xref: /linux/drivers/media/platform/verisilicon/hantro_g1_vp8_dec.c (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * Hantro VP8 codec driver
4  *
5  * Copyright (C) 2019 Rockchip Electronics Co., Ltd.
6  *	ZhiChao Yu <zhichao.yu@rock-chips.com>
7  *
8  * Copyright (C) 2019 Google, Inc.
9  *	Tomasz Figa <tfiga@chromium.org>
10  */
11 
12 #include <media/v4l2-mem2mem.h>
13 
14 #include "hantro_hw.h"
15 #include "hantro.h"
16 #include "hantro_g1_regs.h"
17 
18 /* DCT partition base address regs */
19 static const struct hantro_reg vp8_dec_dct_base[8] = {
20 	{ G1_REG_ADDR_STR, 0, 0xffffffff },
21 	{ G1_REG_ADDR_REF(8), 0, 0xffffffff },
22 	{ G1_REG_ADDR_REF(9), 0, 0xffffffff },
23 	{ G1_REG_ADDR_REF(10), 0, 0xffffffff },
24 	{ G1_REG_ADDR_REF(11), 0, 0xffffffff },
25 	{ G1_REG_ADDR_REF(12), 0, 0xffffffff },
26 	{ G1_REG_ADDR_REF(14), 0, 0xffffffff },
27 	{ G1_REG_ADDR_REF(15), 0, 0xffffffff },
28 };
29 
30 /* Loop filter level regs */
31 static const struct hantro_reg vp8_dec_lf_level[4] = {
32 	{ G1_REG_REF_PIC(2), 18, 0x3f },
33 	{ G1_REG_REF_PIC(2), 12, 0x3f },
34 	{ G1_REG_REF_PIC(2), 6, 0x3f },
35 	{ G1_REG_REF_PIC(2), 0, 0x3f },
36 };
37 
38 /* Macroblock loop filter level adjustment regs */
39 static const struct hantro_reg vp8_dec_mb_adj[4] = {
40 	{ G1_REG_REF_PIC(0), 21, 0x7f },
41 	{ G1_REG_REF_PIC(0), 14, 0x7f },
42 	{ G1_REG_REF_PIC(0), 7, 0x7f },
43 	{ G1_REG_REF_PIC(0), 0, 0x7f },
44 };
45 
46 /* Reference frame adjustment regs */
47 static const struct hantro_reg vp8_dec_ref_adj[4] = {
48 	{ G1_REG_REF_PIC(1), 21, 0x7f },
49 	{ G1_REG_REF_PIC(1), 14, 0x7f },
50 	{ G1_REG_REF_PIC(1), 7, 0x7f },
51 	{ G1_REG_REF_PIC(1), 0, 0x7f },
52 };
53 
54 /* Quantizer */
55 static const struct hantro_reg vp8_dec_quant[4] = {
56 	{ G1_REG_REF_PIC(3), 11, 0x7ff },
57 	{ G1_REG_REF_PIC(3), 0, 0x7ff },
58 	{ G1_REG_BD_REF_PIC(4), 11, 0x7ff },
59 	{ G1_REG_BD_REF_PIC(4), 0, 0x7ff },
60 };
61 
62 /* Quantizer delta regs */
63 static const struct hantro_reg vp8_dec_quant_delta[5] = {
64 	{ G1_REG_REF_PIC(3), 27, 0x1f },
65 	{ G1_REG_REF_PIC(3), 22, 0x1f },
66 	{ G1_REG_BD_REF_PIC(4), 27, 0x1f },
67 	{ G1_REG_BD_REF_PIC(4), 22, 0x1f },
68 	{ G1_REG_BD_P_REF_PIC, 27, 0x1f },
69 };
70 
71 /* DCT partition start bits regs */
72 static const struct hantro_reg vp8_dec_dct_start_bits[8] = {
73 	{ G1_REG_DEC_CTRL2, 26, 0x3f }, { G1_REG_DEC_CTRL4, 26, 0x3f },
74 	{ G1_REG_DEC_CTRL4, 20, 0x3f }, { G1_REG_DEC_CTRL7, 24, 0x3f },
75 	{ G1_REG_DEC_CTRL7, 18, 0x3f }, { G1_REG_DEC_CTRL7, 12, 0x3f },
76 	{ G1_REG_DEC_CTRL7, 6, 0x3f },  { G1_REG_DEC_CTRL7, 0, 0x3f },
77 };
78 
79 /* Precision filter tap regs */
80 static const struct hantro_reg vp8_dec_pred_bc_tap[8][4] = {
81 	{
82 		{ G1_REG_PRED_FLT, 22, 0x3ff },
83 		{ G1_REG_PRED_FLT, 12, 0x3ff },
84 		{ G1_REG_PRED_FLT, 2, 0x3ff },
85 		{ G1_REG_REF_PIC(4), 22, 0x3ff },
86 	},
87 	{
88 		{ G1_REG_REF_PIC(4), 12, 0x3ff },
