2022-04-13 03:36:56

by Yuji Ishikawa

[permalink] [raw]
Subject: [PATCH 0/3] Visconti: Add Toshiba Visconti Video Input Interface driver

This series is the Video Input Interface driver for Toshiba's ARM SoC, Visconti[0].
This provides DT binding documentation, device driver, MAINTAINER fiels.

Best regards,
Yuji

[0]: https://toshiba.semicon-storage.com/ap-en/semiconductor/product/image-recognition-processors-visconti.html

Yuji Ishikawa (3):
dt-bindings: media: platform: visconti: Add Toshiba Visconti Video
Input Interface bindings
media: platform: visconti: Add Toshiba Visconti Video Input Interface
driver
MAINTAINERS: Add entries for Toshiba Visconti Video Input Interface

.../bindings/media/toshiba,visconti-viif.yaml | 103 +
MAINTAINERS | 2 +
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 | 2233 ++++++++++
drivers/media/platform/visconti/hwd_viif.h | 1776 ++++++++
.../media/platform/visconti/hwd_viif_csi2rx.c | 767 ++++
.../platform/visconti/hwd_viif_internal.h | 361 ++
.../media/platform/visconti/hwd_viif_l1isp.c | 3769 +++++++++++++++++
.../media/platform/visconti/hwd_viif_reg.h | 2802 ++++++++++++
drivers/media/platform/visconti/viif.c | 2384 +++++++++++
drivers/media/platform/visconti/viif.h | 134 +
include/uapi/linux/visconti_viif.h | 1683 ++++++++
15 files changed, 16038 insertions(+)
create mode 100644 Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml
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 include/uapi/linux/visconti_viif.h

--
2.17.1



2022-04-13 05:30:18

by Yuji Ishikawa

[permalink] [raw]
Subject: [PATCH 2/3] media: platform: visconti: Add Toshiba Visconti Video Input Interface driver

Add support to Video Input Interface on Toshiba Visconti ARM SoCs.
The Video Input Interface includes CSI2 receiver, frame grabber and image signal processor.

