summaryrefslogtreecommitdiff
path: root/drivers/media/platform/ti-vpe/cal.c
blob: be54806180a5a377f70c769fb92a329d0af2a44d (plain)
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// SPDX-License-Identifier: GPL-2.0-only
/*
 * TI CAL camera interface driver
 *
 * Copyright (c) 2015 Texas Instruments Inc.
 * Benoit Parrot, <bparrot@ti.com>
 */

#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/ioctl.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/delay.h>
#include <linux/pm_runtime.h>
#include <linux/slab.h>
#include <linux/mfd/syscon.h>
#include <linux/regmap.h>
#include <linux/videodev2.h>
#include <linux/of_device.h>
#include <linux/of_graph.h>

#include <media/v4l2-fwnode.h>
#include <media/v4l2-async.h>
#include <media/v4l2-common.h>
#include <media/v4l2-ctrls.h>
#include <media/v4l2-device.h>
#include <media/v4l2-event.h>
#include <media/v4l2-ioctl.h>
#include <media/v4l2-fh.h>
#include <media/videobuf2-core.h>
#include <media/videobuf2-dma-contig.h>
#include "cal_regs.h"

#define CAL_MODULE_NAME "cal"

#define MAX_WIDTH_BYTES (8192 * 8)
#define MAX_HEIGHT_LINES 16383

#define CAL_VERSION "0.1.0"

MODULE_DESCRIPTION("TI CAL driver");
MODULE_AUTHOR("Benoit Parrot, <bparrot@ti.com>");
MODULE_LICENSE("GPL v2");
MODULE_VERSION(CAL_VERSION);

static unsigned video_nr = -1;
module_param(video_nr, uint, 0644);
MODULE_PARM_DESC(video_nr, "videoX start number, -1 is autodetect");

static unsigned debug;
module_param(debug, uint, 0644);
MODULE_PARM_DESC(debug, "activates debug info");

/* timeperframe: min/max and default */
static const struct v4l2_fract
	tpf_default = {.numerator = 1001,	.denominator = 30000};

#define cal_dbg(level, caldev, fmt, arg...)	\
		v4l2_dbg(level, debug, &caldev->v4l2_dev, fmt, ##arg)
#define cal_info(caldev, fmt, arg...)	\
		v4l2_info(&caldev->v4l2_dev, fmt, ##arg)
#define cal_err(caldev, fmt, arg...)	\
		v4l2_err(&caldev->v4l2_dev, fmt, ##arg)

#define ctx_dbg(level, ctx, fmt, arg...)	\
		v4l2_dbg(level, debug, &ctx->v4l2_dev, fmt, ##arg)
#define ctx_info(ctx, fmt, arg...)	\
		v4l2_info(&ctx->v4l2_dev, fmt, ##arg)
#define ctx_err(ctx, fmt, arg...)	\
		v4l2_err(&ctx->v4l2_dev, fmt, ##arg)

#define CAL_NUM_INPUT 1
#define CAL_NUM_CONTEXT 2

#define reg_read(dev, offset) ioread32(dev->base + offset)
#define reg_write(dev, offset, val) iowrite32(val, dev->base + offset)

#define reg_read_field(dev, offset, mask) get_field(reg_read(dev, offset), \
						    mask)
#define reg_write_field(dev, offset, field, mask) { \
	u32 val = reg_read(dev, offset); \
	set_field(&val, field, mask); \
	reg_write(dev, offset, val); }

/* ------------------------------------------------------------------
 *	Basic structures
 * ------------------------------------------------------------------
 */

struct cal_fmt {
	u32	fourcc;
	u32	code;
	/* Bits per pixel */
	u8	bpp;
};

static struct cal_fmt cal_formats[] = {
	{
		.fourcc		= V4L2_PIX_FMT_YUYV,
		.code		= MEDIA_BUS_FMT_YUYV8_2X8,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_UYVY,
		.code		= MEDIA_BUS_FMT_UYVY8_2X8,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_YVYU,
		.code		= MEDIA_BUS_FMT_YVYU8_2X8,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_VYUY,
		.code		= MEDIA_BUS_FMT_VYUY8_2X8,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB565, /* gggbbbbb rrrrrggg */
		.code		= MEDIA_BUS_FMT_RGB565_2X8_LE,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB565X, /* rrrrrggg gggbbbbb */
		.code		= MEDIA_BUS_FMT_RGB565_2X8_BE,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB555, /* gggbbbbb arrrrrgg */
		.code		= MEDIA_BUS_FMT_RGB555_2X8_PADHI_LE,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB555X, /* arrrrrgg gggbbbbb */
		.code		= MEDIA_BUS_FMT_RGB555_2X8_PADHI_BE,
		.bpp		= 16,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB24, /* rgb */
		.code		= MEDIA_BUS_FMT_RGB888_2X12_LE,
		.bpp		= 24,
	}, {
		.fourcc		= V4L2_PIX_FMT_BGR24, /* bgr */
		.code		= MEDIA_BUS_FMT_RGB888_2X12_BE,
		.bpp		= 24,
	}, {
		.fourcc		= V4L2_PIX_FMT_RGB32, /* argb */
		.code		= MEDIA_BUS_FMT_ARGB8888_1X32,
		.bpp		= 32,
	}, {
		.fourcc		= V4L2_PIX_FMT_SBGGR8,
		.code		= MEDIA_BUS_FMT_SBGGR8_1X8,
		.bpp		= 8,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGBRG8,
		.code		= MEDIA_BUS_FMT_SGBRG8_1X8,
		.bpp		= 8,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGRBG8,
		.code		= MEDIA_BUS_FMT_SGRBG8_1X8,
		.bpp		= 8,
	}, {
		.fourcc		= V4L2_PIX_FMT_SRGGB8,
		.code		= MEDIA_BUS_FMT_SRGGB8_1X8,
		.bpp		= 8,
	}, {
		.fourcc		= V4L2_PIX_FMT_SBGGR10,
		.code		= MEDIA_BUS_FMT_SBGGR10_1X10,
		.bpp		= 10,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGBRG10,
		.code		= MEDIA_BUS_FMT_SGBRG10_1X10,
		.bpp		= 10,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGRBG10,
		.code		= MEDIA_BUS_FMT_SGRBG10_1X10,
		.bpp		= 10,
	}, {
		.fourcc		= V4L2_PIX_FMT_SRGGB10,
		.code		= MEDIA_BUS_FMT_SRGGB10_1X10,
		.bpp		= 10,
	}, {
		.fourcc		= V4L2_PIX_FMT_SBGGR12,
		.code		= MEDIA_BUS_FMT_SBGGR12_1X12,
		.bpp		= 12,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGBRG12,
		.code		= MEDIA_BUS_FMT_SGBRG12_1X12,
		.bpp		= 12,
	}, {
		.fourcc		= V4L2_PIX_FMT_SGRBG12,
		.code		= MEDIA_BUS_FMT_SGRBG12_1X12,
		.bpp		= 12,
	}, {
		.fourcc		= V4L2_PIX_FMT_SRGGB12,
		.code		= MEDIA_BUS_FMT_SRGGB12_1X12,
		.bpp		= 12,
	},
};

/*  Print Four-character-code (FOURCC) */
static char *fourcc_to_str(u32 fmt)
{
	static char code[5];

	code[0] = (unsigned char)(fmt & 0xff);
	code[1] = (unsigned char)((fmt >> 8) & 0xff);
	code[2] = (unsigned char)((fmt >> 16) & 0xff);
	code[3] = (unsigned char)((fmt >> 24) & 0xff);
	code[4] = '\0';

	return code;
}

/* buffer for one video frame */
struct cal_buffer {
	/* common v4l buffer stuff -- must be first */
	struct vb2_v4l2_buffer	vb;
	struct list_head	list;
	const struct cal_fmt	*fmt;
};

struct cal_dmaqueue {
	struct list_head	active;

	/* Counters to control fps rate */
	int			frame;
	int			ini_jiffies;
};

struct cc_data {
	void __iomem		*base;
	struct resource		*res;

	struct platform_device *pdev;
};

/* CTRL_CORE_CAMERRX_CONTROL register field id */
enum cal_camerarx_field {
	F_CTRLCLKEN,
	F_CAMMODE,
	F_LANEENABLE,
	F_CSI_MODE,

	F_MAX_FIELDS,
};

struct cal_csi2_phy {
	struct regmap_field *fields[F_MAX_FIELDS];
	struct reg_field *base_fields;
	const int num_lanes;
};

struct cal_data {
	const int num_csi2_phy;
	struct cal_csi2_phy *csi2_phy_core;

	const unsigned int flags;
};

static struct reg_field dra72x_ctrl_core_csi0_reg_fields[F_MAX_FIELDS] = {
	[F_CTRLCLKEN] = REG_FIELD(0, 10, 10),
	[F_CAMMODE] = REG_FIELD(0, 11, 12),
	[F_LANEENABLE] = REG_FIELD(0, 13, 16),
	[F_CSI_MODE] = REG_FIELD(0, 17, 17),
};

static struct reg_field dra72x_ctrl_core_csi1_reg_fields[F_MAX_FIELDS] = {
	[F_CTRLCLKEN] = REG_FIELD(0, 0, 0),
	[F_CAMMODE] = REG_FIELD(0, 1, 2),
	[F_LANEENABLE] = REG_FIELD(0, 3, 4),
	[F_CSI_MODE] = REG_FIELD(0, 5, 5),
};

static struct cal_csi2_phy dra72x_cal_csi_phy[] = {
	{
		.base_fields = dra72x_ctrl_core_csi0_reg_fields,
		.num_lanes = 4,
	},
	{
		.base_fields = dra72x_ctrl_core_csi1_reg_fields,
		.num_lanes = 2,
	},
};

static const struct cal_data dra72x_cal_data = {
	.csi2_phy_core = dra72x_cal_csi_phy,
	.num_csi2_phy = ARRAY_SIZE(dra72x_cal_csi_phy),
};

static const struct cal_data dra72x_es1_cal_data = {
	.csi2_phy_core = dra72x_cal_csi_phy,
	.num_csi2_phy = ARRAY_SIZE(dra72x_cal_csi_phy),
	.flags = DRA72_CAL_PRE_ES2_LDO_DISABLE,
};

static struct reg_field dra76x_ctrl_core_csi0_reg_fields[F_MAX_FIELDS] = {
	[F_CTRLCLKEN] = REG_FIELD(0, 8, 8),
	[F_CAMMODE] = REG_FIELD(0, 9, 10),
	[F_CSI_MODE] = REG_FIELD(0, 11, 11),
	[F_LANEENABLE] = REG_FIELD(0, 27, 31),
};

static struct reg_field dra76x_ctrl_core_csi1_reg_fields[F_MAX_FIELDS] = {
	[F_CTRLCLKEN] = REG_FIELD(0, 0, 0),
	[F_CAMMODE] = REG_FIELD(0, 1, 2),
	[F_CSI_MODE] = REG_FIELD(0, 3, 3),
	[F_LANEENABLE] = REG_FIELD(0, 24, 26),
};

static struct cal_csi2_phy dra76x_cal_csi_phy[] = {
	{
		.base_fields = dra76x_ctrl_core_csi0_reg_fields,
		.num_lanes = 5,
	},
	{
		.base_fields = dra76x_ctrl_core_csi1_reg_fields,
		.num_lanes = 3,
	},
};

static const struct cal_data dra76x_cal_data = {
	.csi2_phy_core = dra76x_cal_csi_phy,
	.num_csi2_phy = ARRAY_SIZE(dra76x_cal_csi_phy),
};

static struct reg_field am654_ctrl_core_csi0_reg_fields[F_MAX_FIELDS] = {
	[F_CTRLCLKEN] = REG_FIELD(0, 15, 15),
	[F_CAMMODE] = REG_FIELD(0, 24, 25),
	[F_LANEENABLE] = REG_FIELD(0, 0, 4),
};

static struct cal_csi2_phy am654_cal_csi_phy[] = {
	{
		.base_fields = am654_ctrl_core_csi0_reg_fields,
		.num_lanes = 5,
	},
};

static const struct cal_data am654_cal_data = {
	.csi2_phy_core = am654_cal_csi_phy,
	.num_csi2_phy = ARRAY_SIZE(am654_cal_csi_phy),
};