89 		{ G1_REG_REF_PIC(4), 2, 0x3ff },
90 		{ G1_REG_REF_PIC(5), 22, 0x3ff },
91 		{ G1_REG_REF_PIC(5), 12, 0x3ff },
92 	},
93 	{
94 		{ G1_REG_REF_PIC(5), 2, 0x3ff },
95 		{ G1_REG_REF_PIC(6), 22, 0x3ff },
96 		{ G1_REG_REF_PIC(6), 12, 0x3ff },
97 		{ G1_REG_REF_PIC(6), 2, 0x3ff },
98 	},
99 	{
100 		{ G1_REG_REF_PIC(7), 22, 0x3ff },
101 		{ G1_REG_REF_PIC(7), 12, 0x3ff },
102 		{ G1_REG_REF_PIC(7), 2, 0x3ff },
103 		{ G1_REG_LT_REF, 22, 0x3ff },
104 	},
105 	{
106 		{ G1_REG_LT_REF, 12, 0x3ff },
107 		{ G1_REG_LT_REF, 2, 0x3ff },
108 		{ G1_REG_VALID_REF, 22, 0x3ff },
109 		{ G1_REG_VALID_REF, 12, 0x3ff },
110 	},
111 	{
112 		{ G1_REG_VALID_REF, 2, 0x3ff },
113 		{ G1_REG_BD_REF_PIC(0), 22, 0x3ff },
114 		{ G1_REG_BD_REF_PIC(0), 12, 0x3ff },
115 		{ G1_REG_BD_REF_PIC(0), 2, 0x3ff },
116 	},
117 	{
118 		{ G1_REG_BD_REF_PIC(1), 22, 0x3ff },
119 		{ G1_REG_BD_REF_PIC(1), 12, 0x3ff },
120 		{ G1_REG_BD_REF_PIC(1), 2, 0x3ff },
121 		{ G1_REG_BD_REF_PIC(2), 22, 0x3ff },
122 	},
123 	{
124 		{ G1_REG_BD_REF_PIC(2), 12, 0x3ff },
125 		{ G1_REG_BD_REF_PIC(2), 2, 0x3ff },
126 		{ G1_REG_BD_REF_PIC(3), 22, 0x3ff },
127 		{ G1_REG_BD_REF_PIC(3), 12, 0x3ff },
128 	},
129 };
130 
131 /*
132  * Set loop filters
133  */
134 static void cfg_lf(struct hantro_ctx *ctx,
135 		   const struct v4l2_ctrl_vp8_frame *hdr)
136 {
137 	const struct v4l2_vp8_segment *seg = &hdr->segment;
138 	const struct v4l2_vp8_loop_filter *lf = &hdr->lf;
139 	struct hantro_dev *vpu = ctx->dev;
140 	unsigned int i;
141 	u32 reg;
142 
143 	if (!(seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED)) {
144 		hantro_reg_write(vpu, &vp8_dec_lf_level[0], lf->level);
145 	} else if (seg->flags & V4L2_VP8_SEGMENT_FLAG_DELTA_VALUE_MODE) {
146 		for (i = 0; i < 4; i++) {
147 			u32 lf_level = clamp(lf->level + seg->lf_update[i],
148 					     0, 63);
149 
150 			hantro_reg_write(vpu, &vp8_dec_lf_level[i], lf_level);
151 		}
152 	} else {
153 		for (i = 0; i < 4; i++)
154 			hantro_reg_write(vpu, &vp8_dec_lf_level[i],
155 					 seg->lf_update[i]);
156 	}
157 
158 	reg = G1_REG_REF_PIC_FILT_SHARPNESS(lf->sharpness_level);
159 	if (lf->flags & V4L2_VP8_LF_FILTER_TYPE_SIMPLE)
160 		reg |= G1_REG_REF_PIC_FILT_TYPE_E;
161 	vdpu_write_relaxed(vpu, reg, G1_REG_REF_PIC(0));
162 
163 	if (lf->flags & V4L2_VP8_LF_ADJ_ENABLE) {
164 		for (i = 0; i < 4; i++) {
165 			hantro_reg_write(vpu, &vp8_dec_mb_adj[i],
166 					 lf->mb_mode_delta[i]);
167 			hantro_reg_write(vpu, &vp8_dec_ref_adj[i],
168 					 lf->ref_frm_delta[i]);
169 		}
170 	}
171 }
172 
173 /*
174  * Set quantization parameters
175  */
176 static void cfg_qp(struct hantro_ctx *ctx,
177 		   const struct v4l2_ctrl_vp8_frame *hdr)
178 {
179 	const struct v4l2_vp8_quantization *q = &hdr->quant;
180 	const struct v4l2_vp8_segment *seg = &hdr->segment;
181 	struct hantro_dev *vpu = ctx->dev;
182 	unsigned int i;
183 