Signed-off-by: Yuji Ishikawa <[email protected]>
Reviewed-by: Nobuhiro Iwamatsu <[email protected]>
---
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 | 2233 ++++++++++
drivers/media/platform/visconti/hwd_viif.h | 1776 ++++++++
.../media/platform/visconti/hwd_viif_csi2rx.c | 767 ++++
.../platform/visconti/hwd_viif_internal.h | 361 ++
.../media/platform/visconti/hwd_viif_l1isp.c | 3769 +++++++++++++++++
.../media/platform/visconti/hwd_viif_reg.h | 2802 ++++++++++++
drivers/media/platform/visconti/viif.c | 2384 +++++++++++
drivers/media/platform/visconti/viif.h | 134 +
include/uapi/linux/visconti_viif.h | 1683 ++++++++
13 files changed, 15933 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 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-$(CONFIG_VIDEO_MESON_GE2D) += meson/ge2d/
+
+
diff --git a/drivers/media/platform/visconti/Kconfig b/drivers/media/platform/visconti/Kconfig
new file mode 100644
index 000000000..446c809d4
--- /dev/null
+++ b/drivers/media/platform/visconti/Kconfig
@@ -0,0 +1,9 @@
+config VIDEO_VISCONTI_VIIF
+ bool "Visconti Camera Interface driver"
+ depends on VIDEO_V4L2 && MEDIA_CONTROLLER
+ depends on ARCH_VISCONTI
+ select VIDEOBUF2_DMA_CONTIG
+ select V4L2_FWNODE
+ help
+ This is V4L2 driver for Toshiba Visconti Camera Interface driver
+
diff --git a/drivers/media/platform/visconti/Makefile b/drivers/media/platform/visconti/Makefile
new file mode 100644
index 000000000..3a9e04d0b
--- /dev/null
+++ b/drivers/media/platform/visconti/Makefile
@@ -0,0 +1,9 @@
+# SPDX-License-Identifier: GPL-2.0
+#
+# Makefile for the Visconti video input device driver
+#
+
+visconti-viif-objs = viif.o
+visconti-viif-objs += hwd_viif_csi2rx.o hwd_viif.o hwd_viif_l1isp.o
+
+obj-$(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..518a86d56
--- /dev/null
+++ b/drivers/media/platform/visconti/hwd_viif.c
@@ -0,0 +1,2233 @@
+// 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_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
+
+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,
+ .interpolation_mode = HWD_VIIF_L1_INPUT_INTERPOLATION_LINE,
+ .input_num = 1U,
+ .hobc_size = 0U,
+ .rawpack = HWD_VIIF_RAWPACK_DISABLE,
+ .l2_input = 0U,
+ .color_type = 0U,
+ .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,
+ .interpolation_mode = HWD_VIIF_L1_INPUT_INTERPOLATION_LINE,
+ .input_num = 1U,
+ .hobc_size = 0U,
+ .rawpack = HWD_VIIF_RAWPACK_DISABLE,
+ .l2_input = 0U,
+ .color_type = 0U,
+ .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(uint32_t 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
+ */
+int32_t hwd_VIIF_initialize(uint32_t 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
+ */
+int32_t hwd_VIIF_uninitialize(uint32_t module_id)
+{
+ return 0;
+}
+
+/**
+ * hwd_VIIF_force_stop() - Stop memory input or CSI2 input
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 Operation completes successfully
+ * Return: -ETIMEDOUT Driver timeout error
+ */
+int32_t hwd_VIIF_force_stop(uint32_t module_id)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ int32_t ret = 0;
+ uint32_t val;
+
+ if ((res->ch != 0U) && (res->ch != 1U))
+ return -EINVAL;
+
+ /* 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 internal input */
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->sys.IPORTI_M_SYNCEN));
+
+ /* 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));
+
+ /* abort all groups of VDMAC */
+ /* g00, g01 and g01 */
+ val = 0x7U;
+ writel(val, &(res->capture_reg->vdm.VDM_ABORTSET));
+
+ /* Clear run flag of MAIN unit */
+ res->run_flag_main = false;
+
+ return ret;
+}
+
+#define VIIF_M_STATUS_DELAY_INT_FLAG BIT(24)
+#define VIIF_S_STATUS_DELAY_INT_FLAG BIT(24)
+
+/**
+ * hwd_VIIF_get_failure_status() - Get failure information of delayed vsync generating circuit and ecc circuit
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * @is_vsync_failure_main: vsync failure information of MAIN unit
+ * @is_vsync_failure_sub: vsync failure information of SUB unit(CH0/CH1) or VOIF loopback unit(CH2)
+ * @ecc_failure: failure information of ECC(CH0/CH1)
+ * Return: -EINVAL Parameter error
+ * - "is_vsync_failure_main", "is_vsync_failure_sub" or "ecc_failure" is NULL
+ */
+int32_t hwd_VIIF_get_failure_status(uint32_t module_id, bool *is_vsync_failure_main,
+ bool *is_vsync_failure_sub, uint32_t *ecc_failure)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if ((is_vsync_failure_main == NULL) || (is_vsync_failure_sub == NULL) ||
+ (ecc_failure == NULL)) {
+ return -EINVAL;
+ }
+
+ *is_vsync_failure_main = false;
+ *is_vsync_failure_sub = false;
+ *ecc_failure = 0U;
+
+ if ((readl(&res->capture_reg->sys.INT_M_STATUS) & VIIF_M_STATUS_DELAY_INT_FLAG))
+ *is_vsync_failure_main = true;
+
+ if ((readl(&res->capture_reg->sys.INT_S_STATUS) & VIIF_S_STATUS_DELAY_INT_FLAG))
+ *is_vsync_failure_sub = true;
+
+ if (res->ch != 2U)
+ *ecc_failure = readl(&res->capture_reg->sys.MEM_ECC_DCLS_ALARM);
+
+ return 0;
+}
+
+/* Convert the unit of time-period (from sysclk, to num lines in the image) */
+#define SYSCLK_TO_NUMLINES(time_in_sysclk, img) \
+ ((uint32_t)(((time_in_sysclk) * (uint64_t)(img)->pixel_clock) / \
+ ((uint64_t)(img)->htotal_size * (HWD_VIIF_SYS_CLK))))
+
+#define LINEPERIOD_IN_SYSCLK(hsize, pixel_clock) \
+ ((uint32_t)((uint64_t)(hsize)*HWD_VIIF_SYS_CLK / (uint64_t)(pixel_clock)))
+
+/**
+ * hwd_VIIF_main_set_unit_w_isp() - Set static configuration of MAIN unit(CH0 or CH1)
+ *
+ * @dt_image: DT of image [0x0, 0x10-0x17, 0x1B, 0x1E, 0x1F, 0x22, 0x24-0x27, 0x2A-0x3F])
+ * @dt_long_packet: DT of long packet data [0x0, 0x10-0x3F]
+ * @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] "dt_long_packet" is out of range
+ * - [3] Both "dt_image" and "dt_long_packet" are 0x0
+ * - [4] "in_img" is NULL
+ * - [5] member of "in_img" is invalid
+ * - [6] "color_type" is out of range
+ * - [7] "color_type" doesn't meet the condition shown in the below note
+ * - [8] "rawpack" is out of range
+ * - [9] "rawpack" is not HWD_VIIF_RAWPACK_DISABLE when color_type is other than RAW(0x2A-0x2C)
+ * - [10] "yuv_conv" is out of range
+ * - [11] "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"
+ */
+int32_t hwd_VIIF_main_set_unit_w_isp(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img, uint32_t color_type,
+ uint32_t rawpack, uint32_t yuv_conv)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val, color, sysclk_num;
+ uint32_t sw_delay0, sw_delay1, hw_delay;
+ uint32_t total_hact_size = 0U, total_vact_size = 0U;
+
+ /* 0x00-0x09: ShortPacket/Undefined */
+ if ((dt_image > 0U) && (dt_image < 0x10U))
+ return -EINVAL;
+
+ /* 0x18-0x1A: YUV420 */
+ if ((dt_image > 0x17U) && (dt_image < 0x1bU))
+ return -EINVAL;
+
+ /* 0x1C-0x1D: YUV420 CSPS */
+ if ((dt_image > 0x1bU) && (dt_image < 0x1eU))
+ return -EINVAL;
+
+ /* 0x20,0x21,0x23: RGB444, RGB555, RGB666 */
+ if ((dt_image > 0x1fU) && (dt_image < 0x22U))
+ return -EINVAL;
+
+ if (dt_image == 0x23U)
+ return -EINVAL;
+
+ /* 0x28-0x29: RAW6, RAW7 */
+ if ((dt_image > 0x27U) && (dt_image < 0x2aU))
+ return -EINVAL;
+
+ /* 0x2E-: not supported */
+ if (dt_image > HWD_VIIF_CSI2_MAX_DT)
+ return -EINVAL;
+
+ if (
+ /*Case: Generic Long Packet, Reserved, User-Defined*/
+ ((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 (((dt_long_packet > 0x0U) && (dt_long_packet < 0x10U)) ||
+ (dt_long_packet > HWD_VIIF_CSI2_MAX_DT)) {
+ return -EINVAL;
+ }
+ if ((dt_image == 0U) && (dt_long_packet == 0U))
+ return -EINVAL;
+
+ if (in_img == NULL)
+ 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 (dt_image == 0U) {
+ /* only long packet data */
+ if ((in_img->pixel_clock != 0U) ||
+ (in_img->htotal_size < HWD_VIIF_MIN_HTOTAL_NSEC) ||
+ (in_img->htotal_size > HWD_VIIF_MAX_HTOTAL_NSEC) ||
+ (in_img->vbp_size < HWD_VIIF_MIN_VBP_PACKET) ||
+ (in_img->vbp_size > HWD_VIIF_MAX_VBP_PACKET) || (in_img->hactive_size != 0U) ||
+ (in_img->vtotal_size != 0U) || (in_img->vactive_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;
+ }
+ } else {
+ /* image data will be input */
+ 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 and DT of longpacket data */
+ writel((color_type << 8U) | dt_image, &(res->capture_reg->sys.IPORTM_MAIN_DT));
+ writel(dt_long_packet, &(res->capture_reg->sys.IPORTM_OTHER));
+ res->color_type = color_type;
+ 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));
+ if (dt_image == 0x0U) {
+ uint32_t temp_delay;
+ /* only long packet data */
+ /* Set Total size information and delay value for delayed Vsync in case of only long packet data */
+ sysclk_num = LINEPERIOD_IN_SYSCLK(in_img->htotal_size, 1000000U);
+ sysclk_num &= GENMASK(15, 0);
+ writel((in_img->vtotal_size << 16U) | sysclk_num,
+ &(res->capture_reg->sys.TOTALSIZE_M));
+ temp_delay = in_img->vbp_size - 4U;
+ temp_delay = min(temp_delay, 255U);
+ writel(temp_delay, &(res->capture_reg->sys.INT_M1_LINE));
+ } else {
+ uint32_t i, j;
+ /* 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;
+ }
+ res->l2_input = (color << 4U);
+ writel(res->l2_input, &(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));
+ res->interpolation_mode = in_img->interpolation_mode;
+ res->input_num = in_img->input_num;
+ 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));
+ res->hobc_size = in_img->hobc_margin + in_img->hobc_width;
+ }
+
+ /* Set rawpack */
+ writel(rawpack, &(res->capture_reg->sys.IPORTM_MAIN_RAW));
+ res->rawpack = rawpack;
+
+ /* 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;
+ for (i = 0; i < HWD_VIIF_ISP_MAX_REGBUF_NUM; i++) {
+ res->l2_roi_path_info[i].roi_num = 0;
+ for (j = 0; j < HWD_VIIF_MAX_POST_NUM; j++) {
+ res->l2_roi_path_info[i].post_enable_flag[j] = false;
+ res->l2_roi_path_info[i].post_crop_x[j] = 0;
+ res->l2_roi_path_info[i].post_crop_y[j] = 0;
+ res->l2_roi_path_info[i].post_crop_w[j] = 0;
+ res->l2_roi_path_info[i].post_crop_h[j] = 0;
+ }
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_main_set_unit() - Set static configuration of MAIN unit
+ *
+ * @dt_image: DT of image
+ * - [0x0, 0x10-0x17, 0x1B, 0x1E, 0x1F, 0x22, 0x24-0x27, 0x2A-0x2D, 0x2E-0x3F](CH0 and CH1)
+ * @dt_long_packet: DT of long packet data [0x0, 0x10-0x3F]
+ * @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] #hwd_VIIF_main_set_unit_w_isp returns parameter error(CH0 or CH1)
+ */
+int32_t hwd_VIIF_main_set_unit(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img, uint32_t color_type,
+ uint32_t rawpack, uint32_t yuv_conv)
+{
+ return hwd_VIIF_main_set_unit_w_isp(module_id, dt_image, dt_long_packet, in_img, color_type,
+ rawpack, yuv_conv);
+}
+
+/**
+ * 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
+ */
+int32_t hwd_VIIF_main_mask_vlatch(uint32_t module_id, uint32_t 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: Pointer to 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(uint32_t module_id, const uint32_t *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: Pointer to 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(uint32_t module_id, const uint32_t *mask)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ writel(*mask, &(res->capture_reg->sys.INT_M_SYNC_MASK));
+}
+
+/**
+ * hwd_VIIF_main_get_next_frame_info() - Get next frame information of MAIN unit
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * @count0: count incremented by Vsync
+ * @count1: count incremented by delay_sync1
+ * @count2: count incremented by delay_sync2
+ * @hist_paddr: output address of L1ISP histogram data(physical address)
+ * @addr_info: output address of vdmac
+ * Return: None
+ */
+void hwd_VIIF_main_get_next_frame_info(uint32_t module_id, uint32_t *count0, uint32_t *count1,
+ uint32_t *count2, uint32_t *hist_paddr,
+ struct hwd_viif_main_transfer_addr_info *addr_info)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ if ((res->ch != 0U) && (res->ch != 1U))
+ return;
+
+ *count0 = readl(&res->capture_reg->sys.FN_M0);
+ *count1 = readl(&res->capture_reg->sys.FN_M1);
+ *count2 = readl(&res->capture_reg->sys.FN_M2);
+ addr_info->img_g_y_paddr = 0;
+ addr_info->img_b_u_paddr = 0;
+ addr_info->img_r_v_paddr = 0;
+ addr_info->long_packet_paddr = readl(&res->capture_reg->vdm.w_port_buf[0].VDM_W_STADR_BUF);
+ addr_info->emb_paddr = readl(&res->capture_reg->vdm.w_port_buf[1].VDM_W_STADR_BUF);
+ *hist_paddr = readl(&res->capture_reg->vdm.w_port_buf[2].VDM_W_STADR_BUF);
+}
+
+#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_main_get_previous_frame_info() - Get and clear previous frame information of MAIN unit
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * @abort_r: abort information of read port
+ * @abort_w: abort information of write port
+ * @packet_info: CSI-2 packet information
+ * Return: None
+ */
+void hwd_VIIF_main_get_previous_frame_info(uint32_t module_id, uint32_t *abort_r, uint32_t *abort_w,
+ struct hwd_viif_csi2rx_capture_info *packet_info)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ if ((res->ch != 0U) && (res->ch != 1U))
+ return;
+
+ *abort_r = readl(&res->capture_reg->vdm.VDM_R_STOP) & VDM_ABORT_MASK_MAIN_R;
+ writel(*abort_r, &(res->capture_reg->vdm.VDM_R_STOP));
+ *abort_w = readl(&res->capture_reg->vdm.VDM_W_STOP) & VDM_ABORT_MASK_MAIN_W;
+ writel(*abort_w, &(res->capture_reg->vdm.VDM_W_STOP));
+
+ val = readl(&res->capture_reg->sys.MAINIMG_PKTSIZE);
+ packet_info->img_size_1st = val & GENMASK(15, 0);
+ packet_info->img_size_2nd = val >> 16U;
+ packet_info->img_num = readl(&res->capture_reg->sys.MAINIMG_HEIGHT);
+ val = readl(&res->capture_reg->sys.MAINEMBTOP_SIZE);
+ packet_info->emb_top_size = val & GENMASK(15, 0);
+ packet_info->emb_top_num = val >> 16U;
+ val = readl(&res->capture_reg->sys.MAINEMBBOT_SIZE);
+ packet_info->emb_bottom_size = val & GENMASK(15, 0);
+ packet_info->emb_bottom_num = val >> 16U;
+ val = readl(&res->capture_reg->sys.MAINOTHER_PKTSIZE);
+ packet_info->long_packet_size_1st = val & GENMASK(15, 0);
+ packet_info->long_packet_size_2nd = val >> 16U;
+ packet_info->long_packet_num = readl(&res->capture_reg->sys.MAINOTHER_HEIGHT);
+}
+
+/**
+ * hwd_VIIF_sub_set_unit() - Set static configuration of SUB unit
+ *
+ * @dt_image: DT of image [0x0, 0x1E, 0x1F, 0x22, 0x24, 0x2A-0x2D]
+ * @dt_long_packet: DT of long packet data [0x0, 0x10-0x3F]
+ * @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] "dt_long_packet" is out of range
+ * - [3] Both "dt_image" and "dt_long_packet" are 0x0
+ * - [4] "in_img" is NULL
+ * - [5] member of "in_img" is invalid
+ */
+int32_t hwd_VIIF_sub_set_unit(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t sysclk_num, temp_delay;
+
+ if (((dt_image > 0U) && (dt_image < 0x2aU)) || (dt_image > 0x2dU))
+ return -EINVAL;
+
+ if (((dt_long_packet > 0x0U) && (dt_long_packet < 0x10U)) ||
+ (dt_long_packet > HWD_VIIF_CSI2_MAX_DT)) {
+ return -EINVAL;
+ }
+
+ if ((dt_image == 0U) && (dt_long_packet == 0U))
+ return -EINVAL;
+
+ if (in_img == NULL)
+ 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 (dt_image == 0U) {
+ /* only long packet data */
+ if ((in_img->pixel_clock != 0U) ||
+ (in_img->htotal_size < HWD_VIIF_MIN_HTOTAL_NSEC) ||
+ (in_img->htotal_size > HWD_VIIF_MAX_HTOTAL_NSEC) ||
+ (in_img->vbp_size < HWD_VIIF_MIN_VBP_PACKET) ||
+ (in_img->vbp_size > HWD_VIIF_MAX_VBP_PACKET) || (in_img->vtotal_size != 0U) ||
+ (in_img->vactive_size != 0U)) {
+ return -EINVAL;
+ }
+ } else {
+ /* image data will be input */
+ 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(dt_long_packet, &(res->capture_reg->sys.IPORTS_OTHER));
+
+ if (dt_image == 0x0U)
+ sysclk_num = LINEPERIOD_IN_SYSCLK(in_img->htotal_size, 1000000U);
+ else
+ sysclk_num = LINEPERIOD_IN_SYSCLK(in_img->htotal_size, in_img->pixel_clock);
+
+ /* Set line size and delay value of delayed Vsync */
+ 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
+ */
+int32_t hwd_VIIF_sub_set_img_transmission(uint32_t module_id, const struct hwd_viif_img *img)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t data_width, pitch, height, img_start_addr, img_end_addr;
+ uint32_t k, port_control;
+
+ if (img != NULL) {
+ 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 = (uint32_t)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;
+ }
+
+ writel(VDMAC_SRAM_BASE_ADDR_W03,
+ &(res->capture_reg->vdm.w_port[3].VDM_W_SRAM_BASE));
+ writel(res->sram_size_w_port, &(res->capture_reg->vdm.w_port[3].VDM_W_SRAM_SIZE));
+ writel(img_start_addr, &(res->capture_reg->vdm.w_port[3].VDM_W_STADR));
+ writel(img_end_addr, &(res->capture_reg->vdm.w_port[3].VDM_W_ENDADR));
+ writel(height, &(res->capture_reg->vdm.w_port[3].VDM_W_HEIGHT));
+ writel(pitch, &(res->capture_reg->vdm.w_port[3].VDM_W_PITCH));
+ writel(data_width << 8U, &(res->capture_reg->vdm.w_port[3].VDM_W_CFG0));
+ port_control = ((uint32_t)1U << 3U) | 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));
+ } else {
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->sys.IPORTS_IMGEN));
+ port_control = ~((uint32_t)1U << 3U) & readl(&res->capture_reg->vdm.VDM_W_ENABLE);
+ writel(port_control, &(res->capture_reg->vdm.VDM_W_ENABLE));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_sub_mask_vlatch() - Control Vlatch mask of SUB unit or VOIF loopback
+ *
+ * @enable: or disable Vlatch mask of SUB 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
+ */
+int32_t hwd_VIIF_sub_mask_vlatch(uint32_t module_id, uint32_t enable)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if ((enable != HWD_VIIF_ENABLE) && (enable != HWD_VIIF_DISABLE))
+ return -EINVAL;
+
+ /* Control Vlach mask */
+ writel(enable, &(res->capture_reg->sys.IPORTS0_LD));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_sub_status_err_set_irq_mask() - Set mask condition for STATUS error of SUB unit or VOIF loopback
+ *
+ * @mask: Pointer to 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(uint32_t module_id, const uint32_t *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: Pointer to 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(uint32_t module_id, const uint32_t *mask)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ writel(*mask, &(res->capture_reg->sys.INT_S_SYNC_MASK));
+}
+
+/**
+ * hwd_VIIF_sub_get_next_frame_info() - Get next frame information of SUB unit
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * @count0: count incremented by Vsync
+ * @count1: count incremented by delay_sync1
+ * @img_paddr: output address of image data(physical address)
+ * @emb_paddr: output address of embedded data(physical address)
+ * @long_packet_paddr: output address of long packet data(physical address)
+ * Return: None
+ */
+void hwd_VIIF_sub_get_next_frame_info(uint32_t module_id, uint32_t *count0, uint32_t *count1,
+ uint32_t *img_paddr, uint32_t *emb_paddr,
+ uint32_t *long_packet_paddr)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ *count0 = readl(&res->capture_reg->sys.FN_SA0);
+ *count1 = readl(&res->capture_reg->sys.FN_SA1);
+ *img_paddr = readl(&res->capture_reg->vdm.w_port_buf[3].VDM_W_STADR_BUF);
+ *emb_paddr = readl(&res->capture_reg->vdm.w_port_buf[5].VDM_W_STADR_BUF);
+ *long_packet_paddr = readl(&res->capture_reg->vdm.w_port_buf[4].VDM_W_STADR_BUF);
+}
+
+/**
+ * hwd_VIIF_sub_get_previous_frame_info() - Get and clear previous frame information of SUB unit
+ *
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * @abort_w: abort information of write port
+ * @packet_info: CSI-2 packet information
+ * Return: None
+ */
+void hwd_VIIF_sub_get_previous_frame_info(uint32_t module_id, uint32_t *abort_w,
+ struct hwd_viif_csi2rx_capture_info *packet_info)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ val = VDM_ABORT_MASK_SUB_W & readl(&res->capture_reg->vdm.VDM_W_STOP);
+ *abort_w = val;
+ writel(val, &(res->capture_reg->vdm.VDM_W_STOP));
+ val = readl(&res->capture_reg->sys.SUBIMG_PKTSIZE);
+ packet_info->img_size_1st = val & GENMASK(15, 0);
+ packet_info->img_size_2nd = val >> 16U;
+ packet_info->img_num = readl(&res->capture_reg->sys.SUBIMG_HEIGHT);
+ val = readl(&res->capture_reg->sys.SUBEMBTOP_SIZE);
+ packet_info->emb_top_size = val & GENMASK(15, 0);
+ packet_info->emb_top_num = val >> 16U;
+ val = readl(&res->capture_reg->sys.SUBEMBBOT_SIZE);
+ packet_info->emb_bottom_size = val & GENMASK(15, 0);
+ packet_info->emb_bottom_num = val >> 16U;
+ val = readl(&res->capture_reg->sys.SUBOTHER_PKTSIZE);
+ packet_info->long_packet_size_1st = val & GENMASK(15, 0);
+ packet_info->long_packet_size_2nd = val >> 16U;
+ packet_info->long_packet_num = readl(&res->capture_reg->sys.SUBOTHER_HEIGHT);
+}
+
+/**
+ * hwd_VIIF_isp_set_regbuf_auto_transmission() - Set register buffer auto transmission
+ *
+ * @regbuf_id_read: register buffer ID for read transmission [0..3]
+ * @regbuf_id_write: register buffer ID for write transmission [0..3]
+ * @context_id: context ID [0..3]
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: None
+ */
+void hwd_VIIF_isp_set_regbuf_auto_transmission(uint32_t module_id, uint32_t regbuf_id_read,
+ uint32_t regbuf_id_write, uint32_t context_id)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ (void)regbuf_id_read;
+ (void)regbuf_id_write;
+ (void)context_id;
+
+ /* 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(uint32_t 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));
+ }
+}
+
+#define L2_STATUS_REPORT_MASK 0x1eU
+
+/**
+ * hwd_VIIF_isp_get_info() - Get processing information of L1ISP and L2ISP
+ *
+ * @regbuf_id: register buffer ID [0..3]
+ * @regbuf_id_info: Latest register buffer ID
+ * @l1_info: L1ISP processing information
+ * @l2_addr_info: output address information of L2ISP
+ * @l2_transfer_status: status of L2ISP transmission
+ * @l1_regbuf_status: register buffer status of L1ISP
+ * @l2_regbuf_status: register buffer status of L2ISP
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: None
+ */
+void hwd_VIIF_isp_get_info(uint32_t module_id, uint32_t regbuf_id, uint32_t *regbuf_id_info,
+ struct hwd_viif_l1_info *l1_info,
+ struct hwd_viif_l2_transfer_addr_info *l2_addr_info,
+ uint32_t *l2_transfer_status,
+ struct hwd_viif_isp_regbuf_status *l1_regbuf_status,
+ struct hwd_viif_isp_regbuf_status *l2_regbuf_status)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val, l2_status;
+
+ if (l1_info != NULL) {
+ /* 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);
+
+ /* 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 != NULL) {
+ /* 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(uint32_t module_id, const uint32_t *mask_l1,
+ const uint32_t *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_path() - Set input path of L2ISP
+ *
+ * @is_other_ch: input path of L2ISP
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 Operation completes successfully
+ */
+int32_t hwd_VIIF_l2_set_input_path(uint32_t module_id, bool is_other_ch)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t input;
+
+ if (is_other_ch)
+ input = HWD_VIIF_L2_INPUT_OTHER_CH;
+ else
+ input = res->l2_input;
+
+ writel(input, &(res->capture_reg->sys.PREPROCCESS_FMTM));
+
+ return 0;
+}
+
+/**
+ * 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
+ */
+int32_t hwd_VIIF_l2_set_input_csc(uint32_t module_id, const struct hwd_viif_csc_param *param,
+ bool is_l1_rgb)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t i, val;
+ uint32_t enable = HWD_VIIF_ENABLE;
+ struct hwd_viif_csc_param hwd_param;
+ bool csc_enable_flag = true;
+
+ if (param != NULL) {
+ if (param->r_cr_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->g_y_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->b_cb_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->r_cr_out_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->g_y_out_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (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
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l2_set_undist(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l2_undist *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t i, val;
+ uint32_t grid_num_h, grid_num_v;
+
+ if (param == NULL)
+ return -EINVAL;
+
+ if ((param->through_mode != HWD_VIIF_ENABLE) && (param->through_mode != HWD_VIIF_DISABLE))
+ return -EINVAL;
+
+ if ((param->roi_mode != HWD_VIIF_L2_UNDIST_POLY) &&
+ (param->roi_mode != HWD_VIIF_L2_UNDIST_GRID) &&
+ (param->roi_mode != HWD_VIIF_L2_UNDIST_POLY_TO_GRID) &&
+ (param->roi_mode != HWD_VIIF_L2_UNDIST_GRID_TO_POLY)) {
+ return -EINVAL;
+ }
+ if (param->roi_write_area_delta >= HWD_VIIF_L2_UNDIST_MAX_ROI_WRITE_AREA_DELTA)
+ return -EINVAL;
+
+ if ((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)) {
+ return -EINVAL;
+ }
+
+ if ((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)) {
+ return -EINVAL;
+ }
+
+ if (param->norm_scale > HWD_VIIF_L2_UNDIST_MAX_NORM_SCALE)
+ return -EINVAL;
+
+ if (param->valid_r_norm2_poly >= HWD_VIIF_L2_UNDIST_MAX_VALID_R_NORM2)
+ return -EINVAL;
+
+ if (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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+
+ if ((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)
+ return -EINVAL;
+
+ if (param->grid_patch_hsize_inv >= HWD_VIIF_L2_UNDIST_MAX_GRID_PATCH_SIZE_INV)
+ return -EINVAL;
+
+ if (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) + ((int16_t)val)) > 4095)
+ return -EINVAL;
+
+ val = readl(&res->capture_reg->l2isp.L2_SENSOR_CROP_VSIZE) & GENMASK(11, 0);
+ if (((param->sensor_crop_ofs_v / 2) + ((int16_t)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 << 1U);
+ writel(val, &(res->capture_reg->l2isp.L2_MODE));
+ val = (uint32_t)param->sensor_crop_ofs_h & GENMASK(13, 0);
+ writel(val, &(res->capture_reg->l2isp.L2_SENSOR_CROP_OFS_H));
+ val = (uint32_t)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,
+ &(res->capture_reg->l2isp.L2_ROI_WRITE_AREA_DELTA[0]));
+ for (i = 0; i < HWD_VIIF_L2_UNDIST_POLY_NUM; i++) {
+ val = (uint32_t)param->poly_write_g_coef[i];
+ writel(val, &(res->capture_reg->l2isp.L2_POLY10_WRITE_G_COEF[i]));
+ val = (uint32_t)param->poly_read_b_coef[i];
+ writel(val, &(res->capture_reg->l2isp.L2_POLY10_READ_B_COEF[i]));
+ val = (uint32_t)param->poly_read_g_coef[i];
+ writel(val, &(res->capture_reg->l2isp.L2_POLY10_READ_G_COEF[i]));
+ val = (uint32_t)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
+ */
+int32_t hwd_VIIF_l2_set_undist_table_transmission(uint32_t module_id, uintptr_t write_g,
+ uintptr_t read_b, uintptr_t read_g,
+ uintptr_t read_r, uint32_t size)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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((uint32_t)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((uint32_t)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((uint32_t)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((uint32_t)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) & ~((uint32_t)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
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 operation completed successfully
+ */
+static void hwd_VIIF_l2_set_roi_num_1(uint32_t regbuf_id, struct hwd_viif_res *res)
+{
+ uint32_t val, x_min, x_max, y_min, y_max;
+ uint32_t i, x, y, w, h;
+
+ /* ROI0 is input to POST0 and POST1 */
+ if (res->l2_roi_path_info[regbuf_id].post_enable_flag[0]) {
+ /* POST0 is enabled */
+ x_min = res->l2_roi_path_info[regbuf_id].post_crop_x[0];
+ x_max = res->l2_roi_path_info[regbuf_id].post_crop_x[0] +
+ res->l2_roi_path_info[regbuf_id].post_crop_w[0];
+ y_min = res->l2_roi_path_info[regbuf_id].post_crop_y[0];
+ y_max = res->l2_roi_path_info[regbuf_id].post_crop_y[0] +
+ res->l2_roi_path_info[regbuf_id].post_crop_h[0];
+ if (res->l2_roi_path_info[regbuf_id].post_enable_flag[1]) {
+ /* POST1 is enabled */
+ x_min = min(x_min, res->l2_roi_path_info[regbuf_id].post_crop_x[1]);
+ val = res->l2_roi_path_info[regbuf_id].post_crop_x[1] +
+ res->l2_roi_path_info[regbuf_id].post_crop_w[1];
+ x_max = max(x_max, val);
+ y_min = min(y_min, res->l2_roi_path_info[regbuf_id].post_crop_y[1]);
+ val = res->l2_roi_path_info[regbuf_id].post_crop_y[1] +
+ res->l2_roi_path_info[regbuf_id].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 (res->l2_roi_path_info[regbuf_id].post_enable_flag[1]) {
+ /* POST0 is disabled and POST1 is enabled */
+ x = res->l2_roi_path_info[regbuf_id].post_crop_x[1];
+ w = res->l2_roi_path_info[regbuf_id].post_crop_w[1];
+ y = res->l2_roi_path_info[regbuf_id].post_crop_y[1];
+ h = res->l2_roi_path_info[regbuf_id].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 (res->l2_roi_path_info[regbuf_id].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
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 operation completed successfully
+ */
+static void hwd_VIIF_l2_set_roi_num_2(uint32_t regbuf_id, struct hwd_viif_res *res)
+{
+ uint32_t i;
+
+ for (i = 0; i < HWD_VIIF_L2_ROI_MAX_NUM; i++) {
+ /* ROI-n is the same as CROP area of POST-n */
+ if (res->l2_roi_path_info[regbuf_id].post_enable_flag[i]) {
+ writel(res->l2_roi_path_info[regbuf_id].post_crop_x[i],
+ &(res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_H));
+ writel(res->l2_roi_path_info[regbuf_id].post_crop_y[i],
+ &(res->capture_reg->l2isp.roi[i].L2_ROI_OUT_OFS_V));
+ writel(res->l2_roi_path_info[regbuf_id].post_crop_w[i],
+ &(res->capture_reg->l2isp.roi[i].L2_ROI_OUT_HSIZE));
+ writel(res->l2_roi_path_info[regbuf_id].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
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 operation completed successfully
+ */
+static void hwd_VIIF_l2_set_roi_path(uint32_t regbuf_id, struct hwd_viif_res *res)
+{
+ if (res->l2_roi_path_info[regbuf_id].roi_num == 1U)
+ hwd_VIIF_l2_set_roi_num_1(regbuf_id, res);
+ else
+ hwd_VIIF_l2_set_roi_num_2(regbuf_id, res);
+}
+
+/**
+ * hwd_VIIF_l2_set_roi() - Set ROI parameters of L2ISP
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l2_set_roi(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l2_roi *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ if (param == NULL)
+ return -EINVAL;
+
+ if ((param->roi_scale < HWD_VIIF_L2_ROI_MIN_SCALE) ||
+ (param->roi_scale > HWD_VIIF_L2_ROI_MAX_SCALE)) {
+ return -EINVAL;
+ }
+ if ((param->roi_scale_inv < HWD_VIIF_L2_ROI_MIN_SCALE_INV) ||
+ (param->roi_scale_inv > HWD_VIIF_L2_ROI_MAX_SCALE_INV)) {
+ return -EINVAL;
+ }
+ if ((param->corrected_wo_scale_hsize < HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_HSIZE) ||
+ (param->corrected_wo_scale_hsize > HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_HSIZE)) {
+ return -EINVAL;
+ }
+ if ((param->corrected_wo_scale_vsize < HWD_VIIF_L2_ROI_MIN_CORRECTED_WO_SCALE_VSIZE) ||
+ (param->corrected_wo_scale_vsize > HWD_VIIF_L2_ROI_MAX_CORRECTED_WO_SCALE_VSIZE)) {
+ return -EINVAL;
+ }
+ if ((param->corrected_hsize < HWD_VIIF_L2_ROI_MIN_CORRECTED_HSIZE) ||
+ (param->corrected_hsize > HWD_VIIF_L2_ROI_MAX_CORRECTED_HSIZE)) {
+ return -EINVAL;
+ }
+ if ((param->corrected_vsize < HWD_VIIF_L2_ROI_MIN_CORRECTED_VSIZE) ||
+ (param->corrected_vsize > HWD_VIIF_L2_ROI_MAX_CORRECTED_VSIZE)) {
+ return -EINVAL;
+ }
+
+ /* Set the number of ROI and update resource info with roi_num */
+ writel(1, &(res->capture_reg->l2isp.L2_ROI_NUM));
+ res->l2_roi_path_info[regbuf_id].roi_num = 1;
+
+ /* Update ROI area and input to each POST */
+ hwd_VIIF_l2_set_roi_path(regbuf_id, res);
+
+ /* Set the remaining parameters */
+ writel(param->roi_scale, &(res->capture_reg->l2isp.roi[0].L2_ROI_SCALE));
+ writel(param->roi_scale_inv, &(res->capture_reg->l2isp.roi[0].L2_ROI_SCALE_INV));
+ val = (param->corrected_wo_scale_hsize << 13U) | param->corrected_hsize;
+ writel(val, &(res->capture_reg->l2isp.roi[0].L2_ROI_CORRECTED_HSIZE));
+ val = (param->corrected_wo_scale_vsize << 12U) | param->corrected_vsize;
+ writel(val, &(res->capture_reg->l2isp.roi[0].L2_ROI_CORRECTED_VSIZE));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l2_set_gamma() - Set Gamma correction parameters of L2ISP
+ *
+ * @post_id: POST ID [0..1]
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l2_set_gamma(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ uint32_t enable, uint32_t vsplit, uint32_t mode)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ if (post_id >= HWD_VIIF_MAX_POST_NUM)
+ return -EINVAL;
+
+ if ((enable != HWD_VIIF_ENABLE) && (enable != HWD_VIIF_DISABLE))
+ return -EINVAL;
+
+ if (vsplit > HWD_VIIF_GAMMA_MAX_VSPLIT)
+ return -EINVAL;
+
+ if ((mode != HWD_VIIF_GAMMA_COMPRESSED) && (mode != HWD_VIIF_GAMMA_LINEAR))
+ return -EINVAL;
+
+ if ((enable == HWD_VIIF_DISABLE) && (vsplit != 0x0U))
+ return -EINVAL;
+
+ if ((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
+ */
+int32_t hwd_VIIF_l2_set_gamma_table_transmission(uint32_t module_id, uint32_t post_id,
+ const struct hwd_viif_l2_gamma_table *gamma_table)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t i, base_addr;
+ uint32_t vdm_enable = 0U;
+
+ 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) {
+ writel((uint32_t)gamma_table->table[i],
+ &(res->capture_reg->vdm.t_port[(12U + i + (post_id * 6U))]
+ .VDM_T_STADR));
+ writel(HWD_VIIF_L2_VDM_GAMMA_TABLE_SIZE,
+ &(res->capture_reg->vdm.t_port[(12U + i + (post_id * 6U))]
+ .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) &
+ ~((uint32_t)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]
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l2_set_output_csc(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ const struct hwd_viif_csc_param *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t i, val;
+ uint32_t enable = HWD_VIIF_DISABLE;
+
+ if (post_id >= HWD_VIIF_MAX_POST_NUM)
+ return -EINVAL;
+
+ if (param != NULL) {
+ if (param->r_cr_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->g_y_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->b_cb_in_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->r_cr_out_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (param->g_y_out_offset > HWD_VIIF_CSC_MAX_OFFSET)
+ return -EINVAL;
+
+ if (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;
+ }
+
+ writel(param->g_y_in_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_YG_OFFSETI));
+ writel(param->coef[0], &(res->capture_reg->l2isp.post[post_id].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, &(res->capture_reg->l2isp.post[post_id].csc.MTB_YG2));
+ writel(param->g_y_out_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_YG_OFFSETO));
+ writel(param->b_cb_in_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_CB_OFFSETI));
+ writel(param->coef[3], &(res->capture_reg->l2isp.post[post_id].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, &(res->capture_reg->l2isp.post[post_id].csc.MTB_CB2));
+ writel(param->b_cb_out_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_CB_OFFSETO));
+ writel(param->r_cr_in_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_CR_OFFSETI));
+ writel(param->coef[6], &(res->capture_reg->l2isp.post[post_id].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, &(res->capture_reg->l2isp.post[post_id].csc.MTB_CR2));
+ writel(param->r_cr_out_offset,
+ &(res->capture_reg->l2isp.post[post_id].csc.MTB_CR_OFFSETO));
+ enable = HWD_VIIF_ENABLE;
+ }
+ writel(enable, &(res->capture_reg->l2isp.post[post_id].csc.MTB));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l2_set_img_transmission() - Set image transfer condition of L2ISP
+ *
+ * @post_id: POST ID [0..1]
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l2_set_img_transmission(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ uint32_t 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);
+ int32_t ret = 0;
+ uint32_t pitch[HWD_VIIF_MAX_PLANE_NUM], img_start_addr[HWD_VIIF_MAX_PLANE_NUM];
+ uint32_t i, val, loop, k, r[HWD_VIIF_MAX_PLANE_NUM];
+
+ /* pitch alignment for planar or one color format */
+ uint32_t pitch_align = 128U;
+
+ if (post_id >= HWD_VIIF_MAX_POST_NUM)
+ return -EINVAL;
+
+ if ((enable != HWD_VIIF_ENABLE) && (enable != HWD_VIIF_DISABLE))
+ return -EINVAL;
+
+ if ((enable == HWD_VIIF_ENABLE) && ((src == NULL) || (out_process == NULL)))
+ return -EINVAL;
+
+ if ((enable == HWD_VIIF_DISABLE) && ((src != NULL) || (out_process != NULL)))
+ return -EINVAL;
+
+ if (enable == HWD_VIIF_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;
+ }
+ }
+
+ switch (img->format) {
+ case HWD_VIIF_YCBCR422_8_PACKED:
+ img_start_addr[0] = (uint32_t)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] = (uint32_t)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] = (uint32_t)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] = (uint32_t)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] = (uint32_t)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] = (uint32_t)img->pixelmap[0].pmap_paddr;
+ img_start_addr[1] = (uint32_t)img->pixelmap[1].pmap_paddr;
+ img_start_addr[2] = (uint32_t)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] = (uint32_t)img->pixelmap[0].pmap_paddr;
+ img_start_addr[1] = (uint32_t)img->pixelmap[1].pmap_paddr;
+ img_start_addr[2] = (uint32_t)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;
+ loop = HWD_VIIF_MAX_PLANE_NUM;
+ break;
+ case HWD_VIIF_YCBCR422_16_PLANAR:
+ img_start_addr[0] = (uint32_t)img->pixelmap[0].pmap_paddr;
+ img_start_addr[1] = (uint32_t)img->pixelmap[1].pmap_paddr;
+ img_start_addr[2] = (uint32_t)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] = (uint32_t)img->pixelmap[0].pmap_paddr;
+ img_start_addr[1] = (uint32_t)img->pixelmap[1].pmap_paddr;
+ img_start_addr[2] = (uint32_t)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:
+ ret = -EINVAL;
+ break;
+ }
+
+ if (ret == 0) {
+ 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)) {
+ ret = -EINVAL;
+ }
+ if (ret == -EINVAL)
+ break;
+ }
+
+ if (ret == 0) {
+ 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((uint32_t)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[regbuf_id].post_enable_flag[post_id] = true;
+ res->l2_roi_path_info[regbuf_id].post_crop_x[post_id] = src->x;
+ res->l2_roi_path_info[regbuf_id].post_crop_y[post_id] = src->y;
+ res->l2_roi_path_info[regbuf_id].post_crop_w[post_id] = src->w;
+ res->l2_roi_path_info[regbuf_id].post_crop_h[post_id] = src->h;
+ hwd_VIIF_l2_set_roi_path(regbuf_id, res);
+ }
+ }
+ } else {
+ /* Update ROI area and input to each POST */
+ res->l2_roi_path_info[regbuf_id].post_enable_flag[post_id] = false;
+ res->l2_roi_path_info[regbuf_id].post_crop_x[post_id] = 0U;
+ res->l2_roi_path_info[regbuf_id].post_crop_y[post_id] = 0U;
+ res->l2_roi_path_info[regbuf_id].post_crop_w[post_id] = HWD_VIIF_CROP_MIN_W;
+ res->l2_roi_path_info[regbuf_id].post_crop_h[post_id] = HWD_VIIF_CROP_MIN_H;
+ hwd_VIIF_l2_set_roi_path(regbuf_id, res);
+ }
+
+ return ret;
+}
+
+/**
+ * hwd_VIIF_l2_set_irq_mask() - Set mask condition for L2ISP
+ *
+ * @mask: Pointer to L2ISP mask condition
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: None
+ */
+void hwd_VIIF_l2_set_irq_mask(uint32_t module_id, const uint32_t *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
+ */
+uint32_t hwd_VIIF_csi2rx_err_irq_handler(uint32_t 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) or VOIF loopback(CH2)
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: None
+ */
+void hwd_VIIF_status_err_irq_handler(uint32_t module_id, uint32_t *event_main, uint32_t *event_sub)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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(uint32_t module_id, uint32_t *event_main, uint32_t *event_sub)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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(uint32_t module_id, uint32_t *event_l1, uint32_t *event_l2)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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..c0cc83473
--- /dev/null
+++ b/drivers/media/platform/visconti/hwd_viif.h
@@ -0,0 +1,1776 @@
+/* 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>
+
+enum hwd_power_ctrl {
+ HWD_POWER_OFF = 0, /**< Power off */
+ HWD_POWER_ON /**< Power on */
+};
+
+/* 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 {
+ uint32_t vc[VISCONTI_CSI2_ERROR_MONITORS_NUM];
+ uint32_t 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 {
+ uint32_t 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 {
+ uint32_t word_count[VISCONTI_CSI2RX_PACKET_TYPES_NUM];
+ uint32_t packet_num[VISCONTI_CSI2RX_PACKET_TYPES_NUM];
+};
+
+/**
+ * struct hwd_viif_csi2rx_dphy_calibration_status - CSI2 DPHY 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
+ */
+struct hwd_viif_csi2rx_dphy_calibration_status {
+ uint32_t term_cal_with_rext;
+ uint32_t clock_lane_offset_cal;
+ uint32_t data_lane0_offset_cal;
+ uint32_t data_lane1_offset_cal;
+ uint32_t data_lane2_offset_cal;
+ uint32_t data_lane3_offset_cal;
+ uint32_t data_lane0_ddl_tuning_cal;
+ uint32_t data_lane1_ddl_tuning_cal;
+ uint32_t data_lane2_ddl_tuning_cal;
+ uint32_t data_lane3_ddl_tuning_cal;
+};
+
+/**
+ * struct hwd_viif_csi2rx_capture_info - CSI2 captured packet information
+ * @img_size_1st: 1st packet size of image data[byte]
+ * @img_size_2nd: 2nd packet size of image data[byte]
+ * @img_num: the number of packet of image data
+ * @emb_top_size: packet size of embedded data just after FS packet[byte]
+ * @emb_top_num: the number of packet just after FS packet
+ * @emb_bottom_size: packet size of embedded data just after FE packet[byte]
+ * @emb_bottom_num: the number of packet just after FE packet
+ * @long_packet_size_1st: 1st packet size of long packet data[byte]
+ * @long_packet_size_2nd: 2nd packet size of long packet data[byte]
+ * @long_packet_num: the number of packet of long packet data
+ */
+struct hwd_viif_csi2rx_capture_info {
+ uint32_t img_size_1st;
+ uint32_t img_size_2nd;
+ uint32_t img_num;
+ uint32_t emb_top_size;
+ uint32_t emb_top_num;
+ uint32_t emb_bottom_size;
+ uint32_t emb_bottom_num;
+ uint32_t long_packet_size_1st;
+ uint32_t long_packet_size_2nd;
+ uint32_t long_packet_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;
+ uint32_t 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 {
+ uint32_t width;
+ uint32_t height;
+ uint32_t 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 {
+ uint32_t pixel_clock;
+ uint32_t htotal_size;
+ uint32_t hactive_size;
+ uint32_t vtotal_size;
+ uint32_t vbp_size;
+ uint32_t vactive_size;
+ uint32_t interpolation_mode;
+ uint32_t input_num;
+ uint32_t hobc_width;
+ uint32_t hobc_margin;
+};
+
+/**
+ * struct hwd_viif_main_gamma - configuration of gamma of MAIN unit
+ * @mode: hwd_VIIF_gamma_table_mode
+ * @table: table address(physical address)
+ * * [0]: G/Y
+ * * [1]: B/U
+ * * [2]: R/V
+ *
+ * * When 0 is set, the table transfer is disabled.
+ * * Each table address needs to be 4 byte alignment.
+ */
+struct hwd_viif_main_gamma {
+ uint32_t mode;
+ uintptr_t table[3];
+};
+
+/**
+ * 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 {
+ uint32_t r_cr_in_offset;
+ uint32_t g_y_in_offset;
+ uint32_t b_cb_in_offset;
+ uint32_t coef[9];
+ uint32_t r_cr_out_offset;
+ uint32_t g_y_out_offset;
+ uint32_t 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 {
+ uint32_t x;
+ uint32_t y;
+ uint32_t w;
+ uint32_t 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 {
+ uint32_t half_scale;
+ uint32_t select_color;
+ uint8_t alpha;
+};
+
+/**
+ * struct hwd_viif_main_transfer_addr_info - vdmac address information of MAIN unit
+ * @img_g_y_paddr: output address of image data(G/Y/packed) which VIIF HW holds(physical address)
+ * @img_b_u_paddr: output address of image data(B/U) which VIIF HW holds(physical address)
+ * @img_r_v_paddr: output address of image data(R/V) which VIIF HW holds(physical address)
+ * @emb_paddr: output address of embedded data which VIIF HW holds(physical address)
+ * @long_packet_paddr: output address of long packet data which VIIF HW holds(physical address)
+ *
+ * 0 needs to be returned in the below parameters.
+ * * img_g_y_paddr
+ * * img_b_u_paddr
+ * * img_r_v_paddr
+ */
+struct hwd_viif_main_transfer_addr_info {
+ uint32_t img_g_y_paddr;
+ uint32_t img_b_u_paddr;
+ uint32_t img_r_v_paddr;
+ uint32_t emb_paddr;
+ uint32_t long_packet_paddr;
+};
+
+/**
+ * struct hwd_viif_isp_regbuf_status - HWD ISP register buffer status
+ * @last_trans: last transfer type(0:init state, 1:write, 2:read
+ * @isp_abort: true: abort occurred, false: abort not occurred
+ * @read_end: true: read completed, false: read not completed
+ * @write_end: true: write completed, false: write not completed
+ * @read_err: true: read error occurred, false: read error not occurred
+ * @write_err: true: write error occurred, false: write error not occurred
+ */
+struct hwd_viif_isp_regbuf_status {
+ uint32_t last_trans;
+ bool isp_abort;
+ bool read_end;
+ bool write_end;
+ bool read_err;
+ bool write_err;
+};
+
+/**
+ * struct hwd_viif_l1_raw_input_order - HWD L1ISP RAW input mode parameters
+ * @input_order_high; high sensitivity image position [0..input_num] For input_num, refer to #drv_VIIF_open
+ * @input_order_middle; middle sensitivity image or LED image position [0..input_num] For input_num, refer to #drv_VIIF_open
+ * @input_order_low; low sensitivity image position [0..input_num] For input_num, refer to #drv_VIIF_open
+ *
+ * When input_num is set, the corresponding image is not input.
+ */
+struct hwd_viif_l1_raw_input_order {
+ uint32_t input_order_high;
+ uint32_t input_order_middle;
+ uint32_t input_order_low;
+};
+
+/**
+ * struct hwd_viif_l1_ag_mode - HWD L1ISP AG mode parameters
+ * @sysm_ag_grad[4]: analog gain slope [0..255] (element is id)
+ * @sysm_ag_ofst[4]: analog gain offset [0..65535] (element is id)
+ * @sysm_ag_cont_hobc_en_high: enable/disable to control analog gain for high sensitivity image of OBCC @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_hobc_high: analog gain id for high sensitivity image of OBCC [0..3]
+ * @sysm_ag_cont_hobc_en_middle_led: enable/disable to control analog gain for middle sensitivity or led image of OBCC @ref hwd_VIIF_enable_flag
+ * @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: enable/disable to control analog gain for low sensitivity image of OBCC @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_hobc_low: analog gain id for low sensitivity image of OBCC [0..3]
+ * @sysm_ag_cont_abpc_en_high: enable/disable to control analog gain for high sensitivity image of ABPC @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_abpc_high: analog gain id for high sensitivity image of ABPC [0..3]
+ * @sysm_ag_cont_abpc_en_middle_led: enable/disable to control analog gain for middle sensitivity or led image of ABPC @ref hwd_VIIF_enable_flag
+ * @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: enable/disable to control analog gain for low sensitivity image of ABPC @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_abpc_low: analog gain id for low sensitivity image of ABPC [0..3]
+ * @sysm_ag_cont_rcnr_en_high: enable/disable to control analog gain for high sensitivity image of RCNR @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_rcnr_high: analog gain id for high sensitivity image of RCNR [0..3]
+ * @sysm_ag_cont_rcnr_en_middle_led: enable/disable to control analog gain for middle sensitivity or led image of RCNR @ref hwd_VIIF_enable_flag
+ * @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: enable/disable to control analog gain for low sensitivity image of RCNR @ref hwd_VIIF_enable_flag
+ * @sysm_ag_psel_rcnr_low: analog gain id for low sensitivity image of RCNR [0..3]
+ * @sysm_ag_cont_lssc_en: enable/disable to control analog gain for LSSC @ref hwd_VIIF_enable_flag
+ * @sysm_ag_ssel_lssc: sensitive image used for LSSC @ref hwd_VIIF_l1_img_sens
+ * @sysm_ag_psel_lssc: analog gain id for LSSC [0..3]
+ * @sysm_ag_cont_mpro_en: enable/disable to control analog gain for color matrix @ref hwd_VIIF_enable_flag
+ * @sysm_ag_ssel_mpro: sensitive image used for color matrix @ref hwd_VIIF_l1_img_sens
+ * @sysm_ag_psel_mpro: analog gain id for color matrix [0..3]
+ * @sysm_ag_cont_vpro_en: enable/disable to control analog gain for image adjustment @ref hwd_VIIF_enable_flag
+ * @sysm_ag_ssel_vpro: sensitive image used for image adjustment @ref hwd_VIIF_l1_img_sens
+ * @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]
+ */
+struct hwd_viif_l1_ag_mode {
+ uint8_t sysm_ag_grad[4];
+ uint16_t sysm_ag_ofst[4];
+ uint32_t sysm_ag_cont_hobc_en_high;
+ uint32_t sysm_ag_psel_hobc_high;
+ uint32_t sysm_ag_cont_hobc_en_middle_led;
+ uint32_t sysm_ag_psel_hobc_middle_led;
+ uint32_t sysm_ag_cont_hobc_en_low;
+ uint32_t sysm_ag_psel_hobc_low;
+ uint32_t sysm_ag_cont_abpc_en_high;
+ uint32_t sysm_ag_psel_abpc_high;
+ uint32_t sysm_ag_cont_abpc_en_middle_led;
+ uint32_t sysm_ag_psel_abpc_middle_led;
+ uint32_t sysm_ag_cont_abpc_en_low;
+ uint32_t sysm_ag_psel_abpc_low;
+ uint32_t sysm_ag_cont_rcnr_en_high;
+ uint32_t sysm_ag_psel_rcnr_high;
+ uint32_t sysm_ag_cont_rcnr_en_middle_led;
+ uint32_t sysm_ag_psel_rcnr_middle_led;
+ uint32_t sysm_ag_cont_rcnr_en_low;
+ uint32_t sysm_ag_psel_rcnr_low;
+ uint32_t sysm_ag_cont_lssc_en;
+ uint32_t sysm_ag_ssel_lssc;
+ uint32_t sysm_ag_psel_lssc;
+ uint32_t sysm_ag_cont_mpro_en;
+ uint32_t sysm_ag_ssel_mpro;
+ uint32_t sysm_ag_psel_mpro;
+ uint32_t sysm_ag_cont_vpro_en;
+ uint32_t sysm_ag_ssel_vpro;
+ uint32_t sysm_ag_psel_vpro;
+ uint8_t sysm_ag_cont_hobc_test_high;
+ uint8_t sysm_ag_cont_hobc_test_middle_led;
+ uint8_t sysm_ag_cont_hobc_test_low;
+ uint8_t sysm_ag_cont_abpc_test_high;
+ uint8_t sysm_ag_cont_abpc_test_middle_led;
+ uint8_t sysm_ag_cont_abpc_test_low;
+ uint8_t sysm_ag_cont_rcnr_test_high;
+ uint8_t sysm_ag_cont_rcnr_test_middle_led;
+ uint8_t sysm_ag_cont_rcnr_test_low;
+ uint8_t sysm_ag_cont_lssc_test;
+ uint8_t sysm_ag_cont_mpro_test;
+ uint8_t sysm_ag_cont_vpro_test;
+};
+
+/**
+ * struct hwd_viif_l1_hdre - HWD L1ISP HDR extension parameters
+ * @hdre_src_point: the number of knee points, N of PWL compression signal [0x0..0x3fff]
+ * @hdre_dst_base: the offset value of HDR signal of the knee area, M [0x0..0xffffff]
+ * @hdre_ratio: output pixel ratio at the area M [0x0..0x3FFFFF] accuracy: 1/64
+ * @hdre_dst_max_val: the maximum value of output pixel [0x0..0xffffff]
+ */
+struct hwd_viif_l1_hdre {
+ uint32_t hdre_src_point[16];
+ uint32_t hdre_dst_base[17];
+ uint32_t hdre_ratio[17];
+ uint32_t hdre_dst_max_val;
+};
+
+/**
+ * struct hwd_viif_l1_dpc - HWD L1ISP defect pixel correction parameters
+ *
+ * @abpc_sta_en: enable/disable static defect pixel correction @ref hwd_VIIF_enable_flag
+ * @abpc_dyn_en: enable/disable dynamic defect pixel correction @ref hwd_VIIF_enable_flag
+ * @abpc_dyn_mode: enable/disable dynamic defect pixel correction @ref hwd_VIIF_l1_dpc
+ * @abpc_ratio_limit: ratio limit for defect pixel correction [0..1023]
+ * @abpc_dark_limit: ratio limit for white defect pixel correction in dark area [0..1023]
+ * @abpc_sn_coef_w_ag_min: luminance difference adjustment value for white defect pixel correction(under lower threshold) [1..31]
+ * @abpc_sn_coef_w_ag_mid: luminance difference adjustment value for white defect pixel correction(between lower and upper threshold) [1..31]
+ * @abpc_sn_coef_w_ag_max: luminance difference adjustment value for white defect pixel correction(over upper threshold) [1..31]
+ * @abpc_sn_coef_b_ag_min: luminance difference adjustment value for black defect pixel correction(under lower threshold) [1..31]
+ * @abpc_sn_coef_b_ag_mid: luminance difference adjustment value for black defect pixel correction(between lower and upper threshold) [1..31]
+ * @abpc_sn_coef_b_ag_max: luminance difference adjustment value for black defect pixel correction(over upper threshold) [1..31]
+ * @abpc_sn_coef_w_th_min: analog gain lower threshold for luminance difference adjustment for white defect pixel correction [0..255]
+ * @abpc_sn_coef_w_th_max: analog gain upper threshold for luminance difference adjustment for white defect pixel correction [0..255]
+ * @abpc_sn_coef_b_th_min: analog gain lower threshold for luminance difference adjustment for black defect pixel correction [0..255]
+ * @abpc_sn_coef_b_th_max: analog gain upper threshold for luminance difference adjustment for black defect pixel correction [0..255]
+ *
+ * it is necessary to keep the following relation for each parameters
+ * - *_th_min < *_th_max
+ */
+struct hwd_viif_l1_dpc {
+ uint32_t abpc_sta_en;
+ uint32_t abpc_dyn_en;
+ uint32_t abpc_dyn_mode;
+ uint32_t abpc_ratio_limit;
+ uint32_t abpc_dark_limit;
+ uint32_t abpc_sn_coef_w_ag_min;
+ uint32_t abpc_sn_coef_w_ag_mid;
+ uint32_t abpc_sn_coef_w_ag_max;
+ uint32_t abpc_sn_coef_b_ag_min;
+ uint32_t abpc_sn_coef_b_ag_mid;
+ uint32_t abpc_sn_coef_b_ag_max;
+ uint8_t abpc_sn_coef_w_th_min;
+ uint8_t abpc_sn_coef_w_th_max;
+ uint8_t abpc_sn_coef_b_th_min;
+ uint8_t abpc_sn_coef_b_th_max;
+};
+
+/**
+ * struct hwd_viif_l1_preset_white_balance - HWD L1ISP preset white balance parameters
+ * @gain_gr; Gr gain value [0..0x7FFFF]
+ * @gain_r; R gain value [0..0x7FFFF]
+ * @gain_b; B gain value [0..0x7FFFF]
+ * @gain_gb; Gb gain value [0..0x7FFFF]
+ *
+ * accuracy of each parameter is 1/16384
+ */
+struct hwd_viif_l1_preset_white_balance {
+ uint32_t gain_gr;
+ uint32_t gain_r;
+ uint32_t gain_b;
+ uint32_t gain_gb;
+};
+
+/**
+ * struct hwd_viif_l1_raw_color_noise_reduction - HWD L1ISP raw color noise reduction parameters
+ * @rcnr_sw: enable/disable raw color noise reduction @ref hwd_VIIF_enable_flag
+ * @rcnr_cnf_dark_ag0: maximum value for LSF noise reduction in dark [0..63]
+ * @rcnr_cnf_dark_ag1: middle value for LSF noise reduction in dark [0..63]
+ * @rcnr_cnf_dark_ag2: minimum value for LSF noise reduction in dark [0..63]
+ * @rcnr_cnf_ratio_ag0: maximum value for LSF luminance linkage noise reduction [0..31]
+ * @rcnr_cnf_ratio_ag1: middle value for LSF luminance linkage noise reduction [0..31]
+ * @rcnr_cnf_ratio_ag2: minimum value for LSF luminance linkage noise reduction [0..31]
+ * @rcnr_cnf_clip_gain_r: R gain value to adjust correction width of LSF [0..3]
+ * @rcnr_cnf_clip_gain_g: G gain value to adjust correction width of LSF [0..3]
+ * @rcnr_cnf_clip_gain_b: B gain value to adjust correction width of LSF [0..3]
+ * @rcnr_a1l_dark_ag0: maximum value for MSF noise reduction in dark [0..63]
+ * @rcnr_a1l_dark_ag1: middle value for MSF noise reduction in dark [0..63]
+ * @rcnr_a1l_dark_ag2: minimum value for MSF noise reduction in dark [0..63]
+ * @rcnr_a1l_ratio_ag0: maximum value for MSF luminance linkage noise reduction [0..31]
+ * @rcnr_a1l_ratio_ag1: middle value for MSF luminance linkage noise reduction [0..31]
