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1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3  * Copyright (c) 2022-2023 Qualcomm Innovation Center, Inc. All rights reserved.
4  * Copyright (c) 2015-2018, The Linux Foundation. All rights reserved.
5  */
6 #define pr_fmt(fmt)	"[drm:%s:%d] " fmt, __func__, __LINE__
7 
8 #include "msm_drv.h"
9 #include "dpu_kms.h"
10 #include "dpu_hw_mdss.h"
11 #include "dpu_hw_util.h"
12 
13 /* using a file static variables for debugfs access */
14 static u32 dpu_hw_util_log_mask = DPU_DBG_MASK_NONE;
15 
16 /* DPU_SCALER_QSEED3 */
17 #define QSEED3_HW_VERSION                  0x00
18 #define QSEED3_OP_MODE                     0x04
19 #define QSEED3_RGB2Y_COEFF                 0x08
20 #define QSEED3_PHASE_INIT                  0x0C
21 #define QSEED3_PHASE_STEP_Y_H              0x10
22 #define QSEED3_PHASE_STEP_Y_V              0x14
23 #define QSEED3_PHASE_STEP_UV_H             0x18
24 #define QSEED3_PHASE_STEP_UV_V             0x1C
25 #define QSEED3_PRELOAD                     0x20
26 #define QSEED3_DE_SHARPEN                  0x24
27 #define QSEED3_DE_SHARPEN_CTL              0x28
28 #define QSEED3_DE_SHAPE_CTL                0x2C
29 #define QSEED3_DE_THRESHOLD                0x30
30 #define QSEED3_DE_ADJUST_DATA_0            0x34
31 #define QSEED3_DE_ADJUST_DATA_1            0x38
32 #define QSEED3_DE_ADJUST_DATA_2            0x3C
33 #define QSEED3_SRC_SIZE_Y_RGB_A            0x40
34 #define QSEED3_SRC_SIZE_UV                 0x44
35 #define QSEED3_DST_SIZE                    0x48
36 #define QSEED3_COEF_LUT_CTRL               0x4C
37 #define QSEED3_COEF_LUT_SWAP_BIT           0
38 #define QSEED3_COEF_LUT_DIR_BIT            1
39 #define QSEED3_COEF_LUT_Y_CIR_BIT          2
40 #define QSEED3_COEF_LUT_UV_CIR_BIT         3
41 #define QSEED3_COEF_LUT_Y_SEP_BIT          4
42 #define QSEED3_COEF_LUT_UV_SEP_BIT         5
43 #define QSEED3_BUFFER_CTRL                 0x50
44 #define QSEED3_CLK_CTRL0                   0x54
45 #define QSEED3_CLK_CTRL1                   0x58
46 #define QSEED3_CLK_STATUS                  0x5C
47 #define QSEED3_PHASE_INIT_Y_H              0x90
48 #define QSEED3_PHASE_INIT_Y_V              0x94
49 #define QSEED3_PHASE_INIT_UV_H             0x98
50 #define QSEED3_PHASE_INIT_UV_V             0x9C
51 #define QSEED3_COEF_LUT                    0x100
52 #define QSEED3_FILTERS                     5
53 #define QSEED3_LUT_REGIONS                 4
54 #define QSEED3_CIRCULAR_LUTS               9
55 #define QSEED3_SEPARABLE_LUTS              10
56 #define QSEED3_LUT_SIZE                    60
57 #define QSEED3_ENABLE                      2
58 #define QSEED3_DIR_LUT_SIZE                (200 * sizeof(u32))
59 #define QSEED3_CIR_LUT_SIZE \
