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// SPDX-License-Identifier: GPL-2.0-only
/*
 * Copyright (c) 2023, Collabora
 *
 * Author: Benjamin Gaignard <benjamin.gaignard@collabora.com>
 */

#include <media/v4l2-mem2mem.h>
#include "hantro.h"
#include "hantro_v4l2.h"
#include "rockchip_vpu981_regs.h"

#define AV1_DEC_MODE		17
#define GM_GLOBAL_MODELS_PER_FRAME	7
#define GLOBAL_MODEL_TOTAL_SIZE	(6 * 4 + 4 * 2)
#define GLOBAL_MODEL_SIZE	ALIGN(GM_GLOBAL_MODELS_PER_FRAME * GLOBAL_MODEL_TOTAL_SIZE, 2048)
#define AV1_MAX_TILES		128
#define AV1_TILE_INFO_SIZE	(AV1_MAX_TILES * 16)
#define AV1DEC_MAX_PIC_BUFFERS	24
#define AV1_REF_SCALE_SHIFT	14
#define AV1_INVALID_IDX		-1
#define MAX_FRAME_DISTANCE	31
#define AV1_PRIMARY_REF_NONE	7
#define AV1_TILE_SIZE		ALIGN(32 * 128, 4096)
/*
 * These 3 values aren't defined enum v4l2_av1_segment_feature because
 * they are not part of the specification
 */
#define V4L2_AV1_SEG_LVL_ALT_LF_Y_H	2
#define V4L2_AV1_SEG_LVL_ALT_LF_U	3
#define V4L2_AV1_SEG_LVL_ALT_LF_V	4

#define SUPERRES_SCALE_BITS 3
#define SCALE_NUMERATOR 8
#define SUPERRES_SCALE_DENOMINATOR_MIN (SCALE_NUMERATOR + 1)

#define RS_SUBPEL_BITS 6
#define RS_SUBPEL_MASK ((1 << RS_SUBPEL_BITS) - 1)
#define RS_SCALE_SUBPEL_BITS 14
#define RS_SCALE_SUBPEL_MASK ((1 << RS_SCALE_SUBPEL_BITS) - 1)
#define RS_SCALE_EXTRA_BITS (RS_SCALE_SUBPEL_BITS - RS_SUBPEL_BITS)
#define RS_SCALE_EXTRA_OFF (1 << (RS_SCALE_EXTRA_BITS - 1))

#define IS_INTRA(type) ((type == V4L2_AV1_KEY_FRAME) || (type == V4L2_AV1_INTRA_ONLY_FRAME))

#define LST_BUF_IDX (V4L2_AV1_REF_LAST_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define LST2_BUF_IDX (V4L2_AV1_REF_LAST2_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define LST3_BUF_IDX (V4L2_AV1_REF_LAST3_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define GLD_BUF_IDX (V4L2_AV1_REF_GOLDEN_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define BWD_BUF_IDX (V4L2_AV1_REF_BWDREF_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define ALT2_BUF_IDX (V4L2_AV1_REF_ALTREF2_FRAME - V4L2_AV1_REF_LAST_FRAME)
#define ALT_BUF_IDX (V4L2_AV1_REF_ALTREF_FRAME - V4L2_AV1_REF_LAST_FRAME)

#define DIV_LUT_PREC_BITS 14
#define DIV_LUT_BITS 8
#define DIV_LUT_NUM BIT(DIV_LUT_BITS)
#define WARP_PARAM_REDUCE_BITS 6
#define WARPEDMODEL_PREC_BITS 16

#define AV1_DIV_ROUND_UP_POW2(value, n)			\
({							\
	typeof(n) _n  = n;				\
	typeof(value) _value = value;			\
	(_value + (BIT(_n) >> 1)) >> _n;		\
})

#define AV1_DIV_ROUND_UP_POW2_SIGNED(value, n)				\
({									\
	typeof(n) _n_  = n;						\
	typeof(value) _value_ = value;					\
	(((_value_) < 0) ? -AV1_DIV_ROUND_UP_POW2(-(_value_), (_n_))	\
		: AV1_DIV_ROUND_UP_POW2((_value_), (_n_)));		\
})

struct rockchip_av1_film_grain {
	u8 scaling_lut_y[256];
	u8 scaling_lut_cb[256];
	u8 scaling_lut_cr[256];
	s16 cropped_luma_grain_block[4096];
	s16 cropped_chroma_grain_block[1024 * 2];
};

static const short div_lut[DIV_LUT_NUM + 1] = {
	16384, 16320, 16257, 16194, 16132, 16070, 16009, 15948, 15888, 15828, 15768,
	15709, 15650, 15592, 15534, 15477, 15420, 15364, 15308, 15252, 15197, 15142,
	15087, 15033, 14980, 14926, 14873, 14821, 14769, 14717, 14665, 14614, 14564,
	14513, 14463, 14413, 14364, 14315, 14266, 14218, 14170, 14122, 14075, 14028,
	13981, 13935, 13888, 13843, 13797, 13752, 13707, 13662, 13618, 13574, 13530,
	13487, 13443, 13400, 13358, 13315, 13273, 13231, 13190, 13148, 13107, 13066,
	13026, 12985, 12945, 12906, 12866, 12827, 12788, 12749, 12710, 12672, 12633,
	12596, 12558, 12520, 12483, 12446, 12409, 12373, 12336, 12300, 12264, 12228,
	12193, 12157, 12122, 12087, 12053, 12018, 11984, 11950, 11916, 11882, 11848,
	11815, 11782, 11749, 11716, 11683, 11651, 11619, 11586, 11555, 11523, 11491,
	11460, 11429, 11398, 11367, 11336, 11305, 11275, 11245, 11215, 11185, 11155,
	11125, 11096, 11067, 11038, 11009, 10980, 10951, 10923, 10894, 10866, 10838,
	10810, 10782, 10755, 10727, 10700, 10673, 10645, 10618, 10592, 10565, 10538,
	10512, 10486, 10460, 10434, 10408, 10382, 10356, 10331, 10305, 10280, 10255,
	10230, 10205, 10180, 10156, 10131, 10107, 10082, 10058, 10034, 10010, 9986,
	9963,  9939,  9916,  9892,  9869,  9846,  9823,  9800,  9777,  9754,  9732,
	9709,  9687,  9664,  9642,  9620,  9598,  9576,  9554,  9533,  9511,  9489,
	9468,  9447,  9425,  9404,  9383,  9362,  9341,  9321,  9300,  9279,  9259,
	9239,  9218,  9198,  9178,  9158,  9138,  9118,  9098,  9079,  9059,  9039,
	9020,  9001,  8981,  8962,  8943,  8924,  8905,  8886,  8867,  8849,  8830,
	8812,  8793,  8775,  8756,  8738,  8720,  8702,  8684,  8666,  8648,  8630,
	8613,  8595,  8577,  8560,  8542,  8525,  8508,  8490,  8473,  8456,  8439,
	8422,  8405,  8389,  8372,  8355,  8339,  8322,  8306,  8289,  8273,  8257,
	8240,  8224,  8208,  8192,
};

static int rockchip_vpu981_get_frame_index(struct hantro_ctx *ctx, int ref)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	u64 timestamp;
	int i, idx = frame->ref_frame_idx[ref];

	if (idx >= V4L2_AV1_TOTAL_REFS_PER_FRAME || idx < 0)
		return AV1_INVALID_IDX;

	timestamp = frame->reference_frame_ts[idx];
	for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
		if (!av1_dec->frame_refs[i].used)
			continue;
		if (av1_dec->frame_refs[i].timestamp == timestamp)
			return i;
	}

	return AV1_INVALID_IDX;
}

static int rockchip_vpu981_get_order_hint(struct hantro_ctx *ctx, int ref)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	int idx = rockchip_vpu981_get_frame_index(ctx, ref);

	if (idx != AV1_INVALID_IDX)
		return av1_dec->frame_refs[idx].order_hint;

	return 0;
}

static int rockchip_vpu981_av1_dec_frame_ref(struct hantro_ctx *ctx,
					     u64 timestamp)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	int i;

	for (i = 0; i < AV1_MAX_FRAME_BUF_COUNT; i++) {
		int j;

		if (av1_dec->frame_refs[i].used)
			continue;

		av1_dec->frame_refs[i].width = frame->frame_width_minus_1 + 1;
		av1_dec->frame_refs[i].height = frame->frame_height_minus_1 + 1;
		av1_dec->frame_refs[i].mi_cols = DIV_ROUND_UP(frame->frame_width_minus_1 + 1, 8);
		av1_dec->frame_refs[i].mi_rows = DIV_ROUND_UP(frame->frame_height_minus_1 + 1, 8);
		av1_dec->frame_refs[i].timestamp = timestamp;
		av1_dec->frame_refs[i].frame_type = frame->frame_type;
		av1_dec->frame_refs[i].order_hint = frame->order_hint;
		if (!av1_dec->frame_refs[i].vb2_ref)
			av1_dec->frame_refs[i].vb2_ref = hantro_get_dst_buf(ctx);

		for (j = 0; j < V4L2_AV1_TOTAL_REFS_PER_FRAME; j++)
			av1_dec->frame_refs[i].order_hints[j] = frame->order_hints[j];
		av1_dec->frame_refs[i].used = true;
		av1_dec->current_frame_index = i;

		return i;
	}

	return AV1_INVALID_IDX;
}

static void rockchip_vpu981_av1_dec_frame_unref(struct hantro_ctx *ctx, int idx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;

	if (idx >= 0)
		av1_dec->frame_refs[idx].used = false;
}

static void rockchip_vpu981_av1_dec_clean_refs(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;

	int ref, idx;

	for (idx = 0; idx < AV1_MAX_FRAME_BUF_COUNT; idx++) {
		u64 timestamp = av1_dec->frame_refs[idx].timestamp;
		bool used = false;

		if (!av1_dec->frame_refs[idx].used)
			continue;

		for (ref = 0; ref < V4L2_AV1_TOTAL_REFS_PER_FRAME; ref++) {
			if (ctrls->frame->reference_frame_ts[ref] == timestamp)
				used = true;
		}

		if (!used)
			rockchip_vpu981_av1_dec_frame_unref(ctx, idx);
	}
}

static size_t rockchip_vpu981_av1_dec_luma_size(struct hantro_ctx *ctx)
{
	return ctx->dst_fmt.width * ctx->dst_fmt.height * ctx->bit_depth / 8;
}

static size_t rockchip_vpu981_av1_dec_chroma_size(struct hantro_ctx *ctx)
{
	size_t cr_offset = rockchip_vpu981_av1_dec_luma_size(ctx);

	return ALIGN((cr_offset * 3) / 2, 64);
}

static void rockchip_vpu981_av1_dec_tiles_free(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;

	if (av1_dec->db_data_col.cpu)
		dma_free_coherent(vpu->dev, av1_dec->db_data_col.size,
				  av1_dec->db_data_col.cpu,
				  av1_dec->db_data_col.dma);
	av1_dec->db_data_col.cpu = NULL;

	if (av1_dec->db_ctrl_col.cpu)
		dma_free_coherent(vpu->dev, av1_dec->db_ctrl_col.size,
				  av1_dec->db_ctrl_col.cpu,
				  av1_dec->db_ctrl_col.dma);
	av1_dec->db_ctrl_col.cpu = NULL;

	if (av1_dec->cdef_col.cpu)
		dma_free_coherent(vpu->dev, av1_dec->cdef_col.size,
				  av1_dec->cdef_col.cpu, av1_dec->cdef_col.dma);
	av1_dec->cdef_col.cpu = NULL;

	if (av1_dec->sr_col.cpu)
		dma_free_coherent(vpu->dev, av1_dec->sr_col.size,
				  av1_dec->sr_col.cpu, av1_dec->sr_col.dma);
	av1_dec->sr_col.cpu = NULL;

	if (av1_dec->lr_col.cpu)
		dma_free_coherent(vpu->dev, av1_dec->lr_col.size,
				  av1_dec->lr_col.cpu, av1_dec->lr_col.dma);
	av1_dec->lr_col.cpu = NULL;
}