+ * @rcnr_a1l_ratio_ag2: minimum value for MSF luminance linkage noise reduction [0..31]
+ * @rcnr_inf_zero_clip: clip value [0..256]
+ * @rcnr_merge_d2blend_ag0: maximum blend ratio for input data and filtered input data [0..16]
+ * @rcnr_merge_d2blend_ag1: middle blend ratio for input data and filtered input data [0..16]
+ * @rcnr_merge_d2blend_ag2: minimum blend ratio for input data and filtered input data [0..16]
+ * @rcnr_merge_black: minimum black level value [0..64]
+ * @rcnr_merge_mindiv: 0div guard value for inverse operator [4..16]
+ * @rcnr_hry_type: HSF filter type @ref hwd_VIIF_l1_rcnr_hry_type
+ * @rcnr_anf_blend_ag0: maximum blend ratio for MSF result for write back data to line memory @ref hwd_VIIF_l1_rcnr_msf_blend_ratio
+ * @rcnr_anf_blend_ag1: middle blend ratio for MSF result for write back data to line memory @ref hwd_VIIF_l1_rcnr_msf_blend_ratio
+ * @rcnr_anf_blend_ag2: minimum blend ratio for MSF result for write back data to line memory @ref hwd_VIIF_l1_rcnr_msf_blend_ratio
+ * @rcnr_lpf_threshold: multiplication value at calculating MSF noise [0x0..0x1F] accuracy: 1/8
+ * @rcnr_merge_hlblend_ag0: maximum value of generating luminance signal blend [0..2]
+ * @rcnr_merge_hlblend_ag1: middle value of generating luminance signal blend [0..2]
+ * @rcnr_merge_hlblend_ag2: minimum value of generating luminance signal blend [0..2]
+ * @rcnr_gnr_sw: enable/disable Gr/Gb sensitivity ratio correction
+ * @rcnr_gnr_ratio: upper limit ratio of Gr/Gb sensitivity ratio
+ * @rcnr_gnr_wide_en: enable/disable that upper limit ratio of Gr/Gb is double @ref hwd_VIIF_enable_flag
+ */
+struct hwd_viif_l1_raw_color_noise_reduction {
+ uint32_t rcnr_sw;
+ uint32_t rcnr_cnf_dark_ag0;
+ uint32_t rcnr_cnf_dark_ag1;
+ uint32_t rcnr_cnf_dark_ag2;
+ uint32_t rcnr_cnf_ratio_ag0;
+ uint32_t rcnr_cnf_ratio_ag1;
+ uint32_t rcnr_cnf_ratio_ag2;
+ uint32_t rcnr_cnf_clip_gain_r;
+ uint32_t rcnr_cnf_clip_gain_g;
+ uint32_t rcnr_cnf_clip_gain_b;
+ uint32_t rcnr_a1l_dark_ag0;
+ uint32_t rcnr_a1l_dark_ag1;
+ uint32_t rcnr_a1l_dark_ag2;
+ uint32_t rcnr_a1l_ratio_ag0;
+ uint32_t rcnr_a1l_ratio_ag1;
+ uint32_t rcnr_a1l_ratio_ag2;
+ uint32_t rcnr_inf_zero_clip;
+ uint32_t rcnr_merge_d2blend_ag0;
+ uint32_t rcnr_merge_d2blend_ag1;
+ uint32_t rcnr_merge_d2blend_ag2;
+ uint32_t rcnr_merge_black;
+ uint32_t rcnr_merge_mindiv;
+ uint32_t rcnr_hry_type;
+ uint32_t rcnr_anf_blend_ag0;
+ uint32_t rcnr_anf_blend_ag1;
+ uint32_t rcnr_anf_blend_ag2;
+ uint32_t rcnr_lpf_threshold;
+ uint32_t rcnr_merge_hlblend_ag0;
+ uint32_t rcnr_merge_hlblend_ag1;
+ uint32_t rcnr_merge_hlblend_ag2;
+ uint32_t rcnr_gnr_sw;
+ uint32_t rcnr_gnr_ratio;
+ uint32_t rcnr_gnr_wide_en;
+};
+
+/**
+ * struct hwd_viif_l1_hdrs - HWD L1ISP HDR synthesis parameters
+ * @hdrs_hdr_mode: use or not use middle sensitivity image @ref hwd_VIIF_l1_hdrs
+ * @hdrs_hdr_ratio_m: ratio of mid sensitivity image to high sensitivity image [0x400..0x400000] accuracy: 1/1024
+ * @hdrs_hdr_ratio_l: ratio of low sensitivity image to high sensitivity image [0x400..0x400000] accuracy: 1/1024
+ * @hdrs_hdr_ratio_e: ratio of led image to high sensitivity image [0x400..0x400000] accuracy: 1/1024
+ * @hdrs_dg_h: digital gain of high sensitivity image [0x0..0x3FFFFF] accuracy: 1/1024
+ * @hdrs_dg_m: digital gain of middle sensitivity image [0x0..0x3FFFFF] accuracy: 1/1024
+ * @hdrs_dg_l: digital gain of low sensitivity image [0x0..0x3FFFFF] accuracy: 1/1024
+ * @hdrs_dg_e: digital gain of led image [0x0..0x3FFFFF] accuracy: 1/1024
+ * @hdrs_blendend_h: maximum luminance used for blend of high sensitivity image [0..4095]
+ * @hdrs_blendend_m: maximum luminance used for blend of middle sensitivity image [0..4095]
+ * @hdrs_blendend_e: maximum luminance used for blend of led image [0..4095]
+ * @hdrs_blendbeg_h: minimum luminance used for blend of high sensitivity image [0..4095]
+ * @hdrs_blendbeg_m: minimum luminance used for blend of middle sensitivity image [0..4095]
+ * @hdrs_blendbeg_e: minimum luminance used for blend of led image [0..4095]
+ * @hdrs_led_mode_on: enable/disable LED mode @ref hwd_VIIF_enable_flag
+ * @hdrs_dst_max_val: the maximum value of output pixel [0x0..0xffffff]
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * - (hdrs_hdr_mode == DRV_VIIF_ENABLE) && (hdrs_led_mode_on == DRV_VIIF_ENABLE)
+ */
+struct hwd_viif_l1_hdrs {
+ uint32_t hdrs_hdr_mode;
+ uint32_t hdrs_hdr_ratio_m;
+ uint32_t hdrs_hdr_ratio_l;
+ uint32_t hdrs_hdr_ratio_e;
+ uint32_t hdrs_dg_h;
+ uint32_t hdrs_dg_m;
+ uint32_t hdrs_dg_l;
+ uint32_t hdrs_dg_e;
+ uint32_t hdrs_blendend_h;
+ uint32_t hdrs_blendend_m;
+ uint32_t hdrs_blendend_e;
+ uint32_t hdrs_blendbeg_h;
+ uint32_t hdrs_blendbeg_m;
+ uint32_t hdrs_blendbeg_e;
+ uint32_t hdrs_led_mode_on;
+ uint32_t hdrs_dst_max_val;
+};
+
+/**
+ * struct hwd_viif_l1_black_level_correction - HWD L1ISP black level correction parameters
+ * @srcblacklevel_gr: black level of Gr input [0x0..0xffffff] [pixel]
+ * @srcblacklevel_r: black level of R input [0x0..0xffffff] [pixel]
+ * @srcblacklevel_b: black level of B input [0x0..0xffffff] [pixel]
+ * @srcblacklevel_gb: black level of Gb input [0x0..0xffffff] [pixel]
+ * @mulval_gr: Gr gain [0x0..0xfffff] accuracy: 1/256
+ * @mulval_r: R gain [0x0..0xfffff] accuracy: 1/256
+ * @mulval_b: B gain [0x0..0xfffff] accuracy: 1/256
+ * @mulval_gb: Gb gain [0x0..0xfffff] accuracy: 1/256
+ * @dstmaxval: the maximum value of output pixel [0x0..0xffffff]
+ */
+struct hwd_viif_l1_black_level_correction {
+ uint32_t srcblacklevel_gr;
+ uint32_t srcblacklevel_r;
+ uint32_t srcblacklevel_b;
+ uint32_t srcblacklevel_gb;
+ uint32_t mulval_gr;
+ uint32_t mulval_r;
+ uint32_t mulval_b;
+ uint32_t mulval_gb;
+ uint32_t dstmaxval;
+};
+
+/**
+ * struct hwd_viif_l1_lsc_parabola_ag_param - HWD L1ISP parabola shading analog gain parameters
+ * @lssc_paracoef_h_l_max: maximum gain for the left side of parabola coefficient
+ * @lssc_paracoef_h_l_min: minimum gain for the left side of parabola coefficient
+ * @lssc_paracoef_h_r_max: maximum gain for the right side of parabola coefficient
+ * @lssc_paracoef_h_r_min: minimum gain for the right side of parabola coefficient
+ * @lssc_paracoef_v_u_max: maximum gain for the upper side of parabola coefficient
+ * @lssc_paracoef_v_u_min: minimum gain for the upper side of parabola coefficient
+ * @lssc_paracoef_v_d_max: maximum gain for the lower side of parabola coefficient
+ * @lssc_paracoef_v_d_min: minimum gain for the lower side of parabola coefficient
+ * @lssc_paracoef_hv_lu_max: maximum gain for the upper left side of parabola coefficient
+ * @lssc_paracoef_hv_lu_min: minimum gain for the upper left side of parabola coefficient
+ * @lssc_paracoef_hv_ru_max: maximum gain for the upper right side of parabola coefficient
+ * @lssc_paracoef_hv_ru_min: minimum gain for the upper right side of parabola coefficient
+ * @lssc_paracoef_hv_ld_max: maximum gain for the lower left side of parabola coefficient
+ * @lssc_paracoef_hv_ld_min: minimum gain for the lower left side of parabola coefficient
+ * @lssc_paracoef_hv_rd_max: maximum gain for the lower right side of parabola coefficient
+ * @lssc_paracoef_hv_rd_min: minimum gain for the lower right side of parabola coefficient
+ *
+ * range and accuracy of each parameter is as below.
+ * * range: -4096 <= lssc_paracoef_* < 4096
+ * * accuracy: 1/256
+ */
+struct hwd_viif_l1_lsc_parabola_ag_param {
+ int16_t lssc_paracoef_h_l_max;
+ int16_t lssc_paracoef_h_l_min;
+ int16_t lssc_paracoef_h_r_max;
+ int16_t lssc_paracoef_h_r_min;
+ int16_t lssc_paracoef_v_u_max;
+ int16_t lssc_paracoef_v_u_min;
+ int16_t lssc_paracoef_v_d_max;
+ int16_t lssc_paracoef_v_d_min;
+ int16_t lssc_paracoef_hv_lu_max;
+ int16_t lssc_paracoef_hv_lu_min;
+ int16_t lssc_paracoef_hv_ru_max;
+ int16_t lssc_paracoef_hv_ru_min;
+ int16_t lssc_paracoef_hv_ld_max;
+ int16_t lssc_paracoef_hv_ld_min;
+ int16_t lssc_paracoef_hv_rd_max;
+ int16_t lssc_paracoef_hv_rd_min;
+};
+
+/**
+ * struct hwd_viif_l1_lsc_parabola_param - HWD L1ISP parabola shading parameters
+ * @lssc_para_h_center: horizontal position of optical axis center (0 <= lssc_para_h_center < "width of input image") [pixel]
+ * @lssc_para_v_center: vertical position of optical axis center (0 <= lssc_para_v_center < "height of input image") [line]
+ * @lssc_para_h_gain: gain for horizontal distance from optical axis (0 <= lssc_para_h_gain < 4096) accuracy: 1/256
+ * @lssc_para_v_gain: gain for vertical distance from optical axis (0 <= lssc_para_h_gain < 4096) accuracy: 1/256
+ * @lssc_para_mgsel2: gain ratio of coefficient of the 2nd degree parabola correction @ref hwd_VIIF_l1_lsc_grid_mag
+ * @lssc_para_mgsel4: gain ratio of coefficient of the 4th degree parabola correction @ref hwd_VIIF_l1_lsc_grid_mag
+ * @*r_2d: coefficient of the 2nd degree parabola correction for R
+ * @*r_4d: coefficient of the 4th degree parabola correction for R
+ * @*gr_2d: coefficient of the 2nd degree parabola correction for Gr
+ * @*gr_4d: coefficient of the 4th degree parabola correction for Gr
+ * @*gb_2d: coefficient of the 2nd degree parabola correction for Gb
+ * @*gb_4d: coefficient of the 4th degree parabola correction for Gb
+ * @*b_2d: coefficient of the 2nd degree parabola correction for B
+ * @*b_4d: coefficient of the 4th degree parabola correction for B
+ *
+ * EINVAL needs to be returned in below condition.
+ * * NULL is set to {r/gr/gb/b}_{2/4}d
+ */
+struct hwd_viif_l1_lsc_parabola_param {
+ uint32_t lssc_para_h_center;
+ uint32_t lssc_para_v_center;
+ uint32_t lssc_para_h_gain;
+ uint32_t lssc_para_v_gain;
+ uint32_t lssc_para_mgsel2;
+ uint32_t lssc_para_mgsel4;
+ struct hwd_viif_l1_lsc_parabola_ag_param *r_2d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *r_4d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *gr_2d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *gr_4d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *gb_2d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *gb_4d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *b_2d;
+ struct hwd_viif_l1_lsc_parabola_ag_param *b_4d;
+};
+
+/**
+ * @brief HWD L1ISP grid shading parameters
+ * @lssc_grid_h_size: horizontal grid size (32, 64, 128, 256 or 512) [pixel]
+ * @lssc_grid_v_size: vertical grid size (32, 64, 128, 256 or 512) [pixel]
+ * @lssc_grid_h_center: horizontal position of grid(1,1) [1..lssc_grid_h_size] [pixel]
+ * * "width of input image" <= lssc_grid_h_center + lssc_grid_h_size * 31 [pixel]
+ * @lssc_grid_v_center: vertical position of grid(1,1) [1..lssc_grid_v_size] [line]
+ * * "height of input image" <= lssc_grid_v_center + lssc_grid_v_size * 23 [line]
+ * @lssc_grid_mgsel: gain ratio of coefficient of grid correction @ref hwd_VIIF_l1_lsc_grid_mag
+ */
+struct hwd_viif_l1_lsc_grid_param {
+ uint32_t lssc_grid_h_size;
+ uint32_t lssc_grid_v_size;
+ uint32_t lssc_grid_h_center;
+ uint32_t lssc_grid_v_center;
+ uint32_t lssc_grid_mgsel;
+};
+
+/**
+ * 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 hwd_viif_l1_lsc_parabola_param *lssc_parabola_param;
+ struct hwd_viif_l1_lsc_grid_param *lssc_grid_param;
+ uint32_t lssc_pwhb_r_gain_max;
+ uint32_t lssc_pwhb_r_gain_min;
+ uint32_t lssc_pwhb_gr_gain_max;
+ uint32_t lssc_pwhb_gr_gain_min;
+ uint32_t lssc_pwhb_gb_gain_max;
+ uint32_t lssc_pwhb_gb_gain_min;
+ uint32_t lssc_pwhb_b_gain_max;
+ uint32_t lssc_pwhb_b_gain_min;
+};
+
+/**
+ * struct hwd_viif_l1_color_matrix_correction - HWD L1ISP color matrix correction parameters
+ * @coef_rmg_min: minimum gain of (R-G) [-32768..32767] accuracy: 1/4096
+ * @coef_rmg_max: maximum gain of (R-G) [-32768..32767] accuracy: 1/4096
+ * @coef_rmb_min: minimum gain of (R-B) [-32768..32767] accuracy: 1/4096
+ * @coef_rmb_max: maximum gain of (R-B) [-32768..32767] accuracy: 1/4096
+ * @coef_gmr_min: minimum gain of (G-R) [-32768..32767] accuracy: 1/4096
+ * @coef_gmr_max: maximum gain of (G-R) [-32768..32767] accuracy: 1/4096
+ * @coef_gmb_min: minimum gain of (G-B) [-32768..32767] accuracy: 1/4096
+ * @coef_gmb_max: maximum gain of (G-B) [-32768..32767] accuracy: 1/4096
+ * @coef_bmr_min: minimum gain of (B-R) [-32768..32767] accuracy: 1/4096
+ * @coef_bmr_max: maximum gain of (B-R) [-32768..32767] accuracy: 1/4096
+ * @coef_bmg_min: minimum gain of (B-G) [-32768..32767] accuracy: 1/4096
+ * @coef_bmg_max: maximum gain of (B-G) [-32768..32767] accuracy: 1/4096
+ * @dst_minval: the minimum output pixel [0x0..0xffff] [pixel]
+ */
+struct hwd_viif_l1_color_matrix_correction {
+ int16_t coef_rmg_min;
+ int16_t coef_rmg_max;
+ int16_t coef_rmb_min;
+ int16_t coef_rmb_max;
+ int16_t coef_gmr_min;
+ int16_t coef_gmr_max;
+ int16_t coef_gmb_min;
+ int16_t coef_gmb_max;
+ int16_t coef_bmr_min;
+ int16_t coef_bmr_max;
+ int16_t coef_bmg_min;
+ int16_t coef_bmg_max;
+ uint16_t dst_minval;
+};
+
+/**
+ * struct hwd_viif_l1_awb - HWD L1ISP auto white balance parameters
+ * @awhb_ygate_sel: enable/disable to use fixed Y value at RGB to YUV conversion @ref hwd_VIIF_enable_flag
+ * @awhb_ygate_data: Y value in case of awhb_ygate_sel = HWD_VIIF_ENABLE [64, 128, 256 or 512]
+ * @awhb_cgrange: magnification of output signal before auto white balance adjustment @ref hwd_VIIF_l1_awb_mag
+ * @awhb_ygatesw: enable/disable Y-gate @ref hwd_VIIF_enable_flag
+ * @awhb_hexsw: enable/disable Hexa-gate @ref hwd_VIIF_enable_flag
+ * @awhb_areamode: area mode for auto white balance @ref hwd_VIIF_l1_awb_area_mode
+ * @awhb_area_hsize: horizontal size of one block of central area [1..(width of input image - 8)/8] [pixel]
+ * @awhb_area_vsize: vertical size of one block of central area [1..(height of input image - 4)/8] [line]
+ * @awhb_area_hofs: horizontal offset of block[0] of central area [0..(width of input image - 9)] [pixel]
+ * @awhb_area_vofs: vertical offset of block[0] of central area [0..(height of input image - 5)] [line]
+ * @awhb_area_maskh: selection of target block(upper side). Corresponding bit means including(1) or not including(0).
+ * * The relation between each bit and block is as below.
+ * * [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: selection of target block(lower side). Corresponding bit means including(1) or not including(0).
+ * * The relation between each bit and block is as below.
+ * * [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[3]: enable/disable each square gate @ref hwd_VIIF_enable_flag
+ * @awhb_sq_pol[3]: enable/disable to add accumulated gate for each square gate @ref hwd_VIIF_enable_flag
+ * @awhb_bycut0p: upper U value of hexa-gate [0..127] [pixel]
+ * @awhb_bycut0n: lower U value of hexa-gate [0..127] [pixel]
+ * @awhb_rycut0p: upper V value of hexa-gate [0..127] [pixel]
+ * @awhb_rycut0n: lower V value of hexa-gate [0..127] [pixel]
+ * @awhb_rbcut0h: upper intercept on V axis of hexa-gate [-127..127] [pixel]
+ * @awhb_rbcut0l: lower intercept on V axis of hexa-gate [-127..127] [pixel]
+ * @awhb_bycut_h[3]: center value of each square gate in the U direction [-127..127]
+ * @awhb_bycut_l[3]: width of each square gate in the U direction [0..127]
+ * @awhb_rycut_h[3]: center value of each square gate in the V direction [-127..127]
+ * @awhb_rycut_l[3]: width of each square gate in the V direction [0..127]
+ * @awhb_awbsftu: offset of U gain [-127..127]
+ * @awhb_awbsftv: offset of V gain [-127..127]
+ * @awhb_awbhuecor: enable/disable to hold color correlation @ref hwd_VIIF_enable_flag
+ * @awhb_awbspd: UV convergence speed [0..15] [times] (0 means "stop")
+ * @awhb_awbulv: convergence level of U [0..31]
+ * @awhb_awbvlv: convergence level of V [0..31]
+ * @awhb_awbondot: threshold to stop accumulation [0..1023] [pixel]
+ * @awhb_awbfztim: condition to restart auto white balance @ref hwd_VIIF_l1_awb_restart_cond
+ * @awhb_wbgrmax: adjustment range of R gain(upper side) [0..255] accuracy: 1/64
+ * @awhb_wbgbmax: adjustment range of B gain(upper side) [0..255] accuracy: 1/64
+ * @awhb_wbgrmin: adjustment range of R gain(lower side) [0..255] accuracy: 1/64
+ * @awhb_wbgbmin: adjustment range of B gain(lower side) [0..255] accuracy: 1/64
+ * @awhb_ygateh: the maximum value of Y-gate [0..255] [pixel]
+ * @awhb_ygatel: the minimum value of Y-gate [0..255] [pixel]
+ * @awhb_awbwait: the number of frame to restart auto white balance after completion of UV convergence [0..255]
+ */
+struct hwd_viif_l1_awb {
+ uint32_t awhb_ygate_sel;
+ uint32_t awhb_ygate_data;
+ uint32_t awhb_cgrange;
+ uint32_t awhb_ygatesw;
+ uint32_t awhb_hexsw;
+ uint32_t awhb_areamode;
+ uint32_t awhb_area_hsize;
+ uint32_t awhb_area_vsize;
+ uint32_t awhb_area_hofs;
+ uint32_t awhb_area_vofs;
+ uint32_t awhb_area_maskh;
+ uint32_t awhb_area_maskl;
+ uint32_t awhb_sq_sw[3];
+ uint32_t awhb_sq_pol[3];
+ uint32_t awhb_bycut0p;
+ uint32_t awhb_bycut0n;
+ uint32_t awhb_rycut0p;
+ uint32_t awhb_rycut0n;
+ int32_t awhb_rbcut0h;
+ int32_t awhb_rbcut0l;
+ int32_t awhb_bycut_h[3];
+ uint32_t awhb_bycut_l[3];
+ int32_t awhb_rycut_h[3];
+ uint32_t awhb_rycut_l[3];
+ int32_t awhb_awbsftu;
+ int32_t awhb_awbsftv;
+ uint32_t awhb_awbhuecor;
+ uint32_t awhb_awbspd;
+ uint32_t awhb_awbulv;
+ uint32_t awhb_awbvlv;
+ uint32_t awhb_awbondot;
+ uint32_t awhb_awbfztim;
+ uint8_t awhb_wbgrmax;
+ uint8_t awhb_wbgbmax;
+ uint8_t awhb_wbgrmin;
+ uint8_t awhb_wbgbmin;
+ uint8_t awhb_ygateh;
+ uint8_t awhb_ygatel;
+ uint8_t awhb_awbwait;
+};
+
+/**
+ * struct hwd_viif_l1_hdrc - HWD L1ISP HDR compression parameters
+ * @hdrc_ratio: input image data width [10..24]
+ * @hdrc_pt_ratio: slope of Preset Tone curve [0..13]
+ * @hdrc_pt_blend: blend ratio of Preset Tone0 curve [0..256] accuracy: 1/256
+ * @hdrc_pt_blend2: blend ratio of Preset Tone2 curve [0..256] accuracy: 1/256
+ * @hdrc_tn_type: tone curve type @ref hwd_VIIF_l1_hdrc_tone_type
+ * @hdrc_utn_tbl[20]: User Tone curve value after HDRC [0x0..0xffff]
+ * @hdrc_flr_val: constant flare value [0x0..0xffffff]
+ * @hdrc_flr_adp: enable/disable adaptive constant flare @ref hwd_VIIF_enable_flag
+ * @hdrc_ybr_off: enable/disable bilateral luminance filter off @ref hwd_VIIF_enable_flag
+ * * HWD_VIIF_ENABLE: filter off
+ * * HWD_VIIF_DISABLE: filter on
+ * @hdrc_orgy_blend: blend setting for corrected luminance data after HDRC and original luminance data [0..16]
+ * * 0: corrected luminance data 100%
+ * * 8: corrected luminance data 50%
+ * * 16: corrected luminance data 0%
+ * @hdrc_pt_sat: saturation value for Preset Tone [0x0..0xffff]
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * - hdrc_pt_blend + hdrc_pt_blend2 > 256
+ */
+struct hwd_viif_l1_hdrc {
+ uint32_t hdrc_ratio;
+ uint32_t hdrc_pt_ratio;
+ uint32_t hdrc_pt_blend;
+ uint32_t hdrc_pt_blend2;
+ uint32_t hdrc_tn_type;
+ uint16_t hdrc_utn_tbl[20];
+ uint32_t hdrc_flr_val;
+ uint32_t hdrc_flr_adp;
+ uint32_t hdrc_ybr_off;
+ uint32_t hdrc_orgy_blend;
+ uint16_t hdrc_pt_sat;
+};
+
+/**
+ * struct hwd_viif_l1_hdrc_ltm - HWD L1ISP HDR compression local tone mapping parameters
+ * @tnp_max: the maximum tone blend ratio of LTM [0x0..0x3FFFFF] accuracy: 1/64
+ * * 0 means LTM off.
+ * @tnp_mag: strength adjustment of LTM [0x0..0x3FFF] accuracy: 1/64
+ * @tnp_fil[5]: coefficient of smoothing filter
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * * (coef1 + coef2 + coef3 + coef4) * 2 + coef0 != 1024
+ * * Here, [0]: coef0, [1]: coef1, [2]: coef2, [3]: coef3, [4]: coef4
+ */
+struct hwd_viif_l1_hdrc_ltm {
+ uint32_t tnp_max;
+ uint32_t tnp_mag;
+ uint8_t tnp_fil[5];
+};
+
+/**
+ * struct hwd_viif_l1_gamma - HWD L1ISP gamma correction parameters
+ * @gam_p[44]: luminance value after gamma correction [0..8191]
+ * @blkadj: adjustment black level after gamma correction [0..65535]
+ */
+struct hwd_viif_l1_gamma {
+ uint16_t gam_p[44];
+ uint16_t blkadj;
+};
+
+/**
+ * struct hwd_viif_l1_nonlinear_contrast - HWD L1ISP nonlinear contrast parameters
+ * @blk_knee: top luminance value in black area after nonlinear contrast adjustment [0x0..0xffff]
+ * @wht_knee: top luminance value in white area after nonlinear contrast adjustment [0x0..0xffff]
+ * @blk_cont[3]: slope in black area after nonlinear contrast adjustment [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[3]: slope in white area after nonlinear contrast adjustment [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 hwd_viif_l1_nonlinear_contrast {
+ uint16_t blk_knee; /**< top luminance value in black area after nonlinear contrast adjustment [0x0..0xffff] */
+ uint16_t wht_knee; /**< top luminance value in white area after nonlinear contrast adjustment [0x0..0xffff] */
+ uint8_t blk_cont[3];
+ uint8_t wht_cont[3];
+};
+
+/**
+ * struct hwd_viif_l1_lum_noise_reduction - HWD L1ISP luminance noise reduction parameters
+ * @gain_min: the minimum gain for extracted noise [0x0..0xffff] accuracy: 1/256
+ * @gain_max: the maximum gain for extracted noise [0x0..0xffff] accuracy: 1/256
+ * @lim_min: the minimum limit value for extracted noise [0x0..0xffff]
+ * @lim_max: the maximum limit value for extracted noise [0x0..0xffff]
+ *
+ * -EINVAL needs to be returned in the below conditions.
+ * * gain_min > gain_max
+ * * lim_min > lim_max
+ */
+struct hwd_viif_l1_lum_noise_reduction {
+ uint16_t gain_min;
+ uint16_t gain_max;
+ uint16_t lim_min;
+ uint16_t lim_max;
+};
+
+/**
+ * struct hwd_viif_l1_edge_enhancement - HWD L1ISP edge enhancement parameters
+ * @gain_min: the minimum gain for extracted edge [0x0..0xffff] accuracy: 1/256
+ * @gain_max: the maximum gain for extracted edge [0x0..0xffff] accuracy: 1/256
+ * @lim_min: the minimum limit value for extracted edge [0x0..0xffff]
+ * @lim_max: the maximum limit value for extracted edge [0x0..0xffff]
+ * @coring_min: the minimum coring threshold for extracted edge [0x0..0xffff]
+ * @coring_max: the maximum coring threshold for extracted edge [0x0..0xffff]
+ *
+ * -EINVAL needs to be returned in the below conditions.
+ * * gain_min > gain_max
+ * * lim_min > lim_max
+ * * coring_min > coring_max
+ */
+struct hwd_viif_l1_edge_enhancement {
+ uint16_t gain_min;
+ uint16_t gain_max;
+ uint16_t lim_min;
+ uint16_t lim_max;
+ uint16_t coring_min;
+ uint16_t coring_max;
+};
+
+/**
+ * struct hwd_viif_l1_uv_suppression - HWD L1ISP UV suppression parameters
+ * @bk_mp: slope of black [0x0..0x3fff] accuracy: 1/16384
+ * @black: the minimum black gain [0x0..0x3fff] accuracy: 1/16384
+ * @wh_mp: slope of white [0x0..0x3fff] accuracy: 1/16384
+ * @white: the minimum white gain [0x0..0x3fff] accuracy: 1/16384
+ * @bk_slv: intercept of black [0x0..0xffff]
+ * @wh_slv: intercept of white [0x0..0xffff]
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * * bk_slv >= wh_slv
+ */
+struct hwd_viif_l1_uv_suppression {
+ uint32_t bk_mp;
+ uint32_t black;
+ uint32_t wh_mp;
+ uint32_t white;
+ uint16_t bk_slv;
+ uint16_t wh_slv;
+};
+
+/**
+ * struct hwd_viif_l1_coring_suppression - HWD L1ISP coring suppression parameters
+ * @lv_min: the minimum coring threshold [0x0..0xffff]
+ * @lv_max: the maximum coring threshold [0x0..0xffff]
+ * @gain_min: the minimum gain [0x0..0xffff] accuracy: 1/65536
+ * @gain_max: the maximum gain [0x0..0xffff] accuracy: 1/65536
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * * lv_min > lv_max
+ * * gain_min > gain_max
+ */
+struct hwd_viif_l1_coring_suppression {
+ uint16_t lv_min;
+ uint16_t lv_max;
+ uint16_t gain_min;
+ uint16_t gain_max;
+};
+
+/**
+ * struct hwd_viif_l1_edge_suppression - HWD L1ISP edge suppression parameters
+ * @gain: gain [0x0..0xffff] accuracy: 1/256
+ * @lim: limit threshold [0..15]
+ */
+struct hwd_viif_l1_edge_suppression {
+ uint16_t gain;
+ uint32_t lim;
+};
+
+/**
+ * struct hwd_viif_l1_color_level - HWD L1ISP color level parameters
+ * @cb_gain: U gain
+ * @cr_gain: V gain
+ * @cbr_mgain_min: UV common gain
+ * @cbp_gain_max: U plus gain
+ * @cbm_gain_max: U minus gain
+ * @crp_gain_max: V plus gain
+ * @crm_gain_max: V minus gain
+ *
+ * Range and accuracy of each parameter are as below.
+ * * range: [0x0..0xfff]
+ * * accuracy: 1/2048
+ */
+struct hwd_viif_l1_color_level {
+ uint32_t cb_gain;
+ uint32_t cr_gain;
+ uint32_t cbr_mgain_min;
+ uint32_t cbp_gain_max;
+ uint32_t cbm_gain_max;
+ uint32_t crp_gain_max;
+ uint32_t crm_gain_max;
+};
+
+/**
+ * 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 {
+ uint16_t coef_cb;
+ uint16_t coef_cr;
+ int16_t brightness;
+ uint8_t linear_contrast;
+ struct hwd_viif_l1_nonlinear_contrast *nonlinear_contrast;
+ struct hwd_viif_l1_lum_noise_reduction *lum_noise_reduction;
+ struct hwd_viif_l1_edge_enhancement *edge_enhancement;
+ struct hwd_viif_l1_uv_suppression *uv_suppression;
+ struct hwd_viif_l1_coring_suppression *coring_suppression;
+ struct hwd_viif_l1_edge_suppression *edge_suppression;
+ struct hwd_viif_l1_color_level *color_level;
+ uint32_t color_noise_reduction_enable;
+};
+
+/**
+ * struct hwd_viif_l1_avg_lum_generation - HWD L1ISP average luminance generation parameters
+ * @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[8][8]: 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[4]: vertical position of the initial line for 4-lines average luminance [0.."height of input image - 4"] [line]
+ */
+struct hwd_viif_l1_avg_lum_generation {
+ uint32_t aexp_start_x;
+ uint32_t aexp_start_y;
+ uint32_t aexp_block_width;
+ uint32_t aexp_block_height;
+ uint32_t aexp_weight[8][8];
+ uint32_t aexp_satur_ratio;
+ uint32_t aexp_black_ratio;
+ uint32_t aexp_satur_level;
+ uint32_t aexp_ave4linesy[4];
+};
+
+/**
+ * struct hwd_viif_l1_histogram - HWD L1ISP histogram parameters
+ * @hist_bin_mode: bin mode @ref hwd_VIIF_l1_bin_mode
+ * @hist_block_v_ofst: vertical position of block[0] [0.."height of input image - 1"] [line]
+ * @hist_block_h_ofst: horizontal position of block[0] [0.."width of input image - 1"] [pixel]
+ * @hist_block_height: height of one block [1.."height of input image"] [line]
+ * @hist_block_width: width of one block [1.."width of input image"] [pixel]
+ * @hist_block_v_num: the number of block in the vertical direction [1..8]
+ * @hist_block_h_num: the number of block in the horizontal direction [1..8]
+ * @hist_block_v_step: vertical line spacing [0..15] [line]
+ * @hist_block_h_step: horizontal pixel spacing [0..15] [pixel]
+ * @hist_linear_sft: bin shift value in case of linear mode [0..31]
+ * @hist_mult_a_r: bin multiplier coefficient(MULT_A) for R [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_a_r: bin additional value(ADD_A) for R [-16777216..16777215] accuracy: 1/256
+ * @hist_mult_b_r: bin multiplier coefficient(MULT_B) for R [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_b_r: bin additional value(ADD_B) for R [-65536..65535] accuracy: 1/256
+ * @hist_mult_a_g: bin multiplier coefficient(MULT_A) for G [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_a_g: bin additional value(ADD_A) for G [-16777216..16777215] accuracy: 1/256
+ * @hist_mult_b_g: bin multiplier coefficient(MULT_B) for G [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_b_g: bin additional value(ADD_B) for G [-65536..65535] accuracy: 1/256
+ * @hist_mult_a_b: bin multiplier coefficient(MULT_A) for B [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_a_b: bin additional value(ADD_A) for B [-16777216..16777215] accuracy: 1/256
+ * @hist_mult_b_b: bin multiplier coefficient(MULT_B) for B [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_b_b: bin additional value(ADD_B) for B [-65536..65535] accuracy: 1/256
+ * @hist_mult_a_y: bin multiplier coefficient(MULT_A) for Y [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_a_y: bin additional value(ADD_A) for Y [-16777216..16777215] accuracy: 1/256
+ * @hist_mult_b_y: bin multiplier coefficient(MULT_B) for Y [0x0..0xFFFF] accuracy: 1/256
+ * @hist_add_b_y: bin additional value(ADD_B) for Y [-65536..65535] accuracy: 1/256
+ */
+struct hwd_viif_l1_histogram {
+ uint32_t hist_bin_mode;
+ uint32_t hist_block_v_ofst;
+ uint32_t hist_block_h_ofst;
+ uint32_t hist_block_height;
+ uint32_t hist_block_width;
+ uint32_t hist_block_v_num;
+ uint32_t hist_block_h_num;
+ uint32_t hist_block_v_step;
+ uint32_t hist_block_h_step;
+ uint32_t hist_linear_sft;
+ uint16_t hist_mult_a_r;
+ int32_t hist_add_a_r;
+ uint16_t hist_mult_b_r;
+ int32_t hist_add_b_r;
+ uint16_t hist_mult_a_g;
+ int32_t hist_add_a_g;
+ uint16_t hist_mult_b_g;
+ int32_t hist_add_b_g;
+ uint16_t hist_mult_a_b;
+ int32_t hist_add_a_b;
+ uint16_t hist_mult_b_b;
+ int32_t hist_add_b_b;
+ uint16_t hist_mult_a_y;
+ int32_t hist_add_a_y;
+ uint16_t hist_mult_b_y;
+ int32_t hist_add_b_y;
+};
+
+/**
+ * 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 {
+ uint32_t context_id;
+ uint8_t ag_cont_hobc_high;
+ uint8_t ag_cont_hobc_middle_led;
+ uint8_t ag_cont_hobc_low;
+ uint8_t ag_cont_abpc_high;
+ uint8_t ag_cont_abpc_middle_led;
+ uint8_t ag_cont_abpc_low;
+ uint8_t ag_cont_rcnr_high;
+ uint8_t ag_cont_rcnr_middle_led;
+ uint8_t ag_cont_rcnr_low;
+ uint8_t ag_cont_lssc;
+ uint8_t ag_cont_mpro;
+ uint8_t ag_cont_vpro;
+ uint32_t dpc_defect_num_h;
+ uint32_t dpc_defect_num_m;
+ uint32_t dpc_defect_num_l;
+ uint32_t hdrc_tnp_fb_smth_max;
+ uint32_t avg_lum_weight;
+ uint32_t avg_lum_block[8][8];
+ uint32_t avg_lum_four_line_lum[4];
+ uint16_t avg_satur_pixnum;
+ uint16_t avg_black_pixnum;
+ uint32_t awb_ave_u;
+ uint32_t awb_ave_v;
+ uint32_t awb_accumulated_pixel;
+ uint32_t awb_gain_r;
+ uint32_t awb_gain_g;
+ uint32_t awb_gain_b;
+ bool awb_status_u;
+ bool awb_status_v;
+};
+
+/**
+ * struct hwd_viif_l2_undist - HWD L2ISP undistortion correction parameters
+ * @through_mode: enable or disable through mode of undistortion @ref hwd_VIIF_enable_flag
+ * @roi_mode: undistortion mode @ref hwd_VIIF_l2_undist_mode, ROI0
+ * @sensor_crop_ofs_h: horizontal start position of sensor crop area [pixel]
+ * * Range and accuracy are as below
+ * * range: -4296 <= sensor_crop_ofs_h <= 4296
+ * * accuracy: 0.5
+ * @sensor_crop_ofs_v: vertical start position of sensor crop area [line]
+ * * Range and accuracy are as below
+ * * range: -2360 <= sensor_crop_ofs_h <= 2360
+ * * accuracy: 0.5
+ * @norm_scale: coefficient to normalize the distance from center [0..1677721] accuracy: 1/33554432
+ * @valid_r_norm2_poly: normalization parameter for polynomial correction [0x0..0x3FFFFFF] accuracy: 1/33554432
+ * @valid_r_norm2_grid: normalization parameter for grid table correction [0x0..0x3FFFFFF] accuracy: 1/33554432
+ * @roi_write_area_delta: parameter to adjust potential area of Write-pixel [0x0..0x7FF] accuracy: 1/1024.
+ * @poly_write_g_coef[11]: polynomial coefficients to calculate the position to write G pixel
+ * * Range and accuracy are as below.
+ * * range: [-2147352576..2147352576]
+ * * accuracy: 1/131072
+ * @poly_read_b_coef[11]: polynomial coefficients to calculate the position to read B pixel
+ * * Range and accuracy are as below.
+ * * range: [-2147352576..2147352576]
+ * * accuracy: 1/131072
+ * @poly_read_g_coef[11]: polynomial coefficients to calculate the position to read G pixel
+ * * Range and accuracy are as below.
+ * * range: [-2147352576..2147352576]
+ * * accuracy: 1/131072
+ * @poly_read_r_coef[11]: polynomial coefficients to calculate the position to read R pixel
+ * * Range and accuracy are as below.
+ * * range: [-2147352576..2147352576]
+ * * accuracy: 1/131072
+ * @grid_node_num_h: the number of horizontal grid [16..64]
+ * @grid_node_num_v: the number of vertical grid [16..64]
+ * @grid_patch_hsize_inv: inverse of grid width [0x0..0x7FFFFF] accuracy: 1/8388608
+ * @grid_patch_vsize_inv: inverse of grid height [0x0..0x7FFFFF] accuracy: 1/8388608
+ *
+ * -EINVAL needs to be returned in the below condition.
+ * * hactive_size + sensor_crop_ofs_h > 4095
+ * * vactive_size + sensor_crop_ofs_v > 2047
+ * * grid_node_num_h * grid_node_num_v <= 2048 when grid_node_num_h and grid_node_num_v are even
+ * * grid_node_num_h * (grid_node_num_v + 1) <= 2048 when grid_node_num_h is even and grid_node_num_v is odd
+ * * (grid_node_num_h + 1) * grid_node_num_v <= 2048 when grid_node_num_h is odd and grid_node_num_v is even
+ * * (grid_node_num_h + 1) * (grid_node_num_v + 1) <= 2048 when grid_node_num_h and grid_node_num_v are odd
+ *
+ * Regarding hactive_size and vactive_size, refer to struct hwd_viif_input_img
+ */
+struct hwd_viif_l2_undist {
+ uint32_t through_mode;
+ uint32_t roi_mode;
+ int32_t sensor_crop_ofs_h;
+ int32_t sensor_crop_ofs_v;
+ uint32_t norm_scale;
+ uint32_t valid_r_norm2_poly;
+ uint32_t valid_r_norm2_grid;
+ uint32_t roi_write_area_delta;
+ int32_t poly_write_g_coef[11];
+ int32_t poly_read_b_coef[11];
+ int32_t poly_read_g_coef[11];
+ int32_t poly_read_r_coef[11];
+ uint32_t grid_node_num_h;
+ uint32_t grid_node_num_v;
+ uint32_t grid_patch_hsize_inv;
+ uint32_t grid_patch_vsize_inv;
+};
+
+/**
+ * struct hwd_viif_l2_roi - HWD L2ISP ROI parameters
+ * @roi_scale: scale of each ROI [32768..131072] accuracy: 1/65536
+ * @roi_scale_inv: inverse of scale of each ROI [32768..131072] accuracy: 1/65536
+ * @corrected_wo_scale_hsize: ROI width after undistortion [128..8190]
+ * @corrected_wo_scale_vsize: ROI height after undistortion [128..4094]
+ * @corrected_hsize: ROI width after undistortion and scaling [128..8190]
+ * @corrected_vsize: ROI height after undistortion and scaling [128..4094]
+ *
+ * the relation between element and ROI is as below.
+ * * [0]: ROI0
+ * * [1]: ROI1
+ */
+struct hwd_viif_l2_roi {
+ uint32_t roi_scale;
+ uint32_t roi_scale_inv;
+ uint32_t corrected_wo_scale_hsize;
+ uint32_t corrected_wo_scale_vsize;
+ uint32_t corrected_hsize;
+ uint32_t corrected_vsize;
+};
+
+/**
+ * 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];
+};
+
+/**
+ * struct hwd_viif_l2_transfer_addr_info - HWD L2ISP image data output address
+ * @post0_paddr[3]: output address of POST0 which VIIF HW holds(physical address)
+ * @post1_paddr[3]: output address of POST1 which VIIF HW holds(physical address)
+ *
+ * relation between element and address is as below.
+ * * [0]: image data(G-planar/Y-planar/Packed)
+ * * [1]: image data(B-planar/U-planar)
+ * * [2]: image data(R-planar/V-planar)
+ */
+struct hwd_viif_l2_transfer_addr_info {
+ uint32_t post0_paddr[3];
+ uint32_t post1_paddr[3];
+};
+
+/* VIIF common */
+int32_t hwd_VIIF_initialize(uint32_t module_id, void *csi2host_vaddr, void *capture_vaddr);
+int32_t hwd_VIIF_uninitialize(uint32_t module_id);
+int32_t hwd_VIIF_force_stop(uint32_t module_id);
+int32_t hwd_VIIF_get_failure_status(uint32_t module_id, bool *is_vsync_failure_main,
+ bool *is_vsync_failure_sub, uint32_t *ecc_failure);
+uint32_t hwd_VIIF_csi2rx_err_irq_handler(uint32_t module_id);
+void hwd_VIIF_status_err_irq_handler(uint32_t module_id, uint32_t *event_main, uint32_t *event_sub);
+void hwd_VIIF_vsync_irq_handler(uint32_t module_id, uint32_t *event_main, uint32_t *event_sub);
+void hwd_VIIF_isp_regbuf_irq_handler(uint32_t module_id, uint32_t *event_l1, uint32_t *event_l2);
+
+/* control MAIN unit */
+int32_t hwd_VIIF_main_set_unit(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img, uint32_t color_type,
+ uint32_t rawpack, uint32_t yuv_conv);
+int32_t hwd_VIIF_main_set_emb_transmission(uint32_t module_id, uintptr_t buf);
+int32_t hwd_VIIF_main_set_long_packet_transmission(uint32_t module_id, uintptr_t buf);
+int32_t hwd_VIIF_main_mask_vlatch(uint32_t module_id, uint32_t enable);
+void hwd_VIIF_main_status_err_set_irq_mask(uint32_t module_id, const uint32_t *mask);
+void hwd_VIIF_main_vsync_set_irq_mask(uint32_t module_id, const uint32_t *mask);
+void hwd_VIIF_main_get_next_frame_info(uint32_t module_id, uint32_t *count0, uint32_t *count1,
+ uint32_t *count2, uint32_t *hist_paddr,
+ struct hwd_viif_main_transfer_addr_info *addr_info);
+void hwd_VIIF_main_get_previous_frame_info(uint32_t module_id, uint32_t *abort_r, uint32_t *abort_w,
+ struct hwd_viif_csi2rx_capture_info *packet_info);
+int32_t hwd_VIIF_main_set_unit_w_isp(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img, uint32_t color_type,
+ uint32_t rawpack, uint32_t yuv_conv);
+
+/* conrol SUB unit */
+int32_t hwd_VIIF_sub_set_unit(uint32_t module_id, uint32_t dt_image, uint32_t dt_long_packet,
+ const struct hwd_viif_input_img *in_img);
+int32_t hwd_VIIF_sub_set_img_transmission(uint32_t module_id, const struct hwd_viif_img *img);
+int32_t hwd_VIIF_sub_mask_vlatch(uint32_t module_id, uint32_t enable);
+void hwd_VIIF_sub_status_err_set_irq_mask(uint32_t module_id, const uint32_t *mask);
+void hwd_VIIF_sub_vsync_set_irq_mask(uint32_t module_id, const uint32_t *mask);
+void hwd_VIIF_sub_get_next_frame_info(uint32_t module_id, uint32_t *count0, uint32_t *count1,
+ uint32_t *img_paddr, uint32_t *emb_paddr,
+ uint32_t *long_packet_paddr);
+void hwd_VIIF_sub_get_previous_frame_info(uint32_t module_id, uint32_t *abort_w,
+ struct hwd_viif_csi2rx_capture_info *packet_info);
+
+/* control MIPI CSI2 Receiver unit */
+int32_t hwd_VIIF_csi2rx_initialize(uint32_t module_id, uint32_t num_lane, uint32_t lane_assign,
+ uint32_t dphy_rate, uint32_t rext_calibration,
+ const struct hwd_viif_csi2rx_line_err_target *err_target,
+ uint32_t input_mode,
+ const struct hwd_viif_csi2rx_irq_mask *mask);
+int32_t hwd_VIIF_csi2rx_uninitialize(uint32_t module_id);
+int32_t hwd_VIIF_csi2rx_start(uint32_t module_id, int32_t vc_main, int32_t vc_sub,
+ const struct hwd_viif_csi2rx_packet *packet, uint32_t voif_through);
+int32_t hwd_VIIF_csi2rx_stop(uint32_t module_id);
+int32_t hwd_VIIF_csi2rx_get_dphy_status(uint32_t module_id, uint32_t *ulps, uint32_t *stop);
+int32_t hwd_VIIF_csi2rx_get_calibration_status(
+ uint32_t module_id, struct hwd_viif_csi2rx_dphy_calibration_status *calibration_status);
+int32_t hwd_VIIF_csi2rx_get_err_status(uint32_t module_id, uint32_t *err_phy_fatal,
+ uint32_t *err_pkt_fatal, uint32_t *err_frame_fatal,
+ uint32_t *err_phy, uint32_t *err_pkt, uint32_t *err_line);
+
+/* control L1 Image Signal Processor */
+void hwd_VIIF_isp_set_regbuf_auto_transmission(uint32_t module_id, uint32_t regbuf_id_read,
+ uint32_t regbuf_id_write, uint32_t context_id);
+void hwd_VIIF_isp_disable_regbuf_auto_transmission(uint32_t module_id);
+void hwd_VIIF_isp_get_info(uint32_t module_id, uint32_t regbuf_id, uint32_t *regbuf_id_info,
+ struct hwd_viif_l1_info *l1_info,
+ struct hwd_viif_l2_transfer_addr_info *l2_addr_info,
+ uint32_t *l2_transfer_status,
+ struct hwd_viif_isp_regbuf_status *l1_regbuf_status,
+ struct hwd_viif_isp_regbuf_status *l2_regbuf_status);
+void hwd_VIIF_isp_set_regbuf_irq_mask(uint32_t module_id, const uint32_t *mask_l1,
+ const uint32_t *mask_l2);
+void hwd_VIIF_isp_disable_isst(uint32_t module_id);
+
+int32_t hwd_VIIF_l1_set_input_mode(uint32_t module_id, uint32_t mode, uint32_t depth,
+ uint32_t raw_color_filter,
+ const struct hwd_viif_l1_raw_input_order *interpolation_order);
+int32_t hwd_VIIF_l1_set_rgb_to_y_coef(uint32_t module_id, uint32_t regbuf_id, uint16_t coef_r,
+ uint16_t coef_g, uint16_t coef_b);
+int32_t hwd_VIIF_l1_set_ag_mode(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_ag_mode *param);
+int32_t hwd_VIIF_l1_set_ag(uint32_t module_id, uint32_t regbuf_id, uint16_t gain_h, uint16_t gain_m,
+ uint16_t gain_l);
+int32_t hwd_VIIF_l1_set_hdre(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdre *param);
+int32_t hwd_VIIF_l1_set_img_extraction(uint32_t module_id, uint32_t regbuf_id,
+ uint32_t input_black_gr, uint32_t input_black_r,
+ uint32_t input_black_b, uint32_t input_black_gb);
+int32_t hwd_VIIF_l1_set_dpc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_dpc *param_h,
+ const struct hwd_viif_l1_dpc *param_m,
+ const struct hwd_viif_l1_dpc *param_l);
+int32_t hwd_VIIF_l1_set_dpc_table_transmission(uint32_t module_id, uintptr_t table_h,
+ uintptr_t table_m, uintptr_t table_l);
+int32_t
+hwd_VIIF_l1_set_preset_white_balance(uint32_t module_id, uint32_t regbuf_id, uint32_t dstmaxval,
+ const struct hwd_viif_l1_preset_white_balance *param_h,
+ const struct hwd_viif_l1_preset_white_balance *param_m,
+ const struct hwd_viif_l1_preset_white_balance *param_l);
+int32_t hwd_VIIF_l1_set_raw_color_noise_reduction(
+ uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_h,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_m,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_l);
+int32_t hwd_VIIF_l1_set_hdrs(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrs *param);
+int32_t
+hwd_VIIF_l1_set_black_level_correction(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_black_level_correction *param);
+int32_t hwd_VIIF_l1_set_lsc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_lsc *param);
+int32_t hwd_VIIF_l1_set_lsc_table_transmission(uint32_t module_id, uintptr_t table_gr,
+ uintptr_t table_r, uintptr_t table_b,
+ uintptr_t table_gb);
+int32_t hwd_VIIF_l1_set_main_process(uint32_t module_id, uint32_t regbuf_id, uint32_t demosaic_mode,
+ uint32_t damp_lsbsel,
+ const struct hwd_viif_l1_color_matrix_correction *color_matrix,
+ uint32_t dst_maxval);
+int32_t hwd_VIIF_l1_set_awb(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_awb *param, uint32_t awhb_wbmrg,
+ uint32_t awhb_wbmgg, uint32_t awhb_wbmbg);
+int32_t hwd_VIIF_l1_lock_awb_gain(uint32_t module_id, uint32_t regbuf_id, uint32_t enable);
+int32_t hwd_VIIF_l1_set_hdrc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrc *param, uint32_t hdrc_thr_sft_amt);
+int32_t hwd_VIIF_l1_set_hdrc_ltm(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrc_ltm *param);
+int32_t hwd_VIIF_l1_set_gamma(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_gamma *param);
+int32_t
+hwd_VIIF_l1_set_img_quality_adjustment(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_img_quality_adjustment *param);
+int32_t hwd_VIIF_l1_set_avg_lum_generation(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_avg_lum_generation *param);
+int32_t hwd_VIIF_l1_set_histogram(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_histogram *param);
+int32_t hwd_VIIF_l1_set_histogram_transmission(uint32_t module_id, uintptr_t buf,
+ uint32_t block_v_num);
+void hwd_VIIF_l1_set_irq_mask(uint32_t module_id, const uint32_t *mask);
+
+/* control L2 Image Signal Processor */
+int32_t hwd_VIIF_l2_set_input_path(uint32_t module_id, bool is_other_ch);
+int32_t hwd_VIIF_l2_set_input_csc(uint32_t module_id, const struct hwd_viif_csc_param *param,
+ bool is_l1_rgb);
+int32_t hwd_VIIF_l2_set_undist(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l2_undist *param);
+int32_t hwd_VIIF_l2_set_undist_table_transmission(uint32_t module_id, uintptr_t write_g,
+ uintptr_t read_b, uintptr_t read_g,
+ uintptr_t read_r, uint32_t size);
+int32_t hwd_VIIF_l2_set_roi(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l2_roi *param);
+int32_t hwd_VIIF_l2_set_gamma(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ uint32_t enable, uint32_t vsplit, uint32_t mode);
+int32_t hwd_VIIF_l2_set_gamma_table_transmission(uint32_t module_id, uint32_t post_id,
+ const struct hwd_viif_l2_gamma_table *gamma_table);
+int32_t hwd_VIIF_l2_set_output_csc(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ const struct hwd_viif_csc_param *param);
+int32_t hwd_VIIF_l2_set_img_transmission(uint32_t module_id, uint32_t post_id, uint32_t regbuf_id,
+ uint32_t 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(uint32_t module_id, const uint32_t *mask);
+
+struct hwd_viif_res *viif_id2res(uint32_t 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..c95665ee9
--- /dev/null
+++ b/drivers/media/platform/visconti/hwd_viif_csi2rx.c
@@ -0,0 +1,767 @@
+// 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(uint32_t test_mode, uint8_t 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((uint32_t)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 uint8_t hwd_VIIF_csi2rx_read_dphy_param(uint32_t test_mode, struct hwd_viif_res *res)
+{
+ uint32_t 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 (uint8_t)(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(uint32_t dphy_rate, uint32_t *hsfreqrange,
+ uint32_t *osc_freq_target,
+ struct hwd_viif_res *res)
+{
+ int i;
+ int table_size = sizeof(dphy_hs_info) / sizeof(dphy_hs_info[0]);
+
+ 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(uint32_t dphy_rate, struct hwd_viif_res *res)
+{
+ uint32_t 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, (uint8_t)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 uint32_t hwd_VIIF_csi2rx_check_dphy_calibration_status(uint32_t test_mode,
+ uint32_t shift_val_err,
+ uint32_t shift_val_done,
+ struct hwd_viif_res *res)
+{
+ uint32_t read_data;
+ uint32_t ret = HWD_VIIF_CSI2_CAL_NOT_DONE;
+
+ read_data = (uint32_t)hwd_VIIF_csi2rx_read_dphy_param(test_mode, res);
+
+ if (read_data & BIT(shift_val_done)) {
+ ret = HWD_VIIF_CSI2_CAL_SUCCESS;
+
+ /* error check is not required for termination calibration with REXT(0x221) */
+ if (test_mode == DIG_RD_RX_TERM_CAL_1)
+ return ret;
+
+ /* done with error */
+ if (read_data & BIT(shift_val_err))
+ ret = HWD_VIIF_CSI2_CAL_FAIL;
+ }
+
+ return ret;
+}
+
+/**
+ * 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
+ */
+int32_t hwd_VIIF_csi2rx_initialize(uint32_t module_id, uint32_t num_lane, uint32_t lane_assign,
+ uint32_t dphy_rate, uint32_t rext_calibration,
+ const struct hwd_viif_csi2rx_line_err_target *err_target,
+ uint32_t input_mode, const struct hwd_viif_csi2rx_irq_mask *mask)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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)
+ return -EINVAL;
+
+ if (dphy_rate > HWD_VIIF_DPHY_MAX_DATA_RATE)
+ return -EINVAL;
+
+ if ((rext_calibration != HWD_VIIF_ENABLE) && (rext_calibration != HWD_VIIF_DISABLE))
+ return -EINVAL;
+
+ if (input_mode > HWD_VIIF_CSI2_INPUT_OTHER)
+ return -EINVAL;
+
+ if ((res->ch != 1U) && (input_mode != HWD_VIIF_CSI2_INPUT_OWN))
+ return -EINVAL;
+
+ if (err_target == NULL)
+ return -EINVAL;
+
+ for (i = 0; i < 8U; i++) {
+ if (err_target->vc[i] > HWD_VIIF_CSI2_MAX_VC)
+ return -EINVAL;
+
+ if (err_target->dt[i] > HWD_VIIF_CSI2_MAX_DT)
+ return -EINVAL;
+
+ if ((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
+ */
+int32_t hwd_VIIF_csi2rx_uninitialize(uint32_t module_id)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if (res->other_csi2_flag == false) {
+ /* 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
+ */
+int32_t hwd_VIIF_csi2rx_start(uint32_t module_id, int32_t vc_main, int32_t vc_sub,
+ const struct hwd_viif_csi2rx_packet *packet, uint32_t voif_through)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val, i, pitch, height, dt, start_addr, end_addr;
+ uint32_t enable_vc0 = HWD_VIIF_DISABLE, 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((uint32_t)vc_main, &(res->capture_reg->sys.VCID0SELECT));
+ enable_vc0 = HWD_VIIF_ENABLE;
+ }
+ if (vc_sub != HWD_VIIF_CSI2_NOT_CAPTURE) {
+ writel((uint32_t)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
+ */
+int32_t hwd_VIIF_csi2rx_stop(uint32_t module_id)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t status_r, status_w, status_t, l2_status;
+ uint64_t timeout_ns, cur_ns;
+ bool run_flag = true;
+ int32_t 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 == true);
+
+ if (ret == 0) {
+ /* Clear run flag of MAIN unit */
+ res->run_flag_main = false;
+ }
+
+ return ret;
+}
+
+/**
+ * hwd_VIIF_csi2rx_get_dphy_status() - Get CSI-2 RX D-PHY status
+ *
+ * @ulps: Pointer to ULPS information
+ * @stop: Pointer to STOP status information
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 Operation completes successfully
+ * Return: -EINVAL Parameter error
+ * - [1] "ulps" or "stop" is NULL
+ */
+int32_t hwd_VIIF_csi2rx_get_dphy_status(uint32_t module_id, uint32_t *ulps, uint32_t *stop)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if (ulps == NULL)
+ return -EINVAL;
+
+ if (stop == NULL)
+ return -EINVAL;
+
+ *ulps = readl(&res->csi2host_reg->CSI2RX_PHY_RX);
+ *stop = readl(&res->csi2host_reg->CSI2RX_PHY_STOPSTATE);
+
+ return 0;
+}
+
+/**
+ * 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
+ */
+int32_t hwd_VIIF_csi2rx_get_calibration_status(
+ uint32_t module_id, struct hwd_viif_csi2rx_dphy_calibration_status *calibration_status)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if (calibration_status == NULL)
+ 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
+ * - [1] "err_phy_fatal", "err_pkt_fatal", "err_frame_fatal", "err_phy", "err_pkt" or "err_line" is NULL
+ */
+int32_t hwd_VIIF_csi2rx_get_err_status(uint32_t module_id, uint32_t *err_phy_fatal,
+ uint32_t *err_pkt_fatal, uint32_t *err_frame_fatal,
+ uint32_t *err_phy, uint32_t *err_pkt, uint32_t *err_line)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if ((err_phy_fatal == NULL) || (err_pkt_fatal == NULL) || (err_frame_fatal == NULL) ||
+ (err_phy == NULL) || (err_pkt == NULL) || (err_line == NULL)) {
+ 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..567af65f8
--- /dev/null
+++ b/drivers/media/platform/visconti/hwd_viif_internal.h
@@ -0,0 +1,361 @@
+/* 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_REGBUF_NUM (4U)
+#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 (4096U)
+#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 (0x108CU)
+#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 {
+ uint32_t roi_num;
+ bool post_enable_flag[HWD_VIIF_MAX_POST_NUM];
+ uint32_t post_crop_x[HWD_VIIF_MAX_POST_NUM];
+ uint32_t post_crop_y[HWD_VIIF_MAX_POST_NUM];
+ uint32_t post_crop_w[HWD_VIIF_MAX_POST_NUM];
+ uint32_t 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
+ * @interpolation_mode: input image interpolation mode @ref hwd_VIIF_l1_input_interpolation_mode
+ * @input_num: the number of input images [1..3]
+ * @hobc_size: sum of hobc_width and hobc_margin
+ * @rawpack: RAW pack mode. For more refer @ref hwd_VIIF_raw_pack_mode
+ * @color_type: Color type of MAIN unit
+ * @l2_input: Input path of L2ISP
+ * @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 uint32_t ch;
+ const uint32_t csi2rx_type;
+ const uint32_t sram_size_w_port;
+ const uint32_t sram_size_r_port;
+ const uint32_t sram_start_addr_gamma;
+ uint32_t pixel_clock;
+ uint32_t htotal_size;
+ uint32_t interpolation_mode;
+ uint32_t input_num;
+ uint32_t hobc_size;
+ uint32_t rawpack;
+ uint32_t color_type;
+ uint32_t l2_input;
+ uint32_t 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[HWD_VIIF_ISP_MAX_REGBUF_NUM];
+ 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 {
+ uint32_t rate;
+ uint32_t hsfreqrange;
+ uint32_t 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..495133720
--- /dev/null
+++ b/drivers/media/platform/visconti/hwd_viif_l1isp.c
@@ -0,0 +1,3769 @@
+// 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'.
+ */
+int32_t hwd_VIIF_l1_set_input_mode(uint32_t module_id, uint32_t mode, uint32_t depth,
+ uint32_t raw_color_filter,
+ const struct hwd_viif_l1_raw_input_order *interpolation_order)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val, input_num, depth_max;
+
+ if (mode >= HWD_VIIF_L1_INPUT_MODE_NUM)
+ return -EINVAL;
+
+ if (mode == HWD_VIIF_L1_INPUT_SDR) {
+ depth_max = HWD_VIIF_L1_INPUT_DEPTH_SDR_MAX;
+ } else 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))
+ return -EINVAL;
+
+ if ((depth % 2U) != 0U)
+ return -EINVAL;
+
+ if (raw_color_filter >= HWD_VIIF_L1_RAW_MODE_NUM)
+ return -EINVAL;
+
+ if ((mode != HWD_VIIF_L1_INPUT_SDR) && (interpolation_order != NULL))
+ return -EINVAL;
+
+ if (mode == HWD_VIIF_L1_INPUT_SDR) {
+ if (interpolation_order == NULL)
+ return -EINVAL;
+
+ /* check the range of high sensitivity and order of other images (middle, low) */
+ input_num = readl(&res->capture_reg->l1isp.L1_IBUF_INPUT_ORDER) & 0x3U;
+ if (interpolation_order->input_order_high > input_num) {
+ return -EINVAL;
+ } else if (interpolation_order->input_order_high ==
+ interpolation_order->input_order_middle) {
+ return -EINVAL;
+ } else if (interpolation_order->input_order_high ==
+ interpolation_order->input_order_low) {
+ return -EINVAL;
+ }
+
+ /* check the range of middle sensitivity and order of other image (low) */
+ if (interpolation_order->input_order_middle > input_num) {
+ return -EINVAL;
+ } else if (interpolation_order->input_order_middle ==
+ interpolation_order->input_order_low) {
+ return -EINVAL;
+ }
+
+ /* check the range of low sensitivity */
+ if (interpolation_order->input_order_low > input_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));
+ if (mode == HWD_VIIF_L1_INPUT_SDR) {
+ val = readl(&res->capture_reg->l1isp.L1_IBUF_INPUT_ORDER) & 0xffff81ffU;
+ val |= (interpolation_order->input_order_high << 13U) |
+ (interpolation_order->input_order_middle << 11U) |
+ (interpolation_order->input_order_low << 9U);
+ writel(val, &(res->capture_reg->l1isp.L1_IBUF_INPUT_ORDER));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_rgb_to_y_coef() - Configure L1ISP RGB coefficients to calculate Y.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_rgb_to_y_coef(uint32_t module_id, uint32_t regbuf_id, uint16_t coef_r,
+ uint16_t coef_g, uint16_t 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)) {
+ return -EINVAL;
+ }
+ if ((coef_g < HWD_VIIF_L1_COEF_MIN) || (coef_g > HWD_VIIF_L1_COEF_MAX)) {
+ return -EINVAL;
+ }
+ if ((coef_b < HWD_VIIF_L1_COEF_MIN) || (coef_b > HWD_VIIF_L1_COEF_MAX)) {
+ return -EINVAL;
+ }
+
+ writel((uint32_t)coef_r, &(res->capture_reg->l1isp.L1_SYSM_YCOEF_R));
+ writel((uint32_t)coef_g, &(res->capture_reg->l1isp.L1_SYSM_YCOEF_G));
+ writel((uint32_t)coef_b, &(res->capture_reg->l1isp.L1_SYSM_YCOEF_B));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_ag_mode() - Configure L1ISP AG mode.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_ag_mode(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_ag_mode *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ uint32_t val;
+
+ if (param == NULL)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_hobc_high >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_hobc_middle_led >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_hobc_low >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_abpc_high >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_abpc_middle_led >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_abpc_low >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_rcnr_high >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_rcnr_middle_led >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_rcnr_low >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_ssel_lssc >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_lssc >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_ssel_mpro >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_mpro >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_ssel_vpro >= HWD_VIIF_L1_SENSITIVITY_IMAGE_NUM)
