture_reg->l1isp.L1_AWHB_WBGRMAX); + writel((u32)param->awhb_wbgbmax, &res->capture_reg->l1isp.L1_AWHB_WBGBMAX); + writel((u32)param->awhb_wbgrmin, &res->capture_reg->l1isp.L1_AWHB_WBGRMIN); + writel((u32)param->awhb_wbgbmin, &res->capture_reg->l1isp.L1_AWHB_WBGBMIN); + + } else { + /* disable awb */ + writel(val, &res->capture_reg->l1isp.L1_AWHB_SW); + } + + return 0; +} + +/** + * hwd_viif_l1_lock_awb_gain() - Configure L1ISP lock auto white balance gain. + * + * @enable: enable/disable lock AWB gain + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - "enable" is neither HWD_VIIF_ENABLE nor HWD_VIIF_DISABLE + */ +s32 hwd_viif_l1_lock_awb_gain(u32 module_id, u32 enable) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + if (enable != HWD_VIIF_ENABLE && enable != HWD_VIIF_DISABLE) + return -EINVAL; + + val = readl(&res->capture_reg->l1isp.L1_AWHB_SW) & 0xffffffdfU; + val |= (enable << 5U); + writel(val, &res->capture_reg->l1isp.L1_AWHB_SW); + + return 0; +} + +/** + * hwd_viif_l1_set_hdrc() - Configure L1ISP HDR compression parameters. + * + * @param: pointer to HDR compression parameters + * @hdrc_thr_sft_amt: shift value in case of through mode [0..8] + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - each parameter of "param" is out of range + * - hdrc_thr_sft_amt is out of range when param is NULL + * - hdrc_thr_sft_amt is not 0 when param is not NULL + */ +s32 hwd_viif_l1_set_hdrc(u32 module_id, const struct viif_l1_hdrc *param, u32 hdrc_thr_sft_amt) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val, sw_delay1; + + if (!param) { + if (hdrc_thr_sft_amt > HWD_VIIF_L1_HDRC_MAX_THROUGH_SHIFT_VAL) + return -EINVAL; + + writel(hdrc_thr_sft_amt, &res->capture_reg->l1isp.L1_HDRC_THR_SFT_AMT); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_HDRC_EN); + + return 0; + } + + if (hdrc_thr_sft_amt != 0U || param->hdrc_ratio < HWD_VIIF_L1_HDRC_MIN_INPUT_DATA_WIDTH || + param->hdrc_ratio > HWD_VIIF_L1_HDRC_MAX_INPUT_DATA_WIDTH || + param->hdrc_pt_ratio > HWD_VIIF_L1_HDRC_MAX_PT_SLOPE || + param->hdrc_pt_blend > HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO || + param->hdrc_pt_blend2 > HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO || + (param->hdrc_pt_blend + param->hdrc_pt_blend2) > HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO || + (param->hdrc_tn_type != HWD_VIIF_L1_HDRC_TONE_USER && + param->hdrc_tn_type != HWD_VIIF_L1_HDRC_TONE_PRESET) || + param->hdrc_flr_val > HWD_VIIF_L1_HDRC_MAX_FLARE_VAL || + (param->hdrc_flr_adp != HWD_VIIF_ENABLE && param->hdrc_flr_adp != HWD_VIIF_DISABLE) || + (param->hdrc_ybr_off != HWD_VIIF_ENABLE && param->hdrc_ybr_off != HWD_VIIF_DISABLE) || + param->hdrc_orgy_blend > HWD_VIIF_L1_HDRC_MAX_BLEND_LUMA) { + return -EINVAL; + } + + writel((param->hdrc_ratio - HWD_VIIF_L1_HDRC_RATIO_OFFSET), + &res->capture_reg->l1isp.L1_HDRC_RATIO); + writel(param->hdrc_pt_ratio, &res->capture_reg->l1isp.L1_HDRC_PT_RATIO); + + writel(param->hdrc_pt_blend, &res->capture_reg->l1isp.L1_HDRC_PT_BLEND); + writel(param->hdrc_pt_blend2, &res->capture_reg->l1isp.L1_HDRC_PT_BLEND2); + + writel(param->hdrc_pt_sat, &res->capture_reg->l1isp.L1_HDRC_PT_SAT); + writel(param->hdrc_tn_type, &res->capture_reg->l1isp.L1_HDRC_TN_TYPE); + + writel(param->hdrc_utn_tbl[0], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL0); + writel(param->hdrc_utn_tbl[1], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL1); + writel(param->hdrc_utn_tbl[2], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL2); + writel(param->hdrc_utn_tbl[3], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL3); + writel(param->hdrc_utn_tbl[4], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL4); + writel(param->hdrc_utn_tbl[5], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL5); + writel(param->hdrc_utn_tbl[6], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL6); + writel(param->hdrc_utn_tbl[7], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL7); + writel(param->hdrc_utn_tbl[8], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL8); + writel(param->hdrc_utn_tbl[9], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL9); + writel(param->hdrc_utn_tbl[10], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL10); + writel(param->hdrc_utn_tbl[11], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL11); + writel(param->hdrc_utn_tbl[12], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL12); + writel(param->hdrc_utn_tbl[13], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL13); + writel(param->hdrc_utn_tbl[14], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL14); + writel(param->hdrc_utn_tbl[15], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL15); + writel(param->hdrc_utn_tbl[16], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL16); + writel(param->hdrc_utn_tbl[17], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL17); + writel(param->hdrc_utn_tbl[18], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL18); + writel(param->hdrc_utn_tbl[19], &res->capture_reg->l1isp.L1_HDRC_UTN_TBL19); + + writel(param->hdrc_flr_val, &res->capture_reg->l1isp.L1_HDRC_FLR_VAL); + writel(param->hdrc_flr_adp, &res->capture_reg->l1isp.L1_HDRC_FLR_ADP); + + writel(param->hdrc_ybr_off, &res->capture_reg->l1isp.L1_HDRC_YBR_OFF); + writel(param->hdrc_orgy_blend, &res->capture_reg->l1isp.L1_HDRC_ORGY_BLEND); + + val = ((readl(&res->capture_reg->l1isp.L1_SYSM_HEIGHT)) % 64U) / 2U; + writel(val, &res->capture_reg->l1isp.L1_HDRC_MAR_TOP); + val = ((readl(&res->capture_reg->l1isp.L1_SYSM_WIDTH)) % 64U) / 2U; + writel(val, &res->capture_reg->l1isp.L1_HDRC_MAR_LEFT); + + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_HDRC_EN); + + /* update of sw_delay1 must be done when MAIN unit is NOT running. */ + if (!res->run_flag_main) { + sw_delay1 = (u32)((HWD_VIIF_REGBUF_ACCESS_TIME * (u64)res->pixel_clock) / + ((u64)res->htotal_size * HWD_VIIF_SYS_CLK)) + + HWD_VIIF_L1_DELAY_W_HDRC + 1U; + val = readl(&res->capture_reg->sys.INT_M1_LINE) & 0xffffU; + val |= (sw_delay1 << 16U); + writel(val, &res->capture_reg->sys.INT_M1_LINE); + /* M2_LINE is the same condition as M1_LINE */ + writel(val, &res->capture_reg->sys.INT_M2_LINE); + } + + return 0; +} + +/** + * hwd_viif_l1_set_hdrc_ltm() - Configure L1ISP HDR compression local tone mapping parameters. + * + * @param: pointer to HDR compression local tone mapping parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL + * - "param" is NULL + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_hdrc_ltm(u32 module_id, const struct viif_l1_hdrc_ltm_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + u32 idx; + + if (!param || param->tnp_max >= HWD_VIIF_L1_HDRC_MAX_LTM_TONE_BLEND_RATIO || + param->tnp_mag >= HWD_VIIF_L1_HDRC_MAX_LTM_MAGNIFICATION) { + return -EINVAL; + } + + val = (u32)param->tnp_fil[0]; + for (idx = 1; idx < 5U; idx++) + val += (u32)param->tnp_fil[idx] * 2U; + + if (val != 1024U) + return -EINVAL; + + writel(param->tnp_max, &res->capture_reg->l1isp.L1_HDRC_TNP_MAX); + + writel(param->tnp_mag, &res->capture_reg->l1isp.L1_HDRC_TNP_MAG); + + writel((u32)param->tnp_fil[0], &res->capture_reg->l1isp.L1_HDRC_TNP_FIL0); + writel((u32)param->tnp_fil[1], &res->capture_reg->l1isp.L1_HDRC_TNP_FIL1); + writel((u32)param->tnp_fil[2], &res->capture_reg->l1isp.L1_HDRC_TNP_FIL2); + writel((u32)param->tnp_fil[3], &res->capture_reg->l1isp.L1_HDRC_TNP_FIL3); + writel((u32)param->tnp_fil[4], &res->capture_reg->l1isp.L1_HDRC_TNP_FIL4); + + return 0; +} + +/** + * hwd_viif_l1_set_gamma() - Configure L1ISP gamma correction parameters. + * + * @param: pointer to gamma correction parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_gamma(u32 module_id, const struct viif_l1_gamma *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 idx; + + if (!param) { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_PGC_SW); + return 0; + } + + for (idx = 0; idx < 44U; idx++) { + if (param->gam_p[idx] > HWD_VIIF_L1_GAMMA_MAX_VAL) + return -EINVAL; + } + + writel(param->gam_p[0], &res->capture_reg->l1isp.L1_VPRO_GAM01P); + writel(param->gam_p[1], &res->capture_reg->l1isp.L1_VPRO_GAM02P); + writel(param->gam_p[2], &res->capture_reg->l1isp.L1_VPRO_GAM03P); + writel(param->gam_p[3], &res->capture_reg->l1isp.L1_VPRO_GAM04P); + writel(param->gam_p[4], &res->capture_reg->l1isp.L1_VPRO_GAM05P); + writel(param->gam_p[5], &res->capture_reg->l1isp.L1_VPRO_GAM06P); + writel(param->gam_p[6], &res->capture_reg->l1isp.L1_VPRO_GAM07P); + writel(param->gam_p[7], &res->capture_reg->l1isp.L1_VPRO_GAM08P); + writel(param->gam_p[8], &res->capture_reg->l1isp.L1_VPRO_GAM09P); + writel(param->gam_p[9], &res->capture_reg->l1isp.L1_VPRO_GAM10P); + writel(param->gam_p[10], &res->capture_reg->l1isp.L1_VPRO_GAM11P); + writel(param->gam_p[11], &res->capture_reg->l1isp.L1_VPRO_GAM12P); + writel(param->gam_p[12], &res->capture_reg->l1isp.L1_VPRO_GAM13P); + writel(param->gam_p[13], &res->capture_reg->l1isp.L1_VPRO_GAM14P); + writel(param->gam_p[14], &res->capture_reg->l1isp.L1_VPRO_GAM15P); + writel(param->gam_p[15], &res->capture_reg->l1isp.L1_VPRO_GAM16P); + writel(param->gam_p[16], &res->capture_reg->l1isp.L1_VPRO_GAM17P); + writel(param->gam_p[17], &res->capture_reg->l1isp.L1_VPRO_GAM18P); + writel(param->gam_p[18], &res->capture_reg->l1isp.L1_VPRO_GAM19P); + writel(param->gam_p[19], &res->capture_reg->l1isp.L1_VPRO_GAM20P); + writel(param->gam_p[20], &res->capture_reg->l1isp.L1_VPRO_GAM21P); + writel(param->gam_p[21], &res->capture_reg->l1isp.L1_VPRO_GAM22P); + writel(param->gam_p[22], &res->capture_reg->l1isp.L1_VPRO_GAM23P); + writel(param->gam_p[23], &res->capture_reg->l1isp.L1_VPRO_GAM24P); + writel(param->gam_p[24], &res->capture_reg->l1isp.L1_VPRO_GAM25P); + writel(param->gam_p[25], &res->capture_reg->l1isp.L1_VPRO_GAM26P); + writel(param->gam_p[26], &res->capture_reg->l1isp.L1_VPRO_GAM27P); + writel(param->gam_p[27], &res->capture_reg->l1isp.L1_VPRO_GAM28P); + writel(param->gam_p[28], &res->capture_reg->l1isp.L1_VPRO_GAM29P); + writel(param->gam_p[29], &res->capture_reg->l1isp.L1_VPRO_GAM30P); + writel(param->gam_p[30], &res->capture_reg->l1isp.L1_VPRO_GAM31P); + writel(param->gam_p[31], &res->capture_reg->l1isp.L1_VPRO_GAM32P); + writel(param->gam_p[32], &res->capture_reg->l1isp.L1_VPRO_GAM33P); + writel(param->gam_p[33], &res->capture_reg->l1isp.L1_VPRO_GAM34P); + writel(param->gam_p[34], &res->capture_reg->l1isp.L1_VPRO_GAM35P); + writel(param->gam_p[35], &res->capture_reg->l1isp.L1_VPRO_GAM36P); + writel(param->gam_p[36], &res->capture_reg->l1isp.L1_VPRO_GAM37P); + writel(param->gam_p[37], &res->capture_reg->l1isp.L1_VPRO_GAM38P); + writel(param->gam_p[38], &res->capture_reg->l1isp.L1_VPRO_GAM39P); + writel(param->gam_p[39], &res->capture_reg->l1isp.L1_VPRO_GAM40P); + writel(param->gam_p[40], &res->capture_reg->l1isp.L1_VPRO_GAM41P); + writel(param->gam_p[41], &res->capture_reg->l1isp.L1_VPRO_GAM42P); + writel(param->gam_p[42], &res->capture_reg->l1isp.L1_VPRO_GAM43P); + writel(param->gam_p[43], &res->capture_reg->l1isp.L1_VPRO_GAM44P); + writel(param->blkadj, &res->capture_reg->l1isp.L1_VPRO_BLKADJ); + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_PGC_SW); + + return 0; +} + +/** + * hwd_viif_l1_set_img_quality_adjustment() - Configure L1ISP image quality adjustment. + * + * @param: pointer to image quality adjustment parameters; NULL means disabling + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_img_quality_adjustment(u32 module_id, + const struct hwd_viif_l1_img_quality_adjustment *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 val; + + if (!param) { + /* disable all features when param is absent */ + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_YUVC_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_BRIGHT_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_LCNT_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_NLCNT_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_YNR_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_ETE_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_UVSUP_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_SW); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_SW); + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CB_GAIN); + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CR_GAIN); + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CBR_MGAIN_MIN); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CB_P_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CB_M_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CR_P_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CR_M_GAIN_MAX); + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_CNR_SW); + + return 0; + } + + if (param->lum_noise_reduction) { + if (param->lum_noise_reduction->gain_min > param->lum_noise_reduction->gain_max || + param->lum_noise_reduction->lim_min > param->lum_noise_reduction->lim_max) { + return -EINVAL; + } + } + + if (param->edge_enhancement) { + if (param->edge_enhancement->gain_min > param->edge_enhancement->gain_max || + param->edge_enhancement->lim_min > param->edge_enhancement->lim_max || + param->edge_enhancement->coring_min > param->edge_enhancement->coring_max) { + return -EINVAL; + } + } + + if (param->uv_suppression) { + if (param->uv_suppression->bk_mp >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL || + param->uv_suppression->black >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL || + param->uv_suppression->wh_mp >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL || + param->uv_suppression->white >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL || + param->uv_suppression->bk_slv >= param->uv_suppression->wh_slv) + return -EINVAL; + } + + if (param->coring_suppression) { + if (param->coring_suppression->gain_min > param->coring_suppression->gain_max || + param->coring_suppression->lv_min > param->coring_suppression->lv_max) + return -EINVAL; + } + + if (param->edge_suppression) { + if (param->edge_suppression->lim > HWD_VIIF_L1_EDGE_SUPPRESSION_MAX_LIMIT) + return -EINVAL; + } + + if (param->color_level) { + if (param->color_level->cb_gain >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->cr_gain >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->cbr_mgain_min >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->cbp_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->cbm_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->crp_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN || + param->color_level->crm_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) { + return -EINVAL; + } + } + + if (param->color_noise_reduction_enable != HWD_VIIF_ENABLE && + param->color_noise_reduction_enable != HWD_VIIF_DISABLE) { + return -EINVAL; + } + + /* RGB to YUV */ + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_YUVC_SW); + writel((u32)param->coef_cb, &res->capture_reg->l1isp.L1_VPRO_CB_MAT); + writel((u32)param->coef_cr, &res->capture_reg->l1isp.L1_VPRO_CR_MAT); + + /* brightness */ + val = (u32)param->brightness & 0xffffU; + if (val != 0U) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_BRIGHT_SW); + writel(val, &res->capture_reg->l1isp.L1_VPRO_BRIGHT); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_BRIGHT_SW); + } + + /* linear contrast */ + if ((u32)param->linear_contrast != 128U) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_LCNT_SW); + writel((u32)param->linear_contrast, &res->capture_reg->l1isp.L1_VPRO_LCONT_LEV); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_LCNT_SW); + } + + /* nonlinear contrast */ + if (param->nonlinear_contrast) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_NLCNT_SW); + writel((u32)param->nonlinear_contrast->blk_knee, + &res->capture_reg->l1isp.L1_VPRO_BLK_KNEE); + writel((u32)param->nonlinear_contrast->wht_knee, + &res->capture_reg->l1isp.L1_VPRO_WHT_KNEE); + + writel((u32)param->nonlinear_contrast->blk_cont[0], + &res->capture_reg->l1isp.L1_VPRO_BLK_CONT0); + writel((u32)param->nonlinear_contrast->blk_cont[1], + &res->capture_reg->l1isp.L1_VPRO_BLK_CONT1); + writel((u32)param->nonlinear_contrast->blk_cont[2], + &res->capture_reg->l1isp.L1_VPRO_BLK_CONT2); + + writel((u32)param->nonlinear_contrast->wht_cont[0], + &res->capture_reg->l1isp.L1_VPRO_WHT_CONT0); + writel((u32)param->nonlinear_contrast->wht_cont[1], + &res->capture_reg->l1isp.L1_VPRO_WHT_CONT1); + writel((u32)param->nonlinear_contrast->wht_cont[2], + &res->capture_reg->l1isp.L1_VPRO_WHT_CONT2); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_NLCNT_SW); + } + + /* luminance noise reduction */ + if (param->lum_noise_reduction) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_YNR_SW); + writel((u32)param->lum_noise_reduction->gain_min, + &res->capture_reg->l1isp.L1_VPRO_YNR_GAIN_MIN); + writel((u32)param->lum_noise_reduction->gain_max, + &res->capture_reg->l1isp.L1_VPRO_YNR_GAIN_MAX); + writel((u32)param->lum_noise_reduction->lim_min, + &res->capture_reg->l1isp.L1_VPRO_YNR_LIM_MIN); + writel((u32)param->lum_noise_reduction->lim_max, + &res->capture_reg->l1isp.L1_VPRO_YNR_LIM_MAX); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_YNR_SW); + } + + /* edge enhancement */ + if (param->edge_enhancement) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_ETE_SW); + writel((u32)param->edge_enhancement->gain_min, + &res->capture_reg->l1isp.L1_VPRO_ETE_GAIN_MIN); + writel((u32)param->edge_enhancement->gain_max, + &res->capture_reg->l1isp.L1_VPRO_ETE_GAIN_MAX); + writel((u32)param->edge_enhancement->lim_min, + &res->capture_reg->l1isp.L1_VPRO_ETE_LIM_MIN); + writel((u32)param->edge_enhancement->lim_max, + &res->capture_reg->l1isp.L1_VPRO_ETE_LIM_MAX); + writel((u32)param->edge_enhancement->coring_min, + &res->capture_reg->l1isp.L1_VPRO_ETE_CORING_MIN); + writel((u32)param->edge_enhancement->coring_max, + &res->capture_reg->l1isp.L1_VPRO_ETE_CORING_MAX); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_ETE_SW); + } + + /* UV suppression */ + if (param->uv_suppression) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_UVSUP_SW); + writel((u32)param->uv_suppression->bk_slv, + &res->capture_reg->l1isp.L1_VPRO_CSUP_BK_SLV); + writel(param->uv_suppression->bk_mp, &res->capture_reg->l1isp.L1_VPRO_CSUP_BK_MP); + writel(param->uv_suppression->black, &res->capture_reg->l1isp.L1_VPRO_CSUP_BLACK); + + writel((u32)param->uv_suppression->wh_slv, + &res->capture_reg->l1isp.L1_VPRO_CSUP_WH_SLV); + writel(param->uv_suppression->wh_mp, &res->capture_reg->l1isp.L1_VPRO_CSUP_WH_MP); + writel(param->uv_suppression->white, &res->capture_reg->l1isp.L1_VPRO_CSUP_WHITE); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_UVSUP_SW); + } + + /* coring suppression */ + if (param->coring_suppression) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_SW); + writel((u32)param->coring_suppression->lv_min, + &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_LV_MIN); + writel((u32)param->coring_suppression->lv_max, + &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_LV_MAX); + writel((u32)param->coring_suppression->gain_min, + &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_GAIN_MIN); + writel((u32)param->coring_suppression->gain_max, + &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_GAIN_MAX); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_SW); + } + + /* edge suppression */ + if (param->edge_suppression) { + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_SW); + writel((u32)param->edge_suppression->gain, + &res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_GAIN); + writel((u32)param->edge_suppression->lim, + &res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_LIM); + } else { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_SW); + } + + /* color level */ + if (param->color_level) { + writel(param->color_level->cb_gain, &res->capture_reg->l1isp.L1_VPRO_CB_GAIN); + writel(param->color_level->cr_gain, &res->capture_reg->l1isp.L1_VPRO_CR_GAIN); + writel(param->color_level->cbr_mgain_min, + &res->capture_reg->l1isp.L1_VPRO_CBR_MGAIN_MIN); + writel(param->color_level->cbp_gain_max, + &res->capture_reg->l1isp.L1_VPRO_CB_P_GAIN_MAX); + writel(param->color_level->cbm_gain_max, + &res->capture_reg->l1isp.L1_VPRO_CB_M_GAIN_MAX); + writel(param->color_level->crp_gain_max, + &res->capture_reg->l1isp.L1_VPRO_CR_P_GAIN_MAX); + writel(param->color_level->crm_gain_max, + &res->capture_reg->l1isp.L1_VPRO_CR_M_GAIN_MAX); + } else { + /* disable */ + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CB_GAIN); + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CR_GAIN); + writel(1024U, &res->capture_reg->l1isp.L1_VPRO_CBR_MGAIN_MIN); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CB_P_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CB_M_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CR_P_GAIN_MAX); + writel(0U, &res->capture_reg->l1isp.L1_VPRO_CR_M_GAIN_MAX); + } + + /* color noise reduction */ + writel(param->color_noise_reduction_enable, &res->capture_reg->l1isp.L1_VPRO_CNR_SW); + + return 0; +} + +/** + * hwd_viif_l1_set_avg_lum_generation() - Configure L1ISP average luminance generation parameters. + * + * @param: pointer to auto exposure parameters + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: 0 operation completed successfully + * Return: -EINVAL Parameter error + * - each parameter of "param" is out of range + */ +s32 hwd_viif_l1_set_avg_lum_generation(u32 module_id, + const struct viif_l1_avg_lum_generation_config *param) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + u32 idx, j; + u32 val; + + if (!param) { + writel(HWD_VIIF_DISABLE, &res->capture_reg->l1isp.L1_AEXP_ON); + return 0; + } + + val = readl(&res->capture_reg->l1isp.L1_SYSM_WIDTH); + if (param->aexp_start_x > (val - 1U)) + return -EINVAL; + + if (param->aexp_block_width < HWD_VIIF_L1_AEXP_MIN_BLOCK_WIDTH || + param->aexp_block_width > val) { + return -EINVAL; + } + if (param->aexp_block_width % 64U) + return -EINVAL; + + val = readl(&res->capture_reg->l1isp.L1_SYSM_HEIGHT); + if (param->aexp_start_y > (val - 1U)) + return -EINVAL; + + if (param->aexp_block_height < HWD_VIIF_L1_AEXP_MIN_BLOCK_HEIGHT || + param->aexp_block_height > val) { + return -EINVAL; + } + if (param->aexp_block_height % 64U) + return -EINVAL; + + for (idx = 0; idx < 8U; idx++) { + for (j = 0; j < 8U; j++) { + if (param->aexp_weight[idx][j] > HWD_VIIF_L1_AEXP_MAX_WEIGHT) + return -EINVAL; + } + } + + if (param->aexp_satur_ratio > HWD_VIIF_L1_AEXP_MAX_BLOCK_TH || + param->aexp_black_ratio > HWD_VIIF_L1_AEXP_MAX_BLOCK_TH || + param->aexp_satur_level > HWD_VIIF_L1_AEXP_MAX_SATURATION_PIXEL_TH) { + return -EINVAL; + } + + for (idx = 0; idx < 4U; idx++) { + if (param->aexp_ave4linesy[idx] > (val - 4U)) + return -EINVAL; + } + + writel(HWD_VIIF_ENABLE, &res->capture_reg->l1isp.L1_AEXP_ON); + writel(param->aexp_start_x, &res->capture_reg->l1isp.L1_AEXP_START_X); + writel(param->aexp_start_y, &res->capture_reg->l1isp.L1_AEXP_START_Y); + writel(param->aexp_block_width, &res->capture_reg->l1isp.L1_AEXP_BLOCK_WIDTH); + writel(param->aexp_block_height, &res->capture_reg->l1isp.L1_AEXP_BLOCK_HEIGHT); + + val = (param->aexp_weight[0][0] << 14U) | (param->aexp_weight[0][1] << 12U) | + (param->aexp_weight[0][2] << 10U) | (param->aexp_weight[0][3] << 8U) | + (param->aexp_weight[0][4] << 6U) | (param->aexp_weight[0][5] << 4U) | + (param->aexp_weight[0][6] << 2U) | (param->aexp_weight[0][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_0); + + val = (param->aexp_weight[1][0] << 14U) | (param->aexp_weight[1][1] << 12U) | + (param->aexp_weight[1][2] << 10U) | (param->aexp_weight[1][3] << 8U) | + (param->aexp_weight[1][4] << 6U) | (param->aexp_weight[1][5] << 4U) | + (param->aexp_weight[1][6] << 2U) | (param->aexp_weight[1][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_1); + + val = (param->aexp_weight[2][0] << 14U) | (param->aexp_weight[2][1] << 12U) | + (param->aexp_weight[2][2] << 10U) | (param->aexp_weight[2][3] << 8U) | + (param->aexp_weight[2][4] << 6U) | (param->aexp_weight[2][5] << 4U) | + (param->aexp_weight[2][6] << 2U) | (param->aexp_weight[2][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_2); + + val = (param->aexp_weight[3][0] << 14U) | (param->aexp_weight[3][1] << 12U) | + (param->aexp_weight[3][2] << 10U) | (param->aexp_weight[3][3] << 8U) | + (param->aexp_weight[3][4] << 6U) | (param->aexp_weight[3][5] << 4U) | + (param->aexp_weight[3][6] << 2U) | (param->aexp_weight[3][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_3); + + val = (param->aexp_weight[4][0] << 14U) | (param->aexp_weight[4][1] << 12U) | + (param->aexp_weight[4][2] << 10U) | (param->aexp_weight[4][3] << 8U) | + (param->aexp_weight[4][4] << 6U) | (param->aexp_weight[4][5] << 4U) | + (param->aexp_weight[4][6] << 2U) | (param->aexp_weight[4][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_4); + + val = (param->aexp_weight[5][0] << 14U) | (param->aexp_weight[5][1] << 12U) | + (param->aexp_weight[5][2] << 10U) | (param->aexp_weight[5][3] << 8U) | + (param->aexp_weight[5][4] << 6U) | (param->aexp_weight[5][5] << 4U) | + (param->aexp_weight[5][6] << 2U) | (param->aexp_weight[5][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_5); + + val = (param->aexp_weight[6][0] << 14U) | (param->aexp_weight[6][1] << 12U) | + (param->aexp_weight[6][2] << 10U) | (param->aexp_weight[6][3] << 8U) | + (param->aexp_weight[6][4] << 6U) | (param->aexp_weight[6][5] << 4U) | + (param->aexp_weight[6][6] << 2U) | (param->aexp_weight[6][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_6); + + val = (param->aexp_weight[7][0] << 14U) | (param->aexp_weight[7][1] << 12U) | + (param->aexp_weight[7][2] << 10U) | (param->aexp_weight[7][3] << 8U) | + (param->aexp_weight[7][4] << 6U) | (param->aexp_weight[7][5] << 4U) | + (param->aexp_weight[7][6] << 2U) | (param->aexp_weight[7][7]); + writel(val, &res->capture_reg->l1isp.L1_AEXP_WEIGHT_7); + + writel(param->aexp_satur_ratio, &res->capture_reg->l1isp.L1_AEXP_SATUR_RATIO); + writel(param->aexp_black_ratio, &res->capture_reg->l1isp.L1_AEXP_BLACK_RATIO); + writel(param->aexp_satur_level, &res->capture_reg->l1isp.L1_AEXP_SATUR_LEVEL); + + writel(param->aexp_ave4linesy[0], &res->capture_reg->l1isp.L1_AEXP_AVE4LINESY0); + writel(param->aexp_ave4linesy[1], &res->capture_reg->l1isp.L1_AEXP_AVE4LINESY1); + writel(param->aexp_ave4linesy[2], &res->capture_reg->l1isp.L1_AEXP_AVE4LINESY2); + writel(param->aexp_ave4linesy[3], &res->capture_reg->l1isp.L1_AEXP_AVE4LINESY3); + + return 0; +} + +/** + * hwd_viif_l1_set_irq_mask() - Set L1ISP interruption mask. + * + * @mask: mask setting + * @module_id: ID of each VIIF module; must be 0 or 1 + * Return: None + */ +void hwd_viif_l1_set_irq_mask(u32 module_id, u32 mask) +{ + struct hwd_viif_res *res = viif_id2res(module_id); + + writel(mask, &res->capture_reg->l1isp.L1_CRGBF_ISP_INT_MASK); +} diff --git a/drivers/media/platform/visconti/hwd_viif_reg.h b/drivers/media/platform/visconti/hwd_viif_reg.h new file mode 100644 index 000000000..b7f43c5fe --- /dev/null +++ b/drivers/media/platform/visconti/hwd_viif_reg.h @@ -0,0 +1,2802 @@ +/* SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause */ +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#ifndef HWD_VIIF_REG_H +#define HWD_VIIF_REG_H + +/** + * struct hwd_viif_csi2host_reg - Registers for VIIF CSI2HOST control + */ +struct hwd_viif_csi2host_reg { + u32 RESERVED_A_1; + u32 CSI2RX_NLANES; + u32 CSI2RX_RESETN; + u32 CSI2RX_INT_ST_MAIN; + u32 CSI2RX_DATA_IDS_1; + u32 CSI2RX_DATA_IDS_2; + u32 RESERVED_B_1[10]; + u32 CSI2RX_PHY_SHUTDOWNZ; + u32 CSI2RX_PHY_RSTZ; + u32 CSI2RX_PHY_RX; + u32 CSI2RX_PHY_STOPSTATE; + u32 CSI2RX_PHY_TESTCTRL0; + u32 CSI2RX_PHY_TESTCTRL1; + u32 RESERVED_B_2[34]; + u32 CSI2RX_INT_ST_PHY_FATAL; + u32 CSI2RX_INT_MSK_PHY_FATAL; + u32 CSI2RX_INT_FORCE_PHY_FATAL; + u32 RESERVED_B_3[1]; + u32 CSI2RX_INT_ST_PKT_FATAL; + u32 CSI2RX_INT_MSK_PKT_FATAL; + u32 CSI2RX_INT_FORCE_PKT_FATAL; + u32 RESERVED_B_4[1]; + u32 CSI2RX_INT_ST_FRAME_FATAL; + u32 CSI2RX_INT_MSK_FRAME_FATAL; + u32 CSI2RX_INT_FORCE_FRAME_FATAL; + u32 RESERVED_B_5[1]; + u32 CSI2RX_INT_ST_PHY; + u32 CSI2RX_INT_MSK_PHY; + u32 CSI2RX_INT_FORCE_PHY; + u32 RESERVED_B_6[1]; + u32 CSI2RX_INT_ST_PKT; + u32 CSI2RX_INT_MSK_PKT; + u32 CSI2RX_INT_FORCE_PKT; + u32 RESERVED_B_7[1]; + u32 CSI2RX_INT_ST_LINE; + u32 CSI2RX_INT_MSK_LINE; + u32 CSI2RX_INT_FORCE_LINE; + u32 RESERVED_B_8[113]; + u32 RESERVED_A_2; + u32 RESERVED_A_3; + u32 RESERVED_A_4; + u32 RESERVED_A_5; + u32 RESERVED_A_6; + u32 RESERVED_B_9[58]; + u32 RESERVED_A_7; +}; + +/** + * struct hwd_viif_csc_reg - Registers for VIIF system control + */ +struct hwd_viif_csc_reg { + u32 MTB; + u32 RESERVED_B_16[3]; + u32 MTB_YG_OFFSETI; + u32 MTB_YG1; + u32 MTB_YG2; + u32 MTB_YG_OFFSETO; + u32 MTB_CB_OFFSETI; + u32 MTB_CB1; + u32 MTB_CB2; + u32 MTB_CB_OFFSETO; + u32 MTB_CR_OFFSETI; + u32 MTB_CR1; + u32 MTB_CR2; + u32 MTB_CR_OFFSETO; +}; + +struct hwd_viif_system_reg { + u32 IPORTM0_LD; + u32 IPORTM1_LD; + u32 RESERVED_B_1[6]; + u32 IPORTS0_LD; + u32 RESERVED_A_1; + u32 RESERVED_B_2[2]; + u32 VCID0SELECT; + u32 VCID1SELECT; + u32 RESERVED_A_2; + u32 VCPORTEN; + u32 CSI2SELECT; + u32 CSI2THROUGHEN; + u32 RESERVED_B_3[2]; + u32 IPORTM_TEST; + u32 IPORTM; + u32 IPORTM_MAIN_DT; + u32 IPORTM_MAIN_RAW; + u32 IPORTM_OTHER; + u32 IPORTM_OTHEREN; + u32 IPORTM_EMBEN; + u32 RESERVED_B_4[2]; + u32 IPORTS; + u32 IPORTS_MAIN_DT; + u32 IPORTS_MAIN_RAW; + u32 IPORTS_OTHER; + u32 IPORTS_OTHEREN; + u32 IPORTS_EMBEN; + u32 IPORTS_IMGEN; + u32 RESERVED_A_3; + u32 RESERVED_A_4; + u32 RESERVED_B_5[2]; + u32 IPORTI_M_SYNCEN; + u32 IPORTI_M_SYNCMODE; + u32 IPORTI_M_PIXFMT; + u32 RESERVED_B_6[5]; + u32 TOTALSIZE_M; + u32 VALSIZE_M; + u32 BACK_PORCH_M; + u32 RESERVED_B_7[5]; + u32 MAINIMG_PKTSIZE; + u32 MAINIMG_HEIGHT; + u32 MAINOTHER_PKTSIZE; + u32 MAINOTHER_HEIGHT; + u32 MAINEMBTOP_SIZE; + u32 MAINEMBBOT_SIZE; + u32 RESERVED_B_8[2]; + u32 SUBIMG_PKTSIZE; + u32 SUBIMG_HEIGHT; + u32 SUBOTHER_PKTSIZE; + u32 SUBOTHER_HEIGHT; + u32 SUBEMBTOP_SIZE; + u32 SUBEMBBOT_SIZE; + u32 RESERVED_A_5; + u32 RESERVED_A_6; + u32 TESTAREA_M_START; + u32 TESTAREA_M_SIZE; + u32 RESERVED_B_9[2]; + u32 INT_M_SYNC; + u32 INT_M_SYNC_MASK; + u32 INT_S_SYNC; + u32 INT_S_SYNC_MASK; + u32 INT_M0_LINE; + u32 INT_M1_LINE; + u32 INT_M2_LINE; + u32 RESERVED_B_10[5]; + u32 INT_SA0_LINE; + u32 INT_SA1_LINE; + u32 RESERVED_B_11[2]; + u32 RESERVED_A_9; + u32 RESERVED_A_10; + u32 RESERVED_B_12[2]; + u32 INT_M_STATUS; + u32 INT_M_MASK; + u32 INT_S_STATUS; + u32 INT_S_MASK; + u32 RESERVED_B_13[28]; + u32 MAIN_TEST_DEN; + u32 RESERVED_B_14[3]; + u32 PREPROCCESS_FMTM; + u32 PREPROCCESS_C24M; + u32 FRAMEPACK_M; + u32 RESERVED_B_15[1]; + struct hwd_viif_csc_reg l2isp_input_csc; + u32 COM0_CK_ENABLE; + u32 RESERVED_A_13; + u32 RESERVED_A_14; + u32 RESERVED_B_17[1]; + u32 COM0EN; + u32 RESERVED_A_16; + u32 RESERVED_A_17; + u32 RESERVED_B_18[33]; + u32 COM0_CAP_OFFSET; + u32 COM0_CAP_SIZE; + u32 RESERVED_B_19[18]; + u32 GAMMA_M; + u32 RESERVED_B_20[3]; + u32 COM0_C_SELECT; + u32 RESERVED_B_21[3]; + struct hwd_viif_csc_reg com0_csc; + u32 COM0_OPORTALP; + u32 COM0_OPORTFMT; + u32 RESERVED_B_23[2]; + u32 RESERVED_A_37; + u32 RESERVED_A_38; + u32 RESERVED_A_39; + u32 RESERVED_B_24[1]; + u32 RESERVED_A_40; + u32 RESERVED_A_41; + u32 RESERVED_A_42; + u32 RESERVED_B_25[1]; + u32 RESERVED_A_43; + u32 RESERVED_A_44; + u32 RESERVED_A_45; + u32 RESERVED_B_26[1]; + u32 RESERVED_A_46; + u32 RESERVED_B_27[3]; + u32 RESERVED_A_47; + u32 RESERVED_A_48; + u32 RESERVED_B_28[18]; + u32 RESERVED_A_49; + u32 RESERVED_B_29[3]; + u32 RESERVED_A_50; + u32 RESERVED_B_30[3]; + u32 RESERVED_A_51; + u32 RESERVED_B_31[3]; + u32 RESERVED_A_52; + u32 RESERVED_A_53; + u32 RESERVED_A_54; + u32 RESERVED_A_55; + u32 RESERVED_A_56; + u32 RESERVED_A_57; + u32 RESERVED_A_58; + u32 RESERVED_A_59; + u32 RESERVED_A_60; + u32 RESERVED_A_61; + u32 RESERVED_A_62; + u32 RESERVED_A_63; + u32 RESERVED_A_64; + u32 RESERVED_A_65; + u32 RESERVED_B_32[2]; + u32 RESERVED_A_66; + u32 RESERVED_A_67; + u32 RESERVED_A_68; + u32 RESERVED_B_33[1]; + u32 RESERVED_A_69; + u32 RESERVED_A_70; + u32 RESERVED_A_71; + u32 RESERVED_B_34[1]; + u32 RESERVED_A_72; + u32 RESERVED_A_73; + u32 RESERVED_A_74; + u32 RESERVED_B_35[1]; + u32 RESERVED_A_75; + u32 RESERVED_B_36[3]; + u32 RESERVED_A_76; + u32 RESERVED_A_77; + u32 RESERVED_B_37[18]; + u32 RESERVED_A_78; + u32 RESERVED_B_38[3]; + u32 RESERVED_A_79; + u32 RESERVED_B_39[3]; + u32 RESERVED_A_80; + u32 RESERVED_B_40[3]; + u32 RESERVED_A_81; + u32 RESERVED_A_82; + u32 RESERVED_A_83; + u32 RESERVED_A_84; + u32 RESERVED_A_85; + u32 RESERVED_A_86; + u32 RESERVED_A_87; + u32 RESERVED_A_88; + u32 RESERVED_A_89; + u32 RESERVED_A_90; + u32 RESERVED_A_91; + u32 RESERVED_A_92; + u32 RESERVED_A_93; + u32 RESERVED_A_94; + u32 RESERVED_B_41[2]; + u32 RESERVED_A_95; + u32 RESERVED_A_96; + u32 RESERVED_A_97; + u32 RESERVED_B_42[1]; + u32 RESERVED_A_98; + u32 RESERVED_A_99; + u32 RESERVED_A_100; + u32 RESERVED_B_43[1]; + u32 RESERVED_A_101; + u32 RESERVED_A_102; + u32 RESERVED_A_103; + u32 RESERVED_B_44[1]; + u32 RESERVED_A_104; + u32 RESERVED_B_45[3]; + u32 FN_M0; + u32 FN_M1; + u32 FN_M2; + u32 RESERVED_B_46[5]; + u32 FN_SA0; + u32 FN_SA1; + u32 RESERVED_B_47[2]; + u32 RESERVED_A_105; + u32 RESERVED_A_106; + u32 RESERVED_B_48[18]; + u32 LBIST_STAT; + u32 MEM_ECC_DCLS_ALARM; + u32 RESERVED_B_49[30]; + u32 DPHY_FREQRANGE; + u32 RESERVED_B_50[3]; + u32 DPHY_LANE; + u32 RESERVED_B_51[59]; + u32 INT_SOURCE; + u32 DPGM_VSYNC_SOURCE; + u32 RESERVED_B_52[23]; + u32 RESERVED_A_107; + u32 RESERVED_A_108; + u32 RESERVED_B_53[6]; + u32 RESERVED_A_109; + u32 RESERVED_A_110; + u32 RESERVED_A_111; + u32 RESERVED_B_54[1]; + u32 RESERVED_A_112; + u32 RESERVED_B_55[35]; + u32 RESERVED_A_113; + u32 RESERVED_B_56[54]; + u32 RESERVED_A_114; + u32 RESERVED_B_57[3]; + u32 RESERVED_A_115; + u32 RESERVED_A_116; + u32 RESERVED_A_117; + u32 RESERVED_B_58[1]; + u32 RESERVED_A_118; + u32 RESERVED_B_59[3]; + u32 RESERVED_A_119; + u32 RESERVED_A_120; + u32 RESERVED_A_121; + u32 RESERVED_A_122; + u32 RESERVED_A_123; + u32 RESERVED_A_124; + u32 RESERVED_A_125; + u32 RESERVED_A_126; + u32 RESERVED_A_127; + u32 RESERVED_A_128; + u32 RESERVED_A_129; + u32 RESERVED_A_130; + u32 RESERVED_B_60[4]; + u32 RESERVED_A_131; + u32 RESERVED_A_132; + u32 RESERVED_A_133; + u32 RESERVED_B_61[33]; + u32 RESERVED_A_134; + u32 RESERVED_A_135; + u32 RESERVED_B_62[18]; + u32 RESERVED_A_136; + u32 RESERVED_B_63[3]; + u32 RESERVED_A_137; + u32 RESERVED_B_64[3]; + u32 RESERVED_A_138; + u32 RESERVED_B_65[3]; + u32 RESERVED_A_139; + u32 RESERVED_A_140; + u32 RESERVED_A_141; + u32 RESERVED_A_142; + u32 RESERVED_A_143; + u32 RESERVED_A_144; + u32 RESERVED_A_145; + u32 RESERVED_A_146; + u32 RESERVED_A_147; + u32 RESERVED_A_148; + u32 RESERVED_A_149; + u32 RESERVED_A_150; + u32 RESERVED_A_151; + u32 RESERVED_A_152; + u32 RESERVED_B_66[2]; + u32 RESERVED_A_153; + u32 RESERVED_A_154; + u32 RESERVED_A_155; + u32 RESERVED_B_67[1]; + u32 RESERVED_A_156; + u32 RESERVED_A_157; + u32 RESERVED_A_158; + u32 RESERVED_B_68[1]; + u32 RESERVED_A_159; + u32 RESERVED_A_160; + u32 RESERVED_A_161; + u32 RESERVED_B_69[1]; + u32 RESERVED_A_162; + u32 RESERVED_B_70[3]; + u32 RESERVED_A_163; + u32 RESERVED_A_164; + u32 RESERVED_B_71[18]; + u32 RESERVED_A_165; + u32 RESERVED_B_72[3]; + u32 RESERVED_A_166; + u32 RESERVED_B_73[3]; + u32 RESERVED_A_167; + u32 RESERVED_B_74[3]; + u32 RESERVED_A_168; + u32 RESERVED_A_169; + u32 RESERVED_A_170; + u32 RESERVED_A_171; + u32 RESERVED_A_172; + u32 RESERVED_A_173; + u32 RESERVED_A_174; + u32 RESERVED_A_175; + u32 RESERVED_A_176; + u32 RESERVED_A_177; + u32 RESERVED_A_178; + u32 RESERVED_A_179; + u32 RESERVED_A_180; + u32 RESERVED_A_181; + u32 RESERVED_B_75[2]; + u32 