/*
 * there is one cal_dev structure in the driver, it is shared by
 * all instances.
 */
struct cal_dev {
	int			irq;
	void __iomem		*base;
	struct resource		*res;
	struct platform_device	*pdev;
	struct v4l2_device	v4l2_dev;

	/* Controller flags for special cases */
	unsigned int		flags;

	const struct cal_data	*data;

	/* Control Module handle */
	struct regmap		*syscon_camerrx;
	u32			syscon_camerrx_offset;

	/* Camera Core Module handle */
	struct cc_data		*cc[CAL_NUM_CSI2_PORTS];

	struct cal_ctx		*ctx[CAL_NUM_CONTEXT];
};

/*
 * There is one cal_ctx structure for each camera core context.
 */
struct cal_ctx {
	struct v4l2_device	v4l2_dev;
	struct v4l2_ctrl_handler ctrl_handler;
	struct video_device	vdev;
	struct v4l2_async_notifier notifier;
	struct v4l2_subdev	*sensor;
	struct v4l2_fwnode_endpoint	endpoint;

	struct v4l2_async_subdev asd;

	struct v4l2_fh		fh;
	struct cal_dev		*dev;
	struct cc_data		*cc;

	/* v4l2_ioctl mutex */
	struct mutex		mutex;
	/* v4l2 buffers lock */
	spinlock_t		slock;

	/* Several counters */
	unsigned long		jiffies;

	struct cal_dmaqueue	vidq;

	/* Input Number */
	int			input;

	/* video capture */
	const struct cal_fmt	*fmt;
	/* Used to store current pixel format */
	struct v4l2_format		v_fmt;
	/* Used to store current mbus frame format */
	struct v4l2_mbus_framefmt	m_fmt;

	/* Current subdev enumerated format */
	struct cal_fmt		*active_fmt[ARRAY_SIZE(cal_formats)];
	int			num_active_fmt;

	struct v4l2_fract	timeperframe;
	unsigned int		sequence;
	unsigned int		external_rate;
	struct vb2_queue	vb_vidq;
	unsigned int		seq_count;
	unsigned int		csi2_port;
	unsigned int		virtual_channel;

	/* Pointer pointing to current v4l2_buffer */
	struct cal_buffer	*cur_frm;
	/* Pointer pointing to next v4l2_buffer */
	struct cal_buffer	*next_frm;
};

static const struct cal_fmt *find_format_by_pix(struct cal_ctx *ctx,
						u32 pixelformat)
{
	const struct cal_fmt *fmt;
	unsigned int k;

	for (k = 0; k < ctx->num_active_fmt; k++) {
		fmt = ctx->active_fmt[k];
		if (fmt->fourcc == pixelformat)
			return fmt;
	}

	return NULL;
}

static const struct cal_fmt *find_format_by_code(struct cal_ctx *ctx,
						 u32 code)
{
	const struct cal_fmt *fmt;
	unsigned int k;

	for (k = 0; k < ctx->num_active_fmt; k++) {
		fmt = ctx->active_fmt[k];
		if (fmt->code == code)
			return fmt;
	}

	return NULL;
}

static inline struct cal_ctx *notifier_to_ctx(struct v4l2_async_notifier *n)
{
	return container_of(n, struct cal_ctx, notifier);
}

static inline int get_field(u32 value, u32 mask)
{
	return (value & mask) >> __ffs(mask);
}

static inline void set_field(u32 *valp, u32 field, u32 mask)
{
	u32 val = *valp;

	val &= ~mask;
	val |= (field << __ffs(mask)) & mask;
	*valp = val;
}

static u32 cal_data_get_phy_max_lanes(struct cal_ctx *ctx)
{
	struct cal_dev *dev = ctx->dev;
	u32 phy_id = ctx->csi2_port - 1;

	return dev->data->csi2_phy_core[phy_id].num_lanes;
}

static u32 cal_data_get_num_csi2_phy(struct cal_dev *dev)
{
	return dev->data->num_csi2_phy;
}

static int cal_camerarx_regmap_init(struct cal_dev *dev)
{
	struct reg_field *field;
	struct cal_csi2_phy *phy;
	int i, j;

	if (!dev->data)
		return -EINVAL;

	for (i = 0; i < cal_data_get_num_csi2_phy(dev); i++) {
		phy = &dev->data->csi2_phy_core[i];
		for (j = 0; j < F_MAX_FIELDS; j++) {
			field = &phy->base_fields[j];
			/*
			 * Here we update the reg offset with the
			 * value found in DT
			 */
			field->reg = dev->syscon_camerrx_offset;
			phy->fields[j] =
				devm_regmap_field_alloc(&dev->pdev->dev,
							dev->syscon_camerrx,
							*field);
			if (IS_ERR(phy->fields[j])) {
				cal_err(dev, "Unable to allocate regmap fields\n");
				return PTR_ERR(phy->fields[j]);
			}
		}
	}
	return 0;
}

static const struct regmap_config cal_regmap_config = {
	.reg_bits = 32,
	.val_bits = 32,
	.reg_stride = 4,
};

static struct regmap *cal_get_camerarx_regmap(struct cal_dev *dev)
{
	struct platform_device *pdev = dev->pdev;
	struct regmap *regmap;
	void __iomem *base;
	u32 reg_io_width;
	struct regmap_config r_config = cal_regmap_config;
	struct resource *res;

	res = platform_get_resource_byname(pdev, IORESOURCE_MEM,
					   "camerrx_control");
	base = devm_ioremap_resource(&pdev->dev, res);
	if (IS_ERR(base)) {
		cal_err(dev, "failed to ioremap\n");
		return ERR_CAST(base);
	}

	cal_dbg(1, dev, "ioresource %s at %pa - %pa\n",
		res->name, &res->start, &res->end);

	reg_io_width = 4;
	r_config.reg_stride = reg_io_width;
	r_config.val_bits = reg_io_width * 8;
	r_config.max_register = resource_size(res) - reg_io_width;

	regmap = regmap_init_mmio(NULL, base, &r_config);
	if (IS_ERR(regmap))
		pr_err("regmap init failed\n");

	return regmap;
}

/*
 * Control Module CAMERARX block access
 */
static void camerarx_phy_enable(struct cal_ctx *ctx)
{
	struct cal_csi2_phy *phy;
	u32 phy_id = ctx->csi2_port - 1;
	u32 max_lanes;

	phy = &ctx->dev->data->csi2_phy_core[phy_id];
	regmap_field_write(phy->fields[F_CAMMODE], 0);
	/* Always enable all lanes at the phy control level */
	max_lanes = (1 << cal_data_get_phy_max_lanes(ctx)) - 1;
	regmap_field_write(phy->fields[F_LANEENABLE], max_lanes);
	/* F_CSI_MODE is not present on every architecture */
	if (phy->fields[F_CSI_MODE])
		regmap_field_write(phy->fields[F_CSI_MODE], 1);
	regmap_field_write(phy->fields[F_CTRLCLKEN], 1);
}

static void camerarx_phy_disable(struct cal_ctx *ctx)
{
	struct cal_csi2_phy *phy;
	u32 phy_id = ctx->csi2_port - 1;

	phy = &ctx->dev->data->csi2_phy_core[phy_id];
	regmap_field_write(phy->fields[F_CTRLCLKEN], 0);
}

/*
 * Camera Instance access block
 */
static struct cc_data *cc_create(struct cal_dev *dev, unsigned int core)
{
	struct platform_device *pdev = dev->pdev;
	struct cc_data *cc;

	cc = devm_kzalloc(&pdev->dev, sizeof(*cc), GFP_KERNEL);
	if (!cc)
		return ERR_PTR(-ENOMEM);

	cc->res = platform_get_resource_byname(pdev,
					       IORESOURCE_MEM,
					       (core == 0) ?
						"cal_rx_core0" :
						"cal_rx_core1");
	cc->base = devm_ioremap_resource(&pdev->dev, cc->res);
	if (IS_ERR(cc->base)) {
		cal_err(dev, "failed to ioremap\n");
		return ERR_CAST(cc->base);
	}

	cal_dbg(1, dev, "ioresource %s at %pa - %pa\n",
		cc->res->name, &cc->res->start, &cc->res->end);

	return cc;
}

/*
 * Get Revision and HW info
 */
static void cal_get_hwinfo(struct cal_dev *dev)
{
	u32 revision = 0;
	u32 hwinfo = 0;

	revision = reg_read(dev, CAL_HL_REVISION);
	cal_dbg(3, dev, "CAL_HL_REVISION = 0x%08x (expecting 0x40000200)\n",
		revision);

	hwinfo = reg_read(dev, CAL_HL_HWINFO);
	cal_dbg(3, dev, "CAL_HL_HWINFO = 0x%08x (expecting 0xA3C90469)\n",
		hwinfo);
}