+ return -EINVAL;
+
+ if (param->sysm_ag_psel_vpro >= HWD_VIIF_L1_AG_ID_NUM)
+ return -EINVAL;
+
+ if ((param->sysm_ag_cont_hobc_en_high != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_hobc_en_high != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->sysm_ag_cont_hobc_en_middle_led != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_hobc_en_middle_led != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->sysm_ag_cont_hobc_en_low != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_hobc_en_low != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_rcnr_en_high != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_rcnr_en_high != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->sysm_ag_cont_rcnr_en_middle_led != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_rcnr_en_middle_led != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->sysm_ag_cont_rcnr_en_low != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_rcnr_en_low != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_lssc_en != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_lssc_en != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_mpro_en != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_mpro_en != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_vpro_en != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_vpro_en != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_abpc_en_middle_led != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_abpc_en_middle_led != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->sysm_ag_cont_abpc_en_high != HWD_VIIF_ENABLE) &&
+ (param->sysm_ag_cont_abpc_en_high != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((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 = ((uint32_t)param->sysm_ag_grad[0] << 16U) | ((uint32_t)param->sysm_ag_ofst[0]);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_PARAM_A));
+ val = ((uint32_t)param->sysm_ag_grad[1] << 16U) | ((uint32_t)param->sysm_ag_ofst[1]);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_PARAM_B));
+ val = ((uint32_t)param->sysm_ag_grad[2] << 16U) | ((uint32_t)param->sysm_ag_ofst[2]);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_PARAM_C));
+ val = ((uint32_t)param->sysm_ag_grad[3] << 16U) | ((uint32_t)param->sysm_ag_ofst[3]);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_PARAM_D));
+
+ /* SYSM_AG_SEL */
+ val = ((uint32_t)param->sysm_ag_psel_hobc_high << 6U) |
+ ((uint32_t)param->sysm_ag_psel_hobc_middle_led << 4U) |
+ ((uint32_t)param->sysm_ag_psel_hobc_low << 2U);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_SEL_HOBC));
+
+ val = ((uint32_t)param->sysm_ag_psel_abpc_high << 6U) |
+ ((uint32_t)param->sysm_ag_psel_abpc_middle_led << 4U) |
+ ((uint32_t)param->sysm_ag_psel_abpc_low << 2U);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_SEL_ABPC));
+
+ val = ((uint32_t)param->sysm_ag_psel_rcnr_high << 6U) |
+ ((uint32_t)param->sysm_ag_psel_rcnr_middle_led << 4U) |
+ ((uint32_t)param->sysm_ag_psel_rcnr_low << 2U);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_SEL_RCNR));
+
+ val = ((uint32_t)param->sysm_ag_ssel_lssc << 2U) | ((uint32_t)param->sysm_ag_psel_lssc);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_SEL_LSSC));
+
+ val = ((uint32_t)param->sysm_ag_ssel_mpro << 2U) | ((uint32_t)param->sysm_ag_psel_mpro);
+ writel(val, &(res->capture_reg->l1isp.L1_SYSM_AG_SEL_MPRO));
+
+ val = ((uint32_t)param->sysm_ag_ssel_vpro << 2U) | ((uint32_t)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) |
+ ((uint32_t)(param->sysm_ag_cont_hobc_test_middle_led) << 16U) |
+ (param->sysm_ag_cont_hobc_en_high << 8U) |
+ (uint32_t)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) | (uint32_t)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) |
+ ((uint32_t)(param->sysm_ag_cont_abpc_test_middle_led) << 16U) |
+ (param->sysm_ag_cont_abpc_en_high << 8U) |
+ (uint32_t)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) | (uint32_t)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) |
+ ((uint32_t)(param->sysm_ag_cont_rcnr_test_middle_led) << 16U) |
+ (param->sysm_ag_cont_rcnr_en_high << 8U) |
+ (uint32_t)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) | (uint32_t)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) | (uint32_t)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) | (uint32_t)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) | (uint32_t)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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_ag(uint32_t module_id, uint32_t regbuf_id, uint16_t gain_h, uint16_t gain_m,
+ uint16_t gain_l)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ writel((uint32_t)gain_h, &(res->capture_reg->l1isp.L1_SYSM_AG_H));
+ writel((uint32_t)gain_m, &(res->capture_reg->l1isp.L1_SYSM_AG_M));
+ writel((uint32_t)gain_l, &(res->capture_reg->l1isp.L1_SYSM_AG_L));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_hdre() - Configure L1ISP HDR extension parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_hdre(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdre *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t idx;
+
+ if (param == NULL)
+ 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) {
+ return -EINVAL;
+ }
+ if (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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_img_extraction(uint32_t module_id, uint32_t regbuf_id,
+ uint32_t input_black_gr, uint32_t input_black_r,
+ uint32_t input_black_b, uint32_t 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)
+ return -EINVAL;
+
+ if (input_black_r > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL)
+ return -EINVAL;
+
+ if (input_black_b > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL)
+ return -EINVAL;
+
+ if (input_black_gb > HWD_VIIF_L1_IMG_EXTRACT_MAX_BLACK_LEVEL_VAL)
+ return -EINVAL;
+
+ writel(input_black_gr, &(res->capture_reg->l1isp.L1_SLIC_SrcBlackLevelGr));
+ writel(input_black_r, &(res->capture_reg->l1isp.L1_SLIC_SrcBlackLevelR));
+ writel(input_black_b, &(res->capture_reg->l1isp.L1_SLIC_SrcBlackLevelB));
+ writel(input_black_gb, &(res->capture_reg->l1isp.L1_SLIC_SrcBlackLevelGb));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_dpc() - Configure L1ISP defect pixel correction parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_dpc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_dpc *param_h,
+ const struct hwd_viif_l1_dpc *param_m,
+ const struct hwd_viif_l1_dpc *param_l)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ const struct hwd_viif_l1_dpc *param;
+ uint32_t idx;
+ uint32_t val;
+
+ if ((param_h == NULL) && (param_m == NULL) && (param_l == NULL))
+ 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 != NULL) {
+ if ((param->abpc_sta_en != HWD_VIIF_ENABLE) &&
+ (param->abpc_sta_en != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->abpc_dyn_en != HWD_VIIF_ENABLE) &&
+ (param->abpc_dyn_en != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if (param->abpc_dyn_en == HWD_VIIF_ENABLE) {
+ if ((param->abpc_dyn_mode != HWD_VIIF_L1_DPC_1PIXEL) &&
+ (param->abpc_dyn_mode != HWD_VIIF_L1_DPC_2PIXEL)) {
+ return -EINVAL;
+ }
+ if (param->abpc_ratio_limit > HWD_VIIF_L1_DPC_MAX_RATIO_LIMIT_VAL) {
+ return -EINVAL;
+ }
+ if (param->abpc_dark_limit > HWD_VIIF_L1_DPC_MAX_RATIO_LIMIT_VAL) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if ((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)) {
+ return -EINVAL;
+ }
+ if (param->abpc_sn_coef_w_th_min >= param->abpc_sn_coef_w_th_max) {
+ return -EINVAL;
+ }
+ if (param->abpc_sn_coef_b_th_min >= param->abpc_sn_coef_b_th_max) {
+ return -EINVAL;
+ }
+ }
+ }
+ }
+
+ val = 0;
+ if (param_h != NULL)
+ val |= param_h->abpc_sta_en << 24U;
+
+ if (param_m != NULL)
+ val |= param_m->abpc_sta_en << 16U;
+
+ if (param_l != NULL)
+ val |= param_l->abpc_sta_en << 8U;
+
+ writel(val, &(res->capture_reg->l1isp.L1_ABPC012_STA_EN));
+
+ val = 0;
+ if (param_h != NULL)
+ val |= param_h->abpc_dyn_en << 24U;
+
+ if (param_m != NULL)
+ val |= param_m->abpc_dyn_en << 16U;
+
+ if (param_l != NULL)
+ val |= param_l->abpc_dyn_en << 8U;
+
+ writel(val, &(res->capture_reg->l1isp.L1_ABPC012_DYN_EN));
+
+ val = 0;
+ if (param_h != NULL)
+ val |= param_h->abpc_dyn_mode << 24U;
+
+ if (param_m != NULL)
+ val |= param_m->abpc_dyn_mode << 16U;
+
+ if (param_l != NULL)
+ val |= param_l->abpc_dyn_mode << 8U;
+
+ writel(val, &(res->capture_reg->l1isp.L1_ABPC012_DYN_MODE));
+
+ if (param_h != NULL) {
+ 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((uint32_t)param_h->abpc_sn_coef_w_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_TH_MIN));
+ writel((uint32_t)param_h->abpc_sn_coef_w_th_max,
+ &(res->capture_reg->l1isp.L1_ABPC0_SN_COEF_W_TH_MAX));
+ writel((uint32_t)param_h->abpc_sn_coef_b_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_TH_MIN));
+ writel((uint32_t)param_h->abpc_sn_coef_b_th_max,
+ &(res->capture_reg->l1isp.L1_ABPC0_SN_COEF_B_TH_MAX));
+ }
+
+ if (param_m != NULL) {
+ 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((uint32_t)param_m->abpc_sn_coef_w_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_TH_MIN));
+ writel((uint32_t)param_m->abpc_sn_coef_w_th_max,
+ &(res->capture_reg->l1isp.L1_ABPC1_SN_COEF_W_TH_MAX));
+ writel((uint32_t)param_m->abpc_sn_coef_b_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_TH_MIN));
+ writel((uint32_t)param_m->abpc_sn_coef_b_th_max,
+ &(res->capture_reg->l1isp.L1_ABPC1_SN_COEF_B_TH_MAX));
+ }
+
+ if (param_l != NULL) {
+ 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((uint32_t)param_l->abpc_sn_coef_w_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_TH_MIN));
+ writel((uint32_t)param_l->abpc_sn_coef_w_th_max,
+ &(res->capture_reg->l1isp.L1_ABPC2_SN_COEF_W_TH_MAX));
+ writel((uint32_t)param_l->abpc_sn_coef_b_th_min,
+ &(res->capture_reg->l1isp.L1_ABPC2_SN_COEF_B_TH_MIN));
+ writel((uint32_t)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.
+ */
+int32_t hwd_VIIF_l1_set_dpc_table_transmission(uint32_t module_id, uintptr_t table_h,
+ uintptr_t table_m, uintptr_t table_l)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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((uint32_t)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((uint32_t)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((uint32_t)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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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.
+ */
+int32_t hwd_VIIF_l1_set_preset_white_balance(uint32_t module_id, uint32_t regbuf_id,
+ uint32_t dstmaxval,
+ const struct hwd_viif_l1_preset_white_balance *param_h,
+ const struct hwd_viif_l1_preset_white_balance *param_m,
+ const struct hwd_viif_l1_preset_white_balance *param_l)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if (dstmaxval > HWD_VIIF_L1_PWHB_MAX_OUT_PIXEL_VAL)
+ return -EINVAL;
+
+ if ((param_h == NULL) && (param_m == NULL) && (param_l == NULL))
+ return -EINVAL;
+
+ if (param_h != NULL) {
+ if (param_h->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_h->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_h->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_h->gain_gb >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+ }
+
+ if (param_m != NULL) {
+ if (param_m->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_m->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_m->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_m->gain_gb >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+ }
+
+ if (param_l != NULL) {
+ if (param_l->gain_gr >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_l->gain_r >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param_l->gain_b >= HWD_VIIF_L1_PWHB_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (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 != NULL) {
+ writel(param_h->gain_gr, &(res->capture_reg->l1isp.L1_PWHB_HGr));
+ 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_HGb));
+ }
+
+ if (param_m != NULL) {
+ writel(param_m->gain_gr, &(res->capture_reg->l1isp.L1_PWHB_MGr));
+ 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_MGb));
+ }
+
+ if (param_l != NULL) {
+ writel(param_l->gain_gr, &(res->capture_reg->l1isp.L1_PWHB_LGr));
+ 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_LGb));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_raw_color_noise_reduction() - Configure L1ISP raw color noise reduction parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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.
+ */
+int32_t hwd_VIIF_l1_set_raw_color_noise_reduction(
+ uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_h,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_m,
+ const struct hwd_viif_l1_raw_color_noise_reduction *param_l)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ int32_t ret = 0;
+ const struct hwd_viif_l1_raw_color_noise_reduction *param;
+ uint32_t idx;
+
+ if ((param_h == NULL) && (param_m == NULL) && (param_l == NULL))
+ 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 != NULL) {
+ 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) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_dark_ag1 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_dark_ag2 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_cnf_ratio_ag0 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_ratio_ag1 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_ratio_ag2 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_cnf_clip_gain_r >
+ HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_clip_gain_g >
+ HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_cnf_clip_gain_b >
+ HWD_VIIF_L1_RCNR_MAX_ADJUSTMENT_GAIN_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_a1l_dark_ag0 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_a1l_dark_ag1 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_a1l_dark_ag2 > HWD_VIIF_L1_RCNR_MAX_DARK_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_a1l_ratio_ag0 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_a1l_ratio_ag1 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_a1l_ratio_ag2 >
+ HWD_VIIF_L1_RCNR_MAX_LUMA_LINKAGE_ADJUSTMENT_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_inf_zero_clip > HWD_VIIF_L1_RCNR_MAX_ZERO_CLIP_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_merge_d2blend_ag0 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_merge_d2blend_ag1 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_merge_d2blend_ag2 > HWD_VIIF_L1_RCNR_MAX_BLEND_VAL) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_merge_black > HWD_VIIF_L1_RCNR_MAX_BLACK_LEVEL_VAL) {
+ return -EINVAL;
+ }
+
+ if ((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:
+ ret = -EINVAL;
+ break;
+ }
+
+ if (ret != 0)
+ return ret;
+
+ 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) {
+ return -EINVAL;
+ }
+
+ if (param->rcnr_merge_hlblend_ag0 >
+ HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_merge_hlblend_ag1 >
+ HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL) {
+ return -EINVAL;
+ }
+ if (param->rcnr_merge_hlblend_ag2 >
+ HWD_VIIF_L1_RCNR_MAX_GEN_LUMA_SIG_BLEND_VAL) {
+ return -EINVAL;
+ }
+
+ if ((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 != NULL) {
+ 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 != NULL) {
+ 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 != NULL) {
+ 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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_hdrs(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrs *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+
+ if (param == NULL)
+ return -EINVAL;
+
+ if ((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)) {
+ return -EINVAL;
+ }
+
+ if ((param->hdrs_hdr_ratio_m < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO) ||
+ (param->hdrs_hdr_ratio_m > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO)) {
+ return -EINVAL;
+ }
+ if ((param->hdrs_hdr_ratio_l < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO) ||
+ (param->hdrs_hdr_ratio_l > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO)) {
+ return -EINVAL;
+ }
+ if ((param->hdrs_hdr_ratio_e < HWD_VIIF_L1_HDRS_MIN_BLEND_RATIO) ||
+ (param->hdrs_hdr_ratio_e > HWD_VIIF_L1_HDRS_MAX_BLEND_RATIO)) {
+ return -EINVAL;
+ }
+
+ if (param->hdrs_dg_h >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_dg_m >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_dg_l >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_dg_e >= HWD_VIIF_L1_HDRS_MAX_DIGITAL_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendend_h > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendend_m > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendend_e > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendbeg_h > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendbeg_m > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if (param->hdrs_blendbeg_e > HWD_VIIF_L1_HDRS_MAX_BLEND_PIX_VAL)
+ return -EINVAL;
+
+ if ((param->hdrs_led_mode_on != HWD_VIIF_ENABLE) &&
+ (param->hdrs_led_mode_on != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if (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_HdrRatioM));
+ writel(param->hdrs_hdr_ratio_l, &(res->capture_reg->l1isp.L1_HDRS_HdrRatioL));
+ writel(param->hdrs_hdr_ratio_e, &(res->capture_reg->l1isp.L1_HDRS_HdrRatioE));
+
+ writel(param->hdrs_dg_h, &(res->capture_reg->l1isp.L1_HDRS_DgH));
+ writel(param->hdrs_dg_m, &(res->capture_reg->l1isp.L1_HDRS_DgM));
+ writel(param->hdrs_dg_l, &(res->capture_reg->l1isp.L1_HDRS_DgL));
+ writel(param->hdrs_dg_e, &(res->capture_reg->l1isp.L1_HDRS_DgE));
+
+ writel(param->hdrs_blendend_h, &(res->capture_reg->l1isp.L1_HDRS_BlendEndH));
+ writel(param->hdrs_blendend_m, &(res->capture_reg->l1isp.L1_HDRS_BlendEndM));
+ writel(param->hdrs_blendend_e, &(res->capture_reg->l1isp.L1_HDRS_BlendEndE));
+
+ writel(param->hdrs_blendbeg_h, &(res->capture_reg->l1isp.L1_HDRS_BlendBegH));
+ writel(param->hdrs_blendbeg_m, &(res->capture_reg->l1isp.L1_HDRS_BlendBegM));
+ writel(param->hdrs_blendbeg_e, &(res->capture_reg->l1isp.L1_HDRS_BlendBegE));
+
+ writel(param->hdrs_led_mode_on, &(res->capture_reg->l1isp.L1_HDRS_LedModeOn));
+ 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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t
+hwd_VIIF_l1_set_black_level_correction(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_black_level_correction *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ if (param == NULL)
+ return -EINVAL;
+
+ if (param->srcblacklevel_gr > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL)
+ return -EINVAL;
+
+ if (param->srcblacklevel_r > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL)
+ return -EINVAL;
+
+ if (param->srcblacklevel_b > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL)
+ return -EINVAL;
+
+ if (param->srcblacklevel_gb > HWD_VIIF_L1_BLACK_LEVEL_MAX_VAL)
+ return -EINVAL;
+
+ if (param->mulval_gr >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->mulval_r >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->mulval_b >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->mulval_gb >= HWD_VIIF_L1_BLACK_LEVEL_MAX_GAIN_VAL)
+ return -EINVAL;
+
+ if (param->dstmaxval > HWD_VIIF_L1_BLACK_LEVEL_MAX_DST_VAL)
+ return -EINVAL;
+
+ writel(param->srcblacklevel_gr, &(res->capture_reg->l1isp.L1_BLVC_SrcBlackLevelGr));
+ writel(param->srcblacklevel_r, &(res->capture_reg->l1isp.L1_BLVC_SrcBlackLevelR));
+ writel(param->srcblacklevel_b, &(res->capture_reg->l1isp.L1_BLVC_SrcBlackLevelB));
+ writel(param->srcblacklevel_gb, &(res->capture_reg->l1isp.L1_BLVC_SrcBlackLevelGb));
+
+ writel(param->mulval_gr, &(res->capture_reg->l1isp.L1_BLVC_MultValGr));
+ writel(param->mulval_r, &(res->capture_reg->l1isp.L1_BLVC_MultValR));
+ writel(param->mulval_b, &(res->capture_reg->l1isp.L1_BLVC_MultValB));
+ writel(param->mulval_gb, &(res->capture_reg->l1isp.L1_BLVC_MultValGb));
+
+ writel(param->dstmaxval, &(res->capture_reg->l1isp.L1_BLVC_DstMaxval));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_lsc() - Configure L1ISP lens shading correction parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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"
+ */
+int32_t hwd_VIIF_l1_set_lsc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_lsc *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ int32_t ret = 0;
+ uint32_t idx;
+ const struct hwd_viif_l1_lsc_parabola_ag_param *ag_param;
+ uint32_t val;
+ uint32_t tmp;
+ uint32_t sysm_width, sysm_height;
+ uint32_t grid_h_size = 0U;
+ uint32_t grid_v_size = 0U;
+
+ if (param != NULL) {
+ 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 != NULL) {
+ if (param->lssc_parabola_param->lssc_para_h_center >= sysm_width) {
+ return -EINVAL;
+ }
+
+ if (param->lssc_parabola_param->lssc_para_v_center >= sysm_height) {
+ return -EINVAL;
+ }
+
+ if (param->lssc_parabola_param->lssc_para_h_gain >= HWD_VIIF_LSC_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (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:
+ ret = -EINVAL;
+ break;
+ }
+
+ if (ret != 0)
+ return ret;
+
+ 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:
+ ret = -EINVAL;
+ break;
+ }
+
+ if (ret != 0)
+ return ret;
+
+ for (idx = 0U; idx < 8U; idx++) {
+ switch (idx) {
+ case 0U:
+ ag_param = param->lssc_parabola_param->r_2d;
+ break;
+ case 1U:
+ ag_param = param->lssc_parabola_param->r_4d;
+ break;
+ case 2U:
+ ag_param = param->lssc_parabola_param->gr_2d;
+ break;
+ case 3U:
+ ag_param = param->lssc_parabola_param->gr_4d;
+ break;
+ case 4U:
+ ag_param = param->lssc_parabola_param->gb_2d;
+ break;
+ case 5U:
+ ag_param = param->lssc_parabola_param->gb_4d;
+ break;
+ case 6U:
+ ag_param = param->lssc_parabola_param->b_2d;
+ break;
+ default:
+ ag_param = param->lssc_parabola_param->b_4d;
+ break;
+ }
+
+ if (ag_param == NULL)
+ return -EINVAL;
+
+ if ((ag_param->lssc_paracoef_h_l_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_h_l_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_h_l_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_h_l_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_h_l_min >
+ ag_param->lssc_paracoef_h_l_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_h_r_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_h_r_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_h_r_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_h_r_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_h_r_min >
+ ag_param->lssc_paracoef_h_r_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_v_u_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_v_u_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_v_u_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_v_u_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_v_u_min >
+ ag_param->lssc_paracoef_v_u_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_v_d_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_v_d_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_v_d_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_v_d_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_v_d_min >
+ ag_param->lssc_paracoef_v_d_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_hv_lu_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_lu_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_hv_lu_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_lu_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_hv_lu_min >
+ ag_param->lssc_paracoef_hv_lu_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_hv_ru_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_ru_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_hv_ru_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_ru_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_hv_ru_min >
+ ag_param->lssc_paracoef_hv_ru_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_hv_ld_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_ld_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_hv_ld_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_ld_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_hv_ld_min >
+ ag_param->lssc_paracoef_hv_ld_max) {
+ return -EINVAL;
+ }
+
+ if ((ag_param->lssc_paracoef_hv_rd_max < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_rd_max >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((ag_param->lssc_paracoef_hv_rd_min < HWD_VIIF_LSC_MIN_GAIN) ||
+ (ag_param->lssc_paracoef_hv_rd_min >= HWD_VIIF_LSC_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if (ag_param->lssc_paracoef_hv_rd_min >
+ ag_param->lssc_paracoef_hv_rd_max) {
+ return -EINVAL;
+ }
+ }
+ }
+
+ if (param->lssc_grid_param != NULL) {
+ 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) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_r_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_r_gain_min > param->lssc_pwhb_r_gain_max)
+ return -EINVAL;
+
+ if (param->lssc_pwhb_gr_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_gr_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_gr_gain_min > param->lssc_pwhb_gr_gain_max) {
+ return -EINVAL;
+ }
+
+ if (param->lssc_pwhb_gb_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_gb_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_gb_gain_min > param->lssc_pwhb_gb_gain_max) {
+ return -EINVAL;
+ }
+
+ if (param->lssc_pwhb_b_gain_max >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_b_gain_min >= HWD_VIIF_LSC_PWB_MAX_COEF_VAL) {
+ return -EINVAL;
+ }
+ if (param->lssc_pwhb_b_gain_min > param->lssc_pwhb_b_gain_max)
+ return -EINVAL;
+ }
+
+ if (param != NULL) {
+ /* parabola shading */
+ if (param->lssc_parabola_param != NULL) {
+ 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 */
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_2d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_2d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_2D_HV_RD));
+
+ /* R 4D */
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->r_4d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->r_4d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_R_COEF_4D_HV_RD));
+
+ /* GR 2D */
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_2d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_2d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_2d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_2d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_2d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_2D_HV_RD));
+
+ /* GR 4D */
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_4d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_4d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_4d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gr_4d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gr_4d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GR_COEF_4D_HV_RD));
+
+ /* GB 2D */
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_2d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_2d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_2d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_2d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_2d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_2D_HV_RD));
+
+ /* GB 4D */
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_4d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_4d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_4d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->gb_4d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(
+ param->lssc_parabola_param->gb_4d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_GB_COEF_4D_HV_RD));
+
+ /* B 2D */
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_2d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_2d->lssc_paracoef_hv_rd_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_2D_HV_RD));
+
+ /* B 4D */
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_h_l_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_h_l_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_H_L));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_h_r_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_h_r_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_H_R));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_v_u_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_v_u_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_V_U));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_v_d_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_v_d_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_V_D));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_hv_lu_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_hv_lu_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_LU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_hv_ru_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_hv_ru_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_RU));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_hv_ld_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->b_4d->lssc_paracoef_hv_ld_min &
+ 0x1fffU);
+ writel(val, &(res->capture_reg->l1isp.L1_LSSC_PARA_B_COEF_4D_HV_LD));
+
+ tmp = (uint32_t)param->lssc_parabola_param->b_4d->lssc_paracoef_hv_rd_max &
+ 0x1fffU;
+ val = (tmp << 16U) |
+ (uint32_t)(param->lssc_parabola_param->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 != NULL) {
+ 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));
+ } else {
+ writel(HWD_VIIF_DISABLE, &(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.
+ */
+int32_t hwd_VIIF_l1_set_lsc_table_transmission(uint32_t 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);
+ uint32_t 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((uint32_t)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((uint32_t)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((uint32_t)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((uint32_t)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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_main_process(uint32_t module_id, uint32_t regbuf_id, uint32_t demosaic_mode,
+ uint32_t damp_lsbsel,
+ const struct hwd_viif_l1_color_matrix_correction *color_matrix,
+ uint32_t dst_maxval)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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 != NULL) {
+ if (color_matrix->coef_rmg_min > color_matrix->coef_rmg_max)
+ return -EINVAL;
+
+ if (color_matrix->coef_rmb_min > color_matrix->coef_rmb_max)
+ return -EINVAL;
+
+ if (color_matrix->coef_gmr_min > color_matrix->coef_gmr_max)
+ return -EINVAL;
+
+ if (color_matrix->coef_gmb_min > color_matrix->coef_gmb_max)
+ return -EINVAL;
+
+ if (color_matrix->coef_bmr_min > color_matrix->coef_bmr_max)
+ return -EINVAL;
+
+ if (color_matrix->coef_bmg_min > color_matrix->coef_bmg_max)
+ return -EINVAL;
+
+ if ((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_MPRO_SW));
+
+ val = (uint32_t)color_matrix->coef_rmg_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_RMG_MIN));
+
+ val = (uint32_t)color_matrix->coef_rmg_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_RMG_MAX));
+
+ val = (uint32_t)color_matrix->coef_rmb_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_RMB_MIN));
+
+ val = (uint32_t)color_matrix->coef_rmb_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_RMB_MAX));
+
+ val = (uint32_t)color_matrix->coef_gmr_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_GMR_MIN));
+
+ val = (uint32_t)color_matrix->coef_gmr_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_GMR_MAX));
+
+ val = (uint32_t)color_matrix->coef_gmb_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_GMB_MIN));
+
+ val = (uint32_t)color_matrix->coef_gmb_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_GMB_MAX));
+
+ val = (uint32_t)color_matrix->coef_bmr_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_BMR_MIN));
+
+ val = (uint32_t)color_matrix->coef_bmr_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_BMR_MAX));
+
+ val = (uint32_t)color_matrix->coef_bmg_min & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_BMG_MIN));
+
+ val = (uint32_t)color_matrix->coef_bmg_max & 0xffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_MPRO_LM0_BMG_MAX));
+
+ writel((uint32_t)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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_awb(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_awb *param, uint32_t awhb_wbmrg,
+ uint32_t awhb_wbmgg, uint32_t awhb_wbmbg)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ int32_t ret = 0;
+ uint32_t val, ygate_data;
+
+ if ((awhb_wbmrg < HWD_VIIF_AWB_MIN_GAIN) || (awhb_wbmrg >= HWD_VIIF_AWB_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((awhb_wbmgg < HWD_VIIF_AWB_MIN_GAIN) || (awhb_wbmgg >= HWD_VIIF_AWB_MAX_GAIN)) {
+ return -EINVAL;
+ }
+ if ((awhb_wbmbg < HWD_VIIF_AWB_MIN_GAIN) || (awhb_wbmbg >= HWD_VIIF_AWB_MAX_GAIN)) {
+ return -EINVAL;
+ }
+
+ if (param != NULL) {
+ 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))) {
+ return -EINVAL;
+ }
+
+ if (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))) {
+ return -EINVAL;
+ }
+
+ if (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)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_sq_sw[1] != HWD_VIIF_ENABLE) &&
+ (param->awhb_sq_sw[1] != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_sq_sw[2] != HWD_VIIF_ENABLE) &&
+ (param->awhb_sq_sw[2] != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->awhb_sq_pol[0] != HWD_VIIF_ENABLE) &&
+ (param->awhb_sq_pol[0] != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_sq_pol[1] != HWD_VIIF_ENABLE) &&
+ (param->awhb_sq_pol[1] != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+ if ((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)
+ return -EINVAL;
+
+ if (param->awhb_bycut0n > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_rycut0p > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_rycut0n > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if ((param->awhb_rbcut0h < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_rbcut0h > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_rbcut0l < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_rbcut0l > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+
+ if ((param->awhb_bycut_h[0] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_bycut_h[0] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_bycut_h[1] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_bycut_h[1] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_bycut_h[2] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_bycut_h[2] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+
+ if (param->awhb_bycut_l[0] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_bycut_l[1] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_bycut_l[2] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if ((param->awhb_rycut_h[0] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_rycut_h[0] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_rycut_h[1] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_rycut_h[1] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_rycut_h[2] < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_rycut_h[2] > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+
+ if (param->awhb_rycut_l[0] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_rycut_l[1] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if (param->awhb_rycut_l[2] > HWD_VIIF_AWB_UNSIGNED_GATE_UPPER)
+ return -EINVAL;
+
+ if ((param->awhb_awbsftu < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_awbsftu > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+ if ((param->awhb_awbsftv < HWD_VIIF_AWB_GATE_LOWER) ||
+ (param->awhb_awbsftv > HWD_VIIF_AWB_GATE_UPPER)) {
+ return -EINVAL;
+ }
+
+ if ((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) {
+ return -EINVAL;
+ }
+
+ if (param->awhb_awbulv > HWD_VIIF_AWB_MAX_UV_CONVERGENCE_LEVEL) {
+ return -EINVAL;
+ }
+
+ if (param->awhb_awbvlv > HWD_VIIF_AWB_MAX_UV_CONVERGENCE_LEVEL) {
+ return -EINVAL;
+ }
+
+ if (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:
+ ret = -EINVAL;
+ break;
+ }
+
+ if (ret != 0)
+ return ret;
+ }
+
+ 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 != NULL) {
+ 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((uint32_t)param->awhb_ygateh, &(res->capture_reg->l1isp.L1_AWHB_YGATEH));
+ writel((uint32_t)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 = (uint32_t)param->awhb_rbcut0h & 0xffU;
+ writel(val, &(res->capture_reg->l1isp.L1_AWHB_RBCUT0H));
+ val = (uint32_t)param->awhb_rbcut0l & 0xffU;
+ writel(val, &(res->capture_reg->l1isp.L1_AWHB_RBCUT0L));
+
+ val = (uint32_t)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 = (uint32_t)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 = (uint32_t)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 = (uint32_t)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 = (uint32_t)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 = (uint32_t)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 = (uint32_t)param->awhb_awbsftu & 0xffU;
+ writel(val, &(res->capture_reg->l1isp.L1_AWHB_AWBSFTU));
+ val = (uint32_t)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((uint32_t)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((uint32_t)param->awhb_wbgrmax, &(res->capture_reg->l1isp.L1_AWHB_WBGRMAX));
+ writel((uint32_t)param->awhb_wbgbmax, &(res->capture_reg->l1isp.L1_AWHB_WBGBMAX));
+ writel((uint32_t)param->awhb_wbgrmin, &(res->capture_reg->l1isp.L1_AWHB_WBGRMIN));
+ writel((uint32_t)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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_lock_awb_gain(uint32_t module_id, uint32_t regbuf_id, uint32_t enable)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t 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.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_hdrc(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrc *param, uint32_t hdrc_thr_sft_amt)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val, sw_delay1;
+
+ if (param != NULL) {
+ if (hdrc_thr_sft_amt != 0U)
+ return -EINVAL;
+
+ if ((param->hdrc_ratio < HWD_VIIF_L1_HDRC_MIN_INPUT_DATA_WIDTH) ||
+ (param->hdrc_ratio > HWD_VIIF_L1_HDRC_MAX_INPUT_DATA_WIDTH)) {
+ return -EINVAL;
+ }
+
+ if (param->hdrc_pt_ratio > HWD_VIIF_L1_HDRC_MAX_PT_SLOPE)
+ return -EINVAL;
+
+ if (param->hdrc_pt_blend > HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO)
+ return -EINVAL;
+
+ if (param->hdrc_pt_blend2 > HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO)
+ return -EINVAL;
+
+ if ((param->hdrc_pt_blend + param->hdrc_pt_blend2) >
+ HWD_VIIF_L1_HDRC_MAX_BLEND_RATIO) {
+ return -EINVAL;
+ }
+
+ if ((param->hdrc_tn_type != HWD_VIIF_L1_HDRC_TONE_USER) &&
+ (param->hdrc_tn_type != HWD_VIIF_L1_HDRC_TONE_PRESET)) {
+ return -EINVAL;
+ }
+
+ if (param->hdrc_flr_val > HWD_VIIF_L1_HDRC_MAX_FLARE_VAL)
+ return -EINVAL;
+
+ if ((param->hdrc_flr_adp != HWD_VIIF_ENABLE) &&
+ (param->hdrc_flr_adp != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if ((param->hdrc_ybr_off != HWD_VIIF_ENABLE) &&
+ (param->hdrc_ybr_off != HWD_VIIF_DISABLE)) {
+ return -EINVAL;
+ }
+
+ if (param->hdrc_orgy_blend > HWD_VIIF_L1_HDRC_MAX_BLEND_LUMA)
+ return -EINVAL;
+
+ } else {
+ if (hdrc_thr_sft_amt > HWD_VIIF_L1_HDRC_MAX_THROUGH_SHIFT_VAL)
+ return -EINVAL;
+ }
+
+ if (param != NULL) {
+ 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 == false) {
+ sw_delay1 = (uint32_t)((HWD_VIIF_REGBUF_ACCESS_TIME *
+ (uint64_t)res->pixel_clock) /
+ ((uint64_t)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));
+ }
+ } else {
+ 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;
+}
+
+/**
+ * hwd_VIIF_l1_set_hdrc_ltm() - Configure L1ISP HDR compression local tone mapping parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_hdrc_ltm(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_hdrc_ltm *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+ uint32_t idx;
+
+ if (param == NULL)
+ return -EINVAL;
+
+ if (param->tnp_max >= HWD_VIIF_L1_HDRC_MAX_LTM_TONE_BLEND_RATIO)
+ return -EINVAL;
+
+ if (param->tnp_mag >= HWD_VIIF_L1_HDRC_MAX_LTM_MAGNIFICATION)
+ return -EINVAL;
+
+ val = (uint32_t)param->tnp_fil[0];
+ for (idx = 1; idx < 5U; idx++)
+ val += (uint32_t)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((uint32_t)param->tnp_fil[0], &(res->capture_reg->l1isp.L1_HDRC_TNP_FIL0));
+ writel((uint32_t)param->tnp_fil[1], &(res->capture_reg->l1isp.L1_HDRC_TNP_FIL1));
+ writel((uint32_t)param->tnp_fil[2], &(res->capture_reg->l1isp.L1_HDRC_TNP_FIL2));
+ writel((uint32_t)param->tnp_fil[3], &(res->capture_reg->l1isp.L1_HDRC_TNP_FIL3));
+ writel((uint32_t)param->tnp_fil[4], &(res->capture_reg->l1isp.L1_HDRC_TNP_FIL4));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_gamma() - Configure L1ISP gamma correction parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_gamma(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_gamma *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t idx;
+
+ if (param != NULL) {
+ for (idx = 0; idx < 44U; idx++) {
+ if (param->gam_p[idx] > HWD_VIIF_L1_GAMMA_MAX_VAL)
+ return -EINVAL;
+ }
+ }
+
+ if (param != NULL) {
+ 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));
+ } else {
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->l1isp.L1_VPRO_PGC_SW));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_img_quality_adjustment() - Configure L1ISP image quality adjustment.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t
+hwd_VIIF_l1_set_img_quality_adjustment(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_img_quality_adjustment *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ if (param != NULL) {
+ if (param->lum_noise_reduction != NULL) {
+ if (param->lum_noise_reduction->gain_min >
+ param->lum_noise_reduction->gain_max) {
+ return -EINVAL;
+ }
+ if (param->lum_noise_reduction->lim_min >
+ param->lum_noise_reduction->lim_max) {
+ return -EINVAL;
+ }
+ }
+
+ if (param->edge_enhancement != NULL) {
+ if (param->edge_enhancement->gain_min > param->edge_enhancement->gain_max) {
+ return -EINVAL;
+ }
+ if (param->edge_enhancement->lim_min > param->edge_enhancement->lim_max) {
+ return -EINVAL;
+ }
+ if (param->edge_enhancement->coring_min >
+ param->edge_enhancement->coring_max) {
+ return -EINVAL;
+ }
+ }
+
+ if (param->uv_suppression != NULL) {
+ if (param->uv_suppression->bk_mp >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL) {
+ return -EINVAL;
+ }
+ if (param->uv_suppression->black >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL) {
+ return -EINVAL;
+ }
+ if (param->uv_suppression->wh_mp >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL) {
+ return -EINVAL;
+ }
+ if (param->uv_suppression->white >= HWD_VIIF_L1_SUPPRESSION_MAX_VAL) {
+ return -EINVAL;
+ }
+ if (param->uv_suppression->bk_slv >= param->uv_suppression->wh_slv) {
+ return -EINVAL;
+ }
+ }
+
+ if (param->coring_suppression != NULL) {
+ if (param->coring_suppression->gain_min >
+ param->coring_suppression->gain_max) {
+ return -EINVAL;
+ }
+ if (param->coring_suppression->lv_min > param->coring_suppression->lv_max) {
+ return -EINVAL;
+ }
+ }
+
+ if (param->edge_suppression != NULL) {
+ if (param->edge_suppression->lim > HWD_VIIF_L1_EDGE_SUPPRESSION_MAX_LIMIT) {
+ return -EINVAL;
+ }
+ }
+
+ if (param->color_level != NULL) {
+ if (param->color_level->cb_gain >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (param->color_level->cr_gain >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (param->color_level->cbr_mgain_min >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (param->color_level->cbp_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (param->color_level->cbm_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (param->color_level->crp_gain_max >= HWD_VIIF_L1_COLOR_LEVEL_MAX_GAIN) {
+ return -EINVAL;
+ }
+ if (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((uint32_t)param->coef_cb, &(res->capture_reg->l1isp.L1_VPRO_Cb_MAT));
+ writel((uint32_t)param->coef_cr, &(res->capture_reg->l1isp.L1_VPRO_Cr_MAT));
+
+ /* brightness */
+ val = (uint32_t)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 ((uint32_t)param->linear_contrast != 128U) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_LCNT_SW));
+ writel((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_NLCNT_SW));
+ writel((uint32_t)param->nonlinear_contrast->blk_knee,
+ &(res->capture_reg->l1isp.L1_VPRO_BLK_KNEE));
+ writel((uint32_t)param->nonlinear_contrast->wht_knee,
+ &(res->capture_reg->l1isp.L1_VPRO_WHT_KNEE));
+
+ writel((uint32_t)param->nonlinear_contrast->blk_cont[0],
+ &(res->capture_reg->l1isp.L1_VPRO_BLK_CONT0));
+ writel((uint32_t)param->nonlinear_contrast->blk_cont[1],
+ &(res->capture_reg->l1isp.L1_VPRO_BLK_CONT1));
+ writel((uint32_t)param->nonlinear_contrast->blk_cont[2],
+ &(res->capture_reg->l1isp.L1_VPRO_BLK_CONT2));
+
+ writel((uint32_t)param->nonlinear_contrast->wht_cont[0],
+ &(res->capture_reg->l1isp.L1_VPRO_WHT_CONT0));
+ writel((uint32_t)param->nonlinear_contrast->wht_cont[1],
+ &(res->capture_reg->l1isp.L1_VPRO_WHT_CONT1));
+ writel((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_YNR_SW));
+ writel((uint32_t)param->lum_noise_reduction->gain_min,
+ &(res->capture_reg->l1isp.L1_VPRO_YNR_GAIN_MIN));
+ writel((uint32_t)param->lum_noise_reduction->gain_max,
+ &(res->capture_reg->l1isp.L1_VPRO_YNR_GAIN_MAX));
+ writel((uint32_t)param->lum_noise_reduction->lim_min,
+ &(res->capture_reg->l1isp.L1_VPRO_YNR_LIM_MIN));
+ writel((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_ETE_SW));
+ writel((uint32_t)param->edge_enhancement->gain_min,
+ &(res->capture_reg->l1isp.L1_VPRO_ETE_GAIN_MIN));
+ writel((uint32_t)param->edge_enhancement->gain_max,
+ &(res->capture_reg->l1isp.L1_VPRO_ETE_GAIN_MAX));
+ writel((uint32_t)param->edge_enhancement->lim_min,
+ &(res->capture_reg->l1isp.L1_VPRO_ETE_LIM_MIN));
+ writel((uint32_t)param->edge_enhancement->lim_max,
+ &(res->capture_reg->l1isp.L1_VPRO_ETE_LIM_MAX));
+ writel((uint32_t)param->edge_enhancement->coring_min,
+ &(res->capture_reg->l1isp.L1_VPRO_ETE_CORING_MIN));
+ writel((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_CSUP_UVSUP_SW));
+ writel((uint32_t)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((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_SW));
+ writel((uint32_t)param->coring_suppression->lv_min,
+ &(res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_LV_MIN));
+ writel((uint32_t)param->coring_suppression->lv_max,
+ &(res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_LV_MAX));
+ writel((uint32_t)param->coring_suppression->gain_min,
+ &(res->capture_reg->l1isp.L1_VPRO_CSUP_CORING_GAIN_MIN));
+ writel((uint32_t)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 != NULL) {
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_SW));
+ writel((uint32_t)param->edge_suppression->gain,
+ &(res->capture_reg->l1isp.L1_VPRO_EDGE_SUP_GAIN));
+ writel((uint32_t)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 != NULL) {
+ 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_CbP_GAIN_MAX));
+ writel(param->color_level->cbm_gain_max,
+ &(res->capture_reg->l1isp.L1_VPRO_CbM_GAIN_MAX));
+ writel(param->color_level->crp_gain_max,
+ &(res->capture_reg->l1isp.L1_VPRO_CrP_GAIN_MAX));
+ writel(param->color_level->crm_gain_max,
+ &(res->capture_reg->l1isp.L1_VPRO_CrM_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_CbP_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CbM_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CrP_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CrM_GAIN_MAX));
+ }
+
+ /* color noise reduction */
+ writel(param->color_noise_reduction_enable,
+ &(res->capture_reg->l1isp.L1_VPRO_CNR_SW));
+
+ } else {
+ 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_CbP_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CbM_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CrP_GAIN_MAX));
+ writel(0U, &(res->capture_reg->l1isp.L1_VPRO_CrM_GAIN_MAX));
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->l1isp.L1_VPRO_CNR_SW));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_avg_lum_generation() - Configure L1ISP average luminance generation parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_avg_lum_generation(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_avg_lum_generation *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+ uint32_t idx, j;
+
+ if (param != NULL) {
+ 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) != 0U)
+ 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) != 0U)
+ 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)
+ return -EINVAL;
+
+ if (param->aexp_black_ratio > HWD_VIIF_L1_AEXP_MAX_BLOCK_TH)
+ return -EINVAL;
+
+ if (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;
+ }
+ }
+
+ if (param != NULL) {
+ 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));
+
+ } else {
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->l1isp.L1_AEXP_ON));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_histogram() - Configure L1ISP histogram parameters.
+ *
+ * @regbuf_id: ISP register buffer ID [0..3]
+ * @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
+ */
+int32_t hwd_VIIF_l1_set_histogram(uint32_t module_id, uint32_t regbuf_id,
+ const struct hwd_viif_l1_histogram *param)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val;
+
+ if (param != NULL) {
+ if ((param->hist_bin_mode != HWD_VIIF_L1_HIST_BIN_MODE_LINEAR) &&
+ (param->hist_bin_mode != HWD_VIIF_L1_HIST_BIN_MODE_LOG)) {
+ return -EINVAL;
+ }
+
+ val = readl(&res->capture_reg->l1isp.L1_SYSM_HEIGHT);
+ if (param->hist_block_v_ofst > (val - 1U))
+ return -EINVAL;
+
+ if ((param->hist_block_height == 0U) || (param->hist_block_height > val)) {
+ return -EINVAL;
+ }
+
+ val = readl(&res->capture_reg->l1isp.L1_SYSM_WIDTH);
+ if (param->hist_block_h_ofst > (val - 1U))
+ return -EINVAL;
+
+ if ((param->hist_block_width == 0U) || (param->hist_block_width > val)) {
+ return -EINVAL;
+ }
+
+ if ((param->hist_block_v_num == 0U) ||
+ (param->hist_block_v_num > HWD_VIIF_L1_HIST_MAX_BLOCK_NUM)) {
+ return -EINVAL;
+ }
+ if ((param->hist_block_h_num == 0U) ||
+ (param->hist_block_h_num > HWD_VIIF_L1_HIST_MAX_BLOCK_NUM)) {
+ return -EINVAL;
+ }
+
+ if (param->hist_block_v_step > HWD_VIIF_L1_HIST_MAX_STEP)
+ return -EINVAL;
+
+ if (param->hist_block_h_step > HWD_VIIF_L1_HIST_MAX_STEP)
+ return -EINVAL;
+
+ if (param->hist_linear_sft > HWD_VIIF_L1_HIST_MAX_BIN_SHIFT)
+ return -EINVAL;
+
+ if ((param->hist_add_a_r < HWD_VIIF_L1_HIST_MIN_ADD_A_COEF) ||
+ (param->hist_add_a_r >= HWD_VIIF_L1_HIST_MAX_ADD_A_COEF)) {
+ return -EINVAL;
+ }
+ if ((param->hist_add_b_r < HWD_VIIF_L1_HIST_MIN_ADD_B_COEF) ||
+ (param->hist_add_b_r >= HWD_VIIF_L1_HIST_MAX_COEF)) {
+ return -EINVAL;
+ }
+
+ if ((param->hist_add_a_g < HWD_VIIF_L1_HIST_MIN_ADD_A_COEF) ||
+ (param->hist_add_a_g >= HWD_VIIF_L1_HIST_MAX_ADD_A_COEF)) {
+ return -EINVAL;
+ }
+ if ((param->hist_add_b_g < HWD_VIIF_L1_HIST_MIN_ADD_B_COEF) ||
+ (param->hist_add_b_g >= HWD_VIIF_L1_HIST_MAX_COEF)) {
+ return -EINVAL;
+ }
+
+ if ((param->hist_add_a_b < HWD_VIIF_L1_HIST_MIN_ADD_A_COEF) ||
+ (param->hist_add_a_b >= HWD_VIIF_L1_HIST_MAX_ADD_A_COEF)) {
+ return -EINVAL;
+ }
+ if ((param->hist_add_b_b < HWD_VIIF_L1_HIST_MIN_ADD_B_COEF) ||
+ (param->hist_add_b_b >= HWD_VIIF_L1_HIST_MAX_COEF)) {
+ return -EINVAL;
+ }
+
+ if ((param->hist_add_a_y < HWD_VIIF_L1_HIST_MIN_ADD_A_COEF) ||
+ (param->hist_add_a_y >= HWD_VIIF_L1_HIST_MAX_ADD_A_COEF)) {
+ return -EINVAL;
+ }
+ if ((param->hist_add_b_y < HWD_VIIF_L1_HIST_MIN_ADD_B_COEF) ||
+ (param->hist_add_b_y >= HWD_VIIF_L1_HIST_MAX_COEF)) {
+ return -EINVAL;
+ }
+ }
+
+ if (param != NULL) {
+ val = ((uint32_t)HWD_VIIF_L1_HIST_COLOR_RGBY << 8U) | (param->hist_bin_mode);
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_MODE));
+
+ val = (param->hist_block_v_ofst << 16U) | (param->hist_block_h_ofst);
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_BLOCK_OFST));
+
+ val = (param->hist_block_height << 16U) | (param->hist_block_width);
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_BLOCK_SIZE));
+
+ val = (param->hist_block_v_num << 16U) | (param->hist_block_h_num);
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_BLOCK_NUM));
+
+ val = (param->hist_block_v_step << 16U) | (param->hist_block_h_step);
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_BLOCK_STEP));
+
+ writel(param->hist_linear_sft, &(res->capture_reg->l1isp.L1_HIST_LINEAR_SFT));
+
+ /* R */
+ writel((uint32_t)param->hist_mult_a_r, &(res->capture_reg->l1isp.L1_HIST_MULT_A_R));
+ val = (uint32_t)param->hist_add_a_r & 0x1ffffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_A_R));
+ writel((uint32_t)param->hist_mult_b_r, &(res->capture_reg->l1isp.L1_HIST_MULT_B_R));
+ val = (uint32_t)param->hist_add_b_r & 0x1ffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_B_R));
+
+ /* G */
+ writel((uint32_t)param->hist_mult_a_g, &(res->capture_reg->l1isp.L1_HIST_MULT_A_G));
+ val = (uint32_t)param->hist_add_a_g & 0x1ffffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_A_G));
+ writel((uint32_t)param->hist_mult_b_g, &(res->capture_reg->l1isp.L1_HIST_MULT_B_G));
+ val = (uint32_t)param->hist_add_b_g & 0x1ffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_B_G));
+
+ /* B */
+ writel((uint32_t)param->hist_mult_a_b, &(res->capture_reg->l1isp.L1_HIST_MULT_A_B));
+ val = (uint32_t)param->hist_add_a_b & 0x1ffffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_A_B));
+ writel((uint32_t)param->hist_mult_b_b, &(res->capture_reg->l1isp.L1_HIST_MULT_B_B));
+ val = (uint32_t)param->hist_add_b_b & 0x1ffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_B_B));
+
+ /* Y */
+ writel((uint32_t)param->hist_mult_a_y, &(res->capture_reg->l1isp.L1_HIST_MULT_A_Y));
+ val = (uint32_t)param->hist_add_a_y & 0x1ffffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_A_Y));
+ writel((uint32_t)param->hist_mult_b_y, &(res->capture_reg->l1isp.L1_HIST_MULT_B_Y));