RESERVED_A_182; + u32 RESERVED_A_183; + u32 RESERVED_A_184; + u32 RESERVED_B_76[1]; + u32 RESERVED_A_185; + u32 RESERVED_A_186; + u32 RESERVED_A_187; + u32 RESERVED_B_77[1]; + u32 RESERVED_A_188; + u32 RESERVED_A_189; + u32 RESERVED_A_190; + u32 RESERVED_B_78[1]; + u32 RESERVED_A_191; + u32 RESERVED_B_79[3]; + u32 RESERVED_A_192; + u32 RESERVED_A_193; + u32 RESERVED_B_80[18]; + u32 RESERVED_A_194; + u32 RESERVED_B_81[3]; + u32 RESERVED_A_195; + u32 RESERVED_B_82[3]; + u32 RESERVED_A_196; + u32 RESERVED_B_83[3]; + u32 RESERVED_A_197; + u32 RESERVED_A_198; + u32 RESERVED_A_199; + u32 RESERVED_A_200; + u32 RESERVED_A_201; + u32 RESERVED_A_202; + u32 RESERVED_A_203; + u32 RESERVED_A_204; + u32 RESERVED_A_205; + u32 RESERVED_A_206; + u32 RESERVED_A_207; + u32 RESERVED_A_208; + u32 RESERVED_A_209; + u32 RESERVED_A_210; + u32 RESERVED_B_84[2]; + u32 RESERVED_A_211; + u32 RESERVED_A_212; + u32 RESERVED_A_213; + u32 RESERVED_B_85[1]; + u32 RESERVED_A_214; + u32 RESERVED_A_215; + u32 RESERVED_A_216; + u32 RESERVED_B_86[1]; + u32 RESERVED_A_217; + u32 RESERVED_A_218; + u32 RESERVED_A_219; + u32 RESERVED_B_87[1]; + u32 RESERVED_A_220; + u32 RESERVED_B_88[130]; + u32 RESERVED_A_221; +}; + +/** + * struct hwd_viif_vdm_table_group_reg - Registers for VIIF vdm control + */ +struct hwd_viif_vdm_table_group_reg { + u32 VDM_T_CFG; + u32 VDM_T_SRAM_BASE; + u32 VDM_T_SRAM_SIZE; + u32 RESERVED_A_4; +}; + +struct hwd_viif_vdm_table_port_reg { + u32 VDM_T_STADR; + u32 VDM_T_SIZE; +}; + +struct hwd_viif_vdm_read_port_reg { + u32 VDM_R_STADR; + u32 VDM_R_ENDADR; + u32 VDM_R_HEIGHT; + u32 VDM_R_PITCH; + u32 VDM_R_CFG0; + u32 RESERVED_A_11; + u32 VDM_R_SRAM_BASE; + u32 VDM_R_SRAM_SIZE; + u32 RESERVED_A_12; + u32 RESERVED_B_5[7]; +}; + +struct hwd_viif_vdm_write_port_reg { + u32 VDM_W_STADR; + u32 VDM_W_ENDADR; + u32 VDM_W_HEIGHT; + u32 VDM_W_PITCH; + u32 VDM_W_CFG0; + u32 RESERVED_A_17; + u32 VDM_W_SRAM_BASE; + u32 VDM_W_SRAM_SIZE; + u32 RESERVED_A_18; + u32 RESERVED_B_8[7]; +}; + +struct hwd_viif_vdm_write_port_buf_reg { + u32 VDM_W_STADR_BUF; + u32 RESERVED_A_120; + u32 RESERVED_A_121; + u32 RESERVED_A_122; + u32 RESERVED_A_123; + u32 RESERVED_A_124; + u32 RESERVED_B_20[2]; +}; + +struct hwd_viif_vdm_reg { + u32 RESERVED_A_1; + u32 RESERVED_A_2; + u32 RESERVED_B_1[4]; + u32 RESERVED_A_3; + u32 VDM_CFG; + u32 VDM_INT_MASK; + u32 RESERVED_B_2[3]; + u32 VDM_R_ENABLE; + u32 VDM_W_ENABLE; + u32 VDM_T_ENABLE; + u32 VDM_ABORTSET; + struct hwd_viif_vdm_table_group_reg t_group[4]; + u32 RESERVED_A_8; + u32 RESERVED_A_9; + u32 RESERVED_A_10; + u32 RESERVED_A_11; + u32 RESERVED_B_3[28]; + struct hwd_viif_vdm_table_port_reg t_port[24]; + u32 RESERVED_A_14; + u32 RESERVED_A_15; + u32 RESERVED_A_16; + u32 RESERVED_A_17; + u32 RESERVED_A_18; + u32 RESERVED_A_19; + u32 RESERVED_A_20; + u32 RESERVED_A_21; + u32 RESERVED_A_22; + u32 RESERVED_A_23; + u32 RESERVED_A_24; + u32 RESERVED_A_25; + u32 RESERVED_B_4[4]; + struct hwd_viif_vdm_read_port_reg r_port[3]; + u32 RESERVED_B_7[16]; + struct hwd_viif_vdm_write_port_reg w_port[6]; + u32 RESERVED_A_29; + u32 RESERVED_A_30; + u32 RESERVED_A_31; + u32 RESERVED_A_32; + u32 RESERVED_A_33; + u32 RESERVED_A_34; + u32 RESERVED_A_35; + u32 RESERVED_A_36; + u32 RESERVED_A_37; + u32 RESERVED_B_14[215]; + u32 RESERVED_A_38; + u32 RESERVED_A_39; + u32 RESERVED_A_40; + u32 RESERVED_B_15[61]; + u32 RESERVED_A_41; + u32 RESERVED_A_42; + u32 RESERVED_A_43; + u32 RESERVED_A_44; + u32 RESERVED_A_45; + u32 RESERVED_A_46; + u32 RESERVED_A_47; + u32 RESERVED_A_48; + u32 RESERVED_A_49; + u32 RESERVED_A_50; + u32 RESERVED_A_51; + u32 RESERVED_A_52; + u32 RESERVED_A_53; + u32 RESERVED_A_54; + u32 RESERVED_A_55; + u32 RESERVED_A_56; + u32 RESERVED_A_57; + u32 RESERVED_A_58; + u32 RESERVED_A_59; + u32 RESERVED_A_60; + u32 RESERVED_A_61; + u32 RESERVED_A_62; + u32 RESERVED_A_63; + u32 RESERVED_A_64; + u32 RESERVED_A_65; + u32 RESERVED_A_66; + u32 RESERVED_A_67; + u32 RESERVED_A_68; + u32 RESERVED_A_69; + u32 RESERVED_A_70; + u32 RESERVED_A_71; + u32 RESERVED_A_72; + u32 RESERVED_A_73; + u32 RESERVED_A_74; + u32 RESERVED_A_75; + u32 RESERVED_A_76; + u32 RESERVED_A_77; + u32 RESERVED_A_78; + u32 RESERVED_A_79; + u32 RESERVED_A_80; + u32 RESERVED_A_81; + u32 RESERVED_A_82; + u32 RESERVED_A_83; + u32 RESERVED_A_84; + u32 RESERVED_A_85; + u32 RESERVED_A_86; + u32 RESERVED_A_87; + u32 RESERVED_A_88; + u32 RESERVED_A_89; + u32 RESERVED_A_90; + u32 RESERVED_A_91; + u32 RESERVED_A_92; + u32 RESERVED_A_93; + u32 RESERVED_A_94; + u32 RESERVED_A_95; + u32 RESERVED_A_96; + u32 RESERVED_A_97; + u32 RESERVED_A_98; + u32 RESERVED_A_99; + u32 RESERVED_A_100; + u32 RESERVED_B_16[4]; + u32 RESERVED_A_101; + u32 RESERVED_A_102; + u32 RESERVED_A_103; + u32 RESERVED_A_104; + u32 RESERVED_A_105; + u32 RESERVED_A_106; + u32 RESERVED_B_17[2]; + u32 RESERVED_A_107; + u32 RESERVED_A_108; + u32 RESERVED_A_109; + u32 RESERVED_A_110; + u32 RESERVED_A_111; + u32 RESERVED_A_112; + u32 RESERVED_B_18[2]; + u32 RESERVED_A_113; + u32 RESERVED_A_114; + u32 RESERVED_A_115; + u32 RESERVED_A_116; + u32 RESERVED_A_117; + u32 RESERVED_A_118; + u32 RESERVED_B_19[42]; + struct hwd_viif_vdm_write_port_buf_reg w_port_buf[6]; + u32 RESERVED_A_155; + u32 RESERVED_A_156; + u32 RESERVED_A_157; + u32 RESERVED_A_158; + u32 RESERVED_A_159; + u32 RESERVED_A_160; + u32 RESERVED_B_26[138]; + u32 RESERVED_A_161; + u32 VDM_INT; + u32 RESERVED_A_162; + u32 RESERVED_A_163; + u32 VDM_R_STOP; + u32 VDM_W_STOP; + u32 VDM_R_RUN; + u32 VDM_W_RUN; + u32 VDM_T_RUN; + u32 RESERVED_B_27[7]; + u32 RESERVED_A_164; + u32 RESERVED_A_165; + u32 RESERVED_A_166; + u32 RESERVED_A_167; + u32 RESERVED_B_28[12]; + u32 RESERVED_A_168; + u32 RESERVED_A_169; + u32 RESERVED_A_170; + u32 RESERVED_A_171; + u32 RESERVED_A_172; + u32 RESERVED_B_29[27]; + u32 RESERVED_A_173; + u32 RESERVED_A_174; + u32 RESERVED_A_175; + u32 RESERVED_A_176; + u32 RESERVED_A_177; + u32 RESERVED_A_178; + u32 RESERVED_B_30[10]; + u32 RESERVED_A_179; + u32 RESERVED_A_180; + u32 RESERVED_A_181; + u32 RESERVED_A_182; + u32 RESERVED_A_183; + u32 RESERVED_A_184; + u32 RESERVED_A_185; + u32 RESERVED_A_186; + u32 RESERVED_A_187; + u32 RESERVED_A_188; + u32 RESERVED_A_189; + u32 RESERVED_A_190; + u32 RESERVED_A_191; + u32 RESERVED_A_192; + u32 RESERVED_B_31[33]; + u32 RESERVED_A_193; +}; + +/** + * struct hwd_viif_l1isp_reg - Registers for VIIF L1ISP control + */ +struct hwd_viif_l1isp_reg { + u32 L1_SYSM_WIDTH; + u32 L1_SYSM_HEIGHT; + u32 L1_SYSM_START_COLOR; + u32 L1_SYSM_INPUT_MODE; + u32 RESERVED_A_1; + u32 L1_SYSM_YCOEF_R; + u32 L1_SYSM_YCOEF_G; + u32 L1_SYSM_YCOEF_B; + u32 L1_SYSM_INT_STAT; + u32 L1_SYSM_INT_MASKED_STAT; + u32 L1_SYSM_INT_MASK; + u32 RESERVED_A_2; + u32 RESERVED_A_3; + u32 RESERVED_A_4; + u32 RESERVED_B_1[2]; + u32 L1_SYSM_AG_H; + u32 L1_SYSM_AG_M; + u32 L1_SYSM_AG_L; + u32 L1_SYSM_AG_PARAM_A; + u32 L1_SYSM_AG_PARAM_B; + u32 L1_SYSM_AG_PARAM_C; + u32 L1_SYSM_AG_PARAM_D; + u32 L1_SYSM_AG_SEL_HOBC; + u32 L1_SYSM_AG_SEL_ABPC; + u32 L1_SYSM_AG_SEL_RCNR; + u32 L1_SYSM_AG_SEL_LSSC; + u32 L1_SYSM_AG_SEL_MPRO; + u32 L1_SYSM_AG_SEL_VPRO; + u32 L1_SYSM_AG_CONT_HOBC01_EN; + u32 L1_SYSM_AG_CONT_HOBC2_EN; + u32 L1_SYSM_AG_CONT_ABPC01_EN; + u32 L1_SYSM_AG_CONT_ABPC2_EN; + u32 L1_SYSM_AG_CONT_RCNR01_EN; + u32 L1_SYSM_AG_CONT_RCNR2_EN; + u32 L1_SYSM_AG_CONT_LSSC_EN; + u32 L1_SYSM_AG_CONT_MPRO_EN; + u32 L1_SYSM_AG_CONT_VPRO_EN; + u32 L1_SYSM_CTXT; + u32 L1_SYSM_MAN_CTXT; + u32 RESERVED_A_5; + u32 RESERVED_B_2[7]; + u32 RESERVED_A_6; + u32 L1_HDRE_SRCPOINT00; + u32 L1_HDRE_SRCPOINT01; + u32 L1_HDRE_SRCPOINT02; + u32 L1_HDRE_SRCPOINT03; + u32 L1_HDRE_SRCPOINT04; + u32 L1_HDRE_SRCPOINT05; + u32 L1_HDRE_SRCPOINT06; + u32 L1_HDRE_SRCPOINT07; + u32 L1_HDRE_SRCPOINT08; + u32 L1_HDRE_SRCPOINT09; + u32 L1_HDRE_SRCPOINT10; + u32 L1_HDRE_SRCPOINT11; + u32 L1_HDRE_SRCPOINT12; + u32 L1_HDRE_SRCPOINT13; + u32 L1_HDRE_SRCPOINT14; + u32 L1_HDRE_SRCPOINT15; + u32 L1_HDRE_SRCBASE00; + u32 L1_HDRE_SRCBASE01; + u32 L1_HDRE_SRCBASE02; + u32 L1_HDRE_SRCBASE03; + u32 L1_HDRE_SRCBASE04; + u32 L1_HDRE_SRCBASE05; + u32 L1_HDRE_SRCBASE06; + u32 L1_HDRE_SRCBASE07; + u32 L1_HDRE_SRCBASE08; + u32 L1_HDRE_SRCBASE09; + u32 L1_HDRE_SRCBASE10; + u32 L1_HDRE_SRCBASE11; + u32 L1_HDRE_SRCBASE12; + u32 L1_HDRE_SRCBASE13; + u32 L1_HDRE_SRCBASE14; + u32 L1_HDRE_SRCBASE15; + u32 L1_HDRE_SRCBASE16; + u32 L1_HDRE_RATIO00; + u32 L1_HDRE_RATIO01; + u32 L1_HDRE_RATIO02; + u32 L1_HDRE_RATIO03; + u32 L1_HDRE_RATIO04; + u32 L1_HDRE_RATIO05; + u32 L1_HDRE_RATIO06; + u32 L1_HDRE_RATIO07; + u32 L1_HDRE_RATIO08; + u32 L1_HDRE_RATIO09; + u32 L1_HDRE_RATIO10; + u32 L1_HDRE_RATIO11; + u32 L1_HDRE_RATIO12; + u32 L1_HDRE_RATIO13; + u32 L1_HDRE_RATIO14; + u32 L1_HDRE_RATIO15; + u32 L1_HDRE_RATIO16; + u32 L1_HDRE_DSTBASE00; + u32 L1_HDRE_DSTBASE01; + u32 L1_HDRE_DSTBASE02; + u32 L1_HDRE_DSTBASE03; + u32 L1_HDRE_DSTBASE04; + u32 L1_HDRE_DSTBASE05; + u32 L1_HDRE_DSTBASE06; + u32 L1_HDRE_DSTBASE07; + u32 L1_HDRE_DSTBASE08; + u32 L1_HDRE_DSTBASE09; + u32 L1_HDRE_DSTBASE10; + u32 L1_HDRE_DSTBASE11; + u32 L1_HDRE_DSTBASE12; + u32 L1_HDRE_DSTBASE13; + u32 L1_HDRE_DSTBASE14; + u32 L1_HDRE_DSTBASE15; + u32 L1_HDRE_DSTBASE16; + u32 L1_HDRE_DSTMAXVAL; + u32 RESERVED_B_3[11]; + u32 L1_AEXP_ON; + u32 L1_AEXP_RESULT_AVE; + u32 RESERVED_A_7; + u32 L1_AEXP_FORCE_INTERRUPT_Y; + u32 L1_AEXP_START_X; + u32 L1_AEXP_START_Y; + u32 L1_AEXP_BLOCK_WIDTH; + u32 L1_AEXP_BLOCK_HEIGHT; + u32 L1_AEXP_WEIGHT_0; + u32 L1_AEXP_WEIGHT_1; + u32 L1_AEXP_WEIGHT_2; + u32 L1_AEXP_WEIGHT_3; + u32 L1_AEXP_WEIGHT_4; + u32 L1_AEXP_WEIGHT_5; + u32 L1_AEXP_WEIGHT_6; + u32 L1_AEXP_WEIGHT_7; + u32 L1_AEXP_SATUR_RATIO; + u32 L1_AEXP_BLACK_RATIO; + u32 L1_AEXP_SATUR_LEVEL; + u32 RESERVED_A_8; + /* [y][x] */ + u32 L1_AEXP_AVE[8][8]; + u32 L1_AEXP_SATUR_BLACK_PIXNUM; + u32 L1_AEXP_AVE4LINESY0; + u32 L1_AEXP_AVE4LINESY1; + u32 L1_AEXP_AVE4LINESY2; + u32 L1_AEXP_AVE4LINESY3; + u32 L1_AEXP_AVE4LINES0; + u32 L1_AEXP_AVE4LINES1; + u32 L1_AEXP_AVE4LINES2; + u32 L1_AEXP_AVE4LINES3; + u32 RESERVED_B_4[3]; + u32 L1_IBUF_DEPTH; + u32 L1_IBUF_INPUT_ORDER; + u32 RESERVED_B_5[2]; + u32 L1_SLIC_SRCBLACKLEVEL_GR; + u32 L1_SLIC_SRCBLACKLEVEL_R; + u32 L1_SLIC_SRCBLACKLEVEL_B; + u32 L1_SLIC_SRCBLACKLEVEL_GB; + u32 RESERVED_A_9; + u32 RESERVED_A_10; + u32 RESERVED_A_11; + u32 RESERVED_A_12; + u32 RESERVED_A_13; + u32 RESERVED_B_6[19]; + u32 RESERVED_A_14; + u32 RESERVED_A_15; + u32 L1_ABPC012_AG_CONT; + u32 L1_ABPC012_STA_EN; + u32 L1_ABPC012_DYN_EN; + u32 L1_ABPC012_DYN_MODE; + u32 RESERVED_A_16; + u32 RESERVED_A_17; + u32 RESERVED_A_18; + u32 L1_ABPC0_RATIO_LIMIT; + u32 RESERVED_A_19; + u32 L1_ABPC0_DARK_LIMIT; + u32 L1_ABPC0_SN_COEF_W_AG_MIN; + u32 L1_ABPC0_SN_COEF_W_AG_MID; + u32 L1_ABPC0_SN_COEF_W_AG_MAX; + u32 L1_ABPC0_SN_COEF_W_TH_MIN; + u32 L1_ABPC0_SN_COEF_W_TH_MAX; + u32 L1_ABPC0_SN_COEF_B_AG_MIN; + u32 L1_ABPC0_SN_COEF_B_AG_MID; + u32 L1_ABPC0_SN_COEF_B_AG_MAX; + u32 L1_ABPC0_SN_COEF_B_TH_MIN; + u32 L1_ABPC0_SN_COEF_B_TH_MAX; + u32 RESERVED_A_20; + u32 L1_ABPC0_DETECT; + u32 L1_ABPC1_RATIO_LIMIT; + u32 RESERVED_A_21; + u32 L1_ABPC1_DARK_LIMIT; + u32 L1_ABPC1_SN_COEF_W_AG_MIN; + u32 L1_ABPC1_SN_COEF_W_AG_MID; + u32 L1_ABPC1_SN_COEF_W_AG_MAX; + u32 L1_ABPC1_SN_COEF_W_TH_MIN; + u32 L1_ABPC1_SN_COEF_W_TH_MAX; + u32 L1_ABPC1_SN_COEF_B_AG_MIN; + u32 L1_ABPC1_SN_COEF_B_AG_MID; + u32 L1_ABPC1_SN_COEF_B_AG_MAX; + u32 L1_ABPC1_SN_COEF_B_TH_MIN; + u32 L1_ABPC1_SN_COEF_B_TH_MAX; + u32 RESERVED_A_22; + u32 L1_ABPC1_DETECT; + u32 L1_ABPC2_RATIO_LIMIT; + u32 RESERVED_A_23; + u32 L1_ABPC2_DARK_LIMIT; + u32 L1_ABPC2_SN_COEF_W_AG_MIN; + u32 L1_ABPC2_SN_COEF_W_AG_MID; + u32 L1_ABPC2_SN_COEF_W_AG_MAX; + u32 L1_ABPC2_SN_COEF_W_TH_MIN; + u32 L1_ABPC2_SN_COEF_W_TH_MAX; + u32 L1_ABPC2_SN_COEF_B_AG_MIN; + u32 L1_ABPC2_SN_COEF_B_AG_MID; + u32 L1_ABPC2_SN_COEF_B_AG_MAX; + u32 L1_ABPC2_SN_COEF_B_TH_MIN; + u32 L1_ABPC2_SN_COEF_B_TH_MAX; + u32 RESERVED_A_24; + u32 L1_ABPC2_DETECT; + u32 RESERVED_B_7[42]; + u32 RESERVED_A_25; + u32 L1_PWHB_H_GR; + u32 L1_PWHB_HR; + u32 L1_PWHB_HB; + u32 L1_PWHB_H_GB; + u32 L1_PWHB_M_GR; + u32 L1_PWHB_MR; + u32 L1_PWHB_MB; + u32 L1_PWHB_M_GB; + u32 L1_PWHB_L_GR; + u32 L1_PWHB_LR; + u32 L1_PWHB_LB; + u32 L1_PWHB_L_GB; + u32 L1_PWHB_DSTMAXVAL; + u32 RESERVED_B_8[18]; + u32 L1_RCNR0_AG_CONT; + u32 RESERVED_A_26; + u32 L1_RCNR0_SW; + u32 L1_RCNR0_CNF_DARK_AG0; + u32 L1_RCNR0_CNF_DARK_AG1; + u32 L1_RCNR0_CNF_DARK_AG2; + u32 L1_RCNR0_CNF_RATIO_AG0; + u32 L1_RCNR0_CNF_RATIO_AG1; + u32 L1_RCNR0_CNF_RATIO_AG2; + u32 L1_RCNR0_CNF_CLIP_GAIN_R; + u32 L1_RCNR0_CNF_CLIP_GAIN_G; + u32 L1_RCNR0_CNF_CLIP_GAIN_B; + u32 L1_RCNR0_A1L_DARK_AG0; + u32 L1_RCNR0_A1L_DARK_AG1; + u32 L1_RCNR0_A1L_DARK_AG2; + u32 L1_RCNR0_A1L_RATIO_AG0; + u32 L1_RCNR0_A1L_RATIO_AG1; + u32 L1_RCNR0_A1L_RATIO_AG2; + u32 L1_RCNR0_INF_ZERO_CLIP; + u32 RESERVED_A_27; + u32 L1_RCNR0_MERGE_D2BLEND_AG0; + u32 L1_RCNR0_MERGE_D2BLEND_AG1; + u32 L1_RCNR0_MERGE_D2BLEND_AG2; + u32 L1_RCNR0_MERGE_BLACK; + u32 L1_RCNR0_MERGE_MINDIV; + u32 L1_RCNR0_HRY_TYPE; + u32 L1_RCNR0_ANF_BLEND_AG0; + u32 L1_RCNR0_ANF_BLEND_AG1; + u32 L1_RCNR0_ANF_BLEND_AG2; + u32 RESERVED_A_28; + u32 L1_RCNR0_LPF_THRESHOLD; + u32 L1_RCNR0_MERGE_HLBLEND_AG0; + u32 L1_RCNR0_MERGE_HLBLEND_AG1; + u32 L1_RCNR0_MERGE_HLBLEND_AG2; + u32 L1_RCNR0_GNR_SW; + u32 L1_RCNR0_GNR_RATIO; + u32 L1_RCNR0_GNR_WIDE_EN; + u32 L1_RCNR1_AG_CONT; + u32 RESERVED_A_29; + u32 L1_RCNR1_SW; + u32 L1_RCNR1_CNF_DARK_AG0; + u32 L1_RCNR1_CNF_DARK_AG1; + u32 L1_RCNR1_CNF_DARK_AG2; + u32 L1_RCNR1_CNF_RATIO_AG0; + u32 L1_RCNR1_CNF_RATIO_AG1; + u32 L1_RCNR1_CNF_RATIO_AG2; + u32 L1_RCNR1_CNF_CLIP_GAIN_R; + u32 L1_RCNR1_CNF_CLIP_GAIN_G; + u32 L1_RCNR1_CNF_CLIP_GAIN_B; + u32 L1_RCNR1_A1L_DARK_AG0; + u32 L1_RCNR1_A1L_DARK_AG1; + u32 L1_RCNR1_A1L_DARK_AG2; + u32 L1_RCNR1_A1L_RATIO_AG0; + u32 L1_RCNR1_A1L_RATIO_AG1; + u32 L1_RCNR1_A1L_RATIO_AG2; + u32 L1_RCNR1_INF_ZERO_CLIP; + u32 RESERVED_A_30; + u32 L1_RCNR1_MERGE_D2BLEND_AG0; + u32 L1_RCNR1_MERGE_D2BLEND_AG1; + u32 L1_RCNR1_MERGE_D2BLEND_AG2; + u32 L1_RCNR1_MERGE_BLACK; + u32 L1_RCNR1_MERGE_MINDIV; + u32 L1_RCNR1_HRY_TYPE; + u32 L1_RCNR1_ANF_BLEND_AG0; + u32 L1_RCNR1_ANF_BLEND_AG1; + u32 L1_RCNR1_ANF_BLEND_AG2; + u32 RESERVED_A_31; + u32 L1_RCNR1_LPF_THRESHOLD; + u32 L1_RCNR1_MERGE_HLBLEND_AG0; + u32 L1_RCNR1_MERGE_HLBLEND_AG1; + u32 L1_RCNR1_MERGE_HLBLEND_AG2; + u32 L1_RCNR1_GNR_SW; + u32 L1_RCNR1_GNR_RATIO; + u32 L1_RCNR1_GNR_WIDE_EN; + u32 L1_RCNR2_AG_CONT; + u32 RESERVED_A_32; + u32 L1_RCNR2_SW; + u32 L1_RCNR2_CNF_DARK_AG0; + u32 L1_RCNR2_CNF_DARK_AG1; + u32 L1_RCNR2_CNF_DARK_AG2; + u32 L1_RCNR2_CNF_RATIO_AG0; + u32 L1_RCNR2_CNF_RATIO_AG1; + u32 L1_RCNR2_CNF_RATIO_AG2; + u32 L1_RCNR2_CNF_CLIP_GAIN_R; + u32 L1_RCNR2_CNF_CLIP_GAIN_G; + u32 L1_RCNR2_CNF_CLIP_GAIN_B; + u32 L1_RCNR2_A1L_DARK_AG0; + u32 L1_RCNR2_A1L_DARK_AG1; + u32 L1_RCNR2_A1L_DARK_AG2; + u32 L1_RCNR2_A1L_RATIO_AG0; + u32 L1_RCNR2_A1L_RATIO_AG1; + u32 L1_RCNR2_A1L_RATIO_AG2; + u32 L1_RCNR2_INF_ZERO_CLIP; + u32 RESERVED_A_33; + u32 L1_RCNR2_MERGE_D2BLEND_AG0; + u32 L1_RCNR2_MERGE_D2BLEND_AG1; + u32 L1_RCNR2_MERGE_D2BLEND_AG2; + u32 L1_RCNR2_MERGE_BLACK; + u32 L1_RCNR2_MERGE_MINDIV; + u32 L1_RCNR2_HRY_TYPE; + u32 L1_RCNR2_ANF_BLEND_AG0; + u32 L1_RCNR2_ANF_BLEND_AG1; + u32 L1_RCNR2_ANF_BLEND_AG2; + u32 RESERVED_A_34; + u32 L1_RCNR2_LPF_THRESHOLD; + u32 L1_RCNR2_MERGE_HLBLEND_AG0; + u32 L1_RCNR2_MERGE_HLBLEND_AG1; + u32 L1_RCNR2_MERGE_HLBLEND_AG2; + u32 L1_RCNR2_GNR_SW; + u32 L1_RCNR2_GNR_RATIO; + u32 L1_RCNR2_GNR_WIDE_EN; + u32 RESERVED_B_9[49]; + u32 RESERVED_A_35; + u32 L1_HDRS_HDRRATIO_M; + u32 L1_HDRS_HDRRATIO_L; + u32 L1_HDRS_HDRRATIO_E; + u32 RESERVED_A_36; + u32 RESERVED_A_37; + u32 L1_HDRS_BLENDEND_H; + u32 L1_HDRS_BLENDEND_M; + u32 L1_HDRS_BLENDEND_E; + u32 L1_HDRS_BLENDBEG_H; + u32 L1_HDRS_BLENDBEG_M; + u32 L1_HDRS_BLENDBEG_E; + u32 RESERVED_A_38; + u32 RESERVED_A_39; + u32 RESERVED_A_40; + u32 RESERVED_A_41; + u32 RESERVED_A_42; + u32 RESERVED_A_43; + u32 L1_HDRS_DG_H; + u32 L1_HDRS_DG_M; + u32 L1_HDRS_DG_L; + u32 L1_HDRS_DG_E; + u32 L1_HDRS_LEDMODE_ON; + u32 L1_HDRS_HDRMODE; + u32 RESERVED_A_44; + u32 RESERVED_A_45; + u32 RESERVED_A_46; + u32 L1_HDRS_DSTMAXVAL; + u32 RESERVED_B_10[4]; + u32 L1_BLVC_SRCBLACKLEVEL_GR; + u32 L1_BLVC_SRCBLACKLEVEL_R; + u32 L1_BLVC_SRCBLACKLEVEL_B; + u32 L1_BLVC_SRCBLACKLEVELGB; + u32 L1_BLVC_MULTVAL_GR; + u32 L1_BLVC_MULTVAL_R; + u32 L1_BLVC_MULTVAL_B; + u32 L1_BLVC_MULTVAL_GB; + u32 L1_BLVC_DSTMAXVAL; + u32 RESERVED_A_47; + u32 RESERVED_A_48; + u32 RESERVED_A_49; + u32 RESERVED_A_50; + u32 RESERVED_A_51; + u32 RESERVED_A_52; + u32 RESERVED_B_11[17]; + u32 L1_LSSC_EN; + u32 L1_LSSC_AG_CONT; + u32 RESERVED_A_53; + u32 RESERVED_A_54; + u32 L1_LSSC_PWHB_R_GAIN; + u32 L1_LSSC_PWHB_GR_GAIN; + u32 L1_LSSC_PWHB_GB_GAIN; + u32 L1_LSSC_PWHB_B_GAIN; + u32 L1_LSSC_PARA_EN; + u32 L1_LSSC_PARA_H_CENTER; + u32 L1_LSSC_PARA_V_CENTER; + u32 L1_LSSC_PARA_H_GAIN; + u32 L1_LSSC_PARA_V_GAIN; + u32 L1_LSSC_PARA_MGSEL2; + u32 L1_LSSC_PARA_MGSEL4; + u32 L1_LSSC_PARA_R_COEF_2D_H_L; + u32 L1_LSSC_PARA_R_COEF_2D_H_R; + u32 L1_LSSC_PARA_R_COEF_2D_V_U; + u32 L1_LSSC_PARA_R_COEF_2D_V_D; + u32 L1_LSSC_PARA_R_COEF_2D_HV_LU; + u32 L1_LSSC_PARA_R_COEF_2D_HV_RU; + u32 L1_LSSC_PARA_R_COEF_2D_HV_LD; + u32 L1_LSSC_PARA_R_COEF_2D_HV_RD; + u32 L1_LSSC_PARA_R_COEF_4D_H_L; + u32 L1_LSSC_PARA_R_COEF_4D_H_R; + u32 L1_LSSC_PARA_R_COEF_4D_V_U; + u32 L1_LSSC_PARA_R_COEF_4D_V_D; + u32 L1_LSSC_PARA_R_COEF_4D_HV_LU; + u32 L1_LSSC_PARA_R_COEF_4D_HV_RU; + u32 L1_LSSC_PARA_R_COEF_4D_HV_LD; + u32 L1_LSSC_PARA_R_COEF_4D_HV_RD; + u32 L1_LSSC_PARA_GR_COEF_2D_H_L; + u32 L1_LSSC_PARA_GR_COEF_2D_H_R; + u32 L1_LSSC_PARA_GR_COEF_2D_V_U; + u32 L1_LSSC_PARA_GR_COEF_2D_V_D; + u32 L1_LSSC_PARA_GR_COEF_2D_HV_LU; + u32 L1_LSSC_PARA_GR_COEF_2D_HV_RU; + u32 L1_LSSC_PARA_GR_COEF_2D_HV_LD; + u32 L1_LSSC_PARA_GR_COEF_2D_HV_RD; + u32 L1_LSSC_PARA_GR_COEF_4D_H_L; + u32 L1_LSSC_PARA_GR_COEF_4D_H_R; + u32 L1_LSSC_PARA_GR_COEF_4D_V_U; + u32 L1_LSSC_PARA_GR_COEF_4D_V_D; + u32 L1_LSSC_PARA_GR_COEF_4D_HV_LU; + u32 L1_LSSC_PARA_GR_COEF_4D_HV_RU; + u32 L1_LSSC_PARA_GR_COEF_4D_HV_LD; + u32 L1_LSSC_PARA_GR_COEF_4D_HV_RD; + u32 L1_LSSC_PARA_GB_COEF_2D_H_L; + u32 L1_LSSC_PARA_GB_COEF_2D_H_R; + u32 L1_LSSC_PARA_GB_COEF_2D_V_U; + u32 L1_LSSC_PARA_GB_COEF_2D_V_D; + u32 L1_LSSC_PARA_GB_COEF_2D_HV_LU; + u32 L1_LSSC_PARA_GB_COEF_2D_HV_RU; + u32 L1_LSSC_PARA_GB_COEF_2D_HV_LD; + u32 L1_LSSC_PARA_GB_COEF_2D_HV_RD; + u32 L1_LSSC_PARA_GB_COEF_4D_H_L; + u32 L1_LSSC_PARA_GB_COEF_4D_H_R; + u32 L1_LSSC_PARA_GB_COEF_4D_V_U; + u32 L1_LSSC_PARA_GB_COEF_4D_V_D; + u32 L1_LSSC_PARA_GB_COEF_4D_HV_LU; + u32 L1_LSSC_PARA_GB_COEF_4D_HV_RU; + u32 L1_LSSC_PARA_GB_COEF_4D_HV_LD; + u32 L1_LSSC_PARA_GB_COEF_4D_HV_RD; + u32 L1_LSSC_PARA_B_COEF_2D_H_L; + u32 L1_LSSC_PARA_B_COEF_2D_H_R; + u32 L1_LSSC_PARA_B_COEF_2D_V_U; + u32 L1_LSSC_PARA_B_COEF_2D_V_D; + u32 L1_LSSC_PARA_B_COEF_2D_HV_LU; + u32 L1_LSSC_PARA_B_COEF_2D_HV_RU; + u32 L1_LSSC_PARA_B_COEF_2D_HV_LD; + u32 L1_LSSC_PARA_B_COEF_2D_HV_RD; + u32 L1_LSSC_PARA_B_COEF_4D_H_L; + u32 L1_LSSC_PARA_B_COEF_4D_H_R; + u32 L1_LSSC_PARA_B_COEF_4D_V_U; + u32 L1_LSSC_PARA_B_COEF_4D_V_D; + u32 L1_LSSC_PARA_B_COEF_4D_HV_LU; + u32 L1_LSSC_PARA_B_COEF_4D_HV_RU; + u32 L1_LSSC_PARA_B_COEF_4D_HV_LD; + u32 L1_LSSC_PARA_B_COEF_4D_HV_RD; + u32 L1_LSSC_GRID_EN; + u32 L1_LSSC_GRID_H_CENTER; + u32 L1_LSSC_GRID_V_CENTER; + u32 L1_LSSC_GRID_H_SIZE; + u32 L1_LSSC_GRID_V_SIZE; + u32 L1_LSSC_GRID_MGSEL; + u32 RESERVED_B_12[11]; + u32 L1_MPRO_SW; + u32 L1_MPRO_CONF; + u32 RESERVED_A_55; + u32 L1_MPRO_DST_MINVAL; + u32 L1_MPRO_DST_MAXVAL; + u32 L1_MPRO_AG_CONT; + u32 RESERVED_A_56; + u32 RESERVED_A_57; + u32 L1_MPRO_LM0_RMG_MIN; + u32 L1_MPRO_LM0_RMB_MIN; + u32 L1_MPRO_LM0_GMR_MIN; + u32 L1_MPRO_LM0_GMB_MIN; + u32 L1_MPRO_LM0_BMR_MIN; + u32 L1_MPRO_LM0_BMG_MIN; + u32 L1_MPRO_LM0_RMG_MAX; + u32 L1_MPRO_LM0_RMB_MAX; + u32 L1_MPRO_LM0_GMR_MAX; + u32 L1_MPRO_LM0_GMB_MAX; + u32 L1_MPRO_LM0_BMR_MAX; + u32 L1_MPRO_LM0_BMG_MAX; + u32 RESERVED_A_58; + u32 RESERVED_A_59; + u32 RESERVED_A_60; + u32 RESERVED_A_61; + u32 RESERVED_A_62; + u32 RESERVED_A_63; + u32 RESERVED_A_64; + u32 RESERVED_A_65; + u32 RESERVED_A_66; + u32 RESERVED_A_67; + u32 RESERVED_A_68; + u32 RESERVED_A_69; + u32 RESERVED_A_70; + u32 RESERVED_A_71; + u32 RESERVED_A_72; + u32 RESERVED_A_73; + u32 RESERVED_A_74; + u32 RESERVED_A_75; + u32 RESERVED_A_76; + u32 RESERVED_A_77; + u32 RESERVED_A_78; + u32 RESERVED_A_79; + u32 RESERVED_A_80; + u32 RESERVED_A_81; + u32 RESERVED_A_82; + u32 RESERVED_A_83; + u32 RESERVED_A_84; + u32 RESERVED_A_85; + u32 RESERVED_A_86; + u32 RESERVED_A_87; + u32 RESERVED_A_88; + u32 RESERVED_A_89; + u32 RESERVED_A_90; + u32 RESERVED_A_91; + u32 RESERVED_A_92; + u32 RESERVED_A_93; + u32 RESERVED_A_94; + u32 RESERVED_A_95; + u32 RESERVED_A_96; + u32 RESERVED_B_13[1]; + u32 L1_MPRO_LCS_MODE; + u32 RESERVED_A_97; + u32 RESERVED_A_98; + u32 RESERVED_A_99; + u32 RESERVED_A_100; + u32 RESERVED_A_101; + u32 RESERVED_A_102; + u32 RESERVED_A_103; + u32 RESERVED_A_104; + u32 RESERVED_A_105; + u32 RESERVED_A_106; + u32 RESERVED_A_107; + u32 RESERVED_A_108; + u32 RESERVED_A_109; + u32 RESERVED_A_110; + u32 RESERVED_A_111; + u32 RESERVED_A_112; + u32 RESERVED_A_113; + u32 RESERVED_A_114; + u32 RESERVED_A_115; + u32 RESERVED_A_116; + u32 RESERVED_A_117; + u32 RESERVED_A_118; + u32 RESERVED_A_119; + u32 RESERVED_A_120; + u32 RESERVED_A_121; + u32 RESERVED_A_122; + u32 RESERVED_A_123; + u32 RESERVED_A_124; + u32 RESERVED_A_125; + u32 RESERVED_B_14[70]; + u32 L1_VPRO_PGC_SW; + u32 RESERVED_A_126; + u32 L1_VPRO_YUVC_SW; + u32 L1_VPRO_YNR_SW; + u32 L1_VPRO_ETE_SW; + u32 L1_VPRO_CSUP_UVSUP_SW; + u32 L1_VPRO_CSUP_CORING_SW; + u32 L1_VPRO_BRIGHT_SW; + u32 L1_VPRO_LCNT_SW; + u32 L1_VPRO_NLCNT_SW; + u32 RESERVED_A_127; + u32 L1_VPRO_EDGE_SUP_SW; + u32 L1_VPRO_CNR_SW; + u32 L1_VPRO_AG_CONT; + u32 L1_VPRO_BLKADJ; + u32 L1_VPRO_GAM01P; + u32 L1_VPRO_GAM02P; + u32 L1_VPRO_GAM03P; + u32 L1_VPRO_GAM04P; + u32 L1_VPRO_GAM05P; + u32 L1_VPRO_GAM06P; + u32 L1_VPRO_GAM07P; + u32 L1_VPRO_GAM08P; + u32 L1_VPRO_GAM09P; + u32 L1_VPRO_GAM10P; + u32 L1_VPRO_GAM11P; + u32 L1_VPRO_GAM12P; + u32 L1_VPRO_GAM13P; + u32 L1_VPRO_GAM14P; + u32 L1_VPRO_GAM15P; + u32 L1_VPRO_GAM16P; + u32 L1_VPRO_GAM17P; + u32 L1_VPRO_GAM18P; + u32 L1_VPRO_GAM19P; + u32 L1_VPRO_GAM20P; + u32 L1_VPRO_GAM21P; + u32 L1_VPRO_GAM22P; + u32 L1_VPRO_GAM23P; + u32 L1_VPRO_GAM24P; + u32 L1_VPRO_GAM25P; + u32 L1_VPRO_GAM26P; + u32 L1_VPRO_GAM27P; + u32 L1_VPRO_GAM28P; + u32 L1_VPRO_GAM29P; + u32 L1_VPRO_GAM30P; + u32 L1_VPRO_GAM31P; + u32 L1_VPRO_GAM32P; + u32 L1_VPRO_GAM33P; + u32 L1_VPRO_GAM34P; + u32 L1_VPRO_GAM35P; + u32 L1_VPRO_GAM36P; + u32 L1_VPRO_GAM37P; + u32 L1_VPRO_GAM38P; + u32 L1_VPRO_GAM39P; + u32 L1_VPRO_GAM40P; + u32 L1_VPRO_GAM41P; + u32 L1_VPRO_GAM42P; + u32 L1_VPRO_GAM43P; + u32 L1_VPRO_GAM44P; + u32 L1_VPRO_CB_MAT; + u32 L1_VPRO_CR_MAT; + u32 L1_VPRO_BRIGHT; + u32 L1_VPRO_LCONT_LEV; + u32 L1_VPRO_BLK_KNEE; + u32 L1_VPRO_WHT_KNEE; + u32 L1_VPRO_BLK_CONT0; + u32 L1_VPRO_BLK_CONT1; + u32 L1_VPRO_BLK_CONT2; + u32 L1_VPRO_WHT_CONT0; + u32 L1_VPRO_WHT_CONT1; + u32 L1_VPRO_WHT_CONT2; + u32 RESERVED_A_128; + u32 RESERVED_A_129; + u32 RESERVED_A_130; + u32 RESERVED_A_131; + u32 RESERVED_A_132; + u32 RESERVED_A_133; + u32 L1_VPRO_YNR_GAIN_MIN; + u32 L1_VPRO_YNR_GAIN_MAX; + u32 L1_VPRO_YNR_LIM_MIN; + u32 L1_VPRO_YNR_LIM_MAX; + u32 L1_VPRO_ETE_GAIN_MIN; + u32 L1_VPRO_ETE_GAIN_MAX; + u32 L1_VPRO_ETE_LIM_MIN; + u32 L1_VPRO_ETE_LIM_MAX; + u32 L1_VPRO_ETE_CORING_MIN; + u32 L1_VPRO_ETE_CORING_MAX; + u32 L1_VPRO_CB_GAIN; + u32 L1_VPRO_CR_GAIN; + u32 L1_VPRO_CBR_MGAIN_MIN; + u32 L1_VPRO_CB_P_GAIN_MAX; + u32 L1_VPRO_CB_M_GAIN_MAX; + u32 L1_VPRO_CR_P_GAIN_MAX; + u32 L1_VPRO_CR_M_GAIN_MAX; + u32 L1_VPRO_CSUP_CORING_LV_MIN; + u32 L1_VPRO_CSUP_CORING_LV_MAX; + u32 L1_VPRO_CSUP_CORING_GAIN_MIN; + u32 L1_VPRO_CSUP_CORING_GAIN_MAX; + u32 L1_VPRO_CSUP_BK_SLV; + u32 L1_VPRO_CSUP_BK_MP; + u32 L1_VPRO_CSUP_BLACK; + u32 L1_VPRO_CSUP_WH_SLV; + u32 L1_VPRO_CSUP_WH_MP; + u32 L1_VPRO_CSUP_WHITE; + u32 L1_VPRO_EDGE_SUP_GAIN; + u32 L1_VPRO_EDGE_SUP_LIM; + u32 RESERVED_B_15[22]; + u32 L1_AWHB_SW; + u32 RESERVED_A_134; + u32 L1_AWHB_WBMRG; + u32 L1_AWHB_WBMGG; + u32 L1_AWHB_WBMBG; + u32 L1_AWHB_GATE_CONF0; + u32 L1_AWHB_GATE_CONF1; + u32 L1_AWHB_AREA_HSIZE; + u32 L1_AWHB_AREA_VSIZE; + u32 L1_AWHB_AREA_HOFS; + u32 L1_AWHB_AREA_VOFS; + u32 L1_AWHB_AREA_MASKH; + u32 L1_AWHB_AREA_MASKL; + u32 L1_AWHB_SQ_CONF; + u32 L1_AWHB_YGATEH; + u32 L1_AWHB_YGATEL; + u32 RESERVED_A_135; + u32 RESERVED_A_136; + u32 L1_AWHB_BYCUT0P; + u32 L1_AWHB_BYCUT0N; + u32 L1_AWHB_RYCUT0P; + u32 L1_AWHB_RYCUT0N; + u32 L1_AWHB_RBCUT0H; + u32 L1_AWHB_RBCUT0L; + u32 RESERVED_A_137; + u32 RESERVED_A_138; + u32 RESERVED_A_139; + u32 RESERVED_A_140; + u32 RESERVED_A_141; + u32 RESERVED_A_142; + u32 L1_AWHB_BYCUT1H; + u32 L1_AWHB_BYCUT1L; + u32 L1_AWHB_RYCUT1H; + u32 L1_AWHB_RYCUT1L; + u32 L1_AWHB_BYCUT2H; + u32 L1_AWHB_BYCUT2L; + u32 L1_AWHB_RYCUT2H; + u32 L1_AWHB_RYCUT2L; + u32 L1_AWHB_BYCUT3H; + u32 L1_AWHB_BYCUT3L; + u32 L1_AWHB_RYCUT3H; + u32 L1_AWHB_RYCUT3L; + u32 L1_AWHB_AWBSFTU; + u32 L1_AWHB_AWBSFTV; + u32 L1_AWHB_AWBSPD; + u32 L1_AWHB_AWBULV; + u32 L1_AWHB_AWBVLV; + u32 L1_AWHB_AWBWAIT; + u32 L1_AWHB_AWBONDOT; + u32 L1_AWHB_AWBFZTIM; + u32 L1_AWHB_WBGRMAX; + u32 L1_AWHB_WBGRMIN; + u32 L1_AWHB_WBGBMAX; + u32 L1_AWHB_WBGBMIN; + u32 RESERVED_A_143; + u32 RESERVED_A_144; + u32 RESERVED_A_145; + u32 RESERVED_A_146; + u32 RESERVED_A_147; + u32 RESERVED_A_148; + u32 RESERVED_A_149; + u32 RESERVED_A_150; + u32 RESERVED_A_151; + u32 RESERVED_A_152; + u32 RESERVED_A_153; + u32 RESERVED_A_154; + u32 RESERVED_A_155; + u32 L1_AWHB_AVE_USIG; + u32 L1_AWHB_AVE_VSIG; + u32 L1_AWHB_NUM_UVON; + u32 L1_AWHB_AWBGAINR; + u32 L1_AWHB_AWBGAING; + u32 L1_AWHB_AWBGAINB; + u32 RESERVED_A_156; + u32 RESERVED_A_157; + u32 RESERVED_A_158; + u32 L1_AWHB_R_CTR_STOP; + u32 RESERVED_A_159; + u32 RESERVED_B_16[2]; + u32 L1_HOBC_EN; + u32 L1_HOBC_MARGIN; + u32 L1_HOBC01_AG_CONT; + u32 L1_HOBC2_AG_CONT; + u32 L1_HOBC0_LOB_REFLV_GR; + u32 L1_HOBC0_LOB_WIDTH_GR; + u32 L1_HOBC0_LOB_REFLV_R; + u32 L1_HOBC0_LOB_WIDTH_R; + u32 L1_HOBC0_LOB_REFLV_B; + u32 L1_HOBC0_LOB_WIDTH_B; + u32 L1_HOBC0_LOB_REFLV_GB; + u32 L1_HOBC0_LOB_WIDTH_GB; + u32 L1_HOBC1_LOB_REFLV_GR; + u32 L1_HOBC1_LOB_WIDTH_GR; + u32 L1_HOBC1_LOB_REFLV_R; + u32 L1_HOBC1_LOB_WIDTH_R; + u32 L1_HOBC1_LOB_REFLV_B; + u32 L1_HOBC1_LOB_WIDTH_B; + u32 L1_HOBC1_LOB_REFLV_GB; + u32 L1_HOBC1_LOB_WIDTH_GB; + u32 L1_HOBC2_LOB_REFLV_GR; + u32 L1_HOBC2_LOB_WIDTH_GR; + u32 L1_HOBC2_LOB_REFLV_R; + u32 L1_HOBC2_LOB_WIDTH_R; + u32 L1_HOBC2_LOB_REFLV_B; + u32 L1_HOBC2_LOB_WIDTH_B; + u32 L1_HOBC2_LOB_REFLV_GB; + u32 L1_HOBC2_LOB_WIDTH_GB; + u32 L1_HOBC0_SRC_BLKLV_GR; + u32 L1_HOBC0_SRC_BLKLV_R; + u32 L1_HOBC0_SRC_BLKLV_B; + u32 L1_HOBC0_SRC_BLKLV_GB; + u32 L1_HOBC1_SRC_BLKLV_GR; + u32 L1_HOBC1_SRC_BLKLV_R; + u32 L1_HOBC1_SRC_BLKLV_B; + u32 L1_HOBC1_SRC_BLKLV_GB; + u32 L1_HOBC2_SRC_BLKLV_GR; + u32 L1_HOBC2_SRC_BLKLV_R; + u32 L1_HOBC2_SRC_BLKLV_B; + u32 L1_HOBC2_SRC_BLKLV_GB; + u32 RESERVED_A_160; + u32 RESERVED_A_161; + u32 RESERVED_A_162; + u32 RESERVED_A_163; + u32 RESERVED_A_164; + u32 RESERVED_A_165; + u32 L1_HOBC_MAX_VAL; + u32 RESERVED_B_17[33]; + u32 L1_HDRC_EN; + u32 L1_HDRC_THR_SFT_AMT; + u32 RESERVED_A_166; + u32 L1_HDRC_RATIO; + u32 RESERVED_A_167; + u32 RESERVED_A_168; + u32 RESERVED_A_169; + u32 L1_HDRC_PT_RATIO; + u32 L1_HDRC_PT_BLEND; + u32 L1_HDRC_PT_BLEND2; + u32 L1_HDRC_PT_SAT; + u32 L1_HDRC_TN_TYPE; + u32 L1_HDRC_TNP_MAX; + u32 L1_HDRC_TNP_MAG; + u32 L1_HDRC_TNP_FB_SMTH_MAX0; + u32 L1_HDRC_TNP_FB_SMTH_MAX1; + u32 L1_HDRC_TNP_FB_SMTH_MAX2; + u32 L1_HDRC_TNP_FB_SMTH_MAX3; + u32 L1_HDRC_TNP_FIL0; + u32 L1_HDRC_TNP_FIL1; + u32 L1_HDRC_TNP_FIL2; + u32 L1_HDRC_TNP_FIL3; + u32 L1_HDRC_TNP_FIL4; + u32 L1_HDRC_UTN_TBL0; + u32 L1_HDRC_UTN_TBL1; + u32 L1_HDRC_UTN_TBL2; + u32 L1_HDRC_UTN_TBL3; + u32 L1_HDRC_UTN_TBL4; + u32 L1_HDRC_UTN_TBL5; + u32 L1_HDRC_UTN_TBL6; + u32 L1_HDRC_UTN_TBL7; + u32 L1_HDRC_UTN_TBL8; + u32 L1_HDRC_UTN_TBL9; + u32 L1_HDRC_UTN_TBL10; + u32 L1_HDRC_UTN_TBL11; + u32 L1_HDRC_UTN_TBL12; + u32 L1_HDRC_UTN_TBL13; + u32 L1_HDRC_UTN_TBL14; + u32 L1_HDRC_UTN_TBL15; + u32 L1_HDRC_UTN_TBL16; + u32 L1_HDRC_UTN_TBL17; + u32 L1_HDRC_UTN_TBL18; + u32 L1_HDRC_UTN_TBL19; + u32 L1_HDRC_FLR_VAL; + u32 L1_HDRC_FLR_ADP; + u32 RESERVED_A_170; + u32 RESERVED_A_171; + u32 RESERVED_A_172; + u32 RESERVED_A_173; + u32 RESERVED_A_174; + u32 RESERVED_A_175; + u32 RESERVED_A_176; + u32 RESERVED_A_177; + u32 RESERVED_A_178; + u32 RESERVED_A_179; + u32 RESERVED_A_180; + u32 RESERVED_A_181; + u32 RESERVED_A_182; + u32 RESERVED_A_183; + u32 L1_HDRC_YBR_OFF; + u32 L1_HDRC_ORGY_BLEND; + u32 RESERVED_A_184; + u32 RESERVED_A_185; + u32 RESERVED_A_186; + u32 L1_HDRC_MAR_TOP; + u32 L1_HDRC_MAR_LEFT; + u32 RESERVED_A_187; + u32 RESERVED_A_188; + u32 RESERVED_B_18[28]; + u32 L1_HIST_EN; + u32 L1_HIST_MODE; + u32 L1_HIST_BLOCK_OFST; + u32 L1_HIST_BLOCK_SIZE; + u32 L1_HIST_BLOCK_NUM; + u32 L1_HIST_BLOCK_STEP; + u32 L1_HIST_LINEAR_SFT; + u32 L1_HIST_MULT_A_R; + u32 L1_HIST_ADD_A_R; + u32 L1_HIST_MULT_B_R; + u32 L1_HIST_ADD_B_R; + u32 L1_HIST_MULT_A_G; + u32 L1_HIST_ADD_A_G; + u32 L1_HIST_MULT_B_G; + u32 L1_HIST_ADD_B_G; + u32 L1_HIST_MULT_A_B; + u32 L1_HIST_ADD_A_B; + u32 L1_HIST_MULT_B_B; + u32 L1_HIST_ADD_B_B; + u32 L1_HIST_MULT_A_Y; + u32 L1_HIST_ADD_A_Y; + u32 L1_HIST_MULT_B_Y; + u32 L1_HIST_ADD_B_Y; + u32 RESERVED_B_19[201]; + u32 L1_CRGBF_ACC_CONF; + u32 L1_CRGBF_TRN_M_RUN; + u32 L1_CRGBF_TRN_M_CONF; + u32 L1_CRGBF_TRN_A_CONF; + u32 L1_CRGBF_TRN_STAT_CLR; + u32 L1_CRGBF_TRN_STAT; + u32 L1_CRGBF_INT_STAT; + u32 L1_CRGBF_INT_MASK; + u32 L1_CRGBF_INT_MASKED_STAT; + u32 L1_CRGBF_TRN_WBADDR; + u32 L1_CRGBF_TRN_WEADDR; + u32 L1_CRGBF_TRN_RBADDR; + u32 L1_CRGBF_TRN_READDR; + u32 L1_CRGBF_ISP_INT; + u32 L1_CRGBF_ISP_INT_MASK; + u32 L1_CRGBF_ISP_INT_MASKED_STAT; + u32 RESERVED_A_189; + u32 RESERVED_B_20[47]; + u32 L1_VLATCH_SYSM_WIDTH; + u32 L1_VLATCH_SYSM_HEIGHT; + u32 L1_VLATCH_SYSM_START_COLOR; + u32 L1_VLATCH_SYSM_INPUT_MODE; + u32 RESERVED_A_190; + u32 L1_VLATCH_SYSM_YCOEF_R; + u32 L1_VLATCH_SYSM_YCOEF_G; + u32 L1_VLATCH_SYSM_YCOEF_B; + u32 RESERVED_A_191; + u32 RESERVED_A_192; + u32 RESERVED_A_193; + u32 RESERVED_A_194; + u32 RESERVED_A_195; + u32 RESERVED_A_196; + u32 RESERVED_B_21[2]; + u32 L1_VLATCH_SYSM_AG_H; + u32 L1_VLATCH_SYSM_AG_M; + u32 L1_VLATCH_SYSM_AG_L; + u32 L1_VLATCH_SYSM_AG_PARAM_A; + u32 L1_VLATCH_SYSM_AG_PARAM_B; + u32 L1_VLATCH_SYSM_AG_PARAM_C; + u32 L1_VLATCH_SYSM_AG_PARAM_D; + u32 L1_VLATCH_SYSM_AG_SEL_HOBC; + u32 L1_VLATCH_SYSM_AG_SEL_ABPC; + u32 L1_VLATCH_SYSM_AG_SEL_RCNR; + u32 L1_VLATCH_SYSM_AG_SEL_LSSC; + u32 L1_VLATCH_SYSM_AG_SEL_MPRO; + u32 L1_VLATCH_SYSM_AG_SEL_VPRO; + u32 L1_VLATCH_SYSM_AG_CONT_HOBC01_EN; + u32 L1_VLATCH_SYSM_AG_CONT_HOBC2_EN; + u32 L1_VLATCH_SYSM_AG_CONT_ABPC01_EN; + u32 L1_VLATCH_SYSM_AG_CONT_ABPC2_EN; + u32 L1_VLATCH_SYSM_AG_CONT_RCNR01_EN; + u32 L1_VLATCH_SYSM_AG_CONT_RCNR2_EN; + u32 L1_VLATCH_SYSM_AG_CONT_LSSC_EN; + u32 L1_VLATCH_SYSM_AG_CONT_MPRO_EN; + u32 L1_VLATCH_SYSM_AG_CONT_VPRO_EN; + u32 RESERVED_A_197; + u32 L1_VLATCH_SYSM_MAN_CTXT; + u32 RESERVED_A_198; + u32 RESERVED_B_22[7]; + u32 RESERVED_A_199; + u32 L1_VLATCH_HDRE_SRCPOINT00; + u32 L1_VLATCH_HDRE_SRCPOINT01; + u32 L1_VLATCH_HDRE_SRCPOINT02; + u32 L1_VLATCH_HDRE_SRCPOINT03; + u32 L1_VLATCH_HDRE_SRCPOINT04; + u32 L1_VLATCH_HDRE_SRCPOINT05; + u32 L1_VLATCH_HDRE_SRCPOINT06; + u32 L1_VLATCH_HDRE_SRCPOINT07; + u32 L1_VLATCH_HDRE_SRCPOINT08; + u32 L1_VLATCH_HDRE_SRCPOINT09; + u32 L1_VLATCH_HDRE_SRCPOINT10; + u32 L1_VLATCH_HDRE_SRCPOINT11; + u32 L1_VLATCH_HDRE_SRCPOINT12; + u32 L1_VLATCH_HDRE_SRCPOINT13; + u32 L1_VLATCH_HDRE_SRCPOINT14; + u32 L1_VLATCH_HDRE_SRCPOINT15; + u32 L1_VLATCH_HDRE_SRCBASE00; + u32 L1_VLATCH_HDRE_SRCBASE01; + u32 L1_VLATCH_HDRE_SRCBASE02; + u32 L1_VLATCH_HDRE_SRCBASE03; + u32 L1_VLATCH_HDRE_SRCBASE04; + u32 L1_VLATCH_HDRE_SRCBASE05; + u32 L1_VLATCH_HDRE_SRCBASE06; + u32 L1_VLATCH_HDRE_SRCBASE07; + u32 L1_VLATCH_HDRE_SRCBASE08; + u32 L1_VLATCH_HDRE_SRCBASE09; + u32 L1_VLATCH_HDRE_SRCBASE10; + u32 L1_VLATCH_HDRE_SRCBASE11; + u32 L1_VLATCH_HDRE_SRCBASE12; + u32 L1_VLATCH_HDRE_SRCBASE13; + u32 L1_VLATCH_HDRE_SRCBASE14; + u32 L1_VLATCH_HDRE_SRCBASE15; + u32 L1_VLATCH_HDRE_SRCBASE16; + u32 L1_VLATCH_HDRE_RATIO00; + u32 L1_VLATCH_HDRE_RATIO01; + u32 L1_VLATCH_HDRE_RATIO02; + u32 L1_VLATCH_HDRE_RATIO03; + u32 L1_VLATCH_HDRE_RATIO04; + u32 L1_VLATCH_HDRE_RATIO05; + u32 L1_VLATCH_HDRE_RATIO06; + u32 L1_VLATCH_HDRE_RATIO07; + u32 L1_VLATCH_HDRE_RATIO08; + u32 L1_VLATCH_HDRE_RATIO09; + u32 L1_VLATCH_HDRE_RATIO10; + u32 L1_VLATCH_HDRE_RATIO11; + u32 L1_VLATCH_HDRE_RATIO12; + u32 L1_VLATCH_HDRE_RATIO13; + u32 L1_VLATCH_HDRE_RATIO14; + u32 L1_VLATCH_HDRE_RATIO15; + u32 L1_VLATCH_HDRE_RATIO16; + u32 L1_VLATCH_HDRE_DSTBASE00; + u32 L1_VLATCH_HDRE_DSTBASE01; + u32 L1_VLATCH_HDRE_DSTBASE02; + u32 L1_VLATCH_HDRE_DSTBASE03; + u32 L1_VLATCH_HDRE_DSTBASE04; + u32 L1_VLATCH_HDRE_DSTBASE05; + u32 L1_VLATCH_HDRE_DSTBASE06; + u32 L1_VLATCH_HDRE_DSTBASE07; + u32 L1_VLATCH_HDRE_DSTBASE08; + u32 L1_VLATCH_HDRE_DSTBASE09; + u32 L1_VLATCH_HDRE_DSTBASE10; + u32 L1_VLATCH_HDRE_DSTBASE11; + u32 L1_VLATCH_HDRE_DSTBASE12; + u32 L1_VLATCH_HDRE_DSTBASE13; + u32 L1_VLATCH_HDRE_DSTBASE14; + u32 L1_VLATCH_HDRE_DSTBASE15; + u32 L1_VLATCH_HDRE_DSTBASE16; + u32 L1_VLATCH_HDRE_DSTMAXVAL; + u32 RESERVED_B_23[11]; + u32 L1_VLATCH_AEXP_ON; + u32 RESERVED_A_200; + u32 RESERVED_A_201; + u32 L1_VLATCH_AEXP_FORCE_INTERRUPT_Y; + u32 L1_VLATCH_AEXP_START_X; + u32 L1_VLATCH_AEXP_START_Y; + u32 L1_VLATCH_AEXP_BLOCK_WIDTH; + u32 L1_VLATCH_AEXP_BLOCK_HEIGHT; + u32 L1_VLATCH_AEXP_WEIGHT_0; + u32 L1_VLATCH_AEXP_WEIGHT_1; + u32 L1_VLATCH_AEXP_WEIGHT_2; + u32 L1_VLATCH_AEXP_WEIGHT_3; + u32 L1_VLATCH_AEXP_WEIGHT_4; + u32 L1_VLATCH_AEXP_WEIGHT_5; + u32 L1_VLATCH_AEXP_WEIGHT_6; + u32 L1_VLATCH_AEXP_WEIGHT_7; + u32 L1_VLATCH_AEXP_SATUR_RATIO; + u32 L1_VLATCH_AEXP_BLACK_RATIO; + u32 L1_VLATCH_AEXP_SATUR_LEVEL; + u32 RESERVED_A_202; + u32 RESERVED_A_203; + u32 RESERVED_A_204; + u32 RESERVED_A_205; + u32 RESERVED_A_206; + u32 RESERVED_A_207; + u32 RESERVED_A_208; + u32 RESERVED_A_209; + u32 RESERVED_A_210; + u32 RESERVED_A_211; + u32 RESERVED_A_212; + u32 RESERVED_A_213; + u32 RESERVED_A_214; + u32 RESERVED_A_215; + u32 RESERVED_A_216; + u32 RESERVED_A_217; + u32 RESERVED_A_218; + u32 RESERVED_A_219; + u32 RESERVED_A_220; + u32 RESERVED_A_221; + u32 RESERVED_A_222; + u32 RESERVED_A_223; + u32 RESERVED_A_224; + u32 RESERVED_A_225; + u32 RESERVED_A_226; + u32 RESERVED_A_227; + u32 RESERVED_A_228; + u32 RESERVED_A_229; + u32 RESERVED_A_230; + u32 RESERVED_A_231; + u32 RESERVED_A_232; + u32 RESERVED_A_233; + u32 RESERVED_A_234; + u32 RESERVED_A_235; + u32 RESERVED_A_236; + u32 RESERVED_A_237; + u32 RESERVED_A_238; + u32 RESERVED_A_239; + u32 RESERVED_A_240; + u32 RESERVED_A_241; + u32 RESERVED_A_242; + u32 RESERVED_A_243; + u32 RESERVED_A_244; + u32 RESERVED_A_245; + u32 RESERVED_A_246; + u32 RESERVED_A_247; + u32 RESERVED_A_248; + u32 RESERVED_A_249; + u32 RESERVED_A_250; + u32 RESERVED_A_251; + u32 RESERVED_A_252; + u32 RESERVED_A_253; + u32 RESERVED_A_254; + u32 RESERVED_A_255; + u32 RESERVED_A_256; + u32 RESERVED_A_257; + u32 RESERVED_A_258; + u32 RESERVED_A_259; + u32 RESERVED_A_260; + u32 RESERVED_A_261; + u32 RESERVED_A_262; + u32 RESERVED_A_263; + u32 RESERVED_A_264; + u32 RESERVED_A_265; + u32 RESERVED_A_266; + u32 RESERVED_A_267; + u32 L1_VLATCH_AEXP_AVE4LINESY0; + u32 L1_VLATCH_AEXP_AVE4LINESY1; + u32 L1_VLATCH_AEXP_AVE4LINESY2; + u32 L1_VLATCH_AEXP_AVE4LINESY3; + u32 RESERVED_A_268; + u32 RESERVED_A_269; + u32 RESERVED_A_270; + u32 RESERVED_A_271; + u32 RESERVED_B_24[3]; + u32 L1_VLATCH_IBUF_DEPTH; + u32 L1_VLATCH_IBUF_INPUT_ORDER; + u32 RESERVED_B_25[2]; + u32 L1_VLATCH_SLIC_SRCBLACKLEVEL_GR; + u32 