static int rockchip_vpu981_av1_dec_tiles_reallocate(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_av1_tile_info *tile_info = &ctrls->frame->tile_info;
	unsigned int num_tile_cols = tile_info->tile_cols;
	unsigned int height = ALIGN(ctrls->frame->frame_height_minus_1 + 1, 64);
	unsigned int height_in_sb = height / 64;
	unsigned int stripe_num = ((height + 8) + 63) / 64;
	size_t size;

	if (av1_dec->db_data_col.size >=
	    ALIGN(height * 12 * ctx->bit_depth / 8, 128) * num_tile_cols)
		return 0;

	rockchip_vpu981_av1_dec_tiles_free(ctx);

	size = ALIGN(height * 12 * ctx->bit_depth / 8, 128) * num_tile_cols;
	av1_dec->db_data_col.cpu = dma_alloc_coherent(vpu->dev, size,
						      &av1_dec->db_data_col.dma,
						      GFP_KERNEL);
	if (!av1_dec->db_data_col.cpu)
		goto buffer_allocation_error;
	av1_dec->db_data_col.size = size;

	size = ALIGN(height * 2 * 16 / 4, 128) * num_tile_cols;
	av1_dec->db_ctrl_col.cpu = dma_alloc_coherent(vpu->dev, size,
						      &av1_dec->db_ctrl_col.dma,
						      GFP_KERNEL);
	if (!av1_dec->db_ctrl_col.cpu)
		goto buffer_allocation_error;
	av1_dec->db_ctrl_col.size = size;

	size = ALIGN(height_in_sb * 44 * ctx->bit_depth * 16 / 8, 128) * num_tile_cols;
	av1_dec->cdef_col.cpu = dma_alloc_coherent(vpu->dev, size,
						   &av1_dec->cdef_col.dma,
						   GFP_KERNEL);
	if (!av1_dec->cdef_col.cpu)
		goto buffer_allocation_error;
	av1_dec->cdef_col.size = size;

	size = ALIGN(height_in_sb * (3040 + 1280), 128) * num_tile_cols;
	av1_dec->sr_col.cpu = dma_alloc_coherent(vpu->dev, size,
						 &av1_dec->sr_col.dma,
						 GFP_KERNEL);
	if (!av1_dec->sr_col.cpu)
		goto buffer_allocation_error;
	av1_dec->sr_col.size = size;

	size = ALIGN(stripe_num * 1536 * ctx->bit_depth / 8, 128) * num_tile_cols;
	av1_dec->lr_col.cpu = dma_alloc_coherent(vpu->dev, size,
						 &av1_dec->lr_col.dma,
						 GFP_KERNEL);
	if (!av1_dec->lr_col.cpu)
		goto buffer_allocation_error;
	av1_dec->lr_col.size = size;

	av1_dec->num_tile_cols_allocated = num_tile_cols;
	return 0;

buffer_allocation_error:
	rockchip_vpu981_av1_dec_tiles_free(ctx);
	return -ENOMEM;
}

void rockchip_vpu981_av1_dec_exit(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;

	if (av1_dec->global_model.cpu)
		dma_free_coherent(vpu->dev, av1_dec->global_model.size,
				  av1_dec->global_model.cpu,
				  av1_dec->global_model.dma);
	av1_dec->global_model.cpu = NULL;

	if (av1_dec->tile_info.cpu)
		dma_free_coherent(vpu->dev, av1_dec->tile_info.size,
				  av1_dec->tile_info.cpu,
				  av1_dec->tile_info.dma);
	av1_dec->tile_info.cpu = NULL;

	if (av1_dec->film_grain.cpu)
		dma_free_coherent(vpu->dev, av1_dec->film_grain.size,
				  av1_dec->film_grain.cpu,
				  av1_dec->film_grain.dma);
	av1_dec->film_grain.cpu = NULL;

	if (av1_dec->prob_tbl.cpu)
		dma_free_coherent(vpu->dev, av1_dec->prob_tbl.size,
				  av1_dec->prob_tbl.cpu, av1_dec->prob_tbl.dma);
	av1_dec->prob_tbl.cpu = NULL;

	if (av1_dec->prob_tbl_out.cpu)
		dma_free_coherent(vpu->dev, av1_dec->prob_tbl_out.size,
				  av1_dec->prob_tbl_out.cpu,
				  av1_dec->prob_tbl_out.dma);
	av1_dec->prob_tbl_out.cpu = NULL;

	if (av1_dec->tile_buf.cpu)
		dma_free_coherent(vpu->dev, av1_dec->tile_buf.size,
				  av1_dec->tile_buf.cpu, av1_dec->tile_buf.dma);
	av1_dec->tile_buf.cpu = NULL;

	rockchip_vpu981_av1_dec_tiles_free(ctx);
}

int rockchip_vpu981_av1_dec_init(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;

	memset(av1_dec, 0, sizeof(*av1_dec));

	av1_dec->global_model.cpu = dma_alloc_coherent(vpu->dev, GLOBAL_MODEL_SIZE,
						       &av1_dec->global_model.dma,
						       GFP_KERNEL);
	if (!av1_dec->global_model.cpu)
		return -ENOMEM;
	av1_dec->global_model.size = GLOBAL_MODEL_SIZE;

	av1_dec->tile_info.cpu = dma_alloc_coherent(vpu->dev, AV1_MAX_TILES,
						    &av1_dec->tile_info.dma,
						    GFP_KERNEL);
	if (!av1_dec->tile_info.cpu)
		return -ENOMEM;
	av1_dec->tile_info.size = AV1_MAX_TILES;

	av1_dec->film_grain.cpu = dma_alloc_coherent(vpu->dev,
						     ALIGN(sizeof(struct rockchip_av1_film_grain), 2048),
						     &av1_dec->film_grain.dma,
						     GFP_KERNEL);
	if (!av1_dec->film_grain.cpu)
		return -ENOMEM;
	av1_dec->film_grain.size = ALIGN(sizeof(struct rockchip_av1_film_grain), 2048);

	av1_dec->prob_tbl.cpu = dma_alloc_coherent(vpu->dev,
						   ALIGN(sizeof(struct av1cdfs), 2048),
						   &av1_dec->prob_tbl.dma,
						   GFP_KERNEL);
	if (!av1_dec->prob_tbl.cpu)
		return -ENOMEM;
	av1_dec->prob_tbl.size = ALIGN(sizeof(struct av1cdfs), 2048);

	av1_dec->prob_tbl_out.cpu = dma_alloc_coherent(vpu->dev,
						       ALIGN(sizeof(struct av1cdfs), 2048),
						       &av1_dec->prob_tbl_out.dma,
						       GFP_KERNEL);
	if (!av1_dec->prob_tbl_out.cpu)
		return -ENOMEM;
	av1_dec->prob_tbl_out.size = ALIGN(sizeof(struct av1cdfs), 2048);
	av1_dec->cdfs = &av1_dec->default_cdfs;
	av1_dec->cdfs_ndvc = &av1_dec->default_cdfs_ndvc;

	rockchip_av1_set_default_cdfs(av1_dec->cdfs, av1_dec->cdfs_ndvc);

	av1_dec->tile_buf.cpu = dma_alloc_coherent(vpu->dev,
						   AV1_TILE_SIZE,
						   &av1_dec->tile_buf.dma,
						   GFP_KERNEL);
	if (!av1_dec->tile_buf.cpu)
		return -ENOMEM;
	av1_dec->tile_buf.size = AV1_TILE_SIZE;

	return 0;
}

static int rockchip_vpu981_av1_dec_prepare_run(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;

	ctrls->sequence = hantro_get_ctrl(ctx, V4L2_CID_STATELESS_AV1_SEQUENCE);
	if (WARN_ON(!ctrls->sequence))
		return -EINVAL;

	ctrls->tile_group_entry =
	    hantro_get_ctrl(ctx, V4L2_CID_STATELESS_AV1_TILE_GROUP_ENTRY);
	if (WARN_ON(!ctrls->tile_group_entry))
		return -EINVAL;

	ctrls->frame = hantro_get_ctrl(ctx, V4L2_CID_STATELESS_AV1_FRAME);
	if (WARN_ON(!ctrls->frame))
		return -EINVAL;

	ctrls->film_grain =
	    hantro_get_ctrl(ctx, V4L2_CID_STATELESS_AV1_FILM_GRAIN);

	return rockchip_vpu981_av1_dec_tiles_reallocate(ctx);
}

static inline int rockchip_vpu981_av1_dec_get_msb(u32 n)
{
	if (n == 0)
		return 0;
	return 31 ^ __builtin_clz(n);
}

static short rockchip_vpu981_av1_dec_resolve_divisor_32(u32 d, short *shift)
{
	int f;
	u64 e;

	*shift = rockchip_vpu981_av1_dec_get_msb(d);
	/* e is obtained from D after resetting the most significant 1 bit. */
	e = d - ((u32)1 << *shift);
	/* Get the most significant DIV_LUT_BITS (8) bits of e into f */
	if (*shift > DIV_LUT_BITS)
		f = AV1_DIV_ROUND_UP_POW2(e, *shift - DIV_LUT_BITS);
	else
		f = e << (DIV_LUT_BITS - *shift);
	if (f > DIV_LUT_NUM)
		return -1;
	*shift += DIV_LUT_PREC_BITS;
	/* Use f as lookup into the precomputed table of multipliers */
	return div_lut[f];
}

static void
rockchip_vpu981_av1_dec_get_shear_params(const u32 *params, s64 *alpha,
					 s64 *beta, s64 *gamma, s64 *delta)
{
	const int *mat = params;
	short shift;
	short y;
	long long gv, dv;

	if (mat[2] <= 0)
		return;

	*alpha = clamp_val(mat[2] - (1 << WARPEDMODEL_PREC_BITS), S16_MIN, S16_MAX);
	*beta = clamp_val(mat[3], S16_MIN, S16_MAX);

	y = rockchip_vpu981_av1_dec_resolve_divisor_32(abs(mat[2]), &shift) * (mat[2] < 0 ? -1 : 1);

	gv = ((long long)mat[4] * (1 << WARPEDMODEL_PREC_BITS)) * y;

	*gamma = clamp_val((int)AV1_DIV_ROUND_UP_POW2_SIGNED(gv, shift), S16_MIN, S16_MAX);

	dv = ((long long)mat[3] * mat[4]) * y;
	*delta = clamp_val(mat[5] -
		(int)AV1_DIV_ROUND_UP_POW2_SIGNED(dv, shift) - (1 << WARPEDMODEL_PREC_BITS),
		S16_MIN, S16_MAX);

	*alpha = AV1_DIV_ROUND_UP_POW2_SIGNED(*alpha, WARP_PARAM_REDUCE_BITS)
		 * (1 << WARP_PARAM_REDUCE_BITS);
	*beta = AV1_DIV_ROUND_UP_POW2_SIGNED(*beta, WARP_PARAM_REDUCE_BITS)
		* (1 << WARP_PARAM_REDUCE_BITS);
	*gamma = AV1_DIV_ROUND_UP_POW2_SIGNED(*gamma, WARP_PARAM_REDUCE_BITS)
		 * (1 << WARP_PARAM_REDUCE_BITS);
	*delta = AV1_DIV_ROUND_UP_POW2_SIGNED(*delta, WARP_PARAM_REDUCE_BITS)
		* (1 << WARP_PARAM_REDUCE_BITS);
}

static void rockchip_vpu981_av1_dec_set_global_model(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_global_motion *gm = &frame->global_motion;
	u8 *dst = av1_dec->global_model.cpu;
	struct hantro_dev *vpu = ctx->dev;
	int ref_frame, i;

	memset(dst, 0, GLOBAL_MODEL_SIZE);
	for (ref_frame = 0; ref_frame < V4L2_AV1_REFS_PER_FRAME; ++ref_frame) {
		s64 alpha = 0, beta = 0, gamma = 0, delta = 0;

		for (i = 0; i < 6; ++i) {
			if (i == 2)
				*(s32 *)dst =
					gm->params[V4L2_AV1_REF_LAST_FRAME + ref_frame][3];
			else if (i == 3)
				*(s32 *)dst =
					gm->params[V4L2_AV1_REF_LAST_FRAME + ref_frame][2];
			else
				*(s32 *)dst =
					gm->params[V4L2_AV1_REF_LAST_FRAME + ref_frame][i];
			dst += 4;
		}

		if (gm->type[V4L2_AV1_REF_LAST_FRAME + ref_frame] <= V4L2_AV1_WARP_MODEL_AFFINE)
			rockchip_vpu981_av1_dec_get_shear_params(&gm->params[V4L2_AV1_REF_LAST_FRAME + ref_frame][0],
								 &alpha, &beta, &gamma, &delta);