+ val = (uint32_t)param->hist_add_b_y & 0x1ffffU;
+ writel(val, &(res->capture_reg->l1isp.L1_HIST_ADD_B_Y));
+
+ writel(HWD_VIIF_ENABLE, &(res->capture_reg->l1isp.L1_HIST_EN));
+
+ } else {
+ writel(HWD_VIIF_DISABLE, &(res->capture_reg->l1isp.L1_HIST_EN));
+ }
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_histogram_transmission() - Configure L1ISP transferring histogram data.
+ *
+ * @buf: buffer address to store histogram data
+ * @block_v_num: the number of vertical block[1..8]
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: 0 operation completed successfully
+ * Return: -EINVAL Parameter error
+ * - "buf" is not 8byte alignment
+ * - "block_v_num" is out of range
+ */
+int32_t hwd_VIIF_l1_set_histogram_transmission(uint32_t module_id, uintptr_t buf,
+ uint32_t block_v_num)
+{
+ struct hwd_viif_res *res = viif_id2res(module_id);
+ uint32_t val = 0x0U;
+ uint32_t end_addr;
+
+ if ((block_v_num == 0U) || (block_v_num > HWD_VIIF_L1_HIST_MAX_BLOCK_NUM)) {
+ return -EINVAL;
+ }
+
+ if (buf != 0U) {
+ if ((buf % HWD_VIIF_L1_VDM_ALIGN) != 0U)
+ return -EINVAL;
+
+ /* VDM common settings */
+ writel(HWD_VIIF_L1_VDM_CFG_PARAM, &(res->capture_reg->vdm.w_port[2].VDM_W_CFG0));
+ writel(HWD_VIIF_L1_HIST_VDM_SRAM_BASE,
+ &(res->capture_reg->vdm.w_port[2].VDM_W_SRAM_BASE));
+ writel(HWD_VIIF_L1_HIST_VDM_SRAM_SIZE,
+ &(res->capture_reg->vdm.w_port[2].VDM_W_SRAM_SIZE));
+
+ writel((uint32_t)buf, &(res->capture_reg->vdm.w_port[2].VDM_W_STADR));
+ end_addr = (uint32_t)buf + HWD_VIIF_L1_HIST_VDM_SIZE - 1U;
+ writel(end_addr, &(res->capture_reg->vdm.w_port[2].VDM_W_ENDADR));
+
+ writel((block_v_num * 4U), &(res->capture_reg->vdm.w_port[2].VDM_W_HEIGHT));
+ writel(HWD_VIIF_L1_HIST_VDM_SIZE, &(res->capture_reg->vdm.w_port[2].VDM_W_PITCH));
+
+ val = 0x4U;
+ }
+
+ val |= (readl(&res->capture_reg->vdm.VDM_W_ENABLE) & 0xfffffffbU);
+ writel(val, &(res->capture_reg->vdm.VDM_W_ENABLE));
+
+ return 0;
+}
+
+/**
+ * hwd_VIIF_l1_set_irq_mask() - Set L1ISP interruption mask.
+ *
+ * @mask: pointer to mask setting
+ * @module_id: ID of each VIIF module; must be 0 or 1
+ * Return: None
+ */
+void hwd_VIIF_l1_set_irq_mask(uint32_t module_id, const uint32_t *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..d6bc12024
--- /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 {
+ uint32_t RESERVED_A_1;
+ uint32_t CSI2RX_NLANES;
+ uint32_t CSI2RX_RESETN;
+ uint32_t CSI2RX_INT_ST_MAIN;
+ uint32_t CSI2RX_DATA_IDS_1;
+ uint32_t CSI2RX_DATA_IDS_2;
+ uint32_t RESERVED_B_1[10];
+ uint32_t CSI2RX_PHY_SHUTDOWNZ;
+ uint32_t CSI2RX_PHY_RSTZ;
+ uint32_t CSI2RX_PHY_RX;
+ uint32_t CSI2RX_PHY_STOPSTATE;
+ uint32_t CSI2RX_PHY_TESTCTRL0;
+ uint32_t CSI2RX_PHY_TESTCTRL1;
+ uint32_t RESERVED_B_2[34];
+ uint32_t CSI2RX_INT_ST_PHY_FATAL;
+ uint32_t CSI2RX_INT_MSK_PHY_FATAL;
+ uint32_t CSI2RX_INT_FORCE_PHY_FATAL;
+ uint32_t RESERVED_B_3[1];
+ uint32_t CSI2RX_INT_ST_PKT_FATAL;
+ uint32_t CSI2RX_INT_MSK_PKT_FATAL;
+ uint32_t CSI2RX_INT_FORCE_PKT_FATAL;
+ uint32_t RESERVED_B_4[1];
+ uint32_t CSI2RX_INT_ST_FRAME_FATAL;
+ uint32_t CSI2RX_INT_MSK_FRAME_FATAL;
+ uint32_t CSI2RX_INT_FORCE_FRAME_FATAL;
+ uint32_t RESERVED_B_5[1];
+ uint32_t CSI2RX_INT_ST_PHY;
+ uint32_t CSI2RX_INT_MSK_PHY;
+ uint32_t CSI2RX_INT_FORCE_PHY;
+ uint32_t RESERVED_B_6[1];
+ uint32_t CSI2RX_INT_ST_PKT;
+ uint32_t CSI2RX_INT_MSK_PKT;
+ uint32_t CSI2RX_INT_FORCE_PKT;
+ uint32_t RESERVED_B_7[1];
+ uint32_t CSI2RX_INT_ST_LINE;
+ uint32_t CSI2RX_INT_MSK_LINE;
+ uint32_t CSI2RX_INT_FORCE_LINE;
+ uint32_t RESERVED_B_8[113];
+ uint32_t RESERVED_A_2;
+ uint32_t RESERVED_A_3;
+ uint32_t RESERVED_A_4;
+ uint32_t RESERVED_A_5;
+ uint32_t RESERVED_A_6;
+ uint32_t RESERVED_B_9[58];
+ uint32_t RESERVED_A_7;
+};
+
+/**
+ * struct hwd_viif_csc_reg - Registers for VIIF system control
+ */
+struct hwd_viif_csc_reg {
+ uint32_t MTB;
+ uint32_t RESERVED_B_16[3];
+ uint32_t MTB_YG_OFFSETI;
+ uint32_t MTB_YG1;
+ uint32_t MTB_YG2;
+ uint32_t MTB_YG_OFFSETO;
+ uint32_t MTB_CB_OFFSETI;
+ uint32_t MTB_CB1;
+ uint32_t MTB_CB2;
+ uint32_t MTB_CB_OFFSETO;
+ uint32_t MTB_CR_OFFSETI;
+ uint32_t MTB_CR1;
+ uint32_t MTB_CR2;
+ uint32_t MTB_CR_OFFSETO;
+};
+
+struct hwd_viif_system_reg {
+ uint32_t IPORTM0_LD;
+ uint32_t IPORTM1_LD;
+ uint32_t RESERVED_B_1[6];
+ uint32_t IPORTS0_LD;
+ uint32_t RESERVED_A_1;
+ uint32_t RESERVED_B_2[2];
+ uint32_t VCID0SELECT;
+ uint32_t VCID1SELECT;
+ uint32_t RESERVED_A_2;
+ uint32_t VCPORTEN;
+ uint32_t CSI2SELECT;
+ uint32_t CSI2THROUGHEN;
+ uint32_t RESERVED_B_3[2];
+ uint32_t IPORTM_TEST;
+ uint32_t IPORTM;
+ uint32_t IPORTM_MAIN_DT;
+ uint32_t IPORTM_MAIN_RAW;
+ uint32_t IPORTM_OTHER;
+ uint32_t IPORTM_OTHEREN;
+ uint32_t IPORTM_EMBEN;
+ uint32_t RESERVED_B_4[2];
+ uint32_t IPORTS;
+ uint32_t IPORTS_MAIN_DT;
+ uint32_t IPORTS_MAIN_RAW;
+ uint32_t IPORTS_OTHER;
+ uint32_t IPORTS_OTHEREN;
+ uint32_t IPORTS_EMBEN;
+ uint32_t IPORTS_IMGEN;
+ uint32_t RESERVED_A_3;
+ uint32_t RESERVED_A_4;
+ uint32_t RESERVED_B_5[2];
+ uint32_t IPORTI_M_SYNCEN;
+ uint32_t IPORTI_M_SYNCMODE;
+ uint32_t IPORTI_M_PIXFMT;
+ uint32_t RESERVED_B_6[5];
+ uint32_t TOTALSIZE_M;
+ uint32_t VALSIZE_M;
+ uint32_t BACK_PORCH_M;
+ uint32_t RESERVED_B_7[5];
+ uint32_t MAINIMG_PKTSIZE;
+ uint32_t MAINIMG_HEIGHT;
+ uint32_t MAINOTHER_PKTSIZE;
+ uint32_t MAINOTHER_HEIGHT;
+ uint32_t MAINEMBTOP_SIZE;
+ uint32_t MAINEMBBOT_SIZE;
+ uint32_t RESERVED_B_8[2];
+ uint32_t SUBIMG_PKTSIZE;
+ uint32_t SUBIMG_HEIGHT;
+ uint32_t SUBOTHER_PKTSIZE;
+ uint32_t SUBOTHER_HEIGHT;
+ uint32_t SUBEMBTOP_SIZE;
+ uint32_t SUBEMBBOT_SIZE;
+ uint32_t RESERVED_A_5;
+ uint32_t RESERVED_A_6;
+ uint32_t TESTAREA_M_START;
+ uint32_t TESTAREA_M_SIZE;
+ uint32_t RESERVED_B_9[2];
+ uint32_t INT_M_SYNC;
+ uint32_t INT_M_SYNC_MASK;
+ uint32_t INT_S_SYNC;
+ uint32_t INT_S_SYNC_MASK;
+ uint32_t INT_M0_LINE;
+ uint32_t INT_M1_LINE;
+ uint32_t INT_M2_LINE;
+ uint32_t RESERVED_B_10[5];
+ uint32_t INT_SA0_LINE;
+ uint32_t INT_SA1_LINE;
+ uint32_t RESERVED_B_11[2];
+ uint32_t RESERVED_A_9;
+ uint32_t RESERVED_A_10;
+ uint32_t RESERVED_B_12[2];
+ uint32_t INT_M_STATUS;
+ uint32_t INT_M_MASK;
+ uint32_t INT_S_STATUS;
+ uint32_t INT_S_MASK;
+ uint32_t RESERVED_B_13[28];
+ uint32_t MAIN_TEST_DEN;
+ uint32_t RESERVED_B_14[3];
+ uint32_t PREPROCCESS_FMTM;
+ uint32_t PREPROCCESS_C24M;
+ uint32_t FRAMEPACK_M;
+ uint32_t RESERVED_B_15[1];
+ struct hwd_viif_csc_reg l2isp_input_csc;
+ uint32_t COM0_CK_ENABLE;
+ uint32_t RESERVED_A_13;
+ uint32_t RESERVED_A_14;
+ uint32_t RESERVED_B_17[1];
+ uint32_t COM0EN;
+ uint32_t RESERVED_A_16;
+ uint32_t RESERVED_A_17;
+ uint32_t RESERVED_B_18[33];
+ uint32_t COM0_CAP_OFFSET;
+ uint32_t COM0_CAP_SIZE;
+ uint32_t RESERVED_B_19[18];
+ uint32_t GAMMA_M;
+ uint32_t RESERVED_B_20[3];
+ uint32_t COM0_C_SELECT;
+ uint32_t RESERVED_B_21[3];
+ struct hwd_viif_csc_reg com0_csc;
+ uint32_t COM0_OPORTALP;
+ uint32_t COM0_OPORTFMT;
+ uint32_t RESERVED_B_23[2];
+ uint32_t RESERVED_A_37;
+ uint32_t RESERVED_A_38;
+ uint32_t RESERVED_A_39;
+ uint32_t RESERVED_B_24[1];
+ uint32_t RESERVED_A_40;
+ uint32_t RESERVED_A_41;
+ uint32_t RESERVED_A_42;
+ uint32_t RESERVED_B_25[1];
+ uint32_t RESERVED_A_43;
+ uint32_t RESERVED_A_44;
+ uint32_t RESERVED_A_45;
+ uint32_t RESERVED_B_26[1];
+ uint32_t RESERVED_A_46;
+ uint32_t RESERVED_B_27[3];
+ uint32_t RESERVED_A_47;
+ uint32_t RESERVED_A_48;
+ uint32_t RESERVED_B_28[18];
+ uint32_t RESERVED_A_49;
+ uint32_t RESERVED_B_29[3];
+ uint32_t RESERVED_A_50;
+ uint32_t RESERVED_B_30[3];
+ uint32_t RESERVED_A_51;
+ uint32_t RESERVED_B_31[3];
+ uint32_t RESERVED_A_52;
+ uint32_t RESERVED_A_53;
+ uint32_t RESERVED_A_54;
+ uint32_t RESERVED_A_55;
+ uint32_t RESERVED_A_56;
+ uint32_t RESERVED_A_57;
+ uint32_t RESERVED_A_58;
+ uint32_t RESERVED_A_59;
+ uint32_t RESERVED_A_60;
+ uint32_t RESERVED_A_61;
+ uint32_t RESERVED_A_62;
+ uint32_t RESERVED_A_63;
+ uint32_t RESERVED_A_64;
+ uint32_t RESERVED_A_65;
+ uint32_t RESERVED_B_32[2];
+ uint32_t RESERVED_A_66;
+ uint32_t RESERVED_A_67;
+ uint32_t RESERVED_A_68;
+ uint32_t RESERVED_B_33[1];
+ uint32_t RESERVED_A_69;
+ uint32_t RESERVED_A_70;
+ uint32_t RESERVED_A_71;
+ uint32_t RESERVED_B_34[1];
+ uint32_t RESERVED_A_72;
+ uint32_t RESERVED_A_73;
+ uint32_t RESERVED_A_74;
+ uint32_t RESERVED_B_35[1];
+ uint32_t RESERVED_A_75;
+ uint32_t RESERVED_B_36[3];
+ uint32_t RESERVED_A_76;
+ uint32_t RESERVED_A_77;
+ uint32_t RESERVED_B_37[18];
+ uint32_t RESERVED_A_78;
+ uint32_t RESERVED_B_38[3];
+ uint32_t RESERVED_A_79;
+ uint32_t RESERVED_B_39[3];
+ uint32_t RESERVED_A_80;
+ uint32_t RESERVED_B_40[3];
+ uint32_t RESERVED_A_81;
+ uint32_t RESERVED_A_82;
+ uint32_t RESERVED_A_83;
+ uint32_t RESERVED_A_84;
+ uint32_t RESERVED_A_85;
+ uint32_t RESERVED_A_86;
+ uint32_t RESERVED_A_87;
+ uint32_t RESERVED_A_88;
+ uint32_t RESERVED_A_89;
+ uint32_t RESERVED_A_90;
+ uint32_t RESERVED_A_91;
+ uint32_t RESERVED_A_92;
+ uint32_t RESERVED_A_93;
+ uint32_t RESERVED_A_94;
+ uint32_t RESERVED_B_41[2];
+ uint32_t RESERVED_A_95;
+ uint32_t RESERVED_A_96;
+ uint32_t RESERVED_A_97;
+ uint32_t RESERVED_B_42[1];
+ uint32_t RESERVED_A_98;
+ uint32_t RESERVED_A_99;
+ uint32_t RESERVED_A_100;
+ uint32_t RESERVED_B_43[1];
+ uint32_t RESERVED_A_101;
+ uint32_t RESERVED_A_102;
+ uint32_t RESERVED_A_103;
+ uint32_t RESERVED_B_44[1];
+ uint32_t RESERVED_A_104;
+ uint32_t RESERVED_B_45[3];
+ uint32_t FN_M0;
+ uint32_t FN_M1;
+ uint32_t FN_M2;
+ uint32_t RESERVED_B_46[5];
+ uint32_t FN_SA0;
+ uint32_t FN_SA1;
+ uint32_t RESERVED_B_47[2];
+ uint32_t RESERVED_A_105;
+ uint32_t RESERVED_A_106;
+ uint32_t RESERVED_B_48[18];
+ uint32_t LBIST_STAT;
+ uint32_t MEM_ECC_DCLS_ALARM;
+ uint32_t RESERVED_B_49[30];
+ uint32_t DPHY_FREQRANGE;
+ uint32_t RESERVED_B_50[3];
+ uint32_t DPHY_LANE;
+ uint32_t RESERVED_B_51[59];
+ uint32_t INT_SOURCE;
+ uint32_t DPGM_VSYNC_SOURCE;
+ uint32_t RESERVED_B_52[23];
+ uint32_t RESERVED_A_107;
+ uint32_t RESERVED_A_108;
+ uint32_t RESERVED_B_53[6];
+ uint32_t RESERVED_A_109;
+ uint32_t RESERVED_A_110;
+ uint32_t RESERVED_A_111;
+ uint32_t RESERVED_B_54[1];
+ uint32_t RESERVED_A_112;
+ uint32_t RESERVED_B_55[35];
+ uint32_t RESERVED_A_113;
+ uint32_t RESERVED_B_56[54];
+ uint32_t RESERVED_A_114;
+ uint32_t RESERVED_B_57[3];
+ uint32_t RESERVED_A_115;
+ uint32_t RESERVED_A_116;
+ uint32_t RESERVED_A_117;
+ uint32_t RESERVED_B_58[1];
+ uint32_t RESERVED_A_118;
+ uint32_t RESERVED_B_59[3];
+ uint32_t RESERVED_A_119;
+ uint32_t RESERVED_A_120;
+ uint32_t RESERVED_A_121;
+ uint32_t RESERVED_A_122;
+ uint32_t RESERVED_A_123;
+ uint32_t RESERVED_A_124;
+ uint32_t RESERVED_A_125;
+ uint32_t RESERVED_A_126;
+ uint32_t RESERVED_A_127;
+ uint32_t RESERVED_A_128;
+ uint32_t RESERVED_A_129;
+ uint32_t RESERVED_A_130;
+ uint32_t RESERVED_B_60[4];
+ uint32_t RESERVED_A_131;
+ uint32_t RESERVED_A_132;
+ uint32_t RESERVED_A_133;
+ uint32_t RESERVED_B_61[33];
+ uint32_t RESERVED_A_134;
+ uint32_t RESERVED_A_135;
+ uint32_t RESERVED_B_62[18];
+ uint32_t RESERVED_A_136;
+ uint32_t RESERVED_B_63[3];
+ uint32_t RESERVED_A_137;
+ uint32_t RESERVED_B_64[3];
+ uint32_t RESERVED_A_138;
+ uint32_t RESERVED_B_65[3];
+ uint32_t RESERVED_A_139;
+ uint32_t RESERVED_A_140;
+ uint32_t RESERVED_A_141;
+ uint32_t RESERVED_A_142;
+ uint32_t RESERVED_A_143;
+ uint32_t RESERVED_A_144;
+ uint32_t RESERVED_A_145;
+ uint32_t RESERVED_A_146;
+ uint32_t RESERVED_A_147;
+ uint32_t RESERVED_A_148;
+ uint32_t RESERVED_A_149;
+ uint32_t RESERVED_A_150;
+ uint32_t RESERVED_A_151;
+ uint32_t RESERVED_A_152;
+ uint32_t RESERVED_B_66[2];
+ uint32_t RESERVED_A_153;
+ uint32_t RESERVED_A_154;
+ uint32_t RESERVED_A_155;
+ uint32_t RESERVED_B_67[1];
+ uint32_t RESERVED_A_156;
+ uint32_t RESERVED_A_157;
+ uint32_t RESERVED_A_158;
+ uint32_t RESERVED_B_68[1];
+ uint32_t RESERVED_A_159;
+ uint32_t RESERVED_A_160;
+ uint32_t RESERVED_A_161;
+ uint32_t RESERVED_B_69[1];
+ uint32_t RESERVED_A_162;
+ uint32_t RESERVED_B_70[3];
+ uint32_t RESERVED_A_163;
+ uint32_t RESERVED_A_164;
+ uint32_t RESERVED_B_71[18];
+ uint32_t RESERVED_A_165;
+ uint32_t RESERVED_B_72[3];
+ uint32_t RESERVED_A_166;
+ uint32_t RESERVED_B_73[3];
+ uint32_t RESERVED_A_167;
+ uint32_t RESERVED_B_74[3];
+ uint32_t RESERVED_A_168;
+ uint32_t RESERVED_A_169;
+ uint32_t RESERVED_A_170;
+ uint32_t RESERVED_A_171;
+ uint32_t RESERVED_A_172;
+ uint32_t RESERVED_A_173;
+ uint32_t RESERVED_A_174;
+ uint32_t RESERVED_A_175;
+ uint32_t RESERVED_A_176;
+ uint32_t RESERVED_A_177;
+ uint32_t RESERVED_A_178;
+ uint32_t RESERVED_A_179;
+ uint32_t RESERVED_A_180;
+ uint32_t RESERVED_A_181;
+ uint32_t RESERVED_B_75[2];
+ uint32_t RESERVED_A_182;
+ uint32_t RESERVED_A_183;
+ uint32_t RESERVED_A_184;
+ uint32_t RESERVED_B_76[1];
+ uint32_t RESERVED_A_185;
+ uint32_t RESERVED_A_186;
+ uint32_t RESERVED_A_187;
+ uint32_t RESERVED_B_77[1];
+ uint32_t RESERVED_A_188;
+ uint32_t RESERVED_A_189;
+ uint32_t RESERVED_A_190;
+ uint32_t RESERVED_B_78[1];
+ uint32_t RESERVED_A_191;
+ uint32_t RESERVED_B_79[3];
+ uint32_t RESERVED_A_192;
+ uint32_t RESERVED_A_193;
+ uint32_t RESERVED_B_80[18];
+ uint32_t RESERVED_A_194;
+ uint32_t RESERVED_B_81[3];
+ uint32_t RESERVED_A_195;
+ uint32_t RESERVED_B_82[3];
+ uint32_t RESERVED_A_196;
+ uint32_t RESERVED_B_83[3];
+ uint32_t RESERVED_A_197;
+ uint32_t RESERVED_A_198;
+ uint32_t RESERVED_A_199;
+ uint32_t RESERVED_A_200;
+ uint32_t RESERVED_A_201;
+ uint32_t RESERVED_A_202;
+ uint32_t RESERVED_A_203;
+ uint32_t RESERVED_A_204;
+ uint32_t RESERVED_A_205;
+ uint32_t RESERVED_A_206;
+ uint32_t RESERVED_A_207;
+ uint32_t RESERVED_A_208;
+ uint32_t RESERVED_A_209;
+ uint32_t RESERVED_A_210;
+ uint32_t RESERVED_B_84[2];
+ uint32_t RESERVED_A_211;
+ uint32_t RESERVED_A_212;
+ uint32_t RESERVED_A_213;
+ uint32_t RESERVED_B_85[1];
+ uint32_t RESERVED_A_214;
+ uint32_t RESERVED_A_215;
+ uint32_t RESERVED_A_216;
+ uint32_t RESERVED_B_86[1];
+ uint32_t RESERVED_A_217;
+ uint32_t RESERVED_A_218;
+ uint32_t RESERVED_A_219;
+ uint32_t RESERVED_B_87[1];
+ uint32_t RESERVED_A_220;
+ uint32_t RESERVED_B_88[130];
+ uint32_t RESERVED_A_221;
+};
+
+/**
+ * struct hwd_viif_vdm_table_group_reg - Registers for VIIF vdm control
+ */
+struct hwd_viif_vdm_table_group_reg {
+ uint32_t VDM_T_CFG;
+ uint32_t VDM_T_SRAM_BASE;
+ uint32_t VDM_T_SRAM_SIZE;
+ uint32_t RESERVED_A_4;
+};
+
+struct hwd_viif_vdm_table_port_reg {
+ uint32_t VDM_T_STADR;
+ uint32_t VDM_T_SIZE;
+};
+
+struct hwd_viif_vdm_read_port_reg {
+ uint32_t VDM_R_STADR;
+ uint32_t VDM_R_ENDADR;
+ uint32_t VDM_R_HEIGHT;
+ uint32_t VDM_R_PITCH;
+ uint32_t VDM_R_CFG0;
+ uint32_t RESERVED_A_11;
+ uint32_t VDM_R_SRAM_BASE;
+ uint32_t VDM_R_SRAM_SIZE;
+ uint32_t RESERVED_A_12;
+ uint32_t RESERVED_B_5[7];
+};
+
+struct hwd_viif_vdm_write_port_reg {
+ uint32_t VDM_W_STADR;
+ uint32_t VDM_W_ENDADR;
+ uint32_t VDM_W_HEIGHT;
+ uint32_t VDM_W_PITCH;
+ uint32_t VDM_W_CFG0;
+ uint32_t RESERVED_A_17;
+ uint32_t VDM_W_SRAM_BASE;
+ uint32_t VDM_W_SRAM_SIZE;
+ uint32_t RESERVED_A_18;
+ uint32_t RESERVED_B_8[7];
+};
+
+struct hwd_viif_vdm_write_port_buf_reg {
+ uint32_t VDM_W_STADR_BUF;
+ uint32_t RESERVED_A_120;
+ uint32_t RESERVED_A_121;
+ uint32_t RESERVED_A_122;
+ uint32_t RESERVED_A_123;
+ uint32_t RESERVED_A_124;
+ uint32_t RESERVED_B_20[2];
+};
+
+struct hwd_viif_vdm_reg {
+ uint32_t RESERVED_A_1;
+ uint32_t RESERVED_A_2;
+ uint32_t RESERVED_B_1[4];
+ uint32_t RESERVED_A_3;
+ uint32_t VDM_CFG;
+ uint32_t VDM_INT_MASK;
+ uint32_t RESERVED_B_2[3];
+ uint32_t VDM_R_ENABLE;
+ uint32_t VDM_W_ENABLE;
+ uint32_t VDM_T_ENABLE;
+ uint32_t VDM_ABORTSET;
+ struct hwd_viif_vdm_table_group_reg t_group[4];
+ uint32_t RESERVED_A_8;
+ uint32_t RESERVED_A_9;
+ uint32_t RESERVED_A_10;
+ uint32_t RESERVED_A_11;
+ uint32_t RESERVED_B_3[28];
+ struct hwd_viif_vdm_table_port_reg t_port[24];
+ uint32_t RESERVED_A_14;
+ uint32_t RESERVED_A_15;
+ uint32_t RESERVED_A_16;
+ uint32_t RESERVED_A_17;
+ uint32_t RESERVED_A_18;
+ uint32_t RESERVED_A_19;
+ uint32_t RESERVED_A_20;
+ uint32_t RESERVED_A_21;
+ uint32_t RESERVED_A_22;
+ uint32_t RESERVED_A_23;
+ uint32_t RESERVED_A_24;
+ uint32_t RESERVED_A_25;
+ uint32_t RESERVED_B_4[4];
+ struct hwd_viif_vdm_read_port_reg r_port[3];
+ uint32_t RESERVED_B_7[16];
+ struct hwd_viif_vdm_write_port_reg w_port[6];
+ uint32_t RESERVED_A_29;
+ uint32_t RESERVED_A_30;
+ uint32_t RESERVED_A_31;
+ uint32_t RESERVED_A_32;
+ uint32_t RESERVED_A_33;
+ uint32_t RESERVED_A_34;
+ uint32_t RESERVED_A_35;
+ uint32_t RESERVED_A_36;
+ uint32_t RESERVED_A_37;
+ uint32_t RESERVED_B_14[215];
+ uint32_t RESERVED_A_38;
+ uint32_t RESERVED_A_39;
+ uint32_t RESERVED_A_40;
+ uint32_t RESERVED_B_15[61];
+ uint32_t RESERVED_A_41;
+ uint32_t RESERVED_A_42;
+ uint32_t RESERVED_A_43;
+ uint32_t RESERVED_A_44;
+ uint32_t RESERVED_A_45;
+ uint32_t RESERVED_A_46;
+ uint32_t RESERVED_A_47;
+ uint32_t RESERVED_A_48;
+ uint32_t RESERVED_A_49;
+ uint32_t RESERVED_A_50;
+ uint32_t RESERVED_A_51;
+ uint32_t RESERVED_A_52;
+ uint32_t RESERVED_A_53;
+ uint32_t RESERVED_A_54;
+ uint32_t RESERVED_A_55;
+ uint32_t RESERVED_A_56;
+ uint32_t RESERVED_A_57;
+ uint32_t RESERVED_A_58;
+ uint32_t RESERVED_A_59;
+ uint32_t RESERVED_A_60;
+ uint32_t RESERVED_A_61;
+ uint32_t RESERVED_A_62;
+ uint32_t RESERVED_A_63;
+ uint32_t RESERVED_A_64;
+ uint32_t RESERVED_A_65;
+ uint32_t RESERVED_A_66;
+ uint32_t RESERVED_A_67;
+ uint32_t RESERVED_A_68;
+ uint32_t RESERVED_A_69;
+ uint32_t RESERVED_A_70;
+ uint32_t RESERVED_A_71;
+ uint32_t RESERVED_A_72;
+ uint32_t RESERVED_A_73;
+ uint32_t RESERVED_A_74;
+ uint32_t RESERVED_A_75;
+ uint32_t RESERVED_A_76;
+ uint32_t RESERVED_A_77;
+ uint32_t RESERVED_A_78;
+ uint32_t RESERVED_A_79;
+ uint32_t RESERVED_A_80;
+ uint32_t RESERVED_A_81;
+ uint32_t RESERVED_A_82;
+ uint32_t RESERVED_A_83;
+ uint32_t RESERVED_A_84;
+ uint32_t RESERVED_A_85;
+ uint32_t RESERVED_A_86;
+ uint32_t RESERVED_A_87;
+ uint32_t RESERVED_A_88;
+ uint32_t RESERVED_A_89;
+ uint32_t RESERVED_A_90;
+ uint32_t RESERVED_A_91;
+ uint32_t RESERVED_A_92;
+ uint32_t RESERVED_A_93;
+ uint32_t RESERVED_A_94;
+ uint32_t RESERVED_A_95;
+ uint32_t RESERVED_A_96;
+ uint32_t RESERVED_A_97;
+ uint32_t RESERVED_A_98;
+ uint32_t RESERVED_A_99;
+ uint32_t RESERVED_A_100;
+ uint32_t RESERVED_B_16[4];
+ uint32_t RESERVED_A_101;
+ uint32_t RESERVED_A_102;
+ uint32_t RESERVED_A_103;
+ uint32_t RESERVED_A_104;
+ uint32_t RESERVED_A_105;
+ uint32_t RESERVED_A_106;
+ uint32_t RESERVED_B_17[2];
+ uint32_t RESERVED_A_107;
+ uint32_t RESERVED_A_108;
+ uint32_t RESERVED_A_109;
+ uint32_t RESERVED_A_110;
+ uint32_t RESERVED_A_111;
+ uint32_t RESERVED_A_112;
+ uint32_t RESERVED_B_18[2];
+ uint32_t RESERVED_A_113;
+ uint32_t RESERVED_A_114;
+ uint32_t RESERVED_A_115;
+ uint32_t RESERVED_A_116;
+ uint32_t RESERVED_A_117;
+ uint32_t RESERVED_A_118;
+ uint32_t RESERVED_B_19[42];
+ struct hwd_viif_vdm_write_port_buf_reg w_port_buf[6];
+ uint32_t RESERVED_A_155;
+ uint32_t RESERVED_A_156;
+ uint32_t RESERVED_A_157;
+ uint32_t RESERVED_A_158;
+ uint32_t RESERVED_A_159;
+ uint32_t RESERVED_A_160;
+ uint32_t RESERVED_B_26[138];
+ uint32_t RESERVED_A_161;
+ uint32_t VDM_INT;
+ uint32_t RESERVED_A_162;
+ uint32_t RESERVED_A_163;
+ uint32_t VDM_R_STOP;
+ uint32_t VDM_W_STOP;
+ uint32_t VDM_R_RUN;
+ uint32_t VDM_W_RUN;
+ uint32_t VDM_T_RUN;
+ uint32_t RESERVED_B_27[7];
+ uint32_t RESERVED_A_164;
+ uint32_t RESERVED_A_165;
+ uint32_t RESERVED_A_166;
+ uint32_t RESERVED_A_167;
+ uint32_t RESERVED_B_28[12];
+ uint32_t RESERVED_A_168;
+ uint32_t RESERVED_A_169;
+ uint32_t RESERVED_A_170;
+ uint32_t RESERVED_A_171;
+ uint32_t RESERVED_A_172;
+ uint32_t RESERVED_B_29[27];
+ uint32_t RESERVED_A_173;
+ uint32_t RESERVED_A_174;
+ uint32_t RESERVED_A_175;
+ uint32_t RESERVED_A_176;
+ uint32_t RESERVED_A_177;
+ uint32_t RESERVED_A_178;
+ uint32_t RESERVED_B_30[10];
+ uint32_t RESERVED_A_179;
+ uint32_t RESERVED_A_180;
+ uint32_t RESERVED_A_181;
+ uint32_t RESERVED_A_182;
+ uint32_t RESERVED_A_183;
+ uint32_t RESERVED_A_184;
+ uint32_t RESERVED_A_185;
+ uint32_t RESERVED_A_186;
+ uint32_t RESERVED_A_187;
+ uint32_t RESERVED_A_188;
+ uint32_t RESERVED_A_189;
+ uint32_t RESERVED_A_190;
+ uint32_t RESERVED_A_191;
+ uint32_t RESERVED_A_192;
+ uint32_t RESERVED_B_31[33];
+ uint32_t RESERVED_A_193;
+};
+
+/**
+ * struct hwd_viif_l1isp_reg - Registers for VIIF L1ISP control
+ */
+struct hwd_viif_l1isp_reg {
+ uint32_t L1_SYSM_WIDTH;
+ uint32_t L1_SYSM_HEIGHT;
+ uint32_t L1_SYSM_START_COLOR;
+ uint32_t L1_SYSM_INPUT_MODE;
+ uint32_t RESERVED_A_1;
+ uint32_t L1_SYSM_YCOEF_R;
+ uint32_t L1_SYSM_YCOEF_G;
+ uint32_t L1_SYSM_YCOEF_B;
+ uint32_t L1_SYSM_INT_STAT;
+ uint32_t L1_SYSM_INT_MASKED_STAT;
+ uint32_t L1_SYSM_INT_MASK;
+ uint32_t RESERVED_A_2;
+ uint32_t RESERVED_A_3;
+ uint32_t RESERVED_A_4;
+ uint32_t RESERVED_B_1[2];
+ uint32_t L1_SYSM_AG_H;
+ uint32_t L1_SYSM_AG_M;
+ uint32_t L1_SYSM_AG_L;
+ uint32_t L1_SYSM_AG_PARAM_A;
+ uint32_t L1_SYSM_AG_PARAM_B;
+ uint32_t L1_SYSM_AG_PARAM_C;
+ uint32_t L1_SYSM_AG_PARAM_D;
+ uint32_t L1_SYSM_AG_SEL_HOBC;
+ uint32_t L1_SYSM_AG_SEL_ABPC;
+ uint32_t L1_SYSM_AG_SEL_RCNR;
+ uint32_t L1_SYSM_AG_SEL_LSSC;
+ uint32_t L1_SYSM_AG_SEL_MPRO;
+ uint32_t L1_SYSM_AG_SEL_VPRO;
+ uint32_t L1_SYSM_AG_CONT_HOBC01_EN;
+ uint32_t L1_SYSM_AG_CONT_HOBC2_EN;
+ uint32_t L1_SYSM_AG_CONT_ABPC01_EN;
+ uint32_t L1_SYSM_AG_CONT_ABPC2_EN;
+ uint32_t L1_SYSM_AG_CONT_RCNR01_EN;
+ uint32_t L1_SYSM_AG_CONT_RCNR2_EN;
+ uint32_t L1_SYSM_AG_CONT_LSSC_EN;
+ uint32_t L1_SYSM_AG_CONT_MPRO_EN;
+ uint32_t L1_SYSM_AG_CONT_VPRO_EN;
+ uint32_t L1_SYSM_CTXT;
+ uint32_t L1_SYSM_MAN_CTXT;
+ uint32_t RESERVED_A_5;
+ uint32_t RESERVED_B_2[7];
+ uint32_t RESERVED_A_6;
+ uint32_t L1_HDRE_SrcPoint00;
+ uint32_t L1_HDRE_SrcPoint01;
+ uint32_t L1_HDRE_SrcPoint02;
+ uint32_t L1_HDRE_SrcPoint03;
+ uint32_t L1_HDRE_SrcPoint04;
+ uint32_t L1_HDRE_SrcPoint05;
+ uint32_t L1_HDRE_SrcPoint06;
+ uint32_t L1_HDRE_SrcPoint07;
+ uint32_t L1_HDRE_SrcPoint08;
+ uint32_t L1_HDRE_SrcPoint09;
+ uint32_t L1_HDRE_SrcPoint10;
+ uint32_t L1_HDRE_SrcPoint11;
+ uint32_t L1_HDRE_SrcPoint12;
+ uint32_t L1_HDRE_SrcPoint13;
+ uint32_t L1_HDRE_SrcPoint14;
+ uint32_t L1_HDRE_SrcPoint15;
+ uint32_t L1_HDRE_SrcBase00;
+ uint32_t L1_HDRE_SrcBase01;
+ uint32_t L1_HDRE_SrcBase02;
+ uint32_t L1_HDRE_SrcBase03;
+ uint32_t L1_HDRE_SrcBase04;
+ uint32_t L1_HDRE_SrcBase05;
+ uint32_t L1_HDRE_SrcBase06;
+ uint32_t L1_HDRE_SrcBase07;
+ uint32_t L1_HDRE_SrcBase08;
+ uint32_t L1_HDRE_SrcBase09;
+ uint32_t L1_HDRE_SrcBase10;
+ uint32_t L1_HDRE_SrcBase11;
+ uint32_t L1_HDRE_SrcBase12;
+ uint32_t L1_HDRE_SrcBase13;
+ uint32_t L1_HDRE_SrcBase14;
+ uint32_t L1_HDRE_SrcBase15;
+ uint32_t L1_HDRE_SrcBase16;
+ uint32_t L1_HDRE_Ratio00;
+ uint32_t L1_HDRE_Ratio01;
+ uint32_t L1_HDRE_Ratio02;
+ uint32_t L1_HDRE_Ratio03;
+ uint32_t L1_HDRE_Ratio04;
+ uint32_t L1_HDRE_Ratio05;
+ uint32_t L1_HDRE_Ratio06;
+ uint32_t L1_HDRE_Ratio07;
+ uint32_t L1_HDRE_Ratio08;
+ uint32_t L1_HDRE_Ratio09;
+ uint32_t L1_HDRE_Ratio10;
+ uint32_t L1_HDRE_Ratio11;
+ uint32_t L1_HDRE_Ratio12;
+ uint32_t L1_HDRE_Ratio13;
+ uint32_t L1_HDRE_Ratio14;
+ uint32_t L1_HDRE_Ratio15;
+ uint32_t L1_HDRE_Ratio16;
+ uint32_t L1_HDRE_DstBase00;
+ uint32_t L1_HDRE_DstBase01;
+ uint32_t L1_HDRE_DstBase02;
+ uint32_t L1_HDRE_DstBase03;
+ uint32_t L1_HDRE_DstBase04;
+ uint32_t L1_HDRE_DstBase05;
+ uint32_t L1_HDRE_DstBase06;
+ uint32_t L1_HDRE_DstBase07;
+ uint32_t L1_HDRE_DstBase08;
+ uint32_t L1_HDRE_DstBase09;
+ uint32_t L1_HDRE_DstBase10;
+ uint32_t L1_HDRE_DstBase11;
+ uint32_t L1_HDRE_DstBase12;
+ uint32_t L1_HDRE_DstBase13;
+ uint32_t L1_HDRE_DstBase14;
+ uint32_t L1_HDRE_DstBase15;
+ uint32_t L1_HDRE_DstBase16;
+ uint32_t L1_HDRE_DstMaxval;
+ uint32_t RESERVED_B_3[11];
+ uint32_t L1_AEXP_ON;
+ uint32_t L1_AEXP_RESULT_AVE;
+ uint32_t RESERVED_A_7;
+ uint32_t L1_AEXP_FORCE_INTERRUPT_Y;
+ uint32_t L1_AEXP_START_X;
+ uint32_t L1_AEXP_START_Y;
+ uint32_t L1_AEXP_BLOCK_WIDTH;
+ uint32_t L1_AEXP_BLOCK_HEIGHT;
+ uint32_t L1_AEXP_WEIGHT_0;
+ uint32_t L1_AEXP_WEIGHT_1;
+ uint32_t L1_AEXP_WEIGHT_2;
+ uint32_t L1_AEXP_WEIGHT_3;
+ uint32_t L1_AEXP_WEIGHT_4;
+ uint32_t L1_AEXP_WEIGHT_5;
+ uint32_t L1_AEXP_WEIGHT_6;
+ uint32_t L1_AEXP_WEIGHT_7;
+ uint32_t L1_AEXP_SATUR_RATIO;
+ uint32_t L1_AEXP_BLACK_RATIO;
+ uint32_t L1_AEXP_SATUR_LEVEL;
+ uint32_t RESERVED_A_8;
+ /* [y][x] */
+ uint32_t L1_AEXP_AVE[8][8];
+ uint32_t L1_AEXP_SATUR_BLACK_PIXNUM;
+ uint32_t L1_AEXP_AVE4LINESY0;
+ uint32_t L1_AEXP_AVE4LINESY1;
+ uint32_t L1_AEXP_AVE4LINESY2;
+ uint32_t L1_AEXP_AVE4LINESY3;
+ uint32_t L1_AEXP_AVE4LINES0;
+ uint32_t L1_AEXP_AVE4LINES1;
+ uint32_t L1_AEXP_AVE4LINES2;
+ uint32_t L1_AEXP_AVE4LINES3;
+ uint32_t RESERVED_B_4[3];
+ uint32_t L1_IBUF_DEPTH;
+ uint32_t L1_IBUF_INPUT_ORDER;
+ uint32_t RESERVED_B_5[2];
+ uint32_t L1_SLIC_SrcBlackLevelGr;
+ uint32_t L1_SLIC_SrcBlackLevelR;
+ uint32_t L1_SLIC_SrcBlackLevelB;
+ uint32_t L1_SLIC_SrcBlackLevelGb;
+ uint32_t RESERVED_A_9;
+ uint32_t RESERVED_A_10;
+ uint32_t RESERVED_A_11;
+ uint32_t RESERVED_A_12;
+ uint32_t RESERVED_A_13;
+ uint32_t RESERVED_B_6[19];
+ uint32_t RESERVED_A_14;
+ uint32_t RESERVED_A_15;
+ uint32_t L1_ABPC012_AG_CONT;
+ uint32_t L1_ABPC012_STA_EN;
+ uint32_t L1_ABPC012_DYN_EN;
+ uint32_t L1_ABPC012_DYN_MODE;
+ uint32_t RESERVED_A_16;
+ uint32_t RESERVED_A_17;
+ uint32_t RESERVED_A_18;
+ uint32_t L1_ABPC0_RATIO_LIMIT;
+ uint32_t RESERVED_A_19;
+ uint32_t L1_ABPC0_DARK_LIMIT;
+ uint32_t L1_ABPC0_SN_COEF_W_AG_MIN;
+ uint32_t L1_ABPC0_SN_COEF_W_AG_MID;
+ uint32_t L1_ABPC0_SN_COEF_W_AG_MAX;
+ uint32_t L1_ABPC0_SN_COEF_W_TH_MIN;
+ uint32_t L1_ABPC0_SN_COEF_W_TH_MAX;
+ uint32_t L1_ABPC0_SN_COEF_B_AG_MIN;
+ uint32_t L1_ABPC0_SN_COEF_B_AG_MID;
+ uint32_t L1_ABPC0_SN_COEF_B_AG_MAX;
+ uint32_t L1_ABPC0_SN_COEF_B_TH_MIN;
+ uint32_t L1_ABPC0_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_20;
+ uint32_t L1_ABPC0_DETECT;
+ uint32_t L1_ABPC1_RATIO_LIMIT;
+ uint32_t RESERVED_A_21;
+ uint32_t L1_ABPC1_DARK_LIMIT;
+ uint32_t L1_ABPC1_SN_COEF_W_AG_MIN;
+ uint32_t L1_ABPC1_SN_COEF_W_AG_MID;
+ uint32_t L1_ABPC1_SN_COEF_W_AG_MAX;
+ uint32_t L1_ABPC1_SN_COEF_W_TH_MIN;
+ uint32_t L1_ABPC1_SN_COEF_W_TH_MAX;
+ uint32_t L1_ABPC1_SN_COEF_B_AG_MIN;
+ uint32_t L1_ABPC1_SN_COEF_B_AG_MID;
+ uint32_t L1_ABPC1_SN_COEF_B_AG_MAX;
+ uint32_t L1_ABPC1_SN_COEF_B_TH_MIN;
+ uint32_t L1_ABPC1_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_22;
+ uint32_t L1_ABPC1_DETECT;
+ uint32_t L1_ABPC2_RATIO_LIMIT;
+ uint32_t RESERVED_A_23;
+ uint32_t L1_ABPC2_DARK_LIMIT;
+ uint32_t L1_ABPC2_SN_COEF_W_AG_MIN;
+ uint32_t L1_ABPC2_SN_COEF_W_AG_MID;
+ uint32_t L1_ABPC2_SN_COEF_W_AG_MAX;
+ uint32_t L1_ABPC2_SN_COEF_W_TH_MIN;
+ uint32_t L1_ABPC2_SN_COEF_W_TH_MAX;
+ uint32_t L1_ABPC2_SN_COEF_B_AG_MIN;
+ uint32_t L1_ABPC2_SN_COEF_B_AG_MID;
+ uint32_t L1_ABPC2_SN_COEF_B_AG_MAX;
+ uint32_t L1_ABPC2_SN_COEF_B_TH_MIN;
+ uint32_t L1_ABPC2_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_24;
+ uint32_t L1_ABPC2_DETECT;
+ uint32_t RESERVED_B_7[42];
+ uint32_t RESERVED_A_25;
+ uint32_t L1_PWHB_HGr;
+ uint32_t L1_PWHB_HR;
+ uint32_t L1_PWHB_HB;
+ uint32_t L1_PWHB_HGb;
+ uint32_t L1_PWHB_MGr;
+ uint32_t L1_PWHB_MR;
+ uint32_t L1_PWHB_MB;
+ uint32_t L1_PWHB_MGb;
+ uint32_t L1_PWHB_LGr;
+ uint32_t L1_PWHB_LR;
+ uint32_t L1_PWHB_LB;
+ uint32_t L1_PWHB_LGb;
+ uint32_t L1_PWHB_DstMaxval;
+ uint32_t RESERVED_B_8[18];
+ uint32_t L1_RCNR0_AG_CONT;
+ uint32_t RESERVED_A_26;
+ uint32_t L1_RCNR0_SW;
+ uint32_t L1_RCNR0_CNF_DARK_AG0;
+ uint32_t L1_RCNR0_CNF_DARK_AG1;
+ uint32_t L1_RCNR0_CNF_DARK_AG2;
+ uint32_t L1_RCNR0_CNF_RATIO_AG0;
+ uint32_t L1_RCNR0_CNF_RATIO_AG1;
+ uint32_t L1_RCNR0_CNF_RATIO_AG2;
+ uint32_t L1_RCNR0_CNF_CLIP_GAIN_R;
+ uint32_t L1_RCNR0_CNF_CLIP_GAIN_G;
+ uint32_t L1_RCNR0_CNF_CLIP_GAIN_B;
+ uint32_t L1_RCNR0_A1L_DARK_AG0;
+ uint32_t L1_RCNR0_A1L_DARK_AG1;
+ uint32_t L1_RCNR0_A1L_DARK_AG2;
+ uint32_t L1_RCNR0_A1L_RATIO_AG0;
+ uint32_t L1_RCNR0_A1L_RATIO_AG1;
+ uint32_t L1_RCNR0_A1L_RATIO_AG2;
+ uint32_t L1_RCNR0_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_27;
+ uint32_t L1_RCNR0_MERGE_D2BLEND_AG0;
+ uint32_t L1_RCNR0_MERGE_D2BLEND_AG1;
+ uint32_t L1_RCNR0_MERGE_D2BLEND_AG2;
+ uint32_t L1_RCNR0_MERGE_BLACK;
+ uint32_t L1_RCNR0_MERGE_MINDIV;
+ uint32_t L1_RCNR0_HRY_TYPE;
+ uint32_t L1_RCNR0_ANF_BLEND_AG0;
+ uint32_t L1_RCNR0_ANF_BLEND_AG1;
+ uint32_t L1_RCNR0_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_28;
+ uint32_t L1_RCNR0_LPF_THRESHOLD;
+ uint32_t L1_RCNR0_MERGE_HLBLEND_AG0;
+ uint32_t L1_RCNR0_MERGE_HLBLEND_AG1;
+ uint32_t L1_RCNR0_MERGE_HLBLEND_AG2;
+ uint32_t L1_RCNR0_GNR_SW;
+ uint32_t L1_RCNR0_GNR_RATIO;
+ uint32_t L1_RCNR0_GNR_WIDE_EN;
+ uint32_t L1_RCNR1_AG_CONT;
+ uint32_t RESERVED_A_29;
+ uint32_t L1_RCNR1_SW;
+ uint32_t L1_RCNR1_CNF_DARK_AG0;
+ uint32_t L1_RCNR1_CNF_DARK_AG1;
+ uint32_t L1_RCNR1_CNF_DARK_AG2;
+ uint32_t L1_RCNR1_CNF_RATIO_AG0;
+ uint32_t L1_RCNR1_CNF_RATIO_AG1;
+ uint32_t L1_RCNR1_CNF_RATIO_AG2;
+ uint32_t L1_RCNR1_CNF_CLIP_GAIN_R;
+ uint32_t L1_RCNR1_CNF_CLIP_GAIN_G;
+ uint32_t L1_RCNR1_CNF_CLIP_GAIN_B;
+ uint32_t L1_RCNR1_A1L_DARK_AG0;
+ uint32_t L1_RCNR1_A1L_DARK_AG1;
+ uint32_t L1_RCNR1_A1L_DARK_AG2;
+ uint32_t L1_RCNR1_A1L_RATIO_AG0;
+ uint32_t L1_RCNR1_A1L_RATIO_AG1;
+ uint32_t L1_RCNR1_A1L_RATIO_AG2;
+ uint32_t L1_RCNR1_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_30;
+ uint32_t L1_RCNR1_MERGE_D2BLEND_AG0;
+ uint32_t L1_RCNR1_MERGE_D2BLEND_AG1;
+ uint32_t L1_RCNR1_MERGE_D2BLEND_AG2;
+ uint32_t L1_RCNR1_MERGE_BLACK;
+ uint32_t L1_RCNR1_MERGE_MINDIV;
+ uint32_t L1_RCNR1_HRY_TYPE;
+ uint32_t L1_RCNR1_ANF_BLEND_AG0;
+ uint32_t L1_RCNR1_ANF_BLEND_AG1;
+ uint32_t L1_RCNR1_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_31;
+ uint32_t L1_RCNR1_LPF_THRESHOLD;
+ uint32_t L1_RCNR1_MERGE_HLBLEND_AG0;
+ uint32_t L1_RCNR1_MERGE_HLBLEND_AG1;
+ uint32_t L1_RCNR1_MERGE_HLBLEND_AG2;
+ uint32_t L1_RCNR1_GNR_SW;
+ uint32_t L1_RCNR1_GNR_RATIO;
+ uint32_t L1_RCNR1_GNR_WIDE_EN;
+ uint32_t L1_RCNR2_AG_CONT;
+ uint32_t RESERVED_A_32;
+ uint32_t L1_RCNR2_SW;
+ uint32_t L1_RCNR2_CNF_DARK_AG0;
+ uint32_t L1_RCNR2_CNF_DARK_AG1;
+ uint32_t L1_RCNR2_CNF_DARK_AG2;
+ uint32_t L1_RCNR2_CNF_RATIO_AG0;
+ uint32_t L1_RCNR2_CNF_RATIO_AG1;
+ uint32_t L1_RCNR2_CNF_RATIO_AG2;
+ uint32_t L1_RCNR2_CNF_CLIP_GAIN_R;
+ uint32_t L1_RCNR2_CNF_CLIP_GAIN_G;
+ uint32_t L1_RCNR2_CNF_CLIP_GAIN_B;
+ uint32_t L1_RCNR2_A1L_DARK_AG0;
+ uint32_t L1_RCNR2_A1L_DARK_AG1;
+ uint32_t L1_RCNR2_A1L_DARK_AG2;
+ uint32_t L1_RCNR2_A1L_RATIO_AG0;
+ uint32_t L1_RCNR2_A1L_RATIO_AG1;
+ uint32_t L1_RCNR2_A1L_RATIO_AG2;
+ uint32_t L1_RCNR2_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_33;
+ uint32_t L1_RCNR2_MERGE_D2BLEND_AG0;
+ uint32_t L1_RCNR2_MERGE_D2BLEND_AG1;
+ uint32_t L1_RCNR2_MERGE_D2BLEND_AG2;
+ uint32_t L1_RCNR2_MERGE_BLACK;
+ uint32_t L1_RCNR2_MERGE_MINDIV;
+ uint32_t L1_RCNR2_HRY_TYPE;
+ uint32_t L1_RCNR2_ANF_BLEND_AG0;
+ uint32_t L1_RCNR2_ANF_BLEND_AG1;
+ uint32_t L1_RCNR2_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_34;
+ uint32_t L1_RCNR2_LPF_THRESHOLD;
+ uint32_t L1_RCNR2_MERGE_HLBLEND_AG0;
+ uint32_t L1_RCNR2_MERGE_HLBLEND_AG1;
+ uint32_t L1_RCNR2_MERGE_HLBLEND_AG2;
+ uint32_t L1_RCNR2_GNR_SW;
+ uint32_t L1_RCNR2_GNR_RATIO;
+ uint32_t L1_RCNR2_GNR_WIDE_EN;
+ uint32_t RESERVED_B_9[49];
+ uint32_t RESERVED_A_35;
+ uint32_t L1_HDRS_HdrRatioM;
+ uint32_t L1_HDRS_HdrRatioL;
+ uint32_t L1_HDRS_HdrRatioE;
+ uint32_t RESERVED_A_36;
+ uint32_t RESERVED_A_37;
+ uint32_t L1_HDRS_BlendEndH;
+ uint32_t L1_HDRS_BlendEndM;
+ uint32_t L1_HDRS_BlendEndE;
+ uint32_t L1_HDRS_BlendBegH;
+ uint32_t L1_HDRS_BlendBegM;
+ uint32_t L1_HDRS_BlendBegE;
+ uint32_t RESERVED_A_38;
+ uint32_t RESERVED_A_39;
+ uint32_t RESERVED_A_40;
+ uint32_t RESERVED_A_41;
+ uint32_t RESERVED_A_42;
+ uint32_t RESERVED_A_43;
+ uint32_t L1_HDRS_DgH;
+ uint32_t L1_HDRS_DgM;
+ uint32_t L1_HDRS_DgL;
+ uint32_t L1_HDRS_DgE;
+ uint32_t L1_HDRS_LedModeOn;
+ uint32_t L1_HDRS_HdrMode;
+ uint32_t RESERVED_A_44;
+ uint32_t RESERVED_A_45;
+ uint32_t RESERVED_A_46;
+ uint32_t L1_HDRS_DstMaxval;
+ uint32_t RESERVED_B_10[4];
+ uint32_t L1_BLVC_SrcBlackLevelGr;
+ uint32_t L1_BLVC_SrcBlackLevelR;
+ uint32_t L1_BLVC_SrcBlackLevelB;
+ uint32_t L1_BLVC_SrcBlackLevelGb;
+ uint32_t L1_BLVC_MultValGr;
+ uint32_t L1_BLVC_MultValR;
+ uint32_t L1_BLVC_MultValB;
+ uint32_t L1_BLVC_MultValGb;
+ uint32_t L1_BLVC_DstMaxval;
+ uint32_t RESERVED_A_47;
+ uint32_t RESERVED_A_48;
+ uint32_t RESERVED_A_49;
+ uint32_t RESERVED_A_50;
+ uint32_t RESERVED_A_51;
+ uint32_t RESERVED_A_52;
+ uint32_t RESERVED_B_11[17];
+ uint32_t L1_LSSC_EN;
+ uint32_t L1_LSSC_AG_CONT;
+ uint32_t RESERVED_A_53;
+ uint32_t RESERVED_A_54;
+ uint32_t L1_LSSC_PWHB_R_GAIN;
+ uint32_t L1_LSSC_PWHB_GR_GAIN;
+ uint32_t L1_LSSC_PWHB_GB_GAIN;
+ uint32_t L1_LSSC_PWHB_B_GAIN;
+ uint32_t L1_LSSC_PARA_EN;
+ uint32_t L1_LSSC_PARA_H_CENTER;
+ uint32_t L1_LSSC_PARA_V_CENTER;
+ uint32_t L1_LSSC_PARA_H_GAIN;
+ uint32_t L1_LSSC_PARA_V_GAIN;
+ uint32_t L1_LSSC_PARA_MGSEL2;
+ uint32_t L1_LSSC_PARA_MGSEL4;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_H_L;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_H_R;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_V_U;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_V_D;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_HV_LU;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_HV_RU;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_HV_LD;
+ uint32_t L1_LSSC_PARA_R_COEF_2D_HV_RD;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_H_L;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_H_R;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_V_U;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_V_D;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_HV_LU;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_HV_RU;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_HV_LD;
+ uint32_t L1_LSSC_PARA_R_COEF_4D_HV_RD;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_H_L;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_H_R;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_V_U;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_V_D;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_HV_LU;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_HV_RU;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_HV_LD;
+ uint32_t L1_LSSC_PARA_GR_COEF_2D_HV_RD;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_H_L;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_H_R;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_V_U;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_V_D;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_HV_LU;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_HV_RU;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_HV_LD;
+ uint32_t L1_LSSC_PARA_GR_COEF_4D_HV_RD;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_H_L;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_H_R;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_V_U;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_V_D;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_HV_LU;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_HV_RU;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_HV_LD;
+ uint32_t L1_LSSC_PARA_GB_COEF_2D_HV_RD;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_H_L;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_H_R;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_V_U;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_V_D;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_HV_LU;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_HV_RU;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_HV_LD;
+ uint32_t L1_LSSC_PARA_GB_COEF_4D_HV_RD;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_H_L;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_H_R;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_V_U;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_V_D;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_HV_LU;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_HV_RU;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_HV_LD;
+ uint32_t L1_LSSC_PARA_B_COEF_2D_HV_RD;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_H_L;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_H_R;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_V_U;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_V_D;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_HV_LU;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_HV_RU;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_HV_LD;
+ uint32_t L1_LSSC_PARA_B_COEF_4D_HV_RD;
+ uint32_t L1_LSSC_GRID_EN;
+ uint32_t L1_LSSC_GRID_H_CENTER;
+ uint32_t L1_LSSC_GRID_V_CENTER;
+ uint32_t L1_LSSC_GRID_H_SIZE;
+ uint32_t L1_LSSC_GRID_V_SIZE;
+ uint32_t L1_LSSC_GRID_MGSEL;
+ uint32_t RESERVED_B_12[11];
+ uint32_t L1_MPRO_SW;
+ uint32_t L1_MPRO_CONF;
+ uint32_t RESERVED_A_55;
+ uint32_t L1_MPRO_DST_MINVAL;
+ uint32_t L1_MPRO_DST_MAXVAL;
+ uint32_t L1_MPRO_AG_CONT;
+ uint32_t RESERVED_A_56;
+ uint32_t RESERVED_A_57;
+ uint32_t L1_MPRO_LM0_RMG_MIN;
+ uint32_t L1_MPRO_LM0_RMB_MIN;
+ uint32_t L1_MPRO_LM0_GMR_MIN;
+ uint32_t L1_MPRO_LM0_GMB_MIN;
+ uint32_t L1_MPRO_LM0_BMR_MIN;
+ uint32_t L1_MPRO_LM0_BMG_MIN;
+ uint32_t L1_MPRO_LM0_RMG_MAX;
+ uint32_t L1_MPRO_LM0_RMB_MAX;
+ uint32_t L1_MPRO_LM0_GMR_MAX;
+ uint32_t L1_MPRO_LM0_GMB_MAX;
+ uint32_t L1_MPRO_LM0_BMR_MAX;
+ uint32_t L1_MPRO_LM0_BMG_MAX;
+ uint32_t RESERVED_A_58;
+ uint32_t RESERVED_A_59;
+ uint32_t RESERVED_A_60;
+ uint32_t RESERVED_A_61;
+ uint32_t RESERVED_A_62;
+ uint32_t RESERVED_A_63;
+ uint32_t RESERVED_A_64;
+ uint32_t RESERVED_A_65;
+ uint32_t RESERVED_A_66;
+ uint32_t RESERVED_A_67;
+ uint32_t RESERVED_A_68;
+ uint32_t RESERVED_A_69;
+ uint32_t RESERVED_A_70;
+ uint32_t RESERVED_A_71;
+ uint32_t RESERVED_A_72;
+ uint32_t RESERVED_A_73;
+ uint32_t RESERVED_A_74;
+ uint32_t RESERVED_A_75;
+ uint32_t RESERVED_A_76;
+ uint32_t RESERVED_A_77;
+ uint32_t RESERVED_A_78;
+ uint32_t RESERVED_A_79;
+ uint32_t RESERVED_A_80;
+ uint32_t RESERVED_A_81;
+ uint32_t RESERVED_A_82;
+ uint32_t RESERVED_A_83;
+ uint32_t RESERVED_A_84;
+ uint32_t RESERVED_A_85;
+ uint32_t RESERVED_A_86;
+ uint32_t RESERVED_A_87;
+ uint32_t RESERVED_A_88;
+ uint32_t RESERVED_A_89;
+ uint32_t RESERVED_A_90;
+ uint32_t RESERVED_A_91;
+ uint32_t RESERVED_A_92;
+ uint32_t RESERVED_A_93;
+ uint32_t RESERVED_A_94;
+ uint32_t RESERVED_A_95;
+ uint32_t RESERVED_A_96;
+ uint32_t RESERVED_B_13[1];
+ uint32_t L1_MPRO_LCS_MODE;
+ uint32_t RESERVED_A_97;
+ uint32_t RESERVED_A_98;
+ uint32_t RESERVED_A_99;
+ uint32_t RESERVED_A_100;
+ uint32_t RESERVED_A_101;
+ uint32_t RESERVED_A_102;
+ uint32_t RESERVED_A_103;
+ uint32_t RESERVED_A_104;
+ uint32_t RESERVED_A_105;
+ uint32_t RESERVED_A_106;
+ uint32_t RESERVED_A_107;
+ uint32_t RESERVED_A_108;
+ uint32_t RESERVED_A_109;
+ uint32_t RESERVED_A_110;
+ uint32_t RESERVED_A_111;
+ uint32_t RESERVED_A_112;
+ uint32_t RESERVED_A_113;
+ uint32_t RESERVED_A_114;
+ uint32_t RESERVED_A_115;
+ uint32_t RESERVED_A_116;
+ uint32_t RESERVED_A_117;
+ uint32_t RESERVED_A_118;
+ uint32_t RESERVED_A_119;
+ uint32_t RESERVED_A_120;
+ uint32_t RESERVED_A_121;
+ uint32_t RESERVED_A_122;
+ uint32_t RESERVED_A_123;
+ uint32_t RESERVED_A_124;
+ uint32_t RESERVED_A_125;
+ uint32_t RESERVED_B_14[70];
+ uint32_t L1_VPRO_PGC_SW;
+ uint32_t RESERVED_A_126;
+ uint32_t L1_VPRO_YUVC_SW;
+ uint32_t L1_VPRO_YNR_SW;
+ uint32_t L1_VPRO_ETE_SW;
+ uint32_t L1_VPRO_CSUP_UVSUP_SW;
+ uint32_t L1_VPRO_CSUP_CORING_SW;
+ uint32_t L1_VPRO_BRIGHT_SW;
+ uint32_t L1_VPRO_LCNT_SW;
+ uint32_t L1_VPRO_NLCNT_SW;
+ uint32_t RESERVED_A_127;
+ uint32_t L1_VPRO_EDGE_SUP_SW;
+ uint32_t L1_VPRO_CNR_SW;
+ uint32_t L1_VPRO_AG_CONT;
+ uint32_t L1_VPRO_BLKADJ;
+ uint32_t L1_VPRO_GAM01P;
+ uint32_t L1_VPRO_GAM02P;
+ uint32_t L1_VPRO_GAM03P;
+ uint32_t L1_VPRO_GAM04P;
+ uint32_t L1_VPRO_GAM05P;
+ uint32_t L1_VPRO_GAM06P;
+ uint32_t L1_VPRO_GAM07P;
+ uint32_t L1_VPRO_GAM08P;
+ uint32_t L1_VPRO_GAM09P;
+ uint32_t L1_VPRO_GAM10P;
+ uint32_t L1_VPRO_GAM11P;
+ uint32_t L1_VPRO_GAM12P;
+ uint32_t L1_VPRO_GAM13P;
+ uint32_t L1_VPRO_GAM14P;
+ uint32_t L1_VPRO_GAM15P;
+ uint32_t L1_VPRO_GAM16P;
+ uint32_t L1_VPRO_GAM17P;
+ uint32_t L1_VPRO_GAM18P;
+ uint32_t L1_VPRO_GAM19P;
+ uint32_t L1_VPRO_GAM20P;
+ uint32_t L1_VPRO_GAM21P;
+ uint32_t L1_VPRO_GAM22P;
+ uint32_t L1_VPRO_GAM23P;
+ uint32_t L1_VPRO_GAM24P;
+ uint32_t L1_VPRO_GAM25P;
+ uint32_t L1_VPRO_GAM26P;
+ uint32_t L1_VPRO_GAM27P;
+ uint32_t L1_VPRO_GAM28P;
+ uint32_t L1_VPRO_GAM29P;
+ uint32_t L1_VPRO_GAM30P;
+ uint32_t L1_VPRO_GAM31P;
+ uint32_t L1_VPRO_GAM32P;
+ uint32_t L1_VPRO_GAM33P;
+ uint32_t L1_VPRO_GAM34P;
+ uint32_t L1_VPRO_GAM35P;
+ uint32_t L1_VPRO_GAM36P;
+ uint32_t L1_VPRO_GAM37P;
+ uint32_t L1_VPRO_GAM38P;
+ uint32_t L1_VPRO_GAM39P;
+ uint32_t L1_VPRO_GAM40P;
+ uint32_t L1_VPRO_GAM41P;
+ uint32_t L1_VPRO_GAM42P;
+ uint32_t L1_VPRO_GAM43P;
+ uint32_t L1_VPRO_GAM44P;
+ uint32_t L1_VPRO_Cb_MAT;
+ uint32_t L1_VPRO_Cr_MAT;
+ uint32_t L1_VPRO_BRIGHT;
+ uint32_t L1_VPRO_LCONT_LEV;
+ uint32_t L1_VPRO_BLK_KNEE;
+ uint32_t L1_VPRO_WHT_KNEE;
+ uint32_t L1_VPRO_BLK_CONT0;
+ uint32_t L1_VPRO_BLK_CONT1;
+ uint32_t L1_VPRO_BLK_CONT2;
+ uint32_t L1_VPRO_WHT_CONT0;
+ uint32_t L1_VPRO_WHT_CONT1;
+ uint32_t L1_VPRO_WHT_CONT2;
+ uint32_t RESERVED_A_128;
+ uint32_t RESERVED_A_129;
+ uint32_t RESERVED_A_130;
+ uint32_t RESERVED_A_131;
+ uint32_t RESERVED_A_132;
+ uint32_t RESERVED_A_133;
+ uint32_t L1_VPRO_YNR_GAIN_MIN;
+ uint32_t L1_VPRO_YNR_GAIN_MAX;
+ uint32_t L1_VPRO_YNR_LIM_MIN;
+ uint32_t L1_VPRO_YNR_LIM_MAX;
+ uint32_t L1_VPRO_ETE_GAIN_MIN;
+ uint32_t L1_VPRO_ETE_GAIN_MAX;
+ uint32_t L1_VPRO_ETE_LIM_MIN;
+ uint32_t L1_VPRO_ETE_LIM_MAX;
+ uint32_t L1_VPRO_ETE_CORING_MIN;
+ uint32_t L1_VPRO_ETE_CORING_MAX;
+ uint32_t L1_VPRO_Cb_GAIN;
+ uint32_t L1_VPRO_Cr_GAIN;
+ uint32_t L1_VPRO_Cbr_MGAIN_MIN;
+ uint32_t L1_VPRO_CbP_GAIN_MAX;
+ uint32_t L1_VPRO_CbM_GAIN_MAX;
+ uint32_t L1_VPRO_CrP_GAIN_MAX;
+ uint32_t L1_VPRO_CrM_GAIN_MAX;
+ uint32_t L1_VPRO_CSUP_CORING_LV_MIN;
+ uint32_t L1_VPRO_CSUP_CORING_LV_MAX;
+ uint32_t L1_VPRO_CSUP_CORING_GAIN_MIN;
+ uint32_t L1_VPRO_CSUP_CORING_GAIN_MAX;
+ uint32_t L1_VPRO_CSUP_BK_SLV;
+ uint32_t L1_VPRO_CSUP_BK_MP;
+ uint32_t L1_VPRO_CSUP_BLACK;
+ uint32_t L1_VPRO_CSUP_WH_SLV;
+ uint32_t L1_VPRO_CSUP_WH_MP;
+ uint32_t L1_VPRO_CSUP_WHITE;
+ uint32_t L1_VPRO_EDGE_SUP_GAIN;
+ uint32_t L1_VPRO_EDGE_SUP_LIM;
+ uint32_t RESERVED_B_15[22];
+ uint32_t L1_AWHB_SW;
+ uint32_t RESERVED_A_134;
+ uint32_t L1_AWHB_WBMRG;
+ uint32_t L1_AWHB_WBMGG;
+ uint32_t L1_AWHB_WBMBG;
+ uint32_t L1_AWHB_GATE_CONF0;
+ uint32_t L1_AWHB_GATE_CONF1;
+ uint32_t L1_AWHB_AREA_HSIZE;
+ uint32_t L1_AWHB_AREA_VSIZE;
+ uint32_t L1_AWHB_AREA_HOFS;
+ uint32_t L1_AWHB_AREA_VOFS;
+ uint32_t L1_AWHB_AREA_MASKH;
+ uint32_t L1_AWHB_AREA_MASKL;
+ uint32_t L1_AWHB_SQ_CONF;
+ uint32_t L1_AWHB_YGATEH;
+ uint32_t L1_AWHB_YGATEL;
+ uint32_t RESERVED_A_135;
+ uint32_t RESERVED_A_136;
+ uint32_t L1_AWHB_BYCUT0P;
+ uint32_t L1_AWHB_BYCUT0N;
+ uint32_t L1_AWHB_RYCUT0P;
+ uint32_t L1_AWHB_RYCUT0N;
+ uint32_t L1_AWHB_RBCUT0H;
+ uint32_t L1_AWHB_RBCUT0L;
+ uint32_t RESERVED_A_137;
+ uint32_t RESERVED_A_138;
+ uint32_t RESERVED_A_139;
+ uint32_t RESERVED_A_140;
+ uint32_t RESERVED_A_141;
+ uint32_t RESERVED_A_142;
+ uint32_t L1_AWHB_BYCUT1H;
+ uint32_t L1_AWHB_BYCUT1L;
+ uint32_t L1_AWHB_RYCUT1H;
+ uint32_t L1_AWHB_RYCUT1L;
+ uint32_t L1_AWHB_BYCUT2H;
+ uint32_t L1_AWHB_BYCUT2L;
+ uint32_t L1_AWHB_RYCUT2H;
+ uint32_t L1_AWHB_RYCUT2L;
+ uint32_t L1_AWHB_BYCUT3H;
+ uint32_t L1_AWHB_BYCUT3L;
+ uint32_t L1_AWHB_RYCUT3H;
+ uint32_t L1_AWHB_RYCUT3L;
+ uint32_t L1_AWHB_AWBSFTU;
+ uint32_t L1_AWHB_AWBSFTV;
+ uint32_t L1_AWHB_AWBSPD;
+ uint32_t L1_AWHB_AWBULV;
+ uint32_t L1_AWHB_AWBVLV;
+ uint32_t L1_AWHB_AWBWAIT;
+ uint32_t L1_AWHB_AWBONDOT;
+ uint32_t L1_AWHB_AWBFZTIM;
+ uint32_t L1_AWHB_WBGRMAX;
+ uint32_t L1_AWHB_WBGRMIN;
+ uint32_t L1_AWHB_WBGBMAX;
+ uint32_t L1_AWHB_WBGBMIN;
+ uint32_t RESERVED_A_143;
+ uint32_t RESERVED_A_144;
+ uint32_t RESERVED_A_145;
+ uint32_t RESERVED_A_146;
+ uint32_t RESERVED_A_147;
+ uint32_t RESERVED_A_148;
+ uint32_t RESERVED_A_149;
+ uint32_t RESERVED_A_150;
+ uint32_t RESERVED_A_151;
+ uint32_t RESERVED_A_152;
+ uint32_t RESERVED_A_153;
+ uint32_t RESERVED_A_154;
+ uint32_t RESERVED_A_155;
+ uint32_t L1_AWHB_AVE_USIG;
+ uint32_t L1_AWHB_AVE_VSIG;
+ uint32_t L1_AWHB_NUM_UVON;
+ uint32_t L1_AWHB_AWBGAINR;
+ uint32_t L1_AWHB_AWBGAING;
+ uint32_t L1_AWHB_AWBGAINB;
+ uint32_t RESERVED_A_156;
+ uint32_t RESERVED_A_157;
+ uint32_t RESERVED_A_158;
+ uint32_t L1_AWHB_R_CTR_STOP;
+ uint32_t RESERVED_A_159;
+ uint32_t RESERVED_B_16[2];
+ uint32_t L1_HOBC_EN;
+ uint32_t L1_HOBC_MARGIN;
+ uint32_t L1_HOBC01_AG_CONT;
+ uint32_t L1_HOBC2_AG_CONT;
+ uint32_t L1_HOBC0_LOB_REFLV_GR;
+ uint32_t L1_HOBC0_LOB_WIDTH_GR;
+ uint32_t L1_HOBC0_LOB_REFLV_R;
+ uint32_t L1_HOBC0_LOB_WIDTH_R;
+ uint32_t L1_HOBC0_LOB_REFLV_B;
+ uint32_t L1_HOBC0_LOB_WIDTH_B;
+ uint32_t L1_HOBC0_LOB_REFLV_GB;
+ uint32_t L1_HOBC0_LOB_WIDTH_GB;
+ uint32_t L1_HOBC1_LOB_REFLV_GR;
+ uint32_t L1_HOBC1_LOB_WIDTH_GR;
+ uint32_t L1_HOBC1_LOB_REFLV_R;
+ uint32_t L1_HOBC1_LOB_WIDTH_R;
+ uint32_t L1_HOBC1_LOB_REFLV_B;
+ uint32_t L1_HOBC1_LOB_WIDTH_B;
+ uint32_t L1_HOBC1_LOB_REFLV_GB;
+ uint32_t L1_HOBC1_LOB_WIDTH_GB;
+ uint32_t L1_HOBC2_LOB_REFLV_GR;
+ uint32_t L1_HOBC2_LOB_WIDTH_GR;
+ uint32_t L1_HOBC2_LOB_REFLV_R;
+ uint32_t L1_HOBC2_LOB_WIDTH_R;
+ uint32_t L1_HOBC2_LOB_REFLV_B;
+ uint32_t L1_HOBC2_LOB_WIDTH_B;
+ uint32_t L1_HOBC2_LOB_REFLV_GB;
+ uint32_t L1_HOBC2_LOB_WIDTH_GB;
+ uint32_t L1_HOBC0_SRC_BLKLV_GR;
+ uint32_t L1_HOBC0_SRC_BLKLV_R;
+ uint32_t L1_HOBC0_SRC_BLKLV_B;
+ uint32_t L1_HOBC0_SRC_BLKLV_GB;
+ uint32_t L1_HOBC1_SRC_BLKLV_GR;
+ uint32_t L1_HOBC1_SRC_BLKLV_R;
+ uint32_t L1_HOBC1_SRC_BLKLV_B;
+ uint32_t L1_HOBC1_SRC_BLKLV_GB;
+ uint32_t L1_HOBC2_SRC_BLKLV_GR;
+ uint32_t L1_HOBC2_SRC_BLKLV_R;
+ uint32_t L1_HOBC2_SRC_BLKLV_B;
+ uint32_t L1_HOBC2_SRC_BLKLV_GB;
+ uint32_t RESERVED_A_160;
+ uint32_t RESERVED_A_161;
+ uint32_t RESERVED_A_162;
+ uint32_t RESERVED_A_163;
+ uint32_t RESERVED_A_164;
+ uint32_t RESERVED_A_165;
+ uint32_t L1_HOBC_MAX_VAL;
+ uint32_t RESERVED_B_17[33];
+ uint32_t L1_HDRC_EN;
+ uint32_t L1_HDRC_THR_SFT_AMT;
+ uint32_t RESERVED_A_166;
+ uint32_t L1_HDRC_RATIO;
+ uint32_t RESERVED_A_167;
+ uint32_t RESERVED_A_168;
+ uint32_t RESERVED_A_169;
+ uint32_t L1_HDRC_PT_RATIO;
+ uint32_t L1_HDRC_PT_BLEND;
+ uint32_t L1_HDRC_PT_BLEND2;
+ uint32_t L1_HDRC_PT_SAT;
+ uint32_t L1_HDRC_TN_TYPE;
+ uint32_t L1_HDRC_TNP_MAX;
+ uint32_t L1_HDRC_TNP_MAG;
+ uint32_t L1_HDRC_TNP_FB_SMTH_MAX0;
+ uint32_t L1_HDRC_TNP_FB_SMTH_MAX1;
+ uint32_t L1_HDRC_TNP_FB_SMTH_MAX2;
+ uint32_t L1_HDRC_TNP_FB_SMTH_MAX3;
+ uint32_t L1_HDRC_TNP_FIL0;
+ uint32_t L1_HDRC_TNP_FIL1;
+ uint32_t L1_HDRC_TNP_FIL2;
+ uint32_t L1_HDRC_TNP_FIL3;
+ uint32_t L1_HDRC_TNP_FIL4;
+ uint32_t L1_HDRC_UTN_TBL0;
+ uint32_t L1_HDRC_UTN_TBL1;
+ uint32_t L1_HDRC_UTN_TBL2;
+ uint32_t L1_HDRC_UTN_TBL3;
+ uint32_t L1_HDRC_UTN_TBL4;
+ uint32_t L1_HDRC_UTN_TBL5;
+ uint32_t L1_HDRC_UTN_TBL6;
+ uint32_t L1_HDRC_UTN_TBL7;
+ uint32_t L1_HDRC_UTN_TBL8;
+ uint32_t L1_HDRC_UTN_TBL9;
+ uint32_t L1_HDRC_UTN_TBL10;
+ uint32_t L1_HDRC_UTN_TBL11;
+ uint32_t L1_HDRC_UTN_TBL12;
+ uint32_t L1_HDRC_UTN_TBL13;
+ uint32_t L1_HDRC_UTN_TBL14;
+ uint32_t L1_HDRC_UTN_TBL15;
+ uint32_t L1_HDRC_UTN_TBL16;
+ uint32_t L1_HDRC_UTN_TBL17;
+ uint32_t L1_HDRC_UTN_TBL18;
+ uint32_t L1_HDRC_UTN_TBL19;
+ uint32_t L1_HDRC_FLR_VAL;
+ uint32_t L1_HDRC_FLR_ADP;
+ uint32_t RESERVED_A_170;
+ uint32_t RESERVED_A_171;
+ uint32_t RESERVED_A_172;
+ uint32_t RESERVED_A_173;
+ uint32_t RESERVED_A_174;
+ uint32_t RESERVED_A_175;
+ uint32_t RESERVED_A_176;
+ uint32_t RESERVED_A_177;
+ uint32_t RESERVED_A_178;
+ uint32_t RESERVED_A_179;
+ uint32_t RESERVED_A_180;
+ uint32_t RESERVED_A_181;
+ uint32_t RESERVED_A_182;
+ uint32_t RESERVED_A_183;
+ uint32_t L1_HDRC_YBR_OFF;
+ uint32_t L1_HDRC_ORGY_BLEND;
+ uint32_t RESERVED_A_184;
+ uint32_t RESERVED_A_185;
+ uint32_t RESERVED_A_186;
+ uint32_t L1_HDRC_MAR_TOP;
+ uint32_t L1_HDRC_MAR_LEFT;
+ uint32_t RESERVED_A_187;
+ uint32_t RESERVED_A_188;
+ uint32_t RESERVED_B_18[28];
+ uint32_t L1_HIST_EN;
+ uint32_t L1_HIST_MODE;
+ uint32_t L1_HIST_BLOCK_OFST;
+ uint32_t L1_HIST_BLOCK_SIZE;
+ uint32_t L1_HIST_BLOCK_NUM;
+ uint32_t L1_HIST_BLOCK_STEP;
+ uint32_t L1_HIST_LINEAR_SFT;
+ uint32_t L1_HIST_MULT_A_R;
+ uint32_t L1_HIST_ADD_A_R;
+ uint32_t L1_HIST_MULT_B_R;
+ uint32_t L1_HIST_ADD_B_R;
+ uint32_t L1_HIST_MULT_A_G;
+ uint32_t L1_HIST_ADD_A_G;
+ uint32_t L1_HIST_MULT_B_G;
+ uint32_t L1_HIST_ADD_B_G;
+ uint32_t L1_HIST_MULT_A_B;
+ uint32_t L1_HIST_ADD_A_B;
+ uint32_t L1_HIST_MULT_B_B;
+ uint32_t L1_HIST_ADD_B_B;
+ uint32_t L1_HIST_MULT_A_Y;
+ uint32_t L1_HIST_ADD_A_Y;
+ uint32_t L1_HIST_MULT_B_Y;
+ uint32_t L1_HIST_ADD_B_Y;
+ uint32_t RESERVED_B_19[201];
+ uint32_t L1_CRGBF_ACC_CONF;
+ uint32_t L1_CRGBF_TRN_M_RUN;
+ uint32_t L1_CRGBF_TRN_M_CONF;
+ uint32_t L1_CRGBF_TRN_A_CONF;
+ uint32_t L1_CRGBF_TRN_STAT_CLR;
+ uint32_t L1_CRGBF_TRN_STAT;
+ uint32_t L1_CRGBF_INT_STAT;
+ uint32_t L1_CRGBF_INT_MASK;
+ uint32_t L1_CRGBF_INT_MASKED_STAT;
+ uint32_t L1_CRGBF_TRN_WBADDR;
+ uint32_t L1_CRGBF_TRN_WEADDR;
+ uint32_t L1_CRGBF_TRN_RBADDR;
+ uint32_t L1_CRGBF_TRN_READDR;
+ uint32_t L1_CRGBF_ISP_INT;
+ uint32_t L1_CRGBF_ISP_INT_MASK;
+ uint32_t L1_CRGBF_ISP_INT_MASKED_STAT;
+ uint32_t RESERVED_A_189;
+ uint32_t RESERVED_B_20[47];
+ uint32_t L1_VLATCH_SYSM_WIDTH;
+ uint32_t L1_VLATCH_SYSM_HEIGHT;
+ uint32_t L1_VLATCH_SYSM_START_COLOR;
+ uint32_t L1_VLATCH_SYSM_INPUT_MODE;
+ uint32_t RESERVED_A_190;
+ uint32_t L1_VLATCH_SYSM_YCOEF_R;
+ uint32_t L1_VLATCH_SYSM_YCOEF_G;
+ uint32_t L1_VLATCH_SYSM_YCOEF_B;
+ uint32_t RESERVED_A_191;
+ uint32_t RESERVED_A_192;
+ uint32_t RESERVED_A_193;
+ uint32_t RESERVED_A_194;
+ uint32_t RESERVED_A_195;
+ uint32_t RESERVED_A_196;
+ uint32_t RESERVED_B_21[2];
+ uint32_t L1_VLATCH_SYSM_AG_H;
+ uint32_t L1_VLATCH_SYSM_AG_M;
+ uint32_t L1_VLATCH_SYSM_AG_L;
+ uint32_t L1_VLATCH_SYSM_AG_PARAM_A;
+ uint32_t L1_VLATCH_SYSM_AG_PARAM_B;
+ uint32_t L1_VLATCH_SYSM_AG_PARAM_C;
+ uint32_t L1_VLATCH_SYSM_AG_PARAM_D;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_HOBC;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_ABPC;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_RCNR;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_LSSC;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_MPRO;
+ uint32_t L1_VLATCH_SYSM_AG_SEL_VPRO;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_HOBC01_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_HOBC2_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_ABPC01_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_ABPC2_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_RCNR01_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_RCNR2_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_LSSC_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_MPRO_EN;
+ uint32_t L1_VLATCH_SYSM_AG_CONT_VPRO_EN;
+ uint32_t RESERVED_A_197;
+ uint32_t L1_VLATCH_SYSM_MAN_CTXT;
+ uint32_t RESERVED_A_198;
+ uint32_t RESERVED_B_22[7];
+ uint32_t RESERVED_A_199;
+ uint32_t L1_VLATCH_HDRE_SrcPoint00;
+ uint32_t L1_VLATCH_HDRE_SrcPoint01;
+ uint32_t L1_VLATCH_HDRE_SrcPoint02;
+ uint32_t L1_VLATCH_HDRE_SrcPoint03;
+ uint32_t L1_VLATCH_HDRE_SrcPoint04;
+ uint32_t L1_VLATCH_HDRE_SrcPoint05;
+ uint32_t L1_VLATCH_HDRE_SrcPoint06;
+ uint32_t L1_VLATCH_HDRE_SrcPoint07;
+ uint32_t L1_VLATCH_HDRE_SrcPoint08;
+ uint32_t L1_VLATCH_HDRE_SrcPoint09;
+ uint32_t L1_VLATCH_HDRE_SrcPoint10;
+ uint32_t L1_VLATCH_HDRE_SrcPoint11;
+ uint32_t L1_VLATCH_HDRE_SrcPoint12;
+ uint32_t L1_VLATCH_HDRE_SrcPoint13;
+ uint32_t L1_VLATCH_HDRE_SrcPoint14;
+ uint32_t L1_VLATCH_HDRE_SrcPoint15;
+ uint32_t L1_VLATCH_HDRE_SrcBase00;
+ uint32_t L1_VLATCH_HDRE_SrcBase01;
+ uint32_t L1_VLATCH_HDRE_SrcBase02;
+ uint32_t L1_VLATCH_HDRE_SrcBase03;
+ uint32_t L1_VLATCH_HDRE_SrcBase04;
+ uint32_t L1_VLATCH_HDRE_SrcBase05;
+ uint32_t L1_VLATCH_HDRE_SrcBase06;
+ uint32_t L1_VLATCH_HDRE_SrcBase07;
+ uint32_t L1_VLATCH_HDRE_SrcBase08;
+ uint32_t L1_VLATCH_HDRE_SrcBase09;
+ uint32_t L1_VLATCH_HDRE_SrcBase10;
+ uint32_t L1_VLATCH_HDRE_SrcBase11;
+ uint32_t L1_VLATCH_HDRE_SrcBase12;
+ uint32_t L1_VLATCH_HDRE_SrcBase13;
+ uint32_t L1_VLATCH_HDRE_SrcBase14;
+ uint32_t L1_VLATCH_HDRE_SrcBase15;
+ uint32_t L1_VLATCH_HDRE_SrcBase16;
+ uint32_t L1_VLATCH_HDRE_Ratio00;
+ uint32_t L1_VLATCH_HDRE_Ratio01;
+ uint32_t L1_VLATCH_HDRE_Ratio02;
+ uint32_t L1_VLATCH_HDRE_Ratio03;
+ uint32_t L1_VLATCH_HDRE_Ratio04;
+ uint32_t L1_VLATCH_HDRE_Ratio05;
+ uint32_t L1_VLATCH_HDRE_Ratio06;
+ uint32_t L1_VLATCH_HDRE_Ratio07;
+ uint32_t L1_VLATCH_HDRE_Ratio08;
+ uint32_t L1_VLATCH_HDRE_Ratio09;
+ uint32_t L1_VLATCH_HDRE_Ratio10;
+ uint32_t L1_VLATCH_HDRE_Ratio11;
+ uint32_t L1_VLATCH_HDRE_Ratio12;
+ uint32_t L1_VLATCH_HDRE_Ratio13;
+ uint32_t L1_VLATCH_HDRE_Ratio14;
+ uint32_t L1_VLATCH_HDRE_Ratio15;
+ uint32_t L1_VLATCH_HDRE_Ratio16;
+ uint32_t L1_VLATCH_HDRE_DstBase00;
+ uint32_t L1_VLATCH_HDRE_DstBase01;
+ uint32_t L1_VLATCH_HDRE_DstBase02;
+ uint32_t L1_VLATCH_HDRE_DstBase03;
+ uint32_t L1_VLATCH_HDRE_DstBase04;
+ uint32_t L1_VLATCH_HDRE_DstBase05;
+ uint32_t L1_VLATCH_HDRE_DstBase06;
+ uint32_t L1_VLATCH_HDRE_DstBase07;
+ uint32_t L1_VLATCH_HDRE_DstBase08;
+ uint32_t L1_VLATCH_HDRE_DstBase09;
+ uint32_t L1_VLATCH_HDRE_DstBase10;
+ uint32_t L1_VLATCH_HDRE_DstBase11;
+ uint32_t L1_VLATCH_HDRE_DstBase12;
+ uint32_t L1_VLATCH_HDRE_DstBase13;
+ uint32_t L1_VLATCH_HDRE_DstBase14;
+ uint32_t L1_VLATCH_HDRE_DstBase15;
+ uint32_t L1_VLATCH_HDRE_DstBase16;
+ uint32_t L1_VLATCH_HDRE_DstMaxval;
+ uint32_t RESERVED_B_23[11];
+ uint32_t L1_VLATCH_AEXP_ON;
+ uint32_t RESERVED_A_200;
+ uint32_t RESERVED_A_201;
+ uint32_t L1_VLATCH_AEXP_FORCE_INTERRUPT_Y;
+ uint32_t L1_VLATCH_AEXP_START_X;
+ uint32_t L1_VLATCH_AEXP_START_Y;
+ uint32_t L1_VLATCH_AEXP_BLOCK_WIDTH;
+ uint32_t L1_VLATCH_AEXP_BLOCK_HEIGHT;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_0;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_1;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_2;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_3;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_4;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_5;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_6;
+ uint32_t L1_VLATCH_AEXP_WEIGHT_7;