L1_VLATCH_SLIC_SRCBLACKLEVEL_R; + u32 L1_VLATCH_SLIC_SRCBLACKLEVEL_B; + u32 L1_VLATCH_SLIC_SRCBLACKLEVEL_GB; + u32 RESERVED_A_272; + u32 RESERVED_A_273; + u32 RESERVED_A_274; + u32 RESERVED_A_275; + u32 RESERVED_A_276; + u32 RESERVED_B_26[19]; + u32 RESERVED_A_277; + u32 RESERVED_A_278; + u32 RESERVED_A_279; + u32 L1_VLATCH_ABPC012_STA_EN; + u32 L1_VLATCH_ABPC012_DYN_EN; + u32 L1_VLATCH_ABPC012_DYN_MODE; + u32 RESERVED_A_280; + u32 RESERVED_A_281; + u32 RESERVED_A_282; + u32 L1_VLATCH_ABPC0_RATIO_LIMIT; + u32 RESERVED_A_283; + u32 L1_VLATCH_ABPC0_DARK_LIMIT; + u32 L1_VLATCH_ABPC0_SN_COEF_W_AG_MIN; + u32 L1_VLATCH_ABPC0_SN_COEF_W_AG_MID; + u32 L1_VLATCH_ABPC0_SN_COEF_W_AG_MAX; + u32 L1_VLATCH_ABPC0_SN_COEF_W_TH_MIN; + u32 L1_VLATCH_ABPC0_SN_COEF_W_TH_MAX; + u32 L1_VLATCH_ABPC0_SN_COEF_B_AG_MIN; + u32 L1_VLATCH_ABPC0_SN_COEF_B_AG_MID; + u32 L1_VLATCH_ABPC0_SN_COEF_B_AG_MAX; + u32 L1_VLATCH_ABPC0_SN_COEF_B_TH_MIN; + u32 L1_VLATCH_ABPC0_SN_COEF_B_TH_MAX; + u32 RESERVED_A_284; + u32 RESERVED_A_285; + u32 L1_VLATCH_ABPC1_RATIO_LIMIT; + u32 RESERVED_A_286; + u32 L1_VLATCH_ABPC1_DARK_LIMIT; + u32 L1_VLATCH_ABPC1_SN_COEF_W_AG_MIN; + u32 L1_VLATCH_ABPC1_SN_COEF_W_AG_MID; + u32 L1_VLATCH_ABPC1_SN_COEF_W_AG_MAX; + u32 L1_VLATCH_ABPC1_SN_COEF_W_TH_MIN; + u32 L1_VLATCH_ABPC1_SN_COEF_W_TH_MAX; + u32 L1_VLATCH_ABPC1_SN_COEF_B_AG_MIN; + u32 L1_VLATCH_ABPC1_SN_COEF_B_AG_MID; + u32 L1_VLATCH_ABPC1_SN_COEF_B_AG_MAX; + u32 L1_VLATCH_ABPC1_SN_COEF_B_TH_MIN; + u32 L1_VLATCH_ABPC1_SN_COEF_B_TH_MAX; + u32 RESERVED_A_287; + u32 RESERVED_A_288; + u32 L1_VLATCH_ABPC2_RATIO_LIMIT; + u32 RESERVED_A_289; + u32 L1_VLATCH_ABPC2_DARK_LIMIT; + u32 L1_VLATCH_ABPC2_SN_COEF_W_AG_MIN; + u32 L1_VLATCH_ABPC2_SN_COEF_W_AG_MID; + u32 L1_VLATCH_ABPC2_SN_COEF_W_AG_MAX; + u32 L1_VLATCH_ABPC2_SN_COEF_W_TH_MIN; + u32 L1_VLATCH_ABPC2_SN_COEF_W_TH_MAX; + u32 L1_VLATCH_ABPC2_SN_COEF_B_AG_MIN; + u32 L1_VLATCH_ABPC2_SN_COEF_B_AG_MID; + u32 L1_VLATCH_ABPC2_SN_COEF_B_AG_MAX; + u32 L1_VLATCH_ABPC2_SN_COEF_B_TH_MIN; + u32 L1_VLATCH_ABPC2_SN_COEF_B_TH_MAX; + u32 RESERVED_A_290; + u32 RESERVED_A_291; + u32 RESERVED_B_27[42]; + u32 RESERVED_A_292; + u32 L1_VLATCH_PWHB_H_GR; + u32 L1_VLATCH_PWHB_HR; + u32 L1_VLATCH_PWHB_HB; + u32 L1_VLATCH_PWHB_H_GB; + u32 L1_VLATCH_PWHB_M_GR; + u32 L1_VLATCH_PWHB_MR; + u32 L1_VLATCH_PWHB_MB; + u32 L1_VLATCH_PWHB_M_GB; + u32 L1_VLATCH_PWHB_L_GR; + u32 L1_VLATCH_PWHB_LR; + u32 L1_VLATCH_PWHB_LB; + u32 L1_VLATCH_PWHB_L_GB; + u32 L1_VLATCH_PWHB_DSTMAXVAL; + u32 RESERVED_B_28[18]; + u32 RESERVED_A_293; + u32 RESERVED_A_294; + u32 L1_VLATCH_RCNR0_SW; + u32 L1_VLATCH_RCNR0_CNF_DARK_AG0; + u32 L1_VLATCH_RCNR0_CNF_DARK_AG1; + u32 L1_VLATCH_RCNR0_CNF_DARK_AG2; + u32 L1_VLATCH_RCNR0_CNF_RATIO_AG0; + u32 L1_VLATCH_RCNR0_CNF_RATIO_AG1; + u32 L1_VLATCH_RCNR0_CNF_RATIO_AG2; + u32 L1_VLATCH_RCNR0_CNF_CLIP_GAIN_R; + u32 L1_VLATCH_RCNR0_CNF_CLIP_GAIN_G; + u32 L1_VLATCH_RCNR0_CNF_CLIP_GAIN_B; + u32 L1_VLATCH_RCNR0_A1L_DARK_AG0; + u32 L1_VLATCH_RCNR0_A1L_DARK_AG1; + u32 L1_VLATCH_RCNR0_A1L_DARK_AG2; + u32 L1_VLATCH_RCNR0_A1L_RATIO_AG0; + u32 L1_VLATCH_RCNR0_A1L_RATIO_AG1; + u32 L1_VLATCH_RCNR0_A1L_RATIO_AG2; + u32 L1_VLATCH_RCNR0_INF_ZERO_CLIP; + u32 RESERVED_A_295; + u32 L1_VLATCH_RCNR0_MERGE_D2BLEND_AG0; + u32 L1_VLATCH_RCNR0_MERGE_D2BLEND_AG1; + u32 L1_VLATCH_RCNR0_MERGE_D2BLEND_AG2; + u32 L1_VLATCH_RCNR0_MERGE_BLACK; + u32 L1_VLATCH_RCNR0_MERGE_MINDIV; + u32 L1_VLATCH_RCNR0_HRY_TYPE; + u32 L1_VLATCH_RCNR0_ANF_BLEND_AG0; + u32 L1_VLATCH_RCNR0_ANF_BLEND_AG1; + u32 L1_VLATCH_RCNR0_ANF_BLEND_AG2; + u32 RESERVED_A_296; + u32 L1_VLATCH_RCNR0_LPF_THRESHOLD; + u32 L1_VLATCH_RCNR0_MERGE_HLBLEND_AG0; + u32 L1_VLATCH_RCNR0_MERGE_HLBLEND_AG1; + u32 L1_VLATCH_RCNR0_MERGE_HLBLEND_AG2; + u32 L1_VLATCH_RCNR0_GNR_SW; + u32 L1_VLATCH_RCNR0_GNR_RATIO; + u32 L1_VLATCH_RCNR0_GNR_WIDE_EN; + u32 RESERVED_A_297; + u32 RESERVED_A_298; + u32 L1_VLATCH_RCNR1_SW; + u32 L1_VLATCH_RCNR1_CNF_DARK_AG0; + u32 L1_VLATCH_RCNR1_CNF_DARK_AG1; + u32 L1_VLATCH_RCNR1_CNF_DARK_AG2; + u32 L1_VLATCH_RCNR1_CNF_RATIO_AG0; + u32 L1_VLATCH_RCNR1_CNF_RATIO_AG1; + u32 L1_VLATCH_RCNR1_CNF_RATIO_AG2; + u32 L1_VLATCH_RCNR1_CNF_CLIP_GAIN_R; + u32 L1_VLATCH_RCNR1_CNF_CLIP_GAIN_G; + u32 L1_VLATCH_RCNR1_CNF_CLIP_GAIN_B; + u32 L1_VLATCH_RCNR1_A1L_DARK_AG0; + u32 L1_VLATCH_RCNR1_A1L_DARK_AG1; + u32 L1_VLATCH_RCNR1_A1L_DARK_AG2; + u32 L1_VLATCH_RCNR1_A1L_RATIO_AG0; + u32 L1_VLATCH_RCNR1_A1L_RATIO_AG1; + u32 L1_VLATCH_RCNR1_A1L_RATIO_AG2; + u32 L1_VLATCH_RCNR1_INF_ZERO_CLIP; + u32 RESERVED_A_299; + u32 L1_VLATCH_RCNR1_MERGE_D2BLEND_AG0; + u32 L1_VLATCH_RCNR1_MERGE_D2BLEND_AG1; + u32 L1_VLATCH_RCNR1_MERGE_D2BLEND_AG2; + u32 L1_VLATCH_RCNR1_MERGE_BLACK; + u32 L1_VLATCH_RCNR1_MERGE_MINDIV; + u32 L1_VLATCH_RCNR1_HRY_TYPE; + u32 L1_VLATCH_RCNR1_ANF_BLEND_AG0; + u32 L1_VLATCH_RCNR1_ANF_BLEND_AG1; + u32 L1_VLATCH_RCNR1_ANF_BLEND_AG2; + u32 RESERVED_A_300; + u32 L1_VLATCH_RCNR1_LPF_THRESHOLD; + u32 L1_VLATCH_RCNR1_MERGE_HLBLEND_AG0; + u32 L1_VLATCH_RCNR1_MERGE_HLBLEND_AG1; + u32 L1_VLATCH_RCNR1_MERGE_HLBLEND_AG2; + u32 L1_VLATCH_RCNR1_GNR_SW; + u32 L1_VLATCH_RCNR1_GNR_RATIO; + u32 L1_VLATCH_RCNR1_GNR_WIDE_EN; + u32 RESERVED_A_301; + u32 RESERVED_A_302; + u32 L1_VLATCH_RCNR2_SW; + u32 L1_VLATCH_RCNR2_CNF_DARK_AG0; + u32 L1_VLATCH_RCNR2_CNF_DARK_AG1; + u32 L1_VLATCH_RCNR2_CNF_DARK_AG2; + u32 L1_VLATCH_RCNR2_CNF_RATIO_AG0; + u32 L1_VLATCH_RCNR2_CNF_RATIO_AG1; + u32 L1_VLATCH_RCNR2_CNF_RATIO_AG2; + u32 L1_VLATCH_RCNR2_CNF_CLIP_GAIN_R; + u32 L1_VLATCH_RCNR2_CNF_CLIP_GAIN_G; + u32 L1_VLATCH_RCNR2_CNF_CLIP_GAIN_B; + u32 L1_VLATCH_RCNR2_A1L_DARK_AG0; + u32 L1_VLATCH_RCNR2_A1L_DARK_AG1; + u32 L1_VLATCH_RCNR2_A1L_DARK_AG2; + u32 L1_VLATCH_RCNR2_A1L_RATIO_AG0; + u32 L1_VLATCH_RCNR2_A1L_RATIO_AG1; + u32 L1_VLATCH_RCNR2_A1L_RATIO_AG2; + u32 L1_VLATCH_RCNR2_INF_ZERO_CLIP; + u32 RESERVED_A_303; + u32 L1_VLATCH_RCNR2_MERGE_D2BLEND_AG0; + u32 L1_VLATCH_RCNR2_MERGE_D2BLEND_AG1; + u32 L1_VLATCH_RCNR2_MERGE_D2BLEND_AG2; + u32 L1_VLATCH_RCNR2_MERGE_BLACK; + u32 L1_VLATCH_RCNR2_MERGE_MINDIV; + u32 L1_VLATCH_RCNR2_HRY_TYPE; + u32 L1_VLATCH_RCNR2_ANF_BLEND_AG0; + u32 L1_VLATCH_RCNR2_ANF_BLEND_AG1; + u32 L1_VLATCH_RCNR2_ANF_BLEND_AG2; + u32 RESERVED_A_304; + u32 L1_VLATCH_RCNR2_LPF_THRESHOLD; + u32 L1_VLATCH_RCNR2_MERGE_HLBLEND_AG0; + u32 L1_VLATCH_RCNR2_MERGE_HLBLEND_AG1; + u32 L1_VLATCH_RCNR2_MERGE_HLBLEND_AG2; + u32 L1_VLATCH_RCNR2_GNR_SW; + u32 L1_VLATCH_RCNR2_GNR_RATIO; + u32 L1_VLATCH_RCNR2_GNR_WIDE_EN; + u32 RESERVED_B_29[49]; + u32 RESERVED_A_305; + u32 L1_VLATCH_HDRS_HDRRATIO_M; + u32 L1_VLATCH_HDRS_HDRRATIO_L; + u32 L1_VLATCH_HDRS_HDRRATIO_E; + u32 RESERVED_A_306; + u32 RESERVED_A_307; + u32 L1_VLATCH_HDRS_BLENDEND_H; + u32 L1_VLATCH_HDRS_BLENDEND_M; + u32 L1_VLATCH_HDRS_BLENDEND_E; + u32 L1_VLATCH_HDRS_BLENDBEG_H; + u32 L1_VLATCH_HDRS_BLENDBEG_M; + u32 L1_VLATCH_HDRS_BLENDBEG_E; + u32 RESERVED_A_308; + u32 RESERVED_A_309; + u32 RESERVED_A_310; + u32 RESERVED_A_311; + u32 RESERVED_A_312; + u32 RESERVED_A_313; + u32 L1_VLATCH_HDRS_DgH; + u32 L1_VLATCH_HDRS_DgM; + u32 L1_VLATCH_HDRS_DgL; + u32 L1_VLATCH_HDRS_DgE; + u32 L1_VLATCH_HDRS_LEDMODE_ON; + u32 L1_VLATCH_HDRS_HDRMODE; + u32 RESERVED_A_314; + u32 RESERVED_A_315; + u32 RESERVED_A_316; + u32 L1_VLATCH_HDRS_DSTMAXVAL; + u32 RESERVED_B_30[4]; + u32 L1_VLATCH_BLVC_SRCBLACKLEVEL_GR; + u32 L1_VLATCH_BLVC_SRCBLACKLEVEL_R; + u32 L1_VLATCH_BLVC_SRCBLACKLEVEL_B; + u32 L1_VLATCH_BLVC_SRCBLACKLEVEL_GB; + u32 L1_VLATCH_BLVC_MULTVAL_GR; + u32 L1_VLATCH_BLVC_MULTVALR; + u32 L1_VLATCH_BLVC_MULTVALB; + u32 L1_VLATCH_BLVC_MULTVAL_GB; + u32 L1_VLATCH_BLVC_DSTMAXVAL; + u32 RESERVED_A_317; + u32 RESERVED_A_318; + u32 RESERVED_A_319; + u32 RESERVED_A_320; + u32 RESERVED_A_321; + u32 RESERVED_A_322; + u32 RESERVED_B_31[17]; + u32 L1_VLATCH_LSSC_EN; + u32 RESERVED_A_323; + u32 RESERVED_A_324; + u32 RESERVED_A_325; + u32 L1_VLATCH_LSSC_PWHB_R_GAIN; + u32 L1_VLATCH_LSSC_PWHB_GR_GAIN; + u32 L1_VLATCH_LSSC_PWHB_GB_GAIN; + u32 L1_VLATCH_LSSC_PWHB_B_GAIN; + u32 L1_VLATCH_LSSC_PARA_EN; + u32 L1_VLATCH_LSSC_PARA_H_CENTER; + u32 L1_VLATCH_LSSC_PARA_V_CENTER; + u32 L1_VLATCH_LSSC_PARA_H_GAIN; + u32 L1_VLATCH_LSSC_PARA_V_GAIN; + u32 L1_VLATCH_LSSC_PARA_MGSEL2; + u32 L1_VLATCH_LSSC_PARA_MGSEL4; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_H_L; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_H_R; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_V_U; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_V_D; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_H_L; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_H_R; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_V_U; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_V_D; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_H_L; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_H_R; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_V_U; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_V_D; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_H_L; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_H_R; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_V_U; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_V_D; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_H_L; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_H_R; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_V_U; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_V_D; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_H_L; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_H_R; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_V_U; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_V_D; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_H_L; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_H_R; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_V_U; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_V_D; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_RD; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_H_L; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_H_R; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_V_U; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_V_D; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_LU; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_RU; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_LD; + u32 L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_RD; + u32 L1_VLATCH_LSSC_GRID_EN; + u32 L1_VLATCH_LSSC_GRID_H_CENTER; + u32 L1_VLATCH_LSSC_GRID_V_CENTER; + u32 L1_VLATCH_LSSC_GRID_H_SIZE; + u32 L1_VLATCH_LSSC_GRID_V_SIZE; + u32 L1_VLATCH_LSSC_GRID_MGSEL; + u32 RESERVED_B_32[11]; + u32 L1_VLATCH_MPRO_SW; + u32 L1_VLATCH_MPRO_CONF; + u32 RESERVED_A_326; + u32 L1_VLATCH_MPRO_DST_MINVAL; + u32 L1_VLATCH_MPRO_DST_MAXVAL; + u32 RESERVED_A_327; + u32 RESERVED_A_328; + u32 RESERVED_A_329; + u32 L1_VLATCH_MPRO_LM0_RMG_MIN; + u32 L1_VLATCH_MPRO_LM0_RMB_MIN; + u32 L1_VLATCH_MPRO_LM0_GMR_MIN; + u32 L1_VLATCH_MPRO_LM0_GMB_MIN; + u32 L1_VLATCH_MPRO_LM0_BMR_MIN; + u32 L1_VLATCH_MPRO_LM0_BMG_MIN; + u32 L1_VLATCH_MPRO_LM0_RMG_MAX; + u32 L1_VLATCH_MPRO_LM0_RMB_MAX; + u32 L1_VLATCH_MPRO_LM0_GMR_MAX; + u32 L1_VLATCH_MPRO_LM0_GMB_MAX; + u32 L1_VLATCH_MPRO_LM0_BMR_MAX; + u32 L1_VLATCH_MPRO_LM0_BMG_MAX; + u32 RESERVED_A_330; + u32 RESERVED_A_331; + u32 RESERVED_A_332; + u32 RESERVED_A_333; + u32 RESERVED_A_334; + u32 RESERVED_A_335; + u32 RESERVED_A_336; + u32 RESERVED_A_337; + u32 RESERVED_A_338; + u32 RESERVED_A_339; + u32 RESERVED_A_340; + u32 RESERVED_A_341; + u32 RESERVED_A_342; + u32 RESERVED_A_343; + u32 RESERVED_A_344; + u32 RESERVED_A_345; + u32 RESERVED_A_346; + u32 RESERVED_A_347; + u32 RESERVED_A_348; + u32 RESERVED_A_349; + u32 RESERVED_A_350; + u32 RESERVED_A_351; + u32 RESERVED_A_352; + u32 RESERVED_A_353; + u32 RESERVED_A_354; + u32 RESERVED_A_355; + u32 RESERVED_A_356; + u32 RESERVED_A_357; + u32 RESERVED_A_358; + u32 RESERVED_A_359; + u32 RESERVED_A_360; + u32 RESERVED_A_361; + u32 RESERVED_A_362; + u32 RESERVED_A_363; + u32 RESERVED_A_364; + u32 RESERVED_A_365; + u32 RESERVED_A_366; + u32 RESERVED_A_367; + u32 RESERVED_A_368; + u32 RESERVED_B_33[1]; + u32 L1_VLATCH_MPRO_LCS_MODE; + u32 RESERVED_A_369; + u32 RESERVED_A_370; + u32 RESERVED_A_371; + u32 RESERVED_A_372; + u32 RESERVED_A_373; + u32 RESERVED_A_374; + u32 RESERVED_A_375; + u32 RESERVED_A_376; + u32 RESERVED_A_377; + u32 RESERVED_A_378; + u32 RESERVED_A_379; + u32 RESERVED_A_380; + u32 RESERVED_A_381; + u32 RESERVED_A_382; + u32 RESERVED_A_383; + u32 RESERVED_A_384; + u32 RESERVED_A_385; + u32 RESERVED_A_386; + u32 RESERVED_A_387; + u32 RESERVED_A_388; + u32 RESERVED_A_389; + u32 RESERVED_A_390; + u32 RESERVED_A_391; + u32 RESERVED_A_392; + u32 RESERVED_A_393; + u32 RESERVED_A_394; + u32 RESERVED_A_395; + u32 RESERVED_A_396; + u32 RESERVED_A_397; + u32 RESERVED_B_34[70]; + u32 L1_VLATCH_VPRO_PGC_SW; + u32 RESERVED_A_398; + u32 L1_VLATCH_VPRO_YUVC_SW; + u32 L1_VLATCH_VPRO_YNR_SW; + u32 L1_VLATCH_VPRO_ETE_SW; + u32 L1_VLATCH_VPRO_CSUP_UVSUP_SW; + u32 L1_VLATCH_VPRO_CSUP_CORING_SW; + u32 L1_VLATCH_VPRO_BRIGHT_SW; + u32 L1_VLATCH_VPRO_LCNT_SW; + u32 L1_VLATCH_VPRO_NLCNT_SW; + u32 RESERVED_A_399; + u32 L1_VLATCH_VPRO_EDGE_SUP_SW; + u32 L1_VLATCH_VPRO_CNR_SW; + u32 RESERVED_A_400; + u32 L1_VLATCH_VPRO_BLKADJ; + u32 L1_VLATCH_VPRO_GAM01P; + u32 L1_VLATCH_VPRO_GAM02P; + u32 L1_VLATCH_VPRO_GAM03P; + u32 L1_VLATCH_VPRO_GAM04P; + u32 L1_VLATCH_VPRO_GAM05P; + u32 L1_VLATCH_VPRO_GAM06P; + u32 L1_VLATCH_VPRO_GAM07P; + u32 L1_VLATCH_VPRO_GAM08P; + u32 L1_VLATCH_VPRO_GAM09P; + u32 L1_VLATCH_VPRO_GAM10P; + u32 L1_VLATCH_VPRO_GAM11P; + u32 L1_VLATCH_VPRO_GAM12P; + u32 L1_VLATCH_VPRO_GAM13P; + u32 L1_VLATCH_VPRO_GAM14P; + u32 L1_VLATCH_VPRO_GAM15P; + u32 L1_VLATCH_VPRO_GAM16P; + u32 L1_VLATCH_VPRO_GAM17P; + u32 L1_VLATCH_VPRO_GAM18P; + u32 L1_VLATCH_VPRO_GAM19P; + u32 L1_VLATCH_VPRO_GAM20P; + u32 L1_VLATCH_VPRO_GAM21P; + u32 L1_VLATCH_VPRO_GAM22P; + u32 L1_VLATCH_VPRO_GAM23P; + u32 L1_VLATCH_VPRO_GAM24P; + u32 L1_VLATCH_VPRO_GAM25P; + u32 L1_VLATCH_VPRO_GAM26P; + u32 L1_VLATCH_VPRO_GAM27P; + u32 L1_VLATCH_VPRO_GAM28P; + u32 L1_VLATCH_VPRO_GAM29P; + u32 L1_VLATCH_VPRO_GAM30P; + u32 L1_VLATCH_VPRO_GAM31P; + u32 L1_VLATCH_VPRO_GAM32P; + u32 L1_VLATCH_VPRO_GAM33P; + u32 L1_VLATCH_VPRO_GAM34P; + u32 L1_VLATCH_VPRO_GAM35P; + u32 L1_VLATCH_VPRO_GAM36P; + u32 L1_VLATCH_VPRO_GAM37P; + u32 L1_VLATCH_VPRO_GAM38P; + u32 L1_VLATCH_VPRO_GAM39P; + u32 L1_VLATCH_VPRO_GAM40P; + u32 L1_VLATCH_VPRO_GAM41P; + u32 L1_VLATCH_VPRO_GAM42P; + u32 L1_VLATCH_VPRO_GAM43P; + u32 L1_VLATCH_VPRO_GAM44P; + u32 L1_VLATCH_VPRO_CB_MAT; + u32 L1_VLATCH_VPRO_CR_MAT; + u32 L1_VLATCH_VPRO_BRIGHT; + u32 L1_VLATCH_VPRO_LCONT_LEV; + u32 L1_VLATCH_VPRO_BLK_KNEE; + u32 L1_VLATCH_VPRO_WHT_KNEE; + u32 L1_VLATCH_VPRO_BLK_CONT0; + u32 L1_VLATCH_VPRO_BLK_CONT1; + u32 L1_VLATCH_VPRO_BLK_CONT2; + u32 L1_VLATCH_VPRO_WHT_CONT0; + u32 L1_VLATCH_VPRO_WHT_CONT1; + u32 L1_VLATCH_VPRO_WHT_CONT2; + u32 RESERVED_A_401; + u32 RESERVED_A_402; + u32 RESERVED_A_403; + u32 RESERVED_A_404; + u32 RESERVED_A_405; + u32 RESERVED_A_406; + u32 L1_VLATCH_VPRO_YNR_GAIN_MIN; + u32 L1_VLATCH_VPRO_YNR_GAIN_MAX; + u32 L1_VLATCH_VPRO_YNR_LIM_MIN; + u32 L1_VLATCH_VPRO_YNR_LIM_MAX; + u32 L1_VLATCH_VPRO_ETE_GAIN_MIN; + u32 L1_VLATCH_VPRO_ETE_GAIN_MAX; + u32 L1_VLATCH_VPRO_ETE_LIM_MIN; + u32 L1_VLATCH_VPRO_ETE_LIM_MAX; + u32 L1_VLATCH_VPRO_ETE_CORING_MIN; + u32 L1_VLATCH_VPRO_ETE_CORING_MAX; + u32 L1_VLATCH_VPRO_CB_GAIN; + u32 L1_VLATCH_VPRO_CR_GAIN; + u32 L1_VLATCH_VPRO_CBR_MGAIN_MIN; + u32 L1_VLATCH_VPRO_CbP_GAIN_MAX; + u32 L1_VLATCH_VPRO_CbM_GAIN_MAX; + u32 L1_VLATCH_VPRO_CrP_GAIN_MAX; + u32 L1_VLATCH_VPRO_CrM_GAIN_MAX; + u32 L1_VLATCH_VPRO_CSUP_CORING_LV_MIN; + u32 L1_VLATCH_VPRO_CSUP_CORING_LV_MAX; + u32 L1_VLATCH_VPRO_CSUP_CORING_GAIN_MIN; + u32 L1_VLATCH_VPRO_CSUP_CORING_GAIN_MAX; + u32 L1_VLATCH_VPRO_CSUP_BK_SLV; + u32 L1_VLATCH_VPRO_CSUP_BK_MP; + u32 L1_VLATCH_VPRO_CSUP_BLACK; + u32 L1_VLATCH_VPRO_CSUP_WH_SLV; + u32 L1_VLATCH_VPRO_CSUP_WH_MP; + u32 L1_VLATCH_VPRO_CSUP_WHITE; + u32 L1_VLATCH_VPRO_EDGE_SUP_GAIN; + u32 L1_VLATCH_VPRO_EDGE_SUP_LIM; + u32 RESERVED_B_35[22]; + u32 L1_VLATCH_AWHB_SW; + u32 RESERVED_A_407; + u32 L1_VLATCH_AWHB_WBMRG; + u32 L1_VLATCH_AWHB_WBMGG; + u32 L1_VLATCH_AWHB_WBMBG; + u32 L1_VLATCH_AWHB_GATE_CONF0; + u32 L1_VLATCH_AWHB_GATE_CONF1; + u32 L1_VLATCH_AWHB_AREA_HSIZE; + u32 L1_VLATCH_AWHB_AREA_VSIZE; + u32 L1_VLATCH_AWHB_AREA_HOFS; + u32 L1_VLATCH_AWHB_AREA_VOFS; + u32 L1_VLATCH_AWHB_AREA_MASKH; + u32 L1_VLATCH_AWHB_AREA_MASKL; + u32 L1_VLATCH_AWHB_SQ_CONF; + u32 L1_VLATCH_AWHB_YGATEH; + u32 L1_VLATCH_AWHB_YGATEL; + u32 RESERVED_A_408; + u32 RESERVED_A_409; + u32 L1_VLATCH_AWHB_BYCUT0P; + u32 L1_VLATCH_AWHB_BYCUT0N; + u32 L1_VLATCH_AWHB_RYCUT0P; + u32 L1_VLATCH_AWHB_RYCUT0N; + u32 L1_VLATCH_AWHB_RBCUT0H; + u32 L1_VLATCH_AWHB_RBCUT0L; + u32 RESERVED_A_410; + u32 RESERVED_A_411; + u32 RESERVED_A_412; + u32 RESERVED_A_413; + u32 RESERVED_A_414; + u32 RESERVED_A_415; + u32 L1_VLATCH_AWHB_BYCUT1H; + u32 L1_VLATCH_AWHB_BYCUT1L; + u32 L1_VLATCH_AWHB_RYCUT1H; + u32 L1_VLATCH_AWHB_RYCUT1L; + u32 L1_VLATCH_AWHB_BYCUT2H; + u32 L1_VLATCH_AWHB_BYCUT2L; + u32 L1_VLATCH_AWHB_RYCUT2H; + u32 L1_VLATCH_AWHB_RYCUT2L; + u32 L1_VLATCH_AWHB_BYCUT3H; + u32 L1_VLATCH_AWHB_BYCUT3L; + u32 L1_VLATCH_AWHB_RYCUT3H; + u32 L1_VLATCH_AWHB_RYCUT3L; + u32 L1_VLATCH_AWHB_AWBSFTU; + u32 L1_VLATCH_AWHB_AWBSFTV; + u32 L1_VLATCH_AWHB_AWBSPD; + u32 L1_VLATCH_AWHB_AWBULV; + u32 L1_VLATCH_AWHB_AWBVLV; + u32 L1_VLATCH_AWHB_AWBWAIT; + u32 L1_VLATCH_AWHB_AWBONDOT; + u32 L1_VLATCH_AWHB_AWBFZTIM; + u32 L1_VLATCH_AWHB_WBGRMAX; + u32 L1_VLATCH_AWHB_WBGRMIN; + u32 L1_VLATCH_AWHB_WBGBMAX; + u32 L1_VLATCH_AWHB_WBGBMIN; + u32 RESERVED_A_416; + u32 RESERVED_A_417; + u32 RESERVED_A_418; + u32 RESERVED_A_419; + u32 RESERVED_A_420; + u32 RESERVED_A_421; + u32 RESERVED_A_422; + u32 RESERVED_A_423; + u32 RESERVED_A_424; + u32 RESERVED_A_425; + u32 RESERVED_A_426; + u32 RESERVED_A_427; + u32 RESERVED_A_428; + u32 RESERVED_A_429; + u32 RESERVED_A_430; + u32 RESERVED_A_431; + u32 RESERVED_A_432; + u32 RESERVED_A_433; + u32 RESERVED_A_434; + u32 RESERVED_A_435; + u32 RESERVED_A_436; + u32 RESERVED_A_437; + u32 RESERVED_A_438; + u32 RESERVED_A_439; + u32 RESERVED_B_36[2]; + u32 L1_VLATCH_HOBC_EN; + u32 L1_VLATCH_HOBC_MARGIN; + u32 RESERVED_A_440; + u32 RESERVED_A_441; + u32 L1_VLATCH_HOBC0_LOB_REFLV_GR; + u32 L1_VLATCH_HOBC0_LOB_WIDTH_GR; + u32 L1_VLATCH_HOBC0_LOB_REFLV_R; + u32 L1_VLATCH_HOBC0_LOB_WIDTH_R; + u32 L1_VLATCH_HOBC0_LOB_REFLV_B; + u32 L1_VLATCH_HOBC0_LOB_WIDTH_B; + u32 L1_VLATCH_HOBC0_LOB_REFLV_GB; + u32 L1_VLATCH_HOBC0_LOB_WIDTH_GB; + u32 L1_VLATCH_HOBC1_LOB_REFLV_GR; + u32 L1_VLATCH_HOBC1_LOB_WIDTH_GR; + u32 L1_VLATCH_HOBC1_LOB_REFLV_R; + u32 L1_VLATCH_HOBC1_LOB_WIDTH_R; + u32 L1_VLATCH_HOBC1_LOB_REFLV_B; + u32 L1_VLATCH_HOBC1_LOB_WIDTH_B; + u32 L1_VLATCH_HOBC1_LOB_REFLV_GB; + u32 L1_VLATCH_HOBC1_LOB_WIDTH_GB; + u32 L1_VLATCH_HOBC2_LOB_REFLV_GR; + u32 L1_VLATCH_HOBC2_LOB_WIDTH_GR; + u32 L1_VLATCH_HOBC2_LOB_REFLV_R; + u32 L1_VLATCH_HOBC2_LOB_WIDTH_R; + u32 L1_VLATCH_HOBC2_LOB_REFLV_B; + u32 L1_VLATCH_HOBC2_LOB_WIDTH_B; + u32 L1_VLATCH_HOBC2_LOB_REFLV_GB; + u32 L1_VLATCH_HOBC2_LOB_WIDTH_GB; + u32 L1_VLATCH_HOBC0_SRC_BLKLV_GR; + u32 L1_VLATCH_HOBC0_SRC_BLKLV_R; + u32 L1_VLATCH_HOBC0_SRC_BLKLV_B; + u32 L1_VLATCH_HOBC0_SRC_BLKLV_GB; + u32 L1_VLATCH_HOBC1_SRC_BLKLV_GR; + u32 L1_VLATCH_HOBC1_SRC_BLKLV_R; + u32 L1_VLATCH_HOBC1_SRC_BLKLV_B; + u32 L1_VLATCH_HOBC1_SRC_BLKLV_GB; + u32 L1_VLATCH_HOBC2_SRC_BLKLV_GR; + u32 L1_VLATCH_HOBC2_SRC_BLKLV_R; + u32 L1_VLATCH_HOBC2_SRC_BLKLV_B; + u32 L1_VLATCH_HOBC2_SRC_BLKLV_GB; + u32 RESERVED_A_442; + u32 RESERVED_A_443; + u32 RESERVED_A_444; + u32 RESERVED_A_445; + u32 RESERVED_A_446; + u32 RESERVED_A_447; + u32 L1_VLATCH_HOBC_MAX_VAL; + u32 RESERVED_B_37[33]; + u32 L1_VLATCH_HDRC_EN; + u32 L1_VLATCH_HDRC_THR_SFT_AMT; + u32 RESERVED_A_448; + u32 L1_VLATCH_HDRC_RATIO; + u32 RESERVED_A_449; + u32 RESERVED_A_450; + u32 RESERVED_A_451; + u32 L1_VLATCH_HDRC_PT_RATIO; + u32 L1_VLATCH_HDRC_PT_BLEND; + u32 L1_VLATCH_HDRC_PT_BLEND2; + u32 L1_VLATCH_HDRC_PT_SAT; + u32 L1_VLATCH_HDRC_TN_TYPE; + u32 L1_VLATCH_HDRC_TNP_MAX; + u32 L1_VLATCH_HDRC_TNP_MAG; + u32 RESERVED_A_452; + u32 RESERVED_A_453; + u32 RESERVED_A_454; + u32 RESERVED_A_455; + u32 L1_VLATCH_HDRC_TNP_FIL0; + u32 L1_VLATCH_HDRC_TNP_FIL1; + u32 L1_VLATCH_HDRC_TNP_FIL2; + u32 L1_VLATCH_HDRC_TNP_FIL3; + u32 L1_VLATCH_HDRC_TNP_FIL4; + u32 L1_VLATCH_HDRC_UTN_TBL0; + u32 L1_VLATCH_HDRC_UTN_TBL1; + u32 L1_VLATCH_HDRC_UTN_TBL2; + u32 L1_VLATCH_HDRC_UTN_TBL3; + u32 L1_VLATCH_HDRC_UTN_TBL4; + u32 L1_VLATCH_HDRC_UTN_TBL5; + u32 L1_VLATCH_HDRC_UTN_TBL6; + u32 L1_VLATCH_HDRC_UTN_TBL7; + u32 L1_VLATCH_HDRC_UTN_TBL8; + u32 L1_VLATCH_HDRC_UTN_TBL9; + u32 L1_VLATCH_HDRC_UTN_TBL10; + u32 L1_VLATCH_HDRC_UTN_TBL11; + u32 L1_VLATCH_HDRC_UTN_TBL12; + u32 L1_VLATCH_HDRC_UTN_TBL13; + u32 L1_VLATCH_HDRC_UTN_TBL14; + u32 L1_VLATCH_HDRC_UTN_TBL15; + u32 L1_VLATCH_HDRC_UTN_TBL16; + u32 L1_VLATCH_HDRC_UTN_TBL17; + u32 L1_VLATCH_HDRC_UTN_TBL18; + u32 L1_VLATCH_HDRC_UTN_TBL19; + u32 L1_VLATCH_HDRC_FLR_VAL; + u32 L1_VLATCH_HDRC_FLR_ADP; + u32 RESERVED_A_456; + u32 RESERVED_A_457; + u32 RESERVED_A_458; + u32 RESERVED_A_459; + u32 RESERVED_A_460; + u32 RESERVED_A_461; + u32 RESERVED_A_462; + u32 RESERVED_A_463; + u32 RESERVED_A_464; + u32 RESERVED_A_465; + u32 RESERVED_A_466; + u32 RESERVED_A_467; + u32 RESERVED_A_468; + u32 RESERVED_A_469; + u32 L1_VLATCH_HDRC_YBR_OFF; + u32 L1_VLATCH_HDRC_ORGY_BLEND; + u32 RESERVED_A_470; + u32 RESERVED_A_471; + u32 RESERVED_A_472; + u32 L1_VLATCH_HDRC_MAR_TOP; + u32 L1_VLATCH_HDRC_MAR_LEFT; + u32 RESERVED_A_473; + u32 RESERVED_A_474; + u32 RESERVED_B_38[28]; + u32 L1_VLATCH_HIST_EN; + u32 L1_VLATCH_HIST_MODE; + u32 L1_VLATCH_HIST_BLOCK_OFST; + u32 L1_VLATCH_HIST_BLOCK_SIZE; + u32 L1_VLATCH_HIST_BLOCK_NUM; + u32 L1_VLATCH_HIST_BLOCK_STEP; + u32 L1_VLATCH_HIST_LINEAR_SFT; + u32 L1_VLATCH_HIST_MULT_A_R; + u32 L1_VLATCH_HIST_ADD_A_R; + u32 L1_VLATCH_HIST_MULT_B_R; + u32 L1_VLATCH_HIST_ADD_B_R; + u32 L1_VLATCH_HIST_MULT_A_G; + u32 L1_VLATCH_HIST_ADD_A_G; + u32 L1_VLATCH_HIST_MULT_B_G; + u32 L1_VLATCH_HIST_ADD_B_G; + u32 L1_VLATCH_HIST_MULT_A_B; + u32 L1_VLATCH_HIST_ADD_A_B; + u32 L1_VLATCH_HIST_MULT_B_B; + u32 L1_VLATCH_HIST_ADD_B_B; + u32 L1_VLATCH_HIST_MULT_A_Y; + u32 L1_VLATCH_HIST_ADD_A_Y; + u32 L1_VLATCH_HIST_MULT_B_Y; + u32 L1_VLATCH_HIST_ADD_B_Y; + u32 RESERVED_B_39[265]; +}; + +/** + * struct hwd_viif_l2isp_stadr_buf_reg - Registers for L2ISP control + */ +struct hwd_viif_l2isp_stadr_buf_reg { + u32 L2_POST_OUT_STADR_B_BUF; + u32 L2_POST_OUT_STADR_G_BUF; + u32 L2_POST_OUT_STADR_R_BUF; +}; + +struct hwd_viif_l2isp_roi_reg { + u32 L2_ROI_SCALE; + u32 L2_ROI_SCALE_INV; + u32 L2_ROI_CORRECTED_HSIZE; + u32 L2_ROI_CORRECTED_VSIZE; + u32 L2_ROI_OUT_OFS_H; + u32 L2_ROI_OUT_OFS_V; + u32 L2_ROI_OUT_HSIZE; + u32 L2_ROI_OUT_VSIZE; +}; + +struct hwd_viif_l2isp_post_reg { + u32 L2_POST_CAP_OFFSET; + u32 L2_POST_CAP_SIZE; + u32 L2_POST_HALF_SCALE_EN; + u32 RESERVED_B_47[17]; + u32 L2_POST_GAMMA_M; + u32 RESERVED_B_48[3]; + u32 L2_POST_C_SELECT; + u32 RESERVED_B_49[3]; + struct hwd_viif_csc_reg csc; + u32 L2_POST_OPORTALP; + u32 L2_POST_OPORTFMT; + u32 L2_POST_OUT_STADR_B; + u32 L2_POST_OUT_STADR_G; + u32 L2_POST_OUT_STADR_R; + u32 L2_POST_OUT_PITCH_B; + u32 L2_POST_OUT_PITCH_G; + u32 L2_POST_OUT_PITCH_R; + u32 L2_POST_DUMMY_READ_EN; + u32 RESERVED_B_51[11]; +}; + +struct hwd_viif_l2isp_reg { + u32 L2_SENSOR_CROP_OFS_H; + u32 L2_SENSOR_CROP_OFS_V; + u32 L2_SENSOR_CROP_HSIZE; + u32 L2_SENSOR_CROP_VSIZE; + u32 RESERVED_A_475; + u32 L2_L2_STATUS; + u32 L2_BUS_L2_STATUS; + /* [0]: POST0, [1]: POST1 */ + struct hwd_viif_l2isp_stadr_buf_reg stadr_buf[2]; + u32 RESERVED_B_40[3]; + u32 L2_ROI_NUM; + /* [0]: POST0, [1]: POST1 */ + u32 L2_ROI_TO_POST[2]; + u32 RESERVED_B_41; + /* [0]: ROI0, [1]: ROI1 */ + struct hwd_viif_l2isp_roi_reg roi[2]; + u32 RESERVED_B_42[8]; + u32 L2_VALID_R_NORM2_POLY; + u32 L2_VALID_R_NORM2_GRID; + u32 RESERVED_A_476; + u32 RESERVED_B_43[17]; + u32 L2_MODE; + u32 L2_NORM_SCALE; + u32 RESERVED_B_44; + /* [0]: ROI0, [1]: ROI1 */ + u32 L2_ROI_WRITE_AREA_DELTA[2]; + u32 RESERVED_B_45; + u32 L2_GRID_NODE_NUM_H; + u32 L2_GRID_NODE_NUM_V; + u32 L2_GRID_PATCH_HSIZE_INV; + u32 L2_GRID_PATCH_VSIZE_INV; + u32 L2_POLY10_WRITE_G_COEF[11]; + u32 L2_POLY10_READ_B_COEF[11]; + u32 L2_POLY10_READ_G_COEF[11]; + u32 L2_POLY10_READ_R_COEF[11]; + u32 RESERVED_B_46[10]; + /* [0]: POST0, [1]: POST1 */ + struct hwd_viif_l2isp_post_reg post[2]; + u32 RESERVED_B_56[192]; + u32 L2_CRGBF_ACC_CONF; + u32 L2_CRGBF_TRN_M_RUN; + u32 L2_CRGBF_TRN_M_CONF; + u32 L2_CRGBF_TRN_A_CONF; + u32 L2_CRGBF_TRN_STAT_CLR; + u32 L2_CRGBF_TRN_STAT; + u32 L2_CRGBF_INT_STAT; + u32 L2_CRGBF_INT_MASK; + u32 L2_CRGBF_INT_MASKED_STAT; + u32 L2_CRGBF_TRN_WBADDR; + u32 L2_CRGBF_TRN_WEADDR; + u32 L2_CRGBF_TRN_RBADDR; + u32 L2_CRGBF_TRN_READDR; + u32 L2_CRGBF_ISP_INT; + u32 L2_CRGBF_ISP_INT_MASK; + u32 L2_CRGBF_ISP_INT_MASKED_STAT; + u32 RESERVED_A_477; + u32 RESERVED_B_57[47]; + u32 L2_SENSOR_CROP_OFS_H_BUF; + u32 L2_SENSOR_CROP_OFS_V_BUF; + u32 L2_SENSOR_CROP_HSIZE_BUF; + u32 L2_SENSOR_CROP_VSIZE_BUF; + u32 RESERVED_A_478; + u32 RESERVED_B_58[11]; + u32 L2_ROI_NUM_BUF; + u32 L2_ROI_TO_POST0_BUF; + u32 L2_ROI_TO_POST1_BUF; + u32 RESERVED_B_59; + u32 L2_ROI0_SCALE_BUF; + u32 L2_ROI0_SCALE_INV_BUF; + u32 L2_ROI0_CORRECTED_HSIZE_BUF; + u32 L2_ROI0_CORRECTED_VSIZE_BUF; + u32 L2_ROI0_OUT_OFS_H_BUF; + u32 L2_ROI0_OUT_OFS_V_BUF; + u32 L2_ROI0_OUT_HSIZE_BUF; + u32 L2_ROI0_OUT_VSIZE_BUF; + u32 L2_ROI1_SCALE_BUF; + u32 L2_ROI1_SCALE_INV_BUF; + u32 L2_ROI1_CORRECTED_HSIZE_BUF; + u32 L2_ROI1_CORRECTED_VSIZE_BUF; + u32 L2_ROI1_OUT_OFS_H_BUF; + u32 L2_ROI1_OUT_OFS_V_BUF; + u32 L2_ROI1_OUT_HSIZE_BUF; + u32 L2_ROI1_OUT_VSIZE_BUF; + u32 RESERVED_B_60[8]; + u32 L2_VALID_R_NORM2_POLY_BUF; + u32 L2_VALID_R_NORM2_GRID_BUF; + u32 RESERVED_A_479; + u32 RESERVED_B_61[17]; + u32 L2_MODE_BUF; + u32 L2_NORM_SCALE_BUF; + u32 RESERVED_B_62; + u32 L2_ROI0_WRITE_AREA_DELTA_BUF; + u32 L2_ROI1_WRITE_AREA_DELTA_BUF; + u32 RESERVED_B_63; + u32 L2_GRID_NODE_NUM_H_BUF; + u32 L2_GRID_NODE_NUM_V_BUF; + u32 L2_GRID_PATCH_HSIZE_INV_BUF; + u32 L2_GRID_PATCH_VSIZE_INV_BUF; + u32 L2_POLY10_WRITE_G_COEF00_BUF; + u32 L2_POLY10_WRITE_G_COEF01_BUF; + u32 L2_POLY10_WRITE_G_COEF02_BUF; + u32 L2_POLY10_WRITE_G_COEF03_BUF; + u32 L2_POLY10_WRITE_G_COEF04_BUF; + u32 L2_POLY10_WRITE_G_COEF05_BUF; + u32 L2_POLY10_WRITE_G_COEF06_BUF; + u32 L2_POLY10_WRITE_G_COEF07_BUF; + u32 L2_POLY10_WRITE_G_COEF08_BUF; + u32 L2_POLY10_WRITE_G_COEF09_BUF; + u32 L2_POLY10_WRITE_G_COEF10_BUF; + u32 L2_POLY10_READ_B_COEF00_BUF; + u32 L2_POLY10_READ_B_COEF01_BUF; + u32 L2_POLY10_READ_B_COEF02_BUF; + u32 L2_POLY10_READ_B_COEF03_BUF; + u32 L2_POLY10_READ_B_COEF04_BUF; + u32 L2_POLY10_READ_B_COEF05_BUF; + u32 L2_POLY10_READ_B_COEF06_BUF; + u32 L2_POLY10_READ_B_COEF07_BUF; + u32 L2_POLY10_READ_B_COEF08_BUF; + u32 L2_POLY10_READ_B_COEF09_BUF; + u32 L2_POLY10_READ_B_COEF10_BUF; + u32 L2_POLY10_READ_G_COEF00_BUF; + u32 L2_POLY10_READ_G_COEF01_BUF; + u32 L2_POLY10_READ_G_COEF02_BUF; + u32 L2_POLY10_READ_G_COEF03_BUF; + u32 L2_POLY10_READ_G_COEF04_BUF; + u32 L2_POLY10_READ_G_COEF05_BUF; + u32 L2_POLY10_READ_G_COEF06_BUF; + u32 L2_POLY10_READ_G_COEF07_BUF; + u32 L2_POLY10_READ_G_COEF08_BUF; + u32 L2_POLY10_READ_G_COEF09_BUF; + u32 L2_POLY10_READ_G_COEF10_BUF; + u32 L2_POLY10_READ_R_COEF00_BUF; + u32 L2_POLY10_READ_R_COEF01_BUF; + u32 L2_POLY10_READ_R_COEF02_BUF; + u32 L2_POLY10_READ_R_COEF03_BUF; + u32 L2_POLY10_READ_R_COEF04_BUF; + u32 L2_POLY10_READ_R_COEF05_BUF; + u32 L2_POLY10_READ_R_COEF06_BUF; + u32 L2_POLY10_READ_R_COEF07_BUF; + u32 L2_POLY10_READ_R_COEF08_BUF; + u32 L2_POLY10_READ_R_COEF09_BUF; + u32 L2_POLY10_READ_R_COEF10_BUF; + u32 RESERVED_B_64[10]; + u32 L2_POST0_CAP_OFFSET_BUF; + u32 L2_POST0_CAP_SIZE_BUF; + u32 L2_POST0_HALF_SCALE_EN_BUF; + u32 RESERVED_B_65[17]; + u32 L2_POST0_GAMMA_M_BUF; + u32 RESERVED_B_66[3]; + u32 L2_POST0_C_SELECT_BUF; + u32 RESERVED_B_67[3]; + u32 L2_POST0_MTB_BUF; + u32 RESERVED_B_68[3]; + u32 L2_POST0_MTB_YG_OFFSETI_BUF; + u32 L2_POST0_MTB_YG1_BUF; + u32 L2_POST0_MTB_YG2_BUF; + u32 L2_POST0_MTB_YG_OFFSETO_BUF; + u32 L2_POST0_MTB_CB_OFFSETI_BUF; + u32 L2_POST0_MTB_CB1_BUF; + u32 L2_POST0_MTB_CB2_BUF; + u32 L2_POST0_MTB_CB_OFFSETO_BUF; + u32 L2_POST0_MTB_CR_OFFSETI_BUF; + u32 L2_POST0_MTB_CR1_BUF; + u32 L2_POST0_MTB_CR2_BUF; + u32 L2_POST0_MTB_CR_OFFSETO_BUF; + u32 L2_POST0_OPORTALP_BUF; + u32 L2_POST0_OPORTFMT_BUF; + u32 RESERVED_B_69[3]; + u32 L2_POST0_OUT_PITCH_B_BUF; + u32 L2_POST0_OUT_PITCH_G_BUF; + u32 L2_POST0_OUT_PITCH_R_BUF; + u32 L2_POST0_DUMMY_READ_EN_BUF; + u32 RESERVED_B_70[11]; + u32 L2_POST1_CAP_OFFSET_BUF; + u32 L2_POST1_CAP_SIZE_BUF; + u32 L2_POST1_HALF_SCALE_EN_BUF; + u32 RESERVED_B_71[17]; + u32 L2_POST1_GAMMA_M_BUF; + u32 RESERVED_B_72[3]; + u32 L2_POST1_C_SELECT_BUF; + u32 RESERVED_B_73[3]; + u32 L2_POST1_MTB_BUF; + u32 RESERVED_B_74[3]; + u32 L2_POST1_MTB_YG_OFFSETI_BUF; + u32 L2_POST1_MTB_YG1_BUF; + u32 L2_POST1_MTB_YG2_BUF; + u32 L2_POST1_MTB_YG_OFFSETO_BUF; + u32 L2_POST1_MTB_CB_OFFSETI_BUF; + u32 L2_POST1_MTB_CB1_BUF; + u32 L2_POST1_MTB_CB2_BUF; + u32 L2_POST1_MTB_CB_OFFSETO_BUF; + u32 L2_POST1_MTB_CR_OFFSETI_BUF; + u32 L2_POST1_MTB_CR1_BUF; + u32 L2_POST1_MTB_CR2_BUF; + u32 L2_POST1_MTB_CR_OFFSETO_BUF; + u32 L2_POST1_OPORTALP_BUF; + u32 L2_POST1_OPORTFMT_BUF; + u32 RESERVED_B_75[3]; + u32 L2_POST1_OUT_PITCH_B_BUF; + u32 L2_POST1_OUT_PITCH_G_BUF; + u32 L2_POST1_OUT_PITCH_R_BUF; + u32 L2_POST1_DUMMY_READ_EN_BUF; + u32 RESERVED_B_76[64]; +}; + +/** + * struct hwd_viif_capture_reg - Registers for VIIF CAPTURE control + */ +struct hwd_viif_capture_reg { + struct hwd_viif_system_reg sys; + struct hwd_viif_vdm_reg vdm; + struct hwd_viif_l1isp_reg l1isp; + struct hwd_viif_l2isp_reg l2isp; +}; + +#endif /* HWD_VIIF_REG_H */ diff --git a/drivers/media/platform/visconti/viif.c b/drivers/media/platform/visconti/viif.c new file mode 100644 index 000000000..0b1540439 --- /dev/null +++ b/drivers/media/platform/visconti/viif.c @@ -0,0 +1,479 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/delay.h> +#include <linux/kernel.h> +#include <linux/module.h> +#include <linux/of.h> +#include <linux/of_device.h> +#include <linux/of_graph.h> +#include <linux/platform_device.h> +#include <media/v4l2-fwnode.h> + +#include "viif.h" + +void visconti_viif_hw_on(struct viif_device *viif_dev) +{ + hwd_viif_initialize(viif_dev->ch, viif_dev->csi2host_reg, viif_dev->capture_reg); +} + +void visconti_viif_hw_off(struct viif_device *viif_dev) +{ + /* Uninitialize HWD driver */ + hwd_viif_uninitialize(viif_dev->ch); +} + +static inline struct viif_device *v4l2_to_viif(struct v4l2_device *v4l2_dev) +{ + return container_of(v4l2_dev, struct viif_device, v4l2_dev); +} + +static struct viif_subdev *to_viif_subdev(struct v4l2_async_subdev *asd) +{ + return container_of(asd, struct viif_subdev, asd); +} + +#define MASK_SYNC_M_DELAY2 BIT(2) +#define MASK_SYNC_S_DELAY BIT(1) +#define MASK_M_DELAY_INT BIT(24) + +static void viif_vsync_irq_handler_w_isp(struct viif_device *viif_dev) +{ + u32 event_main, event_sub, status_err, l2_transfer_status; + u64 ts; + + ts = ktime_get_ns(); + hwd_viif_vsync_irq_handler(viif_dev->ch, &event_main, &event_sub); + + /* Delayed Vsync of MAIN unit */ + if (event_main & MASK_SYNC_M_DELAY2) { + /* unmask timeout error of gamma table */ + hwd_viif_main_status_err_set_irq_mask(viif_dev->ch, MASK_M_DELAY_INT); + viif_dev->masked_gamma_path = 0; + + /* Get abort status of L2ISP */ + hwd_viif_isp_guard_start(viif_dev->ch); + hwd_viif_isp_get_info(viif_dev->ch, NULL, &l2_transfer_status); + hwd_viif_isp_guard_end(viif_dev->ch); + + status_err = viif_dev->status_err; + viif_dev->status_err = 0; + + visconti_viif_capture_switch_buffer(&viif_dev->cap_dev0, status_err, + l2_transfer_status, ts); + visconti_viif_capture_switch_buffer(&viif_dev->cap_dev1, status_err, + l2_transfer_status, ts); + } + + /* Delayed Vsync of SUB unit */ + if (event_sub & MASK_SYNC_S_DELAY) + visconti_viif_capture_switch_buffer(&viif_dev->cap_dev2, 0, 0, ts); +} + +#define MASK_M_GAMMATBL_TIMEOUT 0x0700U + +static void viif_status_err_irq_handler(struct viif_device *viif_dev) +{ + u32 event_main, event_sub, val, mask; + + hwd_viif_status_err_irq_handler(viif_dev->ch, &event_main, &event_sub); + + if (event_main) { + /* mask for gamma table time out error which will be unmasked in the next Vsync */ + val = FIELD_GET(MASK_M_GAMMATBL_TIMEOUT, event_main); + if (val) { + viif_dev->masked_gamma_path |= val; + mask = MASK_M_DELAY_INT | + FIELD_PREP(MASK_M_GAMMATBL_TIMEOUT, viif_dev->masked_gamma_path); + hwd_viif_main_status_err_set_irq_mask(viif_dev->ch, mask); + } + + viif_dev->status_err = event_main; + } + viif_dev->reported_err_main |= event_main; + viif_dev->reported_err_sub |= event_sub; + dev_err(viif_dev->dev, "MAIN/SUB error 0x%x 0x%x.\n", event_main, event_sub); +} + +static void viif_csi2rx_err_irq_handler(struct viif_device *viif_dev) +{ + u32 event; + + event = hwd_viif_csi2rx_err_irq_handler(viif_dev->ch); + viif_dev->reported_err_csi2rx |= event; + dev_err(viif_dev->dev, "CSI2RX error 0x%x.\n", event); +} + +static irqreturn_t visconti_viif_irq(int irq, void *dev_id) +{ + struct viif_device *viif_dev = dev_id; + int irq_type = irq - viif_dev->irq[0]; + + spin_lock(&viif_dev->lock); + + switch (irq_type) { + case 0: + viif_vsync_irq_handler_w_isp(viif_dev); + break; + case 1: + viif_status_err_irq_handler(viif_dev); + break; + case 2: + viif_csi2rx_err_irq_handler(viif_dev); + break; + } + + spin_unlock(&viif_dev->lock); + + return IRQ_HANDLED; +} + +/* ----- Async Notifier Operations----- */ +static int visconti_viif_notify_bound(struct v4l2_async_notifier *notifier, + struct v4l2_subdev *v4l2_sd, struct v4l2_async_subdev *asd) +{ + struct v4l2_device *v4l2_dev = notifier->v4l2_dev; + struct viif_device *viif_dev = v4l2_to_viif(v4l2_dev); + struct viif_subdev *viif_sd = to_viif_subdev(asd); + + viif_sd->v4l2_sd = v4l2_sd; + viif_dev->num_sd++; + + return 0; +} + +static void visconti_viif_create_links(struct viif_device *viif_dev) +{ + unsigned int source_pad; + int ret; + + /* camera subdev pad0 -> isp suddev pad0 */ + ret = media_entity_get_fwnode_pad(&viif_dev->sd->v4l2_sd->entity, + viif_dev->sd->v4l2_sd->fwnode, MEDIA_PAD_FL_SOURCE); + if (ret < 0) { + dev_err(viif_dev->dev, "failed to find source pad\n"); + return; + } + source_pad = ret; + + ret = media_create_pad_link(&viif_dev->sd->v4l2_sd->entity, source_pad, + &viif_dev->isp_subdev.sd.entity, VIIF_ISP_PAD_SINK, + MEDIA_LNK_FL_ENABLED); + if (ret) + dev_err(viif_dev->dev, "failed create_pad_link (camera:src -> isp:sink)\n"); + + ret = media_create_pad_link(&viif_dev->isp_subdev.sd.entity, VIIF_ISP_PAD_SRC_PATH0, + &viif_dev->cap_dev0.vdev.entity, VIIF_CAPTURE_PAD_SINK, + MEDIA_LNK_FL_ENABLED); + if (ret) + dev_err(viif_dev->dev, "failed create_pad_link (isp:src -> capture0:sink)\n"); + + ret = media_create_pad_link(&viif_dev->isp_subdev.sd.entity, VIIF_ISP_PAD_SRC_PATH1, + &viif_dev->cap_dev1.vdev.entity, VIIF_CAPTURE_PAD_SINK, + MEDIA_LNK_FL_ENABLED); + if (ret) + dev_err(viif_dev->dev, "failed create_pad_link (isp:src -> capture1:sink)\n"); + + ret = media_create_pad_link(&viif_dev->isp_subdev.sd.entity, VIIF_ISP_PAD_SRC_PATH2, + &viif_dev->cap_dev2.vdev.entity, VIIF_CAPTURE_PAD_SINK, + MEDIA_LNK_FL_ENABLED); + if (ret) + dev_err(viif_dev->dev, "failed create_pad_link (isp:src -> capture2:sink)\n"); +} + +static void visconti_viif_notify_unbind(struct v4l2_async_notifier *notifier, + struct v4l2_subdev *subdev, struct v4l2_async_subdev *asd) +{ + struct v4l2_device *v4l2_dev = notifier->v4l2_dev; + struct viif_subdev *viif_sd = to_viif_subdev(asd); + + v4l2_dev->ctrl_handler = NULL; + viif_sd->v4l2_sd = NULL; +} + +static int visconti_viif_notify_complete(struct v4l2_async_notifier *notifier) +{ + struct v4l2_device *v4l2_dev = notifier->v4l2_dev; + struct viif_device *viif_dev = v4l2_to_viif(v4l2_dev); + int ret; + + ret = v4l2_device_register_subdev_nodes(v4l2_dev); + if (ret < 0) { + dev_err(v4l2_dev->dev, "Failed to register subdev nodes\n"); + return ret; + } + + /* Make sure at least one sensor is primary and use it to initialize */ + if (!viif_dev->sd) { + viif_dev->sd = &viif_dev->subdevs[0]; + viif_dev->sd_index = 0; + } + + /* TODO: might need to check if subdev's mbus code is valid for this driver */ + + ret = visconti_viif_capture_register_ctrl_handlers(viif_dev); + if (ret) + return ret; + + visconti_viif_create_links(viif_dev); + + return 0; +} + +static const struct v4l2_async_notifier_operations viif_notify_ops = { + .bound = visconti_viif_notify_bound, + .unbind = visconti_viif_notify_unbind, + .complete = visconti_viif_notify_complete, +}; + +/* ----- Probe and Remove ----- */ +static int visconti_viif_init_async_subdevs(struct viif_device *viif_dev, unsigned int n_sd) +{ + /* Reserve memory for 'n_sd' viif_subdev descriptors. */ + viif_dev->subdevs = + devm_kcalloc(viif_dev->dev, n_sd, sizeof(*viif_dev->subdevs), GFP_KERNEL); + if (!viif_dev->subdevs) + return -ENOMEM; + + /* Reserve memory for 'n_sd' pointers to async_subdevices. + * viif_dev->asds members will point to &viif_dev.asd + */ + viif_dev->asds = devm_kcalloc(viif_dev->dev, n_sd, sizeof(*viif_dev->asds), GFP_KERNEL); + if (!viif_dev->asds) + return -ENOMEM; + + viif_dev->sd = NULL; + viif_dev->sd_index = 0; + viif_dev->num_sd = 0; + + return 0; +} + +static int visconti_viif_parse_dt(struct viif_device *viif_dev) +{ + struct device_node *of = viif_dev->dev->of_node; + struct v4l2_fwnode_endpoint fw_ep; + struct viif_subdev *viif_sd; + struct device_node *ep; + unsigned int i; + int num_ep; + int ret; + + memset(&fw_ep, 0, sizeof(struct v4l2_fwnode_endpoint)); + + num_ep = of_graph_get_endpoint_count(of); + if (!num_ep) + return -ENODEV; + + ret = visconti_viif_init_async_subdevs(viif_dev, num_ep); + if (ret) + return ret; + + for (i = 0; i < num_ep; i++) { + ep = of_graph_get_endpoint_by_regs(of, 0, i); + if (!ep) { + dev_err(viif_dev->dev, "No subdevice connected on endpoint %u.