60 	(QSEED3_LUT_SIZE * QSEED3_CIRCULAR_LUTS * sizeof(u32))
61 #define QSEED3_SEP_LUT_SIZE \
62 	(QSEED3_LUT_SIZE * QSEED3_SEPARABLE_LUTS * sizeof(u32))
63 
64 /* DPU_SCALER_QSEED3LITE */
65 #define QSEED3LITE_COEF_LUT_Y_SEP_BIT         4
66 #define QSEED3LITE_COEF_LUT_UV_SEP_BIT        5
67 #define QSEED3LITE_COEF_LUT_CTRL              0x4C
68 #define QSEED3LITE_COEF_LUT_SWAP_BIT          0
69 #define QSEED3LITE_DIR_FILTER_WEIGHT          0x60
70 #define QSEED3LITE_FILTERS                 2
71 #define QSEED3LITE_SEPARABLE_LUTS             10
72 #define QSEED3LITE_LUT_SIZE                   33
73 #define QSEED3LITE_SEP_LUT_SIZE \
74 	        (QSEED3LITE_LUT_SIZE * QSEED3LITE_SEPARABLE_LUTS * sizeof(u32))
75 
76 /* QOS_LUT */
77 #define QOS_DANGER_LUT                    0x00
78 #define QOS_SAFE_LUT                      0x04
79 #define QOS_CREQ_LUT                      0x08
80 #define QOS_QOS_CTRL                      0x0C
81 #define QOS_CREQ_LUT_0                    0x14
82 #define QOS_CREQ_LUT_1                    0x18
83 
84 /* QOS_QOS_CTRL */
85 #define QOS_QOS_CTRL_DANGER_SAFE_EN       BIT(0)
86 #define QOS_QOS_CTRL_DANGER_VBLANK_MASK   GENMASK(5, 4)
87 #define QOS_QOS_CTRL_VBLANK_EN            BIT(16)
88 #define QOS_QOS_CTRL_CREQ_VBLANK_MASK     GENMASK(21, 20)
89 
dpu_reg_write(struct dpu_hw_blk_reg_map * c,u32 reg_off,u32 val,const char * name)90 void dpu_reg_write(struct dpu_hw_blk_reg_map *c,
91 		u32 reg_off,
92 		u32 val,
93 		const char *name)
94 {
95 	/* don't need to mutex protect this */
96 	if (c->log_mask & dpu_hw_util_log_mask)
97 		DPU_DEBUG_DRIVER("[%s:0x%X] <= 0x%X\n",
98 				name, reg_off, val);
99 	writel_relaxed(val, c->blk_addr + reg_off);
100 }
101 
dpu_reg_read(struct dpu_hw_blk_reg_map * c,u32 reg_off)102 int dpu_reg_read(struct dpu_hw_blk_reg_map *c, u32 reg_off)
103 {
104 	return readl_relaxed(c->blk_addr + reg_off);
105 }
106 
dpu_hw_util_get_log_mask_ptr(void)107 u32 *dpu_hw_util_get_log_mask_ptr(void)
108 {
109 	return &dpu_hw_util_log_mask;
110 }
111 
_dpu_hw_setup_scaler3_lut(struct dpu_hw_blk_reg_map * c,struct dpu_hw_scaler3_cfg * scaler3_cfg,u32 offset)112 static void _dpu_hw_setup_scaler3_lut(struct dpu_hw_blk_reg_map *c,
113 		struct dpu_hw_scaler3_cfg *scaler3_cfg, u32 offset)
114 {
115 	int i, j, filter;
116 	int config_lut = 0x0;
117 	unsigned long lut_flags;
118 	u32 lut_addr, lut_offset, lut_len;
119 	u32 *lut[QSEED3_FILTERS] = {NULL, NULL, NULL, NULL, NULL};
120 	static const uint32_t off_tbl[QSEED3_FILTERS][QSEED3_LUT_REGIONS][2] = {
121 		{{18, 0x000}, {12, 0x120}, {12, 0x1E0}, {8, 0x2A0} },
122 		{{6, 0x320}, {3, 0x3E0}, {3, 0x440}, {3, 0x4A0} },
123 		{{6, 0x500}, {3, 0x5c0}, {3, 0x620}, {3, 0x680} },
124 		{{6, 0x380}, {3, 0x410}, {3, 0x470}, {3, 0x4d0} },