		*(s16 *)dst = alpha;
		dst += 2;
		*(s16 *)dst = beta;
		dst += 2;
		*(s16 *)dst = gamma;
		dst += 2;
		*(s16 *)dst = delta;
		dst += 2;
	}

	hantro_write_addr(vpu, AV1_GLOBAL_MODEL, av1_dec->global_model.dma);
}

static int rockchip_vpu981_av1_tile_log2(int target)
{
	int k;

	/*
	 * returns the smallest value for k such that 1 << k is greater
	 * than or equal to target
	 */
	for (k = 0; (1 << k) < target; k++);

	return k;
}

static void rockchip_vpu981_av1_dec_set_tile_info(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_av1_tile_info *tile_info = &ctrls->frame->tile_info;
	const struct v4l2_ctrl_av1_tile_group_entry *group_entry =
	    ctrls->tile_group_entry;
	int context_update_y =
	    tile_info->context_update_tile_id / tile_info->tile_cols;
	int context_update_x =
	    tile_info->context_update_tile_id % tile_info->tile_cols;
	int context_update_tile_id =
	    context_update_x * tile_info->tile_rows + context_update_y;
	u8 *dst = av1_dec->tile_info.cpu;
	struct hantro_dev *vpu = ctx->dev;
	int tile0, tile1;

	memset(dst, 0, av1_dec->tile_info.size);

	for (tile0 = 0; tile0 < tile_info->tile_cols; tile0++) {
		for (tile1 = 0; tile1 < tile_info->tile_rows; tile1++) {
			int tile_id = tile1 * tile_info->tile_cols + tile0;
			u32 start, end;
			u32 y0 =
			    tile_info->height_in_sbs_minus_1[tile1] + 1;
			u32 x0 = tile_info->width_in_sbs_minus_1[tile0] + 1;

			/* tile size in SB units (width,height) */
			*dst++ = x0;
			*dst++ = 0;
			*dst++ = 0;
			*dst++ = 0;
			*dst++ = y0;
			*dst++ = 0;
			*dst++ = 0;
			*dst++ = 0;

			/* tile start position */
			start = group_entry[tile_id].tile_offset - group_entry[0].tile_offset;
			*dst++ = start & 255;
			*dst++ = (start >> 8) & 255;
			*dst++ = (start >> 16) & 255;
			*dst++ = (start >> 24) & 255;

			/* number of bytes in tile data */
			end = start + group_entry[tile_id].tile_size;
			*dst++ = end & 255;
			*dst++ = (end >> 8) & 255;
			*dst++ = (end >> 16) & 255;
			*dst++ = (end >> 24) & 255;
		}
	}

	hantro_reg_write(vpu, &av1_multicore_expect_context_update, !!(context_update_x == 0));
	hantro_reg_write(vpu, &av1_tile_enable,
			 !!((tile_info->tile_cols > 1) || (tile_info->tile_rows > 1)));
	hantro_reg_write(vpu, &av1_num_tile_cols_8k, tile_info->tile_cols);
	hantro_reg_write(vpu, &av1_num_tile_rows_8k, tile_info->tile_rows);
	hantro_reg_write(vpu, &av1_context_update_tile_id, context_update_tile_id);
	hantro_reg_write(vpu, &av1_tile_transpose, 1);
	if (rockchip_vpu981_av1_tile_log2(tile_info->tile_cols) ||
	    rockchip_vpu981_av1_tile_log2(tile_info->tile_rows))
		hantro_reg_write(vpu, &av1_dec_tile_size_mag, tile_info->tile_size_bytes - 1);
	else
		hantro_reg_write(vpu, &av1_dec_tile_size_mag, 3);

	hantro_write_addr(vpu, AV1_TILE_BASE, av1_dec->tile_info.dma);
}

static int rockchip_vpu981_av1_dec_get_dist(struct hantro_ctx *ctx,
					    int a, int b)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	int bits = ctrls->sequence->order_hint_bits - 1;
	int diff, m;

	if (!ctrls->sequence->order_hint_bits)
		return 0;

	diff = a - b;
	m = 1 << bits;
	diff = (diff & (m - 1)) - (diff & m);

	return diff;
}

static void rockchip_vpu981_av1_dec_set_frame_sign_bias(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_ctrl_av1_sequence *sequence = ctrls->sequence;
	int i;

	if (!sequence->order_hint_bits || IS_INTRA(frame->frame_type)) {
		for (i = 0; i < V4L2_AV1_TOTAL_REFS_PER_FRAME; i++)
			av1_dec->ref_frame_sign_bias[i] = 0;

		return;
	}
	// Identify the nearest forward and backward references.
	for (i = 0; i < V4L2_AV1_TOTAL_REFS_PER_FRAME - 1; i++) {
		if (rockchip_vpu981_get_frame_index(ctx, i) >= 0) {
			int rel_off =
			    rockchip_vpu981_av1_dec_get_dist(ctx,
							     rockchip_vpu981_get_order_hint(ctx, i),
							     frame->order_hint);
			av1_dec->ref_frame_sign_bias[i + 1] = (rel_off <= 0) ? 0 : 1;
		}
	}
}

static bool
rockchip_vpu981_av1_dec_set_ref(struct hantro_ctx *ctx, int ref, int idx,
				int width, int height)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_decoded_buffer *dst;
	dma_addr_t luma_addr, chroma_addr, mv_addr = 0;
	size_t cr_offset = rockchip_vpu981_av1_dec_luma_size(ctx);
	size_t mv_offset = rockchip_vpu981_av1_dec_chroma_size(ctx);
	int cur_width = frame->frame_width_minus_1 + 1;
	int cur_height = frame->frame_height_minus_1 + 1;
	int scale_width =
	    ((width << AV1_REF_SCALE_SHIFT) + cur_width / 2) / cur_width;
	int scale_height =
	    ((height << AV1_REF_SCALE_SHIFT) + cur_height / 2) / cur_height;

	switch (ref) {
	case 0:
		hantro_reg_write(vpu, &av1_ref0_height, height);
		hantro_reg_write(vpu, &av1_ref0_width, width);
		hantro_reg_write(vpu, &av1_ref0_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref0_hor_scale, scale_height);
		break;
	case 1:
		hantro_reg_write(vpu, &av1_ref1_height, height);
		hantro_reg_write(vpu, &av1_ref1_width, width);
		hantro_reg_write(vpu, &av1_ref1_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref1_hor_scale, scale_height);
		break;
	case 2:
		hantro_reg_write(vpu, &av1_ref2_height, height);
		hantro_reg_write(vpu, &av1_ref2_width, width);
		hantro_reg_write(vpu, &av1_ref2_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref2_hor_scale, scale_height);
		break;
	case 3:
		hantro_reg_write(vpu, &av1_ref3_height, height);
		hantro_reg_write(vpu, &av1_ref3_width, width);
		hantro_reg_write(vpu, &av1_ref3_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref3_hor_scale, scale_height);
		break;
	case 4:
		hantro_reg_write(vpu, &av1_ref4_height, height);
		hantro_reg_write(vpu, &av1_ref4_width, width);
		hantro_reg_write(vpu, &av1_ref4_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref4_hor_scale, scale_height);
		break;
	case 5:
		hantro_reg_write(vpu, &av1_ref5_height, height);
		hantro_reg_write(vpu, &av1_ref5_width, width);
		hantro_reg_write(vpu, &av1_ref5_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref5_hor_scale, scale_height);
		break;
	case 6:
		hantro_reg_write(vpu, &av1_ref6_height, height);
		hantro_reg_write(vpu, &av1_ref6_width, width);
		hantro_reg_write(vpu, &av1_ref6_ver_scale, scale_width);
		hantro_reg_write(vpu, &av1_ref6_hor_scale, scale_height);
		break;
	default:
		pr_warn("AV1 invalid reference frame index\n");
	}

	dst = vb2_to_hantro_decoded_buf(&av1_dec->frame_refs[idx].vb2_ref->vb2_buf);
	luma_addr = hantro_get_dec_buf_addr(ctx, &dst->base.vb.vb2_buf);
	chroma_addr = luma_addr + cr_offset;
	mv_addr = luma_addr + mv_offset;

	hantro_write_addr(vpu, AV1_REFERENCE_Y(ref), luma_addr);
	hantro_write_addr(vpu, AV1_REFERENCE_CB(ref), chroma_addr);
	hantro_write_addr(vpu, AV1_REFERENCE_MV(ref), mv_addr);

	return (scale_width != (1 << AV1_REF_SCALE_SHIFT)) ||
		(scale_height != (1 << AV1_REF_SCALE_SHIFT));
}

static void rockchip_vpu981_av1_dec_set_sign_bias(struct hantro_ctx *ctx,
						  int ref, int val)
{
	struct hantro_dev *vpu = ctx->dev;

	switch (ref) {
	case 0:
		hantro_reg_write(vpu, &av1_ref0_sign_bias, val);
		break;
	case 1:
		hantro_reg_write(vpu, &av1_ref1_sign_bias, val);
		break;
	case 2:
		hantro_reg_write(vpu, &av1_ref2_sign_bias, val);
		break;
	case 3:
		hantro_reg_write(vpu, &av1_ref3_sign_bias, val);
		break;
	case 4:
		hantro_reg_write(vpu, &av1_ref4_sign_bias, val);
		break;
	case 5:
		hantro_reg_write(vpu, &av1_ref5_sign_bias, val);
		break;
	case 6:
		hantro_reg_write(vpu, &av1_ref6_sign_bias, val);
		break;
	default:
		pr_warn("AV1 invalid sign bias index\n");
		break;
	}
}

static void rockchip_vpu981_av1_dec_set_segmentation(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_segmentation *seg = &frame->segmentation;
	u32 segval[V4L2_AV1_MAX_SEGMENTS][V4L2_AV1_SEG_LVL_MAX] = { 0 };
	struct hantro_dev *vpu = ctx->dev;
	u8 segsign = 0, preskip_segid = 0, last_active_seg = 0, i, j;

	if (!!(seg->flags & V4L2_AV1_SEGMENTATION_FLAG_ENABLED) &&
	    frame->primary_ref_frame < V4L2_AV1_REFS_PER_FRAME) {
		int idx = rockchip_vpu981_get_frame_index(ctx, frame->primary_ref_frame);

		if (idx >= 0) {
			dma_addr_t luma_addr, mv_addr = 0;
			struct hantro_decoded_buffer *seg;
			size_t mv_offset = rockchip_vpu981_av1_dec_chroma_size(ctx);

			seg = vb2_to_hantro_decoded_buf(&av1_dec->frame_refs[idx].vb2_ref->vb2_buf);
			luma_addr = hantro_get_dec_buf_addr(ctx, &seg->base.vb.vb2_buf);
			mv_addr = luma_addr + mv_offset;

			hantro_write_addr(vpu, AV1_SEGMENTATION, mv_addr);
			hantro_reg_write(vpu, &av1_use_temporal3_mvs, 1);
		}
	}

	hantro_reg_write(vpu, &av1_segment_temp_upd_e,
			 !!(seg->flags & V4L2_AV1_SEGMENTATION_FLAG_TEMPORAL_UPDATE));
	hantro_reg_write(vpu, &av1_segment_upd_e,
			 !!(seg->flags & V4L2_AV1_SEGMENTATION_FLAG_UPDATE_MAP));
	hantro_reg_write(vpu, &av1_segment_e,
			 !!(seg->flags & V4L2_AV1_SEGMENTATION_FLAG_ENABLED));

	hantro_reg_write(vpu, &av1_error_resilient,
			 !!(frame->flags & V4L2_AV1_FRAME_FLAG_ERROR_RESILIENT_MODE));

	if (IS_INTRA(frame->frame_type) ||
	    !!(frame->flags & V4L2_AV1_FRAME_FLAG_ERROR_RESILIENT_MODE)) {
		hantro_reg_write(vpu, &av1_use_temporal3_mvs, 0);
	}

	if (seg->flags & V4L2_AV1_SEGMENTATION_FLAG_ENABLED) {
		int s;

		for (s = 0; s < V4L2_AV1_MAX_SEGMENTS; s++) {
			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_Q)) {
				segval[s][V4L2_AV1_SEG_LVL_ALT_Q] =
				    clamp(abs(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_Q]),
					  0, 255);
				segsign |=
					(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_Q] < 0) << s;
			}