\n", i); + ret = -ENODEV; + goto error_put_node; + } + + ret = v4l2_fwnode_endpoint_parse(of_fwnode_handle(ep), &fw_ep); + if (ret) { + dev_err(viif_dev->dev, "Unable to parse endpoint #%u.\n", i); + goto error_put_node; + } + + if (fw_ep.bus_type != V4L2_MBUS_CSI2_DPHY || + fw_ep.bus.mipi_csi2.num_data_lanes == 0) { + dev_err(viif_dev->dev, "missing CSI-2 properties in endpoint\n"); + ret = -EINVAL; + goto error_put_node; + } + + /* Setup the ceu subdevice and the async subdevice. */ + viif_sd = &viif_dev->subdevs[i]; + INIT_LIST_HEAD(&viif_sd->asd.list); + + viif_sd->mbus_flags = fw_ep.bus.mipi_csi2.flags; + viif_sd->num_lane = fw_ep.bus.mipi_csi2.num_data_lanes; + viif_sd->asd.match_type = V4L2_ASYNC_MATCH_FWNODE; + viif_sd->asd.match.fwnode = + fwnode_graph_get_remote_port_parent(of_fwnode_handle(ep)); + + viif_dev->asds[i] = &viif_sd->asd; + of_node_put(ep); + } + + return num_ep; + +error_put_node: + of_node_put(ep); + return ret; +} + +static const struct of_device_id visconti_viif_of_table[] = { + { + .compatible = "toshiba,visconti-viif", + }, + {}, +}; +MODULE_DEVICE_TABLE(of, visconti_viif_of_table); + +#define NUM_IRQS 3 +#define IRQ_ID_STR "viif" +#define MEDIA_MODEL "visconti_viif" +#define MEDIA_BUS_INFO "platform:visconti_viif" + +static int visconti_viif_probe(struct platform_device *pdev) +{ + const struct of_device_id *of_id; + struct device *dev = &pdev->dev; + struct viif_device *viif_dev; + dma_addr_t table_paddr; + int ret, i, num_sd; + + ret = dma_set_mask_and_coherent(dev, DMA_BIT_MASK(36)); + if (ret) + return ret; + + viif_dev = devm_kzalloc(dev, sizeof(*viif_dev), GFP_KERNEL); + if (!viif_dev) + return -ENOMEM; + + viif_dev->is_powered = 0; + + platform_set_drvdata(pdev, viif_dev); + viif_dev->dev = dev; + + INIT_LIST_HEAD(&viif_dev->cap_dev0.capture); + INIT_LIST_HEAD(&viif_dev->cap_dev1.capture); + INIT_LIST_HEAD(&viif_dev->cap_dev2.capture); + spin_lock_init(&viif_dev->lock); + mutex_init(&viif_dev->mlock); + + viif_dev->capture_reg = devm_platform_ioremap_resource(pdev, 0); + if (IS_ERR(viif_dev->capture_reg)) + return PTR_ERR(viif_dev->capture_reg); + + viif_dev->csi2host_reg = devm_platform_ioremap_resource(pdev, 1); + if (IS_ERR(viif_dev->csi2host_reg)) + return PTR_ERR(viif_dev->csi2host_reg); + + device_property_read_u32(dev, "index", &viif_dev->ch); + + for (i = 0; i < NUM_IRQS; i++) { + ret = platform_get_irq(pdev, i); + if (ret < 0) { + dev_err(dev, "failed to acquire irq resource\n"); + return ret; + } + viif_dev->irq[i] = ret; + ret = devm_request_irq(dev, viif_dev->irq[i], visconti_viif_irq, 0, IRQ_ID_STR, + viif_dev); + if (ret) { + dev_err(dev, "irq request failed\n"); + return ret; + } + } + + viif_dev->table_vaddr = + dma_alloc_wc(dev, sizeof(struct viif_table_area), &table_paddr, GFP_KERNEL); + if (!viif_dev->table_vaddr) { + dev_err(dev, "dma_alloc_wc failed\n"); + return -ENOMEM; + } + viif_dev->table_paddr = (struct viif_table_area *)table_paddr; + + /* build media_dev */ + viif_dev->media_dev.hw_revision = 0; + strscpy(viif_dev->media_dev.model, MEDIA_MODEL, sizeof(viif_dev->media_dev.model)); + viif_dev->media_dev.dev = dev; + strscpy(viif_dev->media_dev.bus_info, MEDIA_BUS_INFO, sizeof(viif_dev->media_dev.bus_info)); + media_device_init(&viif_dev->media_dev); + + /* build v4l2_dev */ + viif_dev->v4l2_dev.mdev = &viif_dev->media_dev; + ret = v4l2_device_register(dev, &viif_dev->v4l2_dev); + if (ret) + goto error_dma_free; + + ret = media_device_register(&viif_dev->media_dev); + if (ret) { + dev_err(dev, "Failed to register media device: %d\n", ret); + goto error_v4l2_unregister; + } + + ret = visconti_viif_isp_register(viif_dev); + if (ret) { + dev_err(dev, "failed to register isp sub node: %d\n", ret); + goto error_media_unregister; + } + ret = visconti_viif_capture_register(viif_dev); + if (ret) { + dev_err(dev, "failed to register capture node: %d\n", ret); + goto error_media_unregister; + } + + /* check device type */ + of_id = of_match_device(visconti_viif_of_table, dev); + + num_sd = visconti_viif_parse_dt(viif_dev); + if (ret < 0) { + ret = num_sd; + goto error_media_unregister; + } + + viif_dev->notifier.v4l2_dev = &viif_dev->v4l2_dev; + v4l2_async_nf_init(&viif_dev->notifier); + for (i = 0; i < num_sd; i++) + __v4l2_async_nf_add_subdev(&viif_dev->notifier, viif_dev->asds[i]); + viif_dev->notifier.ops = &viif_notify_ops; + ret = v4l2_async_nf_register(&viif_dev->v4l2_dev, &viif_dev->notifier); + if (ret) + goto error_media_unregister; + + return 0; + +error_media_unregister: + media_device_unregister(&viif_dev->media_dev); +error_v4l2_unregister: + v4l2_device_unregister(&viif_dev->v4l2_dev); +error_dma_free: + dma_free_wc(&pdev->dev, sizeof(struct viif_table_area), viif_dev->table_vaddr, + (dma_addr_t)viif_dev->table_paddr); + return ret; +} + +static int visconti_viif_remove(struct platform_device *pdev) +{ + struct viif_device *viif_dev = platform_get_drvdata(pdev); + + visconti_viif_isp_unregister(viif_dev); + visconti_viif_capture_unregister(viif_dev); + v4l2_async_nf_unregister(&viif_dev->notifier); + media_device_unregister(&viif_dev->media_dev); + v4l2_device_unregister(&viif_dev->v4l2_dev); + dma_free_wc(&pdev->dev, sizeof(struct viif_table_area), viif_dev->table_vaddr, + (dma_addr_t)viif_dev->table_paddr); + + return 0; +} + +static struct platform_driver visconti_viif_driver = { + .probe = visconti_viif_probe, + .remove = visconti_viif_remove, + .driver = { + .name = "visconti_viif", + .of_match_table = visconti_viif_of_table, + }, +}; + +module_platform_driver(visconti_viif_driver); + +MODULE_AUTHOR("Yuji Ishikawa <yuji2.ishikawa@xxxxxxxxxxxxx>"); +MODULE_DESCRIPTION("Toshiba Visconti Video Input driver"); +MODULE_LICENSE("Dual BSD/GPL"); diff --git a/drivers/media/platform/visconti/viif.h b/drivers/media/platform/visconti/viif.h new file mode 100644 index 000000000..0d9f017bd --- /dev/null +++ b/drivers/media/platform/visconti/viif.h @@ -0,0 +1,195 @@ +/* SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause */ +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#ifndef VIIF_H +#define VIIF_H + +#include <linux/visconti_viif.h> +#include <media/v4l2-async.h> +#include <media/v4l2-common.h> +#include <media/v4l2-ctrls.h> +#include <media/v4l2-dev.h> +#include <media/v4l2-device.h> +#include <media/v4l2-event.h> +#include <media/v4l2-ioctl.h> +#include <media/v4l2-mediabus.h> +#include <media/v4l2-mem2mem.h> +#include <media/videobuf2-dma-contig.h> + +#include "hwd_viif.h" + +#define VIIF_ISP_REGBUF_0 0 +#define VIIF_L2ISP_POST_0 0 +#define VIIF_L2ISP_POST_1 1 + +#define VIIF_CAPTURE_PAD_SINK 0 +#define VIIF_ISP_PAD_SINK 0 +#define VIIF_ISP_PAD_SRC_PATH0 1 +#define VIIF_ISP_PAD_SRC_PATH1 2 +#define VIIF_ISP_PAD_SRC_PATH2 3 +#define VIIF_ISP_PAD_NUM 4 + +#define CAPTURE_PATH_MAIN_POST0 0 +#define CAPTURE_PATH_MAIN_POST1 1 +#define CAPTURE_PATH_SUB 2 + +#define VIIF_DPC_TABLE_BYTES 8192 +#define VIIF_LSC_TABLE_BYTES 1536 +#define VIIF_UNDIST_TABLE_BYTES 8192 +#define VIIF_L2_GAMMA_TABLE_BYTES 512 + +#define VIIF_HW_AVAILABLE_IRQS 4 + +struct viif_fmt { + u32 fourcc; + u8 bpp[3]; + u8 num_planes; + u32 colorspace; + u32 pitch_align; +}; + +struct viif_subdev { + struct v4l2_subdev *v4l2_sd; + struct v4l2_async_subdev asd; + + /* per-subdevice mbus configuration options */ + unsigned int mbus_flags; + unsigned int mbus_code; + unsigned int num_lane; +}; + +struct viif_table_area { + /* viif_l1_dpc_config */ + u32 dpc_table_h[VIIF_DPC_TABLE_BYTES / sizeof(u32)]; + u32 dpc_table_m[VIIF_DPC_TABLE_BYTES / sizeof(u32)]; + u32 dpc_table_l[VIIF_DPC_TABLE_BYTES / sizeof(u32)]; + /* viif_l1_lsc_config */ + u16 lsc_table_gr[VIIF_LSC_TABLE_BYTES / sizeof(u16)]; + u16 lsc_table_r[VIIF_LSC_TABLE_BYTES / sizeof(u16)]; + u16 lsc_table_b[VIIF_LSC_TABLE_BYTES / sizeof(u16)]; + u16 lsc_table_gb[VIIF_LSC_TABLE_BYTES / sizeof(u16)]; + /* viif_l2_undist_config */ + u32 undist_write_g[VIIF_UNDIST_TABLE_BYTES / sizeof(u32)]; + u32 undist_read_b[VIIF_UNDIST_TABLE_BYTES / sizeof(u32)]; + u32 undist_read_g[VIIF_UNDIST_TABLE_BYTES / sizeof(u32)]; + u32 undist_read_r[VIIF_UNDIST_TABLE_BYTES / sizeof(u32)]; + /* viif_l2_gamma_config */ + u16 l2_gamma_table[2][6][VIIF_L2_GAMMA_TABLE_BYTES / sizeof(u16)]; +}; + +/* capture device node information */ +struct cap_dev { + u32 pathid; /* 0 ... MAIN POST0, 1 ... MAIN POST1, 2 ... SUB */ + struct video_device vdev; + struct media_pad capture_pad; + struct v4l2_ctrl_handler ctrl_handler; + + /* vb2 queue, capture buffer list and active buffer pointer */ + struct vb2_queue vb2_vq; + struct list_head capture; + struct vb2_v4l2_buffer *active; + struct vb2_v4l2_buffer *dma_active; + struct vb2_v4l2_buffer *last_active; + int buf_cnt; + unsigned int sequence; + + /* currently configured field and pixel format */ + enum v4l2_field field; + struct v4l2_pix_format_mplane v4l2_pix; + unsigned int out_format; + struct hwd_viif_img_area img_area; + struct hwd_viif_out_process out_process; + + struct viif_device *viif_dev; +}; + +struct isp_subdev { + struct v4l2_subdev sd; + struct media_pad pads[VIIF_ISP_PAD_NUM]; + struct v4l2_subdev_pad_config pad_cfg[VIIF_ISP_PAD_NUM]; + struct mutex ops_lock; /* serialize V4L2 API */ + struct viif_device *viif_dev; + struct v4l2_ctrl_handler ctrl_handler; +}; + +struct viif_device { + struct device *dev; + struct v4l2_device v4l2_dev; + struct media_device media_dev; + struct media_pipeline pipe; + unsigned int ch; + u32 masked_gamma_path; + struct hwd_viif_func *func; + + struct viif_subdev *subdevs; + struct v4l2_async_subdev **asds; + /* async subdev notification helpers */ + struct v4l2_async_notifier notifier; + + /* the subdevice currently in use */ + struct viif_subdev *sd; + unsigned int sd_index; + unsigned int num_sd; + + /* sub device node information */ + struct cap_dev cap_dev0; + struct cap_dev cap_dev1; + struct cap_dev cap_dev2; + struct isp_subdev isp_subdev; + + /* lock - lock access to capture buffer queue and active buffer */ + spinlock_t lock; + + /* mlock - lock access to vb2_queue and video_device intance */ + struct mutex mlock; + + void __iomem *capture_reg; + void __iomem *csi2host_reg; + unsigned int irq[VIIF_HW_AVAILABLE_IRQS]; + + /* Un-cache table area */ + struct viif_table_area *table_vaddr; + struct viif_table_area *table_paddr; + + /* Rawpack mode */ + u32 rawpack_mode; + + /* Error flag checked at delayed vsync handler */ + u32 status_err; + + /* Error flag checked at compound control GET_REPORTED_ERRORS */ + u32 reported_err_main; + u32 reported_err_sub; + u32 reported_err_csi2rx; + + /* Lifecycle: at least one fd for cap_dev is opened */ + int is_powered; +}; + +/* viif.c */ +void visconti_viif_hw_on(struct viif_device *viif_dev); +void visconti_viif_hw_off(struct viif_device *viif_dev); + +/* viif_capture.c */ +int visconti_viif_capture_register(struct viif_device *viif_dev); +void visconti_viif_capture_unregister(struct viif_device *viif_dev); +int visconti_viif_capture_register_ctrl_handlers(struct viif_device *viif_dev); +void visconti_viif_capture_switch_buffer(struct cap_dev *cap_dev, u32 status_err, + u32 l2_transfer_status, u64 timestamp); + +/* viif_isp.c */ +int visconti_viif_isp_register(struct viif_device *viif_dev); +void visconti_viif_isp_unregister(struct viif_device *viif_dev); +int visconti_viif_isp_main_set_unit(struct viif_device *viif_dev); +int visconti_viif_isp_sub_set_unit(struct viif_device *viif_dev); +void visconti_viif_isp_set_compose_rect(struct viif_device *viif_dev, + struct viif_l2_roi_config *roi); + +/* viif_controls.c */ +int visconti_viif_isp_init_controls(struct viif_device *viif_dev); + +#endif /* VIIF_H */ diff --git a/drivers/media/platform/visconti/viif_capture.c b/drivers/media/platform/visconti/viif_capture.c new file mode 100644 index 000000000..aa04e95a8 --- /dev/null +++ b/drivers/media/platform/visconti/viif_capture.c @@ -0,0 +1,1215 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/delay.h> +#include <media/v4l2-common.h> +#include <media/v4l2-subdev.h> + +#include "viif.h" + +#define VIIF_CROP_MAX_X_ISP (8062U) +#define VIIF_CROP_MAX_Y_ISP (3966U) +#define VIIF_CROP_MIN_W (128U) +#define VIIF_CROP_MAX_W_ISP (8190U) +#define VIIF_CROP_MIN_H (128U) +#define VIIF_CROP_MAX_H_ISP (4094U) + +struct viif_buffer { + struct vb2_v4l2_buffer vb; + struct list_head queue; +}; + +static inline struct viif_buffer *vb2_to_viif(struct vb2_v4l2_buffer *vbuf) +{ + return container_of(vbuf, struct viif_buffer, vb); +} + +static inline struct cap_dev *video_drvdata_to_capdev(struct file *file) +{ + return (struct cap_dev *)video_drvdata(file); +} + +static inline struct cap_dev *vb2queue_to_capdev(struct vb2_queue *vq) +{ + return (struct cap_dev *)vb2_get_drv_priv(vq); +} + +/* ----- ISRs and VB2 Operations ----- */ +static int viif_set_img(struct cap_dev *cap_dev, struct vb2_buffer *vb) +{ + struct v4l2_pix_format_mplane *pix = &cap_dev->v4l2_pix; + struct viif_device *viif_dev = cap_dev->viif_dev; + struct hwd_viif_img next_out_img; + dma_addr_t phys_addr; + int i, ret = 0; + + next_out_img.width = pix->width; + next_out_img.height = pix->height; + next_out_img.format = cap_dev->out_format; + + for (i = 0; i < pix->num_planes; i++) { + next_out_img.pixelmap[i].pitch = pix->plane_fmt[i].bytesperline; + phys_addr = vb2_dma_contig_plane_dma_addr(vb, i); + + /* + * TODO: add address mapping here if IOMMU driver get available + * address mapping: + * - DDR0: (CPU)0x0_8000_0000-0x0_FFFF_FFFF -> (HW)0x8000_0000-0xFFFF_FFFF + * - DDR1: (CPU)0x8_8000_0000-0x8_FFFF_FFFF -> (HW)0x0000_0000-0x7FFF_FFFF + */ + next_out_img.pixelmap[i].pmap_paddr = phys_addr; + } + + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) { + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l2_set_img_transmission(viif_dev->ch, VIIF_L2ISP_POST_0, + HWD_VIIF_ENABLE, &cap_dev->img_area, + &cap_dev->out_process, &next_out_img); + hwd_viif_isp_guard_end(viif_dev->ch); + if (ret) + dev_err(viif_dev->dev, "set img error. %d\n", ret); + } else if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST1) { + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l2_set_img_transmission(viif_dev->ch, VIIF_L2ISP_POST_1, + HWD_VIIF_ENABLE, &cap_dev->img_area, + &cap_dev->out_process, &next_out_img); + hwd_viif_isp_guard_end(viif_dev->ch); + if (ret) + dev_err(viif_dev->dev, "set img error. %d\n", ret); + } else if (cap_dev->pathid == CAPTURE_PATH_SUB) { + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_sub_set_img_transmission(viif_dev->ch, &next_out_img); + hwd_viif_isp_guard_end(viif_dev->ch); + if (ret) + dev_err(viif_dev->dev, "set img error. %d\n", ret); + } + + return ret; +} + +void visconti_viif_capture_switch_buffer(struct cap_dev *cap_dev, u32 status_err, + u32 l2_transfer_status, u64 timestamp) +{ + struct viif_device *viif_dev = cap_dev->viif_dev; + struct vb2_v4l2_buffer *vbuf; + enum vb2_buffer_state state; + struct viif_buffer *buf; + + vbuf = cap_dev->dma_active; + if (!vbuf) + goto next; + + cap_dev->buf_cnt--; + vbuf->vb2_buf.timestamp = timestamp; + vbuf->sequence = cap_dev->sequence++; + vbuf->field = cap_dev->field; + if (status_err || l2_transfer_status) + state = VB2_BUF_STATE_ERROR; + else + state = VB2_BUF_STATE_DONE; + + vb2_buffer_done(&vbuf->vb2_buf, state); + cap_dev->dma_active = NULL; + +next: + vbuf = cap_dev->active; + if (!vbuf) + return; + + if (cap_dev->last_active) { + cap_dev->dma_active = cap_dev->last_active; + cap_dev->last_active = NULL; + } else if (!cap_dev->dma_active) { + cap_dev->dma_active = vbuf; + buf = vb2_to_viif(vbuf); + list_del_init(&buf->queue); + } + + if (!list_empty(&cap_dev->capture)) { + buf = list_entry(cap_dev->capture.next, struct viif_buffer, queue); + cap_dev->active = &buf->vb; + viif_set_img(cap_dev, &buf->vb.vb2_buf); + } else { + dev_dbg(viif_dev->dev, "no queue\n"); + cap_dev->last_active = cap_dev->dma_active; + cap_dev->dma_active = NULL; + cap_dev->active = NULL; + } +} + +/* --- Capture buffer control --- */ +static int viif_vb2_setup(struct vb2_queue *vq, unsigned int *count, unsigned int *num_planes, + unsigned int sizes[], struct device *alloc_devs[]) +{ + struct cap_dev *cap_dev = vb2queue_to_capdev(vq); + struct v4l2_pix_format_mplane *pix = &cap_dev->v4l2_pix; + unsigned int i; + + /* num_planes is set: just check plane sizes. */ + if (*num_planes) { + for (i = 0; i < pix->num_planes; i++) + if (sizes[i] < pix->plane_fmt[i].sizeimage) + return -EINVAL; + + return 0; + } + + /* num_planes not set: called from REQBUFS, just set plane sizes. */ + *num_planes = pix->num_planes; + for (i = 0; i < pix->num_planes; i++) + sizes[i] = pix->plane_fmt[i].sizeimage; + + cap_dev->buf_cnt = 0; + + return 0; +} + +static void viif_vb2_queue(struct vb2_buffer *vb) +{ + struct cap_dev *cap_dev = vb2queue_to_capdev(vb->vb2_queue); + struct vb2_v4l2_buffer *vbuf = to_vb2_v4l2_buffer(vb); + struct viif_device *viif_dev = cap_dev->viif_dev; + struct viif_buffer *buf = vb2_to_viif(vbuf); + unsigned long irqflags; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + list_add_tail(&buf->queue, &cap_dev->capture); + cap_dev->buf_cnt++; + + if (!cap_dev->active) { + cap_dev->active = vbuf; + if (!cap_dev->last_active) + viif_set_img(cap_dev, vb); + } + spin_unlock_irqrestore(&viif_dev->lock, irqflags); +} + +static int viif_vb2_prepare(struct vb2_buffer *vb) +{ + struct cap_dev *cap_dev = vb2queue_to_capdev(vb->vb2_queue); + struct v4l2_pix_format_mplane *pix = &cap_dev->v4l2_pix; + struct viif_device *viif_dev = cap_dev->viif_dev; + unsigned int i; + + for (i = 0; i < pix->num_planes; i++) { + if (vb2_plane_size(vb, i) < pix->plane_fmt[i].sizeimage) { + dev_err(viif_dev->dev, "Plane size too small (%lu < %u)\n", + vb2_plane_size(vb, i), pix->plane_fmt[i].sizeimage); + return -EINVAL; + } + + vb2_set_plane_payload(vb, i, pix->plane_fmt[i].sizeimage); + } + return 0; +} + +static int viif_start_streaming(struct vb2_queue *vq, unsigned int count) +{ + struct cap_dev *cap_dev = vb2queue_to_capdev(vq); + struct viif_device *viif_dev = cap_dev->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + + /* note that pipe is shared among paths; see pipe.streaming_count member variable */ + ret = media_pipeline_start(&cap_dev->vdev.entity, &viif_dev->pipe); + if (ret) + dev_err(viif_dev->dev, "start pipeline failed %d\n", ret); + + if (cap_dev->pathid == 0) { + /* CSI2RX start */ + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, video, s_stream, 1); + if (ret) { + dev_err(viif_dev->dev, "Start isp subdevice stream failed. %d\n", ret); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; + } + } + + /* buffer control */ + cap_dev->sequence = 0; + + /* finish critical section: some sensor driver (including imx219) calls schedule() */ + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + /* Camera (CSI2 source) start streaming */ + if (cap_dev->pathid == 0) { + ret = v4l2_subdev_call(viif_sd->v4l2_sd, video, s_stream, 1); + if (ret) { + dev_err(viif_dev->dev, "Start subdev stream failed. %d\n", ret); + (void)v4l2_subdev_call(&viif_dev->isp_subdev.sd, video, s_stream, 0); + return ret; + } + } + + return 0; +} + +static void viif_stop_streaming(struct vb2_queue *vq) +{ + struct cap_dev *cap_dev = vb2queue_to_capdev(vq); + struct viif_device *viif_dev = cap_dev->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + struct viif_buffer *buf; + unsigned long irqflags; + int ret; + + if (cap_dev->pathid == 0) { + ret = v4l2_subdev_call(viif_sd->v4l2_sd, video, s_stream, 0); + if (ret) + dev_err(viif_dev->dev, "Stop subdev stream failed. %d\n", ret); + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + + if (cap_dev->pathid == 0) { + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, video, s_stream, 0); + if (ret) + dev_err(viif_dev->dev, "Stop isp subdevice stream failed %d\n", ret); + } + + /* buffer control */ + cap_dev->active = NULL; + if (cap_dev->dma_active) { + vb2_buffer_done(&cap_dev->dma_active->vb2_buf, VB2_BUF_STATE_ERROR); + cap_dev->buf_cnt--; + cap_dev->dma_active = NULL; + } + if (cap_dev->last_active) { + vb2_buffer_done(&cap_dev->last_active->vb2_buf, VB2_BUF_STATE_ERROR); + cap_dev->buf_cnt--; + cap_dev->last_active = NULL; + } + + /* Release all queued buffers. */ + list_for_each_entry(buf, &cap_dev->capture, queue) { + vb2_buffer_done(&buf->vb.vb2_buf, VB2_BUF_STATE_ERROR); + cap_dev->buf_cnt--; + } + INIT_LIST_HEAD(&cap_dev->capture); + if (cap_dev->buf_cnt) + dev_err(viif_dev->dev, "Buffer count error %d\n", cap_dev->buf_cnt); + + media_pipeline_stop(&cap_dev->vdev.entity); + + spin_unlock_irqrestore(&viif_dev->lock, irqflags); +} + +static const struct vb2_ops viif_vb2_ops = { + .queue_setup = viif_vb2_setup, + .buf_queue = viif_vb2_queue, + .buf_prepare = viif_vb2_prepare, + .wait_prepare = vb2_ops_wait_prepare, + .wait_finish = vb2_ops_wait_finish, + .start_streaming = viif_start_streaming, + .stop_streaming = viif_stop_streaming, +}; + +/* --- VIIF hardware settings --- */ +/* L2ISP output csc setting for YUV to RGB(ITU-R BT.709) */ +static const struct hwd_viif_csc_param viif_csc_yuv2rgb = { + .r_cr_in_offset = 0x18000, + .g_y_in_offset = 0x1f000, + .b_cb_in_offset = 0x18000, + .coef = { + [0] = 0x1000, + [1] = 0xfd12, + [2] = 0xf8ad, + [3] = 0x1000, + [4] = 0x1d07, + [5] = 0x0000, + [6] = 0x1000, + [7] = 0x0000, + [8] = 0x18a2, + }, + .r_cr_out_offset = 0x1000, + .g_y_out_offset = 0x1000, + .b_cb_out_offset = 0x1000, +}; + +/* L2ISP output csc setting for RGB to YUV(ITU-R BT.709) */ +static const struct hwd_viif_csc_param viif_csc_rgb2yuv = { + .r_cr_in_offset = 0x1f000, + .g_y_in_offset = 0x1f000, + .b_cb_in_offset = 0x1f000, + .coef = { + [0] = 0x0b71, + [1] = 0x0128, + [2] = 0x0367, + [3] = 0xf9b1, + [4] = 0x082f, + [5] = 0xfe20, + [6] = 0xf891, + [7] = 0xff40, + [8] = 0x082f, + }, + .r_cr_out_offset = 0x8000, + .g_y_out_offset = 0x1000, + .b_cb_out_offset = 0x8000, +}; + +static int viif_l2_set_format(struct cap_dev *cap_dev) +{ + struct v4l2_pix_format_mplane *pix = &cap_dev->v4l2_pix; + struct viif_device *viif_dev = cap_dev->viif_dev; + const struct hwd_viif_csc_param *csc_param = NULL; + struct v4l2_subdev_selection sel = { + .target = V4L2_SEL_TGT_CROP, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + struct v4l2_subdev_format fmt = { + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + bool inp_is_rgb = false; + bool out_is_rgb = false; + u32 postid; + int ret; + + /* check path id */ + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) { + sel.pad = VIIF_ISP_PAD_SRC_PATH0; + fmt.pad = VIIF_ISP_PAD_SRC_PATH0; + postid = VIIF_L2ISP_POST_0; + } else if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST1) { + sel.pad = VIIF_ISP_PAD_SRC_PATH1; + fmt.pad = VIIF_ISP_PAD_SRC_PATH1; + postid = VIIF_L2ISP_POST_1; + } else { + return -EINVAL; + } + + cap_dev->out_process.half_scale = HWD_VIIF_DISABLE; + cap_dev->out_process.select_color = HWD_VIIF_COLOR_YUV_RGB; + cap_dev->out_process.alpha = 0; + + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, pad, get_selection, NULL, &sel); + if (ret) { + cap_dev->img_area.x = 0; + cap_dev->img_area.y = 0; + cap_dev->img_area.w = pix->width; + cap_dev->img_area.h = pix->height; + } else { + cap_dev->img_area.x = sel.r.left; + cap_dev->img_area.y = sel.r.top; + cap_dev->img_area.w = sel.r.width; + cap_dev->img_area.h = sel.r.height; + } + + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, pad, get_fmt, NULL, &fmt); + if (!ret) + inp_is_rgb = (fmt.format.code == MEDIA_BUS_FMT_RGB888_1X24); + + switch (pix->pixelformat) { + case V4L2_PIX_FMT_RGB24: + cap_dev->out_format = HWD_VIIF_RGB888_PACKED; + out_is_rgb = true; + break; + case V4L2_PIX_FMT_ABGR32: + cap_dev->out_format = HWD_VIIF_ARGB8888_PACKED; + cap_dev->out_process.alpha = 0xff; + out_is_rgb = true; + break; + case V4L2_PIX_FMT_YUV422M: + cap_dev->out_format = HWD_VIIF_YCBCR422_8_PLANAR; + break; + case V4L2_PIX_FMT_YUV444M: + cap_dev->out_format = HWD_VIIF_RGB888_YCBCR444_8_PLANAR; + break; + case V4L2_PIX_FMT_Y16: + cap_dev->out_format = HWD_VIIF_ONE_COLOR_16; + cap_dev->out_process.select_color = HWD_VIIF_COLOR_Y_G; + break; + } + + if (!inp_is_rgb && out_is_rgb) + csc_param = &viif_csc_yuv2rgb; /* YUV -> RGB */ + else if (inp_is_rgb && !out_is_rgb) + csc_param = &viif_csc_rgb2yuv; /* RGB -> YUV */ + + return hwd_viif_l2_set_output_csc(viif_dev->ch, postid, csc_param); +} + +/* --- IOCTL Operations --- */ +static const struct viif_fmt viif_fmt_list[] = { + { + .fourcc = V4L2_PIX_FMT_RGB24, + .bpp = { 24, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_SRGB, + .pitch_align = 384, + }, + { + .fourcc = V4L2_PIX_FMT_ABGR32, + .bpp = { 32, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_SRGB, + .pitch_align = 512, + }, + { + .fourcc = V4L2_PIX_FMT_YUV422M, + .bpp = { 8, 4, 4 }, + .num_planes = 3, + .colorspace = V4L2_COLORSPACE_REC709, + .pitch_align = 128, + }, + { + .fourcc = V4L2_PIX_FMT_YUV444M, + .bpp = { 8, 8, 8 }, + .num_planes = 3, + .colorspace = V4L2_COLORSPACE_REC709, + .pitch_align = 128, + }, + { + .fourcc = V4L2_PIX_FMT_Y16, + .bpp = { 16, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_REC709, + .pitch_align = 128, + }, +}; + +static const struct viif_fmt viif_rawfmt_list[] = { + { + .fourcc = V4L2_PIX_FMT_SRGGB10, + .bpp = { 16, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_SRGB, + .pitch_align = 256, + }, + { + .fourcc = V4L2_PIX_FMT_SRGGB12, + .bpp = { 16, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_SRGB, + .pitch_align = 256, + }, + { + .fourcc = V4L2_PIX_FMT_SRGGB14, + .bpp = { 16, 0, 0 }, + .num_planes = 1, + .colorspace = V4L2_COLORSPACE_SRGB, + .pitch_align = 256, + }, +}; + +static const struct viif_fmt *get_viif_fmt_from_fourcc(unsigned int fourcc) +{ + const struct viif_fmt *fmt = &viif_fmt_list[0]; + unsigned int i; + + for (i = 0; i < ARRAY_SIZE(viif_fmt_list); i++, fmt++) + if (fmt->fourcc == fourcc) + return fmt; + + return NULL; +} + +static void viif_update_plane_sizes(struct v4l2_plane_pix_format *plane, unsigned int bpl, + unsigned int szimage) +{ + memset(plane, 0, sizeof(*plane)); + + plane->sizeimage = szimage; + plane->bytesperline = bpl; +} + +static void viif_calc_plane_sizes(const struct viif_fmt *viif_fmt, + struct v4l2_pix_format_mplane *pix) +{ + unsigned int i, bpl, szimage; + + for (i = 0; i < viif_fmt->num_planes; i++) { + bpl = pix->width * viif_fmt->bpp[i] / 8; + /* round up ptch */ + bpl = (bpl + (viif_fmt->pitch_align - 1)) / viif_fmt->pitch_align; + bpl *= viif_fmt->pitch_align; + szimage = pix->height * bpl; + viif_update_plane_sizes(&pix->plane_fmt[i], bpl, szimage); + } + pix->num_planes = viif_fmt->num_planes; +} + +static int viif_querycap(struct file *file, void *priv, struct v4l2_capability *cap) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + + strscpy(cap->card, "Toshiba VIIF", sizeof(cap->card)); + strscpy(cap->driver, "viif", sizeof(cap->driver)); + snprintf(cap->bus_info, sizeof(cap->bus_info), "platform:toshiba-viif-%s", + dev_name(viif_dev->dev)); + return 0; +} + +static int viif_enum_rawfmt(struct cap_dev *cap_dev, struct v4l2_fmtdesc *f) +{ + if (f->index >= ARRAY_SIZE(viif_rawfmt_list)) + return -EINVAL; + + f->pixelformat = viif_rawfmt_list[f->index].fourcc; + + return 0; +} + +static int viif_enum_fmt_vid_cap(struct file *file, void *priv, struct v4l2_fmtdesc *f) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + const struct viif_fmt *fmt; + + if (cap_dev->pathid == 2) + return viif_enum_rawfmt(cap_dev, f); + + if (f->index >= ARRAY_SIZE(viif_fmt_list)) + return -EINVAL; + + fmt = &viif_fmt_list[f->index]; + f->pixelformat = fmt->fourcc; + + return 0; +} + +/* size of minimum/maximum output image */ +#define VIIF_MIN_OUTPUT_IMG_WIDTH (128U) +#define VIIF_MAX_OUTPUT_IMG_WIDTH_ISP (5760U) +#define VIIF_MAX_OUTPUT_IMG_WIDTH_SUB (4096U) + +#define VIIF_MIN_OUTPUT_IMG_HEIGHT (128U) +#define VIIF_MAX_OUTPUT_IMG_HEIGHT_ISP (3240U) +#define VIIF_MAX_OUTPUT_IMG_HEIGHT_SUB (2160U) + +static int viif_try_fmt(struct cap_dev *cap_dev, struct v4l2_format *v4l2_fmt) +{ + struct v4l2_pix_format_mplane *pix = &v4l2_fmt->fmt.pix_mp; + struct viif_device *viif_dev = cap_dev->viif_dev; + struct v4l2_subdev_format format = { + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + const struct viif_fmt *viif_fmt; + int ret; + + /* check path id */ + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) + format.pad = VIIF_ISP_PAD_SRC_PATH0; + else if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST1) + format.pad = VIIF_ISP_PAD_SRC_PATH1; + else + format.pad = VIIF_ISP_PAD_SRC_PATH2; + + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, pad, get_fmt, NULL, &format); + if (ret) + return -EINVAL; + + /* fourcc check */ + if (cap_dev->pathid == CAPTURE_PATH_SUB) { + switch (format.format.code) { + case MEDIA_BUS_FMT_SRGGB10_1X10: + case MEDIA_BUS_FMT_SGRBG10_1X10: + case MEDIA_BUS_FMT_SGBRG10_1X10: + case MEDIA_BUS_FMT_SBGGR10_1X10: + viif_fmt = &viif_rawfmt_list[0]; /*V4L2_PIX_FMT_SRGGB10*/ + pix->pixelformat = viif_fmt->fourcc; + break; + case MEDIA_BUS_FMT_SRGGB12_1X12: + case MEDIA_BUS_FMT_SGRBG12_1X12: + case MEDIA_BUS_FMT_SGBRG12_1X12: + case MEDIA_BUS_FMT_SBGGR12_1X12: + viif_fmt = &viif_rawfmt_list[1]; /*V4L2_PIX_FMT_SRGGB12*/ + pix->pixelformat = viif_fmt->fourcc; + break; + case MEDIA_BUS_FMT_SRGGB14_1X14: + case MEDIA_BUS_FMT_SGRBG14_1X14: + case MEDIA_BUS_FMT_SGBRG14_1X14: + case MEDIA_BUS_FMT_SBGGR14_1X14: + viif_fmt = &viif_rawfmt_list[2]; /*V4L2_PIX_FMT_SRGGB14*/ + pix->pixelformat = viif_fmt->fourcc; + break; + default: + return -EINVAL; + } + } else { + viif_fmt = get_viif_fmt_from_fourcc(pix->pixelformat); + if (!viif_fmt) + return -EINVAL; + } + + /* min/max width, height check */ + if (pix->width < VIIF_MIN_OUTPUT_IMG_WIDTH) + pix->width = VIIF_MIN_OUTPUT_IMG_WIDTH; + + if (pix->width > VIIF_MAX_OUTPUT_IMG_WIDTH_ISP) + pix->width = VIIF_MAX_OUTPUT_IMG_WIDTH_ISP; + + if (pix->height < VIIF_MIN_OUTPUT_IMG_HEIGHT) + pix->height = VIIF_MIN_OUTPUT_IMG_HEIGHT; + + if (pix->height > VIIF_MAX_OUTPUT_IMG_HEIGHT_ISP) + pix->height = VIIF_MAX_OUTPUT_IMG_HEIGHT_ISP; + + /* consistency with isp::pad::src::fmt */ + if (pix->width != format.format.width) + return -EINVAL; + if (pix->height != format.format.height) + return -EINVAL; + + /* update derived parameters, such as bpp */ + viif_calc_plane_sizes(viif_fmt, pix); + + return 0; +} + +static int viif_try_fmt_vid_cap(struct file *file, void *priv, struct v4l2_format *f) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + + return viif_try_fmt(cap_dev, f); +} + +static int viif_s_fmt_vid_cap(struct file *file, void *priv, struct v4l2_format *f) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + struct viif_device *viif_dev = cap_dev->viif_dev; + int ret = 0; + + if (vb2_is_streaming(&cap_dev->vb2_vq)) + return -EBUSY; + + if (f->type != cap_dev->vb2_vq.type) + return -EINVAL; + + ret = viif_try_fmt(cap_dev, f); + if (ret) + return ret; + + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) { + /* TODO: this function should be called from viif_isp_s_stream()?? */ + ret = visconti_viif_isp_main_set_unit(viif_dev); + if (ret) + return ret; + } + + cap_dev->v4l2_pix = f->fmt.pix_mp; + cap_dev->field = V4L2_FIELD_NONE; + + if (cap_dev->pathid == CAPTURE_PATH_SUB) { + cap_dev->out_format = HWD_VIIF_ONE_COLOR_16; + ret = visconti_viif_isp_sub_set_unit(viif_dev); + } else { + ret = viif_l2_set_format(cap_dev); + } + + return ret; +} + +static int viif_g_fmt_vid_cap(struct file *file, void *priv, struct v4l2_format *f) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + + f->fmt.pix_mp = cap_dev->v4l2_pix; + + return 0; +} + +static int viif_enum_input(struct file *file, void *priv, struct v4l2_input *inp) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd; + struct v4l2_subdev *v4l2_sd; + int ret; + + if (inp->index >= viif_dev->num_sd) + return -EINVAL; + + viif_sd = &viif_dev->subdevs[inp->index]; + v4l2_sd = viif_sd->v4l2_sd; + + ret = v4l2_subdev_call(v4l2_sd, video, g_input_status, &inp->status); + if (ret < 0 && ret != -ENOIOCTLCMD && ret != -ENODEV) + return ret; + inp->type = V4L2_INPUT_TYPE_CAMERA; + inp->std = 0; + if (v4l2_subdev_has_op(v4l2_sd, pad, dv_timings_cap)) + inp->capabilities = V4L2_IN_CAP_DV_TIMINGS; + else + inp->capabilities = V4L2_IN_CAP_STD; + snprintf(inp->name, sizeof(inp->name), "Camera%u: %s", inp->index, viif_sd->v4l2_sd->name); + + return 0; +} + +static int viif_g_input(struct file *file, void *priv, unsigned int *i) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + + *i = viif_dev->sd_index; + + return 0; +} + +static int viif_s_input(struct file *file, void *priv, unsigned int i) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + + if (i >= viif_dev->num_sd) + return -EINVAL; + + return 0; +} + +static int viif_g_selection(struct file *file, void *priv, struct v4l2_selection *s) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + struct viif_device *viif_dev = cap_dev->viif_dev; + struct v4l2_subdev_selection sel = { + .target = V4L2_SEL_TGT_CROP, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + int ret; + + /* check path id */ + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) + sel.pad = VIIF_ISP_PAD_SRC_PATH0; + else if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST1) + sel.pad = VIIF_ISP_PAD_SRC_PATH1; + else + return -EINVAL; + + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, pad, get_selection, NULL, &sel); + s->r = sel.r; + + return ret; +} + +static int viif_s_selection(struct file *file, void *priv, struct v4l2_selection *s) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + struct viif_device *viif_dev = cap_dev->viif_dev; + struct v4l2_subdev_selection sel = { + .target = V4L2_SEL_TGT_CROP, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + .r = s->r, + }; + int ret; + + /* check path id */ + if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST0) + sel.pad = VIIF_ISP_PAD_SRC_PATH0; + else if (cap_dev->pathid == CAPTURE_PATH_MAIN_POST1) + sel.pad = VIIF_ISP_PAD_SRC_PATH1; + else + return -EINVAL; + + if (s->r.left > VIIF_CROP_MAX_X_ISP || s->r.top > VIIF_CROP_MAX_Y_ISP || + s->r.width < VIIF_CROP_MIN_W || s->r.width > VIIF_CROP_MAX_W_ISP || + s->r.height < VIIF_CROP_MIN_H || s->r.height > VIIF_CROP_MAX_H_ISP) { + return -EINVAL; + } + + ret = v4l2_subdev_call(&viif_dev->isp_subdev.sd, pad, set_selection, NULL, &sel); + s->r = sel.r; + + return ret; +} + +static int viif_dv_timings_cap(struct file *file, void *priv_fh, struct v4l2_dv_timings_cap *cap) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, pad, dv_timings_cap, cap); +} + +static int viif_enum_dv_timings(struct file *file, void *priv_fh, + struct v4l2_enum_dv_timings *timings) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, pad, enum_dv_timings, timings); +} + +static int viif_g_dv_timings(struct file *file, void *priv_fh, struct v4l2_dv_timings *timings) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, video, g_dv_timings, timings); +} + +static int viif_s_dv_timings(struct file *file, void *priv_fh, struct v4l2_dv_timings *timings) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, video, s_dv_timings, timings); +} + +static int viif_query_dv_timings(struct file *file, void *priv_fh, struct v4l2_dv_timings *timings) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, video, query_dv_timings, timings); +} + +static int viif_g_edid(struct file *file, void *fh, struct v4l2_edid *edid) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, pad, get_edid, edid); +} + +static int viif_s_edid(struct file *file, void *fh, struct v4l2_edid *edid) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + + return v4l2_subdev_call(viif_sd->v4l2_sd, pad, set_edid, edid); +} + +static int viif_g_parm(struct file *file, void *fh, struct v4l2_streamparm *a) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + + return v4l2_g_parm_cap(video_devdata(file), viif_dev->sd->v4l2_sd, a); +} + +static int viif_s_parm(struct file *file, void *fh, struct v4l2_streamparm *a) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + + return v4l2_s_parm_cap(video_devdata(file), viif_dev->sd->v4l2_sd, a); +} + +static int viif_enum_framesizes(struct file *file, void *fh, struct v4l2_frmsizeenum *fsize) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd; + struct v4l2_subdev_frame_size_enum fse = { + .code = viif_sd->mbus_code, + .index = fsize->index, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + int ret; + + ret = v4l2_subdev_call(v4l2_sd, pad, enum_frame_size, NULL, &fse); + if (ret) + return ret; + + fsize->type = V4L2_FRMSIZE_TYPE_DISCRETE; + fsize->discrete.width = fse.max_width; + fsize->discrete.height = fse.max_height; + + return 0; +} + +static int viif_enum_frameintervals(struct file *file, void *fh, struct v4l2_frmivalenum *fival) +{ + struct viif_device *viif_dev = video_drvdata_to_capdev(file)->viif_dev; + struct viif_subdev *viif_sd = viif_dev->sd; + struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd; + struct v4l2_subdev_frame_interval_enum fie = { + .code = viif_sd->mbus_code, + .index = fival->index, + .width = fival->width, + .height = fival->height, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + int ret; + + ret = v4l2_subdev_call(v4l2_sd, pad, enum_frame_interval, NULL, &fie); + if (ret) + return ret; + + fival->type = V4L2_FRMIVAL_TYPE_DISCRETE; + fival->discrete = fie.interval; + + return 0; +} + +static const struct v4l2_ioctl_ops viif_ioctl_ops = { + .vidioc_querycap = viif_querycap, + + .vidioc_enum_fmt_vid_cap = viif_enum_fmt_vid_cap, + .vidioc_try_fmt_vid_cap_mplane = viif_try_fmt_vid_cap, + .vidioc_s_fmt_vid_cap_mplane = viif_s_fmt_vid_cap, + .vidioc_g_fmt_vid_cap_mplane = viif_g_fmt_vid_cap, + + .vidioc_enum_input = viif_enum_input, + .vidioc_g_input = viif_g_input, + .vidioc_s_input = viif_s_input, + + .vidioc_g_selection = viif_g_selection, + .vidioc_s_selection = viif_s_selection, + + .vidioc_dv_timings_cap = viif_dv_timings_cap, + .vidioc_enum_dv_timings = viif_enum_dv_timings, + .vidioc_g_dv_timings = viif_g_dv_timings, + .vidioc_s_dv_timings = viif_s_dv_timings, + .vidioc_query_dv_timings = viif_query_dv_timings, + + .vidioc_g_edid = viif_g_edid, + .vidioc_s_edid = viif_s_edid, + + .vidioc_g_parm = viif_g_parm, + .vidioc_s_parm = viif_s_parm, + + .vidioc_enum_framesizes = viif_enum_framesizes, + .vidioc_enum_frameintervals = viif_enum_frameintervals, + + .vidioc_reqbufs = vb2_ioctl_reqbufs, + .vidioc_querybuf = vb2_ioctl_querybuf, + .vidioc_qbuf = vb2_ioctl_qbuf, + .vidioc_expbuf = vb2_ioctl_expbuf, + .vidioc_dqbuf = vb2_ioctl_dqbuf, + .vidioc_create_bufs = vb2_ioctl_create_bufs, + .vidioc_prepare_buf = vb2_ioctl_prepare_buf, + .vidioc_streamon = vb2_ioctl_streamon, + .vidioc_streamoff = vb2_ioctl_streamoff, + + .vidioc_log_status = v4l2_ctrl_log_status, + .vidioc_subscribe_event = v4l2_ctrl_subscribe_event, + .vidioc_unsubscribe_event = v4l2_event_unsubscribe, +}; + +/* --- File Operations --- */ +static int viif_capture_open(struct file *file) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + struct viif_device *viif_dev = cap_dev->viif_dev; + int ret; + + ret = v4l2_fh_open(file); + if (ret) + return ret; + + /* PATH0 only */ + if (cap_dev->pathid > 0) + return 0; + + viif_dev->rawpack_mode = HWD_VIIF_RAWPACK_DISABLE; + + viif_dev->is_powered = 1; + + mutex_lock(&viif_dev->mlock); + + /* Initialize HWD driver */ + visconti_viif_hw_on(viif_dev); + + /* VSYNC mask setting of MAIN unit */ + hwd_viif_main_vsync_set_irq_mask(viif_dev->ch, 0x00050003); + + /* STATUS error mask setting(unmask) of MAIN unit */ + hwd_viif_main_status_err_set_irq_mask(viif_dev->ch, 0x01000000); + + /* VSYNC mask settings of SUB unit */ + hwd_viif_sub_vsync_set_irq_mask(viif_dev->ch, 0x00030001); + + /* STATUS error mask setting(unmask) of SUB unit */ + hwd_viif_sub_status_err_set_irq_mask(viif_dev->ch, 0x11010000); + + mutex_unlock(&viif_dev->mlock); + + return ret; +} + +static int viif_capture_release(struct file *file) +{ + struct cap_dev *cap_dev = video_drvdata_to_capdev(file); + struct viif_device *viif_dev = cap_dev->viif_dev; + int ret; + + ret = vb2_fop_release(file); + if (ret) + return ret; + + /* PATH0 only */ + if (cap_dev->pathid > 0) + return 0; + + mutex_lock(&viif_dev->mlock); + visconti_viif_hw_off(viif_dev); + mutex_unlock(&viif_dev->mlock); + + viif_dev->is_powered = 0; + + return 0; +} + +static const struct v4l2_file_operations viif_fops = { + .owner = THIS_MODULE, + .open = viif_capture_open, + .release = viif_capture_release, + .unlocked_ioctl = video_ioctl2, + .mmap = vb2_fop_mmap, + .poll = vb2_fop_poll, +}; + +/* ----- media control callbacks ----- */ +static int viif_capture_link_validate(struct media_link *link) +{ + /* TODO: add link validation at start-stream */ + return 0; +} + +static const struct media_entity_operations viif_media_ops = { + .link_validate = viif_capture_link_validate, +}; + +/* ----- attach ctrl callbacck handler ----- */ +int visconti_viif_capture_register_ctrl_handlers(struct viif_device *viif_dev) +{ + int ret; + + /* wire cap_dev 0 */ + ret = v4l2_ctrl_add_handler(&viif_dev->cap_dev0.ctrl_handler, + viif_dev->sd->v4l2_sd->ctrl_handler, NULL, true); + if (ret) { + dev_err(viif_dev->dev, "Failed to add sensor ctrl_handler"); + return ret; + } + ret = v4l2_ctrl_add_handler(&viif_dev->cap_dev0.ctrl_handler, + &viif_dev->isp_subdev.ctrl_handler, NULL, true); + if (ret) { + dev_err(viif_dev->dev, "Failed to add isp subdev ctrl_handler"); + return ret; + } + + /* wire cap_dev 1 */ + ret = v4l2_ctrl_add_handler(&viif_dev->cap_dev1.ctrl_handler, + viif_dev->sd->v4l2_sd->ctrl_handler, NULL, true); + if (ret) { + dev_err(viif_dev->dev, "Failed to add sensor ctrl_handler"); + return ret; + } + ret = v4l2_ctrl_add_handler(&viif_dev->cap_dev1.ctrl_handler, + &viif_dev->isp_subdev.ctrl_handler, NULL, true); + if (ret) { + dev_err(viif_dev->dev, "Failed to add isp subdev ctrl_handler"); + return ret; + } + + /* no need to wire cap_dev 2 */ + + return 0; +} + +/* ----- register/remove capture device node ----- */ +static int visconti_viif_capture_register_node(struct cap_dev *cap_dev) +{ + struct viif_device *viif_dev = cap_dev->viif_dev; + struct v4l2_device *v4l2_dev = &viif_dev->v4l2_dev; + struct video_device *vdev = &cap_dev->vdev; + struct vb2_queue *q = &cap_dev->vb2_vq; + static const char *const node_name[] = { + "viif_capture_post0", + "viif_capture_post1", + "viif_capture_sub", + }; + int ret; + + /* Initialize vb2 queue. */ + q->type = V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE; + q->io_modes = VB2_DMABUF; + q->timestamp_flags = V4L2_BUF_FLAG_TIMESTAMP_MONOTONIC; + q->ops = &viif_vb2_ops; + q->mem_ops = &vb2_dma_contig_memops; + q->drv_priv = cap_dev; + q->buf_struct_size = sizeof(struct viif_buffer); + q->min_buffers_needed = 2; + q->lock = &viif_dev->mlock; + q->dev = viif_dev->v4l2_dev.dev; + + ret = vb2_queue_init(q); + if (ret) + return ret; + + /* Register the video device. */ + strscpy(vdev->name, node_name[cap_dev->pathid], sizeof(vdev->name)); + vdev->v4l2_dev = v4l2_dev; + vdev->lock = &viif_dev->mlock; + vdev->queue = &cap_dev->vb2_vq; + vdev->ctrl_handler = NULL; + vdev->fops = &viif_fops; + vdev->ioctl_ops = &viif_ioctl_ops; + vdev->device_caps = V4L2_CAP_VIDEO_CAPTURE_MPLANE | V4L2_CAP_STREAMING; + vdev->device_caps |= V4L2_CAP_IO_MC; + vdev->entity.ops = &viif_media_ops; + vdev->release = video_device_release_empty; + video_set_drvdata(vdev, cap_dev); + vdev->vfl_dir = VFL_DIR_RX; + cap_dev->capture_pad.flags = MEDIA_PAD_FL_SINK; + + ret = video_register_device(vdev, VFL_TYPE_VIDEO, -1); + if (ret < 0) { + dev_err(v4l2_dev->dev, "video_register_device failed: %d\n", ret); + return ret; + } + + ret = media_entity_pads_init(&vdev->entity, 1, &cap_dev->capture_pad); + if (ret) { + video_unregister_device(vdev); + return ret; + } + + ret = v4l2_ctrl_handler_init(&cap_dev->ctrl_handler, 30); + if (ret) + return -ENOMEM; + + cap_dev->vdev.ctrl_handler = &cap_dev->ctrl_handler; + + return 0; +} + +int visconti_viif_capture_register(struct viif_device *viif_dev) +{ + struct cap_dev *cap_dev; + int ret; + + { + cap_dev = &viif_dev->cap_dev0; + cap_dev->pathid = 0; + cap_dev->viif_dev = viif_dev; + ret = visconti_viif_capture_register_node(cap_dev); + if (ret) + return ret; + } + { + cap_dev = &viif_dev->cap_dev1; + cap_dev->pathid = 1; + cap_dev->viif_dev = viif_dev; + ret = visconti_viif_capture_register_node(cap_dev); + if (ret) + return ret; + } + { + cap_dev = &viif_dev->cap_dev2; + cap_dev->pathid = 2; + cap_dev->viif_dev = viif_dev; + ret = visconti_viif_capture_register_node(cap_dev); + if (ret) + return ret; + } + + return 0; +} + +static void visconti_viif_capture_unregister_node(struct cap_dev *cap_dev) +{ + media_entity_cleanup(&cap_dev->vdev.entity); + v4l2_ctrl_handler_free(&cap_dev->ctrl_handler); + vb2_video_unregister_device(&cap_dev->vdev); +} + +void visconti_viif_capture_unregister(struct viif_device *viif_dev) +{ + visconti_viif_capture_unregister_node(&viif_dev->cap_dev0); + visconti_viif_capture_unregister_node(&viif_dev->cap_dev1); + visconti_viif_capture_unregister_node(&viif_dev->cap_dev2); +} diff --git a/drivers/media/platform/visconti/viif_controls.c b/drivers/media/platform/visconti/viif_controls.c new file mode 100644 index 000000000..184088bbd --- /dev/null +++ b/drivers/media/platform/visconti/viif_controls.c @@ -0,0 +1,1149 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <linux/delay.h> +#include <media/v4l2-common.h> +#include <media/v4l2-subdev.h> + +#include "viif.h" + +static int viif_main_set_rawpack_mode(struct viif_device *viif_dev, u32 *rawpack) +{ + if (vb2_is_streaming(&viif_dev->cap_dev0.vb2_vq)) + return -EBUSY; + + if (*rawpack == VIIF_RAWPACK_DISABLE) { + viif_dev->rawpack_mode = HWD_VIIF_RAWPACK_DISABLE; + return 0; + } + if (*rawpack == VIIF_RAWPACK_MSBFIRST) { + viif_dev->rawpack_mode = HWD_VIIF_RAWPACK_MSBFIRST; + return 0; + } + if (*rawpack == VIIF_RAWPACK_LSBFIRST) { + viif_dev->rawpack_mode = HWD_VIIF_RAWPACK_LSBFIRST; + return 0; + } + + return -EINVAL; +} + +static int viif_l1_set_input_mode(struct viif_device *viif_dev, + struct viif_l1_input_mode_config *input_mode) +{ + u32 mode, raw_color_filter; + unsigned long irqflags; + int ret; + + /* SDR input is not supported */ + if (input_mode->mode == VIIF_L1_INPUT_HDR) + mode = HWD_VIIF_L1_INPUT_HDR; + else if (input_mode->mode == VIIF_L1_INPUT_PWL) + mode = HWD_VIIF_L1_INPUT_PWL; + else if (input_mode->mode == VIIF_L1_INPUT_HDR_IMG_CORRECT) + mode = HWD_VIIF_L1_INPUT_HDR_IMG_CORRECT; + else if (input_mode->mode == VIIF_L1_INPUT_PWL_IMG_CORRECT) + mode = HWD_VIIF_L1_INPUT_PWL_IMG_CORRECT; + else + return -EINVAL; + + if (input_mode->raw_color_filter == VIIF_L1_RAW_GR_R_B_GB) + raw_color_filter = HWD_VIIF_L1_RAW_GR_R_B_GB; + else if (input_mode->raw_color_filter == VIIF_L1_RAW_R_GR_GB_B) + raw_color_filter = HWD_VIIF_L1_RAW_R_GR_GB_B; + else if (input_mode->raw_color_filter == VIIF_L1_RAW_B_GB_GR_R) + raw_color_filter = HWD_VIIF_L1_RAW_B_GB_GR_R; + else if (input_mode->raw_color_filter == VIIF_L1_RAW_GB_B_R_GR) + raw_color_filter = HWD_VIIF_L1_RAW_GB_B_R_GR; + else + return -EINVAL; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_input_mode(viif_dev->ch, mode, input_mode->depth, raw_color_filter); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_rgb_to_y_coef(struct viif_device *viif_dev, + struct viif_l1_rgb_to_y_coef_config *l1_rgb_to_y_coef) +{ + int ret; + unsigned long irqflags; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_rgb_to_y_coef(viif_dev->ch, l1_rgb_to_y_coef->coef_r, + l1_rgb_to_y_coef->coef_g, l1_rgb_to_y_coef->coef_b); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_ag_mode(struct viif_device *viif_dev, + struct viif_l1_ag_mode_config *l1_ag_mode) +{ + int ret; + unsigned long irqflags; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_ag_mode(viif_dev->ch, l1_ag_mode); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_ag(struct viif_device *viif_dev, struct viif_l1_ag_config *l1_ag) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_ag(viif_dev->ch, l1_ag->gain_h, l1_ag->gain_m, l1_ag->gain_l); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_hdre(struct viif_device *viif_dev, struct viif_l1_hdre_config *l1_hdre) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_hdre(viif_dev->ch, l1_hdre); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_img_extraction(struct viif_device *viif_dev, + struct viif_l1_img_extraction_config *img_extract) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_img_extraction(viif_dev->ch, img_extract->input_black_gr, + img_extract->input_black_r, img_extract->input_black_b, + img_extract->input_black_gb); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +#define VISCONTI_VIIF_DPC_TABLE_SIZE 8192 +static int viif_l1_set_dpc(struct viif_device *viif_dev, struct viif_l1_dpc_config *l1_dpc) +{ + uintptr_t table_h_paddr = 0; + uintptr_t table_m_paddr = 0; + uintptr_t table_l_paddr = 0; + unsigned long irqflags; + int ret; + + if (l1_dpc->table_h_addr) { + if (copy_from_user(viif_dev->table_vaddr->dpc_table_h, + u64_to_user_ptr(l1_dpc->table_h_addr), + VISCONTI_VIIF_DPC_TABLE_SIZE)) + return -EFAULT; + table_h_paddr = (uintptr_t)viif_dev->table_paddr->dpc_table_h; + } + if (l1_dpc->table_m_addr) { + if (copy_from_user(viif_dev->table_vaddr->dpc_table_m, + u64_to_user_ptr(l1_dpc->table_m_addr), + VISCONTI_VIIF_DPC_TABLE_SIZE)) + return -EFAULT; + table_m_paddr = (uintptr_t)viif_dev->table_paddr->dpc_table_m; + } + if (l1_dpc->table_l_addr) { + if (copy_from_user(viif_dev->table_vaddr->dpc_table_l, + u64_to_user_ptr(l1_dpc->table_l_addr), + VISCONTI_VIIF_DPC_TABLE_SIZE)) + return -EFAULT; + table_l_paddr = (uintptr_t)viif_dev->table_paddr->dpc_table_l; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_dpc_table_transmission(viif_dev->ch, table_h_paddr, table_m_paddr, + table_l_paddr); + if (ret) + goto err; + + ret = hwd_viif_l1_set_dpc(viif_dev->ch, &l1_dpc->param_h, &l1_dpc->param_m, + &l1_dpc->param_l); + +err: + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; +} + +static int +viif_l1_set_preset_white_balance(struct viif_device *viif_dev, + struct viif_l1_preset_white_balance_config *l1_preset_wb) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_preset_white_balance(viif_dev->ch, l1_preset_wb->dstmaxval, + &l1_preset_wb->param_h, &l1_preset_wb->param_m, + &l1_preset_wb->param_l); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int +viif_l1_set_raw_color_noise_reduction(struct viif_device *viif_dev, + struct viif_l1_raw_color_noise_reduction_config *raw_color) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_raw_color_noise_reduction(viif_dev->ch, &raw_color->param_h, + &raw_color->param_m, &raw_color->param_l); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_hdrs(struct viif_device *viif_dev, struct viif_l1_hdrs_config *hdrs) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_hdrs(viif_dev->ch, hdrs); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_black_level_correction(struct viif_device *viif_dev, + struct viif_l1_black_level_correction_config *blc) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_black_level_correction(viif_dev->ch, blc); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +#define VISCONTI_VIIF_LSC_TABLE_BYTES 1536 + +static int viif_l1_set_lsc(struct viif_device *viif_dev, struct viif_l1_lsc_config *l1_lsc) +{ + struct viif_l1_lsc_parabola_param lsc_para; + struct viif_l1_lsc_grid_param lsc_grid; + struct hwd_viif_l1_lsc hwd_params; + struct viif_l1_lsc lsc_params; + uintptr_t table_gr_paddr = 0; + uintptr_t table_gb_paddr = 0; + uintptr_t table_r_paddr = 0; + uintptr_t table_b_paddr = 0; + unsigned long irqflags; + int ret; + + if (!l1_lsc->param_addr) { + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_lsc(viif_dev->ch, NULL); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; + } + + if (l1_lsc->table_gr_addr) { + if (copy_from_user(viif_dev->table_vaddr->lsc_table_gr, + u64_to_user_ptr(l1_lsc->table_gr_addr), + VISCONTI_VIIF_LSC_TABLE_BYTES)) + return -EFAULT; + table_gr_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_gr; + } + if (l1_lsc->table_r_addr) { + if (copy_from_user(viif_dev->table_vaddr->lsc_table_r, + u64_to_user_ptr(l1_lsc->table_r_addr), + VISCONTI_VIIF_LSC_TABLE_BYTES)) + return -EFAULT; + table_r_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_r; + } + if (l1_lsc->table_b_addr) { + if (copy_from_user(viif_dev->table_vaddr->lsc_table_b, + u64_to_user_ptr(l1_lsc->table_b_addr), + VISCONTI_VIIF_LSC_TABLE_BYTES)) + return -EFAULT; + table_b_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_b; + } + if (l1_lsc->table_gb_addr) { + if (copy_from_user(viif_dev->table_vaddr->lsc_table_gb, + u64_to_user_ptr(l1_lsc->table_gb_addr), + VISCONTI_VIIF_LSC_TABLE_BYTES)) + return -EFAULT; + table_gb_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_gb; + } + + if (copy_from_user(&lsc_params, u64_to_user_ptr(l1_lsc->param_addr), + sizeof(struct viif_l1_lsc))) + return -EFAULT; + + hwd_params.lssc_parabola_param = NULL; + hwd_params.lssc_grid_param = NULL; + + if (lsc_params.lssc_parabola_param_addr) { + if (copy_from_user(&lsc_para, u64_to_user_ptr(lsc_params.lssc_parabola_param_addr), + sizeof(struct viif_l1_lsc_parabola_param))) + return -EFAULT; + hwd_params.lssc_parabola_param = &lsc_para; + } + + if (lsc_params.lssc_grid_param_addr) { + if (copy_from_user(&lsc_grid, u64_to_user_ptr(lsc_params.lssc_grid_param_addr), + sizeof(struct viif_l1_lsc_grid_param))) + return -EFAULT; + hwd_params.lssc_grid_param = &lsc_grid; + } + + hwd_params.lssc_pwhb_r_gain_max = lsc_params.lssc_pwhb_r_gain_max; + hwd_params.lssc_pwhb_r_gain_min = lsc_params.lssc_pwhb_r_gain_min; + hwd_params.lssc_pwhb_gr_gain_max = lsc_params.lssc_pwhb_gr_gain_max; + hwd_params.lssc_pwhb_gr_gain_min = lsc_params.lssc_pwhb_gr_gain_min; + hwd_params.lssc_pwhb_gb_gain_max = lsc_params.lssc_pwhb_gb_gain_max; + hwd_params.lssc_pwhb_gb_gain_min = lsc_params.lssc_pwhb_gb_gain_min; + hwd_params.lssc_pwhb_b_gain_max = lsc_params.lssc_pwhb_b_gain_max; + hwd_params.lssc_pwhb_b_gain_min = lsc_params.lssc_pwhb_b_gain_min; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_lsc_table_transmission(viif_dev->ch, table_gr_paddr, table_r_paddr, + table_b_paddr, table_gb_paddr); + if (ret) + goto err; + + ret = hwd_viif_l1_set_lsc(viif_dev->ch, &hwd_params); +err: + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_main_process(struct viif_device *viif_dev, + struct viif_l1_main_process_config *mpro) +{ + struct viif_l1_color_matrix_correction color_matrix; + unsigned long irqflags; + int ret; + + if (mpro->param_addr) { + if (copy_from_user(&color_matrix, u64_to_user_ptr(mpro->param_addr), + sizeof(struct viif_l1_color_matrix_correction))) + return -EFAULT; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_main_process(viif_dev->ch, mpro->demosaic_mode, mpro->damp_lsbsel, + mpro->param_addr ? &color_matrix : NULL, + mpro->dst_maxval); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_awb(struct viif_device *viif_dev, struct viif_l1_awb_config *l1_awb) +{ + struct viif_l1_awb param; + unsigned long irqflags; + int ret; + + if (l1_awb->param_addr) { + if (copy_from_user(¶m, u64_to_user_ptr(l1_awb->param_addr), + sizeof(struct viif_l1_awb))) + return -EFAULT; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_awb(viif_dev->ch, l1_awb->param_addr ? ¶m : NULL, + l1_awb->awhb_wbmrg, l1_awb->awhb_wbmgg, l1_awb->awhb_wbmbg); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_lock_awb_gain(struct viif_device *viif_dev, u32 *enable) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_lock_awb_gain(viif_dev->ch, *enable); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_hdrc(struct viif_device *viif_dev, struct viif_l1_hdrc_config *hdrc) +{ + struct viif_l1_hdrc param; + unsigned long irqflags; + int ret; + + if (hdrc->param_addr) { + if (copy_from_user(¶m, u64_to_user_ptr(hdrc->param_addr), + sizeof(struct viif_l1_hdrc))) + return -EFAULT; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_hdrc(viif_dev->ch, hdrc->param_addr ? ¶m : NULL, + hdrc->hdrc_thr_sft_amt); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_hdrc_ltm(struct viif_device *viif_dev, + struct viif_l1_hdrc_ltm_config *l1_hdrc_ltm) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_hdrc_ltm(viif_dev->ch, l1_hdrc_ltm); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_gamma(struct viif_device *viif_dev, struct viif_l1_gamma_config *l1_gamma) +{ + struct viif_l1_gamma param; + unsigned long irqflags; + int ret; + + if (l1_gamma->param_addr) { + if (copy_from_user(¶m, u64_to_user_ptr(l1_gamma->param_addr), + sizeof(struct viif_l1_gamma))) + return -EFAULT; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_gamma(viif_dev->ch, l1_gamma->param_addr ? ¶m : NULL); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int +viif_l1_set_img_quality_adjustment(struct viif_device *viif_dev, + struct viif_l1_img_quality_adjustment_config *img_quality) +{ + struct hwd_viif_l1_img_quality_adjustment hwd_img_quality; + struct viif_l1_lum_noise_reduction lum_noise; + struct viif_l1_nonlinear_contrast nonlinear; + struct viif_l1_coring_suppression coring; + struct viif_l1_edge_enhancement edge_enh; + struct viif_l1_edge_suppression edge_sup; + struct viif_l1_uv_suppression uv; + struct viif_l1_color_level color; + unsigned long irqflags; + int ret; + + hwd_img_quality.coef_cb = img_quality->coef_cb; + hwd_img_quality.coef_cr = img_quality->coef_cr; + hwd_img_quality.brightness = img_quality->brightness; + hwd_img_quality.linear_contrast = img_quality->linear_contrast; + + if (img_quality->nonlinear_contrast_addr) { + if (copy_from_user(&nonlinear, + u64_to_user_ptr(img_quality->nonlinear_contrast_addr), + sizeof(struct viif_l1_nonlinear_contrast))) + return -EFAULT; + hwd_img_quality.nonlinear_contrast = &nonlinear; + } else { + hwd_img_quality.nonlinear_contrast = NULL; + } + if (img_quality->lum_noise_reduction_addr) { + if (copy_from_user(&lum_noise, + u64_to_user_ptr(img_quality->lum_noise_reduction_addr), + sizeof(struct viif_l1_lum_noise_reduction))) + return -EFAULT; + hwd_img_quality.lum_noise_reduction = &lum_noise; + } else { + hwd_img_quality.lum_noise_reduction = NULL; + } + if (img_quality->edge_enhancement_addr) { + if (copy_from_user(&edge_enh, u64_to_user_ptr(img_quality->edge_enhancement_addr), + sizeof(struct viif_l1_edge_enhancement))) + return -EFAULT; + hwd_img_quality.edge_enhancement = &edge_enh; + } else { + hwd_img_quality.edge_enhancement = NULL; + } + if (img_quality->uv_suppression_addr) { + if (copy_from_user(&uv, u64_to_user_ptr(img_quality->uv_suppression_addr), + sizeof(struct viif_l1_uv_suppression))) + return -EFAULT; + hwd_img_quality.uv_suppression = &uv; + } else { + hwd_img_quality.uv_suppression = NULL; + } + if (img_quality->coring_suppression_addr) { + if (copy_from_user(&coring, u64_to_user_ptr(img_quality->coring_suppression_addr), + sizeof(struct viif_l1_coring_suppression))) + return -EFAULT; + hwd_img_quality.coring_suppression = &coring; + } else { + hwd_img_quality.coring_suppression = NULL; + } + if (img_quality->edge_suppression_addr) { + if (copy_from_user(&edge_sup, u64_to_user_ptr(img_quality->edge_suppression_addr), + sizeof(struct viif_l1_edge_suppression))) + return -EFAULT; + hwd_img_quality.edge_suppression = &edge_sup; + } else { + hwd_img_quality.edge_suppression = NULL; + } + if (img_quality->color_level_addr) { + if (copy_from_user(&color, u64_to_user_ptr(img_quality->color_level_addr), + sizeof(struct viif_l1_color_level))) + return -EFAULT; + hwd_img_quality.color_level = &color; + } else { + hwd_img_quality.color_level = NULL; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_img_quality_adjustment(viif_dev->ch, &hwd_img_quality); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +static int viif_l1_set_avg_lum_generation(struct viif_device *viif_dev, + struct viif_l1_avg_lum_generation_config *l1_avg_lum) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l1_set_avg_lum_generation(viif_dev->ch, l1_avg_lum); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + return ret; +} + +#define VISCONTI_VIIF_DPC_TABLE_SIZE_MIN 1024 +#define VISCONTI_VIIF_DPC_TABLE_SIZE_MAX 8192 +static int viif_l2_set_undist(struct viif_device *viif_dev, struct viif_l2_undist_config *undist) +{ + uintptr_t table_write_g_paddr = 0; + uintptr_t table_read_b_paddr = 0; + uintptr_t table_read_g_paddr = 0; + uintptr_t table_read_r_paddr = 0; + unsigned long irqflags; + int ret; + + if ((undist->size && undist->size < VISCONTI_VIIF_DPC_TABLE_SIZE_MIN) || + undist->size > VISCONTI_VIIF_DPC_TABLE_SIZE_MAX) + return -EINVAL; + + if (undist->write_g_addr) { + if (copy_from_user(viif_dev->table_vaddr->undist_write_g, + u64_to_user_ptr(undist->write_g_addr), undist->size)) + return -EFAULT; + table_write_g_paddr = (uintptr_t)viif_dev->table_paddr->undist_write_g; + } + if (undist->read_b_addr) { + if (copy_from_user(viif_dev->table_vaddr->undist_read_b, + u64_to_user_ptr(undist->read_b_addr), undist->size)) + return -EFAULT; + table_read_b_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_b; + } + if (undist->read_g_addr) { + if (copy_from_user(viif_dev->table_vaddr->undist_read_g, + u64_to_user_ptr(undist->read_g_addr), undist->size)) + return -EFAULT; + table_read_g_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_g; + } + if (undist->read_r_addr) { + if (copy_from_user(viif_dev->table_vaddr->undist_read_r, + u64_to_user_ptr(undist->read_r_addr), undist->size)) + return -EFAULT; + table_read_r_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_r; + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l2_set_undist_table_transmission(viif_dev->ch, table_write_g_paddr, + table_read_b_paddr, table_read_g_paddr, + table_read_r_paddr, undist->size); + if (ret) { + dev_err(viif_dev->dev, "l2_set_undist_table_transmission error. %d\n", ret); + goto err; + } + + ret = hwd_viif_l2_set_undist(viif_dev->ch, &undist->param); + +err: + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; +} + +static int viif_l2_set_roi(struct viif_device *viif_dev, struct viif_l2_roi_config *roi) +{ + unsigned long irqflags; + int ret; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l2_set_roi(viif_dev->ch, roi); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; +} + +static int viif_l2_set_roi_wrap(struct viif_device *viif_dev, struct viif_l2_roi_config *roi) +{ + int ret; + + ret = viif_l2_set_roi(viif_dev, roi); + if (!ret) + visconti_viif_isp_set_compose_rect(viif_dev, roi); + + return ret; +} + +#define VISCONTI_VIIF_GANMMA_TABLE_SIZE 512 +static int viif_l2_set_gamma(struct viif_device *viif_dev, struct viif_l2_gamma_config *l2_gamma) +{ + struct hwd_viif_l2_gamma_table hwd_table = { 0 }; + int pathid = l2_gamma->pathid; + unsigned long irqflags; + int postid; + int ret; + u32 i; + + if (pathid == CAPTURE_PATH_MAIN_POST0) + postid = VIIF_L2ISP_POST_0; + else if (pathid == CAPTURE_PATH_MAIN_POST1) + postid = VIIF_L2ISP_POST_1; + else + return -EINVAL; + + for (i = 0; i < 6; i++) { + if (l2_gamma->table_addr[i]) { + if (copy_from_user(viif_dev->table_vaddr->l2_gamma_table[pathid][i], + u64_to_user_ptr(l2_gamma->table_addr[i]), + VISCONTI_VIIF_GANMMA_TABLE_SIZE)) + return -EFAULT; + hwd_table.table[i] = + (uintptr_t)viif_dev->table_paddr->l2_gamma_table[pathid][i]; + } + } + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + ret = hwd_viif_l2_set_gamma_table_transmission(viif_dev->ch, postid, &hwd_table); + if (ret) + goto err; + + ret = hwd_viif_l2_set_gamma(viif_dev->ch, postid, l2_gamma->enable, l2_gamma->vsplit, + l2_gamma->mode); +err: + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + return ret; +} + +static int +viif_csi2rx_get_calibration_status(struct viif_device *viif_dev, + struct viif_csi2rx_dphy_calibration_status *calibration_status) +{ + int ret; + + if (!vb2_is_streaming(&viif_dev->cap_dev0.vb2_vq)) + return -EIO; + + ret = hwd_viif_csi2rx_get_calibration_status(viif_dev->ch, calibration_status); + + return ret; +} + +static int viif_csi2rx_get_err_status(struct viif_device *viif_dev, + struct viif_csi2rx_err_status *csi_err) +{ + int ret; + + if (!vb2_is_streaming(&viif_dev->cap_dev0.vb2_vq)) + return -EIO; + + ret = hwd_viif_csi2rx_get_err_status(viif_dev->ch, &csi_err->err_phy_fatal, + &csi_err->err_pkt_fatal, &csi_err->err_frame_fatal, + &csi_err->err_phy, &csi_err->err_pkt, + &csi_err->err_line); + + return ret; +} + +static int viif_isp_get_last_capture_status(struct viif_device *viif_dev, + struct viif_isp_capture_status *status) +{ + struct hwd_viif_l1_info l1_info; + unsigned long irqflags; + int i, j; + + spin_lock_irqsave(&viif_dev->lock, irqflags); + hwd_viif_isp_guard_start(viif_dev->ch); + hwd_viif_isp_get_info(viif_dev->ch, &l1_info, NULL); + hwd_viif_isp_guard_end(viif_dev->ch); + spin_unlock_irqrestore(&viif_dev->lock, irqflags); + + status->l1_info.avg_lum_weight = l1_info.avg_lum_weight; + for (i = 0; i < 8; i++) { + for (j = 0; j < 8; j++) + status->l1_info.avg_lum_block[i][j] = l1_info.avg_lum_block[i][j]; + } + for (i = 0; i < 4; i++) + status->l1_info.avg_lum_four_line_lum[i] = l1_info.avg_lum_four_line_lum[i]; + + status->l1_info.avg_satur_pixnum = l1_info.avg_satur_pixnum; + status->l1_info.avg_black_pixnum = l1_info.avg_black_pixnum; + status->l1_info.awb_ave_u = l1_info.awb_ave_u; + status->l1_info.awb_ave_v = l1_info.awb_ave_v; + status->l1_info.awb_accumulated_pixel = l1_info.awb_accumulated_pixel; + status->l1_info.awb_gain_r = l1_info.awb_gain_r; + status->l1_info.awb_gain_g = l1_info.awb_gain_g; + status->l1_info.awb_gain_b = l1_info.awb_gain_b; + status->l1_info.awb_status_u = l1_info.awb_status_u; + status->l1_info.awb_status_v = l1_info.awb_status_v; + + return 0; +} + +static int viif_isp_get_reported_errors(struct viif_device *viif_dev, + struct viif_reported_errors *status) +{ + status->main = viif_dev->reported_err_main; + status->sub = viif_dev->reported_err_sub; + status->csi2rx = viif_dev->reported_err_csi2rx; + viif_dev->reported_err_main = 0; + viif_dev->reported_err_sub = 0; + viif_dev->reported_err_csi2rx = 0; + + return 0; +} + +/* ===== v4l2 subdevice control handlers ===== */ +#define COMPOUND_TYPE_SAMPLE01 0x0280 + +static int visconti_viif_isp_set_ctrl(struct v4l2_ctrl *ctrl) +{ + struct viif_device *viif_dev = ctrl->priv; + + pr_info("isp_set_ctrl: %s", ctrl->name); + if (!viif_dev->is_powered) { + pr_info("warning: visconti viif HW is not powered"); + return 0; + } + + switch (ctrl->id) { + case V4L2_CID_VISCONTI_VIIF_MAIN_SET_RAWPACK_MODE: + return viif_main_set_rawpack_mode(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_INPUT_MODE: + return viif_l1_set_input_mode(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RGB_TO_Y_COEF: + return viif_l1_set_rgb_to_y_coef(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG_MODE: + return viif_l1_set_ag_mode(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG: + return viif_l1_set_ag(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRE: + return viif_l1_set_hdre(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_EXTRACTION: + return viif_l1_set_img_extraction(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_DPC: + return viif_l1_set_dpc(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_PRESET_WHITE_BALANCE: + return viif_l1_set_preset_white_balance(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RAW_COLOR_NOISE_REDUCTION: + return viif_l1_set_raw_color_noise_reduction(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRS: + return viif_l1_set_hdrs(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_BLACK_LEVEL_CORRECTION: + return viif_l1_set_black_level_correction(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_LSC: + return viif_l1_set_lsc(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_MAIN_PROCESS: + return viif_l1_set_main_process(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AWB: + return viif_l1_set_awb(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_LOCK_AWB_GAIN: + return viif_l1_lock_awb_gain(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC: + return viif_l1_set_hdrc(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC_LTM: + return viif_l1_set_hdrc_ltm(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_GAMMA: + return viif_l1_set_gamma(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_QUALITY_ADJUSTMENT: + return viif_l1_set_img_quality_adjustment(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AVG_LUM_GENERATION: + return viif_l1_set_avg_lum_generation(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_UNDIST: + return viif_l2_set_undist(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_ROI: + return viif_l2_set_roi_wrap(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_GAMMA: + return viif_l2_set_gamma(viif_dev, ctrl->p_new.p); + default: + pr_info("unknown_ctrl: id=%08X val=%d", ctrl->id, ctrl->val); + break; + } + return 0; +} + +static int