+ uint32_t L1_VLATCH_AEXP_SATUR_RATIO;
+ uint32_t L1_VLATCH_AEXP_BLACK_RATIO;
+ uint32_t L1_VLATCH_AEXP_SATUR_LEVEL;
+ uint32_t RESERVED_A_202;
+ uint32_t RESERVED_A_203;
+ uint32_t RESERVED_A_204;
+ uint32_t RESERVED_A_205;
+ uint32_t RESERVED_A_206;
+ uint32_t RESERVED_A_207;
+ uint32_t RESERVED_A_208;
+ uint32_t RESERVED_A_209;
+ uint32_t RESERVED_A_210;
+ uint32_t RESERVED_A_211;
+ uint32_t RESERVED_A_212;
+ uint32_t RESERVED_A_213;
+ uint32_t RESERVED_A_214;
+ uint32_t RESERVED_A_215;
+ uint32_t RESERVED_A_216;
+ uint32_t RESERVED_A_217;
+ uint32_t RESERVED_A_218;
+ uint32_t RESERVED_A_219;
+ uint32_t RESERVED_A_220;
+ uint32_t RESERVED_A_221;
+ uint32_t RESERVED_A_222;
+ uint32_t RESERVED_A_223;
+ uint32_t RESERVED_A_224;
+ uint32_t RESERVED_A_225;
+ uint32_t RESERVED_A_226;
+ uint32_t RESERVED_A_227;
+ uint32_t RESERVED_A_228;
+ uint32_t RESERVED_A_229;
+ uint32_t RESERVED_A_230;
+ uint32_t RESERVED_A_231;
+ uint32_t RESERVED_A_232;
+ uint32_t RESERVED_A_233;
+ uint32_t RESERVED_A_234;
+ uint32_t RESERVED_A_235;
+ uint32_t RESERVED_A_236;
+ uint32_t RESERVED_A_237;
+ uint32_t RESERVED_A_238;
+ uint32_t RESERVED_A_239;
+ uint32_t RESERVED_A_240;
+ uint32_t RESERVED_A_241;
+ uint32_t RESERVED_A_242;
+ uint32_t RESERVED_A_243;
+ uint32_t RESERVED_A_244;
+ uint32_t RESERVED_A_245;
+ uint32_t RESERVED_A_246;
+ uint32_t RESERVED_A_247;
+ uint32_t RESERVED_A_248;
+ uint32_t RESERVED_A_249;
+ uint32_t RESERVED_A_250;
+ uint32_t RESERVED_A_251;
+ uint32_t RESERVED_A_252;
+ uint32_t RESERVED_A_253;
+ uint32_t RESERVED_A_254;
+ uint32_t RESERVED_A_255;
+ uint32_t RESERVED_A_256;
+ uint32_t RESERVED_A_257;
+ uint32_t RESERVED_A_258;
+ uint32_t RESERVED_A_259;
+ uint32_t RESERVED_A_260;
+ uint32_t RESERVED_A_261;
+ uint32_t RESERVED_A_262;
+ uint32_t RESERVED_A_263;
+ uint32_t RESERVED_A_264;
+ uint32_t RESERVED_A_265;
+ uint32_t RESERVED_A_266;
+ uint32_t RESERVED_A_267;
+ uint32_t L1_VLATCH_AEXP_AVE4LINESY0;
+ uint32_t L1_VLATCH_AEXP_AVE4LINESY1;
+ uint32_t L1_VLATCH_AEXP_AVE4LINESY2;
+ uint32_t L1_VLATCH_AEXP_AVE4LINESY3;
+ uint32_t RESERVED_A_268;
+ uint32_t RESERVED_A_269;
+ uint32_t RESERVED_A_270;
+ uint32_t RESERVED_A_271;
+ uint32_t RESERVED_B_24[3];
+ uint32_t L1_VLATCH_IBUF_DEPTH;
+ uint32_t L1_VLATCH_IBUF_INPUT_ORDER;
+ uint32_t RESERVED_B_25[2];
+ uint32_t L1_VLATCH_SLIC_SrcBlackLevelGr;
+ uint32_t L1_VLATCH_SLIC_SrcBlackLevelR;
+ uint32_t L1_VLATCH_SLIC_SrcBlackLevelB;
+ uint32_t L1_VLATCH_SLIC_SrcBlackLevelGb;
+ uint32_t RESERVED_A_272;
+ uint32_t RESERVED_A_273;
+ uint32_t RESERVED_A_274;
+ uint32_t RESERVED_A_275;
+ uint32_t RESERVED_A_276;
+ uint32_t RESERVED_B_26[19];
+ uint32_t RESERVED_A_277;
+ uint32_t RESERVED_A_278;
+ uint32_t RESERVED_A_279;
+ uint32_t L1_VLATCH_ABPC012_STA_EN;
+ uint32_t L1_VLATCH_ABPC012_DYN_EN;
+ uint32_t L1_VLATCH_ABPC012_DYN_MODE;
+ uint32_t RESERVED_A_280;
+ uint32_t RESERVED_A_281;
+ uint32_t RESERVED_A_282;
+ uint32_t L1_VLATCH_ABPC0_RATIO_LIMIT;
+ uint32_t RESERVED_A_283;
+ uint32_t L1_VLATCH_ABPC0_DARK_LIMIT;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_W_AG_MIN;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_W_AG_MID;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_W_AG_MAX;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_W_TH_MIN;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_W_TH_MAX;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_B_AG_MIN;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_B_AG_MID;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_B_AG_MAX;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_B_TH_MIN;
+ uint32_t L1_VLATCH_ABPC0_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_284;
+ uint32_t RESERVED_A_285;
+ uint32_t L1_VLATCH_ABPC1_RATIO_LIMIT;
+ uint32_t RESERVED_A_286;
+ uint32_t L1_VLATCH_ABPC1_DARK_LIMIT;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_W_AG_MIN;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_W_AG_MID;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_W_AG_MAX;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_W_TH_MIN;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_W_TH_MAX;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_B_AG_MIN;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_B_AG_MID;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_B_AG_MAX;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_B_TH_MIN;
+ uint32_t L1_VLATCH_ABPC1_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_287;
+ uint32_t RESERVED_A_288;
+ uint32_t L1_VLATCH_ABPC2_RATIO_LIMIT;
+ uint32_t RESERVED_A_289;
+ uint32_t L1_VLATCH_ABPC2_DARK_LIMIT;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_W_AG_MIN;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_W_AG_MID;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_W_AG_MAX;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_W_TH_MIN;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_W_TH_MAX;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_B_AG_MIN;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_B_AG_MID;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_B_AG_MAX;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_B_TH_MIN;
+ uint32_t L1_VLATCH_ABPC2_SN_COEF_B_TH_MAX;
+ uint32_t RESERVED_A_290;
+ uint32_t RESERVED_A_291;
+ uint32_t RESERVED_B_27[42];
+ uint32_t RESERVED_A_292;
+ uint32_t L1_VLATCH_PWHB_HGr;
+ uint32_t L1_VLATCH_PWHB_HR;
+ uint32_t L1_VLATCH_PWHB_HB;
+ uint32_t L1_VLATCH_PWHB_HGb;
+ uint32_t L1_VLATCH_PWHB_MGr;
+ uint32_t L1_VLATCH_PWHB_MR;
+ uint32_t L1_VLATCH_PWHB_MB;
+ uint32_t L1_VLATCH_PWHB_MGb;
+ uint32_t L1_VLATCH_PWHB_LGr;
+ uint32_t L1_VLATCH_PWHB_LR;
+ uint32_t L1_VLATCH_PWHB_LB;
+ uint32_t L1_VLATCH_PWHB_LGb;
+ uint32_t L1_VLATCH_PWHB_DstMaxval;
+ uint32_t RESERVED_B_28[18];
+ uint32_t RESERVED_A_293;
+ uint32_t RESERVED_A_294;
+ uint32_t L1_VLATCH_RCNR0_SW;
+ uint32_t L1_VLATCH_RCNR0_CNF_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR0_CNF_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR0_CNF_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR0_CNF_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR0_CNF_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR0_CNF_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR0_CNF_CLIP_GAIN_R;
+ uint32_t L1_VLATCH_RCNR0_CNF_CLIP_GAIN_G;
+ uint32_t L1_VLATCH_RCNR0_CNF_CLIP_GAIN_B;
+ uint32_t L1_VLATCH_RCNR0_A1L_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR0_A1L_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR0_A1L_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR0_A1L_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR0_A1L_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR0_A1L_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR0_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_295;
+ uint32_t L1_VLATCH_RCNR0_MERGE_D2BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR0_MERGE_D2BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR0_MERGE_D2BLEND_AG2;
+ uint32_t L1_VLATCH_RCNR0_MERGE_BLACK;
+ uint32_t L1_VLATCH_RCNR0_MERGE_MINDIV;
+ uint32_t L1_VLATCH_RCNR0_HRY_TYPE;
+ uint32_t L1_VLATCH_RCNR0_ANF_BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR0_ANF_BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR0_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_296;
+ uint32_t L1_VLATCH_RCNR0_LPF_THRESHOLD;
+ uint32_t L1_VLATCH_RCNR0_MERGE_HLBLEND_AG0;
+ uint32_t L1_VLATCH_RCNR0_MERGE_HLBLEND_AG1;
+ uint32_t L1_VLATCH_RCNR0_MERGE_HLBLEND_AG2;
+ uint32_t L1_VLATCH_RCNR0_GNR_SW;
+ uint32_t L1_VLATCH_RCNR0_GNR_RATIO;
+ uint32_t L1_VLATCH_RCNR0_GNR_WIDE_EN;
+ uint32_t RESERVED_A_297;
+ uint32_t RESERVED_A_298;
+ uint32_t L1_VLATCH_RCNR1_SW;
+ uint32_t L1_VLATCH_RCNR1_CNF_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR1_CNF_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR1_CNF_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR1_CNF_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR1_CNF_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR1_CNF_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR1_CNF_CLIP_GAIN_R;
+ uint32_t L1_VLATCH_RCNR1_CNF_CLIP_GAIN_G;
+ uint32_t L1_VLATCH_RCNR1_CNF_CLIP_GAIN_B;
+ uint32_t L1_VLATCH_RCNR1_A1L_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR1_A1L_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR1_A1L_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR1_A1L_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR1_A1L_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR1_A1L_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR1_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_299;
+ uint32_t L1_VLATCH_RCNR1_MERGE_D2BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR1_MERGE_D2BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR1_MERGE_D2BLEND_AG2;
+ uint32_t L1_VLATCH_RCNR1_MERGE_BLACK;
+ uint32_t L1_VLATCH_RCNR1_MERGE_MINDIV;
+ uint32_t L1_VLATCH_RCNR1_HRY_TYPE;
+ uint32_t L1_VLATCH_RCNR1_ANF_BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR1_ANF_BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR1_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_300;
+ uint32_t L1_VLATCH_RCNR1_LPF_THRESHOLD;
+ uint32_t L1_VLATCH_RCNR1_MERGE_HLBLEND_AG0;
+ uint32_t L1_VLATCH_RCNR1_MERGE_HLBLEND_AG1;
+ uint32_t L1_VLATCH_RCNR1_MERGE_HLBLEND_AG2;
+ uint32_t L1_VLATCH_RCNR1_GNR_SW;
+ uint32_t L1_VLATCH_RCNR1_GNR_RATIO;
+ uint32_t L1_VLATCH_RCNR1_GNR_WIDE_EN;
+ uint32_t RESERVED_A_301;
+ uint32_t RESERVED_A_302;
+ uint32_t L1_VLATCH_RCNR2_SW;
+ uint32_t L1_VLATCH_RCNR2_CNF_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR2_CNF_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR2_CNF_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR2_CNF_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR2_CNF_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR2_CNF_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR2_CNF_CLIP_GAIN_R;
+ uint32_t L1_VLATCH_RCNR2_CNF_CLIP_GAIN_G;
+ uint32_t L1_VLATCH_RCNR2_CNF_CLIP_GAIN_B;
+ uint32_t L1_VLATCH_RCNR2_A1L_DARK_AG0;
+ uint32_t L1_VLATCH_RCNR2_A1L_DARK_AG1;
+ uint32_t L1_VLATCH_RCNR2_A1L_DARK_AG2;
+ uint32_t L1_VLATCH_RCNR2_A1L_RATIO_AG0;
+ uint32_t L1_VLATCH_RCNR2_A1L_RATIO_AG1;
+ uint32_t L1_VLATCH_RCNR2_A1L_RATIO_AG2;
+ uint32_t L1_VLATCH_RCNR2_INF_ZERO_CLIP;
+ uint32_t RESERVED_A_303;
+ uint32_t L1_VLATCH_RCNR2_MERGE_D2BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR2_MERGE_D2BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR2_MERGE_D2BLEND_AG2;
+ uint32_t L1_VLATCH_RCNR2_MERGE_BLACK;
+ uint32_t L1_VLATCH_RCNR2_MERGE_MINDIV;
+ uint32_t L1_VLATCH_RCNR2_HRY_TYPE;
+ uint32_t L1_VLATCH_RCNR2_ANF_BLEND_AG0;
+ uint32_t L1_VLATCH_RCNR2_ANF_BLEND_AG1;
+ uint32_t L1_VLATCH_RCNR2_ANF_BLEND_AG2;
+ uint32_t RESERVED_A_304;
+ uint32_t L1_VLATCH_RCNR2_LPF_THRESHOLD;
+ uint32_t L1_VLATCH_RCNR2_MERGE_HLBLEND_AG0;
+ uint32_t L1_VLATCH_RCNR2_MERGE_HLBLEND_AG1;
+ uint32_t L1_VLATCH_RCNR2_MERGE_HLBLEND_AG2;
+ uint32_t L1_VLATCH_RCNR2_GNR_SW;
+ uint32_t L1_VLATCH_RCNR2_GNR_RATIO;
+ uint32_t L1_VLATCH_RCNR2_GNR_WIDE_EN;
+ uint32_t RESERVED_B_29[49];
+ uint32_t RESERVED_A_305;
+ uint32_t L1_VLATCH_HDRS_HdrRatioM;
+ uint32_t L1_VLATCH_HDRS_HdrRatioL;
+ uint32_t L1_VLATCH_HDRS_HdrRatioE;
+ uint32_t RESERVED_A_306;
+ uint32_t RESERVED_A_307;
+ uint32_t L1_VLATCH_HDRS_BlendEndH;
+ uint32_t L1_VLATCH_HDRS_BlendEndM;
+ uint32_t L1_VLATCH_HDRS_BlendEndE;
+ uint32_t L1_VLATCH_HDRS_BlendBegH;
+ uint32_t L1_VLATCH_HDRS_BlendBegM;
+ uint32_t L1_VLATCH_HDRS_BlendBegE;
+ uint32_t RESERVED_A_308;
+ uint32_t RESERVED_A_309;
+ uint32_t RESERVED_A_310;
+ uint32_t RESERVED_A_311;
+ uint32_t RESERVED_A_312;
+ uint32_t RESERVED_A_313;
+ uint32_t L1_VLATCH_HDRS_DgH;
+ uint32_t L1_VLATCH_HDRS_DgM;
+ uint32_t L1_VLATCH_HDRS_DgL;
+ uint32_t L1_VLATCH_HDRS_DgE;
+ uint32_t L1_VLATCH_HDRS_LedModeOn;
+ uint32_t L1_VLATCH_HDRS_HdrMode;
+ uint32_t RESERVED_A_314;
+ uint32_t RESERVED_A_315;
+ uint32_t RESERVED_A_316;
+ uint32_t L1_VLATCH_HDRS_DstMaxval;
+ uint32_t RESERVED_B_30[4];
+ uint32_t L1_VLATCH_BLVC_SrcBlackLevelGr;
+ uint32_t L1_VLATCH_BLVC_SrcBlackLevelR;
+ uint32_t L1_VLATCH_BLVC_SrcBlackLevelB;
+ uint32_t L1_VLATCH_BLVC_SrcBlackLevelGb;
+ uint32_t L1_VLATCH_BLVC_MultValGr;
+ uint32_t L1_VLATCH_BLVC_MultValR;
+ uint32_t L1_VLATCH_BLVC_MultValB;
+ uint32_t L1_VLATCH_BLVC_MultValGb;
+ uint32_t L1_VLATCH_BLVC_DstMaxval;
+ uint32_t RESERVED_A_317;
+ uint32_t RESERVED_A_318;
+ uint32_t RESERVED_A_319;
+ uint32_t RESERVED_A_320;
+ uint32_t RESERVED_A_321;
+ uint32_t RESERVED_A_322;
+ uint32_t RESERVED_B_31[17];
+ uint32_t L1_VLATCH_LSSC_EN;
+ uint32_t RESERVED_A_323;
+ uint32_t RESERVED_A_324;
+ uint32_t RESERVED_A_325;
+ uint32_t L1_VLATCH_LSSC_PWHB_R_GAIN;
+ uint32_t L1_VLATCH_LSSC_PWHB_GR_GAIN;
+ uint32_t L1_VLATCH_LSSC_PWHB_GB_GAIN;
+ uint32_t L1_VLATCH_LSSC_PWHB_B_GAIN;
+ uint32_t L1_VLATCH_LSSC_PARA_EN;
+ uint32_t L1_VLATCH_LSSC_PARA_H_CENTER;
+ uint32_t L1_VLATCH_LSSC_PARA_V_CENTER;
+ uint32_t L1_VLATCH_LSSC_PARA_H_GAIN;
+ uint32_t L1_VLATCH_LSSC_PARA_V_GAIN;
+ uint32_t L1_VLATCH_LSSC_PARA_MGSEL2;
+ uint32_t L1_VLATCH_LSSC_PARA_MGSEL4;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_2D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_R_COEF_4D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_2D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_GR_COEF_4D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_2D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_GB_COEF_4D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_2D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_H_L;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_H_R;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_V_U;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_V_D;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_LU;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_RU;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_LD;
+ uint32_t L1_VLATCH_LSSC_PARA_B_COEF_4D_HV_RD;
+ uint32_t L1_VLATCH_LSSC_GRID_EN;
+ uint32_t L1_VLATCH_LSSC_GRID_H_CENTER;
+ uint32_t L1_VLATCH_LSSC_GRID_V_CENTER;
+ uint32_t L1_VLATCH_LSSC_GRID_H_SIZE;
+ uint32_t L1_VLATCH_LSSC_GRID_V_SIZE;
+ uint32_t L1_VLATCH_LSSC_GRID_MGSEL;
+ uint32_t RESERVED_B_32[11];
+ uint32_t L1_VLATCH_MPRO_SW;
+ uint32_t L1_VLATCH_MPRO_CONF;
+ uint32_t RESERVED_A_326;
+ uint32_t L1_VLATCH_MPRO_DST_MINVAL;
+ uint32_t L1_VLATCH_MPRO_DST_MAXVAL;
+ uint32_t RESERVED_A_327;
+ uint32_t RESERVED_A_328;
+ uint32_t RESERVED_A_329;
+ uint32_t L1_VLATCH_MPRO_LM0_RMG_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_RMB_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_GMR_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_GMB_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_BMR_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_BMG_MIN;
+ uint32_t L1_VLATCH_MPRO_LM0_RMG_MAX;
+ uint32_t L1_VLATCH_MPRO_LM0_RMB_MAX;
+ uint32_t L1_VLATCH_MPRO_LM0_GMR_MAX;
+ uint32_t L1_VLATCH_MPRO_LM0_GMB_MAX;
+ uint32_t L1_VLATCH_MPRO_LM0_BMR_MAX;
+ uint32_t L1_VLATCH_MPRO_LM0_BMG_MAX;
+ uint32_t RESERVED_A_330;
+ uint32_t RESERVED_A_331;
+ uint32_t RESERVED_A_332;
+ uint32_t RESERVED_A_333;
+ uint32_t RESERVED_A_334;
+ uint32_t RESERVED_A_335;
+ uint32_t RESERVED_A_336;
+ uint32_t RESERVED_A_337;
+ uint32_t RESERVED_A_338;
+ uint32_t RESERVED_A_339;
+ uint32_t RESERVED_A_340;
+ uint32_t RESERVED_A_341;
+ uint32_t RESERVED_A_342;
+ uint32_t RESERVED_A_343;
+ uint32_t RESERVED_A_344;
+ uint32_t RESERVED_A_345;
+ uint32_t RESERVED_A_346;
+ uint32_t RESERVED_A_347;
+ uint32_t RESERVED_A_348;
+ uint32_t RESERVED_A_349;
+ uint32_t RESERVED_A_350;
+ uint32_t RESERVED_A_351;
+ uint32_t RESERVED_A_352;
+ uint32_t RESERVED_A_353;
+ uint32_t RESERVED_A_354;
+ uint32_t RESERVED_A_355;
+ uint32_t RESERVED_A_356;
+ uint32_t RESERVED_A_357;
+ uint32_t RESERVED_A_358;
+ uint32_t RESERVED_A_359;
+ uint32_t RESERVED_A_360;
+ uint32_t RESERVED_A_361;
+ uint32_t RESERVED_A_362;
+ uint32_t RESERVED_A_363;
+ uint32_t RESERVED_A_364;
+ uint32_t RESERVED_A_365;
+ uint32_t RESERVED_A_366;
+ uint32_t RESERVED_A_367;
+ uint32_t RESERVED_A_368;
+ uint32_t RESERVED_B_33[1];
+ uint32_t L1_VLATCH_MPRO_LCS_MODE;
+ uint32_t RESERVED_A_369;
+ uint32_t RESERVED_A_370;
+ uint32_t RESERVED_A_371;
+ uint32_t RESERVED_A_372;
+ uint32_t RESERVED_A_373;
+ uint32_t RESERVED_A_374;
+ uint32_t RESERVED_A_375;
+ uint32_t RESERVED_A_376;
+ uint32_t RESERVED_A_377;
+ uint32_t RESERVED_A_378;
+ uint32_t RESERVED_A_379;
+ uint32_t RESERVED_A_380;
+ uint32_t RESERVED_A_381;
+ uint32_t RESERVED_A_382;
+ uint32_t RESERVED_A_383;
+ uint32_t RESERVED_A_384;
+ uint32_t RESERVED_A_385;
+ uint32_t RESERVED_A_386;
+ uint32_t RESERVED_A_387;
+ uint32_t RESERVED_A_388;
+ uint32_t RESERVED_A_389;
+ uint32_t RESERVED_A_390;
+ uint32_t RESERVED_A_391;
+ uint32_t RESERVED_A_392;
+ uint32_t RESERVED_A_393;
+ uint32_t RESERVED_A_394;
+ uint32_t RESERVED_A_395;
+ uint32_t RESERVED_A_396;
+ uint32_t RESERVED_A_397;
+ uint32_t RESERVED_B_34[70];
+ uint32_t L1_VLATCH_VPRO_PGC_SW;
+ uint32_t RESERVED_A_398;
+ uint32_t L1_VLATCH_VPRO_YUVC_SW;
+ uint32_t L1_VLATCH_VPRO_YNR_SW;
+ uint32_t L1_VLATCH_VPRO_ETE_SW;
+ uint32_t L1_VLATCH_VPRO_CSUP_UVSUP_SW;
+ uint32_t L1_VLATCH_VPRO_CSUP_CORING_SW;
+ uint32_t L1_VLATCH_VPRO_BRIGHT_SW;
+ uint32_t L1_VLATCH_VPRO_LCNT_SW;
+ uint32_t L1_VLATCH_VPRO_NLCNT_SW;
+ uint32_t RESERVED_A_399;
+ uint32_t L1_VLATCH_VPRO_EDGE_SUP_SW;
+ uint32_t L1_VLATCH_VPRO_CNR_SW;
+ uint32_t RESERVED_A_400;
+ uint32_t L1_VLATCH_VPRO_BLKADJ;
+ uint32_t L1_VLATCH_VPRO_GAM01P;
+ uint32_t L1_VLATCH_VPRO_GAM02P;
+ uint32_t L1_VLATCH_VPRO_GAM03P;
+ uint32_t L1_VLATCH_VPRO_GAM04P;
+ uint32_t L1_VLATCH_VPRO_GAM05P;
+ uint32_t L1_VLATCH_VPRO_GAM06P;
+ uint32_t L1_VLATCH_VPRO_GAM07P;
+ uint32_t L1_VLATCH_VPRO_GAM08P;
+ uint32_t L1_VLATCH_VPRO_GAM09P;
+ uint32_t L1_VLATCH_VPRO_GAM10P;
+ uint32_t L1_VLATCH_VPRO_GAM11P;
+ uint32_t L1_VLATCH_VPRO_GAM12P;
+ uint32_t L1_VLATCH_VPRO_GAM13P;
+ uint32_t L1_VLATCH_VPRO_GAM14P;
+ uint32_t L1_VLATCH_VPRO_GAM15P;
+ uint32_t L1_VLATCH_VPRO_GAM16P;
+ uint32_t L1_VLATCH_VPRO_GAM17P;
+ uint32_t L1_VLATCH_VPRO_GAM18P;
+ uint32_t L1_VLATCH_VPRO_GAM19P;
+ uint32_t L1_VLATCH_VPRO_GAM20P;
+ uint32_t L1_VLATCH_VPRO_GAM21P;
+ uint32_t L1_VLATCH_VPRO_GAM22P;
+ uint32_t L1_VLATCH_VPRO_GAM23P;
+ uint32_t L1_VLATCH_VPRO_GAM24P;
+ uint32_t L1_VLATCH_VPRO_GAM25P;
+ uint32_t L1_VLATCH_VPRO_GAM26P;
+ uint32_t L1_VLATCH_VPRO_GAM27P;
+ uint32_t L1_VLATCH_VPRO_GAM28P;
+ uint32_t L1_VLATCH_VPRO_GAM29P;
+ uint32_t L1_VLATCH_VPRO_GAM30P;
+ uint32_t L1_VLATCH_VPRO_GAM31P;
+ uint32_t L1_VLATCH_VPRO_GAM32P;
+ uint32_t L1_VLATCH_VPRO_GAM33P;
+ uint32_t L1_VLATCH_VPRO_GAM34P;
+ uint32_t L1_VLATCH_VPRO_GAM35P;
+ uint32_t L1_VLATCH_VPRO_GAM36P;
+ uint32_t L1_VLATCH_VPRO_GAM37P;
+ uint32_t L1_VLATCH_VPRO_GAM38P;
+ uint32_t L1_VLATCH_VPRO_GAM39P;
+ uint32_t L1_VLATCH_VPRO_GAM40P;
+ uint32_t L1_VLATCH_VPRO_GAM41P;
+ uint32_t L1_VLATCH_VPRO_GAM42P;
+ uint32_t L1_VLATCH_VPRO_GAM43P;
+ uint32_t L1_VLATCH_VPRO_GAM44P;
+ uint32_t L1_VLATCH_VPRO_Cb_MAT;
+ uint32_t L1_VLATCH_VPRO_Cr_MAT;
+ uint32_t L1_VLATCH_VPRO_BRIGHT;
+ uint32_t L1_VLATCH_VPRO_LCONT_LEV;
+ uint32_t L1_VLATCH_VPRO_BLK_KNEE;
+ uint32_t L1_VLATCH_VPRO_WHT_KNEE;
+ uint32_t L1_VLATCH_VPRO_BLK_CONT0;
+ uint32_t L1_VLATCH_VPRO_BLK_CONT1;
+ uint32_t L1_VLATCH_VPRO_BLK_CONT2;
+ uint32_t L1_VLATCH_VPRO_WHT_CONT0;
+ uint32_t L1_VLATCH_VPRO_WHT_CONT1;
+ uint32_t L1_VLATCH_VPRO_WHT_CONT2;
+ uint32_t RESERVED_A_401;
+ uint32_t RESERVED_A_402;
+ uint32_t RESERVED_A_403;
+ uint32_t RESERVED_A_404;
+ uint32_t RESERVED_A_405;
+ uint32_t RESERVED_A_406;
+ uint32_t L1_VLATCH_VPRO_YNR_GAIN_MIN;
+ uint32_t L1_VLATCH_VPRO_YNR_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_YNR_LIM_MIN;
+ uint32_t L1_VLATCH_VPRO_YNR_LIM_MAX;
+ uint32_t L1_VLATCH_VPRO_ETE_GAIN_MIN;
+ uint32_t L1_VLATCH_VPRO_ETE_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_ETE_LIM_MIN;
+ uint32_t L1_VLATCH_VPRO_ETE_LIM_MAX;
+ uint32_t L1_VLATCH_VPRO_ETE_CORING_MIN;
+ uint32_t L1_VLATCH_VPRO_ETE_CORING_MAX;
+ uint32_t L1_VLATCH_VPRO_Cb_GAIN;
+ uint32_t L1_VLATCH_VPRO_Cr_GAIN;
+ uint32_t L1_VLATCH_VPRO_Cbr_MGAIN_MIN;
+ uint32_t L1_VLATCH_VPRO_CbP_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_CbM_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_CrP_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_CrM_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_CSUP_CORING_LV_MIN;
+ uint32_t L1_VLATCH_VPRO_CSUP_CORING_LV_MAX;
+ uint32_t L1_VLATCH_VPRO_CSUP_CORING_GAIN_MIN;
+ uint32_t L1_VLATCH_VPRO_CSUP_CORING_GAIN_MAX;
+ uint32_t L1_VLATCH_VPRO_CSUP_BK_SLV;
+ uint32_t L1_VLATCH_VPRO_CSUP_BK_MP;
+ uint32_t L1_VLATCH_VPRO_CSUP_BLACK;
+ uint32_t L1_VLATCH_VPRO_CSUP_WH_SLV;
+ uint32_t L1_VLATCH_VPRO_CSUP_WH_MP;
+ uint32_t L1_VLATCH_VPRO_CSUP_WHITE;
+ uint32_t L1_VLATCH_VPRO_EDGE_SUP_GAIN;
+ uint32_t L1_VLATCH_VPRO_EDGE_SUP_LIM;
+ uint32_t RESERVED_B_35[22];
+ uint32_t L1_VLATCH_AWHB_SW;
+ uint32_t RESERVED_A_407;
+ uint32_t L1_VLATCH_AWHB_WBMRG;
+ uint32_t L1_VLATCH_AWHB_WBMGG;
+ uint32_t L1_VLATCH_AWHB_WBMBG;
+ uint32_t L1_VLATCH_AWHB_GATE_CONF0;
+ uint32_t L1_VLATCH_AWHB_GATE_CONF1;
+ uint32_t L1_VLATCH_AWHB_AREA_HSIZE;
+ uint32_t L1_VLATCH_AWHB_AREA_VSIZE;
+ uint32_t L1_VLATCH_AWHB_AREA_HOFS;
+ uint32_t L1_VLATCH_AWHB_AREA_VOFS;
+ uint32_t L1_VLATCH_AWHB_AREA_MASKH;
+ uint32_t L1_VLATCH_AWHB_AREA_MASKL;
+ uint32_t L1_VLATCH_AWHB_SQ_CONF;
+ uint32_t L1_VLATCH_AWHB_YGATEH;
+ uint32_t L1_VLATCH_AWHB_YGATEL;
+ uint32_t RESERVED_A_408;
+ uint32_t RESERVED_A_409;
+ uint32_t L1_VLATCH_AWHB_BYCUT0P;
+ uint32_t L1_VLATCH_AWHB_BYCUT0N;
+ uint32_t L1_VLATCH_AWHB_RYCUT0P;
+ uint32_t L1_VLATCH_AWHB_RYCUT0N;
+ uint32_t L1_VLATCH_AWHB_RBCUT0H;
+ uint32_t L1_VLATCH_AWHB_RBCUT0L;
+ uint32_t RESERVED_A_410;
+ uint32_t RESERVED_A_411;
+ uint32_t RESERVED_A_412;
+ uint32_t RESERVED_A_413;
+ uint32_t RESERVED_A_414;
+ uint32_t RESERVED_A_415;
+ uint32_t L1_VLATCH_AWHB_BYCUT1H;
+ uint32_t L1_VLATCH_AWHB_BYCUT1L;
+ uint32_t L1_VLATCH_AWHB_RYCUT1H;
+ uint32_t L1_VLATCH_AWHB_RYCUT1L;
+ uint32_t L1_VLATCH_AWHB_BYCUT2H;
+ uint32_t L1_VLATCH_AWHB_BYCUT2L;
+ uint32_t L1_VLATCH_AWHB_RYCUT2H;
+ uint32_t L1_VLATCH_AWHB_RYCUT2L;
+ uint32_t L1_VLATCH_AWHB_BYCUT3H;
+ uint32_t L1_VLATCH_AWHB_BYCUT3L;
+ uint32_t L1_VLATCH_AWHB_RYCUT3H;
+ uint32_t L1_VLATCH_AWHB_RYCUT3L;
+ uint32_t L1_VLATCH_AWHB_AWBSFTU;
+ uint32_t L1_VLATCH_AWHB_AWBSFTV;
+ uint32_t L1_VLATCH_AWHB_AWBSPD;
+ uint32_t L1_VLATCH_AWHB_AWBULV;
+ uint32_t L1_VLATCH_AWHB_AWBVLV;
+ uint32_t L1_VLATCH_AWHB_AWBWAIT;
+ uint32_t L1_VLATCH_AWHB_AWBONDOT;
+ uint32_t L1_VLATCH_AWHB_AWBFZTIM;
+ uint32_t L1_VLATCH_AWHB_WBGRMAX;
+ uint32_t L1_VLATCH_AWHB_WBGRMIN;
+ uint32_t L1_VLATCH_AWHB_WBGBMAX;
+ uint32_t L1_VLATCH_AWHB_WBGBMIN;
+ uint32_t RESERVED_A_416;
+ uint32_t RESERVED_A_417;
+ uint32_t RESERVED_A_418;
+ uint32_t RESERVED_A_419;
+ uint32_t RESERVED_A_420;
+ uint32_t RESERVED_A_421;
+ uint32_t RESERVED_A_422;
+ uint32_t RESERVED_A_423;
+ uint32_t RESERVED_A_424;
+ uint32_t RESERVED_A_425;
+ uint32_t RESERVED_A_426;
+ uint32_t RESERVED_A_427;
+ uint32_t RESERVED_A_428;
+ uint32_t RESERVED_A_429;
+ uint32_t RESERVED_A_430;
+ uint32_t RESERVED_A_431;
+ uint32_t RESERVED_A_432;
+ uint32_t RESERVED_A_433;
+ uint32_t RESERVED_A_434;
+ uint32_t RESERVED_A_435;
+ uint32_t RESERVED_A_436;
+ uint32_t RESERVED_A_437;
+ uint32_t RESERVED_A_438;
+ uint32_t RESERVED_A_439;
+ uint32_t RESERVED_B_36[2];
+ uint32_t L1_VLATCH_HOBC_EN;
+ uint32_t L1_VLATCH_HOBC_MARGIN;
+ uint32_t RESERVED_A_440;
+ uint32_t RESERVED_A_441;
+ uint32_t L1_VLATCH_HOBC0_LOB_REFLV_GR;
+ uint32_t L1_VLATCH_HOBC0_LOB_WIDTH_GR;
+ uint32_t L1_VLATCH_HOBC0_LOB_REFLV_R;
+ uint32_t L1_VLATCH_HOBC0_LOB_WIDTH_R;
+ uint32_t L1_VLATCH_HOBC0_LOB_REFLV_B;
+ uint32_t L1_VLATCH_HOBC0_LOB_WIDTH_B;
+ uint32_t L1_VLATCH_HOBC0_LOB_REFLV_GB;
+ uint32_t L1_VLATCH_HOBC0_LOB_WIDTH_GB;
+ uint32_t L1_VLATCH_HOBC1_LOB_REFLV_GR;
+ uint32_t L1_VLATCH_HOBC1_LOB_WIDTH_GR;
+ uint32_t L1_VLATCH_HOBC1_LOB_REFLV_R;
+ uint32_t L1_VLATCH_HOBC1_LOB_WIDTH_R;
+ uint32_t L1_VLATCH_HOBC1_LOB_REFLV_B;
+ uint32_t L1_VLATCH_HOBC1_LOB_WIDTH_B;
+ uint32_t L1_VLATCH_HOBC1_LOB_REFLV_GB;
+ uint32_t L1_VLATCH_HOBC1_LOB_WIDTH_GB;
+ uint32_t L1_VLATCH_HOBC2_LOB_REFLV_GR;
+ uint32_t L1_VLATCH_HOBC2_LOB_WIDTH_GR;
+ uint32_t L1_VLATCH_HOBC2_LOB_REFLV_R;
+ uint32_t L1_VLATCH_HOBC2_LOB_WIDTH_R;
+ uint32_t L1_VLATCH_HOBC2_LOB_REFLV_B;
+ uint32_t L1_VLATCH_HOBC2_LOB_WIDTH_B;
+ uint32_t L1_VLATCH_HOBC2_LOB_REFLV_GB;
+ uint32_t L1_VLATCH_HOBC2_LOB_WIDTH_GB;
+ uint32_t L1_VLATCH_HOBC0_SRC_BLKLV_GR;
+ uint32_t L1_VLATCH_HOBC0_SRC_BLKLV_R;
+ uint32_t L1_VLATCH_HOBC0_SRC_BLKLV_B;
+ uint32_t L1_VLATCH_HOBC0_SRC_BLKLV_GB;
+ uint32_t L1_VLATCH_HOBC1_SRC_BLKLV_GR;
+ uint32_t L1_VLATCH_HOBC1_SRC_BLKLV_R;
+ uint32_t L1_VLATCH_HOBC1_SRC_BLKLV_B;
+ uint32_t L1_VLATCH_HOBC1_SRC_BLKLV_GB;
+ uint32_t L1_VLATCH_HOBC2_SRC_BLKLV_GR;
+ uint32_t L1_VLATCH_HOBC2_SRC_BLKLV_R;
+ uint32_t L1_VLATCH_HOBC2_SRC_BLKLV_B;
+ uint32_t L1_VLATCH_HOBC2_SRC_BLKLV_GB;
+ uint32_t RESERVED_A_442;
+ uint32_t RESERVED_A_443;
+ uint32_t RESERVED_A_444;
+ uint32_t RESERVED_A_445;
+ uint32_t RESERVED_A_446;
+ uint32_t RESERVED_A_447;
+ uint32_t L1_VLATCH_HOBC_MAX_VAL;
+ uint32_t RESERVED_B_37[33];
+ uint32_t L1_VLATCH_HDRC_EN;
+ uint32_t L1_VLATCH_HDRC_THR_SFT_AMT;
+ uint32_t RESERVED_A_448;
+ uint32_t L1_VLATCH_HDRC_RATIO;
+ uint32_t RESERVED_A_449;
+ uint32_t RESERVED_A_450;
+ uint32_t RESERVED_A_451;
+ uint32_t L1_VLATCH_HDRC_PT_RATIO;
+ uint32_t L1_VLATCH_HDRC_PT_BLEND;
+ uint32_t L1_VLATCH_HDRC_PT_BLEND2;
+ uint32_t L1_VLATCH_HDRC_PT_SAT;
+ uint32_t L1_VLATCH_HDRC_TN_TYPE;
+ uint32_t L1_VLATCH_HDRC_TNP_MAX;
+ uint32_t L1_VLATCH_HDRC_TNP_MAG;
+ uint32_t RESERVED_A_452;
+ uint32_t RESERVED_A_453;
+ uint32_t RESERVED_A_454;
+ uint32_t RESERVED_A_455;
+ uint32_t L1_VLATCH_HDRC_TNP_FIL0;
+ uint32_t L1_VLATCH_HDRC_TNP_FIL1;
+ uint32_t L1_VLATCH_HDRC_TNP_FIL2;
+ uint32_t L1_VLATCH_HDRC_TNP_FIL3;
+ uint32_t L1_VLATCH_HDRC_TNP_FIL4;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL0;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL1;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL2;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL3;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL4;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL5;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL6;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL7;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL8;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL9;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL10;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL11;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL12;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL13;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL14;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL15;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL16;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL17;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL18;
+ uint32_t L1_VLATCH_HDRC_UTN_TBL19;
+ uint32_t L1_VLATCH_HDRC_FLR_VAL;
+ uint32_t L1_VLATCH_HDRC_FLR_ADP;
+ uint32_t RESERVED_A_456;
+ uint32_t RESERVED_A_457;
+ uint32_t RESERVED_A_458;
+ uint32_t RESERVED_A_459;
+ uint32_t RESERVED_A_460;
+ uint32_t RESERVED_A_461;
+ uint32_t RESERVED_A_462;
+ uint32_t RESERVED_A_463;
+ uint32_t RESERVED_A_464;
+ uint32_t RESERVED_A_465;
+ uint32_t RESERVED_A_466;
+ uint32_t RESERVED_A_467;
+ uint32_t RESERVED_A_468;
+ uint32_t RESERVED_A_469;
+ uint32_t L1_VLATCH_HDRC_YBR_OFF;
+ uint32_t L1_VLATCH_HDRC_ORGY_BLEND;
+ uint32_t RESERVED_A_470;
+ uint32_t RESERVED_A_471;
+ uint32_t RESERVED_A_472;
+ uint32_t L1_VLATCH_HDRC_MAR_TOP;
+ uint32_t L1_VLATCH_HDRC_MAR_LEFT;
+ uint32_t RESERVED_A_473;
+ uint32_t RESERVED_A_474;
+ uint32_t RESERVED_B_38[28];
+ uint32_t L1_VLATCH_HIST_EN;
+ uint32_t L1_VLATCH_HIST_MODE;
+ uint32_t L1_VLATCH_HIST_BLOCK_OFST;
+ uint32_t L1_VLATCH_HIST_BLOCK_SIZE;
+ uint32_t L1_VLATCH_HIST_BLOCK_NUM;
+ uint32_t L1_VLATCH_HIST_BLOCK_STEP;
+ uint32_t L1_VLATCH_HIST_LINEAR_SFT;
+ uint32_t L1_VLATCH_HIST_MULT_A_R;
+ uint32_t L1_VLATCH_HIST_ADD_A_R;
+ uint32_t L1_VLATCH_HIST_MULT_B_R;
+ uint32_t L1_VLATCH_HIST_ADD_B_R;
+ uint32_t L1_VLATCH_HIST_MULT_A_G;
+ uint32_t L1_VLATCH_HIST_ADD_A_G;
+ uint32_t L1_VLATCH_HIST_MULT_B_G;
+ uint32_t L1_VLATCH_HIST_ADD_B_G;
+ uint32_t L1_VLATCH_HIST_MULT_A_B;
+ uint32_t L1_VLATCH_HIST_ADD_A_B;
+ uint32_t L1_VLATCH_HIST_MULT_B_B;
+ uint32_t L1_VLATCH_HIST_ADD_B_B;
+ uint32_t L1_VLATCH_HIST_MULT_A_Y;
+ uint32_t L1_VLATCH_HIST_ADD_A_Y;
+ uint32_t L1_VLATCH_HIST_MULT_B_Y;
+ uint32_t L1_VLATCH_HIST_ADD_B_Y;
+ uint32_t RESERVED_B_39[265];
+};
+
+/**
+ * struct hwd_viif_l2isp_stadr_buf_reg - Registers for L2ISP control
+ */
+struct hwd_viif_l2isp_stadr_buf_reg {
+ uint32_t L2_POST_OUT_STADR_B_BUF;
+ uint32_t L2_POST_OUT_STADR_G_BUF;
+ uint32_t L2_POST_OUT_STADR_R_BUF;
+};
+
+struct hwd_viif_l2isp_roi_reg {
+ uint32_t L2_ROI_SCALE;
+ uint32_t L2_ROI_SCALE_INV;
+ uint32_t L2_ROI_CORRECTED_HSIZE;
+ uint32_t L2_ROI_CORRECTED_VSIZE;
+ uint32_t L2_ROI_OUT_OFS_H;
+ uint32_t L2_ROI_OUT_OFS_V;
+ uint32_t L2_ROI_OUT_HSIZE;
+ uint32_t L2_ROI_OUT_VSIZE;
+};
+
+struct hwd_viif_l2isp_post_reg {
+ uint32_t L2_POST_CAP_OFFSET;
+ uint32_t L2_POST_CAP_SIZE;
+ uint32_t L2_POST_HALF_SCALE_EN;
+ uint32_t RESERVED_B_47[17];
+ uint32_t L2_POST_GAMMA_M;
+ uint32_t RESERVED_B_48[3];
+ uint32_t L2_POST_C_SELECT;
+ uint32_t RESERVED_B_49[3];
+ struct hwd_viif_csc_reg csc;
+ uint32_t L2_POST_OPORTALP;
+ uint32_t L2_POST_OPORTFMT;
+ uint32_t L2_POST_OUT_STADR_B;
+ uint32_t L2_POST_OUT_STADR_G;
+ uint32_t L2_POST_OUT_STADR_R;
+ uint32_t L2_POST_OUT_PITCH_B;
+ uint32_t L2_POST_OUT_PITCH_G;
+ uint32_t L2_POST_OUT_PITCH_R;
+ uint32_t L2_POST_DUMMY_READ_EN;
+ uint32_t RESERVED_B_51[11];
+};
+
+struct hwd_viif_l2isp_reg {
+ uint32_t L2_SENSOR_CROP_OFS_H;
+ uint32_t L2_SENSOR_CROP_OFS_V;
+ uint32_t L2_SENSOR_CROP_HSIZE;
+ uint32_t L2_SENSOR_CROP_VSIZE;
+ uint32_t RESERVED_A_475;
+ uint32_t L2_L2_STATUS;
+ uint32_t L2_BUS_L2_STATUS;
+ /* [0]: POST0, [1]: POST1 */
+ struct hwd_viif_l2isp_stadr_buf_reg stadr_buf[2];
+ uint32_t RESERVED_B_40[3];
+ uint32_t L2_ROI_NUM;
+ /* [0]: POST0, [1]: POST1 */
+ uint32_t L2_ROI_TO_POST[2];
+ uint32_t RESERVED_B_41;
+ /* [0]: ROI0, [1]: ROI1 */
+ struct hwd_viif_l2isp_roi_reg roi[2];
+ uint32_t RESERVED_B_42[8];
+ uint32_t L2_VALID_R_NORM2_POLY;
+ uint32_t L2_VALID_R_NORM2_GRID;
+ uint32_t RESERVED_A_476;
+ uint32_t RESERVED_B_43[17];
+ uint32_t L2_MODE;
+ uint32_t L2_NORM_SCALE;
+ uint32_t RESERVED_B_44;
+ /* [0]: ROI0, [1]: ROI1 */
+ uint32_t L2_ROI_WRITE_AREA_DELTA[2];
+ uint32_t RESERVED_B_45;
+ uint32_t L2_GRID_NODE_NUM_H;
+ uint32_t L2_GRID_NODE_NUM_V;
+ uint32_t L2_GRID_PATCH_HSIZE_INV;
+ uint32_t L2_GRID_PATCH_VSIZE_INV;
+ uint32_t L2_POLY10_WRITE_G_COEF[11];
+ uint32_t L2_POLY10_READ_B_COEF[11];
+ uint32_t L2_POLY10_READ_G_COEF[11];
+ uint32_t L2_POLY10_READ_R_COEF[11];
+ uint32_t RESERVED_B_46[10];
+ /* [0]: POST0, [1]: POST1 */
+ struct hwd_viif_l2isp_post_reg post[2];
+ uint32_t RESERVED_B_56[192];
+ uint32_t L2_CRGBF_ACC_CONF;
+ uint32_t L2_CRGBF_TRN_M_RUN;
+ uint32_t L2_CRGBF_TRN_M_CONF;
+ uint32_t L2_CRGBF_TRN_A_CONF;
+ uint32_t L2_CRGBF_TRN_STAT_CLR;
+ uint32_t L2_CRGBF_TRN_STAT;
+ uint32_t L2_CRGBF_INT_STAT;
+ uint32_t L2_CRGBF_INT_MASK;
+ uint32_t L2_CRGBF_INT_MASKED_STAT;
+ uint32_t L2_CRGBF_TRN_WBADDR;
+ uint32_t L2_CRGBF_TRN_WEADDR;
+ uint32_t L2_CRGBF_TRN_RBADDR;
+ uint32_t L2_CRGBF_TRN_READDR;
+ uint32_t L2_CRGBF_ISP_INT;
+ uint32_t L2_CRGBF_ISP_INT_MASK;
+ uint32_t L2_CRGBF_ISP_INT_MASKED_STAT;
+ uint32_t RESERVED_A_477;
+ uint32_t RESERVED_B_57[47];
+ uint32_t L2_SENSOR_CROP_OFS_H_BUF;
+ uint32_t L2_SENSOR_CROP_OFS_V_BUF;
+ uint32_t L2_SENSOR_CROP_HSIZE_BUF;
+ uint32_t L2_SENSOR_CROP_VSIZE_BUF;
+ uint32_t RESERVED_A_478;
+ uint32_t RESERVED_B_58[11];
+ uint32_t L2_ROI_NUM_BUF;
+ uint32_t L2_ROI_TO_POST0_BUF;
+ uint32_t L2_ROI_TO_POST1_BUF;
+ uint32_t RESERVED_B_59;
+ uint32_t L2_ROI0_SCALE_BUF;
+ uint32_t L2_ROI0_SCALE_INV_BUF;
+ uint32_t L2_ROI0_CORRECTED_HSIZE_BUF;
+ uint32_t L2_ROI0_CORRECTED_VSIZE_BUF;
+ uint32_t L2_ROI0_OUT_OFS_H_BUF;
+ uint32_t L2_ROI0_OUT_OFS_V_BUF;
+ uint32_t L2_ROI0_OUT_HSIZE_BUF;
+ uint32_t L2_ROI0_OUT_VSIZE_BUF;
+ uint32_t L2_ROI1_SCALE_BUF;
+ uint32_t L2_ROI1_SCALE_INV_BUF;
+ uint32_t L2_ROI1_CORRECTED_HSIZE_BUF;
+ uint32_t L2_ROI1_CORRECTED_VSIZE_BUF;
+ uint32_t L2_ROI1_OUT_OFS_H_BUF;
+ uint32_t L2_ROI1_OUT_OFS_V_BUF;
+ uint32_t L2_ROI1_OUT_HSIZE_BUF;
+ uint32_t L2_ROI1_OUT_VSIZE_BUF;
+ uint32_t RESERVED_B_60[8];
+ uint32_t L2_VALID_R_NORM2_POLY_BUF;
+ uint32_t L2_VALID_R_NORM2_GRID_BUF;
+ uint32_t RESERVED_A_479;
+ uint32_t RESERVED_B_61[17];
+ uint32_t L2_MODE_BUF;
+ uint32_t L2_NORM_SCALE_BUF;
+ uint32_t RESERVED_B_62;
+ uint32_t L2_ROI0_WRITE_AREA_DELTA_BUF;
+ uint32_t L2_ROI1_WRITE_AREA_DELTA_BUF;
+ uint32_t RESERVED_B_63;
+ uint32_t L2_GRID_NODE_NUM_H_BUF;
+ uint32_t L2_GRID_NODE_NUM_V_BUF;
+ uint32_t L2_GRID_PATCH_HSIZE_INV_BUF;
+ uint32_t L2_GRID_PATCH_VSIZE_INV_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF00_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF01_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF02_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF03_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF04_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF05_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF06_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF07_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF08_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF09_BUF;
+ uint32_t L2_POLY10_WRITE_G_COEF10_BUF;
+ uint32_t L2_POLY10_READ_B_COEF00_BUF;
+ uint32_t L2_POLY10_READ_B_COEF01_BUF;
+ uint32_t L2_POLY10_READ_B_COEF02_BUF;
+ uint32_t L2_POLY10_READ_B_COEF03_BUF;
+ uint32_t L2_POLY10_READ_B_COEF04_BUF;
+ uint32_t L2_POLY10_READ_B_COEF05_BUF;
+ uint32_t L2_POLY10_READ_B_COEF06_BUF;
+ uint32_t L2_POLY10_READ_B_COEF07_BUF;
+ uint32_t L2_POLY10_READ_B_COEF08_BUF;
+ uint32_t L2_POLY10_READ_B_COEF09_BUF;
+ uint32_t L2_POLY10_READ_B_COEF10_BUF;
+ uint32_t L2_POLY10_READ_G_COEF00_BUF;
+ uint32_t L2_POLY10_READ_G_COEF01_BUF;
+ uint32_t L2_POLY10_READ_G_COEF02_BUF;
+ uint32_t L2_POLY10_READ_G_COEF03_BUF;
+ uint32_t L2_POLY10_READ_G_COEF04_BUF;
+ uint32_t L2_POLY10_READ_G_COEF05_BUF;
+ uint32_t L2_POLY10_READ_G_COEF06_BUF;
+ uint32_t L2_POLY10_READ_G_COEF07_BUF;
+ uint32_t L2_POLY10_READ_G_COEF08_BUF;
+ uint32_t L2_POLY10_READ_G_COEF09_BUF;
+ uint32_t L2_POLY10_READ_G_COEF10_BUF;
+ uint32_t L2_POLY10_READ_R_COEF00_BUF;
+ uint32_t L2_POLY10_READ_R_COEF01_BUF;
+ uint32_t L2_POLY10_READ_R_COEF02_BUF;
+ uint32_t L2_POLY10_READ_R_COEF03_BUF;
+ uint32_t L2_POLY10_READ_R_COEF04_BUF;
+ uint32_t L2_POLY10_READ_R_COEF05_BUF;
+ uint32_t L2_POLY10_READ_R_COEF06_BUF;
+ uint32_t L2_POLY10_READ_R_COEF07_BUF;
+ uint32_t L2_POLY10_READ_R_COEF08_BUF;
+ uint32_t L2_POLY10_READ_R_COEF09_BUF;
+ uint32_t L2_POLY10_READ_R_COEF10_BUF;
+ uint32_t RESERVED_B_64[10];
+ uint32_t L2_POST0_CAP_OFFSET_BUF;
+ uint32_t L2_POST0_CAP_SIZE_BUF;
+ uint32_t L2_POST0_HALF_SCALE_EN_BUF;
+ uint32_t RESERVED_B_65[17];
+ uint32_t L2_POST0_GAMMA_M_BUF;
+ uint32_t RESERVED_B_66[3];
+ uint32_t L2_POST0_C_SELECT_BUF;
+ uint32_t RESERVED_B_67[3];
+ uint32_t L2_POST0_MTB_BUF;
+ uint32_t RESERVED_B_68[3];
+ uint32_t L2_POST0_MTB_YG_OFFSETI_BUF;
+ uint32_t L2_POST0_MTB_YG1_BUF;
+ uint32_t L2_POST0_MTB_YG2_BUF;
+ uint32_t L2_POST0_MTB_YG_OFFSETO_BUF;
+ uint32_t L2_POST0_MTB_CB_OFFSETI_BUF;
+ uint32_t L2_POST0_MTB_CB1_BUF;
+ uint32_t L2_POST0_MTB_CB2_BUF;
+ uint32_t L2_POST0_MTB_CB_OFFSETO_BUF;
+ uint32_t L2_POST0_MTB_CR_OFFSETI_BUF;
+ uint32_t L2_POST0_MTB_CR1_BUF;
+ uint32_t L2_POST0_MTB_CR2_BUF;
+ uint32_t L2_POST0_MTB_CR_OFFSETO_BUF;
+ uint32_t L2_POST0_OPORTALP_BUF;
+ uint32_t L2_POST0_OPORTFMT_BUF;
+ uint32_t RESERVED_B_69[3];
+ uint32_t L2_POST0_OUT_PITCH_B_BUF;
+ uint32_t L2_POST0_OUT_PITCH_G_BUF;
+ uint32_t L2_POST0_OUT_PITCH_R_BUF;
+ uint32_t L2_POST0_DUMMY_READ_EN_BUF;
+ uint32_t RESERVED_B_70[11];
+ uint32_t L2_POST1_CAP_OFFSET_BUF;
+ uint32_t L2_POST1_CAP_SIZE_BUF;
+ uint32_t L2_POST1_HALF_SCALE_EN_BUF;
+ uint32_t RESERVED_B_71[17];
+ uint32_t L2_POST1_GAMMA_M_BUF;
+ uint32_t RESERVED_B_72[3];
+ uint32_t L2_POST1_C_SELECT_BUF;
+ uint32_t RESERVED_B_73[3];
+ uint32_t L2_POST1_MTB_BUF;
+ uint32_t RESERVED_B_74[3];
+ uint32_t L2_POST1_MTB_YG_OFFSETI_BUF;
+ uint32_t L2_POST1_MTB_YG1_BUF;
+ uint32_t L2_POST1_MTB_YG2_BUF;
+ uint32_t L2_POST1_MTB_YG_OFFSETO_BUF;
+ uint32_t L2_POST1_MTB_CB_OFFSETI_BUF;
+ uint32_t L2_POST1_MTB_CB1_BUF;
+ uint32_t L2_POST1_MTB_CB2_BUF;
+ uint32_t L2_POST1_MTB_CB_OFFSETO_BUF;
+ uint32_t L2_POST1_MTB_CR_OFFSETI_BUF;
+ uint32_t L2_POST1_MTB_CR1_BUF;
+ uint32_t L2_POST1_MTB_CR2_BUF;
+ uint32_t L2_POST1_MTB_CR_OFFSETO_BUF;
+ uint32_t L2_POST1_OPORTALP_BUF;
+ uint32_t L2_POST1_OPORTFMT_BUF;
+ uint32_t RESERVED_B_75[3];
+ uint32_t L2_POST1_OUT_PITCH_B_BUF;
+ uint32_t L2_POST1_OUT_PITCH_G_BUF;
+ uint32_t L2_POST1_OUT_PITCH_R_BUF;
+ uint32_t L2_POST1_DUMMY_READ_EN_BUF;
+ uint32_t 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..2012d406a
--- /dev/null
+++ b/drivers/media/platform/visconti/viif.c
@@ -0,0 +1,2384 @@
+// 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"
+
+#define DRIVER_NAME "viif"
+
+#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)
+
+#define VIIF_ISP_GUARD_START(viif_dev) \
+ do { \
+ hwd_VIIF_isp_disable_regbuf_auto_transmission(viif_dev->ch); \
+ ndelay(500); \
+ hwd_VIIF_main_mask_vlatch(viif_dev->ch, HWD_VIIF_ENABLE); \
+ } while (0)
+
+#define VIIF_ISP_GUARD_END(viif_dev) \
+ do { \
+ hwd_VIIF_main_mask_vlatch(viif_dev->ch, HWD_VIIF_DISABLE); \
+ hwd_VIIF_isp_set_regbuf_auto_transmission(viif_dev->ch, VIIF_ISP_REGBUF_0, \
+ VIIF_ISP_REGBUF_0, 0); \
+ } while (0)
+
+struct viif_buffer {
+ struct vb2_v4l2_buffer vb;
+ struct list_head queue;
+};
+
+void viif_hw_on(struct viif_device *viif_dev)
+{
+ hwd_VIIF_initialize(viif_dev->ch, viif_dev->csi2host_reg, viif_dev->capture_reg);
+}
+
+void viif_hw_off(struct viif_device *viif_dev)
+{
+ /* Uninitialize HWD driver */
+ hwd_VIIF_uninitialize(viif_dev->ch);
+}
+
+static inline struct viif_buffer *vb2_to_viif(struct vb2_v4l2_buffer *vbuf)
+{
+ return container_of(vbuf, struct viif_buffer, vb);
+}
+
+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);
+}
+
+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_ctrl *ctrl;
+ int ret;
+ 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,
+ };
+
+ /* 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;
+}
+
+static int viif_main_set_unit(struct viif_device *viif_dev)
+{
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct v4l2_dv_timings timings;
+ unsigned int dt_image, color_type, rawpack, yuv_conv;
+ struct hwd_viif_input_img in_img_main;
+ int ret = 0;
+ int mag_hactive = 1;
+ struct hwd_viif_l2_undist undist = { 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;
+ }
+
+ viif_dev->mbus_is_rgb = false;
+
+ switch (viif_sd->mbus_code) {
+ case MEDIA_BUS_FMT_RGB888_1X24:
+ dt_image = VISCONTI_CSI2_DT_RGB888;
+ viif_dev->mbus_is_rgb = true;
+ 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;
+ viif_dev->mbus_is_rgb = true;
+ 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;
+ viif_dev->pixel_clock = in_img_main.pixel_clock;
+
+ 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, 0, &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, VIIF_ISP_REGBUF_0,
+ VIIF_ISP_REGBUF_0, 0);
+
+ /* 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, VIIF_ISP_REGBUF_0, &undist);
+ if (ret)
+ dev_err(viif_dev->dev, "l2_set_undist error. %d\n", ret);
+ return ret;
+}
+
+struct visconti_mbus_format {
+ unsigned int code;
+ unsigned int bpp;
+} static visconti_mbus_formats[] = {
+ { .code = MEDIA_BUS_FMT_RGB888_1X24, .bpp = 24 },
+ { .code = MEDIA_BUS_FMT_UYVY8_1X16, .bpp = 16 },
+ { .code = MEDIA_BUS_FMT_UYVY10_1X20, .bpp = 20 },
+ { .code = MEDIA_BUS_FMT_RGB565_1X16, .bpp = 16 },
+ { .code = MEDIA_BUS_FMT_SBGGR8_1X8, .bpp = 8 },
+ { .code = MEDIA_BUS_FMT_SGBRG8_1X8, .bpp = 8 },
+ { .code = MEDIA_BUS_FMT_SGRBG8_1X8, .bpp = 8 },
+ { .code = MEDIA_BUS_FMT_SRGGB8_1X8, .bpp = 8 },
+ { .code = MEDIA_BUS_FMT_SRGGB10_1X10, .bpp = 10 },
+ { .code = MEDIA_BUS_FMT_SGRBG10_1X10, .bpp = 10 },
+ { .code = MEDIA_BUS_FMT_SGBRG10_1X10, .bpp = 10 },
+ { .code = MEDIA_BUS_FMT_SBGGR10_1X10, .bpp = 10 },
+ { .code = MEDIA_BUS_FMT_SRGGB12_1X12, .bpp = 12 },
+ { .code = MEDIA_BUS_FMT_SGRBG12_1X12, .bpp = 12 },
+ { .code = MEDIA_BUS_FMT_SGBRG12_1X12, .bpp = 12 },
+ { .code = MEDIA_BUS_FMT_SBGGR12_1X12, .bpp = 12 },
+ { .code = MEDIA_BUS_FMT_SRGGB14_1X14, .bpp = 14 },
+ { .code = MEDIA_BUS_FMT_SGRBG14_1X14, .bpp = 14 },
+ { .code = MEDIA_BUS_FMT_SGBRG14_1X14, .bpp = 14 },
+ { .code = MEDIA_BUS_FMT_SBGGR14_1X14, .bpp = 14 },
+};
+
+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;
+}
+
+static int viif_init_mbus_code(struct viif_device *viif_dev)
+{
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd;
+ struct device *dev = viif_dev->dev;
+
+ struct v4l2_subdev_mbus_code_enum code = {
+ .which = V4L2_SUBDEV_FORMAT_ACTIVE,
+ .index = 0,
+ };
+
+ while (!v4l2_subdev_call(v4l2_sd, pad, enum_mbus_code, NULL, &code)) {
+ if (viif_is_valid_mbus_code(code.code)) {
+ viif_sd->mbus_code = code.code;
+ viif_sd->bpp = viif_get_mbus_bpp(viif_sd->mbus_code);
+ dev_err(dev, "Found media bus: code=0x%x bpp=%d\n", viif_sd->mbus_code,
+ viif_sd->bpp);
+ break;
+ }
+ code.index++;
+ }
+ if (!viif_sd->mbus_code) {
+ dev_err(dev, "Unsupported media bus format for %s\n", v4l2_sd->name);
+ return -EINVAL;
+ }
+
+ return 0;
+}
+
+/* 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 viif_device *viif_dev)
+{
+ struct v4l2_pix_format_mplane *pix = &viif_dev->v4l2_pix;
+ const struct hwd_viif_csc_param *csc_param = NULL;
+ bool out_is_rgb = false;
+
+ viif_dev->out_process.half_scale = HWD_VIIF_DISABLE;
+ viif_dev->out_process.select_color = HWD_VIIF_COLOR_YUV_RGB;
+ viif_dev->out_process.alpha = 0;
+
+ if (viif_dev->l2_crop_set_flag) {
+ viif_dev->img_area.x = viif_dev->l2_crop_param.x;
+ viif_dev->img_area.y = viif_dev->l2_crop_param.y;
+ viif_dev->img_area.w = viif_dev->l2_crop_param.w;
+ viif_dev->img_area.h = viif_dev->l2_crop_param.h;
+ } else {
+ viif_dev->img_area.x = 0;
+ viif_dev->img_area.y = 0;
+ viif_dev->img_area.w = pix->width;
+ viif_dev->img_area.h = pix->height;
+ }
+
+ switch (pix->pixelformat) {
+ case V4L2_PIX_FMT_RGB24:
+ viif_dev->out_format = HWD_VIIF_RGB888_PACKED;
+ out_is_rgb = true;
+ break;
+ case V4L2_PIX_FMT_ABGR32:
+ viif_dev->out_format = HWD_VIIF_ARGB8888_PACKED;
+ viif_dev->out_process.alpha = 0xff;
+ out_is_rgb = true;
+ break;
+ case V4L2_PIX_FMT_YUV422M:
+ viif_dev->out_format = HWD_VIIF_YCBCR422_8_PLANAR;
+ break;
+ case V4L2_PIX_FMT_YUV444M:
+ viif_dev->out_format = HWD_VIIF_RGB888_YCBCR444_8_PLANAR;
+ break;
+ case V4L2_PIX_FMT_Y16:
+ viif_dev->out_format = HWD_VIIF_ONE_COLOR_16;
+ viif_dev->out_process.select_color = HWD_VIIF_COLOR_Y_G;
+ break;
+ }
+
+ if (!viif_dev->mbus_is_rgb && out_is_rgb)
+ csc_param = &viif_csc_yuv2rgb; /* YUV -> RGB */
+ else if (viif_dev->mbus_is_rgb && !out_is_rgb)
+ csc_param = &viif_csc_rgb2yuv; /* RGB -> YUV */
+
+ return hwd_VIIF_l2_set_output_csc(viif_dev->ch, VIIF_L2ISP_POST_0, VIIF_ISP_REGBUF_0,
+ csc_param);
+}
+
+/* -----CSI2RX----- */
+static int viif_csi2rx_initialize(struct viif_device *viif_dev)
+{
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct hwd_viif_csi2rx_line_err_target err_target = { 0 };
+ struct hwd_viif_csi2rx_irq_mask csi2rx_mask;
+ struct v4l2_mbus_config cfg = { 0 };
+ 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;
+ }
+ }
+
+ dphy_rate = viif_dev->pixel_clock * viif_sd->bpp / 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)
+{
+ uint32_t vc_main = 0;
+ struct hwd_viif_csi2rx_packet packet = { 0 };
+
+ viif_dev->masked_gamma_path = 0U;
+
+ return hwd_VIIF_csi2rx_start(viif_dev->ch, vc_main, HWD_VIIF_CSI2_NOT_CAPTURE, &packet,
+ HWD_VIIF_DISABLE);
+}
+
+static int viif_csi2rx_stop(struct viif_device *viif_dev)
+{
+ int32_t 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;
+}
+
+/* ----- Private IOCTLs----- */
+static int viif_main_set_rawpack_mode(struct viif_device *viif_dev, uint32_t *rawpack)
+{
+ if (vb2_is_streaming(&viif_dev->vb2_vq))
+ return -EBUSY;
+
+ if ((*rawpack != VIIF_RAWPACK_DISABLE) && (*rawpack != VIIF_RAWPACK_MSBFIRST) &&
+ (*rawpack != VIIF_RAWPACK_LSBFIRST))
+ return -EINVAL;
+
+ viif_dev->rawpack_mode = *rawpack;
+ return 0;
+}
+
+static int viif_l1_set_input_mode(struct viif_device *viif_dev,
+ struct viif_l1_input_mode_config *input_mode)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ /* SDR input is not supported */
+ ret = hwd_VIIF_l1_set_input_mode(viif_dev->ch, input_mode->mode, input_mode->depth,
+ input_mode->raw_color_filter, NULL);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_rgb_to_y_coef(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ l1_rgb_to_y_coef->coef_r, l1_rgb_to_y_coef->coef_g,
+ l1_rgb_to_y_coef->coef_b);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_ag_mode(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_ag_mode *)l1_ag_mode);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_ag(viif_dev->ch, VIIF_ISP_REGBUF_0, l1_ag->gain_h, l1_ag->gain_m,
+ l1_ag->gain_l);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_hdre(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_hdre *)l1_hdre);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_img_extraction(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ img_extract->input_black_gr,
+ img_extract->input_black_r, img_extract->input_black_b,
+ img_extract->input_black_gb);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+ uintptr_t table_h_paddr = 0;
+ uintptr_t table_m_paddr = 0;
+ uintptr_t table_l_paddr = 0;
+
+ if (l1_dpc->table_h) {
+ if (copy_from_user(viif_dev->table_vaddr->dpc_table_h,
+ (void __user *)l1_dpc->table_h, VISCONTI_VIIF_DPC_TABLE_SIZE))
+ return -EFAULT;
+ table_h_paddr = (uintptr_t)viif_dev->table_paddr->dpc_table_h;
+ }
+ if (l1_dpc->table_m) {
+ if (copy_from_user(viif_dev->table_vaddr->dpc_table_m,
+ (void __user *)l1_dpc->table_m, VISCONTI_VIIF_DPC_TABLE_SIZE))
+ return -EFAULT;
+ table_m_paddr = (uintptr_t)viif_dev->table_paddr->dpc_table_m;
+ }
+ if (l1_dpc->table_l) {
+ if (copy_from_user(viif_dev->table_vaddr->dpc_table_l,
+ (void __user *)l1_dpc->table_l, 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);
+ VIIF_ISP_GUARD_START(viif_dev);
+ 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, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_dpc *)&l1_dpc->param_h,
+ (struct hwd_viif_l1_dpc *)&l1_dpc->param_m,
+ (struct hwd_viif_l1_dpc *)&l1_dpc->param_l);
+err:
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_preset_white_balance(
+ viif_dev->ch, VIIF_ISP_REGBUF_0, l1_preset_wb->dstmaxval,
+ (struct hwd_viif_l1_preset_white_balance *)&l1_preset_wb->param_h,
+ (struct hwd_viif_l1_preset_white_balance *)&l1_preset_wb->param_m,
+ (struct hwd_viif_l1_preset_white_balance *)&l1_preset_wb->param_l);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_raw_color_noise_reduction(
+ viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_raw_color_noise_reduction *)&raw_color->param_h,
+ (struct hwd_viif_l1_raw_color_noise_reduction *)&raw_color->param_m,
+ (struct hwd_viif_l1_raw_color_noise_reduction *)&raw_color->param_l);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_hdrs(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_hdrs *)hdrs);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_black_level_correction(
+ viif_dev->ch, VIIF_ISP_REGBUF_0, (struct hwd_viif_l1_black_level_correction *)blc);
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+
+ return ret;
+}
+
+static int viif_l1_set_lsc(struct viif_device *viif_dev, struct viif_l1_lsc_config *l1_lsc)
+{
+ int ret;
+ unsigned long irqflags;
+ struct viif_l1_lsc_parabola_param lsc_para;
+ struct hwd_viif_l1_lsc hwd_lsc;
+ struct hwd_viif_l1_lsc_parabola_param hwd_lsc_para;
+ struct hwd_viif_l1_lsc_grid_param hwd_lsc_grid;
+ uintptr_t table_gr_paddr = 0;
+ uintptr_t table_r_paddr = 0;
+ uintptr_t table_b_paddr = 0;
+ uintptr_t table_gb_paddr = 0;
+
+ if (!l1_lsc->param) {
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_lsc(viif_dev->ch, VIIF_ISP_REGBUF_0, NULL);
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+ return ret;
+ }
+
+ if (l1_lsc->table_gr) {
+ if (copy_from_user(viif_dev->table_vaddr->lsc_table_gr,
+ (void __user *)l1_lsc->table_gr, 1536))
+ return -EFAULT;
+ table_gr_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_gr;
+ }
+ if (l1_lsc->table_r) {
+ if (copy_from_user(viif_dev->table_vaddr->lsc_table_r,
+ (void __user *)l1_lsc->table_r, 1536))
+ return -EFAULT;
+ table_r_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_r;
+ }
+ if (l1_lsc->table_b) {
+ if (copy_from_user(viif_dev->table_vaddr->lsc_table_b,
+ (void __user *)l1_lsc->table_b, 1536))
+ return -EFAULT;
+ table_b_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_b;
+ }
+ if (l1_lsc->table_gb) {
+ if (copy_from_user(viif_dev->table_vaddr->lsc_table_gb,
+ (void __user *)l1_lsc->table_gb, 1536))
+ return -EFAULT;
+ table_gb_paddr = (uintptr_t)viif_dev->table_paddr->lsc_table_gb;
+ }
+
+ if (copy_from_user(&hwd_lsc, (void __user *)l1_lsc->param, sizeof(struct hwd_viif_l1_lsc)))
+ return -EFAULT;
+
+ if (hwd_lsc.lssc_parabola_param) {
+ if (copy_from_user(&lsc_para, (void __user *)hwd_lsc.lssc_parabola_param,
+ sizeof(struct viif_l1_lsc_parabola_param)))
+ return -EFAULT;
+
+ hwd_lsc_para.lssc_para_h_center = lsc_para.lssc_para_h_center;
+ hwd_lsc_para.lssc_para_v_center = lsc_para.lssc_para_v_center;
+ hwd_lsc_para.lssc_para_h_gain = lsc_para.lssc_para_h_gain;
+ hwd_lsc_para.lssc_para_v_gain = lsc_para.lssc_para_v_gain;
+ hwd_lsc_para.lssc_para_mgsel2 = lsc_para.lssc_para_mgsel2;
+ hwd_lsc_para.lssc_para_mgsel4 = lsc_para.lssc_para_mgsel4;
+ hwd_lsc_para.r_2d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.r_2d;
+ hwd_lsc_para.r_4d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.r_4d;
+ hwd_lsc_para.gr_2d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.gr_2d;
+ hwd_lsc_para.gr_4d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.gr_4d;
+ hwd_lsc_para.gb_2d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.gb_2d;
+ hwd_lsc_para.gb_4d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.gb_4d;
+ hwd_lsc_para.b_2d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.b_2d;
+ hwd_lsc_para.b_4d = (struct hwd_viif_l1_lsc_parabola_ag_param *)&lsc_para.b_4d;
+
+ hwd_lsc.lssc_parabola_param = &hwd_lsc_para;
+ }
+
+ if (hwd_lsc.lssc_grid_param) {
+ if (copy_from_user(&hwd_lsc_grid, (void __user *)hwd_lsc.lssc_grid_param,
+ sizeof(struct hwd_viif_l1_lsc_grid_param)))
+ return -EFAULT;
+
+ hwd_lsc.lssc_grid_param = &hwd_lsc_grid;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ 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, VIIF_ISP_REGBUF_0, &hwd_lsc);
+err:
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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 hwd_viif_l1_color_matrix_correction color_matrix;
+ int ret;
+ unsigned long irqflags;
+
+ if (mpro->param) {
+ if (copy_from_user(&color_matrix, (void __user *)mpro->param,
+ sizeof(struct hwd_viif_l1_color_matrix_correction)))
+ return -EFAULT;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_main_process(viif_dev->ch, VIIF_ISP_REGBUF_0, mpro->demosaic_mode,
+ mpro->damp_lsbsel, mpro->param ? &color_matrix : NULL,
+ mpro->dst_maxval);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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 hwd_viif_l1_awb param;
+ int ret;
+ unsigned long irqflags;
+
+ if (l1_awb->param) {
+ if (copy_from_user(&param, (void __user *)l1_awb->param,
+ sizeof(struct hwd_viif_l1_awb)))
+ return -EFAULT;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_awb(viif_dev->ch, VIIF_ISP_REGBUF_0, l1_awb->param ? &param : NULL,
+ l1_awb->awhb_wbmrg, l1_awb->awhb_wbmgg, l1_awb->awhb_wbmbg);
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+
+ return ret;
+}
+
+static int viif_l1_lock_awb_gain(struct viif_device *viif_dev, uint32_t *enable)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_lock_awb_gain(viif_dev->ch, VIIF_ISP_REGBUF_0, *enable);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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 hwd_viif_l1_hdrc param;
+ int ret;
+ unsigned long irqflags;
+
+ if (hdrc->param) {
+ if (copy_from_user(&param, (void __user *)hdrc->param,
+ sizeof(struct hwd_viif_l1_hdrc)))
+ return -EFAULT;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_hdrc(viif_dev->ch, VIIF_ISP_REGBUF_0, hdrc->param ? &param : NULL,
+ hdrc->hdrc_thr_sft_amt);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_hdrc_ltm(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_hdrc_ltm *)l1_hdrc_ltm);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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 hwd_viif_l1_gamma param;
+ int ret;
+ unsigned long irqflags;
+
+ if (l1_gamma->param) {
+ if (copy_from_user(&param, (void __user *)l1_gamma->param,
+ sizeof(struct hwd_viif_l1_gamma)))
+ return -EFAULT;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_gamma(viif_dev->ch, VIIF_ISP_REGBUF_0,
+ l1_gamma->param ? &param : NULL);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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 viif_l1_nonlinear_contrast nonlinear;
+ struct viif_l1_lum_noise_reduction lum_noise;
+ struct viif_l1_edge_enhancement edge_enh;
+ struct viif_l1_uv_suppression uv;
+ struct viif_l1_coring_suppression coring;
+ struct viif_l1_edge_suppression edge_sup;
+ struct viif_l1_color_level color;
+ int ret;
+ unsigned long irqflags;
+
+ if (img_quality->nonlinear_contrast) {
+ if (copy_from_user(&nonlinear, (void __user *)img_quality->nonlinear_contrast,
+ sizeof(struct viif_l1_nonlinear_contrast)))
+ return -EFAULT;
+ img_quality->nonlinear_contrast = &nonlinear;
+ }
+ if (img_quality->lum_noise_reduction) {
+ if (copy_from_user(&lum_noise, (void __user *)img_quality->lum_noise_reduction,
+ sizeof(struct viif_l1_lum_noise_reduction)))
+ return -EFAULT;
+ img_quality->lum_noise_reduction = &lum_noise;