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_LF_Y_V))
				segval[s][V4L2_AV1_SEG_LVL_ALT_LF_Y_V] =
					clamp(abs(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]),
					      -63, 63);

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_LF_Y_H))
				segval[s][V4L2_AV1_SEG_LVL_ALT_LF_Y_H] =
				    clamp(abs(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]),
					  -63, 63);

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_LF_U))
				segval[s][V4L2_AV1_SEG_LVL_ALT_LF_U] =
				    clamp(abs(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_LF_U]),
					  -63, 63);

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_LF_V))
				segval[s][V4L2_AV1_SEG_LVL_ALT_LF_V] =
				    clamp(abs(seg->feature_data[s][V4L2_AV1_SEG_LVL_ALT_LF_V]),
					  -63, 63);

			if (frame->frame_type && seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_REF_FRAME))
				segval[s][V4L2_AV1_SEG_LVL_REF_FRAME]++;

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_REF_SKIP))
				segval[s][V4L2_AV1_SEG_LVL_REF_SKIP] = 1;

			if (seg->feature_enabled[s] &
			    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_REF_GLOBALMV))
				segval[s][V4L2_AV1_SEG_LVL_REF_GLOBALMV] = 1;
		}
	}

	for (i = 0; i < V4L2_AV1_MAX_SEGMENTS; i++) {
		for (j = 0; j < V4L2_AV1_SEG_LVL_MAX; j++) {
			if (seg->feature_enabled[i]
			    & V4L2_AV1_SEGMENT_FEATURE_ENABLED(j)) {
				preskip_segid |= (j >= V4L2_AV1_SEG_LVL_REF_FRAME);
				last_active_seg = max(i, last_active_seg);
			}
		}
	}

	hantro_reg_write(vpu, &av1_last_active_seg, last_active_seg);
	hantro_reg_write(vpu, &av1_preskip_segid, preskip_segid);

	hantro_reg_write(vpu, &av1_seg_quant_sign, segsign);

	/* Write QP, filter level, ref frame and skip for every segment */
	hantro_reg_write(vpu, &av1_quant_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg0,
			 segval[0][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg1,
			 segval[1][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg2,
			 segval[2][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg3,
			 segval[3][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg4,
			 segval[4][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg5,
			 segval[5][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg6,
			 segval[6][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);

	hantro_reg_write(vpu, &av1_quant_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_ALT_Q]);
	hantro_reg_write(vpu, &av1_filt_level_delta0_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_ALT_LF_Y_V]);
	hantro_reg_write(vpu, &av1_filt_level_delta1_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_ALT_LF_Y_H]);
	hantro_reg_write(vpu, &av1_filt_level_delta2_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_ALT_LF_U]);
	hantro_reg_write(vpu, &av1_filt_level_delta3_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_ALT_LF_V]);
	hantro_reg_write(vpu, &av1_refpic_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_REF_FRAME]);
	hantro_reg_write(vpu, &av1_skip_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_REF_SKIP]);
	hantro_reg_write(vpu, &av1_global_mv_seg7,
			 segval[7][V4L2_AV1_SEG_LVL_REF_GLOBALMV]);
}

static bool rockchip_vpu981_av1_dec_is_lossless(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_segmentation *segmentation = &frame->segmentation;
	const struct v4l2_av1_quantization *quantization = &frame->quantization;
	int i;

	for (i = 0; i < V4L2_AV1_MAX_SEGMENTS; i++) {
		int qindex = quantization->base_q_idx;

		if (segmentation->feature_enabled[i] &
		    V4L2_AV1_SEGMENT_FEATURE_ENABLED(V4L2_AV1_SEG_LVL_ALT_Q)) {
			qindex += segmentation->feature_data[i][V4L2_AV1_SEG_LVL_ALT_Q];
		}
		qindex = clamp(qindex, 0, 255);

		if (qindex ||
		    quantization->delta_q_y_dc ||
		    quantization->delta_q_u_dc ||
		    quantization->delta_q_u_ac ||
		    quantization->delta_q_v_dc ||
		    quantization->delta_q_v_ac)
			return false;
	}
	return true;
}

static void rockchip_vpu981_av1_dec_set_loopfilter(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_loop_filter *loop_filter = &frame->loop_filter;
	bool filtering_dis = (loop_filter->level[0] == 0) && (loop_filter->level[1] == 0);
	struct hantro_dev *vpu = ctx->dev;

	hantro_reg_write(vpu, &av1_filtering_dis, filtering_dis);
	hantro_reg_write(vpu, &av1_filt_level_base_gt32, loop_filter->level[0] > 32);
	hantro_reg_write(vpu, &av1_filt_sharpness, loop_filter->sharpness);

	hantro_reg_write(vpu, &av1_filt_level0, loop_filter->level[0]);
	hantro_reg_write(vpu, &av1_filt_level1, loop_filter->level[1]);
	hantro_reg_write(vpu, &av1_filt_level2, loop_filter->level[2]);
	hantro_reg_write(vpu, &av1_filt_level3, loop_filter->level[3]);

	if (loop_filter->flags & V4L2_AV1_LOOP_FILTER_FLAG_DELTA_ENABLED &&
	    !rockchip_vpu981_av1_dec_is_lossless(ctx) &&
	    !(frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_INTRABC)) {
		hantro_reg_write(vpu, &av1_filt_ref_adj_0,
				 loop_filter->ref_deltas[0]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_1,
				 loop_filter->ref_deltas[1]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_2,
				 loop_filter->ref_deltas[2]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_3,
				 loop_filter->ref_deltas[3]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_4,
				 loop_filter->ref_deltas[4]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_5,
				 loop_filter->ref_deltas[5]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_6,
				 loop_filter->ref_deltas[6]);
		hantro_reg_write(vpu, &av1_filt_ref_adj_7,
				 loop_filter->ref_deltas[7]);
		hantro_reg_write(vpu, &av1_filt_mb_adj_0,
				 loop_filter->mode_deltas[0]);
		hantro_reg_write(vpu, &av1_filt_mb_adj_1,
				 loop_filter->mode_deltas[1]);
	} else {
		hantro_reg_write(vpu, &av1_filt_ref_adj_0, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_1, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_2, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_3, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_4, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_5, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_6, 0);
		hantro_reg_write(vpu, &av1_filt_ref_adj_7, 0);
		hantro_reg_write(vpu, &av1_filt_mb_adj_0, 0);
		hantro_reg_write(vpu, &av1_filt_mb_adj_1, 0);
	}

	hantro_write_addr(vpu, AV1_DB_DATA_COL, av1_dec->db_data_col.dma);
	hantro_write_addr(vpu, AV1_DB_CTRL_COL, av1_dec->db_ctrl_col.dma);
}

static void rockchip_vpu981_av1_dec_update_prob(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	bool frame_is_intra = IS_INTRA(frame->frame_type);
	struct av1cdfs *out_cdfs = (struct av1cdfs *)av1_dec->prob_tbl_out.cpu;
	int i;

	if (frame->flags & V4L2_AV1_FRAME_FLAG_DISABLE_FRAME_END_UPDATE_CDF)
		return;

	for (i = 0; i < NUM_REF_FRAMES; i++) {
		if (frame->refresh_frame_flags & BIT(i)) {
			struct mvcdfs stored_mv_cdf;

			rockchip_av1_get_cdfs(ctx, i);
			stored_mv_cdf = av1_dec->cdfs->mv_cdf;
			*av1_dec->cdfs = *out_cdfs;
			if (frame_is_intra) {
				av1_dec->cdfs->mv_cdf = stored_mv_cdf;
				*av1_dec->cdfs_ndvc = out_cdfs->mv_cdf;
			}
			rockchip_av1_store_cdfs(ctx,
						frame->refresh_frame_flags);
			break;
		}
	}
}

void rockchip_vpu981_av1_dec_done(struct hantro_ctx *ctx)
{
	rockchip_vpu981_av1_dec_update_prob(ctx);
}

static void rockchip_vpu981_av1_dec_set_prob(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_quantization *quantization = &frame->quantization;
	struct hantro_dev *vpu = ctx->dev;
	bool error_resilient_mode =
	    !!(frame->flags & V4L2_AV1_FRAME_FLAG_ERROR_RESILIENT_MODE);
	bool frame_is_intra = IS_INTRA(frame->frame_type);

	if (error_resilient_mode || frame_is_intra ||
	    frame->primary_ref_frame == AV1_PRIMARY_REF_NONE) {
		av1_dec->cdfs = &av1_dec->default_cdfs;
		av1_dec->cdfs_ndvc = &av1_dec->default_cdfs_ndvc;
		rockchip_av1_default_coeff_probs(quantization->base_q_idx,
						 av1_dec->cdfs);
	} else {
		rockchip_av1_get_cdfs(ctx, frame->ref_frame_idx[frame->primary_ref_frame]);
	}
	rockchip_av1_store_cdfs(ctx, frame->refresh_frame_flags);

	memcpy(av1_dec->prob_tbl.cpu, av1_dec->cdfs, sizeof(struct av1cdfs));

	if (frame_is_intra) {
		int mv_offset = offsetof(struct av1cdfs, mv_cdf);
		/* Overwrite MV context area with intrabc MV context */
		memcpy(av1_dec->prob_tbl.cpu + mv_offset, av1_dec->cdfs_ndvc,
		       sizeof(struct mvcdfs));
	}

	hantro_write_addr(vpu, AV1_PROP_TABLE_OUT, av1_dec->prob_tbl_out.dma);
	hantro_write_addr(vpu, AV1_PROP_TABLE, av1_dec->prob_tbl.dma);
}

static void
rockchip_vpu981_av1_dec_init_scaling_function(const u8 *values, const u8 *scaling,
					      u8 num_points, u8 *scaling_lut)
{
	int i, point;

	if (num_points == 0) {
		memset(scaling_lut, 0, 256);
		return;
	}

	for (point = 0; point < num_points - 1; point++) {
		int x;
		s32 delta_y = scaling[point + 1] - scaling[point];
		s32 delta_x = values[point + 1] - values[point];
		s64 delta =
		    delta_x ? delta_y * ((65536 + (delta_x >> 1)) /
					 delta_x) : 0;

		for (x = 0; x < delta_x; x++) {
			scaling_lut[values[point] + x] =
			    scaling[point] +
			    (s32)((x * delta + 32768) >> 16);
		}
	}

	for (i = values[num_points - 1]; i < 256; i++)
		scaling_lut[i] = scaling[num_points - 1];
}

static void rockchip_vpu981_av1_dec_set_fgs(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_film_grain *film_grain = ctrls->film_grain;
	struct rockchip_av1_film_grain *fgmem = av1_dec->film_grain.cpu;
	struct hantro_dev *vpu = ctx->dev;
	bool scaling_from_luma =
		!!(film_grain->flags & V4L2_AV1_FILM_GRAIN_FLAG_CHROMA_SCALING_FROM_LUMA);
	s32 (*ar_coeffs_y)[24];
	s32 (*ar_coeffs_cb)[25];
	s32 (*ar_coeffs_cr)[25];
	s32 (*luma_grain_block)[73][82];
	s32 (*cb_grain_block)[38][44];
	s32 (*cr_grain_block)[38][44];
	s32 ar_coeff_lag, ar_coeff_shift;
	s32 grain_scale_shift, bitdepth;
	s32 grain_center, grain_min, grain_max;
	int i, j;

	hantro_reg_write(vpu, &av1_apply_grain, 0);