125 		{{6, 0x560}, {3, 0x5f0}, {3, 0x650}, {3, 0x6b0} },
126 	};
127 
128 	lut_flags = (unsigned long) scaler3_cfg->lut_flag;
129 	if (test_bit(QSEED3_COEF_LUT_DIR_BIT, &lut_flags) &&
130 		(scaler3_cfg->dir_len == QSEED3_DIR_LUT_SIZE)) {
131 		lut[0] = scaler3_cfg->dir_lut;
132 		config_lut = 1;
133 	}
134 	if (test_bit(QSEED3_COEF_LUT_Y_CIR_BIT, &lut_flags) &&
135 		(scaler3_cfg->y_rgb_cir_lut_idx < QSEED3_CIRCULAR_LUTS) &&
136 		(scaler3_cfg->cir_len == QSEED3_CIR_LUT_SIZE)) {
137 		lut[1] = scaler3_cfg->cir_lut +
138 			scaler3_cfg->y_rgb_cir_lut_idx * QSEED3_LUT_SIZE;
139 		config_lut = 1;
140 	}
141 	if (test_bit(QSEED3_COEF_LUT_UV_CIR_BIT, &lut_flags) &&
142 		(scaler3_cfg->uv_cir_lut_idx < QSEED3_CIRCULAR_LUTS) &&
143 		(scaler3_cfg->cir_len == QSEED3_CIR_LUT_SIZE)) {
144 		lut[2] = scaler3_cfg->cir_lut +
145 			scaler3_cfg->uv_cir_lut_idx * QSEED3_LUT_SIZE;
146 		config_lut = 1;
147 	}
148 	if (test_bit(QSEED3_COEF_LUT_Y_SEP_BIT, &lut_flags) &&
149 		(scaler3_cfg->y_rgb_sep_lut_idx < QSEED3_SEPARABLE_LUTS) &&
150 		(scaler3_cfg->sep_len == QSEED3_SEP_LUT_SIZE)) {
151 		lut[3] = scaler3_cfg->sep_lut +
152 			scaler3_cfg->y_rgb_sep_lut_idx * QSEED3_LUT_SIZE;
153 		config_lut = 1;
154 	}
155 	if (test_bit(QSEED3_COEF_LUT_UV_SEP_BIT, &lut_flags) &&
156 		(scaler3_cfg->uv_sep_lut_idx < QSEED3_SEPARABLE_LUTS) &&
157 		(scaler3_cfg->sep_len == QSEED3_SEP_LUT_SIZE)) {
158 		lut[4] = scaler3_cfg->sep_lut +
159 			scaler3_cfg->uv_sep_lut_idx * QSEED3_LUT_SIZE;
160 		config_lut = 1;
161 	}
162 
163 	if (config_lut) {
164 		for (filter = 0; filter < QSEED3_FILTERS; filter++) {
165 			if (!lut[filter])
166 				continue;
167 			lut_offset = 0;
168 			for (i = 0; i < QSEED3_LUT_REGIONS; i++) {
169 				lut_addr = QSEED3_COEF_LUT + offset
170 					+ off_tbl[filter][i][1];
171 				lut_len = off_tbl[filter][i][0] << 2;
172 				for (j = 0; j < lut_len; j++) {
173 					DPU_REG_WRITE(c,
174 						lut_addr,
175 						(lut[filter])[lut_offset++]);
176 					lut_addr += 4;
177 				}
178 			}
179 		}
180 	}
181 
182 	if (test_bit(QSEED3_COEF_LUT_SWAP_BIT, &lut_flags))
183 		DPU_REG_WRITE(c, QSEED3_COEF_LUT_CTRL + offset, BIT(0));
184 
185 }
186 
_dpu_hw_setup_scaler3lite_lut(struct dpu_hw_blk_reg_map * c,struct dpu_hw_scaler3_cfg * scaler3_cfg,u32 offset)187 static void _dpu_hw_setup_scaler3lite_lut(struct dpu_hw_blk_reg_map *c,
188 		struct dpu_hw_scaler3_cfg *scaler3_cfg, u32 offset)
189 {
190 	int j, filter;
191 	int config_lut = 0x0;
192 	unsigned long lut_flags;
193 	u32 lut_addr, lut_offset;
194 	u32 *lut[QSEED3LITE_FILTERS] = {NULL, NULL};
195 	static const uint32_t off_tbl[QSEED3_FILTERS] = { 0x000, 0x200 };
196 
197 	DPU_REG_WRITE(c, QSEED3LITE_DIR_FILTER_WEIGHT + offset, scaler3_cfg->dir_weight);