visconti_viif_isp_get_ctrl(struct v4l2_ctrl *ctrl) +{ + struct viif_device *viif_dev = ctrl->priv; + + pr_info("isp_get_ctrl: %s", ctrl->name); + if (!viif_dev->is_powered) { + pr_info("warning: visconti viif HW is not powered"); + return 0; + } + + switch (ctrl->id) { + case V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_CALIBRATION_STATUS: + return viif_csi2rx_get_calibration_status(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_ERR_STATUS: + return viif_csi2rx_get_err_status(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_GET_LAST_CAPTURE_STATUS: + return viif_isp_get_last_capture_status(viif_dev, ctrl->p_new.p); + case V4L2_CID_VISCONTI_VIIF_GET_REPORTED_ERRORS: + return viif_isp_get_reported_errors(viif_dev, ctrl->p_new.p); + default: + pr_info("unknown_ctrl: id=%08X val=%d", ctrl->id, ctrl->val); + break; + } + return 0; +} + +/* ===== register v4l2 subdevice controls ===== */ +static bool visconti_viif_isp_custom_ctrl_equal(const struct v4l2_ctrl *ctrl, u32 idx, + union v4l2_ctrl_ptr ptr1, union v4l2_ctrl_ptr ptr2) +{ + return !memcmp(ptr1.p_const, ptr2.p_const, ctrl->elem_size); +} + +static void visconti_viif_isp_custom_ctrl_init(const struct v4l2_ctrl *ctrl, u32 idx, + union v4l2_ctrl_ptr ptr) +{ + if (ctrl->p_def.p_const) + memcpy(ptr.p, ctrl->p_def.p_const, ctrl->elem_size); + else + memset(ptr.p, 0, ctrl->elem_size); +} + +static void visconti_viif_isp_custom_ctrl_log(const struct v4l2_ctrl *ctrl) +{ +} + +static int visconti_viif_isp_custom_ctrl_validate(const struct v4l2_ctrl *ctrl, u32 idx, + union v4l2_ctrl_ptr ptr) +{ + pr_info("std_validate: %s", ctrl->name); + return 0; +} + +static const struct v4l2_ctrl_type_ops custom_type_ops = { + .equal = visconti_viif_isp_custom_ctrl_equal, + .init = visconti_viif_isp_custom_ctrl_init, + .log = visconti_viif_isp_custom_ctrl_log, + .validate = visconti_viif_isp_custom_ctrl_validate, +}; + +static const struct v4l2_ctrl_ops visconti_viif_isp_ctrl_ops = { + .g_volatile_ctrl = visconti_viif_isp_get_ctrl, + .s_ctrl = visconti_viif_isp_set_ctrl, +}; + +/* ----- control handler ----- */ +#define CTRL_CONFIG_DEFAULT_ENTRY \ + .ops = &visconti_viif_isp_ctrl_ops, .type_ops = &custom_type_ops, \ + .type = COMPOUND_TYPE_SAMPLE01, .flags = V4L2_CTRL_FLAG_EXECUTE_ON_WRITE + +#define CTRL_CONFIG_RDONLY_ENTRY \ + .ops = &visconti_viif_isp_ctrl_ops, .type_ops = &custom_type_ops, \ + .type = COMPOUND_TYPE_SAMPLE01, .flags = V4L2_CTRL_FLAG_VOLATILE + +static const struct v4l2_ctrl_config visconti_viif_isp_ctrl_config[] = { + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_MAIN_SET_RAWPACK_MODE, + .name = "rawpack_mode", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(u32), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_INPUT_MODE, + .name = "l1_input_mode", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_input_mode_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RGB_TO_Y_COEF, + .name = "l1_rgb_to_y_coef", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_rgb_to_y_coef_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG_MODE, + .name = "l1_ag_mode", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_ag_mode_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG, + .name = "l1_ag", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_ag_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRE, + .name = "l1_hdre", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_hdre_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_EXTRACTION, + .name = "l1_img_extraction", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_img_extraction_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_DPC, + .name = "l1_dpc", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_dpc_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_PRESET_WHITE_BALANCE, + .name = "l1_preset_white_balance", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_preset_white_balance_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RAW_COLOR_NOISE_REDUCTION, + .name = "l1_raw_color_noise_reduction", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_raw_color_noise_reduction_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRS, + .name = "l1_set_hdrs", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_hdrs_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_BLACK_LEVEL_CORRECTION, + .name = "l1_black_level_correction", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_black_level_correction_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_LSC, + .name = "l1_lsc", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_lsc_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_MAIN_PROCESS, + .name = "l1_main_process", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_main_process_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AWB, + .name = "l1_awb", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_awb_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_LOCK_AWB_GAIN, + .name = "l1_lock_awb_gain", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(u32), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC, + .name = "l1_hdrc", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_hdrc_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC_LTM, + .name = "l1_hdrc_ltm", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_hdrc_ltm_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_GAMMA, + .name = "l1_gamma", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_gamma_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_QUALITY_ADJUSTMENT, + .name = "l1_img_quality_adjustment", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_img_quality_adjustment_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AVG_LUM_GENERATION, + .name = "l1_avg_lum", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l1_avg_lum_generation_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_UNDIST, + .name = "l2_undist", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l2_undist_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_ROI, + .name = "l2_roi", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l2_roi_config), + }, + { + CTRL_CONFIG_DEFAULT_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_GAMMA, + .name = "l2_gamma", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_l2_gamma_config), + }, + { + CTRL_CONFIG_RDONLY_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_CALIBRATION_STATUS, + .name = "csi2rx_calibration_status", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_csi2rx_dphy_calibration_status), + }, + { + CTRL_CONFIG_RDONLY_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_ERR_STATUS, + .name = "csi2rx_err_status", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_csi2rx_err_status), + }, + { + CTRL_CONFIG_RDONLY_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_GET_LAST_CAPTURE_STATUS, + .name = "last_capture_status", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_isp_capture_status), + }, + { + CTRL_CONFIG_RDONLY_ENTRY, + .id = V4L2_CID_VISCONTI_VIIF_GET_REPORTED_ERRORS, + .name = "reported errors", + .p_def = { .p_const = NULL }, + .elem_size = sizeof(struct viif_reported_errors), + }, +}; + +int visconti_viif_isp_init_controls(struct viif_device *viif_dev) +{ + struct v4l2_ctrl_handler *ctrl_handler = &viif_dev->isp_subdev.ctrl_handler; + int ret; + int i; + + ret = v4l2_ctrl_handler_init(ctrl_handler, 10); + if (ret) { + dev_err(viif_dev->dev, "failed on v4l2_ctrl_handler_init"); + return ret; + } + + for (i = 0; i < ARRAY_SIZE(visconti_viif_isp_ctrl_config); i++) { + struct v4l2_ctrl *ctrl; + + ctrl = v4l2_ctrl_new_custom(ctrl_handler, &visconti_viif_isp_ctrl_config[i], + viif_dev); + if (!ctrl) { + dev_err(viif_dev->dev, "failed to add ctrl crop: %d", ctrl_handler->error); + return ctrl_handler->error; + } + } + + viif_dev->isp_subdev.sd.ctrl_handler = &viif_dev->isp_subdev.ctrl_handler; + return 0; +} diff --git a/drivers/media/platform/visconti/viif_isp.c b/drivers/media/platform/visconti/viif_isp.c new file mode 100644 index 000000000..6ef21f60b --- /dev/null +++ b/drivers/media/platform/visconti/viif_isp.c @@ -0,0 +1,852 @@ +// SPDX-License-Identifier: GPL-2.0 OR BSD-2-Clause +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#include <media/v4l2-common.h> +#include <media/v4l2-subdev.h> + +#include "viif.h" + +/* ----- supported MBUS formats ----- */ +struct visconti_mbus_format { + unsigned int code; + unsigned int bpp; + int rgb_out; +} static visconti_mbus_formats[] = { + { .code = MEDIA_BUS_FMT_RGB888_1X24, .bpp = 24, .rgb_out = 1 }, + { .code = MEDIA_BUS_FMT_UYVY8_1X16, .bpp = 16, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_UYVY10_1X20, .bpp = 20, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_RGB565_1X16, .bpp = 16, .rgb_out = 1 }, + { .code = MEDIA_BUS_FMT_SBGGR8_1X8, .bpp = 8, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGBRG8_1X8, .bpp = 8, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGRBG8_1X8, .bpp = 8, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SRGGB8_1X8, .bpp = 8, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SRGGB10_1X10, .bpp = 10, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGRBG10_1X10, .bpp = 10, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGBRG10_1X10, .bpp = 10, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SBGGR10_1X10, .bpp = 10, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SRGGB12_1X12, .bpp = 12, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGRBG12_1X12, .bpp = 12, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGBRG12_1X12, .bpp = 12, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SBGGR12_1X12, .bpp = 12, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SRGGB14_1X14, .bpp = 14, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGRBG14_1X14, .bpp = 14, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SGBRG14_1X14, .bpp = 14, .rgb_out = 0 }, + { .code = MEDIA_BUS_FMT_SBGGR14_1X14, .bpp = 14, .rgb_out = 0 }, +}; + +static int viif_get_mbus_rgb_out(unsigned int mbus_code) +{ + int i; + + for (i = 0; i < ARRAY_SIZE(visconti_mbus_formats); i++) + if (visconti_mbus_formats[i].code == mbus_code) + return visconti_mbus_formats[i].rgb_out; + + /* YUV intermediate code by default */ + return 0; +} + +static unsigned int viif_get_mbus_bpp(unsigned int mbus_code) +{ + int i; + + for (i = 0; i < ARRAY_SIZE(visconti_mbus_formats); i++) + if (visconti_mbus_formats[i].code == mbus_code) + return visconti_mbus_formats[i].bpp; + + /* default bpp value */ + return 24; +} + +static bool viif_is_valid_mbus_code(unsigned int mbus_code) +{ + int i; + + for (i = 0; i < ARRAY_SIZE(visconti_mbus_formats); i++) + if (visconti_mbus_formats[i].code == mbus_code) + return true; + return false; +} + +/* ----- handling main processing path ----- */ +static int viif_get_dv_timings(struct viif_device *viif_dev, struct v4l2_dv_timings *timings) +{ + struct viif_subdev *viif_sd = viif_dev->sd; + struct v4l2_subdev_pad_config pad_cfg; + struct v4l2_subdev_state pad_state = { + .pads = &pad_cfg, + }; + struct v4l2_subdev_format format = { + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + .pad = 0, + }; + struct v4l2_ctrl *ctrl; + int ret; + + /* some video I/F support dv_timings query */ + ret = v4l2_subdev_call(viif_sd->v4l2_sd, video, g_dv_timings, timings); + if (ret == 0) + return 0; + + /* others: call some discrete APIs */ + ret = v4l2_subdev_call(viif_sd->v4l2_sd, pad, get_fmt, &pad_state, &format); + if (ret != 0) + return ret; + + timings->bt.width = format.format.width; + timings->bt.height = format.format.height; + + ctrl = v4l2_ctrl_find(viif_sd->v4l2_sd->ctrl_handler, V4L2_CID_HBLANK); + if (!ctrl) { + dev_err(viif_dev->dev, "subdev: V4L2_CID_VBLANK error.\n"); + return -EINVAL; + } + timings->bt.hsync = v4l2_ctrl_g_ctrl(ctrl); + + ctrl = v4l2_ctrl_find(viif_sd->v4l2_sd->ctrl_handler, V4L2_CID_VBLANK); + if (!ctrl) { + dev_err(viif_dev->dev, "subdev: V4L2_CID_VBLANK error.\n"); + return -EINVAL; + } + timings->bt.vsync = v4l2_ctrl_g_ctrl(ctrl); + + ctrl = v4l2_ctrl_find(viif_sd->v4l2_sd->ctrl_handler, V4L2_CID_PIXEL_RATE); + if (!ctrl) { + dev_err(viif_dev->dev, "subdev: V4L2_CID_PIXEL_RATE error.\n"); + return -EINVAL; + } + timings->bt.pixelclock = v4l2_ctrl_g_ctrl_int64(ctrl); + + return 0; +} + +/*TODO: should be moved below visconti_viif_isp_s_stream()?? */ +int visconti_viif_isp_main_set_unit(struct viif_device *viif_dev) +{ + unsigned int dt_image, color_type, rawpack, yuv_conv; + struct viif_subdev *viif_sd = viif_dev->sd; + struct hwd_viif_input_img in_img_main; + struct viif_l2_undist undist = { 0 }; + struct v4l2_dv_timings timings; + struct v4l2_subdev_format fmt = { + .pad = 0, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + int mag_hactive = 1; + int ret = 0; + + ret = viif_get_dv_timings(viif_dev, &timings); + if (ret) { + dev_err(viif_dev->dev, "could not get timing information of subdev"); + return -EINVAL; + } + + ret = v4l2_subdev_call(viif_sd->v4l2_sd, pad, get_fmt, NULL, &fmt); + if (ret) { + dev_err(viif_dev->dev, "could not get pad information of subdev"); + return -EINVAL; + } + + switch (fmt.format.code) { + case MEDIA_BUS_FMT_RGB888_1X24: + dt_image = VISCONTI_CSI2_DT_RGB888; + break; + case MEDIA_BUS_FMT_UYVY8_1X16: + dt_image = VISCONTI_CSI2_DT_YUV4228B; + break; + case MEDIA_BUS_FMT_UYVY10_1X20: + dt_image = VISCONTI_CSI2_DT_YUV42210B; + break; + case MEDIA_BUS_FMT_RGB565_1X16: + dt_image = VISCONTI_CSI2_DT_RGB565; + break; + case MEDIA_BUS_FMT_SBGGR8_1X8: + case MEDIA_BUS_FMT_SGBRG8_1X8: + case MEDIA_BUS_FMT_SGRBG8_1X8: + case MEDIA_BUS_FMT_SRGGB8_1X8: + dt_image = VISCONTI_CSI2_DT_RAW8; + break; + case MEDIA_BUS_FMT_SRGGB10_1X10: + case MEDIA_BUS_FMT_SGRBG10_1X10: + case MEDIA_BUS_FMT_SGBRG10_1X10: + case MEDIA_BUS_FMT_SBGGR10_1X10: + dt_image = VISCONTI_CSI2_DT_RAW10; + break; + case MEDIA_BUS_FMT_SRGGB12_1X12: + case MEDIA_BUS_FMT_SGRBG12_1X12: + case MEDIA_BUS_FMT_SGBRG12_1X12: + case MEDIA_BUS_FMT_SBGGR12_1X12: + dt_image = VISCONTI_CSI2_DT_RAW12; + break; + case MEDIA_BUS_FMT_SRGGB14_1X14: + case MEDIA_BUS_FMT_SGRBG14_1X14: + case MEDIA_BUS_FMT_SGBRG14_1X14: + case MEDIA_BUS_FMT_SBGGR14_1X14: + dt_image = VISCONTI_CSI2_DT_RAW14; + break; + default: + dt_image = VISCONTI_CSI2_DT_RGB888; + break; + } + + color_type = dt_image; + + if (color_type == VISCONTI_CSI2_DT_RAW8 || color_type == VISCONTI_CSI2_DT_RAW10 || + color_type == VISCONTI_CSI2_DT_RAW12) { + rawpack = viif_dev->rawpack_mode; + if (rawpack != HWD_VIIF_RAWPACK_DISABLE) + mag_hactive = 2; + } else { + rawpack = HWD_VIIF_RAWPACK_DISABLE; + } + + if (color_type == VISCONTI_CSI2_DT_YUV4228B || color_type == VISCONTI_CSI2_DT_YUV42210B) + yuv_conv = HWD_VIIF_YUV_CONV_INTERPOLATION; + else + yuv_conv = HWD_VIIF_YUV_CONV_REPEAT; + + in_img_main.hactive_size = timings.bt.width; + in_img_main.vactive_size = timings.bt.height; + in_img_main.htotal_size = timings.bt.width * mag_hactive + timings.bt.hsync; + in_img_main.vtotal_size = timings.bt.height + timings.bt.vsync; + in_img_main.pixel_clock = timings.bt.pixelclock / 1000; + in_img_main.vbp_size = timings.bt.vsync - 5; + + in_img_main.interpolation_mode = HWD_VIIF_L1_INPUT_INTERPOLATION_LINE; + in_img_main.input_num = 1; + in_img_main.hobc_width = 0; + in_img_main.hobc_margin = 0; + + /* configuration of MAIN unit */ + ret = hwd_viif_main_set_unit(viif_dev->ch, dt_image, &in_img_main, color_type, rawpack, + yuv_conv); + if (ret) { + dev_err(viif_dev->dev, "main_set_unit error. %d\n", ret); + return ret; + } + + /* Enable regbuf */ + hwd_viif_isp_set_regbuf_auto_transmission(viif_dev->ch); + + /* L2 UNDIST Enable through mode as default */ + undist.through_mode = HWD_VIIF_ENABLE; + undist.sensor_crop_ofs_h = 1 - in_img_main.hactive_size; + undist.sensor_crop_ofs_v = 1 - in_img_main.vactive_size; + undist.grid_node_num_h = 16; + undist.grid_node_num_v = 16; + ret = hwd_viif_l2_set_undist(viif_dev->ch, &undist); + if (ret) + dev_err(viif_dev->dev, "l2_set_undist error. %d\n", ret); + return ret; +} + +static unsigned int dt_image_from_mbus_code(unsigned int mbus_code) +{ + switch (mbus_code) { + case MEDIA_BUS_FMT_RGB888_1X24: + return VISCONTI_CSI2_DT_RGB888; + case MEDIA_BUS_FMT_UYVY8_1X16: + return VISCONTI_CSI2_DT_YUV4228B; + case MEDIA_BUS_FMT_UYVY10_1X20: + return VISCONTI_CSI2_DT_YUV42210B; + case MEDIA_BUS_FMT_RGB565_1X16: + return VISCONTI_CSI2_DT_RGB565; + case MEDIA_BUS_FMT_SBGGR8_1X8: + case MEDIA_BUS_FMT_SGBRG8_1X8: + case MEDIA_BUS_FMT_SGRBG8_1X8: + case MEDIA_BUS_FMT_SRGGB8_1X8: + return VISCONTI_CSI2_DT_RAW8; + case MEDIA_BUS_FMT_SRGGB10_1X10: + case MEDIA_BUS_FMT_SGRBG10_1X10: + case MEDIA_BUS_FMT_SGBRG10_1X10: + case MEDIA_BUS_FMT_SBGGR10_1X10: + return VISCONTI_CSI2_DT_RAW10; + case MEDIA_BUS_FMT_SRGGB12_1X12: + case MEDIA_BUS_FMT_SGRBG12_1X12: + case MEDIA_BUS_FMT_SGBRG12_1X12: + case MEDIA_BUS_FMT_SBGGR12_1X12: + return VISCONTI_CSI2_DT_RAW12; + case MEDIA_BUS_FMT_SRGGB14_1X14: + case MEDIA_BUS_FMT_SGRBG14_1X14: + case MEDIA_BUS_FMT_SGBRG14_1X14: + case MEDIA_BUS_FMT_SBGGR14_1X14: + return VISCONTI_CSI2_DT_RAW14; + default: + return VISCONTI_CSI2_DT_RGB888; + } +} + +int visconti_viif_isp_sub_set_unit(struct viif_device *viif_dev) +{ + struct hwd_viif_input_img in_img_sub; + struct v4l2_dv_timings timings; + struct v4l2_subdev_format fmt = { + .pad = 0, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + unsigned int dt_image; + int ret; + + ret = viif_get_dv_timings(viif_dev, &timings); + if (ret) + return -EINVAL; + + ret = v4l2_subdev_call(viif_dev->sd->v4l2_sd, pad, get_fmt, NULL, &fmt); + if (ret) { + dev_err(viif_dev->dev, "could not get pad information of subdev"); + return -EINVAL; + } + + dt_image = dt_image_from_mbus_code(fmt.format.code); + + in_img_sub.hactive_size = 0; + in_img_sub.vactive_size = timings.bt.height; + in_img_sub.htotal_size = timings.bt.width + timings.bt.hsync; + in_img_sub.vtotal_size = timings.bt.height + timings.bt.vsync; + in_img_sub.pixel_clock = timings.bt.pixelclock / 1000; + in_img_sub.vbp_size = timings.bt.vsync - 5; + in_img_sub.interpolation_mode = HWD_VIIF_L1_INPUT_INTERPOLATION_LINE; + in_img_sub.input_num = 1; + in_img_sub.hobc_width = 0; + in_img_sub.hobc_margin = 0; + + ret = hwd_viif_sub_set_unit(viif_dev->ch, dt_image, &in_img_sub); + if (ret) + dev_err(viif_dev->dev, "sub_set_unit error. %d\n", ret); + + return ret; +}; + +/* ----- handling CSI2RX hardware ----- */ +static int viif_csi2rx_initialize(struct viif_device *viif_dev) +{ + struct hwd_viif_csi2rx_line_err_target err_target = { 0 }; + struct hwd_viif_csi2rx_irq_mask csi2rx_mask; + struct viif_subdev *viif_sd = viif_dev->sd; + struct v4l2_mbus_config cfg = { 0 }; + struct v4l2_subdev_format fmt = { + .pad = 0, + .which = V4L2_SUBDEV_FORMAT_ACTIVE, + }; + struct v4l2_dv_timings timings; + int num_lane, dphy_rate; + int ret; + + ret = v4l2_subdev_call(viif_sd->v4l2_sd, pad, get_mbus_config, 0, &cfg); + if (ret) { + dev_dbg(viif_dev->dev, "subdev: g_mbus_config error. %d\n", ret); + num_lane = viif_sd->num_lane; + } else { + switch (cfg.flags & V4L2_MBUS_CSI2_LANES) { + case V4L2_MBUS_CSI2_1_LANE: + num_lane = 1; + break; + case V4L2_MBUS_CSI2_2_LANE: + num_lane = 2; + break; + case V4L2_MBUS_CSI2_3_LANE: + num_lane = 3; + break; + case V4L2_MBUS_CSI2_4_LANE: + num_lane = 4; + break; + default: + num_lane = 4; + break; + } + } + + ret = v4l2_subdev_call(viif_sd->v4l2_sd, pad, get_fmt, 0, &fmt); + if (ret) + return -EINVAL; + + ret = viif_get_dv_timings(viif_dev, &timings); + if (ret) + return -EINVAL; + + dphy_rate = (timings.bt.pixelclock / 1000) * viif_get_mbus_bpp(fmt.format.code) / num_lane; + dphy_rate = dphy_rate / 1000; + + /* check error for CH0: all supported DTs */ + err_target.dt[0] = VISCONTI_CSI2_DT_RGB565; + err_target.dt[1] = VISCONTI_CSI2_DT_YUV4228B; + err_target.dt[2] = VISCONTI_CSI2_DT_YUV42210B; + err_target.dt[3] = VISCONTI_CSI2_DT_RGB888; + err_target.dt[4] = VISCONTI_CSI2_DT_RAW8; + err_target.dt[5] = VISCONTI_CSI2_DT_RAW10; + err_target.dt[6] = VISCONTI_CSI2_DT_RAW12; + err_target.dt[7] = VISCONTI_CSI2_DT_RAW14; + + /* Define errors to be masked */ + csi2rx_mask.mask[0] = 0x0000000F; /*check all for PHY_FATAL*/ + csi2rx_mask.mask[1] = 0x0001000F; /*check all for PKT_FATAL*/ + csi2rx_mask.mask[2] = 0x000F0F0F; /*check all for FRAME_FATAL*/ + csi2rx_mask.mask[3] = 0x000F000F; /*check all for PHY*/ + csi2rx_mask.mask[4] = 0x000F000F; /*check all for PKT*/ + csi2rx_mask.mask[5] = 0x00FF00FF; /*check all for LINE*/ + + return hwd_viif_csi2rx_initialize(viif_dev->ch, num_lane, HWD_VIIF_CSI2_DPHY_L0L1L2L3, + dphy_rate, HWD_VIIF_ENABLE, &err_target, + HWD_VIIF_CSI2_INPUT_OWN, &csi2rx_mask); +} + +static int viif_csi2rx_start(struct viif_device *viif_dev) +{ + struct hwd_viif_csi2rx_packet packet = { 0 }; + u32 vc_main = 0; + u32 vc_sub = 0; + + viif_dev->masked_gamma_path = 0U; + + return hwd_viif_csi2rx_start(viif_dev->ch, vc_main, vc_sub, &packet, HWD_VIIF_DISABLE); +} + +static int viif_csi2rx_stop(struct viif_device *viif_dev) +{ + s32 ret; + + ret = hwd_viif_csi2rx_stop(viif_dev->ch); + if (ret) + dev_err(viif_dev->dev, "csi2rx_stop error. %d\n", ret); + + hwd_viif_csi2rx_uninitialize(viif_dev->ch); + + return ret; +} + +/* ----- subdevice video operations ----- */ +static int visconti_viif_isp_s_stream(struct v4l2_subdev *sd, int enable) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + int ret; + + if (enable) { + ret = viif_csi2rx_initialize(viif_dev); + if (ret) + return ret; + return viif_csi2rx_start(viif_dev); + } else { + return viif_csi2rx_stop(viif_dev); + } +} + +/* ----- subdevice pad operations ----- */ +static int visconti_viif_isp_enum_mbus_code(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_subdev_mbus_code_enum *code) +{ + if (code->pad == 0) { + /* sink */ + if (code->index > ARRAY_SIZE(visconti_mbus_formats) - 1) + return -EINVAL; + code->code = visconti_mbus_formats[code->index].code; + return 0; + } + + /* source */ + if (code->index > 0) + return -EINVAL; + code->code = MEDIA_BUS_FMT_YUV8_1X24; + return 0; +} + +static struct v4l2_mbus_framefmt *visconti_viif_isp_get_pad_fmt(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + unsigned int pad, u32 which) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_subdev_state state = { + .pads = viif_dev->isp_subdev.pad_cfg, + }; + + if (which == V4L2_SUBDEV_FORMAT_TRY) + return v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, sd_state, pad); + else + return v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, &state, pad); +} + +static struct v4l2_rect *visconti_viif_isp_get_pad_crop(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + unsigned int pad, u32 which) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_subdev_state state = { + .pads = viif_dev->isp_subdev.pad_cfg, + }; + + if (which == V4L2_SUBDEV_FORMAT_TRY) + return v4l2_subdev_get_try_crop(&viif_dev->isp_subdev.sd, sd_state, pad); + else + return v4l2_subdev_get_try_crop(&viif_dev->isp_subdev.sd, &state, pad); +} + +static struct v4l2_rect *visconti_viif_isp_get_pad_compose(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + unsigned int pad, u32 which) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_subdev_state state = { + .pads = viif_dev->isp_subdev.pad_cfg, + }; + + if (which == V4L2_SUBDEV_FORMAT_TRY) + return v4l2_subdev_get_try_compose(&viif_dev->isp_subdev.sd, sd_state, pad); + else + return v4l2_subdev_get_try_compose(&viif_dev->isp_subdev.sd, &state, pad); +} + +static int visconti_viif_isp_get_fmt(struct v4l2_subdev *sd, struct v4l2_subdev_state *sd_state, + struct v4l2_subdev_format *fmt) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + + mutex_lock(&viif_dev->isp_subdev.ops_lock); + fmt->format = *visconti_viif_isp_get_pad_fmt(sd, sd_state, fmt->pad, fmt->which); + mutex_unlock(&viif_dev->isp_subdev.ops_lock); + + return 0; +} + +static void visconti_viif_isp_set_sink_fmt(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_mbus_framefmt *format, u32 which) +{ + struct v4l2_mbus_framefmt *sink_fmt, *src0_fmt, *src1_fmt, *src2_fmt; + + sink_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SINK, which); + src0_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SRC_PATH0, which); + src1_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SRC_PATH1, which); + src2_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SRC_PATH2, which); + + /* update mbus code only if it's available */ + if (viif_is_valid_mbus_code(format->code)) + sink_fmt->code = format->code; + + /* sink::mbus_code is derived from src::mbus_code */ + if (viif_get_mbus_rgb_out(sink_fmt->code)) { + src0_fmt->code = MEDIA_BUS_FMT_RGB888_1X24; + src1_fmt->code = MEDIA_BUS_FMT_RGB888_1X24; + } else { + src0_fmt->code = MEDIA_BUS_FMT_YUV8_1X24; + src1_fmt->code = MEDIA_BUS_FMT_YUV8_1X24; + } + + /* SRC2 (RAW output) follows SINK format */ + src2_fmt->code = format->code; + src2_fmt->width = format->width; + src2_fmt->height = format->height; + + /* size check */ + sink_fmt->width = format->width; + sink_fmt->height = format->height; + + *format = *sink_fmt; +} + +static void visconti_viif_isp_set_src_fmt(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_mbus_framefmt *format, unsigned int pad, + u32 which) +{ + struct v4l2_mbus_framefmt *sink_fmt, *src_fmt; + struct v4l2_rect *src_crop; + + sink_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SINK, + V4L2_SUBDEV_FORMAT_ACTIVE); + src_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, pad, which); + src_crop = visconti_viif_isp_get_pad_crop(sd, sd_state, pad, which); + + /* sink::mbus_code is derived from src::mbus_code */ + if (viif_get_mbus_rgb_out(sink_fmt->code)) + src_fmt->code = MEDIA_BUS_FMT_RGB888_1X24; + else + src_fmt->code = MEDIA_BUS_FMT_YUV8_1X24; + + /*size check*/ + src_fmt->width = format->width; + src_fmt->height = format->height; + + /*update crop*/ + src_crop->width = format->width; + src_crop->height = format->height; + + *format = *src_fmt; +} + +static void visconti_viif_isp_set_src_fmt_rawpath(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_mbus_framefmt *format, + unsigned int pad, u32 which) +{ + struct v4l2_mbus_framefmt *sink_fmt, *src_fmt; + + sink_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SINK, + V4L2_SUBDEV_FORMAT_ACTIVE); + src_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, pad, which); + + /* RAWPATH SRC pad has just the same configuration as SINK pad */ + src_fmt->code = sink_fmt->code; + src_fmt->width = sink_fmt->width; + src_fmt->height = sink_fmt->height; + + *format = *src_fmt; +} + +static int visconti_viif_isp_set_fmt(struct v4l2_subdev *sd, struct v4l2_subdev_state *sd_state, + struct v4l2_subdev_format *fmt) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + + mutex_lock(&viif_dev->isp_subdev.ops_lock); + + if (fmt->pad == VIIF_ISP_PAD_SINK) + visconti_viif_isp_set_sink_fmt(sd, sd_state, &fmt->format, fmt->which); + else if (fmt->pad == VIIF_ISP_PAD_SRC_PATH2) + visconti_viif_isp_set_src_fmt_rawpath(sd, sd_state, &fmt->format, fmt->pad, + fmt->which); + else + visconti_viif_isp_set_src_fmt(sd, sd_state, &fmt->format, fmt->pad, fmt->which); + + mutex_unlock(&viif_dev->isp_subdev.ops_lock); + + return 0; +} + +#define VISCONTI_VIIF_ISP_DEFAULT_WIDTH 1920 +#define VISCONTI_VIIF_ISP_DEFAULT_HEIGHT 1080 +#define VISCONTI_VIIF_MAX_COMPOSED_WIDTH 8190 +#define VISCONTI_VIIF_MAX_COMPOSED_HEIGHT 4094 + +static int visconti_viif_isp_init_config(struct v4l2_subdev *sd, struct v4l2_subdev_state *sd_state) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_mbus_framefmt *sink_fmt, *src_fmt; + struct v4l2_rect *src_crop, *sink_compose; + + sink_fmt = + v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, sd_state, VIIF_ISP_PAD_SINK); + sink_fmt->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + sink_fmt->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + sink_fmt->field = V4L2_FIELD_NONE; + sink_fmt->code = MEDIA_BUS_FMT_SRGGB10_1X10; + + sink_compose = + v4l2_subdev_get_try_compose(&viif_dev->isp_subdev.sd, sd_state, VIIF_ISP_PAD_SINK); + sink_compose->top = 0; + sink_compose->left = 0; + sink_compose->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + sink_compose->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + + src_fmt = v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, sd_state, + VIIF_ISP_PAD_SRC_PATH0); + src_fmt->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + src_fmt->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + src_fmt->field = V4L2_FIELD_NONE; + src_fmt->code = MEDIA_BUS_FMT_YUV8_1X24; + + src_crop = v4l2_subdev_get_try_crop(&viif_dev->isp_subdev.sd, sd_state, + VIIF_ISP_PAD_SRC_PATH0); + src_crop->top = 0; + src_crop->left = 0; + src_crop->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + src_crop->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + + src_fmt = v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, sd_state, + VIIF_ISP_PAD_SRC_PATH1); + src_fmt->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + src_fmt->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + src_fmt->field = V4L2_FIELD_NONE; + src_fmt->code = MEDIA_BUS_FMT_YUV8_1X24; + + src_crop = v4l2_subdev_get_try_crop(&viif_dev->isp_subdev.sd, sd_state, + VIIF_ISP_PAD_SRC_PATH1); + src_crop->top = 0; + src_crop->left = 0; + src_crop->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + src_crop->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + + src_fmt = v4l2_subdev_get_try_format(&viif_dev->isp_subdev.sd, sd_state, + VIIF_ISP_PAD_SRC_PATH2); + src_fmt->width = VISCONTI_VIIF_ISP_DEFAULT_WIDTH; + src_fmt->height = VISCONTI_VIIF_ISP_DEFAULT_HEIGHT; + src_fmt->field = V4L2_FIELD_NONE; + src_fmt->code = MEDIA_BUS_FMT_SRGGB10_1X10; + + return 0; +} + +static int visconti_viif_isp_get_selection(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_subdev_selection *sel) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_mbus_framefmt *sink_fmt; + int ret = -EINVAL; + + mutex_lock(&viif_dev->isp_subdev.ops_lock); + if (sel->pad == VIIF_ISP_PAD_SINK) { + /* SINK PAD */ + switch (sel->target) { + case V4L2_SEL_TGT_CROP: + sink_fmt = visconti_viif_isp_get_pad_fmt(sd, sd_state, VIIF_ISP_PAD_SINK, + sel->which); + sel->r.top = 0; + sel->r.left = 0; + sel->r.width = sink_fmt->width; + sel->r.height = sink_fmt->height; + ret = 0; + break; + case V4L2_SEL_TGT_COMPOSE: + sel->r = *visconti_viif_isp_get_pad_compose(sd, sd_state, VIIF_ISP_PAD_SINK, + sel->which); + ret = 0; + break; + case V4L2_SEL_TGT_COMPOSE_BOUNDS: + /* fixed value */ + sel->r.top = 0; + sel->r.left = 0; + sel->r.width = VISCONTI_VIIF_MAX_COMPOSED_WIDTH; + sel->r.height = VISCONTI_VIIF_MAX_COMPOSED_HEIGHT; + ret = 0; + break; + } + } else if ((sel->pad == VIIF_ISP_PAD_SRC_PATH0) || (sel->pad == VIIF_ISP_PAD_SRC_PATH1)) { + /* SRC PAD */ + switch (sel->target) { + case V4L2_SEL_TGT_CROP: + sel->r = + *visconti_viif_isp_get_pad_crop(sd, sd_state, sel->pad, sel->which); + ret = 0; + break; + } + } + mutex_unlock(&viif_dev->isp_subdev.ops_lock); + + return ret; +} + +static int visconti_viif_isp_set_selection(struct v4l2_subdev *sd, + struct v4l2_subdev_state *sd_state, + struct v4l2_subdev_selection *sel) +{ + struct viif_device *viif_dev = ((struct isp_subdev *)sd)->viif_dev; + struct v4l2_mbus_framefmt *sink_fmt; + struct v4l2_rect *rect; + int ret = -EINVAL; + + mutex_lock(&viif_dev->isp_subdev.ops_lock); + /* only source::selection::crop is writable */ + if (sel->pad == VIIF_ISP_PAD_SRC_PATH0 || sel->pad == VIIF_ISP_PAD_SRC_PATH1) { + switch (sel->target) { + case V4L2_SEL_TGT_CROP: { + /* TODO: validation */ + rect = visconti_viif_isp_get_pad_crop(sd, sd_state, sel->pad, sel->which); + *rect = sel->r; + sink_fmt = + visconti_viif_isp_get_pad_fmt(sd, sd_state, sel->pad, sel->which); + sink_fmt->width = sel->r.width; + sink_fmt->height = sel->r.height; + ret = 0; + break; + } + } + } + mutex_unlock(&viif_dev->isp_subdev.ops_lock); + + return ret; +} + +void visconti_viif_isp_set_compose_rect(struct viif_device *viif_dev, + struct viif_l2_roi_config *roi) +{ + struct v4l2_rect *rect; + + rect = visconti_viif_isp_get_pad_compose(&viif_dev->isp_subdev.sd, NULL, VIIF_ISP_PAD_SINK, + V4L2_SUBDEV_FORMAT_ACTIVE); + rect->top = 0; + rect->left = 0; + rect->width = roi->corrected_hsize[0]; + rect->height = roi->corrected_vsize[0]; +} + +static const struct media_entity_operations visconti_viif_isp_media_ops = { + .link_validate = v4l2_subdev_link_validate, +}; + +static const struct v4l2_subdev_pad_ops visconti_viif_isp_pad_ops = { + .enum_mbus_code = visconti_viif_isp_enum_mbus_code, + .get_selection = visconti_viif_isp_get_selection, + .set_selection = visconti_viif_isp_set_selection, + .init_cfg = visconti_viif_isp_init_config, + .get_fmt = visconti_viif_isp_get_fmt, + .set_fmt = visconti_viif_isp_set_fmt, + .link_validate = v4l2_subdev_link_validate_default, +}; + +static const struct v4l2_subdev_video_ops visconti_viif_isp_video_ops = { + .s_stream = visconti_viif_isp_s_stream, +}; + +static const struct v4l2_subdev_ops visconti_viif_isp_ops = { + .video = &visconti_viif_isp_video_ops, + .pad = &visconti_viif_isp_pad_ops, +}; + +/* ----- register/remove isp subdevice node ----- */ +int visconti_viif_isp_register(struct viif_device *viif_dev) +{ + struct v4l2_subdev_state state = { + .pads = viif_dev->isp_subdev.pad_cfg, + }; + struct media_pad *pads = viif_dev->isp_subdev.pads; + struct v4l2_subdev *sd = &viif_dev->isp_subdev.sd; + int ret; + + viif_dev->isp_subdev.viif_dev = viif_dev; + + v4l2_subdev_init(sd, &visconti_viif_isp_ops); + sd->flags |= V4L2_SUBDEV_FL_HAS_DEVNODE; + sd->entity.ops = &visconti_viif_isp_media_ops; + sd->entity.function = MEDIA_ENT_F_PROC_VIDEO_SCALER; + sd->owner = THIS_MODULE; + strscpy(sd->name, "visconti-viif:isp", sizeof(sd->name)); + + pads[0].flags = MEDIA_PAD_FL_SINK | MEDIA_PAD_FL_MUST_CONNECT; + pads[1].flags = MEDIA_PAD_FL_SOURCE | MEDIA_PAD_FL_MUST_CONNECT; + pads[2].flags = MEDIA_PAD_FL_SOURCE | MEDIA_PAD_FL_MUST_CONNECT; + pads[3].flags = MEDIA_PAD_FL_SOURCE | MEDIA_PAD_FL_MUST_CONNECT; + + mutex_init(&viif_dev->isp_subdev.ops_lock); + + visconti_viif_isp_init_controls(viif_dev); + + ret = media_entity_pads_init(&sd->entity, 4, pads); + if (ret) { + dev_err(viif_dev->dev, "Failed on media_entity_pads_init\n"); + return ret; + } + + ret = v4l2_device_register_subdev(&viif_dev->v4l2_dev, sd); + if (ret) { + dev_err(viif_dev->dev, "Failed to resize ISP subdev\n"); + goto err_cleanup_media_entity; + } + + visconti_viif_isp_init_config(sd, &state); + + return 0; + +err_cleanup_media_entity: + media_entity_cleanup(&sd->entity); + return ret; +} + +void visconti_viif_isp_unregister(struct viif_device *viif_dev) +{ + v4l2_device_unregister_subdev(&viif_dev->isp_subdev.sd); + media_entity_cleanup(&viif_dev->isp_subdev.sd.entity); +} diff --git a/include/uapi/linux/visconti_viif.h b/include/uapi/linux/visconti_viif.h new file mode 100644 index 000000000..f92278425 --- /dev/null +++ b/include/uapi/linux/visconti_viif.h @@ -0,0 +1,1724 @@ +/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */ +/* Toshiba Visconti Video Capture Support + * + * (C) Copyright 2022 TOSHIBA CORPORATION + * (C) Copyright 2022 Toshiba Electronic Devices & Storage Corporation + */ + +#ifndef __UAPI_VISCONTI_VIIF_H_ +#define __UAPI_VISCONTI_VIIF_H_ + +#include <linux/types.h> +#include <linux/videodev2.h> + +/* Visconti specific compound controls */ +#define V4L2_CID_VISCONTI_VIIF_BASE (V4L2_CID_USER_BASE + 0x1000) +#define V4L2_CID_VISCONTI_VIIF_MAIN_SET_RAWPACK_MODE (V4L2_CID_VISCONTI_VIIF_BASE + 1) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_INPUT_MODE (V4L2_CID_VISCONTI_VIIF_BASE + 2) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RGB_TO_Y_COEF (V4L2_CID_VISCONTI_VIIF_BASE + 3) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG_MODE (V4L2_CID_VISCONTI_VIIF_BASE + 4) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG (V4L2_CID_VISCONTI_VIIF_BASE + 5) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRE (V4L2_CID_VISCONTI_VIIF_BASE + 6) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_EXTRACTION (V4L2_CID_VISCONTI_VIIF_BASE + 7) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_DPC (V4L2_CID_VISCONTI_VIIF_BASE + 8) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_PRESET_WHITE_BALANCE (V4L2_CID_VISCONTI_VIIF_BASE + 9) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RAW_COLOR_NOISE_REDUCTION \ + (V4L2_CID_VISCONTI_VIIF_BASE + 10) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRS (V4L2_CID_VISCONTI_VIIF_BASE + 11) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_BLACK_LEVEL_CORRECTION (V4L2_CID_VISCONTI_VIIF_BASE + 12) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_LSC (V4L2_CID_VISCONTI_VIIF_BASE + 13) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_MAIN_PROCESS (V4L2_CID_VISCONTI_VIIF_BASE + 14) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AWB (V4L2_CID_VISCONTI_VIIF_BASE + 15) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_LOCK_AWB_GAIN (V4L2_CID_VISCONTI_VIIF_BASE + 16) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC (V4L2_CID_VISCONTI_VIIF_BASE + 17) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC_LTM (V4L2_CID_VISCONTI_VIIF_BASE + 18) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_GAMMA (V4L2_CID_VISCONTI_VIIF_BASE + 19) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_QUALITY_ADJUSTMENT (V4L2_CID_VISCONTI_VIIF_BASE + 20) +#define V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AVG_LUM_GENERATION (V4L2_CID_VISCONTI_VIIF_BASE + 21) +#define V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_UNDIST (V4L2_CID_VISCONTI_VIIF_BASE + 22) +#define V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_ROI (V4L2_CID_VISCONTI_VIIF_BASE + 23) +#define V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_GAMMA (V4L2_CID_VISCONTI_VIIF_BASE + 24) +#define V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_CALIBRATION_STATUS (V4L2_CID_VISCONTI_VIIF_BASE + 25) +#define V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_ERR_STATUS (V4L2_CID_VISCONTI_VIIF_BASE + 26) +#define V4L2_CID_VISCONTI_VIIF_GET_LAST_CAPTURE_STATUS (V4L2_CID_VISCONTI_VIIF_BASE + 27) +#define V4L2_CID_VISCONTI_VIIF_GET_REPORTED_ERRORS (V4L2_CID_VISCONTI_VIIF_BASE + 28) + +/* Enable/Disable flag */ +#define VIIF_DISABLE (0U) +#define VIIF_ENABLE (1U) + +/** + * enum viif_rawpack_mode - RAW pack mode for ioctl(VIDIOC_VIIF_MAIN_SET_RAWPACK_MODE) + * + * @VIIF_RAWPACK_DISABLE: RAW pack disable + * @VIIF_RAWPACK_MSBFIRST: RAW pack enable (MSB First) + * @VIIF_RAWPACK_LSBFIRST: RAW pack enable (LSB First) + */ +enum viif_rawpack_mode { + VIIF_RAWPACK_DISABLE = 0, + VIIF_RAWPACK_MSBFIRST = 2, + VIIF_RAWPACK_LSBFIRST = 3, +}; + +/** + * enum viif_l1_input - L1ISP preprocessing mode + * + * @VIIF_L1_INPUT_HDR: bypass(HDR input) + * @VIIF_L1_INPUT_PWL: HDRE(PWL input) + * @VIIF_L1_INPUT_HDR_IMG_CORRECT: SLIC-ABPC-PWHB-RCNR-HDRS + * @VIIF_L1_INPUT_PWL_IMG_CORRECT: HDRE-SLIC-ABPC-PWHB-RCNR-HDRS + */ +enum viif_l1_input { + VIIF_L1_INPUT_HDR = 0, + VIIF_L1_INPUT_PWL = 1, + VIIF_L1_INPUT_HDR_IMG_CORRECT = 3, + VIIF_L1_INPUT_PWL_IMG_CORRECT = 4, +}; + +/** + * enum viif_l1_raw - L1ISP RAW color filter mode + * + * @VIIF_L1_RAW_GR_R_B_GB: Gr-R-B-Gb + * @VIIF_L1_RAW_R_GR_GB_B: R-Gr-Gb-B + * @VIIF_L1_RAW_B_GB_GR_R: B-Gb-Gr-R + * @VIIF_L1_RAW_GB_B_R_GR: Gb-B-R-Gr + */ +enum viif_l1_raw { + VIIF_L1_RAW_GR_R_B_GB = 0, + VIIF_L1_RAW_R_GR_GB_B = 1, + VIIF_L1_RAW_B_GB_GR_R = 2, + VIIF_L1_RAW_GB_B_R_GR = 3, +}; + +/** + * struct viif_l1_input_mode_config - L1ISP INPUT MODE parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_INPUT_MODE` + * @mode: &enum viif_l1_input value. + * @depth: Color depth (even only). Range for each L1ISP pre-processing mode is: + * + * * VIIF_L1_INPUT_HDR/HDR_IMG_CORRECT: Range: [8..24]. + * * VIIF_L1_INPUT_PWL/PWL_IMG_CORRECT: Range: [8..14]. + * @raw_color_filter: &enum viif_l1_raw value. + */ +struct viif_l1_input_mode_config { + __u32 mode; + __u32 depth; + __u32 raw_color_filter; +}; + +/** + * struct viif_l1_rgb_to_y_coef_config - L1ISP coefficient for calculating + * Y from RGB parameters for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RGB_TO_Y_COEF` + * @coef_r: R co-efficient [256..65024] accuracy: 1/65536 + * @coef_g: R co-efficient [256..65024] accuracy: 1/65536 + * @coef_b: R co-efficient [256..65024] accuracy: 1/65536 + */ +struct viif_l1_rgb_to_y_coef_config { + __u16 coef_r; + __u16 coef_g; + __u16 coef_b; +}; + +/** + * enum viif_l1_img_sensitivity_mode - L1ISP image sensitivity + * + * @VIIF_L1_IMG_SENSITIVITY_HIGH: high sensitivity + * @VIIF_L1_IMG_SENSITIVITY_MIDDLE_LED: middle sensitivity or led + * @VIIF_L1_IMG_SENSITIVITY_LOW: low sensitivity + */ +enum viif_l1_img_sensitivity_mode { + VIIF_L1_IMG_SENSITIVITY_HIGH = 0, + VIIF_L1_IMG_SENSITIVITY_MIDDLE_LED = 1, + VIIF_L1_IMG_SENSITIVITY_LOW = 2, +}; + +/** + * struct viif_l1_ag_mode_config - L1ISP AG mode parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG_MODE` + * @sysm_ag_grad: Analog gain slope [0..255] (element is id) + * @sysm_ag_ofst: Analog gain offset [0..65535] (element is id) + * @sysm_ag_cont_hobc_en_high: 1:enable/0:disable to control analog gain + * for high sensitivity image of OBCC + * @sysm_ag_psel_hobc_high: Analog gain id for high sensitivity image of OBCC [0..3] + * @sysm_ag_cont_hobc_en_middle_led: 1:enable/0:disable to control analog gain + * for middle sensitivity or LED image of OBCC + * @sysm_ag_psel_hobc_middle_led: Analog gain id for middle sensitivity + * or LED image of OBCC [0..3] + * @sysm_ag_cont_hobc_en_low: 1:enable/0:disable to control analog gain + * for low sensitivity image of OBCC + * @sysm_ag_psel_hobc_low: Analog gain id for low sensitivity image of OBCC [0..3] + * @sysm_ag_cont_abpc_en_high: 1:enable/0:disable to control analog gain + * for high sensitivity image of ABPC + * @sysm_ag_psel_abpc_high: Analog gain id for high sensitivity image of ABPC [0..3] + * @sysm_ag_cont_abpc_en_middle_led: 1:enable/0:disable to control analog gain + * for middle sensitivity or LED image of ABPC + * @sysm_ag_psel_abpc_middle_led: Analog gain id for middle sensitivity + * or LED image of ABPC [0..3] + * @sysm_ag_cont_abpc_en_low: 1:enable/0:disable to control analog gain + * for low sensitivity image of ABPC + * @sysm_ag_psel_abpc_low: Analog gain id for low sensitivity image of ABPC [0..3] + * @sysm_ag_cont_rcnr_en_high: 1:enable/0:disable to control analog gain + * for high sensitivity image of RCNR + * @sysm_ag_psel_rcnr_high: Analog gain id for high sensitivity image of RCNR [0..3] + * @sysm_ag_cont_rcnr_en_middle_led: 1:enable/0:disable to control analog gain + * for middle sensitivity or LED image of RCNR + * @sysm_ag_psel_rcnr_middle_led: Analog gain id for middle sensitivity + * or LED image of RCNR [0..3] + * @sysm_ag_cont_rcnr_en_low: 1:enable/0:disable to control analog gain + * for low sensitivity image of RCNR + * @sysm_ag_psel_rcnr_low: Analog gain id for low sensitivity image of RCNR [0..3] + * @sysm_ag_cont_lssc_en: 1:enable/0:disable to control analog gain for LSC + * @sysm_ag_ssel_lssc: &enum viif_l1_img_sensitivity_mode value. Sensitive image used for LSC. + * @sysm_ag_psel_lssc: Analog gain id for LSC [0..3] + * @sysm_ag_cont_mpro_en: 1:enable/0:disable to control analog gain for color matrix + * @sysm_ag_ssel_mpro: &enum viif_l1_img_sensitivity_mode value. + * Sensitive image used for color matrix. + * @sysm_ag_psel_mpro:Aanalog gain id for color matrix [0..3] + * @sysm_ag_cont_vpro_en: 1:enable/0:disable to control analog gain for image adjustment + * @sysm_ag_ssel_vpro: &enum viif_l1_img_sensitivity_mode value. + * Sensitive image used for image adjustment. + * @sysm_ag_psel_vpro: Analog gain id for image adjustment [0..3] + * @sysm_ag_cont_hobc_test_high: Manual analog gain for high sensitivity image + * of OBCC [0..255] + * @sysm_ag_cont_hobc_test_middle_led: Manual analog gain for middle sensitivity + * or led image of OBCC [0..255] + * @sysm_ag_cont_hobc_test_low: Manual analog gain for low sensitivity image + * of OBCC [0..255] + * @sysm_ag_cont_abpc_test_high: Manual analog gain for high sensitivity image + * of ABPC [0..255] + * @sysm_ag_cont_abpc_test_middle_led: Manual analog gain for middle sensitivity + * or led image of ABPC [0..255] + * @sysm_ag_cont_abpc_test_low: Manual analog gain for low sensitivity image + * of ABPC [0..255] + * @sysm_ag_cont_rcnr_test_high: Manual analog gain for high sensitivity image + * of RCNR [0..255] + * @sysm_ag_cont_rcnr_test_middle_led: Manual analog gain for middle sensitivity + * or led image of RCNR [0..255] + * @sysm_ag_cont_rcnr_test_low: Manual analog gain for low sensitivity image + * of RCNR [0..255] + * @sysm_ag_cont_lssc_test: Manual analog gain for LSSC [0..255] + * @sysm_ag_cont_mpro_test: Manual analog gain for color matrix [0..255] + * @sysm_ag_cont_vpro_test: Manual analog gain for image adjustment [0..255] + * + * Operation setting of L1ISP analog gain function. + * Analog gain control is disabled if following settings are done. + * "sysm_ag_cont_*_en = DRV_VIIF_DISABLE" and "sysm_ag_cont_*_test = 0" + * In case "VIIF_L1_INPUT_HDR" or "VIIF_L1_INPUT_PWL" is set to "mode" which is + * an &struct viif_l1_input_mode_config, analog gain control needs to be disabled. + * Even if this condition is not satisfied, this driver doesn't return error. + * + * The value set in sysm_ag_psel_xxx indicates analog gain system to be used and + * corresponds to the element number of sysm_ag_grad and sysm_ag_ofst. + * For example, if sysm_ag_psel_hobc_high is set to 2, then values set in + * sysm_ag_grad[2] and sysm_ag_ofst[2] are used for high sensitivity images + * in OBCC processing. + */ +struct viif_l1_ag_mode_config { + __u8 sysm_ag_grad[4]; + __u16 sysm_ag_ofst[4]; + __u32 sysm_ag_cont_hobc_en_high; + __u32 sysm_ag_psel_hobc_high; + __u32 sysm_ag_cont_hobc_en_middle_led; + __u32 sysm_ag_psel_hobc_middle_led; + __u32 sysm_ag_cont_hobc_en_low; + __u32 sysm_ag_psel_hobc_low; + __u32 sysm_ag_cont_abpc_en_high; + __u32 sysm_ag_psel_abpc_high; + __u32 sysm_ag_cont_abpc_en_middle_led; + __u32 sysm_ag_psel_abpc_middle_led; + __u32 sysm_ag_cont_abpc_en_low; + __u32 sysm_ag_psel_abpc_low; + __u32 sysm_ag_cont_rcnr_en_high; + __u32 sysm_ag_psel_rcnr_high; + __u32 sysm_ag_cont_rcnr_en_middle_led; + __u32 sysm_ag_psel_rcnr_middle_led; + __u32 sysm_ag_cont_rcnr_en_low; + __u32 sysm_ag_psel_rcnr_low; + __u32 sysm_ag_cont_lssc_en; + __u32 sysm_ag_ssel_lssc; + __u32 sysm_ag_psel_lssc; + __u32 sysm_ag_cont_mpro_en; + __u32 sysm_ag_ssel_mpro; + __u32 sysm_ag_psel_mpro; + __u32 sysm_ag_cont_vpro_en; + __u32 sysm_ag_ssel_vpro; + __u32 sysm_ag_psel_vpro; + __u8 sysm_ag_cont_hobc_test_high; + __u8 sysm_ag_cont_hobc_test_middle_led; + __u8 sysm_ag_cont_hobc_test_low; + __u8 sysm_ag_cont_abpc_test_high; + __u8 sysm_ag_cont_abpc_test_middle_led; + __u8 sysm_ag_cont_abpc_test_low; + __u8 sysm_ag_cont_rcnr_test_high; + __u8 sysm_ag_cont_rcnr_test_middle_led; + __u8 sysm_ag_cont_rcnr_test_low; + __u8 sysm_ag_cont_lssc_test; + __u8 sysm_ag_cont_mpro_test; + __u8 sysm_ag_cont_vpro_test; +}; + +/** + * struct viif_l1_ag_config - L1ISP AG parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AG` + * @gain_h: Analog gain for high sensitive image [0..65535] + * @gain_m: Analog gain for middle sensitive image or LED image [0..65535] + * @gain_l: Analog gain for low sensitive image [0..65535] + */ +struct viif_l1_ag_config { + __u16 gain_h; + __u16 gain_m; + __u16 gain_l; +}; + +/** + * struct viif_l1_hdre_config - L1ISP HDRE parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRE` + * @hdre_src_point: Knee point N value of PWL compressed signal [0..0x3FFF] + * @hdre_dst_base: Offset value of HDR signal in Knee area M [0..0xFFFFFF] + * @hdre_ratio: Slope of output pixel value in Knee area M + * [0..0x3FFFFF], accuracy: 1/64 + * @hdre_dst_max_val: Maximum value of output pixel [0..0xFFFFFF] + */ +struct viif_l1_hdre_config { + __u32 hdre_src_point[16]; + __u32 hdre_dst_base[17]; + __u32 hdre_ratio[17]; + __u32 hdre_dst_max_val; +}; + +/** + * struct viif_l1_img_extraction_config - L1ISP image extraction parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_EXTRACTION` + * @input_black_gr: Black level of input pixel (Gr) [0..0xFFFFFF] + * @input_black_r: Black level of input pixel (R) [0..0xFFFFFF] + * @input_black_b: Black level of input pixel (B) [0..0xFFFFFF] + * @input_black_gb: Black level of input pixel (Gb) [0..0xFFFFFF] + */ +struct viif_l1_img_extraction_config { + __u32 input_black_gr; + __u32 input_black_r; + __u32 input_black_b; + __u32 input_black_gb; +}; + +/** + * enum viif_l1_dpc_mode - L1ISP defect pixel correction mode + * @VIIF_L1_DPC_1PIXEL: 1 pixel correction mode + * @VIIF_L1_DPC_2PIXEL: 2 pixel correction mode + */ +enum viif_l1_dpc_mode { + VIIF_L1_DPC_1PIXEL = 0, + VIIF_L1_DPC_2PIXEL = 1, +}; + +/** + * struct viif_l1_dpc - L1ISP defect pixel correction parameters + * for &struct viif_l1_dpc_config + * @abpc_sta_en: 1:enable/0:disable setting of Static DPC + * @abpc_dyn_en: 1:enable/0:disable setting of Dynamic DPC + * @abpc_dyn_mode: &enume viif_l1_dpc_mode value. Sets dynamic DPC mode. + * @abpc_ratio_limit: Variation adjustment of dynamic DPC [0..1023] + * @abpc_dark_limit: White defect judgment limit of dark area [0..1023] + * @abpc_sn_coef_w_ag_min: Luminance difference adjustment of white DPC + * (undere lower threshold) [1..31] + * @abpc_sn_coef_w_ag_mid: Luminance difference adjustment of white DPC + * (between lower and upper threshold) [1..31] + * @abpc_sn_coef_w_ag_max: Luminance difference adjustment of white DPC + * (over upper threshold) [1..31] + * @abpc_sn_coef_b_ag_min: Luminance difference adjustment of black DPC + * (undere lower threshold) [1..31] + * @abpc_sn_coef_b_ag_mid: Luminance difference adjustment of black DPC + * (between lower and upper threshold) [1..31] + * @abpc_sn_coef_b_ag_max: Luminance difference adjustment of black DPC + * (over upper threshold) [1..31] + * @abpc_sn_coef_w_th_min: Luminance difference adjustment of white DPC + * analog gain lower threshold [0..255] + * @abpc_sn_coef_w_th_max: Luminance difference adjustment of white DPC + * analog gain upper threshold [0..255] + * @abpc_sn_coef_b_th_min: Luminance difference adjustment of black DPC + * analog gain lower threshold [0..255] + * @abpc_sn_coef_b_th_max: Luminance difference adjustment of black DPC + * analog gain upper threshold [0..255] + * + * Parameters should meet the following conditions. + * "abpc_sn_coef_w_th_min < abpc_sn_coef_w_th_max" and + * "abpc_sn_coef_b_th_min < abpc_sn_coef_b_th_max" + */ +struct viif_l1_dpc { + __u32 abpc_sta_en; + __u32 abpc_dyn_en; + __u32 abpc_dyn_mode; + __u32 abpc_ratio_limit; + __u32 abpc_dark_limit; + __u32 abpc_sn_coef_w_ag_min; + __u32 abpc_sn_coef_w_ag_mid; + __u32 abpc_sn_coef_w_ag_max; + __u32 abpc_sn_coef_b_ag_min; + __u32 abpc_sn_coef_b_ag_mid; + __u32 abpc_sn_coef_b_ag_max; + __u8 abpc_sn_coef_w_th_min; + __u8 abpc_sn_coef_w_th_max; + __u8 abpc_sn_coef_b_th_min; + __u8 abpc_sn_coef_b_th_max; +}; + +/** + * struct viif_l1_dpc_config - L1ISP defect pixel correction parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_DPC` + * @param_h: DPC parameter for high sensitive image. Refer to &struct viif_l1_dpc + * @param_m: DPC parameter for middle sensitive image. Refer to &struct viif_l1_dpc + * @param_l: DPC parameter for low sensitive image. Refer to &struct viif_l1_dpc + * @table_h_addr: DPC table address for high sensitive image. + * The table size is sizeof(u32) * 2048. + * Set zero to disable this table. + * @table_m_addr: DPC table address for middle sensitive image or LED image. + * The table size is sizeof(u32) * 2048. + * Set zero to disable this table. + * @table_l_addr: DPC table address for low sensitive image. + * The table size is sizeof(u32) * 2048. + * Set zero to disable this table. + * + * The size of each table is fixed at 8192 Byte. + * Application should make sure that the table data is based on HW specification + * since this driver does not check the DPC table. + */ +struct viif_l1_dpc_config { + struct viif_l1_dpc param_h; + struct viif_l1_dpc param_m; + struct viif_l1_dpc param_l; + __u64 table_h_addr; + __u64 table_m_addr; + __u64 table_l_addr; +}; + +/** + * struct viif_l1_preset_wb - L1ISP preset white balance parameters + * for &struct viif_l1_preset_white_balance_config + * @gain_gr: Gr gain [0..524287], accuracy 1/16384 + * @gain_r: R gain [0..524287], accuracy 1/16384 + * @gain_b: B gain [0..524287], accuracy 1/16384 + * @gain_gb: Gb gain [0..524287], accuracy 1/16384 + */ +struct viif_l1_preset_wb { + __u32 gain_gr; + __u32 gain_r; + __u32 gain_b; + __u32 gain_gb; +}; + +/** + * struct viif_l1_preset_white_balance_config - L1ISP preset white balance + * parameters for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_PRESET_WHITE_BALANCE` + * @dstmaxval: Maximum value of output pixel [pixel] [0..4095] + * @param_h: Preset white balance parameter for high sensitive image. + * Refer to &struct viif_l1_preset_wb + * @param_m: Preset white balance parameters for middle sensitive image or LED image. + * Refer to &struct viif_l1_preset_wb + * @param_l: Preset white balance parameters for low sensitive image. + * Refer to &struct viif_l1_preset_wb + */ +struct viif_l1_preset_white_balance_config { + __u32 dstmaxval; + struct viif_l1_preset_wb param_h; + struct viif_l1_preset_wb param_m; + struct viif_l1_preset_wb param_l; +}; + +/** + * enum viif_l1_rcnr_type - L1ISP high resolution luminance filter type + * + * @VIIF_L1_RCNR_LOW_RESOLUTION: low resolution + * @VIIF_L1_RCNR_MIDDLE_RESOLUTION: middle resolution + * @VIIF_L1_RCNR_HIGH_RESOLUTION: high resolution + * @VIIF_L1_RCNR_ULTRA_HIGH_RESOLUTION: ultra high resolution + */ +enum viif_l1_rcnr_type { + VIIF_L1_RCNR_LOW_RESOLUTION = 0, + VIIF_L1_RCNR_MIDDLE_RESOLUTION = 1, + VIIF_L1_RCNR_HIGH_RESOLUTION = 2, + VIIF_L1_RCNR_ULTRA_HIGH_RESOLUTION = 3, +}; + +/** + * enum viif_l1_msf_blend_ratio - L1ISP MSF blend ratio + * + * @VIIF_L1_MSF_BLEND_RATIO_0_DIV_64: 0/64 + * @VIIF_L1_MSF_BLEND_RATIO_1_DIV_64: 1/64 + * @VIIF_L1_MSF_BLEND_RATIO_2_DIV_64: 2/64 + */ +enum viif_l1_msf_blend_ratio { + VIIF_L1_MSF_BLEND_RATIO_0_DIV_64 = 0, + VIIF_L1_MSF_BLEND_RATIO_1_DIV_64 = 1, + VIIF_L1_MSF_BLEND_RATIO_2_DIV_64 = 2, +}; + +/** + * struct viif_l1_raw_color_noise_reduction - L1ISP RCNR parameters + * for &struct viif_l1_raw_color_noise_reduction_config + * @rcnr_sw: 1:Enable/0:Disable setting of RAW color noise reduction + * @rcnr_cnf_dark_ag0: Maximum value of LSF dark noise adjustment[0..63] + * @rcnr_cnf_dark_ag1: Middle value of LSF dark noise adjustment [0..63] + * @rcnr_cnf_dark_ag2: Minimum value of LSF dark noise adjustment [0..63] + * @rcnr_cnf_ratio_ag0: Maximum value of LSF luminance interlocking noise adjustment [0..31] + * @rcnr_cnf_ratio_ag1: Middle value of LSF luminance interlocking noise adjustment [0..31] + * @rcnr_cnf_ratio_ag2: Minimum value of LSF luminance interlocking noise adjustment [0..31] + * @rcnr_cnf_clip_gain_r: LSF color correction limit adjustment gain R [0..3] + * @rcnr_cnf_clip_gain_g: LSF color correction limit adjustment gain G [0..3] + * @rcnr_cnf_clip_gain_b: LSF color correction limit adjustment gain B [0..3] + * @rcnr_a1l_dark_ag0: Maximum value of MSF dark noise adjustment [0..63] + * @rcnr_a1l_dark_ag1: Middle value of MSF dark noise adjustment [0..63] + * @rcnr_a1l_dark_ag2: Minimum value of MSF dark noise adjustment [0..63] + * @rcnr_a1l_ratio_ag0: Maximum value of MSF luminance interlocking noise adjustment [0..31] + * @rcnr_a1l_ratio_ag1: Middle value of MSF luminance interlocking noise adjustment [0..31] + * @rcnr_a1l_ratio_ag2: Minimum value of MSF luminance interlocking noise adjustment [0..31] + * @rcnr_inf_zero_clip: Input stage zero clip setting [0..256] + * @rcnr_merge_d2blend_ag0: Maximum value of filter results and input blend ratio [0..16] + * @rcnr_merge_d2blend_ag1: Middle value of filter results and input blend ratio [0..16] + * @rcnr_merge_d2blend_ag2: Minimum value of filter results and input blend ratio [0..16] + * @rcnr_merge_black: Black level minimum value [0..64] + * @rcnr_merge_mindiv: 0 div guard value of inverse arithmetic unit [4..16] + * @rcnr_hry_type: &enum viif_l1_rcnr_type value. Filter type for HSF filter process. + * @rcnr_anf_blend_ag0: &enum viif_l1_msf_blend_ratio value. + * Maximum value of MSF result blend ratio in write back data to line memory. + * @rcnr_anf_blend_ag1: &enum viif_l1_msf_blend_ratio value. + * Middle value of MSF result blend ratio in write back data to line memory. + * @rcnr_anf_blend_ag2: &enum viif_l1_msf_blend_ratio value. + * Minimum value of MSF result blend ratio in write back data to line memory. + * @rcnr_lpf_threshold: Multiplier value for calculating dark noise / luminance + * interlock noise of MSF [0..31], accuracy: 1/8 + * @rcnr_merge_hlblend_ag0: Maximum value of luminance signal generation blend [0..2] + * @rcnr_merge_hlblend_ag1: Middle value of luminance signal generation blend [0..2] + * @rcnr_merge_hlblend_ag2: Minimum value of luminance signal generation blend [0..2] + * @rcnr_gnr_sw: 1:Enable/0:Disable setting of Gr/Gb sensitivity ratio + * correction function switching + * @rcnr_gnr_ratio: Upper limit of Gr/Gb sensitivity ratio correction factor [0..15] + * @rcnr_gnr_wide_en: 1:Enable/0:Disable setting of the function to double + * correction upper limit ratio of rcnr_gnr_ratio + */ +struct viif_l1_raw_color_noise_reduction { + __u32 rcnr_sw; + __u32 rcnr_cnf_dark_ag0; + __u32 rcnr_cnf_dark_ag1; + __u32 rcnr_cnf_dark_ag2; + __u32 rcnr_cnf_ratio_ag0; + __u32 rcnr_cnf_ratio_ag1; + __u32 rcnr_cnf_ratio_ag2; + __u32 rcnr_cnf_clip_gain_r; + __u32 rcnr_cnf_clip_gain_g; + __u32 rcnr_cnf_clip_gain_b; + __u32 rcnr_a1l_dark_ag0; + __u32 rcnr_a1l_dark_ag1; + __u32 rcnr_a1l_dark_ag2; + __u32 rcnr_a1l_ratio_ag0; + __u32 rcnr_a1l_ratio_ag1; + __u32 rcnr_a1l_ratio_ag2; + __u32 rcnr_inf_zero_clip; + __u32 rcnr_merge_d2blend_ag0; + __u32 rcnr_merge_d2blend_ag1; + __u32 rcnr_merge_d2blend_ag2; + __u32 rcnr_merge_black; + __u32 rcnr_merge_mindiv; + __u32 rcnr_hry_type; + __u32 rcnr_anf_blend_ag0; + __u32 rcnr_anf_blend_ag1; + __u32 rcnr_anf_blend_ag2; + __u32 rcnr_lpf_threshold; + __u32 rcnr_merge_hlblend_ag0; + __u32 rcnr_merge_hlblend_ag1; + __u32 rcnr_merge_hlblend_ag2; + __u32 rcnr_gnr_sw; + __u32 rcnr_gnr_ratio; + __u32 rcnr_gnr_wide_en; +}; + +/** + * struct viif_l1_raw_color_noise_reduction_config - L1ISP RCNR parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_RAW_COLOR_NOISE_REDUCTION` + * @param_h: RAW color noise reduction parameter for high sensitive image. + * Refer to &struct viif_l1_raw_color_noise_reduction + * @param_m: RAW color noise reduction parameter for middle sensitive image or LED image. + * Refer to &struct viif_l1_raw_color_noise_reduction + * @param_l: RAW color noise reduction parameter for low sensitive image. + * Refer to &struct viif_l1_raw_color_noise_reduction + */ +struct viif_l1_raw_color_noise_reduction_config { + struct viif_l1_raw_color_noise_reduction param_h; + struct viif_l1_raw_color_noise_reduction param_m; + struct viif_l1_raw_color_noise_reduction param_l; +}; + +/** + * enum viif_l1_hdrs_middle_img_mode - L1ISP HDR setting + * + * @VIIF_L1_HDRS_NOT_USE_MIDDLE_SENS_IMAGE: not use middle image + * @VIIF_L1_HDRS_USE_MIDDLE_SENS_IMAGE: use middle image + */ +enum viif_l1_hdrs_middle_img_mode { + VIIF_L1_HDRS_NOT_USE_MIDDLE_SENS_IMAGE = 0, + VIIF_L1_HDRS_USE_MIDDLE_SENS_IMAGE = 1, +}; + +/** + * struct viif_l1_hdrs_config - L1ISP HDRS parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRS` + * @hdrs_hdr_mode: &enum viif_l1_hdrs_middle_img_mode value. + * Use/No use settings of middle sensitivity image in HDRS. + * @hdrs_hdr_ratio_m: Magnification ratio of middle sensitivity image for high + * sensitivity image [0x400..0x400000] accuracy: 1/1024 + * @hdrs_hdr_ratio_l: Magnification ratio of low sensitivity image for high + * sensitivity image [0x400..0x400000], accuracy: 1/1024 + * @hdrs_hdr_ratio_e: Magnification ratio of LED image for high sensitivity image + * [0x400..0x400000], accuracy: 1/1024 + * @hdrs_dg_h: High sensitivity image digital gain [0..0x3FFFFF], accuracy: 1/1024 + * @hdrs_dg_m: Middle sensitivity image digital gain [0..0x3FFFFF], accuracy: 1/1024 + * @hdrs_dg_l: Low sensitivity image digital gain [0..0x3FFFFF], accuracy: 1/1024 + * @hdrs_dg_e: LED image digital gain [0..0x3FFFFF], accuracy: 1/1024 + * @hdrs_blendend_h: Maximum luminance used for blend high sensitivity image [0..4095] + * @hdrs_blendend_m: Maximum luminance used for blend middle sensitivity image [0..4095] + * @hdrs_blendend_e: Maximum luminance used for blend LED image [0..4095] + * @hdrs_blendbeg_h: Minimum luminance used for blend high sensitivity image [0..4095] + * @hdrs_blendbeg_m: Minimum luminance used for blend middle sensitivity image [0..4095] + * @hdrs_blendbeg_e: Minimum luminance used for blend LED image [0..4095] + * @hdrs_led_mode_on: 1:Enable/0:Disable settings of LED mode + * @hdrs_dst_max_val: Maximum value of output pixel [0..0xFFFFFF] + * + * parameter error needs to be returned in the below condition. + * (hdrs_hdr_mode == VIIF_L1_HDRS_USE_MIDDLE_SENS_IMAGE) && (hdrs_led_mode_on == 1) + */ +struct viif_l1_hdrs_config { + __u32 hdrs_hdr_mode; + __u32 hdrs_hdr_ratio_m; + __u32 hdrs_hdr_ratio_l; + __u32 hdrs_hdr_ratio_e; + __u32 hdrs_dg_h; + __u32 hdrs_dg_m; + __u32 hdrs_dg_l; + __u32 hdrs_dg_e; + __u32 hdrs_blendend_h; + __u32 hdrs_blendend_m; + __u32 hdrs_blendend_e; + __u32 hdrs_blendbeg_h; + __u32 hdrs_blendbeg_m; + __u32 hdrs_blendbeg_e; + __u32 hdrs_led_mode_on; + __u32 hdrs_dst_max_val; +}; + +/** + * struct viif_l1_black_level_correction_config - L1ISP image level conversion + * parameters for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_BLACK_LEVEL_CORRECTION` + * @srcblacklevel_gr: Black level of Gr input pixel [pixel] [0..0xFFFFFF] + * @srcblacklevel_r: Black level of R input pixel [pixel] [0..0xFFFFFF] + * @srcblacklevel_b: Black level of B input pixel [pixel] [0..0xFFFFFF] + * @srcblacklevel_gb: Black level of Gb input pixel [pixel] [0..0xFFFFFF] + * @mulval_gr: Gr gain [0..0xFFFFF], accuracy: 1/256 + * @mulval_r: R gain [0..0xFFFFF], accuracy: 1/256 + * @mulval_b: B gain [0..0xFFFFF], accuracy: 1/256 + * @mulval_gb: Gb gain [0..0xFFFFF], accuracy: 1/256 + * @dstmaxval: Maximum value of output pixel [pixel] [0..0xFFFFFF] + */ +struct viif_l1_black_level_correction_config { + __u32 srcblacklevel_gr; + __u32 srcblacklevel_r; + __u32 srcblacklevel_b; + __u32 srcblacklevel_gb; + __u32 mulval_gr; + __u32 mulval_r; + __u32 mulval_b; + __u32 mulval_gb; + __u32 dstmaxval; +}; + +/** + * enum viif_l1_para_coef_gain - L1ISP parabola shading correction coefficient ratio + * + * @VIIF_L1_PARA_COEF_GAIN_ONE_EIGHTH: 1/8 + * @VIIF_L1_PARA_COEF_GAIN_ONE_FOURTH: 1/4 + * @VIIF_L1_PARA_COEF_GAIN_ONE_SECOND: 1/2 + * @VIIF_L1_PARA_COEF_GAIN_ONE_FIRST: 1/1 + */ +enum viif_l1_para_coef_gain { + VIIF_L1_PARA_COEF_GAIN_ONE_EIGHTH = 0, /* 1/8 */ + VIIF_L1_PARA_COEF_GAIN_ONE_FOURTH = 1, /* 1/4 */ + VIIF_L1_PARA_COEF_GAIN_ONE_SECOND = 2, /* 1/2 */ + VIIF_L1_PARA_COEF_GAIN_ONE_FIRST = 3, /* 1/1 */ +}; + +/** + * enum viif_l1_grid_coef_gain - L1ISP grid shading correction coefficient ratio + * + * @VIIF_L1_GRID_COEF_GAIN_X1: x1 + * @VIIF_L1_GRID_COEF_GAIN_X2: x2 + */ +enum viif_l1_grid_coef_gain { + VIIF_L1_GRID_COEF_GAIN_X1 = 0, + VIIF_L1_GRID_COEF_GAIN_X2 = 1, +}; + +/** + * struct viif_l1_lsc_parabola_ag_param - L2ISP parabola shading parameters + * for &struct viif_l1_lsc_parabola_param + * @lssc_paracoef_h_l_max: Parabola coefficient left maximum gain value + * @lssc_paracoef_h_l_min: Parabola coefficient left minimum gain value + * @lssc_paracoef_h_r_max: Parabola coefficient right maximum gain value + * @lssc_paracoef_h_r_min: Parabola coefficient right minimum gain value + * @lssc_paracoef_v_u_max: Parabola coefficient upper maximum gain value + * @lssc_paracoef_v_u_min: Parabola coefficient upper minimum gain value + * @lssc_paracoef_v_d_max: Parabola coefficient lower maximum gain value + * @lssc_paracoef_v_d_min: Parabola coefficient lower minimum gain value + * @lssc_paracoef_hv_lu_max: Parabola coefficient upper left gain maximum value + * @lssc_paracoef_hv_lu_min: Parabola coefficient upper left gain minimum value + * @lssc_paracoef_hv_ru_max: Parabola coefficient upper right gain maximum value + * @lssc_paracoef_hv_ru_min: Parabola coefficient upper right minimum gain value + * @lssc_paracoef_hv_ld_max: Parabola coefficient lower left gain maximum value + * @lssc_paracoef_hv_ld_min: Parabola coefficient lower left gain minimum value + * @lssc_paracoef_hv_rd_max: Parabola coefficient lower right gain maximum value + * @lssc_paracoef_hv_rd_min: Parabola coefficient lower right minimum gain value + * + * The range and accuracy of each coefficient are as + * "range: [-4096..4095], accuracy: 1/256 " + * + * Each coefficient should meet the following conditions. + * "lssc_paracoef_xx_xx_min <= lssc_paracoef_xx_xx_max" + */ +struct viif_l1_lsc_parabola_ag_param { + __s16 lssc_paracoef_h_l_max; + __s16 lssc_paracoef_h_l_min; + __s16 lssc_paracoef_h_r_max; + __s16 lssc_paracoef_h_r_min; + __s16 lssc_paracoef_v_u_max; + __s16 lssc_paracoef_v_u_min; + __s16 lssc_paracoef_v_d_max; + __s16 lssc_paracoef_v_d_min; + __s16 lssc_paracoef_hv_lu_max; + __s16 lssc_paracoef_hv_lu_min; + __s16 lssc_paracoef_hv_ru_max; + __s16 lssc_paracoef_hv_ru_min; + __s16 lssc_paracoef_hv_ld_max; + __s16 lssc_paracoef_hv_ld_min; + __s16 lssc_paracoef_hv_rd_max; + __s16 lssc_paracoef_hv_rd_min; +}; + +/** + * struct viif_l1_lsc_parabola_param - L2ISP parabola shading parameters + * for &struct viif_l1_lsc + * @lssc_para_h_center: Horizontal coordinate of central optical axis [pixel] + * [0..(Input image width - 1)] + * @lssc_para_v_center: Vertical coordinate of central optical axis [line] + * [0..(Input image height - 1)] + * @lssc_para_h_gain: Horizontal distance gain with the optical axis + * [0..4095], accuracy: 1/256 + * @lssc_para_v_gain: Vertical distance gain with the optical axis + * [0..4095], accuracy: 1/256 + * @lssc_para_mgsel2: &enum viif_l1_para_coef_gain value. + * Parabola 2D correction coefficient gain magnification ratio. + * @lssc_para_mgsel4: &enum viif_l1_para_coef_gain value. + * Parabola 4D correction coefficient gain magnification ratio. + * @r_2d: 2D parabola coefficient for R. + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @r_4d: 4D parabola coefficient for R. + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @gr_2d: 2D parabola coefficient for Gr + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @gr_4d: 4D parabola coefficient for Gr + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @gb_2d: 2D parabola coefficient for Gb + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @gb_4d: 4D parabola coefficient for Gb + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @b_2d: 2D parabola coefficient for B + * Refer to &struct viif_l1_lsc_parabola_ag_param + * @b_4d: 4D parabola coefficient for B + * Refer to &struct viif_l1_lsc_parabola_ag_param + */ +struct viif_l1_lsc_parabola_param { + __u32 lssc_para_h_center; + __u32 lssc_para_v_center; + __u32 lssc_para_h_gain; + __u32 lssc_para_v_gain; + __u32 lssc_para_mgsel2; + __u32 lssc_para_mgsel4; + struct viif_l1_lsc_parabola_ag_param r_2d; + struct viif_l1_lsc_parabola_ag_param r_4d; + struct viif_l1_lsc_parabola_ag_param gr_2d; + struct viif_l1_lsc_parabola_ag_param gr_4d; + struct viif_l1_lsc_parabola_ag_param gb_2d; + struct viif_l1_lsc_parabola_ag_param gb_4d; + struct viif_l1_lsc_parabola_ag_param b_2d; + struct viif_l1_lsc_parabola_ag_param b_4d; +}; + +/** + * struct viif_l1_lsc_grid_param - L2ISP grid shading parameters + * for &struct viif_l1_lsc + * @lssc_grid_h_size: Grid horizontal direction pixel count [32, 64, 128, 256, 512] + * @lssc_grid_v_size: Grid vertical direction pixel count [32, 64, 128, 256, 512] + * @lssc_grid_h_center: Horizontal coordinates of grid (1, 1) [pixel] [1..lssc_grid_h_size] + * Should meet the following condition. + * "Input image width <= lssc_grid_h_center + lssc_grid_h_size * 31" + * @lssc_grid_v_center: Vertical coordinates of grid (1, 1) [line] [1..lssc_grid_v_size] + * Should meet the following condition. + * "Input image height <= lssc_grid_v_center + lssc_grid_v_size * 23" + * @lssc_grid_mgsel: &enum viif_l1_grid_coef_gain value. + * Grid correction coefficient gain value magnification ratio. + */ +struct viif_l1_lsc_grid_param { + __u32 lssc_grid_h_size; + __u32 lssc_grid_v_size; + __u32 lssc_grid_h_center; + __u32 lssc_grid_v_center; + __u32 lssc_grid_mgsel; +}; + +/** + * struct viif_l1_lsc - L2ISP LSC parameters for &struct viif_l1_lsc_config + * @lssc_parabola_param_addr: Address of a &struct viif_l1_lsc_parabola_param instance. + * Set 0 to disable parabola shading correction. + * @lssc_grid_param_addr: Address of a &struct viif_l1_lsc_grid_param instance, + * Set 0 to disable grid shading correction. + * @lssc_pwhb_r_gain_max: PWB R correction processing coefficient maximum value + * @lssc_pwhb_r_gain_min: PWB R correction processing coefficient minimum value + * @lssc_pwhb_gr_gain_max: PWB Gr correction processing coefficient maximum value + * @lssc_pwhb_gr_gain_min: PWB Gr correction processing coefficient minimum value + * @lssc_pwhb_gb_gain_max: PWB Gb correction processing coefficient maximum value + * @lssc_pwhb_gb_gain_min: PWB Gb correction processing coefficient minimum value + * @lssc_pwhb_b_gain_max: PWB B correction processing coefficient maximum value + * @lssc_pwhb_b_gain_min: PWB B correction processing coefficient minimum value + * + * The range and accuracy of preset white balance (PWB) correction process + * coefficient (lssc_pwhb_{r/gr/gb/b}_gain_{max/min}) are as below. + * "range: [0..2047], accuracy: 1/256" + * + * PWB correction process coefficient + * (lssc_pwhb_{r/gr/gb/b}_gain_{max/min}) should meet the following conditions. + * "lssc_pwhb_{r/gr/gb/b}_gain_min <= lssc_pwhb_{r/gr/gb/b}_gain_max" + */ +struct viif_l1_lsc { + __u64 lssc_parabola_param_addr; + __u64 lssc_grid_param_addr; + __u32 lssc_pwhb_r_gain_max; + __u32 lssc_pwhb_r_gain_min; + __u32 lssc_pwhb_gr_gain_max; + __u32 lssc_pwhb_gr_gain_min; + __u32 lssc_pwhb_gb_gain_max; + __u32 lssc_pwhb_gb_gain_min; + __u32 lssc_pwhb_b_gain_max; + __u32 lssc_pwhb_b_gain_min; +}; + +/** + * struct viif_l1_lsc_config - L2ISP LSC parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_LSC` + * @param_addr: Address of a &struct viif_l1_lsc instance. + * Set 0 to disable LSC operation. + * @table_gr_addr: Address of the grid table for LSC of Gr component. + * The table size is sizeof(u16) * 768. + * Set 0 to disable this table. + * @table_r_addr: Address of the grid table for LSC of R component. + * The table size is sizeof(u16) * 768. + * Set 0 to disable this table. + * @table_b_addr: Address of the grid table for LSC of B component. + * The table size is sizeof(u16) * 768. + * Set 0 to disable this table. + * @table_gb_addr: Address of the grid table for LSC of Gb component. + * The table size is sizeof(u16) * 768. + * Set 0 to disable this table. + * + * The size of each table is fixed to 1,536 Bytes. + * Application should make sure that the table data is based on HW specification + * since this driver does not check the grid table. + */ +struct viif_l1_lsc_config { + __u64 param_addr; + __u64 table_gr_addr; + __u64 table_r_addr; + __u64 table_b_addr; + __u64 table_gb_addr; +}; + +/** + * enum viif_l1_demosaic_mode - L1ISP demosaic modeenum viif_l1_demosaic_mode + * + * @VIIF_L1_DEMOSAIC_ACPI: Toshiba ACPI algorithm + * @VIIF_L1_DEMOSAIC_DMG: DMG algorithm + */ +enum viif_l1_demosaic_mode { + VIIF_L1_DEMOSAIC_ACPI = 0, + VIIF_L1_DEMOSAIC_DMG = 1, +}; + +/** + * struct viif_l1_color_matrix_correction - L1ISP color matrix correction + * parameters for &struct viif_l1_main_process_config + * @coef_rmg_min: (R-G) Minimum coefficient + * @coef_rmg_max: (R-G) Maximum coefficient + * @coef_rmb_min: (R-B) Minimum coefficient + * @coef_rmb_max: (R-B) Maximum coefficient + * @coef_gmr_min: (G-R) Minimum coefficient + * @coef_gmr_max: (G-R) Maximum coefficient + * @coef_gmb_min: (G-B) Minimum coefficient + * @coef_gmb_max: (G-B) Maximum coefficient + * @coef_bmr_min: (B-R) Minimum coefficient + * @coef_bmr_max: (B-R) Maximum coefficient + * @coef_bmg_min: (B-G) Minimum coefficient + * @coef_bmg_max: (B-G) Maximum coefficient + * @dst_minval: Minimum value of output pixel [0..0xFFFF] [pixel] + * + * The range and accuracy of each coefficient are as + * "range: [-32768..32767], accuracy: 1/ 4096" + * + * Also, each coefficient should meet "coef_xxx_min <= coef_xxx_max" condition + */ +struct viif_l1_color_matrix_correction { + __s16 coef_rmg_min; + __s16 coef_rmg_max; + __s16 coef_rmb_min; + __s16 coef_rmb_max; + __s16 coef_gmr_min; + __s16 coef_gmr_max; + __s16 coef_gmb_min; + __s16 coef_gmb_max; + __s16 coef_bmr_min; + __s16 coef_bmr_max; + __s16 coef_bmg_min; + __s16 coef_bmg_max; + __u16 dst_minval; +}; + +/** + * struct viif_l1_main_process_config - L1ISP Main process operating parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_MAIN_PROCESS` + * @demosaic_mode: &enum viif_l1_demosaic_mode value. Sets demosaic mode. + * @damp_lsbsel: Clipping range of output pixel value to AWB adjustment function [0..15] + * @param_addr: Address to a &struct viif_l1_color_matrix_correction instance. + * Set 0 to disable color matrix correction. + * @dst_maxval: Maximum value of output pixel [0..0xFFFFFF]. + * Applicable to output of each process (digital amplifier, + * demosaicing and color matrix correction) in L1ISP Main process. + */ +struct viif_l1_main_process_config { + __u32 demosaic_mode; + __u32 damp_lsbsel; + __u64 param_addr; + __u32 dst_maxval; +}; + +/** + * enum viif_l1_awb_mag - L1ISP signal magnification before AWB adjustment + * + * @VIIF_L1_AWB_ONE_SECOND: x 1/2 + * @VIIF_L1_AWB_X1: 1 times + * @VIIF_L1_AWB_X2: 2 times + * @VIIF_L1_AWB_X4: 4 times + */ +enum viif_l1_awb_mag { + VIIF_L1_AWB_ONE_SECOND = 0, + VIIF_L1_AWB_X1 = 1, + VIIF_L1_AWB_X2 = 2, + VIIF_L1_AWB_X4 = 3, +}; + +/** + * enum viif_l1_awb_area_mode - L1ISP AWB detection target area + * + * @VIIF_L1_AWB_AREA_MODE0: only center area + * @VIIF_L1_AWB_AREA_MODE1: center area when uv is in square gate + * @VIIF_L1_AWB_AREA_MODE2: all area except center area + * @VIIF_L1_AWB_AREA_MODE3: all area + */ +enum viif_l1_awb_area_mode { + VIIF_L1_AWB_AREA_MODE0 = 0, + VIIF_L1_AWB_AREA_MODE1 = 1, + VIIF_L1_AWB_AREA_MODE2 = 2, + VIIF_L1_AWB_AREA_MODE3 = 3, +}; + +/** + * enum viif_l1_awb_restart_cond - L1ISP AWB adjustment restart conditions + * + * @VIIF_L1_AWB_RESTART_NO: no restart + * @VIIF_L1_AWB_RESTART_128FRAME: restart after 128 frame + * @VIIF_L1_AWB_RESTART_64FRAME: restart after 64 frame + * @VIIF_L1_AWB_RESTART_32FRAME: restart after 32 frame + * @VIIF_L1_AWB_RESTART_16FRAME: restart after 16 frame + * @VIIF_L1_AWB_RESTART_8FRAME: restart after 8 frame + * @VIIF_L1_AWB_RESTART_4FRAME: restart after 4 frame + * @VIIF_L1_AWB_RESTART_2FRAME: restart after 2 frame + */ +enum viif_l1_awb_restart_cond { + VIIF_L1_AWB_RESTART_NO = 0, + VIIF_L1_AWB_RESTART_128FRAME = 1, + VIIF_L1_AWB_RESTART_64FRAME = 2, + VIIF_L1_AWB_RESTART_32FRAME = 3, + VIIF_L1_AWB_RESTART_16FRAME = 4, + VIIF_L1_AWB_RESTART_8FRAME = 5, + VIIF_L1_AWB_RESTART_4FRAME = 6, + VIIF_L1_AWB_RESTART_2FRAME = 7, +}; + +/** + * struct viif_l1_awb - L1ISP AWB adjustment parameters + * for &struct viif_l1_awb_config + * @awhb_ygate_sel: 1:Enable/0:Disable to fix Y value at YUV conversion + * @awhb_ygate_data: Y value in case Y value is fixed [64, 128, 256, 512] + * @awhb_cgrange: &enum viif_l1_awb_mag value. + * Signal output magnification ratio before AWB adjustment. + * @awhb_ygatesw: 1:Enable/0:Disable settings of luminance gate + * @awhb_hexsw: 1:Enable/0:Disable settings of hexa-gate + * @awhb_areamode: &enum viif_l1_awb_area_mode value. + * Final selection of accumulation area for detection target area. + * @awhb_area_hsize: Horizontal size per block in central area [pixel] + * [1..