/*
 *   Errata i913: CSI2 LDO Needs to be disabled when module is powered on
 *
 *   Enabling CSI2 LDO shorts it to core supply. It is crucial the 2 CSI2
 *   LDOs on the device are disabled if CSI-2 module is powered on
 *   (0x4845 B304 | 0x4845 B384 [28:27] = 0x1) or in ULPS (0x4845 B304
 *   | 0x4845 B384 [28:27] = 0x2) mode. Common concerns include: high
 *   current draw on the module supply in active mode.
 *
 *   Errata does not apply when CSI-2 module is powered off
 *   (0x4845 B304 | 0x4845 B384 [28:27] = 0x0).
 *
 * SW Workaround:
 *	Set the following register bits to disable the LDO,
 *	which is essentially CSI2 REG10 bit 6:
 *
 *		Core 0:  0x4845 B828 = 0x0000 0040
 *		Core 1:  0x4845 B928 = 0x0000 0040
 */
static void i913_errata(struct cal_dev *dev, unsigned int port)
{
	u32 reg10 = reg_read(dev->cc[port], CAL_CSI2_PHY_REG10);

	set_field(&reg10, CAL_CSI2_PHY_REG0_HSCLOCKCONFIG_DISABLE,
		  CAL_CSI2_PHY_REG10_I933_LDO_DISABLE_MASK);

	cal_dbg(1, dev, "CSI2_%d_REG10 = 0x%08x\n", port, reg10);
	reg_write(dev->cc[port], CAL_CSI2_PHY_REG10, reg10);
}

static int cal_runtime_get(struct cal_dev *dev)
{
	int r;

	r = pm_runtime_get_sync(&dev->pdev->dev);

	if (dev->flags & DRA72_CAL_PRE_ES2_LDO_DISABLE) {
		/*
		 * Apply errata on both port eveytime we (re-)enable
		 * the clock
		 */
		i913_errata(dev, 0);
		i913_errata(dev, 1);
	}

	return r;
}

static inline void cal_runtime_put(struct cal_dev *dev)
{
	pm_runtime_put_sync(&dev->pdev->dev);
}

static void cal_quickdump_regs(struct cal_dev *dev)
{
	cal_info(dev, "CAL Registers @ 0x%pa:\n", &dev->res->start);
	print_hex_dump(KERN_INFO, "", DUMP_PREFIX_OFFSET, 16, 4,
		       (__force const void *)dev->base,
		       resource_size(dev->res), false);

	if (dev->ctx[0]) {
		cal_info(dev, "CSI2 Core 0 Registers @ %pa:\n",
			 &dev->ctx[0]->cc->res->start);
		print_hex_dump(KERN_INFO, "", DUMP_PREFIX_OFFSET, 16, 4,
			       (__force const void *)dev->ctx[0]->cc->base,
			       resource_size(dev->ctx[0]->cc->res),
			       false);
	}

	if (dev->ctx[1]) {
		cal_info(dev, "CSI2 Core 1 Registers @ %pa:\n",
			 &dev->ctx[1]->cc->res->start);
		print_hex_dump(KERN_INFO, "", DUMP_PREFIX_OFFSET, 16, 4,
			       (__force const void *)dev->ctx[1]->cc->base,
			       resource_size(dev->ctx[1]->cc->res),
			       false);
	}
}

/*
 * Enable the expected IRQ sources
 */
static void enable_irqs(struct cal_ctx *ctx)
{
	/* Enable IRQ_WDMA_END 0/1 */
	reg_write_field(ctx->dev,
			CAL_HL_IRQENABLE_SET(2),
			CAL_HL_IRQ_ENABLE,
			CAL_HL_IRQ_MASK(ctx->csi2_port));
	/* Enable IRQ_WDMA_START 0/1 */
	reg_write_field(ctx->dev,
			CAL_HL_IRQENABLE_SET(3),
			CAL_HL_IRQ_ENABLE,
			CAL_HL_IRQ_MASK(ctx->csi2_port));
	/* Todo: Add VC_IRQ and CSI2_COMPLEXIO_IRQ handling */
	reg_write(ctx->dev, CAL_CSI2_VC_IRQENABLE(1), 0xFF000000);
}

static void disable_irqs(struct cal_ctx *ctx)
{
	/* Disable IRQ_WDMA_END 0/1 */
	reg_write_field(ctx->dev,
			CAL_HL_IRQENABLE_CLR(2),
			CAL_HL_IRQ_CLEAR,
			CAL_HL_IRQ_MASK(ctx->csi2_port));
	/* Disable IRQ_WDMA_START 0/1 */
	reg_write_field(ctx->dev,
			CAL_HL_IRQENABLE_CLR(3),
			CAL_HL_IRQ_CLEAR,
			CAL_HL_IRQ_MASK(ctx->csi2_port));
	/* Todo: Add VC_IRQ and CSI2_COMPLEXIO_IRQ handling */
	reg_write(ctx->dev, CAL_CSI2_VC_IRQENABLE(1), 0);
}

static void csi2_phy_config(struct cal_ctx *ctx);

static void csi2_phy_init(struct cal_ctx *ctx)
{
	int i;
	u32 val;

	/* Steps
	 *  1. Configure D-PHY mode and enable required lanes
	 *  2. Reset complex IO - Wait for completion of reset
	 *          Note if the external sensor is not sending byte clock,
	 *          the reset will timeout
	 *  3 Program Stop States
	 *      A. Program THS_TERM, THS_SETTLE, etc... Timings parameters
	 *              in terms of DDR clock periods
	 *      B. Enable stop state transition timeouts
	 *  4.Force FORCERXMODE
	 *      D. Enable pull down using pad control
	 *      E. Power up PHY
	 *      F. Wait for power up completion
	 *      G. Wait for all enabled lane to reach stop state
	 *      H. Disable pull down using pad control
	 */

	/* 1. Configure D-PHY mode and enable required lanes */
	camerarx_phy_enable(ctx);

	/* 2. Reset complex IO - Do not wait for reset completion */
	val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));
	set_field(&val, CAL_CSI2_COMPLEXIO_CFG_RESET_CTRL_OPERATIONAL,
		  CAL_CSI2_COMPLEXIO_CFG_RESET_CTRL_MASK);
	reg_write(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x De-assert Complex IO Reset\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port)));

	/* Dummy read to allow SCP to complete */
	val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));

	/* 3.A. Program Phy Timing Parameters */
	csi2_phy_config(ctx);

	/* 3.B. Program Stop States */
	val = reg_read(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port));
	set_field(&val, CAL_GEN_ENABLE,
		  CAL_CSI2_TIMING_STOP_STATE_X16_IO1_MASK);
	set_field(&val, CAL_GEN_DISABLE,
		  CAL_CSI2_TIMING_STOP_STATE_X4_IO1_MASK);
	set_field(&val, 407, CAL_CSI2_TIMING_STOP_STATE_COUNTER_IO1_MASK);
	reg_write(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_CSI2_TIMING(%d) = 0x%08x Stop States\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port)));

	/* 4. Force FORCERXMODE */
	val = reg_read(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port));
	set_field(&val, CAL_GEN_ENABLE,
		  CAL_CSI2_TIMING_FORCE_RX_MODE_IO1_MASK);
	reg_write(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_CSI2_TIMING(%d) = 0x%08x Force RXMODE\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port)));

	/* E. Power up the PHY using the complex IO */
	val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));
	set_field(&val, CAL_CSI2_COMPLEXIO_CFG_PWR_CMD_STATE_ON,
		  CAL_CSI2_COMPLEXIO_CFG_PWR_CMD_MASK);
	reg_write(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port), val);

	/* F. Wait for power up completion */
	for (i = 0; i < 10; i++) {
		if (reg_read_field(ctx->dev,
				   CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port),
				   CAL_CSI2_COMPLEXIO_CFG_PWR_STATUS_MASK) ==
		    CAL_CSI2_COMPLEXIO_CFG_PWR_STATUS_STATE_ON)
			break;
		usleep_range(1000, 1100);
	}
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x Powered UP %s\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port)),
		(i >= 10) ? "(timeout)" : "");
}

static void csi2_wait_for_phy(struct cal_ctx *ctx)
{
	int i;

	/* Steps
	 *  2. Wait for completion of reset
	 *          Note if the external sensor is not sending byte clock,
	 *          the reset will timeout
	 *  4.Force FORCERXMODE
	 *      G. Wait for all enabled lane to reach stop state
	 *      H. Disable pull down using pad control
	 */

	/* 2. Wait for reset completion */
	for (i = 0; i < 250; i++) {
		if (reg_read_field(ctx->dev,
				   CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port),
				   CAL_CSI2_COMPLEXIO_CFG_RESET_DONE_MASK) ==
		    CAL_CSI2_COMPLEXIO_CFG_RESET_DONE_RESETCOMPLETED)
			break;
		usleep_range(1000, 1100);
	}
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x Complex IO Reset Done (%d) %s\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port)), i,
		(i >= 250) ? "(timeout)" : "");

	/* 4. G. Wait for all enabled lane to reach stop state */
	for (i = 0; i < 10; i++) {
		if (reg_read_field(ctx->dev,
				   CAL_CSI2_TIMING(ctx->csi2_port),
				   CAL_CSI2_TIMING_FORCE_RX_MODE_IO1_MASK) ==
		    CAL_GEN_DISABLE)
			break;
		usleep_range(1000, 1100);
	}
	ctx_dbg(3, ctx, "CAL_CSI2_TIMING(%d) = 0x%08x Stop State Reached %s\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_TIMING(ctx->csi2_port)),
		(i >= 10) ? "(timeout)" : "");

	ctx_dbg(1, ctx, "CSI2_%d_REG1 = 0x%08x (Bit(31,28) should be set!)\n",
		(ctx->csi2_port - 1), reg_read(ctx->cc, CAL_CSI2_PHY_REG1));
}

static void csi2_phy_deinit(struct cal_ctx *ctx)
{
	int i;
	u32 val;

	/* Power down the PHY using the complex IO */
	val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));
	set_field(&val, CAL_CSI2_COMPLEXIO_CFG_PWR_CMD_STATE_OFF,
		  CAL_CSI2_COMPLEXIO_CFG_PWR_CMD_MASK);
	reg_write(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port), val);

	/* Wait for power down completion */
	for (i = 0; i < 10; i++) {
		if (reg_read_field(ctx->dev,
				   CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port),
				   CAL_CSI2_COMPLEXIO_CFG_PWR_STATUS_MASK) ==
		    CAL_CSI2_COMPLEXIO_CFG_PWR_STATUS_STATE_OFF)
			break;
		usleep_range(1000, 1100);
	}
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x Powered Down %s\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port)),
		(i >= 10) ? "(timeout)" : "");

	/* Assert Comple IO Reset */
	val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));
	set_field(&val, CAL_CSI2_COMPLEXIO_CFG_RESET_CTRL,
		  CAL_CSI2_COMPLEXIO_CFG_RESET_CTRL_MASK);
	reg_write(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port), val);

	/* Wait for power down completion */
	for (i = 0; i < 10; i++) {
		if (reg_read_field(ctx->dev,
				   CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port),
				   CAL_CSI2_COMPLEXIO_CFG_RESET_DONE_MASK) ==
		    CAL_CSI2_COMPLEXIO_CFG_RESET_DONE_RESETONGOING)
			break;
		usleep_range(1000, 1100);
	}
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x Complex IO in Reset (%d) %s\n",
		ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port)), i,
		(i >= 10) ? "(timeout)" : "");