	if (!(film_grain->flags & V4L2_AV1_FILM_GRAIN_FLAG_APPLY_GRAIN)) {
		hantro_reg_write(vpu, &av1_num_y_points_b, 0);
		hantro_reg_write(vpu, &av1_num_cb_points_b, 0);
		hantro_reg_write(vpu, &av1_num_cr_points_b, 0);
		hantro_reg_write(vpu, &av1_scaling_shift, 0);
		hantro_reg_write(vpu, &av1_cb_mult, 0);
		hantro_reg_write(vpu, &av1_cb_luma_mult, 0);
		hantro_reg_write(vpu, &av1_cb_offset, 0);
		hantro_reg_write(vpu, &av1_cr_mult, 0);
		hantro_reg_write(vpu, &av1_cr_luma_mult, 0);
		hantro_reg_write(vpu, &av1_cr_offset, 0);
		hantro_reg_write(vpu, &av1_overlap_flag, 0);
		hantro_reg_write(vpu, &av1_clip_to_restricted_range, 0);
		hantro_reg_write(vpu, &av1_chroma_scaling_from_luma, 0);
		hantro_reg_write(vpu, &av1_random_seed, 0);
		hantro_write_addr(vpu, AV1_FILM_GRAIN, 0);
		return;
	}

	ar_coeffs_y = kzalloc(sizeof(int32_t) * 24, GFP_KERNEL);
	ar_coeffs_cb = kzalloc(sizeof(int32_t) * 25, GFP_KERNEL);
	ar_coeffs_cr = kzalloc(sizeof(int32_t) * 25, GFP_KERNEL);
	luma_grain_block = kzalloc(sizeof(int32_t) * 73 * 82, GFP_KERNEL);
	cb_grain_block = kzalloc(sizeof(int32_t) * 38 * 44, GFP_KERNEL);
	cr_grain_block = kzalloc(sizeof(int32_t) * 38 * 44, GFP_KERNEL);

	if (!ar_coeffs_y || !ar_coeffs_cb || !ar_coeffs_cr ||
	    !luma_grain_block || !cb_grain_block || !cr_grain_block) {
		pr_warn("Fail allocating memory for film grain parameters\n");
		goto alloc_fail;
	}

	hantro_reg_write(vpu, &av1_apply_grain, 1);

	hantro_reg_write(vpu, &av1_num_y_points_b,
			 film_grain->num_y_points > 0);
	hantro_reg_write(vpu, &av1_num_cb_points_b,
			 film_grain->num_cb_points > 0);
	hantro_reg_write(vpu, &av1_num_cr_points_b,
			 film_grain->num_cr_points > 0);
	hantro_reg_write(vpu, &av1_scaling_shift,
			 film_grain->grain_scaling_minus_8 + 8);

	if (!scaling_from_luma) {
		hantro_reg_write(vpu, &av1_cb_mult, film_grain->cb_mult - 128);
		hantro_reg_write(vpu, &av1_cb_luma_mult, film_grain->cb_luma_mult - 128);
		hantro_reg_write(vpu, &av1_cb_offset, film_grain->cb_offset - 256);
		hantro_reg_write(vpu, &av1_cr_mult, film_grain->cr_mult - 128);
		hantro_reg_write(vpu, &av1_cr_luma_mult, film_grain->cr_luma_mult - 128);
		hantro_reg_write(vpu, &av1_cr_offset, film_grain->cr_offset - 256);
	} else {
		hantro_reg_write(vpu, &av1_cb_mult, 0);
		hantro_reg_write(vpu, &av1_cb_luma_mult, 0);
		hantro_reg_write(vpu, &av1_cb_offset, 0);
		hantro_reg_write(vpu, &av1_cr_mult, 0);
		hantro_reg_write(vpu, &av1_cr_luma_mult, 0);
		hantro_reg_write(vpu, &av1_cr_offset, 0);
	}

	hantro_reg_write(vpu, &av1_overlap_flag,
			 !!(film_grain->flags & V4L2_AV1_FILM_GRAIN_FLAG_OVERLAP));
	hantro_reg_write(vpu, &av1_clip_to_restricted_range,
			 !!(film_grain->flags & V4L2_AV1_FILM_GRAIN_FLAG_CLIP_TO_RESTRICTED_RANGE));
	hantro_reg_write(vpu, &av1_chroma_scaling_from_luma, scaling_from_luma);
	hantro_reg_write(vpu, &av1_random_seed, film_grain->grain_seed);

	rockchip_vpu981_av1_dec_init_scaling_function(film_grain->point_y_value,
						      film_grain->point_y_scaling,
						      film_grain->num_y_points,
						      fgmem->scaling_lut_y);

	if (film_grain->flags &
	    V4L2_AV1_FILM_GRAIN_FLAG_CHROMA_SCALING_FROM_LUMA) {
		memcpy(fgmem->scaling_lut_cb, fgmem->scaling_lut_y,
		       sizeof(*fgmem->scaling_lut_y) * 256);
		memcpy(fgmem->scaling_lut_cr, fgmem->scaling_lut_y,
		       sizeof(*fgmem->scaling_lut_y) * 256);
	} else {
		rockchip_vpu981_av1_dec_init_scaling_function
		    (film_grain->point_cb_value, film_grain->point_cb_scaling,
		     film_grain->num_cb_points, fgmem->scaling_lut_cb);
		rockchip_vpu981_av1_dec_init_scaling_function
		    (film_grain->point_cr_value, film_grain->point_cr_scaling,
		     film_grain->num_cr_points, fgmem->scaling_lut_cr);
	}

	for (i = 0; i < V4L2_AV1_AR_COEFFS_SIZE; i++) {
		if (i < 24)
			(*ar_coeffs_y)[i] = film_grain->ar_coeffs_y_plus_128[i] - 128;
		(*ar_coeffs_cb)[i] = film_grain->ar_coeffs_cb_plus_128[i] - 128;
		(*ar_coeffs_cr)[i] = film_grain->ar_coeffs_cr_plus_128[i] - 128;
	}

	ar_coeff_lag = film_grain->ar_coeff_lag;
	ar_coeff_shift = film_grain->ar_coeff_shift_minus_6 + 6;
	grain_scale_shift = film_grain->grain_scale_shift;
	bitdepth = ctx->bit_depth;
	grain_center = 128 << (bitdepth - 8);
	grain_min = 0 - grain_center;
	grain_max = (256 << (bitdepth - 8)) - 1 - grain_center;

	rockchip_av1_generate_luma_grain_block(luma_grain_block, bitdepth,
					       film_grain->num_y_points, grain_scale_shift,
					       ar_coeff_lag, ar_coeffs_y, ar_coeff_shift,
					       grain_min, grain_max, film_grain->grain_seed);

	rockchip_av1_generate_chroma_grain_block(luma_grain_block, cb_grain_block,
						 cr_grain_block, bitdepth,
						 film_grain->num_y_points,
						 film_grain->num_cb_points,
						 film_grain->num_cr_points,
						 grain_scale_shift, ar_coeff_lag, ar_coeffs_cb,
						 ar_coeffs_cr, ar_coeff_shift, grain_min,
						 grain_max,
						 scaling_from_luma,
						 film_grain->grain_seed);

	for (i = 0; i < 64; i++) {
		for (j = 0; j < 64; j++)
			fgmem->cropped_luma_grain_block[i * 64 + j] =
				(*luma_grain_block)[i + 9][j + 9];
	}

	for (i = 0; i < 32; i++) {
		for (j = 0; j < 32; j++) {
			fgmem->cropped_chroma_grain_block[i * 64 + 2 * j] =
				(*cb_grain_block)[i + 6][j + 6];
			fgmem->cropped_chroma_grain_block[i * 64 + 2 * j + 1] =
				(*cr_grain_block)[i + 6][j + 6];
		}
	}

	hantro_write_addr(vpu, AV1_FILM_GRAIN, av1_dec->film_grain.dma);

alloc_fail:
	kfree(ar_coeffs_y);
	kfree(ar_coeffs_cb);
	kfree(ar_coeffs_cr);
	kfree(luma_grain_block);
	kfree(cb_grain_block);
	kfree(cr_grain_block);
}

static void rockchip_vpu981_av1_dec_set_cdef(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_cdef *cdef = &frame->cdef;
	struct hantro_dev *vpu = ctx->dev;
	u32 luma_pri_strength = 0;
	u16 luma_sec_strength = 0;
	u32 chroma_pri_strength = 0;
	u16 chroma_sec_strength = 0;
	int i;

	hantro_reg_write(vpu, &av1_cdef_bits, cdef->bits);
	hantro_reg_write(vpu, &av1_cdef_damping, cdef->damping_minus_3);

	for (i = 0; i < BIT(cdef->bits); i++) {
		luma_pri_strength |= cdef->y_pri_strength[i] << (i * 4);
		if (cdef->y_sec_strength[i] == 4)
			luma_sec_strength |= 3 << (i * 2);
		else
			luma_sec_strength |= cdef->y_sec_strength[i] << (i * 2);

		chroma_pri_strength |= cdef->uv_pri_strength[i] << (i * 4);
		if (cdef->uv_sec_strength[i] == 4)
			chroma_sec_strength |= 3 << (i * 2);
		else
			chroma_sec_strength |= cdef->uv_sec_strength[i] << (i * 2);
	}

	hantro_reg_write(vpu, &av1_cdef_luma_primary_strength,
			 luma_pri_strength);
	hantro_reg_write(vpu, &av1_cdef_luma_secondary_strength,
			 luma_sec_strength);
	hantro_reg_write(vpu, &av1_cdef_chroma_primary_strength,
			 chroma_pri_strength);
	hantro_reg_write(vpu, &av1_cdef_chroma_secondary_strength,
			 chroma_sec_strength);

	hantro_write_addr(vpu, AV1_CDEF_COL, av1_dec->cdef_col.dma);
}

static void rockchip_vpu981_av1_dec_set_lr(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	const struct v4l2_av1_loop_restoration *loop_restoration =
	    &frame->loop_restoration;
	struct hantro_dev *vpu = ctx->dev;
	u16 lr_type = 0, lr_unit_size = 0;
	u8 restoration_unit_size[V4L2_AV1_NUM_PLANES_MAX] = { 3, 3, 3 };
	int i;

	if (loop_restoration->flags & V4L2_AV1_LOOP_RESTORATION_FLAG_USES_LR) {
		restoration_unit_size[0] = 1 + loop_restoration->lr_unit_shift;
		restoration_unit_size[1] =
		    1 + loop_restoration->lr_unit_shift - loop_restoration->lr_uv_shift;
		restoration_unit_size[2] =
		    1 + loop_restoration->lr_unit_shift - loop_restoration->lr_uv_shift;
	}

	for (i = 0; i < V4L2_AV1_NUM_PLANES_MAX; i++) {
		lr_type |=
		    loop_restoration->frame_restoration_type[i] << (i * 2);
		lr_unit_size |= restoration_unit_size[i] << (i * 2);
	}

	hantro_reg_write(vpu, &av1_lr_type, lr_type);
	hantro_reg_write(vpu, &av1_lr_unit_size, lr_unit_size);
	hantro_write_addr(vpu, AV1_LR_COL, av1_dec->lr_col.dma);
}

static void rockchip_vpu981_av1_dec_set_superres_params(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	struct hantro_dev *vpu = ctx->dev;
	u8 superres_scale_denominator = SCALE_NUMERATOR;
	int superres_luma_step = RS_SCALE_SUBPEL_BITS;
	int superres_chroma_step = RS_SCALE_SUBPEL_BITS;
	int superres_luma_step_invra = RS_SCALE_SUBPEL_BITS;
	int superres_chroma_step_invra = RS_SCALE_SUBPEL_BITS;
	int superres_init_luma_subpel_x = 0;
	int superres_init_chroma_subpel_x = 0;
	int superres_is_scaled = 0;
	int min_w = min_t(uint32_t, 16, frame->upscaled_width);
	int upscaled_luma, downscaled_luma;
	int downscaled_chroma, upscaled_chroma;
	int step_luma, step_chroma;
	int err_luma, err_chroma;
	int initial_luma, initial_chroma;
	int width = 0;