184 	if (!(seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED)) {
185 		hantro_reg_write(vpu, &vp8_dec_quant[0], q->y_ac_qi);
186 	} else if (seg->flags & V4L2_VP8_SEGMENT_FLAG_DELTA_VALUE_MODE) {
187 		for (i = 0; i < 4; i++) {
188 			u32 quant = clamp(q->y_ac_qi + seg->quant_update[i],
189 					  0, 127);
190 
191 			hantro_reg_write(vpu, &vp8_dec_quant[i], quant);
192 		}
193 	} else {
194 		for (i = 0; i < 4; i++)
195 			hantro_reg_write(vpu, &vp8_dec_quant[i],
196 					 seg->quant_update[i]);
197 	}
198 
199 	hantro_reg_write(vpu, &vp8_dec_quant_delta[0], q->y_dc_delta);
200 	hantro_reg_write(vpu, &vp8_dec_quant_delta[1], q->y2_dc_delta);
201 	hantro_reg_write(vpu, &vp8_dec_quant_delta[2], q->y2_ac_delta);
202 	hantro_reg_write(vpu, &vp8_dec_quant_delta[3], q->uv_dc_delta);
203 	hantro_reg_write(vpu, &vp8_dec_quant_delta[4], q->uv_ac_delta);
204 }
205 
206 /*
207  * set control partition and DCT partition regs
208  *
209  * VP8 frame stream data layout:
210  *
211  *	                     first_part_size          parttion_sizes[0]
212  *                              ^                     ^
213  * src_dma                      |                     |
214  * ^                   +--------+------+        +-----+-----+
215  * |                   | control part  |        |           |
216  * +--------+----------------+------------------+-----------+-----+-----------+
217  * | tag 3B | extra 7B | hdr | mb_data | DCT sz | DCT part0 | ... | DCT partn |
218  * +--------+-----------------------------------+-----------+-----+-----------+
219  *                           |         |        |                             |
220  *                           v         +----+---+                             v
221  *                           mb_start       |                       src_dma_end
222  *                                          v
223  *                                       DCT size part
224  *                                      (num_dct-1)*3B
225  * Note:
226  *   1. only key-frames have extra 7-bytes
227  *   2. all offsets are base on src_dma
228  *   3. number of DCT parts is 1, 2, 4 or 8
229  *   4. the addresses set to the VPU must be 64-bits aligned
230  */
231 static void cfg_parts(struct hantro_ctx *ctx,
232 		      const struct v4l2_ctrl_vp8_frame *hdr)
233 {
234 	struct hantro_dev *vpu = ctx->dev;
235 	struct vb2_v4l2_buffer *vb2_src;
236 	u32 first_part_offset = V4L2_VP8_FRAME_IS_KEY_FRAME(hdr) ? 10 : 3;
237 	u32 mb_size, mb_offset_bytes, mb_offset_bits, mb_start_bits;
238 	u32 dct_size_part_size, dct_part_offset;
239 	struct hantro_reg reg;
240 	dma_addr_t src_dma;
241 	u32 dct_part_total_len = 0;
242 	u32 count = 0;
243 	unsigned int i;
244 
245 	vb2_src = hantro_get_src_buf(ctx);
246 	src_dma = vb2_dma_contig_plane_dma_addr(&vb2_src->vb2_buf, 0);
247 
248 	/*
249 	 * Calculate control partition mb data info
250 	 * @first_part_header_bits:	bits offset of mb data from first