	/* Disable the phy */
	camerarx_phy_disable(ctx);
}

static void csi2_lane_config(struct cal_ctx *ctx)
{
	u32 val = reg_read(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port));
	u32 lane_mask = CAL_CSI2_COMPLEXIO_CFG_CLOCK_POSITION_MASK;
	u32 polarity_mask = CAL_CSI2_COMPLEXIO_CFG_CLOCK_POL_MASK;
	struct v4l2_fwnode_bus_mipi_csi2 *mipi_csi2 =
		&ctx->endpoint.bus.mipi_csi2;
	int lane;

	set_field(&val, mipi_csi2->clock_lane + 1, lane_mask);
	set_field(&val, mipi_csi2->lane_polarities[0], polarity_mask);
	for (lane = 0; lane < mipi_csi2->num_data_lanes; lane++) {
		/*
		 * Every lane are one nibble apart starting with the
		 * clock followed by the data lanes so shift masks by 4.
		 */
		lane_mask <<= 4;
		polarity_mask <<= 4;
		set_field(&val, mipi_csi2->data_lanes[lane] + 1, lane_mask);
		set_field(&val, mipi_csi2->lane_polarities[lane + 1],
			  polarity_mask);
	}

	reg_write(ctx->dev, CAL_CSI2_COMPLEXIO_CFG(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_CSI2_COMPLEXIO_CFG(%d) = 0x%08x\n",
		ctx->csi2_port, val);
}

static void csi2_ppi_enable(struct cal_ctx *ctx)
{
	reg_write_field(ctx->dev, CAL_CSI2_PPI_CTRL(ctx->csi2_port),
			CAL_GEN_ENABLE, CAL_CSI2_PPI_CTRL_IF_EN_MASK);
}

static void csi2_ppi_disable(struct cal_ctx *ctx)
{
	reg_write_field(ctx->dev, CAL_CSI2_PPI_CTRL(ctx->csi2_port),
			CAL_GEN_DISABLE, CAL_CSI2_PPI_CTRL_IF_EN_MASK);
}

static void csi2_ctx_config(struct cal_ctx *ctx)
{
	u32 val;

	val = reg_read(ctx->dev, CAL_CSI2_CTX0(ctx->csi2_port));
	set_field(&val, ctx->csi2_port, CAL_CSI2_CTX_CPORT_MASK);
	/*
	 * DT type: MIPI CSI-2 Specs
	 *   0x1: All - DT filter is disabled
	 *  0x24: RGB888 1 pixel  = 3 bytes
	 *  0x2B: RAW10  4 pixels = 5 bytes
	 *  0x2A: RAW8   1 pixel  = 1 byte
	 *  0x1E: YUV422 2 pixels = 4 bytes
	 */
	set_field(&val, 0x1, CAL_CSI2_CTX_DT_MASK);
	/* Virtual Channel from the CSI2 sensor usually 0! */
	set_field(&val, ctx->virtual_channel, CAL_CSI2_CTX_VC_MASK);
	/* NUM_LINES_PER_FRAME => 0 means auto detect */
	set_field(&val, 0, CAL_CSI2_CTX_LINES_MASK);
	set_field(&val, CAL_CSI2_CTX_ATT_PIX, CAL_CSI2_CTX_ATT_MASK);
	set_field(&val, CAL_CSI2_CTX_PACK_MODE_LINE,
		  CAL_CSI2_CTX_PACK_MODE_MASK);
	reg_write(ctx->dev, CAL_CSI2_CTX0(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_CSI2_CTX0(%d) = 0x%08x\n", ctx->csi2_port,
		reg_read(ctx->dev, CAL_CSI2_CTX0(ctx->csi2_port)));
}

static void pix_proc_config(struct cal_ctx *ctx)
{
	u32 val, extract, pack;

	switch (ctx->fmt->bpp) {
	case 8:
		extract = CAL_PIX_PROC_EXTRACT_B8;
		pack = CAL_PIX_PROC_PACK_B8;
		break;
	case 10:
		extract = CAL_PIX_PROC_EXTRACT_B10_MIPI;
		pack = CAL_PIX_PROC_PACK_B16;
		break;
	case 12:
		extract = CAL_PIX_PROC_EXTRACT_B12_MIPI;
		pack = CAL_PIX_PROC_PACK_B16;
		break;
	case 16:
		extract = CAL_PIX_PROC_EXTRACT_B16_LE;
		pack = CAL_PIX_PROC_PACK_B16;
		break;
	default:
		/*
		 * If you see this warning then it means that you added
		 * some new entry in the cal_formats[] array with a different
		 * bit per pixel values then the one supported below.
		 * Either add support for the new bpp value below or adjust
		 * the new entry to use one of the value below.
		 *
		 * Instead of failing here just use 8 bpp as a default.
		 */
		dev_warn_once(&ctx->dev->pdev->dev,
			      "%s:%d:%s: bpp:%d unsupported! Overwritten with 8.\n",
			      __FILE__, __LINE__, __func__, ctx->fmt->bpp);
		extract = CAL_PIX_PROC_EXTRACT_B8;
		pack = CAL_PIX_PROC_PACK_B8;
		break;
	}

	val = reg_read(ctx->dev, CAL_PIX_PROC(ctx->csi2_port));
	set_field(&val, extract, CAL_PIX_PROC_EXTRACT_MASK);
	set_field(&val, CAL_PIX_PROC_DPCMD_BYPASS, CAL_PIX_PROC_DPCMD_MASK);
	set_field(&val, CAL_PIX_PROC_DPCME_BYPASS, CAL_PIX_PROC_DPCME_MASK);
	set_field(&val, pack, CAL_PIX_PROC_PACK_MASK);
	set_field(&val, ctx->csi2_port, CAL_PIX_PROC_CPORT_MASK);
	set_field(&val, CAL_GEN_ENABLE, CAL_PIX_PROC_EN_MASK);
	reg_write(ctx->dev, CAL_PIX_PROC(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_PIX_PROC(%d) = 0x%08x\n", ctx->csi2_port,
		reg_read(ctx->dev, CAL_PIX_PROC(ctx->csi2_port)));
}

static void cal_wr_dma_config(struct cal_ctx *ctx,
			      unsigned int width, unsigned int height)
{
	u32 val;

	val = reg_read(ctx->dev, CAL_WR_DMA_CTRL(ctx->csi2_port));
	set_field(&val, ctx->csi2_port, CAL_WR_DMA_CTRL_CPORT_MASK);
	set_field(&val, height, CAL_WR_DMA_CTRL_YSIZE_MASK);
	set_field(&val, CAL_WR_DMA_CTRL_DTAG_PIX_DAT,
		  CAL_WR_DMA_CTRL_DTAG_MASK);
	set_field(&val, CAL_WR_DMA_CTRL_MODE_CONST,
		  CAL_WR_DMA_CTRL_MODE_MASK);
	set_field(&val, CAL_WR_DMA_CTRL_PATTERN_LINEAR,
		  CAL_WR_DMA_CTRL_PATTERN_MASK);
	set_field(&val, CAL_GEN_ENABLE, CAL_WR_DMA_CTRL_STALL_RD_MASK);
	reg_write(ctx->dev, CAL_WR_DMA_CTRL(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_WR_DMA_CTRL(%d) = 0x%08x\n", ctx->csi2_port,
		reg_read(ctx->dev, CAL_WR_DMA_CTRL(ctx->csi2_port)));

	/*
	 * width/16 not sure but giving it a whirl.
	 * zero does not work right
	 */
	reg_write_field(ctx->dev,
			CAL_WR_DMA_OFST(ctx->csi2_port),
			(width / 16),
			CAL_WR_DMA_OFST_MASK);
	ctx_dbg(3, ctx, "CAL_WR_DMA_OFST(%d) = 0x%08x\n", ctx->csi2_port,
		reg_read(ctx->dev, CAL_WR_DMA_OFST(ctx->csi2_port)));

	val = reg_read(ctx->dev, CAL_WR_DMA_XSIZE(ctx->csi2_port));
	/* 64 bit word means no skipping */
	set_field(&val, 0, CAL_WR_DMA_XSIZE_XSKIP_MASK);
	/*
	 * (width*8)/64 this should be size of an entire line
	 * in 64bit word but 0 means all data until the end
	 * is detected automagically
	 */
	set_field(&val, (width / 8), CAL_WR_DMA_XSIZE_MASK);
	reg_write(ctx->dev, CAL_WR_DMA_XSIZE(ctx->csi2_port), val);
	ctx_dbg(3, ctx, "CAL_WR_DMA_XSIZE(%d) = 0x%08x\n", ctx->csi2_port,
		reg_read(ctx->dev, CAL_WR_DMA_XSIZE(ctx->csi2_port)));

	val = reg_read(ctx->dev, CAL_CTRL);
	set_field(&val, CAL_CTRL_BURSTSIZE_BURST128, CAL_CTRL_BURSTSIZE_MASK);
	set_field(&val, 0xF, CAL_CTRL_TAGCNT_MASK);
	set_field(&val, CAL_CTRL_POSTED_WRITES_NONPOSTED,
		  CAL_CTRL_POSTED_WRITES_MASK);
	set_field(&val, 0xFF, CAL_CTRL_MFLAGL_MASK);
	set_field(&val, 0xFF, CAL_CTRL_MFLAGH_MASK);
	reg_write(ctx->dev, CAL_CTRL, val);
	ctx_dbg(3, ctx, "CAL_CTRL = 0x%08x\n", reg_read(ctx->dev, CAL_CTRL));
}

static void cal_wr_dma_addr(struct cal_ctx *ctx, unsigned int dmaaddr)
{
	reg_write(ctx->dev, CAL_WR_DMA_ADDR(ctx->csi2_port), dmaaddr);
}

/*
 * TCLK values are OK at their reset values
 */
#define TCLK_TERM	0
#define TCLK_MISS	1
#define TCLK_SETTLE	14

static void csi2_phy_config(struct cal_ctx *ctx)
{
	unsigned int reg0, reg1;
	unsigned int ths_term, ths_settle;
	unsigned int csi2_ddrclk_khz;
	struct v4l2_fwnode_bus_mipi_csi2 *mipi_csi2 =
			&ctx->endpoint.bus.mipi_csi2;
	u32 num_lanes = mipi_csi2->num_data_lanes;

	/* DPHY timing configuration */
	/* CSI-2 is DDR and we only count used lanes. */
	csi2_ddrclk_khz = ctx->external_rate / 1000
		/ (2 * num_lanes) * ctx->fmt->bpp;
	ctx_dbg(1, ctx, "csi2_ddrclk_khz: %d\n", csi2_ddrclk_khz);

	/* THS_TERM: Programmed value = floor(20 ns/DDRClk period) */
	ths_term = 20 * csi2_ddrclk_khz / 1000000;
	ctx_dbg(1, ctx, "ths_term: %d (0x%02x)\n", ths_term, ths_term);