	if (frame->flags & V4L2_AV1_FRAME_FLAG_USE_SUPERRES)
		superres_scale_denominator = frame->superres_denom;

	if (superres_scale_denominator <= SCALE_NUMERATOR)
		goto set_regs;

	width = (frame->upscaled_width * SCALE_NUMERATOR +
		(superres_scale_denominator / 2)) / superres_scale_denominator;

	if (width < min_w)
		width = min_w;

	if (width == frame->upscaled_width)
		goto set_regs;

	superres_is_scaled = 1;
	upscaled_luma = frame->upscaled_width;
	downscaled_luma = width;
	downscaled_chroma = (downscaled_luma + 1) >> 1;
	upscaled_chroma = (upscaled_luma + 1) >> 1;
	step_luma =
		((downscaled_luma << RS_SCALE_SUBPEL_BITS) +
		 (upscaled_luma / 2)) / upscaled_luma;
	step_chroma =
		((downscaled_chroma << RS_SCALE_SUBPEL_BITS) +
		 (upscaled_chroma / 2)) / upscaled_chroma;
	err_luma =
		(upscaled_luma * step_luma)
		- (downscaled_luma << RS_SCALE_SUBPEL_BITS);
	err_chroma =
		(upscaled_chroma * step_chroma)
		- (downscaled_chroma << RS_SCALE_SUBPEL_BITS);
	initial_luma =
		((-((upscaled_luma - downscaled_luma) << (RS_SCALE_SUBPEL_BITS - 1))
		  + upscaled_luma / 2)
		 / upscaled_luma + (1 << (RS_SCALE_EXTRA_BITS - 1)) - err_luma / 2)
		& RS_SCALE_SUBPEL_MASK;
	initial_chroma =
		((-((upscaled_chroma - downscaled_chroma) << (RS_SCALE_SUBPEL_BITS - 1))
		  + upscaled_chroma / 2)
		 / upscaled_chroma + (1 << (RS_SCALE_EXTRA_BITS - 1)) - err_chroma / 2)
		& RS_SCALE_SUBPEL_MASK;
	superres_luma_step = step_luma;
	superres_chroma_step = step_chroma;
	superres_luma_step_invra =
		((upscaled_luma << RS_SCALE_SUBPEL_BITS) + (downscaled_luma / 2))
		/ downscaled_luma;
	superres_chroma_step_invra =
		((upscaled_chroma << RS_SCALE_SUBPEL_BITS) + (downscaled_chroma / 2))
		/ downscaled_chroma;
	superres_init_luma_subpel_x = initial_luma;
	superres_init_chroma_subpel_x = initial_chroma;

set_regs:
	hantro_reg_write(vpu, &av1_superres_pic_width, frame->upscaled_width);

	if (frame->flags & V4L2_AV1_FRAME_FLAG_USE_SUPERRES)
		hantro_reg_write(vpu, &av1_scale_denom_minus9,
				 frame->superres_denom - SUPERRES_SCALE_DENOMINATOR_MIN);
	else
		hantro_reg_write(vpu, &av1_scale_denom_minus9, frame->superres_denom);

	hantro_reg_write(vpu, &av1_superres_luma_step, superres_luma_step);
	hantro_reg_write(vpu, &av1_superres_chroma_step, superres_chroma_step);
	hantro_reg_write(vpu, &av1_superres_luma_step_invra,
			 superres_luma_step_invra);
	hantro_reg_write(vpu, &av1_superres_chroma_step_invra,
			 superres_chroma_step_invra);
	hantro_reg_write(vpu, &av1_superres_init_luma_subpel_x,
			 superres_init_luma_subpel_x);
	hantro_reg_write(vpu, &av1_superres_init_chroma_subpel_x,
			 superres_init_chroma_subpel_x);
	hantro_reg_write(vpu, &av1_superres_is_scaled, superres_is_scaled);

	hantro_write_addr(vpu, AV1_SR_COL, av1_dec->sr_col.dma);
}

static void rockchip_vpu981_av1_dec_set_picture_dimensions(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	struct hantro_dev *vpu = ctx->dev;
	int pic_width_in_cbs = DIV_ROUND_UP(frame->frame_width_minus_1 + 1, 8);
	int pic_height_in_cbs = DIV_ROUND_UP(frame->frame_height_minus_1 + 1, 8);
	int pic_width_pad = ALIGN(frame->frame_width_minus_1 + 1, 8)
			    - (frame->frame_width_minus_1 + 1);
	int pic_height_pad = ALIGN(frame->frame_height_minus_1 + 1, 8)
			     - (frame->frame_height_minus_1 + 1);

	hantro_reg_write(vpu, &av1_pic_width_in_cbs, pic_width_in_cbs);
	hantro_reg_write(vpu, &av1_pic_height_in_cbs, pic_height_in_cbs);
	hantro_reg_write(vpu, &av1_pic_width_pad, pic_width_pad);
	hantro_reg_write(vpu, &av1_pic_height_pad, pic_height_pad);

	rockchip_vpu981_av1_dec_set_superres_params(ctx);
}

static void rockchip_vpu981_av1_dec_set_other_frames(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	struct hantro_dev *vpu = ctx->dev;
	bool use_ref_frame_mvs =
	    !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_USE_REF_FRAME_MVS);
	int cur_frame_offset = frame->order_hint;
	int alt_frame_offset = 0;
	int gld_frame_offset = 0;
	int bwd_frame_offset = 0;
	int alt2_frame_offset = 0;
	int refs_selected[3] = { 0, 0, 0 };
	int cur_mi_cols = DIV_ROUND_UP(frame->frame_width_minus_1 + 1, 8);
	int cur_mi_rows = DIV_ROUND_UP(frame->frame_height_minus_1 + 1, 8);
	int cur_offset[V4L2_AV1_TOTAL_REFS_PER_FRAME - 1];
	int cur_roffset[V4L2_AV1_TOTAL_REFS_PER_FRAME - 1];
	int mf_types[3] = { 0, 0, 0 };
	int ref_stamp = 2;
	int ref_ind = 0;
	int rf, idx;

	alt_frame_offset = rockchip_vpu981_get_order_hint(ctx, ALT_BUF_IDX);
	gld_frame_offset = rockchip_vpu981_get_order_hint(ctx, GLD_BUF_IDX);
	bwd_frame_offset = rockchip_vpu981_get_order_hint(ctx, BWD_BUF_IDX);
	alt2_frame_offset = rockchip_vpu981_get_order_hint(ctx, ALT2_BUF_IDX);

	idx = rockchip_vpu981_get_frame_index(ctx, LST_BUF_IDX);
	if (idx >= 0) {
		int alt_frame_offset_in_lst =
			av1_dec->frame_refs[idx].order_hints[V4L2_AV1_REF_ALTREF_FRAME];
		bool is_lst_overlay =
		    (alt_frame_offset_in_lst == gld_frame_offset);

		if (!is_lst_overlay) {
			int lst_mi_cols = av1_dec->frame_refs[idx].mi_cols;
			int lst_mi_rows = av1_dec->frame_refs[idx].mi_rows;
			bool lst_intra_only =
			    IS_INTRA(av1_dec->frame_refs[idx].frame_type);

			if (lst_mi_cols == cur_mi_cols &&
			    lst_mi_rows == cur_mi_rows && !lst_intra_only) {
				mf_types[ref_ind] = V4L2_AV1_REF_LAST_FRAME;
				refs_selected[ref_ind++] = LST_BUF_IDX;
			}
		}
		ref_stamp--;
	}

	idx = rockchip_vpu981_get_frame_index(ctx, BWD_BUF_IDX);
	if (rockchip_vpu981_av1_dec_get_dist(ctx, bwd_frame_offset, cur_frame_offset) > 0) {
		int bwd_mi_cols = av1_dec->frame_refs[idx].mi_cols;
		int bwd_mi_rows = av1_dec->frame_refs[idx].mi_rows;
		bool bwd_intra_only =
		    IS_INTRA(av1_dec->frame_refs[idx].frame_type);

		if (bwd_mi_cols == cur_mi_cols && bwd_mi_rows == cur_mi_rows &&
		    !bwd_intra_only) {
			mf_types[ref_ind] = V4L2_AV1_REF_BWDREF_FRAME;
			refs_selected[ref_ind++] = BWD_BUF_IDX;
			ref_stamp--;
		}
	}

	idx = rockchip_vpu981_get_frame_index(ctx, ALT2_BUF_IDX);
	if (rockchip_vpu981_av1_dec_get_dist(ctx, alt2_frame_offset, cur_frame_offset) > 0) {
		int alt2_mi_cols = av1_dec->frame_refs[idx].mi_cols;
		int alt2_mi_rows = av1_dec->frame_refs[idx].mi_rows;
		bool alt2_intra_only =
		    IS_INTRA(av1_dec->frame_refs[idx].frame_type);

		if (alt2_mi_cols == cur_mi_cols && alt2_mi_rows == cur_mi_rows &&
		    !alt2_intra_only) {
			mf_types[ref_ind] = V4L2_AV1_REF_ALTREF2_FRAME;
			refs_selected[ref_ind++] = ALT2_BUF_IDX;
			ref_stamp--;
		}
	}

	idx = rockchip_vpu981_get_frame_index(ctx, ALT_BUF_IDX);
	if (rockchip_vpu981_av1_dec_get_dist(ctx, alt_frame_offset, cur_frame_offset) > 0 &&
	    ref_stamp >= 0) {
		int alt_mi_cols = av1_dec->frame_refs[idx].mi_cols;
		int alt_mi_rows = av1_dec->frame_refs[idx].mi_rows;
		bool alt_intra_only =
		    IS_INTRA(av1_dec->frame_refs[idx].frame_type);

		if (alt_mi_cols == cur_mi_cols && alt_mi_rows == cur_mi_rows &&
		    !alt_intra_only) {
			mf_types[ref_ind] = V4L2_AV1_REF_ALTREF_FRAME;
			refs_selected[ref_ind++] = ALT_BUF_IDX;
			ref_stamp--;
		}
	}

	idx = rockchip_vpu981_get_frame_index(ctx, LST2_BUF_IDX);
	if (idx >= 0 && ref_stamp >= 0) {
		int lst2_mi_cols = av1_dec->frame_refs[idx].mi_cols;
		int lst2_mi_rows = av1_dec->frame_refs[idx].mi_rows;
		bool lst2_intra_only =
		    IS_INTRA(av1_dec->frame_refs[idx].frame_type);

		if (lst2_mi_cols == cur_mi_cols && lst2_mi_rows == cur_mi_rows &&
		    !lst2_intra_only) {
			mf_types[ref_ind] = V4L2_AV1_REF_LAST2_FRAME;
			refs_selected[ref_ind++] = LST2_BUF_IDX;
			ref_stamp--;
		}
	}

	for (rf = 0; rf < V4L2_AV1_TOTAL_REFS_PER_FRAME - 1; ++rf) {
		idx = rockchip_vpu981_get_frame_index(ctx, rf);
		if (idx >= 0) {
			int rf_order_hint = rockchip_vpu981_get_order_hint(ctx, rf);

			cur_offset[rf] =
			    rockchip_vpu981_av1_dec_get_dist(ctx, cur_frame_offset, rf_order_hint);
			cur_roffset[rf] =
			    rockchip_vpu981_av1_dec_get_dist(ctx, rf_order_hint, cur_frame_offset);
		} else {
			cur_offset[rf] = 0;
			cur_roffset[rf] = 0;
		}
	}

	hantro_reg_write(vpu, &av1_use_temporal0_mvs, 0);
	hantro_reg_write(vpu, &av1_use_temporal1_mvs, 0);
	hantro_reg_write(vpu, &av1_use_temporal2_mvs, 0);
	hantro_reg_write(vpu, &av1_use_temporal3_mvs, 0);

	hantro_reg_write(vpu, &av1_mf1_last_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_last2_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_last3_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_golden_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_bwdref_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_altref2_offset, 0);
	hantro_reg_write(vpu, &av1_mf1_altref_offset, 0);