(Input image width -8)/8] + * @awhb_area_vsize: Vertical size per block in central area [line] + * [1..(Input image height -4)/8] + * @awhb_area_hofs: Horizontal offset of block [0] in central area [pixel] + * [0..(Input image width -9)] + * @awhb_area_vofs: Vertical offset of block [0] in central area [line] + * [0..(Input image height -5)] + * @awhb_area_maskh: Setting 1:Enable/0:Disable( of accumulated selection. + * Each bit implies the following. + * [31:0] = { + * (7, 3),(6, 3),(5, 3),(4, 3),(3, 3),(2, 3),(1, 3),(0, 3), + * (7, 2),(6, 2),(5, 2),(4, 2),(3, 2),(2, 2),(1, 2),(0, 2), + * (7, 1),(6, 1),(5, 1),(4, 1),(3, 1),(2, 1),(1, 1),(0, 1), + * (7, 0),(6, 0),(5, 0),(4, 0),(3, 0),(2, 0),(1, 0),(0, 0)} + * @awhb_area_maskl: Setting 1:Enable/0:Disable of accumulated selection. + * Each bit implies the following. + * [31:0] = { + * (7, 7),(6, 7),(5, 7),(4, 7),(3, 7),(2, 7),(1, 7),(0, 7), + * (7, 6),(6, 6),(5, 6),(4, 6),(3, 6),(2, 6),(1, 6),(0, 6), + * (7, 5),(6, 5),(5, 5),(4, 5),(3, 5),(2, 5),(1, 5),(0, 5), + * (7, 4),(6, 4),(5, 4),(4, 4),(3, 4),(2, 4),(1, 4),(0, 4)} + * @awhb_sq_sw: 1:Enable/0:Disable each square gate + * @awhb_sq_pol: 1:Enable/0:Disable to add accumulated gate for each square gate + * @awhb_bycut0p: U upper end value [pixel] [0..127] + * @awhb_bycut0n: U lower end value [pixel] [0..127] + * @awhb_rycut0p: V upper end value [pixel] [0..127] + * @awhb_rycut0n: V lower end value [pixel] [0..127] + * @awhb_rbcut0h: V-axis intercept upper end [pixel] [-127..127] + * @awhb_rbcut0l: V-axis intercept lower end [pixel] [-127..127] + * @awhb_bycut_h: U direction center value of each square gate [-127..127] + * @awhb_bycut_l: U direction width of each square gate [0..127] + * @awhb_rycut_h: V direction center value of each square gate [-127..127] + * @awhb_rycut_l: V direction width of each square gate [0..127] + * @awhb_awbsftu: U gain offset [-127..127] + * @awhb_awbsftv: V gain offset [-127..127] + * @awhb_awbhuecor: 1:Enable/0:Disable setting of color correlation retention function + * @awhb_awbspd: UV convergence speed [0..15] [times] (0 means "stop") + * @awhb_awbulv: U convergence point level [0..31] + * @awhb_awbvlv: V convergence point level [0..31] + * @awhb_awbondot: Accumulation operation stop pixel count threshold [pixel] [0..1023] + * @awhb_awbfztim: &enum viif_l1_awb_restart_cond value. Condition to restart AWB process. + * @awhb_wbgrmax: B gain adjustment range (Width from center to upper limit) + * [0..255], accuracy: 1/64 + * @awhb_wbgbmax: R gain adjustment range (Width from center to upper limit) + * [0..255], accuracy: 1/64 + * @awhb_wbgrmin: B gain adjustment range (Width from center to lower limit) + * [0..255], accuracy: 1/64 + * @awhb_wbgbmin: R gain adjustment range (Width from center to lower limit) + * [0..255], accuracy: 1/64 + * @awhb_ygateh: Luminance gate maximum value [pixel] [0..255] + * @awhb_ygatel: Luminance gate minimum value [pixel] [0..255] + * @awhb_awbwait: Number of restart frames after UV convergence freeze [0..255] + */ +struct viif_l1_awb { + __u32 awhb_ygate_sel; + __u32 awhb_ygate_data; + __u32 awhb_cgrange; + __u32 awhb_ygatesw; + __u32 awhb_hexsw; + __u32 awhb_areamode; + __u32 awhb_area_hsize; + __u32 awhb_area_vsize; + __u32 awhb_area_hofs; + __u32 awhb_area_vofs; + __u32 awhb_area_maskh; + __u32 awhb_area_maskl; + __u32 awhb_sq_sw[3]; + __u32 awhb_sq_pol[3]; + __u32 awhb_bycut0p; + __u32 awhb_bycut0n; + __u32 awhb_rycut0p; + __u32 awhb_rycut0n; + __s32 awhb_rbcut0h; + __s32 awhb_rbcut0l; + __s32 awhb_bycut_h[3]; + __u32 awhb_bycut_l[3]; + __s32 awhb_rycut_h[3]; + __u32 awhb_rycut_l[3]; + __s32 awhb_awbsftu; + __s32 awhb_awbsftv; + __u32 awhb_awbhuecor; + __u32 awhb_awbspd; + __u32 awhb_awbulv; + __u32 awhb_awbvlv; + __u32 awhb_awbondot; + __u32 awhb_awbfztim; + __u8 awhb_wbgrmax; + __u8 awhb_wbgbmax; + __u8 awhb_wbgrmin; + __u8 awhb_wbgbmin; + __u8 awhb_ygateh; + __u8 awhb_ygatel; + __u8 awhb_awbwait; +}; + +/** + * struct viif_l1_awb_config - L1ISP AWB parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AWB` + * @param_addr: Address to a &struct viif_l1_awb instance. + * Set 0 to disable AWB adjustment. + * @awhb_wbmrg: White balance adjustment R gain [64..1023], accuracy: 1/256 + * @awhb_wbmgg: White balance adjustment G gain [64..1023], accuracy: 1/256 + * @awhb_wbmbg: White balance adjustment B gain [64..1023], accuracy: 1/256 + */ +struct viif_l1_awb_config { + __u64 param_addr; + __u32 awhb_wbmrg; + __u32 awhb_wbmgg; + __u32 awhb_wbmbg; +}; + +/** + * enum viif_l1_hdrc_tone_type - L1ISP HDRC tone type + * + * @VIIF_L1_HDRC_TONE_USER: User Tone + * @VIIF_L1_HDRC_TONE_PRESET: Preset Tone + */ +enum viif_l1_hdrc_tone_type { + VIIF_L1_HDRC_TONE_USER = 0, + VIIF_L1_HDRC_TONE_PRESET = 1, +}; + +/** + * struct viif_l1_hdrc - L1ISP HDRC parameters for &struct viif_l1_hdrc_config + * @hdrc_ratio: Data width of input image [bit] [10..24] + * @hdrc_pt_ratio: Preset Tone curve slope [0..13] + * @hdrc_pt_blend: Preset Tone0 curve blend ratio [0..256], accuracy: 1/256 + * @hdrc_pt_blend2: Preset Tone2 curve blend ratio [0..256], accuracy: 1/256 + * @hdrc_tn_type: &enum viif_l1_hdrc_tone_type value. L1ISP HDRC tone type. + * @hdrc_utn_tbl: HDRC value of User Tone curve [0..0xFFFF] + * @hdrc_flr_val: Constant flare value [0..0xFFFFFF] + * @hdrc_flr_adp: 1:Enable/0:Disable setting of dynamic flare measurement + * @hdrc_ybr_off: 1:Enable(function OFF) / 0:Disable(function ON) settings + * of bilateral luminance filter function OFF + * @hdrc_orgy_blend: Blend settings of luminance correction data after HDRC + * and data before luminance correction [0..16]. + * (0:Luminance correction 100%, 8:Luminance correction 50%, + * 16:Luminance correction 0%) + * @hdrc_pt_sat: Preset Tone saturation value [0..0xFFFF] + * + * Parameter error needs to be returned in + * "hdrc_pt_blend + hdrc_pt_blend2 > 256" condition. + * + * In case application enables dynamic flare control, input image height should + * satisfy the following condition. Even if this condition is not satisfied, + * this driver doesn't return error in case other conditions for each parameter + * are satisfied. "Input image height % 64 != 18, 20, 22, 24, 26" + * + * hdrc_utn_tbl should satisfy the following condition. Even if this condition + * is not satisfied, this driver doesn't return error in case other conditions + * for each parameter are satisfied. "hdrc_utn_tbl[N] <= hdrc_utn_tbl[N+1]" + */ +struct viif_l1_hdrc { + __u32 hdrc_ratio; + __u32 hdrc_pt_ratio; + __u32 hdrc_pt_blend; + __u32 hdrc_pt_blend2; + __u32 hdrc_tn_type; + __u16 hdrc_utn_tbl[20]; + __u32 hdrc_flr_val; + __u32 hdrc_flr_adp; + __u32 hdrc_ybr_off; + __u32 hdrc_orgy_blend; + __u16 hdrc_pt_sat; +}; + +/** + * struct viif_l1_hdrc_config - L1ISP HDRC parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC` + * @param_addr: Address to a &struct viif_l1_hdrc instance. + * Set 0 to disable HDR compression. + * @hdrc_thr_sft_amt: Amount of right shift in through mode (HDRC disabled) [0..8]. + * Should set 0 if HDRC is enabled + */ +struct viif_l1_hdrc_config { + __u64 param_addr; + __u32 hdrc_thr_sft_amt; +}; + +/** + * struct viif_l1_hdrc_ltm_config - L1ISP HDRC LTM parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_HDRC_LTM` + * @tnp_max: Tone blend rate maximum value of LTM function + * [0..4194303], accuracy: 1/64. In case of 0, LTM function is OFF + * @tnp_mag: Intensity adjustment of LTM function [0..16383], accuracy: 1/64 + * @tnp_fil: Smoothing filter coefficient [0..255]. + * [0]: coef0, [1]: coef1, [2]: coef2, [3]: coef3, [4]: coef4 + * EINVAL needs to be returned in the below condition. + * "(coef1 + coef2 + coef3 + coef4) * 2 + coef0 != 1024" + */ +struct viif_l1_hdrc_ltm_config { + __u32 tnp_max; + __u32 tnp_mag; + __u8 tnp_fil[5]; +}; + +/** + * struct viif_l1_gamma - L1ISP gamma correction parameters + * for &struct viif_l1_gamma_config + * @gam_p: Luminance value after gamma correction [0..8191] + * @blkadj: Black level adjustment value after gamma correction [0..65535] + */ +struct viif_l1_gamma { + __u16 gam_p[44]; + __u16 blkadj; +}; + +/** + * struct viif_l1_gamma_config - L1ISP gamma correction parameters + * @param_addr: Address to a &struct viif_l1_gamma instance. + * Set 0 to disable gamma correction at l1 ISP. + */ +struct viif_l1_gamma_config { + __u64 param_addr; +}; + +/** + * struct viif_l1_nonlinear_contrast - L1ISP non-linear contrast parameters + * for &struct viif_l1_img_quality_adjustment_config + * @blk_knee: Black side peak luminance value [0..0xFFFF] + * @wht_knee: White side peak luminance value[0..0xFFFF] + * @blk_cont: Black side slope [0..255], accuracy: 1/256 + * [0]:the value at AG minimum, [1]:the value at AG less than 128, + * [2]:the value at AG equal to or more than 128 + * @wht_cont: White side slope [0..255], accuracy: 1/256 + * [0]:the value at AG minimum, [1]:the value at AG less than 128, + * [2]:the value at AG equal to or more than 128 + */ +struct viif_l1_nonlinear_contrast { + __u16 blk_knee; + __u16 wht_knee; + __u8 blk_cont[3]; + __u8 wht_cont[3]; +}; + +/** + * struct viif_l1_lum_noise_reduction - L1ISP luminance noise reduction + * parameters for &struct viif_l1_img_quality_adjustment_config + * @gain_min: Minimum value of extracted noise gain [0..0xFFFF], accuracy: 1/256 + * @gain_max: Maximum value of extracted noise gain [0..0xFFFF], accuracy: 1/256 + * @lim_min: Minimum value of extracted noise limit [0..0xFFFF] + * @lim_max: Maximum value of extracted noise limit [0..0xFFFF] + * + * Parameter error needs to be returned in the below conditions. + * "gain_min > gain_max" or "lim_min > lim_max" + */ +struct viif_l1_lum_noise_reduction { + __u16 gain_min; + __u16 gain_max; + __u16 lim_min; + __u16 lim_max; +}; + +/** + * struct viif_l1_edge_enhancement - L1ISP edge enhancement parameters + * for &struct viif_l1_img_quality_adjustment_config + * @gain_min: Extracted edge gain minimum value [0..0xFFFF], accuracy: 1/256 + * @gain_max: Extracted edge gain maximum value [0..0xFFFF], accuracy: 1/256 + * @lim_min: Extracted edge limit minimum value [0..0xFFFF] + * @lim_max: Extracted edge limit maximum value [0..0xFFFF] + * @coring_min: Extracted edge coring threshold minimum value [0..0xFFFF] + * @coring_max: Extracted edge coring threshold maximum value [0..0xFFFF] + * + * Parameter error needs to be returned in the below conditions. + * "gain_min > gain_max" or "lim_min > lim_max" or "coring_min > coring_max" + */ +struct viif_l1_edge_enhancement { + __u16 gain_min; + __u16 gain_max; + __u16 lim_min; + __u16 lim_max; + __u16 coring_min; + __u16 coring_max; +}; + +/** + * struct viif_l1_uv_suppression - L1ISP UV suppression parameters + * for &struct viif_l1_img_quality_adjustment_config + * @bk_mp: Black side slope [0..0x3FFF], accuracy: 1/16384 + * @black: Minimum black side gain [0..0x3FFF], accuracy: 1/16384 + * @wh_mp: White side slope [0..0x3FFF], accuracy: 1/16384 + * @white: Minimum white side gain [0..0x3FFF], accuracy: 1/16384 + * @bk_slv: Black side intercept [0..0xFFFF] + * @wh_slv: White side intercept [0..0xFFFF] + * + * parameter error needs to be returned in "bk_slv >= wh_slv" condition. + */ +struct viif_l1_uv_suppression { + __u32 bk_mp; + __u32 black; + __u32 wh_mp; + __u32 white; + __u16 bk_slv; + __u16 wh_slv; +}; + +/** + * struct viif_l1_coring_suppression - L1ISP coring suppression parameters + * for &struct viif_l1_img_quality_adjustment_config + * @lv_min: Minimum coring threshold [0..0xFFFF] + * @lv_max: Maximum coring threshold [0..0xFFFF] + * @gain_min: Minimum gain [0..0xFFFF], accuracy: 1/65536 + * @gain_max: Maximum gain [0..0xFFFF], accuracy: 1/65536 + * + * Parameter error needs to be returned in the below condition. + * "lv_min > lv_max" or "gain_min > gain_max" + */ +struct viif_l1_coring_suppression { + __u16 lv_min; + __u16 lv_max; + __u16 gain_min; + __u16 gain_max; +}; + +/** + * struct viif_l1_edge_suppression - L1ISP edge suppression parameters + * for &struct viif_l1_img_quality_adjustment_config + * @gain: Gain of edge color suppression [0..0xFFFF], accuracy: 1/256 + * @lim: Limiter threshold of edge color suppression [0..15] + */ +struct viif_l1_edge_suppression { + __u16 gain; + __u32 lim; +}; + +/** + * struct viif_l1_color_level - L1ISP color level parameters + * for &struct viif_l1_img_quality_adjustment_config + * @cb_gain: U component gain [0..0xFFF], accuracy: 1/2048 + * @cr_gain: V component gain [0..0xFFF], accuracy: 1/2048 + * @cbr_mgain_min: UV component gain [0..0xFFF], accuracy: 1/2048 + * @cbp_gain_max: Positive U component gain [0..0xFFF], accuracy: 1/2048 + * @cbm_gain_max: Negative V component gain [0..0xFFF], accuracy: 1/2048 + * @crp_gain_max: Positive U component gain [0..0xFFF], accuracy: 1/2048 + * @crm_gain_max: Negative V component gain [0..0xFFF], accuracy: 1/2048 + */ +struct viif_l1_color_level { + __u32 cb_gain; + __u32 cr_gain; + __u32 cbr_mgain_min; + __u32 cbp_gain_max; + __u32 cbm_gain_max; + __u32 crp_gain_max; + __u32 crm_gain_max; +}; + +/** + * struct viif_l1_img_quality_adjustment_config - L1ISP image quality + * adjustment parameters for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_IMG_QUALITY_ADJUSTMENT` + * @coef_cb: Cb coefficient used in RGB to YUV conversion + * [0..0xFFFF], accuracy: 1/65536 + * @coef_cr: Cr coefficient used in RGB to YUV conversion + * [0..0xFFFF], accuracy: 1/65536 + * @brightness: Brightness value [-32768..32767] (0 means off) + * @linear_contrast: Linear contrast adjustment value + * [0..0xFF], accuracy: 1/128 (128 means off) + * @nonlinear_contrast_addr: Address to a &struct viif_l1_nonlinear_contrast instance. + * Set 0 to disable nonlinear contrast adjustment. + * @lum_noise_reduction_addr: Address to a &struct viif_l1_lum_noise_reduction instance. + * Set 0 to disable luminance noise reduction. + * @edge_enhancement_addr: Address to a &struct viif_l1_edge_enhancement instance. + * Set 0 to disable edge enhancement, + * @uv_suppression_addr: Address to a &struct viif_l1_uv_suppression instance. + * Set 0 to disable chroma suppression. + * @coring_suppression_addr: Address to a &struct viif_l1_coring_suppression instance. + * Set 0 to disable coring suppression. + * @edge_suppression_addr: Address to a &struct viif_l1_edge_suppression instance. + * Set 0 to disable chroma edge suppression. + * @color_level_addr: Address to a &struct viif_l1_color_level instance. + * Set 0 to disable color level adjustment. + * @color_noise_reduction_enable: 1:Enable/0:disable setting of + * color component noise reduction processing + */ +struct viif_l1_img_quality_adjustment_config { + __u16 coef_cb; + __u16 coef_cr; + __s16 brightness; + __u8 linear_contrast; + __u64 nonlinear_contrast_addr; + __u64 lum_noise_reduction_addr; + __u64 edge_enhancement_addr; + __u64 uv_suppression_addr; + __u64 coring_suppression_addr; + __u64 edge_suppression_addr; + __u64 color_level_addr; + __u32 color_noise_reduction_enable; +}; + +/** + * struct viif_l1_avg_lum_generation_config - L1ISP average luminance generation configuration + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L1_SET_AVG_LUM_GENERATION` + * @aexp_start_x: horizontal position of block[0] [0.."width of input image - 1"] [pixel] + * @aexp_start_y: vertical position of block[0] [0.."height of input image - 1"] [line] + * @aexp_block_width: width of one block(needs to be multiple of 64) + * [64.."width of input image"] [pixel] + * @aexp_block_height: height of one block(needs to be multiple of 64) + * [64.."height of input image"] [line] + * @aexp_weight: weight of each block [0..3] [y][x]: + * y means vertical position and x means horizontal position + * @aexp_satur_ratio: threshold to judge whether saturated block or not [0..256] + * @aexp_black_ratio: threshold to judge whether black block or not [0..256] + * @aexp_satur_level: threshold to judge whether saturated pixel or not [0x0..0xffffff] + * @aexp_ave4linesy: vertical position of the initial line + * for 4-lines average luminance [0.."height of input image - 4"] [line] + */ +struct viif_l1_avg_lum_generation_config { + __u32 aexp_start_x; + __u32 aexp_start_y; + __u32 aexp_block_width; + __u32 aexp_block_height; + __u32 aexp_weight[8][8]; + __u32 aexp_satur_ratio; + __u32 aexp_black_ratio; + __u32 aexp_satur_level; + __u32 aexp_ave4linesy[4]; +}; + +/** + * enum viif_l2_undist_mode - L2ISP undistortion mode + * @VIIF_L2_UNDIST_POLY: polynomial mode + * @VIIF_L2_UNDIST_GRID: grid table mode + * @VIIF_L2_UNDIST_POLY_TO_GRID: polynomial, then grid table mode + * @VIIF_L2_UNDIST_GRID_TO_POLY: grid table, then polynomial mode + */ +enum viif_l2_undist_mode { + VIIF_L2_UNDIST_POLY = 0, + VIIF_L2_UNDIST_GRID = 1, + VIIF_L2_UNDIST_POLY_TO_GRID = 2, + VIIF_L2_UNDIST_GRID_TO_POLY = 3, +}; + +/** + * struct viif_l2_undist - L2ISP UNDIST parameters + * for &struct viif_l2_undist_config + * @through_mode: 1:enable or 0:disable through mode of undistortion + * @roi_mode: &enum viif_l2_undist_mode value. Sets L2ISP undistortion mode. + * @sensor_crop_ofs_h: Horizontal start position of sensor crop area[pixel] + * [-4296..4296], accuracy: 1/2 + * @sensor_crop_ofs_v: Vertical start position of sensor crop area[line] + * [-2360..2360], accuracy: 1/2 + * @norm_scale: Normalization coefficient for distance from center + * [0..1677721], accuracy: 1/33554432 + * @valid_r_norm2_poly: Setting target area for polynomial correction + * [0..0x3FFFFFF], accuracy: 1/33554432 + * @valid_r_norm2_grid: Setting target area for grid table correction + * [0..0x3FFFFFF], accuracy: 1/33554432 + * @roi_write_area_delta: Error adjustment value of forward function and + * inverse function for pixel position calculation + * [0..0x7FF], accuracy: 1/1024 + * @poly_write_g_coef: 10th-order polynomial coefficient for G write pixel position calculation + * [-2147352576..2147352576], accuracy: 1/131072 + * @poly_read_b_coef: 10th-order polynomial coefficient for B read pixel position calculation + * [-2147352576..2147352576], accuracy: 1/131072 + * @poly_read_g_coef: 10th-order polynomial coefficient for G read pixel position calculation + * [-2147352576..2147352576], accuracy: 1/131072 + * @poly_read_r_coef: 10th-order polynomial coefficient for R read pixel position calculation + * [-2147352576..2147352576], accuracy: 1/131072 + * @grid_node_num_h: Number of horizontal grids [16..64] + * @grid_node_num_v: Number of vertical grids [16..64] + * @grid_patch_hsize_inv: Inverse pixel size between horizontal grids + * [0..0x7FFFFF], accuracy: 1/8388608 + * @grid_patch_vsize_inv: Inverse pixel size between vertical grids + * [0..0x7FFFFF], accuracy: 1/8388608 + */ +struct viif_l2_undist { + __u32 through_mode; + __u32 roi_mode[2]; + __s32 sensor_crop_ofs_h; + __s32 sensor_crop_ofs_v; + __u32 norm_scale; + __u32 valid_r_norm2_poly; + __u32 valid_r_norm2_grid; + __u32 roi_write_area_delta[2]; + __s32 poly_write_g_coef[11]; + __s32 poly_read_b_coef[11]; + __s32 poly_read_g_coef[11]; + __s32 poly_read_r_coef[11]; + __u32 grid_node_num_h; + __u32 grid_node_num_v; + __u32 grid_patch_hsize_inv; + __u32 grid_patch_vsize_inv; +}; + +/** + * struct viif_l2_undist_config - L2ISP UNDIST parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_UNDIST` + * @param: &struct viif_l2_undist + * @write_g_addr: Address to write-G grid table. + * Table size is specified by member size. + * Set 0 to disable this table. + * @read_b_addr: Address to read-B grid table. + * Table size is specified by member size. + * Set 0 to disable this table. + * @read_g_addr: Address to read-G grid table. + * Table size is specified by member size. + * Set 0 to disable this table. + * @read_r_addr: Address to read-R grid table. + * Table size is specified by member size. + * Set 0 to disable this table. + * @size: Table size [byte]. Range: [1024..8192] or 0. + * The value should be "grid_node_num_h * grid_node_num_v * 4". + * See also &struct viif_l2_undist. + * Set 0 if NULL is set for all tables. + * Set valid size value if at least one table is valid. + * + * Application should make sure that the table data is based on HW specification + * since this driver does not check the contents of specified grid table. + */ +struct viif_l2_undist_config { + struct viif_l2_undist param; + __u64 write_g_addr; + __u64 read_b_addr; + __u64 read_g_addr; + __u64 read_r_addr; + __u32 size; +}; + +/** + * struct viif_l2_roi_config - L2ISP ROI parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_ROI` + * @roi_num: + * 1 when only capture path0 is activated, + * 2 when both capture path 0 and path 1 are activated. + * @roi_scale: Scale value for each ROI [32768..131072], accuracy: 1/65536 + * @roi_scale_inv: Inverse scale value for each ROI [32768..131072], accuracy: 1/65536 + * @corrected_wo_scale_hsize: Corrected image width for each ROI [pixel] [128..8190] + * @corrected_wo_scale_vsize: Corrected image height for each ROI [line] [128..4094] + * @corrected_hsize: Corrected and scaled image width for each ROI [pixel] [128..8190] + * @corrected_vsize: Corrected and scaled image height for each ROI [line] [128..4094] + */ +struct viif_l2_roi_config { + __u32 roi_num; + __u32 roi_scale[2]; + __u32 roi_scale_inv[2]; + __u32 corrected_wo_scale_hsize[2]; + __u32 corrected_wo_scale_vsize[2]; + __u32 corrected_hsize[2]; + __u32 corrected_vsize[2]; +}; + +/** enum viif_gamma_mode - Gamma correction mode + * + * @VIIF_GAMMA_COMPRESSED: compressed table mode + * @VIIF_GAMMA_LINEAR: linear table mode + */ +enum viif_gamma_mode { + VIIF_GAMMA_COMPRESSED = 0, + VIIF_GAMMA_LINEAR = 1, +}; + +/** + * struct viif_l2_gamma_config - L2ISP gamma correction parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_ISP_L2_SET_GAMMA` + * @pathid: 0 for Capture Path 0, 1 for Capture Path 1. + * @enable: 1:Enable, 0:Disable settings of L2ISP gamma correction control + * @vsplit: Line switching position of first table and second table [line] [0..4094]. + * Should set 0 in case 0 is set to @enable + * @mode: &enum viif_gamma_mode value. + * Should set VIIF_GAMMA_COMPRESSED when 0 is set to @enable + * @table_addr: Address to gamma table for L2ISP gamma. + * The table has 6 channels; + * [0]: G/Y(1st table), [1]: G/Y(2nd table), [2]: B/U(1st table) + * [3]: B/U(2nd table), [4]: R/V(1st table), [5]: R/V(2nd table) + * Each channel of the table is __u16 typed and 512 bytes. + */ +struct viif_l2_gamma_config { + __u32 pathid; + __u32 enable; + __u32 vsplit; + __u32 mode; + __u64 table_addr[6]; +}; + +/** + * enum viif_csi2_cal_status - CSI2RX calibration status + * + * @VIIF_CSI2_CAL_NOT_DONE: Calibration not complete + * @VIIF_CSI2_CAL_SUCCESS: Calibration success + * @VIIF_CSI2_CAL_FAIL: Calibration failed + */ +enum viif_csi2_cal_status { + VIIF_CSI2_CAL_NOT_DONE = 0, + VIIF_CSI2_CAL_SUCCESS = 1, + VIIF_CSI2_CAL_FAIL = 2, +}; + +/** + * struct viif_csi2rx_dphy_calibration_status - CSI2-RX D-PHY Calibration + * information for :ref:`V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_CALIBRATION_STATUS` + * @term_cal_with_rext: Result of termination calibration with rext + * @clock_lane_offset_cal: Result of offset calibration of clock lane + * @data_lane0_offset_cal: Result of offset calibration of data lane0 + * @data_lane1_offset_cal: Result of offset calibration of data lane1 + * @data_lane2_offset_cal: Result of offset calibration of data lane2 + * @data_lane3_offset_cal: Result of offset calibration of data lane3 + * @data_lane0_ddl_tuning_cal: Result of digital delay line tuning calibration of data lane0 + * @data_lane1_ddl_tuning_cal: Result of digital delay line tuning calibration of data lane1 + * @data_lane2_ddl_tuning_cal: Result of digital delay line tuning calibration of data lane2 + * @data_lane3_ddl_tuning_cal: Result of digital delay line tuning calibration of data lane3 + * + * Values for each member is typed &enum viif_csi2_cal_status. + */ +struct viif_csi2rx_dphy_calibration_status { + __u32 term_cal_with_rext; + __u32 clock_lane_offset_cal; + __u32 data_lane0_offset_cal; + __u32 data_lane1_offset_cal; + __u32 data_lane2_offset_cal; + __u32 data_lane3_offset_cal; + __u32 data_lane0_ddl_tuning_cal; + __u32 data_lane1_ddl_tuning_cal; + __u32 data_lane2_ddl_tuning_cal; + __u32 data_lane3_ddl_tuning_cal; +}; + +/** + * struct viif_csi2rx_err_status - CSI2RX Error status parameters + * for :ref:`V4L2_CID_VISCONTI_VIIF_CSI2RX_GET_ERR_STATUS` + * @err_phy_fatal: D-PHY FATAL error. + * + * * bit[3]: Start of transmission error on DATA Lane3. + * * bit[2]: Start of transmission error on DATA Lane2. + * * bit[1]: Start of transmission error on DATA Lane1. + * * bit[0]: Start of transmission error on DATA Lane0. + * @err_pkt_fatal: Packet FATAL error. + * + * * bit[16]: Header ECC contains 2 errors, unrecoverable. + * * bit[3]: Checksum error detected on virtual channel 3. + * * bit[2]: Checksum error detected on virtual channel 2. + * * bit[1]: Checksum error detected on virtual channel 1. + * * bit[0]: Checksum error detected on virtual channel 0. + * @err_frame_fatal: Frame FATAL error. + * + * * bit[19]: Last received Frame, in virtual channel 3, has at least one CRC error. + * * bit[18]: Last received Frame, in virtual channel 2, has at least one CRC error. + * * bit[17]: Last received Frame, in virtual channel 1, has at least one CRC error. + * * bit[16]: Last received Frame, in virtual channel 0, has at least one CRC error. + * * bit[11]: Incorrect Frame Sequence detected in virtual channel 3. + * * bit[10]: Incorrect Frame Sequence detected in virtual channel 2. + * * bit[9]: Incorrect Frame Sequence detected in virtual channel 1. + * * bit[8]: Incorrect Frame Sequence detected in virtual channel 0. + * * bit[3]: Error matching Frame Start with Frame End for virtual channel 3. + * * bit[2]: Error matching Frame Start with Frame End for virtual channel 2. + * * bit[1]: Error matching Frame Start with Frame End for virtual channel 1. + * * bit[0]: Error matching Frame Start with Frame End for virtual channel 0. + * @err_phy: D-PHY error. + * + * * bit[19]: Escape Entry Error on Data Lane 3. + * * bit[18]: Escape Entry Error on Data Lane 2. + * * bit[17]: Escape Entry Error on Data Lane 1. + * * bit[16]: Escape Entry Error on Data Lane 0. + * * bit[3]: Start of Transmission Error on Data Lane 3 (synchronization can still be achieved). + * * bit[2]: Start of Transmission Error on Data Lane 2 (synchronization can still be achieved). + * * bit[1]: Start of Transmission Error on Data Lane 1 (synchronization can still be achieved). + * * bit[0]: Start of Transmission Error on Data Lane 0 (synchronization can still be achieved). + * @err_pkt: Packet error. + * + * * bit[19]: Header Error detected and corrected on virtual channel 3. + * * bit[18]: Header Error detected and corrected on virtual channel 2. + * * bit[17]: Header Error detected and corrected on virtual channel 1. + * * bit[16]: Header Error detected and corrected on virtual channel 0. + * * bit[3]: Unrecognized or unimplemented data type detected in virtual channel 3. + * * bit[2]: Unrecognized or unimplemented data type detected in virtual channel 2. + * * bit[1]: Unrecognized or unimplemented data type detected in virtual channel 1. + * * bit[0]: Unrecognized or unimplemented data type detected in virtual channel 0. + * @err_line: Line error. + * + * * bit[23]: Error in the sequence of lines for vc7 and dt7. + * * bit[22]: Error in the sequence of lines for vc6 and dt6. + * * bit[21]: Error in the sequence of lines for vc5 and dt5. + * * bit[20]: Error in the sequence of lines for vc4 and dt4. + * * bit[19]: Error in the sequence of lines for vc3 and dt3. + * * bit[18]: Error in the sequence of lines for vc2 and dt2. + * * bit[17]: Error in the sequence of lines for vc1 and dt1. + * * bit[16]: Error in the sequence of lines for vc0 and dt0. + * * bit[7]: Error matching Line Start with Line End for vc7 and dt7. + * * bit[6]: Error matching Line Start with Line End for vc6 and dt6. + * * bit[5]: Error matching Line Start with Line End for vc5 and dt5. + * * bit[4]: Error matching Line Start with Line End for vc4 and dt4. + * * bit[3]: Error matching Line Start with Line End for vc3 and dt3. + * * bit[2]: Error matching Line Start with Line End for vc2 and dt2. + * * bit[1]: Error matching Line Start with Line End for vc1 and dt1. + * * bit[0]: Error matching Line Start with Line End for vc0 and dt0. + */ +struct viif_csi2rx_err_status { + __u32 err_phy_fatal; + __u32 err_pkt_fatal; + __u32 err_frame_fatal; + __u32 err_phy; + __u32 err_pkt; + __u32 err_line; +}; + +/** + * struct viif_l1_info - L1ISP AWB information + * for &struct viif_isp_capture_status + * @avg_lum_weight: weighted average luminance value at average luminance generation + * @avg_lum_block: average luminance of each block [y][x]: + * y means vertical position and x means horizontal position + * @avg_lum_four_line_lum: 4-lines average luminance. + * avg_lum_four_line_lum[n] corresponds to aexp_ave4linesy[n] + * @avg_satur_pixnum: the number of saturated pixel at average luminance generation + * @avg_black_pixnum: the number of black pixel at average luminance generation + * @awb_ave_u: U average value of AWB adjustment [pixel] + * @awb_ave_v: V average value of AWB adjustment [pixel] + * @awb_accumulated_pixel: Accumulated pixel count of AWB adjustment + * @awb_gain_r: R gain used in the next frame of AWB adjustment + * @awb_gain_g: G gain used in the next frame of AWB adjustment + * @awb_gain_b: B gain used in the next frame of AWB adjustment + * @awb_status_u: boolean value of U convergence state of AWB adjustment + * (0: not-converged, 1: converged) + * @awb_status_v: boolean value of V convergence state of AWB adjustment + * (0: not-converged, 1: converged) + */ +struct viif_l1_info { + __u32 avg_lum_weight; + __u32 avg_lum_block[8][8]; + __u32 avg_lum_four_line_lum[4]; + __u32 avg_satur_pixnum; + __u32 avg_black_pixnum; + __u32 awb_ave_u; + __u32 awb_ave_v; + __u32 awb_accumulated_pixel; + __u32 awb_gain_r; + __u32 awb_gain_g; + __u32 awb_gain_b; + __u8 awb_status_u; + __u8 awb_status_v; +}; + +/** + * struct viif_isp_capture_status - L1ISP capture information + * for :ref:`V4L2_CID_VISCONTI_VIIF_GET_LAST_CAPTURE_STATUS` + * @l1_info: L1ISP AWB information. Refer to &struct viif_l1_info + */ +struct viif_isp_capture_status { + struct viif_l1_info l1_info; +}; + +/** + * struct viif_reported_errors - Errors since last call + * for :ref:`V4L2_CID_VISCONTI_VIIF_GET_REPORTED_ERRORS` + * @main: error flag value for capture device 0 and 1 + * @sub: error flag value for capture device 2 + * @csi2rx: error flag value for CSI2 receiver + */ +struct viif_reported_errors { + __u32 main; + __u32 sub; + __u32 csi2rx; +}; + +#endif /* __UAPI_VISCONTI_VIIF_H_ */ -- 2.17.1