+ }
+ if (img_quality->edge_enhancement) {
+ if (copy_from_user(&edge_enh, (void __user *)img_quality->edge_enhancement,
+ sizeof(struct viif_l1_edge_enhancement)))
+ return -EFAULT;
+ img_quality->edge_enhancement = &edge_enh;
+ }
+ if (img_quality->uv_suppression) {
+ if (copy_from_user(&uv, (void __user *)img_quality->uv_suppression,
+ sizeof(struct viif_l1_uv_suppression)))
+ return -EFAULT;
+ img_quality->uv_suppression = &uv;
+ }
+ if (img_quality->coring_suppression) {
+ if (copy_from_user(&coring, (void __user *)img_quality->coring_suppression,
+ sizeof(struct viif_l1_coring_suppression)))
+ return -EFAULT;
+ img_quality->coring_suppression = &coring;
+ }
+ if (img_quality->edge_suppression) {
+ if (copy_from_user(&edge_sup, (void __user *)img_quality->edge_suppression,
+ sizeof(struct viif_l1_edge_suppression)))
+ return -EFAULT;
+ img_quality->edge_suppression = &edge_sup;
+ }
+ if (img_quality->color_level) {
+ if (copy_from_user(&color, (void __user *)img_quality->color_level,
+ sizeof(struct viif_l1_color_level)))
+ return -EFAULT;
+ img_quality->color_level = &color;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l1_set_img_quality_adjustment(
+ viif_dev->ch, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l1_img_quality_adjustment *)img_quality);
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+ 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;
+
+ 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) {
+ if (copy_from_user(viif_dev->table_vaddr->undist_write_g,
+ (void __user *)undist->write_g, undist->size))
+ return -EFAULT;
+ table_write_g_paddr = (uintptr_t)viif_dev->table_paddr->undist_write_g;
+ }
+ if (undist->read_b) {
+ if (copy_from_user(viif_dev->table_vaddr->undist_read_b,
+ (void __user *)undist->read_b, undist->size))
+ return -EFAULT;
+ table_read_b_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_b;
+ }
+ if (undist->read_g) {
+ if (copy_from_user(viif_dev->table_vaddr->undist_read_g,
+ (void __user *)undist->read_g, undist->size))
+ return -EFAULT;
+ table_read_g_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_g;
+ }
+ if (undist->read_r) {
+ if (copy_from_user(viif_dev->table_vaddr->undist_read_r,
+ (void __user *)undist->read_r, undist->size))
+ return -EFAULT;
+ table_read_r_paddr = (uintptr_t)viif_dev->table_paddr->undist_read_r;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ 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, VIIF_ISP_REGBUF_0,
+ (struct hwd_viif_l2_undist *)&undist->param);
+err:
+ VIIF_ISP_GUARD_END(viif_dev);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l2_set_roi(viif_dev->ch, VIIF_ISP_REGBUF_0, (struct hwd_viif_l2_roi *)roi);
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+ 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)
+{
+ int ret;
+ unsigned long irqflags;
+ struct hwd_viif_l2_gamma_table hwd_table = { 0 };
+ uint32_t i;
+
+ for (i = 0; i < 6; i++) {
+ if (l2_gamma->table[i]) {
+ if (copy_from_user(viif_dev->table_vaddr->l2_gamma_table[i],
+ (void __user *)l2_gamma->table[i],
+ VISCONTI_VIIF_GANMMA_TABLE_SIZE))
+ return -EFAULT;
+ hwd_table.table[i] = (uintptr_t)viif_dev->table_paddr->l2_gamma_table[i];
+ }
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l2_set_gamma_table_transmission(viif_dev->ch, VIIF_L2ISP_POST_0, &hwd_table);
+ if (ret)
+ goto err;
+
+ ret = hwd_VIIF_l2_set_gamma(viif_dev->ch, VIIF_L2ISP_POST_0, VIIF_ISP_REGBUF_0,
+ l2_gamma->enable, l2_gamma->vsplit, l2_gamma->mode);
+err:
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+ return ret;
+}
+
+static int viif_l2_set_crop(struct viif_device *viif_dev, struct viif_l2_crop_config *l2_crop)
+{
+ if ((l2_crop->x > VIIF_CROP_MAX_X_ISP) || (l2_crop->y > VIIF_CROP_MAX_Y_ISP) ||
+ (l2_crop->w < VIIF_CROP_MIN_W) || (l2_crop->w > VIIF_CROP_MAX_W_ISP) ||
+ (l2_crop->h < VIIF_CROP_MIN_H) || (l2_crop->h > VIIF_CROP_MAX_H_ISP)) {
+ return -EINVAL;
+ }
+
+ if (viif_dev->l2_crop_set_flag) {
+ if ((l2_crop->w != viif_dev->l2_crop_param.w) ||
+ (l2_crop->h != viif_dev->l2_crop_param.h))
+ return -EINVAL;
+ }
+
+ viif_dev->l2_crop_param.x = l2_crop->x;
+ viif_dev->l2_crop_param.y = l2_crop->y;
+ viif_dev->l2_crop_param.w = l2_crop->w;
+ viif_dev->l2_crop_param.h = l2_crop->h;
+
+ viif_dev->l2_crop_set_flag = true;
+
+ return 0;
+}
+
+static int viif_csi2rx_set_mbus_fmt(struct viif_device *viif_dev, uint32_t *mbus_code)
+{
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd;
+ struct v4l2_subdev_pad_config pad_cfg;
+ struct v4l2_subdev_state pad_state = {
+ .pads = &pad_cfg,
+ };
+ struct v4l2_subdev_format format = {
+ .pad = 0,
+ };
+ int ret = -EINVAL;
+
+ if (vb2_is_streaming(&viif_dev->vb2_vq))
+ return -EBUSY;
+
+ if (viif_is_valid_mbus_code(*mbus_code)) {
+ ret = v4l2_subdev_call(v4l2_sd, pad, get_fmt, &pad_state, &format);
+ if (ret) {
+ dev_err(viif_dev->dev, "subdev: get_fmt error. %d\n", ret);
+ return ret;
+ }
+
+ format.format.code = *mbus_code;
+ format.which = V4L2_SUBDEV_FORMAT_TRY;
+
+ ret = v4l2_subdev_call(v4l2_sd, pad, set_fmt, &pad_state, &format);
+ if (ret) {
+ dev_err(viif_dev->dev, "subdev: set_fmt(TRY) error. %d\n", ret);
+ return ret;
+ }
+
+ viif_sd->mbus_code = *mbus_code;
+ viif_sd->bpp = viif_get_mbus_bpp(*mbus_code);
+ }
+ 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->vb2_vq))
+ return -EIO;
+
+ ret = hwd_VIIF_csi2rx_get_calibration_status(
+ viif_dev->ch, (struct hwd_viif_csi2rx_dphy_calibration_status *)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->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)
+{
+ unsigned long irqflags;
+ struct hwd_viif_l1_info l1_info;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ VIIF_ISP_GUARD_START(viif_dev);
+ hwd_VIIF_isp_get_info(viif_dev->ch, VIIF_ISP_REGBUF_0, NULL, &l1_info, NULL, NULL, NULL,
+ NULL);
+ 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;
+
+ VIIF_ISP_GUARD_END(viif_dev);
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+
+ return 0;
+}
+
+static long viif_ioctl_default(struct file *file, void *fh, bool valid_prio, unsigned int cmd,
+ void *arg)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+ int ret;
+
+ switch (cmd) {
+ case VIDIOC_VIIF_MAIN_SET_RAWPACK_MODE:
+ ret = viif_main_set_rawpack_mode(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_INPUT_MODE:
+ ret = viif_l1_set_input_mode(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_RGB_TO_Y_COEF:
+ ret = viif_l1_set_rgb_to_y_coef(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_AG_MODE:
+ ret = viif_l1_set_ag_mode(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_AG:
+ ret = viif_l1_set_ag(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_HDRE:
+ ret = viif_l1_set_hdre(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_IMG_EXTRACTION:
+ ret = viif_l1_set_img_extraction(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_DPC:
+ ret = viif_l1_set_dpc(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_PRESET_WHITE_BALANCE:
+ ret = viif_l1_set_preset_white_balance(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_RAW_COLOR_NOISE_REDUCTION:
+ ret = viif_l1_set_raw_color_noise_reduction(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_HDRS:
+ ret = viif_l1_set_hdrs(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_BLACK_LEVEL_CORRECTION:
+ ret = viif_l1_set_black_level_correction(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_LSC:
+ ret = viif_l1_set_lsc(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_MAIN_PROCESS:
+ ret = viif_l1_set_main_process(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_AWB:
+ ret = viif_l1_set_awb(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_LOCK_AWB_GAIN:
+ ret = viif_l1_lock_awb_gain(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_HDRC:
+ ret = viif_l1_set_hdrc(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_HDRC_LTM:
+ ret = viif_l1_set_hdrc_ltm(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_GAMMA:
+ ret = viif_l1_set_gamma(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L1_SET_IMG_QUALITY_ADJUSTMENT:
+ ret = viif_l1_set_img_quality_adjustment(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L2_SET_UNDIST:
+ ret = viif_l2_set_undist(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L2_SET_ROI:
+ ret = viif_l2_set_roi(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L2_SET_GAMMA:
+ ret = viif_l2_set_gamma(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_L2_SET_CROP:
+ ret = viif_l2_set_crop(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_CSI2RX_SET_MBUS_FMT:
+ ret = viif_csi2rx_set_mbus_fmt(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_CSI2RX_GET_CALIBRATION_STATUS:
+ ret = viif_csi2rx_get_calibration_status(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_CSI2RX_GET_ERR_STATUS:
+ ret = viif_csi2rx_get_err_status(viif_dev, arg);
+ break;
+ case VIDIOC_VIIF_ISP_GET_LAST_CAPTURE_STATUS:
+ ret = viif_isp_get_last_capture_status(viif_dev, arg);
+ break;
+ default:
+ ret = -ENOTTY;
+ break;
+ }
+ return ret;
+}
+
+/* ----- ISRs and VB2 Operations ----- */
+static int viif_set_img(struct viif_device *viif_dev, struct vb2_buffer *vb)
+{
+ struct v4l2_pix_format_mplane *pix = &viif_dev->v4l2_pix;
+ 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 = viif_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);
+ /* 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 & 0x800000000UL) ?
+ (phys_addr & 0x7fffffff) :
+ (phys_addr & 0xffffffff);
+ }
+ VIIF_ISP_GUARD_START(viif_dev);
+ ret = hwd_VIIF_l2_set_img_transmission(viif_dev->ch, VIIF_L2ISP_POST_0, VIIF_ISP_REGBUF_0,
+ HWD_VIIF_ENABLE, &viif_dev->img_area,
+ &viif_dev->out_process, &next_out_img);
+ VIIF_ISP_GUARD_END(viif_dev);
+ if (ret)
+ dev_err(viif_dev->dev, "set img error. %d\n", ret);
+
+ return ret;
+}
+
+#define VIIF_SYNC_M_EVENT_DELAY2_SHIFT 2U
+#define MAIN_DELAY_INT_ERR_MASK 0x01000000U
+
+static void viif_vsync_irq_handler_w_isp(struct viif_device *viif_dev)
+{
+ uint32_t event_main, event_sub, mask, status_err, l2_transfer_status;
+ struct vb2_v4l2_buffer *vbuf;
+ struct viif_buffer *buf;
+ enum vb2_buffer_state state;
+
+ hwd_VIIF_vsync_irq_handler(viif_dev->ch, &event_main, &event_sub);
+
+ /* Delayed Vsync of MAIN unit */
+ if (((event_main >> VIIF_SYNC_M_EVENT_DELAY2_SHIFT) & 0x1U) == 0x1U) {
+ /* unmask timeout error of gamma table */
+ mask = MAIN_DELAY_INT_ERR_MASK;
+ hwd_VIIF_main_status_err_set_irq_mask(viif_dev->ch, &mask);
+ viif_dev->masked_gamma_path = 0;
+
+ /* Get abort status of L2ISP */
+ VIIF_ISP_GUARD_START(viif_dev);
+ hwd_VIIF_isp_get_info(viif_dev->ch, VIIF_ISP_REGBUF_0, NULL, NULL, NULL,
+ &l2_transfer_status, NULL, NULL);
+ VIIF_ISP_GUARD_END(viif_dev);
+
+ status_err = viif_dev->status_err;
+ viif_dev->status_err = 0;
+
+ vbuf = viif_dev->dma_active;
+ if (!vbuf)
+ goto next;
+
+ viif_dev->buf_cnt--;
+ vbuf->vb2_buf.timestamp = ktime_get_ns();
+ vbuf->sequence = viif_dev->sequence++;
+ vbuf->field = viif_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);
+ viif_dev->dma_active = NULL;
+
+ next:
+ vbuf = viif_dev->active;
+ if (!vbuf)
+ return;
+
+ if (viif_dev->last_active) {
+ viif_dev->dma_active = viif_dev->last_active;
+ viif_dev->last_active = NULL;
+ } else if (!viif_dev->dma_active) {
+ viif_dev->dma_active = vbuf;
+ buf = vb2_to_viif(vbuf);
+ list_del_init(&buf->queue);
+ }
+
+ if (!list_empty(&viif_dev->capture)) {
+ buf = list_entry(viif_dev->capture.next, struct viif_buffer, queue);
+ viif_dev->active = &buf->vb;
+ viif_set_img(viif_dev, &buf->vb.vb2_buf);
+ } else {
+ dev_dbg(viif_dev->dev, "no queue\n");
+ viif_dev->last_active = viif_dev->dma_active;
+ viif_dev->dma_active = NULL;
+ viif_dev->active = NULL;
+ }
+ }
+}
+
+#define VIIF_ERR_M_EVENT_GAMMATBL_SHIFT 8U
+#define VIIF_ERR_M_EVENT_GAMMATBL_MASK 0x7U
+
+static void viif_status_err_irq_handler(struct viif_device *viif_dev)
+{
+ uint32_t event_main, event_sub, val, mask;
+
+ hwd_VIIF_status_err_irq_handler(viif_dev->ch, &event_main, &event_sub);
+
+ if (event_main != 0U) {
+ /* mask for gamma table time out error which will be unmasked in the next Vsync */
+ val = (event_main >> VIIF_ERR_M_EVENT_GAMMATBL_SHIFT) &
+ VIIF_ERR_M_EVENT_GAMMATBL_MASK;
+ if (val != 0U) {
+ viif_dev->masked_gamma_path |= val;
+ mask = MAIN_DELAY_INT_ERR_MASK |
+ (viif_dev->masked_gamma_path << VIIF_ERR_M_EVENT_GAMMATBL_SHIFT);
+ hwd_VIIF_main_status_err_set_irq_mask(viif_dev->ch, &mask);
+ }
+
+ viif_dev->status_err = event_main;
+ }
+ dev_err(viif_dev->dev, "Status error 0x%x.\n", event_main);
+}
+
+static void viif_csi2rx_err_irq_handler(struct viif_device *viif_dev)
+{
+ uint32_t event;
+
+ event = hwd_VIIF_csi2rx_err_irq_handler(viif_dev->ch);
+ 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;
+}
+
+static int viif_vb2_setup(struct vb2_queue *vq, unsigned int *count, unsigned int *num_planes,
+ unsigned int sizes[], struct device *alloc_devs[])
+{
+ struct viif_device *viif_dev = vb2_get_drv_priv(vq);
+ struct v4l2_pix_format_mplane *pix = &viif_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;
+
+ viif_dev->buf_cnt = 0;
+
+ return 0;
+}
+
+static void viif_vb2_queue(struct vb2_buffer *vb)
+{
+ struct viif_device *viif_dev = vb2_get_drv_priv(vb->vb2_queue);
+ struct vb2_v4l2_buffer *vbuf = to_vb2_v4l2_buffer(vb);
+ struct viif_buffer *buf = vb2_to_viif(vbuf);
+ unsigned long irqflags;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ list_add_tail(&buf->queue, &viif_dev->capture);
+ viif_dev->buf_cnt++;
+
+ if (!viif_dev->active) {
+ viif_dev->active = vbuf;
+ if (!viif_dev->last_active)
+ viif_set_img(viif_dev, vb);
+ }
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+}
+
+static int viif_vb2_prepare(struct vb2_buffer *vb)
+{
+ struct viif_device *viif_dev = vb2_get_drv_priv(vb->vb2_queue);
+ struct v4l2_pix_format_mplane *pix = &viif_dev->v4l2_pix;
+ 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 viif_device *viif_dev = vb2_get_drv_priv(vq);
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ int ret;
+ unsigned long irqflags;
+
+ /* CSI2RX Init */
+ ret = viif_csi2rx_initialize(viif_dev);
+ if (ret)
+ return ret;
+
+ /* CSI2RX start streaming */
+ 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);
+ goto err;
+ }
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+
+ viif_csi2rx_start(viif_dev);
+ viif_dev->sequence = 0;
+
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+
+ return ret;
+err:
+ hwd_VIIF_csi2rx_uninitialize(viif_dev->ch);
+ return ret;
+}
+
+static void viif_stop_streaming(struct vb2_queue *vq)
+{
+ struct viif_device *viif_dev = vb2_get_drv_priv(vq);
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct viif_buffer *buf;
+ unsigned long irqflags;
+ int ret;
+
+ spin_lock_irqsave(&viif_dev->lock, irqflags);
+ (void)viif_csi2rx_stop(viif_dev);
+
+ viif_dev->active = NULL;
+ if (viif_dev->dma_active) {
+ vb2_buffer_done(&viif_dev->dma_active->vb2_buf, VB2_BUF_STATE_ERROR);
+ viif_dev->buf_cnt--;
+ viif_dev->dma_active = NULL;
+ }
+ if (viif_dev->last_active) {
+ vb2_buffer_done(&viif_dev->last_active->vb2_buf, VB2_BUF_STATE_ERROR);
+ viif_dev->buf_cnt--;
+ viif_dev->last_active = NULL;
+ }
+
+ /* Release all queued buffers. */
+ list_for_each_entry (buf, &viif_dev->capture, queue) {
+ vb2_buffer_done(&buf->vb.vb2_buf, VB2_BUF_STATE_ERROR);
+ viif_dev->buf_cnt--;
+ }
+ INIT_LIST_HEAD(&viif_dev->capture);
+ if (viif_dev->buf_cnt)
+ dev_err(viif_dev->dev, "Buffer count error %d\n", viif_dev->buf_cnt);
+
+ spin_unlock_irqrestore(&viif_dev->lock, irqflags);
+
+ 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);
+}
+
+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,
+};
+
+/* --- Video Device IOCTLs --- */
+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 *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;
+}
+
+int viif_querycap(struct file *file, void *priv, struct v4l2_capability *cap)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+
+ strscpy(cap->card, "Toshiba VIIF", sizeof(cap->card));
+ strscpy(cap->driver, DRIVER_NAME, 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_fmt_vid_cap(struct file *file, void *priv, struct v4l2_fmtdesc *f)
+{
+ const struct viif_fmt *fmt;
+
+ if (f->index >= ARRAY_SIZE(viif_fmt_list))
+ return -EINVAL;
+
+ fmt = &viif_fmt_list[f->index];
+ f->pixelformat = fmt->fourcc;
+
+ return 0;
+}
+
+static int viif_try_fmt(struct viif_device *viif_dev, struct v4l2_format *v4l2_fmt)
+{
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct v4l2_pix_format_mplane *pix = &v4l2_fmt->fmt.pix_mp;
+ struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd;
+ struct v4l2_subdev_pad_config pad_cfg;
+ struct v4l2_subdev_state pad_state = {
+ .pads = &pad_cfg,
+ };
+ const struct viif_fmt *viif_fmt;
+ int ret;
+
+ struct v4l2_subdev_format sd_format = {
+ .which = V4L2_SUBDEV_FORMAT_TRY,
+ };
+
+ viif_fmt = get_viif_fmt_from_fourcc(pix->pixelformat);
+ if (!viif_fmt)
+ return -EINVAL;
+
+ if (viif_dev->l2_crop_set_flag) {
+ if ((pix->width != viif_dev->l2_crop_param.w) ||
+ (pix->height != viif_dev->l2_crop_param.h))
+ return -EINVAL;
+ } else {
+ sd_format.format.code = viif_sd->mbus_code;
+ v4l2_fill_mbus_format_mplane(&sd_format.format, pix);
+ ret = v4l2_subdev_call(v4l2_sd, pad, set_fmt, &pad_state, &sd_format);
+ if (ret) {
+ dev_err(viif_dev->dev, "subdev: set_fmt(TRY) error. %d\n", ret);
+ return ret;
+ }
+ v4l2_fill_pix_format_mplane(pix, &sd_format.format);
+ }
+
+ 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 viif_device *viif_dev = video_drvdata(file);
+
+ return viif_try_fmt(viif_dev, f);
+}
+
+static int viif_s_fmt_vid_cap(struct file *file, void *priv, struct v4l2_format *f)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+ struct viif_subdev *viif_sd = viif_dev->sd;
+ struct v4l2_subdev *v4l2_sd = viif_sd->v4l2_sd;
+ int ret = 0;
+ struct v4l2_subdev_format format = {
+ .which = V4L2_SUBDEV_FORMAT_ACTIVE,
+ };
+
+ if (vb2_is_streaming(&viif_dev->vb2_vq))
+ return -EBUSY;
+
+ if (f->type != viif_dev->vb2_vq.type)
+ return -EINVAL;
+
+ ret = viif_try_fmt(viif_dev, f);
+ if (ret)
+ return ret;
+
+ if (!viif_dev->l2_crop_set_flag) {
+ format.format.code = viif_sd->mbus_code;
+ v4l2_fill_mbus_format_mplane(&format.format, &f->fmt.pix_mp);
+ ret = v4l2_subdev_call(v4l2_sd, pad, set_fmt, NULL, &format);
+ if (ret) {
+ dev_err(viif_dev->dev, "subdev: set_fmt(ACTIVE) error. %d\n", ret);
+ return ret;
+ }
+ }
+
+ ret = viif_main_set_unit(viif_dev);
+ if (ret)
+ return ret;
+
+ viif_dev->v4l2_pix = f->fmt.pix_mp;
+ viif_dev->field = V4L2_FIELD_NONE;
+
+ return viif_l2_set_format(viif_dev);
+}
+
+static int viif_g_fmt_vid_cap(struct file *file, void *priv, struct v4l2_format *f)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+
+ f->fmt.pix_mp = viif_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(file);
+ 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(file);
+
+ *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(file);
+
+ if (i >= viif_dev->num_sd)
+ return -EINVAL;
+
+ return 0;
+}
+
+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(file);
+ 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(file);
+ 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(file);
+ 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(file);
+ 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(file);
+ 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(file);
+ 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(file);
+ 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(file);
+
+ 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(file);
+
+ 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(file);
+ 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(file);
+ 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_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_default = viif_ioctl_default,
+ .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_open(struct file *file)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+ int ret, mask;
+
+ ret = v4l2_fh_open(file);
+ if (ret)
+ return ret;
+
+ viif_dev->rawpack_mode = HWD_VIIF_RAWPACK_DISABLE;
+ viif_dev->l2_crop_set_flag = false;
+ memset(&viif_dev->l2_crop_param, 0, sizeof(struct viif_l2_crop_config));
+
+ mutex_lock(&viif_dev->mlock);
+
+ /* Initialize HWD driver */
+ viif_hw_on(viif_dev);
+
+ /* VSYNC mask setting of MAIN unit */
+ mask = 0x00050003;
+ hwd_VIIF_main_vsync_set_irq_mask(viif_dev->ch, &mask);
+
+ /* STATUS error mask setting(unmask) of MAIN unit */
+ mask = 0x01000000;
+ hwd_VIIF_main_status_err_set_irq_mask(viif_dev->ch, &mask);
+
+ mutex_unlock(&viif_dev->mlock);
+
+ return ret;
+}
+
+static int viif_release(struct file *file)
+{
+ struct viif_device *viif_dev = video_drvdata(file);
+ int ret;
+
+ ret = vb2_fop_release(file);
+ if (ret)
+ return ret;
+
+ mutex_lock(&viif_dev->mlock);
+ viif_hw_off(viif_dev);
+ mutex_unlock(&viif_dev->mlock);
+
+ return 0;
+}
+
+static const struct v4l2_file_operations viif_fops = {
+ .owner = THIS_MODULE,
+ .open = viif_open,
+ .release = viif_release,
+ .unlocked_ioctl = video_ioctl2,
+ .mmap = vb2_fop_mmap,
+ .poll = vb2_fop_poll,
+};
+
+/* ----- 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 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);
+ struct video_device *vdev = &viif_dev->vdev;
+ struct vb2_queue *q = &viif_dev->vb2_vq;
+ struct v4l2_subdev *v4l2_sd;
+ 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;
+ }
+
+ /* 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 = viif_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;
+
+ /* 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;
+ }
+
+ v4l2_sd = viif_dev->sd->v4l2_sd;
+
+ ret = viif_init_mbus_code(viif_dev);
+ if (ret)
+ return ret;
+
+ /* Register the video device. */
+ strscpy(vdev->name, DRIVER_NAME, sizeof(vdev->name));
+ vdev->v4l2_dev = v4l2_dev;
+ vdev->lock = &viif_dev->mlock;
+ vdev->queue = &viif_dev->vb2_vq;
+ vdev->ctrl_handler = v4l2_sd->ctrl_handler;
+ vdev->fops = &viif_fops;
+ vdev->ioctl_ops = &viif_ioctl_ops;
+ vdev->device_caps = V4L2_CAP_VIDEO_CAPTURE_MPLANE | V4L2_CAP_STREAMING;
+ vdev->release = video_device_release_empty;
+ video_set_drvdata(vdev, viif_dev);
+
+ 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;
+ }
+
+ return 0;
+}
+
+static const struct v4l2_async_notifier_operations viif_notify_ops = {
+ .bound = visconti_viif_notify_bound,
+ .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",
+ .data = (void *)VIIF_DEV_CSI,
+ },
+ {},
+};
+MODULE_DEVICE_TABLE(of, visconti_viif_of_table);
+
+static int visconti_viif_probe(struct platform_device *pdev)
+{
+ struct device *dev = &pdev->dev;
+ struct viif_device *viif_dev;
+ int ret, i, num_sd;
+ dma_addr_t table_paddr;
+ const struct of_device_id *of_id;
+
+ //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;
+
+ platform_set_drvdata(pdev, viif_dev);
+ viif_dev->dev = dev;
+
+ INIT_LIST_HEAD(&viif_dev->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 < 3; i++) {
+ viif_dev->irq[i] = ret = platform_get_irq(pdev, i);
+ if (ret < 0) {
+ dev_err(dev, "failed to acquire irq resource\n");
+ return ret;
+ }
+ ret = devm_request_irq(dev, viif_dev->irq[i], visconti_viif_irq, 0, "viif",
+ 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;
+
+ ret = v4l2_device_register(dev, &viif_dev->v4l2_dev);
+ if (ret)
+ goto error_dma_free;
+
+ /* check device type */
+ of_id = of_match_device(visconti_viif_of_table, dev);
+ viif_dev->dev_type = (enum viif_dev_type)of_id->data;
+
+ num_sd = visconti_viif_parse_dt(viif_dev);
+ if (ret < 0) {
+ ret = num_sd;
+ goto error_v4l2_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.subdevs = viif_dev->asds;
+ //viif_dev->notifier.num_subdevs = num_sd;
+ viif_dev->notifier.ops = &viif_notify_ops;
+ ret = v4l2_async_nf_register(&viif_dev->v4l2_dev, &viif_dev->notifier);
+ if (ret)
+ goto error_v4l2_unregister;
+
+ return 0;
+
+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);
+
+ v4l2_async_nf_unregister(&viif_dev->notifier);
+ v4l2_device_unregister(&viif_dev->v4l2_dev);
+ video_unregister_device(&viif_dev->vdev);
+ 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 <[email protected]>");
+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..ef1b7ae16
--- /dev/null
+++ b/drivers/media/platform/visconti/viif.h
@@ -0,0 +1,134 @@
+/* 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
+
+enum viif_dev_type {
+ VIIF_DEV_CSI,
+ VIIF_DEV_M2M,
+};
+
+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 bpp;
+ unsigned int num_lane;
+};
+
+struct viif_table_area {
+ /* viif_l1_dpc_config */
+ uint32_t dpc_table_h[8192 / 4];
+ uint32_t dpc_table_m[8192 / 4];
+ uint32_t dpc_table_l[8192 / 4];
+ /* viif_l1_lsc_config */
+ uint16_t lsc_table_gr[1536 / 2];
+ uint16_t lsc_table_r[1536 / 2];
+ uint16_t lsc_table_b[1536 / 2];
+ uint16_t lsc_table_gb[1536 / 2];
+ /* viif_l2_undist_config */
+ uint32_t undist_write_g[8192 / 4];
+ uint32_t undist_read_b[8192 / 4];
+ uint32_t undist_read_g[8192 / 4];
+ uint32_t undist_read_r[8192 / 4];
+ /* viif_l2_gamma_config */
+ uint16_t l2_gamma_table[6][512 / 2];
+};
+
+/* --- m2m structgure --- */
+struct viif_device {
+ struct device *dev;
+ struct video_device vdev;
+ struct v4l2_device v4l2_dev;
+ unsigned int ch;
+ enum viif_dev_type dev_type;
+ uint32_t 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;
+
+ /* 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;
+
+ /* lock - lock access to capture buffer queue and active buffer */
+ spinlock_t lock;
+
+ struct mutex mlock;
+
+ void __iomem *capture_reg; /* vaddr of CSI2HOST register */
+ void __iomem *csi2host_reg; /* vaddr of CAPTURE register */
+ unsigned int irq[4];
+
+ /* currently configured field and pixel format */
+ enum v4l2_field field;
+ struct v4l2_pix_format_mplane v4l2_pix;
+ bool mbus_is_rgb;
+ unsigned int out_format;
+ struct hwd_viif_img_area img_area;
+ struct hwd_viif_out_process out_process;
+
+ uint32_t pixel_clock;
+
+ /* L2 Crop setting */
+ struct viif_l2_crop_config l2_crop_param;
+ bool l2_crop_set_flag;
+
+ /* Un-cache table area */
+ struct viif_table_area *table_vaddr;
+ struct viif_table_area *table_paddr;
+
+ /* Rawpack mode */
+ uint32_t rawpack_mode;
+
+ /* Status error info */
+ uint32_t status_err;
+};
+
+#endif /* VIIF_H */
diff --git a/include/uapi/linux/visconti_viif.h b/include/uapi/linux/visconti_viif.h
new file mode 100644
index 000000000..14e6b176c
--- /dev/null
+++ b/include/uapi/linux/visconti_viif.h
@@ -0,0 +1,1683 @@
+/* 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>
+
+/* Private IPCTLs */
+#define VIDIOC_VIIF_MAIN_SET_RAWPACK_MODE \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 1, uint32_t)
+#define VIDIOC_VIIF_L1_SET_INPUT_MODE \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 2, struct viif_l1_input_mode_config)
+#define VIDIOC_VIIF_L1_SET_RGB_TO_Y_COEF \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 3, struct viif_l1_rgb_to_y_coef_config)
+#define VIDIOC_VIIF_L1_SET_AG_MODE \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 4, struct viif_l1_ag_mode_config)
+#define VIDIOC_VIIF_L1_SET_AG \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 5, struct viif_l1_ag_config)
+#define VIDIOC_VIIF_L1_SET_HDRE \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 6, struct viif_l1_hdre_config)
+#define VIDIOC_VIIF_L1_SET_IMG_EXTRACTION \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 7, struct viif_l1_img_extraction_config)
+#define VIDIOC_VIIF_L1_SET_DPC \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 8, struct viif_l1_dpc_config)
+#define VIDIOC_VIIF_L1_SET_PRESET_WHITE_BALANCE \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 9, \
+ struct viif_l1_preset_white_balance_config)
+#define VIDIOC_VIIF_L1_SET_RAW_COLOR_NOISE_REDUCTION \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 10, \
+ struct viif_l1_raw_color_noise_reduction_config)
+#define VIDIOC_VIIF_L1_SET_HDRS \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 11, struct viif_l1_hdrs_config)
+#define VIDIOC_VIIF_L1_SET_BLACK_LEVEL_CORRECTION \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 12, \
+ struct viif_l1_black_level_correction_config)
+#define VIDIOC_VIIF_L1_SET_LSC \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 13, struct viif_l1_lsc_config)
+#define VIDIOC_VIIF_L1_SET_MAIN_PROCESS \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 14, struct viif_l1_main_process_config)
+#define VIDIOC_VIIF_L1_SET_AWB \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 15, struct viif_l1_awb_config)
+#define VIDIOC_VIIF_L1_LOCK_AWB_GAIN \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 16, uint32_t)
+#define VIDIOC_VIIF_L1_SET_HDRC \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 17, struct viif_l1_hdrc_config)
+#define VIDIOC_VIIF_L1_SET_HDRC_LTM \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 18, struct viif_l1_hdrc_ltm_config)
+#define VIDIOC_VIIF_L1_SET_GAMMA \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 19, struct viif_l1_gamma_config)
+#define VIDIOC_VIIF_L1_SET_IMG_QUALITY_ADJUSTMENT \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 20, \
+ struct viif_l1_img_quality_adjustment_config)
+#define VIDIOC_VIIF_L2_SET_UNDIST \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 21, struct viif_l2_undist_config)
+#define VIDIOC_VIIF_L2_SET_ROI \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 22, struct viif_l2_roi_config)
+#define VIDIOC_VIIF_L2_SET_GAMMA \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 23, struct viif_l2_gamma_config)
+#define VIDIOC_VIIF_L2_SET_CROP \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 24, struct viif_l2_crop_config)
+#define VIDIOC_VIIF_CSI2RX_SET_MBUS_FMT \
+ _IOW('V', BASE_VIDIOC_PRIVATE + 25, uint32_t)
+#define VIDIOC_VIIF_CSI2RX_GET_CALIBRATION_STATUS \
+ _IOR('V', BASE_VIDIOC_PRIVATE + 26, \
+ struct viif_csi2rx_dphy_calibration_status)
+#define VIDIOC_VIIF_CSI2RX_GET_ERR_STATUS \
+ _IOR('V', BASE_VIDIOC_PRIVATE + 27, struct viif_csi2rx_err_status)
+#define VIDIOC_VIIF_ISP_GET_LAST_CAPTURE_STATUS \
+ _IOR('V', BASE_VIDIOC_PRIVATE + 28, struct viif_isp_capture_status)
+
+/* 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:`VIDIOC_VIIF_L1_SET_INPUT_MODE`
+ * @mode: :ref:`L1ISP pre-processing mode <L1ISP_preprocessing_mode>`
+ * @depth: Color depth (even only). Range for each L1ISP pre-processing mode is as below:
+ * - VIIF_L1_INPUT_HDR/HDR_IMG_CORRECT: Range: [8..24].
+ * - VIIF_L1_INPUT_PWL/PWL_IMG_CORRECT: Range: [8..14].
+ * @raw_color_filter: :ref:`RAW color filter mode <L1ISP_RAW_color_filter_mode>`
+ */
+struct viif_l1_input_mode_config {
+ uint32_t mode;
+ uint32_t depth;
+ uint32_t raw_color_filter;
+};
+
+/**
+ * struct viif_l1_rgb_to_y_coef_config - L1ISP coefficient for calculating
+ * Y from RGB parameters for :ref:`VIDIOC_VIIF_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 {
+ uint16_t coef_r;
+ uint16_t coef_g;
+ uint16_t 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:`VIDIOC_VIIF_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: Sensitive image used for LSC.
+ * Refer to :ref:`L1ISP_image_sensitivity`
+ * @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: Sensitive image used for color matrix.
+ * Refer to :ref:`L1ISP_image_sensitivity`
+ * @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: Sensitive image used for image adjustment.
+ * Refer to :ref:`L1ISP_image_sensitivity`
+ * @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 {
+ uint8_t sysm_ag_grad[4];
+ uint16_t sysm_ag_ofst[4];
+ uint32_t sysm_ag_cont_hobc_en_high;
+ uint32_t sysm_ag_psel_hobc_high;
+ uint32_t sysm_ag_cont_hobc_en_middle_led;
+ uint32_t sysm_ag_psel_hobc_middle_led;
+ uint32_t sysm_ag_cont_hobc_en_low;
+ uint32_t sysm_ag_psel_hobc_low;
+ uint32_t sysm_ag_cont_abpc_en_high;
+ uint32_t sysm_ag_psel_abpc_high;
+ uint32_t sysm_ag_cont_abpc_en_middle_led;
+ uint32_t sysm_ag_psel_abpc_middle_led;
+ uint32_t sysm_ag_cont_abpc_en_low;
+ uint32_t sysm_ag_psel_abpc_low;
+ uint32_t sysm_ag_cont_rcnr_en_high;
+ uint32_t sysm_ag_psel_rcnr_high;
+ uint32_t sysm_ag_cont_rcnr_en_middle_led;
+ uint32_t sysm_ag_psel_rcnr_middle_led;
+ uint32_t sysm_ag_cont_rcnr_en_low;
+ uint32_t sysm_ag_psel_rcnr_low;
+ uint32_t sysm_ag_cont_lssc_en;
+ uint32_t sysm_ag_ssel_lssc;
+ uint32_t sysm_ag_psel_lssc;
+ uint32_t sysm_ag_cont_mpro_en;
+ uint32_t sysm_ag_ssel_mpro;
+ uint32_t sysm_ag_psel_mpro;
+ uint32_t sysm_ag_cont_vpro_en;
+ uint32_t sysm_ag_ssel_vpro;
+ uint32_t sysm_ag_psel_vpro;
+ uint8_t sysm_ag_cont_hobc_test_high;
+ uint8_t sysm_ag_cont_hobc_test_middle_led;
+ uint8_t sysm_ag_cont_hobc_test_low;
+ uint8_t sysm_ag_cont_abpc_test_high;
+ uint8_t sysm_ag_cont_abpc_test_middle_led;
+ uint8_t sysm_ag_cont_abpc_test_low;
+ uint8_t sysm_ag_cont_rcnr_test_high;
+ uint8_t sysm_ag_cont_rcnr_test_middle_led;
+ uint8_t sysm_ag_cont_rcnr_test_low;
+ uint8_t sysm_ag_cont_lssc_test;
+ uint8_t sysm_ag_cont_mpro_test;
+ uint8_t sysm_ag_cont_vpro_test;
+};
+
+/**
+ * struct viif_l1_ag_config - L1ISP AG parameters
+ * for :ref:`VIDIOC_VIIF_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 {
+ uint16_t gain_h;
+ uint16_t gain_m;
+ uint16_t gain_l;
+};
+
+/**
+ * struct viif_l1_hdre_config - L1ISP HDRE parameters
+ * for :ref:`VIDIOC_VIIF_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 {
+ uint32_t hdre_src_point[16];
+ uint32_t hdre_dst_base[17];
+ uint32_t hdre_ratio[17];
+ uint32_t hdre_dst_max_val;
+};
+
+/**
+ * struct viif_l1_img_extraction_config - L1ISP image extraction parameters
+ * for :ref:`VIDIOC_VIIF_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 {
+ uint32_t input_black_gr;
+ uint32_t input_black_r;
+ uint32_t input_black_b;
+ uint32_t 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: :ref:`Dynamic DPC mode <L1ISP_dynamic_defect_pixel_correction_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 {
+ uint32_t abpc_sta_en;
+ uint32_t abpc_dyn_en;
+ uint32_t abpc_dyn_mode;
+ uint32_t abpc_ratio_limit;
+ uint32_t abpc_dark_limit;
+ uint32_t abpc_sn_coef_w_ag_min;
+ uint32_t abpc_sn_coef_w_ag_mid;
+ uint32_t abpc_sn_coef_w_ag_max;
+ uint32_t abpc_sn_coef_b_ag_min;
+ uint32_t abpc_sn_coef_b_ag_mid;
+ uint32_t abpc_sn_coef_b_ag_max;
+ uint8_t abpc_sn_coef_w_th_min;
+ uint8_t abpc_sn_coef_w_th_max;
+ uint8_t abpc_sn_coef_b_th_min;
+ uint8_t abpc_sn_coef_b_th_max;
+};
+/**
+ * struct viif_l1_dpc - L1ISP defect pixel correction parameters
+ * for :ref:`VIDIOC_VIIF_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: DPC table address for high sensitive image.
+ * Table is not transferred if a NULL pointer is set
+ * @table_m: DPC table address for middle sensitive image or LED image
+ * Table is not transferred if a NULL pointer is set
+ * @table_l: DPC table address for low sensitive image
+ * Table is not transferred if a NULL pointer is set
+ *
+ * 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;
+ uint32_t *table_h;
+ uint32_t *table_m;
+ uint32_t *table_l;
+};
+
+/**
+ * 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 {
+ uint32_t gain_gr;
+ uint32_t gain_r;
+ uint32_t gain_b;
+ uint32_t gain_gb;
+};
+/**
+ * struct viif_l1_preset_white_balance_config - L1ISP preset white balance
+ * parameters for :ref:`VIDIOC_VIIF_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 {
+ uint32_t 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: Filter type for HSF filter process.
+ * Refer to :ref:`L1ISP_high_resolution_luminance_filter_type`
+ * @rcnr_anf_blend_ag0: Maximum value of MSF result blend ratio in write back data to line memory.
+ * Refer to :ref:`L1ISP_MSF_blend_ratio`
+ * @rcnr_anf_blend_ag1: Middle value of MSF result blend ratio in write back data to line memory.
+ * Refer to :ref:`L1ISP_MSF_blend_ratio`
+ * @rcnr_anf_blend_ag2: Minimum value of MSF result blend ratio in write back data to line memory.
+ * Refer to :ref:`L1ISP_MSF_blend_ratio`
+ * @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 {
+ uint32_t rcnr_sw;
+ uint32_t rcnr_cnf_dark_ag0;
+ uint32_t rcnr_cnf_dark_ag1;
+ uint32_t rcnr_cnf_dark_ag2;
+ uint32_t rcnr_cnf_ratio_ag0;
+ uint32_t rcnr_cnf_ratio_ag1;
+ uint32_t rcnr_cnf_ratio_ag2;
+ uint32_t rcnr_cnf_clip_gain_r;
+ uint32_t rcnr_cnf_clip_gain_g;
+ uint32_t rcnr_cnf_clip_gain_b;
+ uint32_t rcnr_a1l_dark_ag0;
+ uint32_t rcnr_a1l_dark_ag1;
+ uint32_t rcnr_a1l_dark_ag2;
+ uint32_t rcnr_a1l_ratio_ag0;
+ uint32_t rcnr_a1l_ratio_ag1;
+ uint32_t rcnr_a1l_ratio_ag2;
+ uint32_t rcnr_inf_zero_clip;
+ uint32_t rcnr_merge_d2blend_ag0;
+ uint32_t rcnr_merge_d2blend_ag1;
+ uint32_t rcnr_merge_d2blend_ag2;
+ uint32_t rcnr_merge_black;
+ uint32_t rcnr_merge_mindiv;
+ uint32_t rcnr_hry_type;
+ uint32_t rcnr_anf_blend_ag0;
+ uint32_t rcnr_anf_blend_ag1;
+ uint32_t rcnr_anf_blend_ag2;
+ uint32_t rcnr_lpf_threshold;
+ uint32_t rcnr_merge_hlblend_ag0;
+ uint32_t rcnr_merge_hlblend_ag1;
+ uint32_t rcnr_merge_hlblend_ag2;
+ uint32_t rcnr_gnr_sw;
+ uint32_t rcnr_gnr_ratio;
+ uint32_t rcnr_gnr_wide_en;
+};
+/**
+ * struct viif_l1_raw_color_noise_reduction_config - L1ISP RCNR parameters
+ * for :ref:`VIDIOC_VIIF_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:`VIDIOC_VIIF_L1_SET_HDRS`
+ * @hdrs_hdr_mode: Use/No use settings of middle sensitivity image in HDRS.
+ * :ref:`L1ISP HDR setting <L1ISP_HDR_setting>`
+ * @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 {
+ uint32_t hdrs_hdr_mode;
+ uint32_t hdrs_hdr_ratio_m;
+ uint32_t hdrs_hdr_ratio_l;
+ uint32_t hdrs_hdr_ratio_e;
+ uint32_t hdrs_dg_h;
+ uint32_t hdrs_dg_m;
+ uint32_t hdrs_dg_l;
+ uint32_t hdrs_dg_e;
+ uint32_t hdrs_blendend_h;
+ uint32_t hdrs_blendend_m;
+ uint32_t hdrs_blendend_e;
+ uint32_t hdrs_blendbeg_h;
+ uint32_t hdrs_blendbeg_m;
+ uint32_t hdrs_blendbeg_e;
+ uint32_t hdrs_led_mode_on;
+ uint32_t hdrs_dst_max_val;
+};
+
+/**
+ * struct viif_l1_black_level_correction_config - L1ISP image level conversion
+ * parameters for :ref:`VIDIOC_VIIF_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 {
+ uint32_t srcblacklevel_gr;
+ uint32_t srcblacklevel_r;
+ uint32_t srcblacklevel_b;
+ uint32_t srcblacklevel_gb;
+ uint32_t mulval_gr;
+ uint32_t mulval_r;
+ uint32_t mulval_b;
+ uint32_t mulval_gb;
+ uint32_t 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 {
+ int16_t lssc_paracoef_h_l_max;
+ int16_t lssc_paracoef_h_l_min;
+ int16_t lssc_paracoef_h_r_max;
+ int16_t lssc_paracoef_h_r_min;
+ int16_t lssc_paracoef_v_u_max;
+ int16_t lssc_paracoef_v_u_min;
+ int16_t lssc_paracoef_v_d_max;
+ int16_t lssc_paracoef_v_d_min;
+ int16_t lssc_paracoef_hv_lu_max;
+ int16_t lssc_paracoef_hv_lu_min;
+ int16_t lssc_paracoef_hv_ru_max;
+ int16_t lssc_paracoef_hv_ru_min;
+ int16_t lssc_paracoef_hv_ld_max;
+ int16_t lssc_paracoef_hv_ld_min;
+ int16_t lssc_paracoef_hv_rd_max;
+ int16_t 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: Parabola 2D correction coefficient gain magnification ratio.
+ * Refer to :ref:`L1ISP_parabola_shading_correction_ratio`
+ * @lssc_para_mgsel4: Parabola 4D correction coefficient gain magnification ratio.
+ * Refer to :ref:`L1ISP_parabola_shading_correction_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 {
+ uint32_t lssc_para_h_center;
+ uint32_t lssc_para_v_center;
+ uint32_t lssc_para_h_gain;
+ uint32_t lssc_para_v_gain;
+ uint32_t lssc_para_mgsel2;
+ uint32_t 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: Grid correction coefficient gain value magnification ratio.
+ * Refer to :ref:`L1ISP_grid_shading_correction_coefficient_ratio`
+ */
+struct viif_l1_lsc_grid_param {
+ uint32_t lssc_grid_h_size;
+ uint32_t lssc_grid_v_size;
+ uint32_t lssc_grid_h_center;
+ uint32_t lssc_grid_v_center;
+ uint32_t lssc_grid_mgsel;
+};
+/**
+ * struct viif_l1_lsc - L2ISP LSC parameters for &struct viif_l1_lsc_config
+ * @lssc_parabola_param: Pointer to parabola shading correction parameter.
+ * Refer to &struct viif_l1_lsc_parabola_param.
+ * "NULL: Disable parabola shading correction",
+ * "Other: Enable parabola shading correction"
+ * @lssc_grid_param: Pointer to grid shading correction parameter
+ * Refer to &struct viif_l1_lsc_grid_param.
+ * "NULL: Disable grid shading correction",
+ * "Other: Enable 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 {
+ struct viif_l1_lsc_parabola_param *lssc_parabola_param;
+ struct viif_l1_lsc_grid_param *lssc_grid_param;
+ uint32_t lssc_pwhb_r_gain_max;
+ uint32_t lssc_pwhb_r_gain_min;
+ uint32_t lssc_pwhb_gr_gain_max;
+ uint32_t lssc_pwhb_gr_gain_min;
+ uint32_t lssc_pwhb_gb_gain_max;
+ uint32_t lssc_pwhb_gb_gain_min;
+ uint32_t lssc_pwhb_b_gain_max;
+ uint32_t lssc_pwhb_b_gain_min;
+};
+/**
+ * struct viif_l1_lsc_config - L2ISP LSC parameters
+ * for :ref:`VIDIOC_VIIF_L1_SET_LSC`
+ * @param: Pointer to LSC parameter. Refer to &struct viif_l1_lsc
+ * "NULL: Disable LSC", "Other: Enable LSC"
+ * @table_gr: Grid table address for LSC of Gr.
+ * Table is not transferred if a NULL pointer is set
+ * @table_r: Grid table address for LSC of R.
+ * Table is not transferred if a NULL pointer is set
+ * @table_b: Grid table address for LSC of B.
+ * Table is not transferred if a NULL pointer is set
+ * @table_gb: Grid table address for LSC of Gb.
+ * Table is not transferred if a NULL pointer is set
+ *
+ * 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 {
+ struct viif_l1_lsc *param;
+ uint16_t *table_gr;
+ uint16_t *table_r;
+ uint16_t *table_b;
+ uint16_t *table_gb;
+};
+
+/**
+ * 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 {
+ int16_t coef_rmg_min;
+ int16_t coef_rmg_max;
+ int16_t coef_rmb_min;
+ int16_t coef_rmb_max;
+ int16_t coef_gmr_min;
+ int16_t coef_gmr_max;
+ int16_t coef_gmb_min;
+ int16_t coef_gmb_max;
+ int16_t coef_bmr_min;
+ int16_t coef_bmr_max;
+ int16_t coef_bmg_min;
+ int16_t coef_bmg_max;
+ uint16_t dst_minval;
+};
+/**
+ * struct viif_l1_main_process_config - L1ISP Main process operating parameters
+ * for :ref:`VIDIOC_VIIF_L1_SET_MAIN_PROCESS`
+ * @demosaic_mode: :ref:`Demosaic mode <L1ISP_demosaic_mode>`
+ * @damp_lsbsel: Clipping range of output pixel value to AWB adjustment function [0..15]
+ * @param: Pointer to color matrix correction parameter.
+ * Refer to &struct viif_l1_color_matrix_correction.
+ * "NULL: Disable color matrix correction",
+ * "Other: Enable 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 {
+ uint32_t demosaic_mode;
+ uint32_t damp_lsbsel;
+ struct viif_l1_color_matrix_correction *param;
+ uint32_t 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_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, /* not restart */
+ VIIF_L1_AWB_RESTART_128FRAME = 1, /* restart after 128 frame */
+ VIIF_L1_AWB_RESTART_64FRAME = 2, /* restart after 64 frame */
+ VIIF_L1_AWB_RESTART_32FRAME = 3, /* restart after 32 frame */
+ VIIF_L1_AWB_RESTART_16FRAME = 4, /* restart after 16 frame */
+ VIIF_L1_AWB_RESTART_8FRAME = 5, /* restart after 8 frame */
+ VIIF_L1_AWB_RESTART_4FRAME = 6, /* restart after 4 frame */
+ VIIF_L1_AWB_RESTART_2FRAME = 7, /* restart after 2 frame */
+};
+
+/**
+ * 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: Signal output magnification ratio before AWB adjustment.
+ * Refer to :ref:`L1ISP_signal_magnification_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: Final selection of accumulation area for detection target area.
+ * Refer to :ref:`L1ISP_AWB_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: Condition to restart AWB process.
+ * Refer to :ref:`L1ISP_AWB_adjustment_restart_conditions`
+ * @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 {
+ uint32_t awhb_ygate_sel;
+ uint32_t awhb_ygate_data;
+ uint32_t awhb_cgrange;
+ uint32_t awhb_ygatesw;
+ uint32_t awhb_hexsw;
+ uint32_t awhb_areamode;
+ uint32_t awhb_area_hsize;
+ uint32_t awhb_area_vsize;
+ uint32_t awhb_area_hofs;
+ uint32_t awhb_area_vofs;
+ uint32_t awhb_area_maskh;
+ uint32_t awhb_area_maskl;
+ uint32_t awhb_sq_sw[3];
+ uint32_t awhb_sq_pol[3];
+ uint32_t awhb_bycut0p;
+ uint32_t awhb_bycut0n;
+ uint32_t awhb_rycut0p;
+ uint32_t awhb_rycut0n;
+ int32_t awhb_rbcut0h;
+ int32_t awhb_rbcut0l;
+ int32_t awhb_bycut_h[3];
+ uint32_t awhb_bycut_l[3];
+ int32_t awhb_rycut_h[3];
+ uint32_t awhb_rycut_l[3];
+ int32_t awhb_awbsftu;
+ int32_t awhb_awbsftv;
+ uint32_t awhb_awbhuecor;
+ uint32_t awhb_awbspd;
+ uint32_t awhb_awbulv;
+ uint32_t awhb_awbvlv;
+ uint32_t awhb_awbondot;
+ uint32_t awhb_awbfztim;
+ uint8_t awhb_wbgrmax;
+ uint8_t awhb_wbgbmax;
+ uint8_t awhb_wbgrmin;
+ uint8_t awhb_wbgbmin;
+ uint8_t awhb_ygateh;
+ uint8_t awhb_ygatel;
+ uint8_t awhb_awbwait;
+};
+/**
+ * struct viif_l1_awb_config - L1ISP AWB parameters
+ * for :ref:`VIDIOC_VIIF_L1_SET_AWB`
+ * @param: Pointer to AWB adjustment parameter. Refer to &struct viif_l1_awb
+ * "NULL: Disable AWB adjustment", "Other: Enable 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 {
+ struct viif_l1_awb *param;
+ uint32_t awhb_wbmrg;
+ uint32_t awhb_wbmgg;
+ uint32_t 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: :ref:`L1ISP HDRC tone type <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 {
+ uint32_t hdrc_ratio;
+ uint32_t hdrc_pt_ratio;
+ uint32_t hdrc_pt_blend;
+ uint32_t hdrc_pt_blend2;
+ uint32_t hdrc_tn_type;
+ uint16_t hdrc_utn_tbl[20];
+ uint32_t hdrc_flr_val;
+ uint32_t hdrc_flr_adp;
+ uint32_t hdrc_ybr_off;
+ uint32_t hdrc_orgy_blend;
+ uint16_t hdrc_pt_sat;
+};
+/**
+ * struct viif_l1_hdrc_config - L1ISP HDRC parameters
+ * for :ref:`VIDIOC_VIIF_L1_SET_HDRC`
+ * @param: Pointer to HDRC parameter. Refer to &struct viif_l1_hdrc.
+ * "NULL: Disable HDRC", "Other: Enable HDRC"
+ * @hdrc_thr_sft_amt: Amount of right shift in through mode (HDRC disabled) [0..8].
+ * Should set 0 in case to enable HDRC
+ */
+struct viif_l1_hdrc_config {
+ struct viif_l1_hdrc *param;
+ uint32_t hdrc_thr_sft_amt;
+};
+
+/**
+ * struct viif_l1_hdrc_ltm_config - L1ISP HDRC LTM parameters
+ * for :ref:`VIDIOC_VIIF_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 {
+ uint32_t tnp_max;
+ uint32_t tnp_mag;
+ uint8_t 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 {
+ uint16_t gam_p[44];
+ uint16_t blkadj;
+};
+/**
+ * struct viif_l1_gamma_config - L1ISP gamma correction parameters
+ * @param: Pointer to gamma correction parameter. Refer to &struct viif_l1_gamma
+ * "NULL: Disable gamma correction", "Other: Enable gamma correction"
+ */
+struct viif_l1_gamma_config {
+ struct viif_l1_gamma *param;
+};
+
+/**
+ * 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 {
+ uint16_t blk_knee;
+ uint16_t wht_knee;
+ uint8_t blk_cont[3];
+ uint8_t 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 {
+ uint16_t gain_min;
+ uint16_t gain_max;
+ uint16_t lim_min;
+ uint16_t 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 {
+ uint16_t gain_min;
+ uint16_t gain_max;
+ uint16_t lim_min;
+ uint16_t lim_max;
+ uint16_t coring_min;
+ uint16_t 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 {
+ uint32_t bk_mp;
+ uint32_t black;
+ uint32_t wh_mp;
+ uint32_t white;
+ uint16_t bk_slv;
+ uint16_t 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 {
+ uint16_t lv_min;
+ uint16_t lv_max;
+ uint16_t gain_min;
+ uint16_t 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 {
+ uint16_t gain;
+ uint32_t 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 {
+ uint32_t cb_gain;
+ uint32_t cr_gain;
+ uint32_t cbr_mgain_min;
+ uint32_t cbp_gain_max;
+ uint32_t cbm_gain_max;
+ uint32_t crp_gain_max;
+ uint32_t crm_gain_max;
+};
+/**
+ * struct viif_l1_img_quality_adjustment_config - L1ISP image quality
+ * adjustment parameters for :ref:`VIDIOC_VIIF_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: Pointer to nonlinear contrast adjustment parameter.
+ * Refer to &struct viif_l1_nonlinear_contrast.
+ * "NULL: Disable function", "Other: Enable function"
+ * @lum_noise_reduction: Pointer to luminance noise reduction parameter.
+ * Refer to &struct viif_l1_lum_noise_reduction.
+ * "NULL: Disable function", "Other: Enable function"
+ * @edge_enhancement: Pointer to edge enhancement processing parameter.
+ * Refer to &struct viif_l1_edge_enhancement.
+ * "NULL: Disable function", "Other: Enable function"
+ * @uv_suppression: Pointer to low / high luminance color suppression processing parameter.
+ * Refer to &struct viif_l1_uv_suppression.
+ * "NULL: Disable function", "Other: Enable function"
+ * @coring_suppression: Pointer to low chroma coring suppression processing parameter.
+ * Refer to &struct viif_l1_coring_suppression.
+ * "NULL: Disable function", "Other: Enable function"
+ * @edge_suppression: Pointer to edge color suppression processing parameter.
+ * Refer to &struct viif_l1_edge_suppression.
+ * "NULL: Disable function", "Other: Enable function"
+ * @color_level: Pointer to color level adjustment parameter.
+ * Refer to &struct viif_l1_color_level.
+ * "NULL: Disable function", "Other: Enable function"
+ * @color_noise_reduction_enable: 1:Enable/0:disable setting of
+ * color component noise reduction processing
+ */
+struct viif_l1_img_quality_adjustment_config {
+ uint16_t coef_cb;
+ uint16_t coef_cr;
+ int16_t brightness;
+ uint8_t 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;
+ uint32_t color_noise_reduction_enable;
+};
+
+/* L2ISP undistortion mode */
+enum viif_l2_undist_mode {
+ VIIF_L2_UNDIST_POLY = 0, /* polynomial mode */
+ VIIF_L2_UNDIST_GRID = 1, /* grid table mode */
+ VIIF_L2_UNDIST_POLY_TO_GRID = 2, /* polynomial, then grid table mode */
+ VIIF_L2_UNDIST_GRID_TO_POLY = 3, /* grid table, then polynomial mode */
+};
+
+/**
+ * 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: :ref:`L2ISP undistortion mode <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 {
+ uint32_t through_mode;
+ uint32_t roi_mode;
+ int32_t sensor_crop_ofs_h;
+ int32_t sensor_crop_ofs_v;
+ uint32_t norm_scale;
+ uint32_t valid_r_norm2_poly;
+ uint32_t valid_r_norm2_grid;
+ uint32_t roi_write_area_delta;
+ int32_t poly_write_g_coef[11];
+ int32_t poly_read_b_coef[11];
+ int32_t poly_read_g_coef[11];
+ int32_t poly_read_r_coef[11];
+ uint32_t grid_node_num_h;
+ uint32_t grid_node_num_v;
+ uint32_t grid_patch_hsize_inv;
+ uint32_t grid_patch_vsize_inv;
+};
+/**
+ * struct viif_l2_undist_config - L2ISP UNDIST parameters
+ * for :ref:`VIDIOC_VIIF_L2_SET_UNDIST`
+ * @param: &struct viif_l2_undist
+ * @write_g: Write for G Grid table address.
+ * Table is not transferred if a NULL pointer is set
+ * @read_b: Read for B Grid table address.
+ * Table is not transferred if a NULL pointer is set
+ * @read_g: Read for G Grid table address.
+ * Table is not transferred if a NULL pointer is set
+ * @read_r: Read for R Grid table address.
+ * Table is not transferred if a NULL pointer is set
+ * @size: Table size [byte]. Range: [1024..8192] or 0.
+ * Should be set to "grid_node_num_h * grid_node_num_v * 4".
+ * Refer to &struct viif_l2_undist.
+ * Should set 0 in case NULL is set for all tables.
+ * Should set size other than 0 in case If other is set in more than one table.
+ *
+ * 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;
+ uint32_t *write_g;
+ uint32_t *read_b;
+ uint32_t *read_g;
+ uint32_t *read_r;
+ uint32_t size;
+};
+
+/**
+ * struct viif_l2_roi_config - L2ISP ROI parameters
+ * for :ref:`VIDIOC_VIIF_L2_SET_ROI`
+ * @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 {
+ uint32_t roi_scale;
+ uint32_t roi_scale_inv;
+ uint32_t corrected_wo_scale_hsize;
+ uint32_t corrected_wo_scale_vsize;
+ uint32_t corrected_hsize;
+ uint32_t corrected_vsize;
+};
+
+/** enum viif_gamma_mode - Gamma correction mode
+ *
+ * @VIIF_GAMMA_COMPRESSED: compressed table mode
+ * @VIIF_GAMMA_LINEAR: liner 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:`VIDIOC_VIIF_L2_SET_GAMMA`
+ * @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: :ref:`Gamma correction mode <Gamma_correction_mode>`.
+ * Should set VIIF_GAMMA_COMPRESSED in case 0 is set to @enable
+ * @table: Table address.
+ * Gamma table is not transferred if a NULL pointer is set to table.
+ * The size of each table is fixed to 512 bytes.
+ * [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)
+ */
+struct viif_l2_gamma_config {
+ uint32_t enable;
+ uint32_t vsplit;
+ uint32_t mode;
+ uint16_t *table[6];
+};
+
+/**
+ * struct viif_l2_crop_config - L2ISP Cropping parameters
+ * for :ref:`VIDIOC_VIIF_L2_SET_CROP`
+ * @x: X coordinate position
+ * (with the upper left corner of the image as the origin)[pixel] [0..8062]
+ * @y: Y coordinate position
+ * (with the upper left corner of the image as the origin)[Line] [0..3966]
+ * @w: Image width[pixel] [128..8190]
+ * @h: Image height[pixel] [128..4094]
+ */
+struct viif_l2_crop_config {
+ uint32_t x;
+ uint32_t y;
+ uint32_t w;
+ uint32_t h;
+};
+
+/**
+ * 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:`VIDIOC_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
+ *
+ * Refer to :ref:`CSI2-RX calibration status <CSI2RX_calibration_status>`
+ * for the definitions of each member
+ */
+struct viif_csi2rx_dphy_calibration_status {
+ uint32_t term_cal_with_rext;
+ uint32_t clock_lane_offset_cal;
+ uint32_t data_lane0_offset_cal;
+ uint32_t data_lane1_offset_cal;
+ uint32_t data_lane2_offset_cal;
+ uint32_t data_lane3_offset_cal;
+ uint32_t data_lane0_ddl_tuning_cal;
+ uint32_t data_lane1_ddl_tuning_cal;
+ uint32_t data_lane2_ddl_tuning_cal;
+ uint32_t data_lane3_ddl_tuning_cal;
+};
+
+/**
+ * struct viif_csi2rx_err_status - CSI2RX Error status parameters
+ * for :ref:`VIDIOC_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 {
+ uint32_t err_phy_fatal;
+ uint32_t err_pkt_fatal;
+ uint32_t err_frame_fatal;
+ uint32_t err_phy;
+ uint32_t err_pkt;
+ uint32_t err_line;
+};
+
+/**
+ * struct viif_l1_info - L1ISP AWB information
+ * for &struct viif_isp_capture_status
+ * @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: U convergence state of AWB adjustment
+ * (true: converged, false: not-converged)
+ * @awb_status_v: V convergence state of AWB adjustment
+ * (true: converged, false: not-converged)
+ */
+struct viif_l1_info {
+ uint32_t awb_ave_u;
+ uint32_t awb_ave_v;
+ uint32_t awb_accumulated_pixel;
+ uint32_t awb_gain_r;
+ uint32_t awb_gain_g;
+ uint32_t awb_gain_b;
+ bool awb_status_u;
+ bool awb_status_v;
+};
+/**
+ * struct viif_isp_capture_status - L1ISP capture information
+ * for :ref:`VIDIOC_VIIF_ISP_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;
+};
+
+#endif /* __UAPI_VISCONTI_VIIF_H_ */
--
2.17.1