	if (use_ref_frame_mvs && ref_ind > 0 &&
	    cur_offset[mf_types[0] - V4L2_AV1_REF_LAST_FRAME] <= MAX_FRAME_DISTANCE &&
	    cur_offset[mf_types[0] - V4L2_AV1_REF_LAST_FRAME] >= -MAX_FRAME_DISTANCE) {
		int rf = rockchip_vpu981_get_order_hint(ctx, refs_selected[0]);
		int idx = rockchip_vpu981_get_frame_index(ctx, refs_selected[0]);
		u32 *oh = av1_dec->frame_refs[idx].order_hints;
		int val;

		hantro_reg_write(vpu, &av1_use_temporal0_mvs, 1);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_last_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST2_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_last2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST3_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_last3_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_GOLDEN_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_golden_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_BWDREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_bwdref_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF2_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_altref2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf1_altref_offset, val);
	}

	hantro_reg_write(vpu, &av1_mf2_last_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_last2_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_last3_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_golden_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_bwdref_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_altref2_offset, 0);
	hantro_reg_write(vpu, &av1_mf2_altref_offset, 0);

	if (use_ref_frame_mvs && ref_ind > 1 &&
	    cur_offset[mf_types[1] - V4L2_AV1_REF_LAST_FRAME] <= MAX_FRAME_DISTANCE &&
	    cur_offset[mf_types[1] - V4L2_AV1_REF_LAST_FRAME] >= -MAX_FRAME_DISTANCE) {
		int rf = rockchip_vpu981_get_order_hint(ctx, refs_selected[1]);
		int idx = rockchip_vpu981_get_frame_index(ctx, refs_selected[1]);
		u32 *oh = av1_dec->frame_refs[idx].order_hints;
		int val;

		hantro_reg_write(vpu, &av1_use_temporal1_mvs, 1);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_last_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST2_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_last2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST3_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_last3_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_GOLDEN_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_golden_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_BWDREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_bwdref_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF2_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_altref2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf2_altref_offset, val);
	}

	hantro_reg_write(vpu, &av1_mf3_last_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_last2_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_last3_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_golden_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_bwdref_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_altref2_offset, 0);
	hantro_reg_write(vpu, &av1_mf3_altref_offset, 0);

	if (use_ref_frame_mvs && ref_ind > 2 &&
	    cur_offset[mf_types[2] - V4L2_AV1_REF_LAST_FRAME] <= MAX_FRAME_DISTANCE &&
	    cur_offset[mf_types[2] - V4L2_AV1_REF_LAST_FRAME] >= -MAX_FRAME_DISTANCE) {
		int rf = rockchip_vpu981_get_order_hint(ctx, refs_selected[2]);
		int idx = rockchip_vpu981_get_frame_index(ctx, refs_selected[2]);
		u32 *oh = av1_dec->frame_refs[idx].order_hints;
		int val;

		hantro_reg_write(vpu, &av1_use_temporal2_mvs, 1);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_last_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST2_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_last2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_LAST3_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_last3_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_GOLDEN_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_golden_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_BWDREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_bwdref_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF2_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_altref2_offset, val);

		val = rockchip_vpu981_av1_dec_get_dist(ctx, rf, oh[V4L2_AV1_REF_ALTREF_FRAME]);
		hantro_reg_write(vpu, &av1_mf3_altref_offset, val);
	}

	hantro_reg_write(vpu, &av1_cur_last_offset, cur_offset[0]);
	hantro_reg_write(vpu, &av1_cur_last2_offset, cur_offset[1]);
	hantro_reg_write(vpu, &av1_cur_last3_offset, cur_offset[2]);
	hantro_reg_write(vpu, &av1_cur_golden_offset, cur_offset[3]);
	hantro_reg_write(vpu, &av1_cur_bwdref_offset, cur_offset[4]);
	hantro_reg_write(vpu, &av1_cur_altref2_offset, cur_offset[5]);
	hantro_reg_write(vpu, &av1_cur_altref_offset, cur_offset[6]);

	hantro_reg_write(vpu, &av1_cur_last_roffset, cur_roffset[0]);
	hantro_reg_write(vpu, &av1_cur_last2_roffset, cur_roffset[1]);
	hantro_reg_write(vpu, &av1_cur_last3_roffset, cur_roffset[2]);
	hantro_reg_write(vpu, &av1_cur_golden_roffset, cur_roffset[3]);
	hantro_reg_write(vpu, &av1_cur_bwdref_roffset, cur_roffset[4]);
	hantro_reg_write(vpu, &av1_cur_altref2_roffset, cur_roffset[5]);
	hantro_reg_write(vpu, &av1_cur_altref_roffset, cur_roffset[6]);

	hantro_reg_write(vpu, &av1_mf1_type, mf_types[0] - V4L2_AV1_REF_LAST_FRAME);
	hantro_reg_write(vpu, &av1_mf2_type, mf_types[1] - V4L2_AV1_REF_LAST_FRAME);
	hantro_reg_write(vpu, &av1_mf3_type, mf_types[2] - V4L2_AV1_REF_LAST_FRAME);
}

static void rockchip_vpu981_av1_dec_set_reference_frames(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_frame *frame = ctrls->frame;
	int frame_type = frame->frame_type;
	bool allow_intrabc = !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_INTRABC);
	int ref_count[AV1DEC_MAX_PIC_BUFFERS] = { 0 };
	struct hantro_dev *vpu = ctx->dev;
	int i, ref_frames = 0;
	bool scale_enable = false;

	if (IS_INTRA(frame_type) && !allow_intrabc)
		return;

	if (!allow_intrabc) {
		for (i = 0; i < V4L2_AV1_REFS_PER_FRAME; i++) {
			int idx = rockchip_vpu981_get_frame_index(ctx, i);

			if (idx >= 0)
				ref_count[idx]++;
		}

		for (i = 0; i < AV1DEC_MAX_PIC_BUFFERS; i++) {
			if (ref_count[i])
				ref_frames++;
		}
	} else {
		ref_frames = 1;
	}
	hantro_reg_write(vpu, &av1_ref_frames, ref_frames);

	rockchip_vpu981_av1_dec_set_frame_sign_bias(ctx);

	for (i = V4L2_AV1_REF_LAST_FRAME; i < V4L2_AV1_TOTAL_REFS_PER_FRAME; i++) {
		u32 ref = i - 1;
		int idx = 0;
		int width, height;

		if (allow_intrabc) {
			idx = av1_dec->current_frame_index;
			width = frame->frame_width_minus_1 + 1;
			height = frame->frame_height_minus_1 + 1;
		} else {
			if (rockchip_vpu981_get_frame_index(ctx, ref) > 0)
				idx = rockchip_vpu981_get_frame_index(ctx, ref);
			width = av1_dec->frame_refs[idx].width;
			height = av1_dec->frame_refs[idx].height;
		}

		scale_enable |=
		    rockchip_vpu981_av1_dec_set_ref(ctx, ref, idx, width,
						    height);

		rockchip_vpu981_av1_dec_set_sign_bias(ctx, ref,
						      av1_dec->ref_frame_sign_bias[i]);
	}
	hantro_reg_write(vpu, &av1_ref_scaling_enable, scale_enable);

	hantro_reg_write(vpu, &av1_ref0_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_LAST_FRAME]);
	hantro_reg_write(vpu, &av1_ref1_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_LAST2_FRAME]);
	hantro_reg_write(vpu, &av1_ref2_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_LAST3_FRAME]);
	hantro_reg_write(vpu, &av1_ref3_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_GOLDEN_FRAME]);
	hantro_reg_write(vpu, &av1_ref4_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_BWDREF_FRAME]);
	hantro_reg_write(vpu, &av1_ref5_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_ALTREF2_FRAME]);
	hantro_reg_write(vpu, &av1_ref6_gm_mode,
			 frame->global_motion.type[V4L2_AV1_REF_ALTREF_FRAME]);

	rockchip_vpu981_av1_dec_set_other_frames(ctx);
}

static void rockchip_vpu981_av1_dec_set_parameters(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;

	hantro_reg_write(vpu, &av1_skip_mode,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_SKIP_MODE_PRESENT));
	hantro_reg_write(vpu, &av1_tempor_mvp_e,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_USE_REF_FRAME_MVS));
	hantro_reg_write(vpu, &av1_delta_lf_res_log,
			 ctrls->frame->loop_filter.delta_lf_res);
	hantro_reg_write(vpu, &av1_delta_lf_multi,
			 !!(ctrls->frame->loop_filter.flags
			    & V4L2_AV1_LOOP_FILTER_FLAG_DELTA_LF_MULTI));
	hantro_reg_write(vpu, &av1_delta_lf_present,
			 !!(ctrls->frame->loop_filter.flags
			    & V4L2_AV1_LOOP_FILTER_FLAG_DELTA_LF_PRESENT));
	hantro_reg_write(vpu, &av1_disable_cdf_update,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_DISABLE_CDF_UPDATE));
	hantro_reg_write(vpu, &av1_allow_warp,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_WARPED_MOTION));
	hantro_reg_write(vpu, &av1_show_frame,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_SHOW_FRAME));
	hantro_reg_write(vpu, &av1_switchable_motion_mode,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_IS_MOTION_MODE_SWITCHABLE));
	hantro_reg_write(vpu, &av1_enable_cdef,
			 !!(ctrls->sequence->flags & V4L2_AV1_SEQUENCE_FLAG_ENABLE_CDEF));
	hantro_reg_write(vpu, &av1_allow_masked_compound,
			 !!(ctrls->sequence->flags
			    & V4L2_AV1_SEQUENCE_FLAG_ENABLE_MASKED_COMPOUND));
	hantro_reg_write(vpu, &av1_allow_interintra,
			 !!(ctrls->sequence->flags
			    & V4L2_AV1_SEQUENCE_FLAG_ENABLE_INTERINTRA_COMPOUND));
	hantro_reg_write(vpu, &av1_enable_intra_edge_filter,
			 !!(ctrls->sequence->flags
			    & V4L2_AV1_SEQUENCE_FLAG_ENABLE_INTRA_EDGE_FILTER));
	hantro_reg_write(vpu, &av1_allow_filter_intra,
			 !!(ctrls->sequence->flags & V4L2_AV1_SEQUENCE_FLAG_ENABLE_FILTER_INTRA));
	hantro_reg_write(vpu, &av1_enable_jnt_comp,
			 !!(ctrls->sequence->flags & V4L2_AV1_SEQUENCE_FLAG_ENABLE_JNT_COMP));
	hantro_reg_write(vpu, &av1_enable_dual_filter,
			 !!(ctrls->sequence->flags & V4L2_AV1_SEQUENCE_FLAG_ENABLE_DUAL_FILTER));
	hantro_reg_write(vpu, &av1_reduced_tx_set_used,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_REDUCED_TX_SET));
	hantro_reg_write(vpu, &av1_allow_screen_content_tools,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_SCREEN_CONTENT_TOOLS));
	hantro_reg_write(vpu, &av1_allow_intrabc,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_INTRABC));

	if (!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_SCREEN_CONTENT_TOOLS))
		hantro_reg_write(vpu, &av1_force_interger_mv, 0);
	else
		hantro_reg_write(vpu, &av1_force_interger_mv,
				 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_FORCE_INTEGER_MV));

	hantro_reg_write(vpu, &av1_blackwhite_e, 0);
	hantro_reg_write(vpu, &av1_delta_q_res_log, ctrls->frame->quantization.delta_q_res);
	hantro_reg_write(vpu, &av1_delta_q_present,
			 !!(ctrls->frame->quantization.flags
			    & V4L2_AV1_QUANTIZATION_FLAG_DELTA_Q_PRESENT));

	hantro_reg_write(vpu, &av1_idr_pic_e, !ctrls->frame->frame_type);
	hantro_reg_write(vpu, &av1_quant_base_qindex, ctrls->frame->quantization.base_q_idx);
	hantro_reg_write(vpu, &av1_bit_depth_y_minus8, ctx->bit_depth - 8);
	hantro_reg_write(vpu, &av1_bit_depth_c_minus8, ctx->bit_depth - 8);