	/* THS_SETTLE: Programmed value = floor(105 ns/DDRClk period) + 4 */
	ths_settle = (105 * csi2_ddrclk_khz / 1000000) + 4;
	ctx_dbg(1, ctx, "ths_settle: %d (0x%02x)\n", ths_settle, ths_settle);

	reg0 = reg_read(ctx->cc, CAL_CSI2_PHY_REG0);
	set_field(&reg0, CAL_CSI2_PHY_REG0_HSCLOCKCONFIG_DISABLE,
		  CAL_CSI2_PHY_REG0_HSCLOCKCONFIG_MASK);
	set_field(&reg0, ths_term, CAL_CSI2_PHY_REG0_THS_TERM_MASK);
	set_field(&reg0, ths_settle, CAL_CSI2_PHY_REG0_THS_SETTLE_MASK);

	ctx_dbg(1, ctx, "CSI2_%d_REG0 = 0x%08x\n", (ctx->csi2_port - 1), reg0);
	reg_write(ctx->cc, CAL_CSI2_PHY_REG0, reg0);

	reg1 = reg_read(ctx->cc, CAL_CSI2_PHY_REG1);
	set_field(&reg1, TCLK_TERM, CAL_CSI2_PHY_REG1_TCLK_TERM_MASK);
	set_field(&reg1, 0xb8, CAL_CSI2_PHY_REG1_DPHY_HS_SYNC_PATTERN_MASK);
	set_field(&reg1, TCLK_MISS, CAL_CSI2_PHY_REG1_CTRLCLK_DIV_FACTOR_MASK);
	set_field(&reg1, TCLK_SETTLE, CAL_CSI2_PHY_REG1_TCLK_SETTLE_MASK);

	ctx_dbg(1, ctx, "CSI2_%d_REG1 = 0x%08x\n", (ctx->csi2_port - 1), reg1);
	reg_write(ctx->cc, CAL_CSI2_PHY_REG1, reg1);
}

static int cal_get_external_info(struct cal_ctx *ctx)
{
	struct v4l2_ctrl *ctrl;

	if (!ctx->sensor)
		return -ENODEV;

	ctrl = v4l2_ctrl_find(ctx->sensor->ctrl_handler, V4L2_CID_PIXEL_RATE);
	if (!ctrl) {
		ctx_err(ctx, "no pixel rate control in subdev: %s\n",
			ctx->sensor->name);
		return -EPIPE;
	}

	ctx->external_rate = v4l2_ctrl_g_ctrl_int64(ctrl);
	ctx_dbg(3, ctx, "sensor Pixel Rate: %d\n", ctx->external_rate);

	return 0;
}

static inline void cal_schedule_next_buffer(struct cal_ctx *ctx)
{
	struct cal_dmaqueue *dma_q = &ctx->vidq;
	struct cal_buffer *buf;
	unsigned long addr;

	buf = list_entry(dma_q->active.next, struct cal_buffer, list);
	ctx->next_frm = buf;
	list_del(&buf->list);

	addr = vb2_dma_contig_plane_dma_addr(&buf->vb.vb2_buf, 0);
	cal_wr_dma_addr(ctx, addr);
}

static inline void cal_process_buffer_complete(struct cal_ctx *ctx)
{
	ctx->cur_frm->vb.vb2_buf.timestamp = ktime_get_ns();
	ctx->cur_frm->vb.field = ctx->m_fmt.field;
	ctx->cur_frm->vb.sequence = ctx->sequence++;

	vb2_buffer_done(&ctx->cur_frm->vb.vb2_buf, VB2_BUF_STATE_DONE);
	ctx->cur_frm = ctx->next_frm;
}

#define isvcirqset(irq, vc, ff) (irq & \
	(CAL_CSI2_VC_IRQENABLE_ ##ff ##_IRQ_##vc ##_MASK))

#define isportirqset(irq, port) (irq & CAL_HL_IRQ_MASK(port))

static irqreturn_t cal_irq(int irq_cal, void *data)
{
	struct cal_dev *dev = (struct cal_dev *)data;
	struct cal_ctx *ctx;
	struct cal_dmaqueue *dma_q;
	u32 irqst2, irqst3;

	/* Check which DMA just finished */
	irqst2 = reg_read(dev, CAL_HL_IRQSTATUS(2));
	if (irqst2) {
		/* Clear Interrupt status */
		reg_write(dev, CAL_HL_IRQSTATUS(2), irqst2);

		/* Need to check both port */
		if (isportirqset(irqst2, 1)) {
			ctx = dev->ctx[0];

			if (ctx->cur_frm != ctx->next_frm)
				cal_process_buffer_complete(ctx);
		}

		if (isportirqset(irqst2, 2)) {
			ctx = dev->ctx[1];

			if (ctx->cur_frm != ctx->next_frm)
				cal_process_buffer_complete(ctx);
		}
	}

	/* Check which DMA just started */
	irqst3 = reg_read(dev, CAL_HL_IRQSTATUS(3));
	if (irqst3) {
		/* Clear Interrupt status */
		reg_write(dev, CAL_HL_IRQSTATUS(3), irqst3);

		/* Need to check both port */
		if (isportirqset(irqst3, 1)) {
			ctx = dev->ctx[0];
			dma_q = &ctx->vidq;

			spin_lock(&ctx->slock);
			if (!list_empty(&dma_q->active) &&
			    ctx->cur_frm == ctx->next_frm)
				cal_schedule_next_buffer(ctx);
			spin_unlock(&ctx->slock);
		}

		if (isportirqset(irqst3, 2)) {
			ctx = dev->ctx[1];
			dma_q = &ctx->vidq;

			spin_lock(&ctx->slock);
			if (!list_empty(&dma_q->active) &&
			    ctx->cur_frm == ctx->next_frm)
				cal_schedule_next_buffer(ctx);
			spin_unlock(&ctx->slock);
		}
	}

	return IRQ_HANDLED;
}

/*
 * video ioctls
 */
static int cal_querycap(struct file *file, void *priv,
			struct v4l2_capability *cap)
{
	struct cal_ctx *ctx = video_drvdata(file);

	strscpy(cap->driver, CAL_MODULE_NAME, sizeof(cap->driver));
	strscpy(cap->card, CAL_MODULE_NAME, sizeof(cap->card));

	snprintf(cap->bus_info, sizeof(cap->bus_info),
		 "platform:%s", ctx->v4l2_dev.name);
	return 0;
}

static int cal_enum_fmt_vid_cap(struct file *file, void  *priv,
				struct v4l2_fmtdesc *f)
{
	struct cal_ctx *ctx = video_drvdata(file);
	const struct cal_fmt *fmt = NULL;

	if (f->index >= ctx->num_active_fmt)
		return -EINVAL;

	fmt = ctx->active_fmt[f->index];

	f->pixelformat = fmt->fourcc;
	f->type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
	return 0;
}

static int __subdev_get_format(struct cal_ctx *ctx,
			       struct v4l2_mbus_framefmt *fmt)
{
	struct v4l2_subdev_format sd_fmt;
	struct v4l2_mbus_framefmt *mbus_fmt = &sd_fmt.format;
	int ret;

	sd_fmt.which = V4L2_SUBDEV_FORMAT_ACTIVE;
	sd_fmt.pad = 0;

	ret = v4l2_subdev_call(ctx->sensor, pad, get_fmt, NULL, &sd_fmt);
	if (ret)
		return ret;

	*fmt = *mbus_fmt;

	ctx_dbg(1, ctx, "%s %dx%d code:%04X\n", __func__,
		fmt->width, fmt->height, fmt->code);

	return 0;
}

static int __subdev_set_format(struct cal_ctx *ctx,
			       struct v4l2_mbus_framefmt *fmt)
{
	struct v4l2_subdev_format sd_fmt;
	struct v4l2_mbus_framefmt *mbus_fmt = &sd_fmt.format;
	int ret;

	sd_fmt.which = V4L2_SUBDEV_FORMAT_ACTIVE;
	sd_fmt.pad = 0;
	*mbus_fmt = *fmt;

	ret = v4l2_subdev_call(ctx->sensor, pad, set_fmt, NULL, &sd_fmt);
	if (ret)
		return ret;

	ctx_dbg(1, ctx, "%s %dx%d code:%04X\n", __func__,
		fmt->width, fmt->height, fmt->code);

	return 0;
}

static int cal_calc_format_size(struct cal_ctx *ctx,
				const struct cal_fmt *fmt,
				struct v4l2_format *f)
{
	u32 bpl, max_width;

	if (!fmt) {
		ctx_dbg(3, ctx, "No cal_fmt provided!\n");
		return -EINVAL;
	}

	/*
	 * Maximum width is bound by the DMA max width in bytes.
	 * We need to recalculate the actual maxi width depending on the
	 * number of bytes per pixels required.
	 */
	max_width = MAX_WIDTH_BYTES / (ALIGN(fmt->bpp, 8) >> 3);
	v4l_bound_align_image(&f->fmt.pix.width, 48, max_width, 2,
			      &f->fmt.pix.height, 32, MAX_HEIGHT_LINES, 0, 0);

	bpl = (f->fmt.pix.width * ALIGN(fmt->bpp, 8)) >> 3;
	f->fmt.pix.bytesperline = ALIGN(bpl, 16);

	f->fmt.pix.sizeimage = f->fmt.pix.height *
			       f->fmt.pix.bytesperline;

	ctx_dbg(3, ctx, "%s: fourcc: %s size: %dx%d bpl:%d img_size:%d\n",
		__func__, fourcc_to_str(f->fmt.pix.pixelformat),
		f->fmt.pix.width, f->fmt.pix.height,
		f->fmt.pix.bytesperline, f->fmt.pix.sizeimage);

	return 0;
}

static int cal_g_fmt_vid_cap(struct file *file, void *priv,
			     struct v4l2_format *f)
{
	struct cal_ctx *ctx = video_drvdata(file);

	*f = ctx->v_fmt;

	return 0;
}

static int cal_try_fmt_vid_cap(struct file *file, void *priv,
			       struct v4l2_format *f)
{
	struct cal_ctx *ctx = video_drvdata(file);
	const struct cal_fmt *fmt;
	struct v4l2_subdev_frame_size_enum fse;
	int ret, found;

	fmt = find_format_by_pix(ctx, f->fmt.pix.pixelformat);
	if (!fmt) {
		ctx_dbg(3, ctx, "Fourcc format (0x%08x) not found.\n",
			f->fmt.pix.pixelformat);

		/* Just get the first one enumerated */
		fmt = ctx->active_fmt[0];
		f->fmt.pix.pixelformat = fmt->fourcc;
	}

	f->fmt.pix.field = ctx->v_fmt.fmt.pix.field;

	/* check for/find a valid width/height */
	ret = 0;
	found = false;
	fse.pad = 0;
	fse.code = fmt->code;
	fse.which = V4L2_SUBDEV_FORMAT_ACTIVE;
	for (fse.index = 0; ; fse.index++) {
		ret = v4l2_subdev_call(ctx->sensor, pad, enum_frame_size,
				       NULL, &fse);
		if (ret)
			break;

		if ((f->fmt.pix.width == fse.max_width) &&
		    (f->fmt.pix.height == fse.max_height)) {
			found = true;
			break;
		} else if ((f->fmt.pix.width >= fse.min_width) &&
			 (f->fmt.pix.width <= fse.max_width) &&
			 (f->fmt.pix.height >= fse.min_height) &&
			 (f->fmt.pix.height <= fse.max_height)) {
			found = true;
			break;
		}
	}

	if (!found) {
		/* use existing values as default */
		f->fmt.pix.width = ctx->v_fmt.fmt.pix.width;
		f->fmt.pix.height =  ctx->v_fmt.fmt.pix.height;
	}