251 	 *				part start pos
252 	 * @mb_offset_bits:		bits offset of mb data from src_dma
253 	 *				base addr
254 	 * @mb_offset_byte:		bytes offset of mb data from src_dma
255 	 *				base addr
256 	 * @mb_start_bits:		bits offset of mb data from mb data
257 	 *				64bits alignment addr
258 	 */
259 	mb_offset_bits = first_part_offset * 8 +
260 			 hdr->first_part_header_bits + 8;
261 	mb_offset_bytes = mb_offset_bits / 8;
262 	mb_start_bits = mb_offset_bits -
263 			(mb_offset_bytes & (~DEC_8190_ALIGN_MASK)) * 8;
264 	mb_size = hdr->first_part_size -
265 		  (mb_offset_bytes - first_part_offset) +
266 		  (mb_offset_bytes & DEC_8190_ALIGN_MASK);
267 
268 	/* Macroblock data aligned base addr */
269 	vdpu_write_relaxed(vpu, (mb_offset_bytes & (~DEC_8190_ALIGN_MASK))
270 				+ src_dma, G1_REG_ADDR_REF(13));
271 
272 	/* Macroblock data start bits */
273 	reg.base = G1_REG_DEC_CTRL2;
274 	reg.mask = 0x3f;
275 	reg.shift = 18;
276 	hantro_reg_write(vpu, &reg, mb_start_bits);
277 
278 	/* Macroblock aligned data length */
279 	reg.base = G1_REG_DEC_CTRL6;
280 	reg.mask = 0x3fffff;
281 	reg.shift = 0;
282 	hantro_reg_write(vpu, &reg, mb_size + 1);
283 
284 	/*
285 	 * Calculate DCT partition info
286 	 * @dct_size_part_size: Containing sizes of DCT part, every DCT part
287 	 *			has 3 bytes to store its size, except the last
288 	 *			DCT part
289 	 * @dct_part_offset:	bytes offset of DCT parts from src_dma base addr
290 	 * @dct_part_total_len: total size of all DCT parts
291 	 */
292 	dct_size_part_size = (hdr->num_dct_parts - 1) * 3;
293 	dct_part_offset = first_part_offset + hdr->first_part_size;
294 	for (i = 0; i < hdr->num_dct_parts; i++)
295 		dct_part_total_len += hdr->dct_part_sizes[i];
296 	dct_part_total_len += dct_size_part_size;
297 	dct_part_total_len += (dct_part_offset & DEC_8190_ALIGN_MASK);
298 
299 	/* Number of DCT partitions */
300 	reg.base = G1_REG_DEC_CTRL6;
301 	reg.mask = 0xf;
302 	reg.shift = 24;
303 	hantro_reg_write(vpu, &reg, hdr->num_dct_parts - 1);
304 
305 	/* DCT partition length */
306 	vdpu_write_relaxed(vpu,
307 			   G1_REG_DEC_CTRL3_STREAM_LEN(dct_part_total_len),
308 			   G1_REG_DEC_CTRL3);
309 
310 	/* DCT partitions base address */
311 	for (i = 0; i < hdr->num_dct_parts; i++) {
312 		u32 byte_offset = dct_part_offset + dct_size_part_size + count;
313 		u32 base_addr = byte_offset + src_dma;
314 
315 		hantro_reg_write(vpu, &vp8_dec_dct_base[i],
316 				 base_addr & (~DEC_8190_ALIGN_MASK));
317 
318 		hantro_reg_write(vpu, &vp8_dec_dct_start_bits[i],
319 				 (byte_offset & DEC_8190_ALIGN_MASK) * 8);
320 
321 		count += hdr->dct_part_sizes[i];
322 	}
323 }
324 
325 /*
326  * prediction filter taps
327  * normal 6-tap filters
328  */
329 static void cfg_tap(struct hantro_ctx *ctx,
330 		    const struct v4l2_ctrl_vp8_frame *hdr)
331 {
332 	struct hantro_dev *vpu = ctx->dev;
333 	struct hantro_reg reg;