	hantro_reg_write(vpu, &av1_mcomp_filt_type, ctrls->frame->interpolation_filter);
	hantro_reg_write(vpu, &av1_high_prec_mv_e,
			 !!(ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_ALLOW_HIGH_PRECISION_MV));
	hantro_reg_write(vpu, &av1_comp_pred_mode,
			 (ctrls->frame->flags & V4L2_AV1_FRAME_FLAG_REFERENCE_SELECT) ? 2 : 0);
	hantro_reg_write(vpu, &av1_transform_mode, (ctrls->frame->tx_mode == 1) ? 3 : 4);
	hantro_reg_write(vpu, &av1_max_cb_size,
			 (ctrls->sequence->flags
			  & V4L2_AV1_SEQUENCE_FLAG_USE_128X128_SUPERBLOCK) ? 7 : 6);
	hantro_reg_write(vpu, &av1_min_cb_size, 3);

	hantro_reg_write(vpu, &av1_comp_pred_fixed_ref, 0);
	hantro_reg_write(vpu, &av1_comp_pred_var_ref0_av1, 0);
	hantro_reg_write(vpu, &av1_comp_pred_var_ref1_av1, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg0, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg1, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg2, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg3, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg4, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg5, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg6, 0);
	hantro_reg_write(vpu, &av1_filt_level_seg7, 0);

	hantro_reg_write(vpu, &av1_qp_delta_y_dc_av1, ctrls->frame->quantization.delta_q_y_dc);
	hantro_reg_write(vpu, &av1_qp_delta_ch_dc_av1, ctrls->frame->quantization.delta_q_u_dc);
	hantro_reg_write(vpu, &av1_qp_delta_ch_ac_av1, ctrls->frame->quantization.delta_q_u_ac);
	if (ctrls->frame->quantization.flags & V4L2_AV1_QUANTIZATION_FLAG_USING_QMATRIX) {
		hantro_reg_write(vpu, &av1_qmlevel_y, ctrls->frame->quantization.qm_y);
		hantro_reg_write(vpu, &av1_qmlevel_u, ctrls->frame->quantization.qm_u);
		hantro_reg_write(vpu, &av1_qmlevel_v, ctrls->frame->quantization.qm_v);
	} else {
		hantro_reg_write(vpu, &av1_qmlevel_y, 0xff);
		hantro_reg_write(vpu, &av1_qmlevel_u, 0xff);
		hantro_reg_write(vpu, &av1_qmlevel_v, 0xff);
	}

	hantro_reg_write(vpu, &av1_lossless_e, rockchip_vpu981_av1_dec_is_lossless(ctx));
	hantro_reg_write(vpu, &av1_quant_delta_v_dc, ctrls->frame->quantization.delta_q_v_dc);
	hantro_reg_write(vpu, &av1_quant_delta_v_ac, ctrls->frame->quantization.delta_q_v_ac);

	hantro_reg_write(vpu, &av1_skip_ref0,
			 (ctrls->frame->skip_mode_frame[0]) ? ctrls->frame->skip_mode_frame[0] : 1);
	hantro_reg_write(vpu, &av1_skip_ref1,
			 (ctrls->frame->skip_mode_frame[1]) ? ctrls->frame->skip_mode_frame[1] : 1);

	hantro_write_addr(vpu, AV1_MC_SYNC_CURR, av1_dec->tile_buf.dma);
	hantro_write_addr(vpu, AV1_MC_SYNC_LEFT, av1_dec->tile_buf.dma);
}

static void
rockchip_vpu981_av1_dec_set_input_buffer(struct hantro_ctx *ctx,
					 struct vb2_v4l2_buffer *vb2_src)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_av1_dec_ctrls *ctrls = &av1_dec->ctrls;
	const struct v4l2_ctrl_av1_tile_group_entry *group_entry =
	    ctrls->tile_group_entry;
	struct hantro_dev *vpu = ctx->dev;
	dma_addr_t src_dma;
	u32 src_len, src_buf_len;
	int start_bit, offset;

	src_dma = vb2_dma_contig_plane_dma_addr(&vb2_src->vb2_buf, 0);
	src_len = vb2_get_plane_payload(&vb2_src->vb2_buf, 0);
	src_buf_len = vb2_plane_size(&vb2_src->vb2_buf, 0);

	start_bit = (group_entry[0].tile_offset & 0xf) * 8;
	offset = group_entry[0].tile_offset & ~0xf;

	hantro_reg_write(vpu, &av1_strm_buffer_len, src_buf_len);
	hantro_reg_write(vpu, &av1_strm_start_bit, start_bit);
	hantro_reg_write(vpu, &av1_stream_len, src_len);
	hantro_reg_write(vpu, &av1_strm_start_offset, 0);
	hantro_write_addr(vpu, AV1_INPUT_STREAM, src_dma + offset);
}

static void
rockchip_vpu981_av1_dec_set_output_buffer(struct hantro_ctx *ctx)
{
	struct hantro_av1_dec_hw_ctx *av1_dec = &ctx->av1_dec;
	struct hantro_dev *vpu = ctx->dev;
	struct hantro_decoded_buffer *dst;
	struct vb2_v4l2_buffer *vb2_dst;
	dma_addr_t luma_addr, chroma_addr, mv_addr = 0;
	size_t cr_offset = rockchip_vpu981_av1_dec_luma_size(ctx);
	size_t mv_offset = rockchip_vpu981_av1_dec_chroma_size(ctx);

	vb2_dst = av1_dec->frame_refs[av1_dec->current_frame_index].vb2_ref;
	dst = vb2_to_hantro_decoded_buf(&vb2_dst->vb2_buf);
	luma_addr = hantro_get_dec_buf_addr(ctx, &dst->base.vb.vb2_buf);
	chroma_addr = luma_addr + cr_offset;
	mv_addr = luma_addr + mv_offset;

	hantro_write_addr(vpu, AV1_TILE_OUT_LU, luma_addr);
	hantro_write_addr(vpu, AV1_TILE_OUT_CH, chroma_addr);
	hantro_write_addr(vpu, AV1_TILE_OUT_MV, mv_addr);
}

int rockchip_vpu981_av1_dec_run(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	struct vb2_v4l2_buffer *vb2_src;
	int ret;

	hantro_start_prepare_run(ctx);

	ret = rockchip_vpu981_av1_dec_prepare_run(ctx);
	if (ret)
		goto prepare_error;

	vb2_src = hantro_get_src_buf(ctx);
	if (!vb2_src) {
		ret = -EINVAL;
		goto prepare_error;
	}

	rockchip_vpu981_av1_dec_clean_refs(ctx);
	rockchip_vpu981_av1_dec_frame_ref(ctx, vb2_src->vb2_buf.timestamp);

	rockchip_vpu981_av1_dec_set_parameters(ctx);
	rockchip_vpu981_av1_dec_set_global_model(ctx);
	rockchip_vpu981_av1_dec_set_tile_info(ctx);
	rockchip_vpu981_av1_dec_set_reference_frames(ctx);
	rockchip_vpu981_av1_dec_set_segmentation(ctx);
	rockchip_vpu981_av1_dec_set_loopfilter(ctx);
	rockchip_vpu981_av1_dec_set_picture_dimensions(ctx);
	rockchip_vpu981_av1_dec_set_cdef(ctx);
	rockchip_vpu981_av1_dec_set_lr(ctx);
	rockchip_vpu981_av1_dec_set_fgs(ctx);
	rockchip_vpu981_av1_dec_set_prob(ctx);

	hantro_reg_write(vpu, &av1_dec_mode, AV1_DEC_MODE);
	hantro_reg_write(vpu, &av1_dec_out_ec_byte_word, 0);
	hantro_reg_write(vpu, &av1_write_mvs_e, 1);
	hantro_reg_write(vpu, &av1_dec_out_ec_bypass, 1);
	hantro_reg_write(vpu, &av1_dec_clk_gate_e, 1);

	hantro_reg_write(vpu, &av1_dec_abort_e, 0);
	hantro_reg_write(vpu, &av1_dec_tile_int_e, 0);

	hantro_reg_write(vpu, &av1_dec_alignment, 64);
	hantro_reg_write(vpu, &av1_apf_disable, 0);
	hantro_reg_write(vpu, &av1_apf_threshold, 8);
	hantro_reg_write(vpu, &av1_dec_buswidth, 2);
	hantro_reg_write(vpu, &av1_dec_max_burst, 16);
	hantro_reg_write(vpu, &av1_error_conceal_e, 0);
	hantro_reg_write(vpu, &av1_axi_rd_ostd_threshold, 64);
	hantro_reg_write(vpu, &av1_axi_wr_ostd_threshold, 64);

	hantro_reg_write(vpu, &av1_ext_timeout_cycles, 0xfffffff);
	hantro_reg_write(vpu, &av1_ext_timeout_override_e, 1);
	hantro_reg_write(vpu, &av1_timeout_cycles, 0xfffffff);
	hantro_reg_write(vpu, &av1_timeout_override_e, 1);

	rockchip_vpu981_av1_dec_set_output_buffer(ctx);
	rockchip_vpu981_av1_dec_set_input_buffer(ctx, vb2_src);

	hantro_end_prepare_run(ctx);

	hantro_reg_write(vpu, &av1_dec_e, 1);

	return 0;

prepare_error:
	hantro_end_prepare_run(ctx);
	hantro_irq_done(vpu, VB2_BUF_STATE_ERROR);
	return ret;
}

static void rockchip_vpu981_postproc_enable(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;
	int width = ctx->dst_fmt.width;
	int height = ctx->dst_fmt.height;
	struct vb2_v4l2_buffer *vb2_dst;
	size_t chroma_offset;
	dma_addr_t dst_dma;

	vb2_dst = hantro_get_dst_buf(ctx);

	dst_dma = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0);
	chroma_offset = ctx->dst_fmt.plane_fmt[0].bytesperline *
	    ctx->dst_fmt.height;

	/* enable post processor */
	hantro_reg_write(vpu, &av1_pp_out_e, 1);
	hantro_reg_write(vpu, &av1_pp_in_format, 0);
	hantro_reg_write(vpu, &av1_pp0_dup_hor, 1);
	hantro_reg_write(vpu, &av1_pp0_dup_ver, 1);

	hantro_reg_write(vpu, &av1_pp_in_height, height / 2);
	hantro_reg_write(vpu, &av1_pp_in_width, width / 2);
	hantro_reg_write(vpu, &av1_pp_out_height, height);
	hantro_reg_write(vpu, &av1_pp_out_width, width);
	hantro_reg_write(vpu, &av1_pp_out_y_stride,
			 ctx->dst_fmt.plane_fmt[0].bytesperline);
	hantro_reg_write(vpu, &av1_pp_out_c_stride,
			 ctx->dst_fmt.plane_fmt[0].bytesperline);
	switch (ctx->dst_fmt.pixelformat) {
	case V4L2_PIX_FMT_P010:
		hantro_reg_write(vpu, &av1_pp_out_format, 1);
		break;
	case V4L2_PIX_FMT_NV12:
		hantro_reg_write(vpu, &av1_pp_out_format, 3);
		break;
	default:
		hantro_reg_write(vpu, &av1_pp_out_format, 0);
	}

	hantro_reg_write(vpu, &av1_ppd_blend_exist, 0);
	hantro_reg_write(vpu, &av1_ppd_dith_exist, 0);
	hantro_reg_write(vpu, &av1_ablend_crop_e, 0);
	hantro_reg_write(vpu, &av1_pp_format_customer1_e, 0);
	hantro_reg_write(vpu, &av1_pp_crop_exist, 0);
	hantro_reg_write(vpu, &av1_pp_up_level, 0);
	hantro_reg_write(vpu, &av1_pp_down_level, 0);
	hantro_reg_write(vpu, &av1_pp_exist, 0);

	hantro_write_addr(vpu, AV1_PP_OUT_LU, dst_dma);
	hantro_write_addr(vpu, AV1_PP_OUT_CH, dst_dma + chroma_offset);
}

static void rockchip_vpu981_postproc_disable(struct hantro_ctx *ctx)
{
	struct hantro_dev *vpu = ctx->dev;

	/* disable post processor */
	hantro_reg_write(vpu, &av1_pp_out_e, 0);
}

const struct hantro_postproc_ops rockchip_vpu981_postproc_ops = {
	.enable = rockchip_vpu981_postproc_enable,
	.disable = rockchip_vpu981_postproc_disable,
};