2022-04-13 07:52:34

by Yuji Ishikawa

[permalink] [raw]
Subject: [PATCH 1/3] dt-bindings: media: platform: visconti: Add Toshiba Visconti Video Input Interface bindings

Adds the Device Tree binding documentation that allows to describe
the Video Input Interface found in Toshiba Visconti SoCs.

Signed-off-by: Yuji Ishikawa <[email protected]>
Reviewed-by: Nobuhiro Iwamatsu <[email protected]>
---
.../bindings/media/toshiba,visconti-viif.yaml | 103 ++++++++++++++++++
1 file changed, 103 insertions(+)
create mode 100644 Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml

diff --git a/Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml b/Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml
new file mode 100644
index 000000000..848ea5019
--- /dev/null
+++ b/Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml
@@ -0,0 +1,103 @@
+# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
+%YAML 1.2
+---
+$id: http://devicetree.org/schemas/media/toshiba,visconti-viif.yaml#
+$schema: http://devicetree.org/meta-schemas/core.yaml#
+
+title: Toshiba Visconti5 SoC Video Input Interface Device Tree Bindings
+
+maintainers:
+ - Nobuhiro Iwamatsu <[email protected]>
+
+description: |
+ Toshiba Visconti5 SoC Video Input Interface (VIIF) receives MIPI CSI2 video stream,
+ processes the stream with embedded image signal processor (L1ISP, L2ISP), then stores pictures to main memory.
+
+properties:
+ compatible:
+ const: toshiba,visconti-viif
+
+ reg:
+ items:
+ - description: registers for capture control
+ - description: registers for CSI2 receiver control
+
+ interrupts:
+ items:
+ - description: Sync Interrupt
+ - description: Status (Error) Interrupt
+ - description: CSI2 Receiver Interrupt
+ - description: L1ISP Interrupt
+
+ index:
+ enum: [0, 1]
+
+ port:
+ $ref: /schemas/graph.yaml#/$defs/port-base
+ unevaluatedProperties: false
+ description: Input port node, single endpoint describing the CSI-2 transmitter.
+
+ properties:
+ endpoint:
+ $ref: video-interfaces.yaml#
+ unevaluatedProperties: false
+
+ properties:
+ data-lanes:
+ description: VIIF supports 2 or 4 data lines
+ items:
+ minItems: 1
+ maxItems: 4
+ items:
+ - const: 1
+ - const: 2
+ - const: 3
+ - const: 4
+ clock-lanes:
+ description: VIIF supports 1 clock line
+ const: 0
+
+required:
+ - compatible
+ - reg
+ - interrupts
+ - port
+
+additionalProperties: false
+
+examples:
+ - |
+ #include <dt-bindings/interrupt-controller/arm-gic.h>
+ #include <dt-bindings/interrupt-controller/irq.h>
+
+ soc {
+ #address-cells = <2>;
+ #size-cells = <2>;
+
+ viif0: viif@1c000000 {
+ compatible = "toshiba,visconti-viif";
+ reg = <0 0x1c000000 0 0x6000>,
+ <0 0x1c008000 0 0x400>;
+ interrupts = <GIC_SPI 64 IRQ_TYPE_LEVEL_HIGH>,
+ <GIC_SPI 67 IRQ_TYPE_LEVEL_HIGH>,
+ <GIC_SPI 73 IRQ_TYPE_LEVEL_HIGH>,
+ <GIC_SPI 76 IRQ_TYPE_LEVEL_HIGH>;
+ index = <0>;
+ status = "disabled";
+
+ port {
+ #address-cells = <1>;
+ #size-cells = <0>;
+
+ csi_in0: endpoint {
+ remote-endpoint = <&imx219_out0>;
+ bus-type = <4>;
+ data-lanes = <1 2>;
+ clock-lanes = <0>;
+ clock-noncontinuous;
+ link-frequencies = /bits/ 64 <456000000>;
+ };
+ };
+ };
+ };
+
--
2.17.1


2022-04-13 13:52:01

by Yuji Ishikawa

[permalink] [raw]
Subject: [PATCH 3/3] MAINTAINERS: Add entries for Toshiba Visconti Video Input Interface

Signed-off-by: Yuji Ishikawa <[email protected]>
Reviewed-by: Nobuhiro Iwamatsu <[email protected]>
---
MAINTAINERS | 2 ++
1 file changed, 2 insertions(+)

diff --git a/MAINTAINERS b/MAINTAINERS
index dd36acc87..30b0fcd0e 100644
--- a/MAINTAINERS
+++ b/MAINTAINERS
@@ -2792,12 +2792,14 @@ L: [email protected] (moderated for non-subscribers)
S: Supported
T: git git://git.kernel.org/pub/scm/linux/kernel/git/iwamatsu/linux-visconti.git
F: Documentation/devicetree/bindings/arm/toshiba.yaml
+F: Documentation/devicetree/bindings/media/toshiba,visconti-viif.yaml
F: Documentation/devicetree/bindings/net/toshiba,visconti-dwmac.yaml
F: Documentation/devicetree/bindings/gpio/toshiba,gpio-visconti.yaml
F: Documentation/devicetree/bindings/pci/toshiba,visconti-pcie.yaml
F: Documentation/devicetree/bindings/pinctrl/toshiba,visconti-pinctrl.yaml
F: Documentation/devicetree/bindings/watchdog/toshiba,visconti-wdt.yaml
F: arch/arm64/boot/dts/toshiba/
+F: drivers/media/platform/visconti/
F: drivers/net/ethernet/stmicro/stmmac/dwmac-visconti.c
F: drivers/gpio/gpio-visconti.c
F: drivers/pci/controller/dwc/pcie-visconti.c
--
2.17.1