334 	u32 val = 0;
335 	int i, j;
336 
337 	reg.base = G1_REG_BD_REF_PIC(3);
338 	reg.mask = 0xf;
339 
340 	if ((hdr->version & 0x03) != 0)
341 		return; /* Tap filter not used. */
342 
343 	for (i = 0; i < 8; i++) {
344 		val = (hantro_vp8_dec_mc_filter[i][0] << 2) |
345 		       hantro_vp8_dec_mc_filter[i][5];
346 
347 		for (j = 0; j < 4; j++)
348 			hantro_reg_write(vpu, &vp8_dec_pred_bc_tap[i][j],
349 					 hantro_vp8_dec_mc_filter[i][j + 1]);
350 
351 		switch (i) {
352 		case 2:
353 			reg.shift = 8;
354 			break;
355 		case 4:
356 			reg.shift = 4;
357 			break;
358 		case 6:
359 			reg.shift = 0;
360 			break;
361 		default:
362 			continue;
363 		}
364 
365 		hantro_reg_write(vpu, &reg, val);
366 	}
367 }
368 
369 static void cfg_ref(struct hantro_ctx *ctx,
370 		    const struct v4l2_ctrl_vp8_frame *hdr,
371 		    struct vb2_v4l2_buffer *vb2_dst)
372 {
373 	struct hantro_dev *vpu = ctx->dev;
374 	dma_addr_t ref;
375 
376 
377 	ref = hantro_get_ref(ctx, hdr->last_frame_ts);
378 	if (!ref) {
379 		vpu_debug(0, "failed to find last frame ts=%llu\n",
380 			  hdr->last_frame_ts);
381 		ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0);
382 	}
383 	vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(0));
384 
385 	ref = hantro_get_ref(ctx, hdr->golden_frame_ts);
386 	if (!ref && hdr->golden_frame_ts)
387 		vpu_debug(0, "failed to find golden frame ts=%llu\n",
388 			  hdr->golden_frame_ts);
389 	if (!ref)
390 		ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0);
391 	if (hdr->flags & V4L2_VP8_FRAME_FLAG_SIGN_BIAS_GOLDEN)
392 		ref |= G1_REG_ADDR_REF_TOPC_E;
393 	vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(4));
394 
395 	ref = hantro_get_ref(ctx, hdr->alt_frame_ts);
396 	if (!ref && hdr->alt_frame_ts)
397 		vpu_debug(0, "failed to find alt frame ts=%llu\n",
398 			  hdr->alt_frame_ts);
399 	if (!ref)
400 		ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0);
401 	if (hdr->flags & V4L2_VP8_FRAME_FLAG_SIGN_BIAS_ALT)
402 		ref |= G1_REG_ADDR_REF_TOPC_E;
403 	vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(5));
404 }
405 
406 static void cfg_buffers(struct hantro_ctx *ctx,
407 			const struct v4l2_ctrl_vp8_frame *hdr,
408 			struct vb2_v4l2_buffer *vb2_dst)
409 {
410 	const struct v4l2_vp8_segment *seg = &hdr->segment;
411 	struct hantro_dev *vpu = ctx->dev;
412 	dma_addr_t dst_dma;
413 	u32 reg;
414 
415 	/* Set probability table buffer address */
416 	vdpu_write_relaxed(vpu, ctx->vp8_dec.prob_tbl.dma,
417 			   G1_REG_ADDR_QTABLE);
418 
419 	/* Set segment map address */
420 	reg = G1_REG_FWD_PIC1_SEGMENT_BASE(ctx->vp8_dec.segment_map.dma);
421 	if (seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED) {
422 		reg |= G1_REG_FWD_PIC1_SEGMENT_E;
423 		if (seg->flags & V4L2_VP8_SEGMENT_FLAG_UPDATE_MAP)
424 			reg |= G1_REG_FWD_PIC1_SEGMENT_UPD_E;
425 	}
426 	vdpu_write_relaxed(vpu, reg, G1_REG_FWD_PIC(0));
427 