	/*
	 * Use current colorspace for now, it will get
	 * updated properly during s_fmt
	 */
	f->fmt.pix.colorspace = ctx->v_fmt.fmt.pix.colorspace;
	return cal_calc_format_size(ctx, fmt, f);
}

static int cal_s_fmt_vid_cap(struct file *file, void *priv,
			     struct v4l2_format *f)
{
	struct cal_ctx *ctx = video_drvdata(file);
	struct vb2_queue *q = &ctx->vb_vidq;
	const struct cal_fmt *fmt;
	struct v4l2_mbus_framefmt mbus_fmt;
	int ret;

	if (vb2_is_busy(q)) {
		ctx_dbg(3, ctx, "%s device busy\n", __func__);
		return -EBUSY;
	}

	ret = cal_try_fmt_vid_cap(file, priv, f);
	if (ret < 0)
		return ret;

	fmt = find_format_by_pix(ctx, f->fmt.pix.pixelformat);

	v4l2_fill_mbus_format(&mbus_fmt, &f->fmt.pix, fmt->code);

	ret = __subdev_set_format(ctx, &mbus_fmt);
	if (ret)
		return ret;

	/* Just double check nothing has gone wrong */
	if (mbus_fmt.code != fmt->code) {
		ctx_dbg(3, ctx,
			"%s subdev changed format on us, this should not happen\n",
			__func__);
		return -EINVAL;
	}

	v4l2_fill_pix_format(&ctx->v_fmt.fmt.pix, &mbus_fmt);
	ctx->v_fmt.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
	ctx->v_fmt.fmt.pix.pixelformat  = fmt->fourcc;
	cal_calc_format_size(ctx, fmt, &ctx->v_fmt);
	ctx->fmt = fmt;
	ctx->m_fmt = mbus_fmt;
	*f = ctx->v_fmt;

	return 0;
}

static int cal_enum_framesizes(struct file *file, void *fh,
			       struct v4l2_frmsizeenum *fsize)
{
	struct cal_ctx *ctx = video_drvdata(file);
	const struct cal_fmt *fmt;
	struct v4l2_subdev_frame_size_enum fse;
	int ret;

	/* check for valid format */
	fmt = find_format_by_pix(ctx, fsize->pixel_format);
	if (!fmt) {
		ctx_dbg(3, ctx, "Invalid pixel code: %x\n",
			fsize->pixel_format);
		return -EINVAL;
	}

	fse.index = fsize->index;
	fse.pad = 0;
	fse.code = fmt->code;
	fse.which = V4L2_SUBDEV_FORMAT_ACTIVE;

	ret = v4l2_subdev_call(ctx->sensor, pad, enum_frame_size, NULL, &fse);
	if (ret)
		return ret;

	ctx_dbg(1, ctx, "%s: index: %d code: %x W:[%d,%d] H:[%d,%d]\n",
		__func__, fse.index, fse.code, fse.min_width, fse.max_width,
		fse.min_height, fse.max_height);

	fsize->type = V4L2_FRMSIZE_TYPE_DISCRETE;
	fsize->discrete.width = fse.max_width;
	fsize->discrete.height = fse.max_height;

	return 0;
}

static int cal_enum_input(struct file *file, void *priv,
			  struct v4l2_input *inp)
{
	if (inp->index >= CAL_NUM_INPUT)
		return -EINVAL;

	inp->type = V4L2_INPUT_TYPE_CAMERA;
	sprintf(inp->name, "Camera %u", inp->index);
	return 0;
}

static int cal_g_input(struct file *file, void *priv, unsigned int *i)
{
	struct cal_ctx *ctx = video_drvdata(file);

	*i = ctx->input;
	return 0;
}

static int cal_s_input(struct file *file, void *priv, unsigned int i)
{
	struct cal_ctx *ctx = video_drvdata(file);

	if (i >= CAL_NUM_INPUT)
		return -EINVAL;

	ctx->input = i;
	return 0;
}

/* timeperframe is arbitrary and continuous */
static int cal_enum_frameintervals(struct file *file, void *priv,
				   struct v4l2_frmivalenum *fival)
{
	struct cal_ctx *ctx = video_drvdata(file);
	const struct cal_fmt *fmt;
	struct v4l2_subdev_frame_interval_enum fie = {
		.index = fival->index,
		.width = fival->width,
		.height = fival->height,
		.which = V4L2_SUBDEV_FORMAT_ACTIVE,
	};
	int ret;

	fmt = find_format_by_pix(ctx, fival->pixel_format);
	if (!fmt)
		return -EINVAL;

	fie.code = fmt->code;
	ret = v4l2_subdev_call(ctx->sensor, pad, enum_frame_interval,
			       NULL, &fie);
	if (ret)
		return ret;
	fival->type = V4L2_FRMIVAL_TYPE_DISCRETE;
	fival->discrete = fie.interval;

	return 0;
}

/*
 * Videobuf operations
 */
static int cal_queue_setup(struct vb2_queue *vq,
			   unsigned int *nbuffers, unsigned int *nplanes,
			   unsigned int sizes[], struct device *alloc_devs[])
{
	struct cal_ctx *ctx = vb2_get_drv_priv(vq);
	unsigned size = ctx->v_fmt.fmt.pix.sizeimage;

	if (vq->num_buffers + *nbuffers < 3)
		*nbuffers = 3 - vq->num_buffers;

	if (*nplanes) {
		if (sizes[0] < size)
			return -EINVAL;
		size = sizes[0];
	}

	*nplanes = 1;
	sizes[0] = size;

	ctx_dbg(3, ctx, "nbuffers=%d, size=%d\n", *nbuffers, sizes[0]);

	return 0;
}

static int cal_buffer_prepare(struct vb2_buffer *vb)
{
	struct cal_ctx *ctx = vb2_get_drv_priv(vb->vb2_queue);
	struct cal_buffer *buf = container_of(vb, struct cal_buffer,
					      vb.vb2_buf);
	unsigned long size;

	if (WARN_ON(!ctx->fmt))
		return -EINVAL;

	size = ctx->v_fmt.fmt.pix.sizeimage;
	if (vb2_plane_size(vb, 0) < size) {
		ctx_err(ctx,
			"data will not fit into plane (%lu < %lu)\n",
			vb2_plane_size(vb, 0), size);
		return -EINVAL;
	}

	vb2_set_plane_payload(&buf->vb.vb2_buf, 0, size);
	return 0;
}

static void cal_buffer_queue(struct vb2_buffer *vb)
{
	struct cal_ctx *ctx = vb2_get_drv_priv(vb->vb2_queue);
	struct cal_buffer *buf = container_of(vb, struct cal_buffer,
					      vb.vb2_buf);
	struct cal_dmaqueue *vidq = &ctx->vidq;
	unsigned long flags = 0;

	/* recheck locking */
	spin_lock_irqsave(&ctx->slock, flags);
	list_add_tail(&buf->list, &vidq->active);
	spin_unlock_irqrestore(&ctx->slock, flags);
}

static int cal_start_streaming(struct vb2_queue *vq, unsigned int count)
{
	struct cal_ctx *ctx = vb2_get_drv_priv(vq);
	struct cal_dmaqueue *dma_q = &ctx->vidq;
	struct cal_buffer *buf, *tmp;
	unsigned long addr = 0;
	unsigned long flags;
	int ret;

	spin_lock_irqsave(&ctx->slock, flags);
	if (list_empty(&dma_q->active)) {
		spin_unlock_irqrestore(&ctx->slock, flags);
		ctx_dbg(3, ctx, "buffer queue is empty\n");
		return -EIO;
	}

	buf = list_entry(dma_q->active.next, struct cal_buffer, list);
	ctx->cur_frm = buf;
	ctx->next_frm = buf;
	list_del(&buf->list);
	spin_unlock_irqrestore(&ctx->slock, flags);

	addr = vb2_dma_contig_plane_dma_addr(&ctx->cur_frm->vb.vb2_buf, 0);
	ctx->sequence = 0;

	ret = cal_get_external_info(ctx);
	if (ret < 0)
		goto err;

	ret = v4l2_subdev_call(ctx->sensor, core, s_power, 1);
	if (ret < 0 && ret != -ENOIOCTLCMD && ret != -ENODEV) {
		ctx_err(ctx, "power on failed in subdev\n");
		goto err;
	}

	cal_runtime_get(ctx->dev);

	csi2_ctx_config(ctx);
	pix_proc_config(ctx);
	cal_wr_dma_config(ctx, ctx->v_fmt.fmt.pix.bytesperline,
			  ctx->v_fmt.fmt.pix.height);
	csi2_lane_config(ctx);

	enable_irqs(ctx);
	csi2_phy_init(ctx);

	ret = v4l2_subdev_call(ctx->sensor, video, s_stream, 1);
	if (ret) {
		v4l2_subdev_call(ctx->sensor, core, s_power, 0);
		ctx_err(ctx, "stream on failed in subdev\n");
		cal_runtime_put(ctx->dev);
		goto err;
	}

	csi2_wait_for_phy(ctx);
	cal_wr_dma_addr(ctx, addr);
	csi2_ppi_enable(ctx);

	if (debug >= 4)
		cal_quickdump_regs(ctx->dev);

	return 0;

err:
	spin_lock_irqsave(&ctx->slock, flags);
	vb2_buffer_done(&ctx->cur_frm->vb.vb2_buf, VB2_BUF_STATE_QUEUED);
	ctx->cur_frm = NULL;
	ctx->next_frm = NULL;
	list_for_each_entry_safe(buf, tmp, &dma_q->active, list) {
		list_del(&buf->list);
		vb2_buffer_done(&buf->vb.vb2_buf, VB2_BUF_STATE_QUEUED);
	}
	spin_unlock_irqrestore(&ctx->slock, flags);
	return ret;
}

static void cal_stop_streaming(struct vb2_queue *vq)
{
	struct cal_ctx *ctx = vb2_get_drv_priv(vq);
	struct cal_dmaqueue *dma_q = &ctx->vidq;
	struct cal_buffer *buf, *tmp;
	unsigned long flags;
	int ret;

	csi2_ppi_disable(ctx);
	disable_irqs(ctx);
	csi2_phy_deinit(ctx);

	if (v4l2_subdev_call(ctx->sensor, video, s_stream, 0))
		ctx_err(ctx, "stream off failed in subdev\n");

	ret = v4l2_subdev_call(ctx->sensor, core, s_power, 0);
	if (ret < 0 && ret != -ENOIOCTLCMD && ret != -ENODEV)
		ctx_err(ctx, "power off failed in subdev\n");