428 	dst_dma = hantro_get_dec_buf_addr(ctx, &vb2_dst->vb2_buf);
429 	vdpu_write_relaxed(vpu, dst_dma, G1_REG_ADDR_DST);
430 }
431 
432 int hantro_g1_vp8_dec_run(struct hantro_ctx *ctx)
433 {
434 	const struct v4l2_ctrl_vp8_frame *hdr;
435 	struct hantro_dev *vpu = ctx->dev;
436 	struct vb2_v4l2_buffer *vb2_dst;
437 	size_t height = ctx->dst_fmt.height;
438 	size_t width = ctx->dst_fmt.width;
439 	u32 mb_width, mb_height;
440 	u32 reg;
441 
442 	hantro_start_prepare_run(ctx);
443 
444 	hdr = hantro_get_ctrl(ctx, V4L2_CID_STATELESS_VP8_FRAME);
445 	if (WARN_ON(!hdr))
446 		return -EINVAL;
447 
448 	/* Reset segment_map buffer in keyframe */
449 	if (V4L2_VP8_FRAME_IS_KEY_FRAME(hdr) && ctx->vp8_dec.segment_map.cpu)
450 		memset(ctx->vp8_dec.segment_map.cpu, 0,
451 		       ctx->vp8_dec.segment_map.size);
452 
453 	hantro_vp8_prob_update(ctx, hdr);
454 
455 	reg = G1_REG_CONFIG_DEC_TIMEOUT_E |
456 	      G1_REG_CONFIG_DEC_STRENDIAN_E |
457 	      G1_REG_CONFIG_DEC_INSWAP32_E |
458 	      G1_REG_CONFIG_DEC_STRSWAP32_E |
459 	      G1_REG_CONFIG_DEC_OUTSWAP32_E |
460 	      G1_REG_CONFIG_DEC_CLK_GATE_E |
461 	      G1_REG_CONFIG_DEC_IN_ENDIAN |
462 	      G1_REG_CONFIG_DEC_OUT_ENDIAN |
463 	      G1_REG_CONFIG_DEC_MAX_BURST(16);
464 	vdpu_write_relaxed(vpu, reg, G1_REG_CONFIG);
465 
466 	reg = G1_REG_DEC_CTRL0_DEC_MODE(10) |
467 	      G1_REG_DEC_CTRL0_DEC_AXI_AUTO;
468 	if (!V4L2_VP8_FRAME_IS_KEY_FRAME(hdr))
469 		reg |= G1_REG_DEC_CTRL0_PIC_INTER_E;
470 	if (!(hdr->flags & V4L2_VP8_FRAME_FLAG_MB_NO_SKIP_COEFF))
471 		reg |= G1_REG_DEC_CTRL0_SKIP_MODE;
472 	if (hdr->lf.level == 0)
473 		reg |= G1_REG_DEC_CTRL0_FILTERING_DIS;
474 	vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL0);
475 
476 	/* Frame dimensions */
477 	mb_width = MB_WIDTH(width);
478 	mb_height = MB_HEIGHT(height);
479 	reg = G1_REG_DEC_CTRL1_PIC_MB_WIDTH(mb_width) |
480 	      G1_REG_DEC_CTRL1_PIC_MB_HEIGHT_P(mb_height) |
481 	      G1_REG_DEC_CTRL1_PIC_MB_W_EXT(mb_width >> 9) |
482 	      G1_REG_DEC_CTRL1_PIC_MB_H_EXT(mb_height >> 8);
483 	vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL1);
484 
485 	/* Boolean decoder */
486 	reg = G1_REG_DEC_CTRL2_BOOLEAN_RANGE(hdr->coder_state.range)
487 		| G1_REG_DEC_CTRL2_BOOLEAN_VALUE(hdr->coder_state.value);
488 	vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL2);
489 
490 	reg = 0;
491 	if (hdr->version != 3)
492 		reg |= G1_REG_DEC_CTRL4_VC1_HEIGHT_EXT;
493 	if (hdr->version & 0x3)
494 		reg |= G1_REG_DEC_CTRL4_BILIN_MC_E;
495 	vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL4);
496 
497 	cfg_lf(ctx, hdr);
498 	cfg_qp(ctx, hdr);
499 	cfg_parts(ctx, hdr);
500 	cfg_tap(ctx, hdr);
501 
502 	vb2_dst = hantro_get_dst_buf(ctx);
503 	cfg_ref(ctx, hdr, vb2_dst);
504 	cfg_buffers(ctx, hdr, vb2_dst);
505 
506 	hantro_end_prepare_run(ctx);
507 
508 	vdpu_write(vpu, G1_REG_INTERRUPT_DEC_E, G1_REG_INTERRUPT);
509 
510 	return 0;
511 }
512