	/* Release all active buffers */
	spin_lock_irqsave(&ctx->slock, flags);
	list_for_each_entry_safe(buf, tmp, &dma_q->active, list) {
		list_del(&buf->list);
		vb2_buffer_done(&buf->vb.vb2_buf, VB2_BUF_STATE_ERROR);
	}

	if (ctx->cur_frm == ctx->next_frm) {
		vb2_buffer_done(&ctx->cur_frm->vb.vb2_buf, VB2_BUF_STATE_ERROR);
	} else {
		vb2_buffer_done(&ctx->cur_frm->vb.vb2_buf, VB2_BUF_STATE_ERROR);
		vb2_buffer_done(&ctx->next_frm->vb.vb2_buf,
				VB2_BUF_STATE_ERROR);
	}
	ctx->cur_frm = NULL;
	ctx->next_frm = NULL;
	spin_unlock_irqrestore(&ctx->slock, flags);

	cal_runtime_put(ctx->dev);
}

static const struct vb2_ops cal_video_qops = {
	.queue_setup		= cal_queue_setup,
	.buf_prepare		= cal_buffer_prepare,
	.buf_queue		= cal_buffer_queue,
	.start_streaming	= cal_start_streaming,
	.stop_streaming		= cal_stop_streaming,
	.wait_prepare		= vb2_ops_wait_prepare,
	.wait_finish		= vb2_ops_wait_finish,
};

static const struct v4l2_file_operations cal_fops = {
	.owner		= THIS_MODULE,
	.open           = v4l2_fh_open,
	.release        = vb2_fop_release,
	.read           = vb2_fop_read,
	.poll		= vb2_fop_poll,
	.unlocked_ioctl = video_ioctl2, /* V4L2 ioctl handler */
	.mmap           = vb2_fop_mmap,
};

static const struct v4l2_ioctl_ops cal_ioctl_ops = {
	.vidioc_querycap      = cal_querycap,
	.vidioc_enum_fmt_vid_cap  = cal_enum_fmt_vid_cap,
	.vidioc_g_fmt_vid_cap     = cal_g_fmt_vid_cap,
	.vidioc_try_fmt_vid_cap   = cal_try_fmt_vid_cap,
	.vidioc_s_fmt_vid_cap     = cal_s_fmt_vid_cap,
	.vidioc_enum_framesizes   = cal_enum_framesizes,
	.vidioc_reqbufs       = vb2_ioctl_reqbufs,
	.vidioc_create_bufs   = vb2_ioctl_create_bufs,
	.vidioc_prepare_buf   = vb2_ioctl_prepare_buf,
	.vidioc_querybuf      = vb2_ioctl_querybuf,
	.vidioc_qbuf          = vb2_ioctl_qbuf,
	.vidioc_dqbuf         = vb2_ioctl_dqbuf,
	.vidioc_expbuf        = vb2_ioctl_expbuf,
	.vidioc_enum_input    = cal_enum_input,
	.vidioc_g_input       = cal_g_input,
	.vidioc_s_input       = cal_s_input,
	.vidioc_enum_frameintervals = cal_enum_frameintervals,
	.vidioc_streamon      = vb2_ioctl_streamon,
	.vidioc_streamoff     = vb2_ioctl_streamoff,
	.vidioc_log_status    = v4l2_ctrl_log_status,
	.vidioc_subscribe_event = v4l2_ctrl_subscribe_event,
	.vidioc_unsubscribe_event = v4l2_event_unsubscribe,
};

static const struct video_device cal_videodev = {
	.name		= CAL_MODULE_NAME,
	.fops		= &cal_fops,
	.ioctl_ops	= &cal_ioctl_ops,
	.minor		= -1,
	.release	= video_device_release_empty,
	.device_caps	= V4L2_CAP_VIDEO_CAPTURE | V4L2_CAP_STREAMING |
			  V4L2_CAP_READWRITE,
};

/* -----------------------------------------------------------------
 *	Initialization and module stuff
 * ------------------------------------------------------------------
 */
static int cal_complete_ctx(struct cal_ctx *ctx);

static int cal_async_bound(struct v4l2_async_notifier *notifier,
			   struct v4l2_subdev *subdev,
			   struct v4l2_async_subdev *asd)
{
	struct cal_ctx *ctx = notifier_to_ctx(notifier);
	struct v4l2_subdev_mbus_code_enum mbus_code;
	int ret = 0;
	int i, j, k;

	if (ctx->sensor) {
		ctx_info(ctx, "Rejecting subdev %s (Already set!!)",
			 subdev->name);
		return 0;
	}

	ctx->sensor = subdev;
	ctx_dbg(1, ctx, "Using sensor %s for capture\n", subdev->name);

	/* Enumerate sub device formats and enable all matching local formats */
	ctx->num_active_fmt = 0;
	for (j = 0, i = 0; ret != -EINVAL; ++j) {
		struct cal_fmt *fmt;

		memset(&mbus_code, 0, sizeof(mbus_code));
		mbus_code.index = j;
		mbus_code.which = V4L2_SUBDEV_FORMAT_ACTIVE;
		ret = v4l2_subdev_call(subdev, pad, enum_mbus_code,
				       NULL, &mbus_code);
		if (ret)
			continue;

		ctx_dbg(2, ctx,
			"subdev %s: code: %04x idx: %d\n",
			subdev->name, mbus_code.code, j);

		for (k = 0; k < ARRAY_SIZE(cal_formats); k++) {
			fmt = &cal_formats[k];

			if (mbus_code.code == fmt->code) {
				ctx->active_fmt[i] = fmt;
				ctx_dbg(2, ctx,
					"matched fourcc: %s: code: %04x idx: %d\n",
					fourcc_to_str(fmt->fourcc),
					fmt->code, i);
				ctx->num_active_fmt = ++i;
			}
		}
	}

	if (i == 0) {
		ctx_err(ctx, "No suitable format reported by subdev %s\n",
			subdev->name);
		return -EINVAL;
	}

	cal_complete_ctx(ctx);

	return 0;
}

static int cal_async_complete(struct v4l2_async_notifier *notifier)
{
	struct cal_ctx *ctx = notifier_to_ctx(notifier);
	const struct cal_fmt *fmt;
	struct v4l2_mbus_framefmt mbus_fmt;
	int ret;

	ret = __subdev_get_format(ctx, &mbus_fmt);
	if (ret)
		return ret;

	fmt = find_format_by_code(ctx, mbus_fmt.code);
	if (!fmt) {
		ctx_dbg(3, ctx, "mbus code format (0x%08x) not found.\n",
			mbus_fmt.code);
		return -EINVAL;
	}

	/* Save current subdev format */
	v4l2_fill_pix_format(&ctx->v_fmt.fmt.pix, &mbus_fmt);
	ctx->v_fmt.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
	ctx->v_fmt.fmt.pix.pixelformat  = fmt->fourcc;
	cal_calc_format_size(ctx, fmt, &ctx->v_fmt);
	ctx->fmt = fmt;
	ctx->m_fmt = mbus_fmt;

	return 0;
}

static const struct v4l2_async_notifier_operations cal_async_ops = {
	.bound = cal_async_bound,
	.complete = cal_async_complete,
};

static int cal_complete_ctx(struct cal_ctx *ctx)
{
	struct video_device *vfd;
	struct vb2_queue *q;
	int ret;

	ctx->timeperframe = tpf_default;
	ctx->external_rate = 192000000;

	/* initialize locks */
	spin_lock_init(&ctx->slock);
	mutex_init(&ctx->mutex);

	/* initialize queue */
	q = &ctx->vb_vidq;
	q->type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
	q->io_modes = VB2_MMAP | VB2_DMABUF | VB2_READ;
	q->drv_priv = ctx;
	q->buf_struct_size = sizeof(struct cal_buffer);
	q->ops = &cal_video_qops;
	q->mem_ops = &vb2_dma_contig_memops;
	q->timestamp_flags = V4L2_BUF_FLAG_TIMESTAMP_MONOTONIC;
	q->lock = &ctx->mutex;
	q->min_buffers_needed = 3;
	q->dev = ctx->v4l2_dev.dev;

	ret = vb2_queue_init(q);
	if (ret)
		return ret;

	/* init video dma queues */
	INIT_LIST_HEAD(&ctx->vidq.active);

	vfd = &ctx->vdev;
	*vfd = cal_videodev;
	vfd->v4l2_dev = &ctx->v4l2_dev;
	vfd->queue = q;

	/*
	 * Provide a mutex to v4l2 core. It will be used to protect
	 * all fops and v4l2 ioctls.
	 */
	vfd->lock = &ctx->mutex;
	video_set_drvdata(vfd, ctx);

	ret = video_register_device(vfd, VFL_TYPE_GRABBER, video_nr);
	if (ret < 0)
		return ret;

	v4l2_info(&ctx->v4l2_dev, "V4L2 device registered as %s\n",
		  video_device_node_name(vfd));

	return 0;
}

static struct device_node *
of_get_next_port(const struct device_node *parent,
		 struct device_node *prev)
{
	struct device_node *port = NULL;

	if (!parent)
		return NULL;

	if (!prev) {
		struct device_node *ports;
		/*
		 * It's the first call, we have to find a port subnode
		 * within this node or within an optional 'ports' node.
		 */
		ports = of_get_child_by_name(parent, "ports");
		if (ports)
			parent = ports;

		port = of_get_child_by_name(parent, "port");

		/* release the 'ports' node */
		of_node_put(ports);
	} else {
		struct device_node *ports;

		ports = of_get_parent(prev);
		if (!ports)
			return NULL;

		do {
			port = of_get_next_child(ports, prev);
			if (!port) {
				of_node_put(ports);
				return NULL;
			}
			prev = port;
		} while (!of_node_name_eq(port, "port"));
		of_node_put(ports);
	}

	return port;
}

static struct device_node *
of_get_next_endpoint(const struct device_node *parent,
		     struct device_node *prev)
{
	struct device_node *ep = NULL;

	if (!parent)
		return NULL;

	do {
		ep = of_get_next_child(parent, prev);
		if (!ep)
			return NULL;
		prev = ep;
	} while (!of_node_name_eq(ep, "endpoint"));

	return ep;
}

static int of_cal_create_instance(struct cal_ctx *ctx, int inst)
{
	struct platform_device *pdev = ctx->dev->pdev;
	struct device_node *ep_node, *port, *sensor_node, *parent;
	struct v4l2_fwnode_endpoint *endpoint;
	struct v4l2_async_subdev *asd;
	u32 regval = 0;
	int ret, index, found_port = 0, lane;

	parent = pdev->dev.of_node;

	asd = &ctx->asd;
	endpoint = &ctx->endpoint;

	ep_node = NULL;
	port = NULL;
	sensor_node = NULL;
	ret = -EINVAL;

	ctx_dbg(3, ctx, "Scanning Port node for csi2 port: %d\n", inst);
	for (index = 0; index < CAL_NUM_CSI2_PORTS; index++) {
		port = of_get_next_port(parent, port);
		if (!port) {
			ctx_dbg(1, ctx, "No port node found for csi2 port:%d\n",
				index);
			goto cleanup_exit;
		}

		/* Match the slice number with <REG> */
		of_property_read_u32(port, "reg", &regval);
		ctx_dbg(3, ctx, "port:%d inst:%d <reg>:%d\n",
			index, inst, regval);
		if ((regval == inst) && (index == inst)) {
			found_port = 1;
			break;
		}
	}

	if (!found_port) {
		ctx_dbg(1, ctx, "No port node matches csi2 port:%d\n",
			inst);
		goto cleanup_exit;
	}

	ctx_dbg(3, ctx, "Scanning sub-device for csi2 port: %d\n",
		inst);

	ep_node = of_get_next_endpoint(port, ep_node);
	if (!ep_node) {
		ctx_dbg(3, ctx, "can't get next endpoint\n");
		goto cleanup_exit;
	}

	sensor_node = of_graph_get_remote_port_parent(ep_node);
	if (!sensor_node) {
		ctx_dbg(3, ctx, "can't get remote parent\n");
		goto cleanup_exit;
	}
	asd->match_type = V4L2_ASYNC_MATCH_FWNODE;
	asd->match.fwnode = of_fwnode_handle(sensor_node);

	v4l2_fwnode_endpoint_parse(of_fwnode_handle(ep_node), endpoint);

	if (endpoint->bus_type != V4L2_MBUS_CSI2_DPHY) {
		ctx_err(ctx, "Port:%d sub-device %pOFn is not a CSI2 device\n",
			inst, sensor_node);
		goto cleanup_exit;
	}

	/* Store Virtual Channel number */
	ctx->virtual_channel = endpoint->base.id;

	ctx_dbg(3, ctx, "Port:%d v4l2-endpoint: CSI2\n", inst);
	ctx_dbg(3, ctx, "Virtual Channel=%d\n", ctx->virtual_channel);
	ctx_dbg(3, ctx, "flags=0x%08x\n", endpoint->bus.mipi_csi2.flags);
	ctx_dbg(3, ctx, "clock_lane=%d\n", endpoint->bus.mipi_csi2.clock_lane);
	ctx_dbg(3, ctx, "num_data_lanes=%d\n",
		endpoint->bus.mipi_csi2.num_data_lanes);
	ctx_dbg(3, ctx, "data_lanes= <\n");
	for (lane = 0; lane < endpoint->bus.mipi_csi2.num_data_lanes; lane++)
		ctx_dbg(3, ctx, "\t%d\n",
			endpoint->bus.mipi_csi2.data_lanes[lane]);
	ctx_dbg(3, ctx, "\t>\n");

	ctx_dbg(1, ctx, "Port: %d found sub-device %pOFn\n",
		inst, sensor_node);

	v4l2_async_notifier_init(&ctx->notifier);

	ret = v4l2_async_notifier_add_subdev(&ctx->notifier, asd);
	if (ret) {
		ctx_err(ctx, "Error adding asd\n");
		goto cleanup_exit;
	}

	ctx->notifier.ops = &cal_async_ops;
	ret = v4l2_async_notifier_register(&ctx->v4l2_dev,
					   &ctx->notifier);
	if (ret) {
		ctx_err(ctx, "Error registering async notifier\n");
		v4l2_async_notifier_cleanup(&ctx->notifier);
		ret = -EINVAL;
	}

	/*
	 * On success we need to keep reference on sensor_node, or
	 * if notifier_cleanup was called above, sensor_node was
	 * already put.
	 */
	sensor_node = NULL;

cleanup_exit:
	of_node_put(sensor_node);
	of_node_put(ep_node);
	of_node_put(port);

	return ret;
}

static struct cal_ctx *cal_create_instance(struct cal_dev *dev, int inst)
{
	struct cal_ctx *ctx;
	struct v4l2_ctrl_handler *hdl;
	int ret;

	ctx = devm_kzalloc(&dev->pdev->dev, sizeof(*ctx), GFP_KERNEL);
	if (!ctx)
		return NULL;

	/* save the cal_dev * for future ref */
	ctx->dev = dev;

	snprintf(ctx->v4l2_dev.name, sizeof(ctx->v4l2_dev.name),
		 "%s-%03d", CAL_MODULE_NAME, inst);
	ret = v4l2_device_register(&dev->pdev->dev, &ctx->v4l2_dev);
	if (ret)
		goto err_exit;

	hdl = &ctx->ctrl_handler;
	ret = v4l2_ctrl_handler_init(hdl, 11);
	if (ret) {
		ctx_err(ctx, "Failed to init ctrl handler\n");
		goto unreg_dev;
	}
	ctx->v4l2_dev.ctrl_handler = hdl;

	/* Make sure Camera Core H/W register area is available */
	ctx->cc = dev->cc[inst];

	/* Store the instance id */
	ctx->csi2_port = inst + 1;

	ret = of_cal_create_instance(ctx, inst);
	if (ret) {
		ret = -EINVAL;
		goto free_hdl;
	}
	return ctx;

free_hdl:
	v4l2_ctrl_handler_free(hdl);
unreg_dev:
	v4l2_device_unregister(&ctx->v4l2_dev);
err_exit:
	return NULL;
}

static const struct of_device_id cal_of_match[];

static int cal_probe(struct platform_device *pdev)
{
	struct cal_dev *dev;
	struct cal_ctx *ctx;
	struct device_node *parent = pdev->dev.of_node;
	struct regmap *syscon_camerrx = NULL;
	u32 syscon_camerrx_offset = 0;
	int ret;
	int irq;
	int i;

	dev = devm_kzalloc(&pdev->dev, sizeof(*dev), GFP_KERNEL);
	if (!dev)
		return -ENOMEM;

	dev->data = of_device_get_match_data(&pdev->dev);
	if (!dev->data) {
		dev_err(&pdev->dev, "Could not get feature data based on compatible version\n");
		return -ENODEV;
	}

	dev->flags = dev->data->flags;

	/* set pseudo v4l2 device name so we can use v4l2_printk */
	strscpy(dev->v4l2_dev.name, CAL_MODULE_NAME,
		sizeof(dev->v4l2_dev.name));

	/* save pdev pointer */
	dev->pdev = pdev;

	syscon_camerrx = syscon_regmap_lookup_by_phandle(parent,
							 "ti,camerrx-control");
	ret = of_property_read_u32_index(parent, "ti,camerrx-control", 1,
					 &syscon_camerrx_offset);
	if (IS_ERR(syscon_camerrx))
		ret = PTR_ERR(syscon_camerrx);
	if (ret) {
		dev_warn(&pdev->dev, "failed to get ti,camerrx-control: %d\n",
			 ret);

		/*
		 * Backward DTS compatibility.
		 * If syscon entry is not present then check if the
		 * camerrx_control resource is present.
		 */
		syscon_camerrx = cal_get_camerarx_regmap(dev);
		if (IS_ERR(syscon_camerrx)) {
			dev_err(&pdev->dev, "failed to get camerrx_control regmap\n");
			return PTR_ERR(syscon_camerrx);
		}
		/* In this case the base already point to the direct
		 * CM register so no need for an offset
		 */
		syscon_camerrx_offset = 0;
	}

	dev->syscon_camerrx = syscon_camerrx;
	dev->syscon_camerrx_offset = syscon_camerrx_offset;
	ret = cal_camerarx_regmap_init(dev);
	if (ret)
		return ret;

	dev->res = platform_get_resource_byname(pdev, IORESOURCE_MEM,
						"cal_top");
	dev->base = devm_ioremap_resource(&pdev->dev, dev->res);
	if (IS_ERR(dev->base))
		return PTR_ERR(dev->base);

	cal_dbg(1, dev, "ioresource %s at %pa - %pa\n",
		dev->res->name, &dev->res->start, &dev->res->end);

	irq = platform_get_irq(pdev, 0);
	cal_dbg(1, dev, "got irq# %d\n", irq);
	ret = devm_request_irq(&pdev->dev, irq, cal_irq, 0, CAL_MODULE_NAME,
			       dev);
	if (ret)
		return ret;

	platform_set_drvdata(pdev, dev);

	dev->cc[0] = cc_create(dev, 0);
	if (IS_ERR(dev->cc[0]))
		return PTR_ERR(dev->cc[0]);

	if (cal_data_get_num_csi2_phy(dev) > 1) {
		dev->cc[1] = cc_create(dev, 1);
		if (IS_ERR(dev->cc[1]))
			return PTR_ERR(dev->cc[1]);
	} else {
		dev->cc[1] = NULL;
	}

	dev->ctx[0] = NULL;
	dev->ctx[1] = NULL;

	dev->ctx[0] = cal_create_instance(dev, 0);
	if (cal_data_get_num_csi2_phy(dev) > 1)
		dev->ctx[1] = cal_create_instance(dev, 1);
	if (!dev->ctx[0] && !dev->ctx[1]) {
		cal_err(dev, "Neither port is configured, no point in staying up\n");
		return -ENODEV;
	}

	pm_runtime_enable(&pdev->dev);

	ret = cal_runtime_get(dev);
	if (ret)
		goto runtime_disable;

	/* Just check we can actually access the module */
	cal_get_hwinfo(dev);

	cal_runtime_put(dev);

	return 0;

runtime_disable:
	pm_runtime_disable(&pdev->dev);
	for (i = 0; i < CAL_NUM_CONTEXT; i++) {
		ctx = dev->ctx[i];
		if (ctx) {
			v4l2_async_notifier_unregister(&ctx->notifier);
			v4l2_async_notifier_cleanup(&ctx->notifier);
			v4l2_ctrl_handler_free(&ctx->ctrl_handler);
			v4l2_device_unregister(&ctx->v4l2_dev);
		}
	}

	return ret;
}

static int cal_remove(struct platform_device *pdev)
{
	struct cal_dev *dev =
		(struct cal_dev *)platform_get_drvdata(pdev);
	struct cal_ctx *ctx;
	int i;

	cal_dbg(1, dev, "Removing %s\n", CAL_MODULE_NAME);

	cal_runtime_get(dev);

	for (i = 0; i < CAL_NUM_CONTEXT; i++) {
		ctx = dev->ctx[i];
		if (ctx) {
			ctx_dbg(1, ctx, "unregistering %s\n",
				video_device_node_name(&ctx->vdev));
			camerarx_phy_disable(ctx);
			v4l2_async_notifier_unregister(&ctx->notifier);
			v4l2_async_notifier_cleanup(&ctx->notifier);
			v4l2_ctrl_handler_free(&ctx->ctrl_handler);
			v4l2_device_unregister(&ctx->v4l2_dev);
			video_unregister_device(&ctx->vdev);
		}
	}

	cal_runtime_put(dev);
	pm_runtime_disable(&pdev->dev);

	return 0;
}

#if defined(CONFIG_OF)
static const struct of_device_id cal_of_match[] = {
	{
		.compatible = "ti,dra72-cal",
		.data = (void *)&dra72x_cal_data,
	},
	{
		.compatible = "ti,dra72-pre-es2-cal",
		.data = (void *)&dra72x_es1_cal_data,
	},
	{
		.compatible = "ti,dra76-cal",
		.data = (void *)&dra76x_cal_data,
	},
	{
		.compatible = "ti,am654-cal",
		.data = (void *)&am654_cal_data,
	},
	{},
};
MODULE_DEVICE_TABLE(of, cal_of_match);
#endif

static struct platform_driver cal_pdrv = {
	.probe		= cal_probe,
	.remove		= cal_remove,
	.driver		= {
		.name	= CAL_MODULE_NAME,
		.of_match_table = of_match_ptr(cal_of_match),
	},
};

module_platform_driver(cal_pdrv);