198 
199 	if (!scaler3_cfg->sep_lut)
200 		return;
201 
202 	lut_flags = (unsigned long) scaler3_cfg->lut_flag;
203 	if (test_bit(QSEED3_COEF_LUT_Y_SEP_BIT, &lut_flags) &&
204 		(scaler3_cfg->y_rgb_sep_lut_idx < QSEED3LITE_SEPARABLE_LUTS) &&
205 		(scaler3_cfg->sep_len == QSEED3LITE_SEP_LUT_SIZE)) {
206 		lut[0] = scaler3_cfg->sep_lut +
207 			scaler3_cfg->y_rgb_sep_lut_idx * QSEED3LITE_LUT_SIZE;
208 		config_lut = 1;
209 	}
210 	if (test_bit(QSEED3_COEF_LUT_UV_SEP_BIT, &lut_flags) &&
211 		(scaler3_cfg->uv_sep_lut_idx < QSEED3LITE_SEPARABLE_LUTS) &&
212 		(scaler3_cfg->sep_len == QSEED3LITE_SEP_LUT_SIZE)) {
213 		lut[1] = scaler3_cfg->sep_lut +
214 			scaler3_cfg->uv_sep_lut_idx * QSEED3LITE_LUT_SIZE;
215 		config_lut = 1;
216 	}
217 
218 	if (config_lut) {
219 		for (filter = 0; filter < QSEED3LITE_FILTERS; filter++) {
220 			if (!lut[filter])
221 				continue;
222 			lut_offset = 0;
223 			lut_addr = QSEED3_COEF_LUT + offset + off_tbl[filter];
224 			for (j = 0; j < QSEED3LITE_LUT_SIZE; j++) {
225 				DPU_REG_WRITE(c,
226 					lut_addr,
227 					(lut[filter])[lut_offset++]);
228 				lut_addr += 4;
229 			}
230 		}
231 	}
232 
233 	if (test_bit(QSEED3_COEF_LUT_SWAP_BIT, &lut_flags))
234 		DPU_REG_WRITE(c, QSEED3_COEF_LUT_CTRL + offset, BIT(0));
235 
236 }
237 
_dpu_hw_setup_scaler3_de(struct dpu_hw_blk_reg_map * c,struct dpu_hw_scaler3_de_cfg * de_cfg,u32 offset)238 static void _dpu_hw_setup_scaler3_de(struct dpu_hw_blk_reg_map *c,
239 		struct dpu_hw_scaler3_de_cfg *de_cfg, u32 offset)
240 {
241 	u32 sharp_lvl, sharp_ctl, shape_ctl, de_thr;
242 	u32 adjust_a, adjust_b, adjust_c;
243 
244 	if (!de_cfg->enable)
245 		return;
246 
247 	sharp_lvl = (de_cfg->sharpen_level1 & 0x1FF) |
248 		((de_cfg->sharpen_level2 & 0x1FF) << 16);
249 
250 	sharp_ctl = ((de_cfg->limit & 0xF) << 9) |
251 		((de_cfg->prec_shift & 0x7) << 13) |
252 		((de_cfg->clip & 0x7) << 16);
253 
254 	shape_ctl = (de_cfg->thr_quiet & 0xFF) |
255 		((de_cfg->thr_dieout & 0x3FF) << 16);
256 
257 	de_thr = (de_cfg->thr_low & 0x3FF) |
258 		((de_cfg->thr_high & 0x3FF) << 16);
259 
260 	adjust_a = (de_cfg->adjust_a[0] & 0x3FF) |
261 		((de_cfg->adjust_a[1] & 0x3FF) << 10) |
262 		((de_cfg->adjust_a[2] & 0x3FF) << 20);
263 
264 	adjust_b = (de_cfg->adjust_b[0] & 0x3FF) |
265 		((de_cfg->adjust_b[1] & 0x3FF) << 10) |
266 		((de_cfg->adjust_b[2] & 0x3FF) << 20);
267 
268 	adjust_c = (de_cfg->adjust_c[0] & 0x3FF) |
269 		((de_cfg->adjust_c[1] & 0x3FF) << 10) |
270 		((de_cfg->adjust_c[2] & 0x3FF) << 20);
271 
272 	DPU_REG_WRITE(c, QSEED3_DE_SHARPEN + offset, sharp_lvl);
273 	DPU_REG_WRITE(c, QSEED3_DE_SHARPEN_CTL + offset, sharp_ctl);
274 	DPU_REG_WRITE(c, QSEED3_DE_SHAPE_CTL + offset, shape_ctl);
275 	DPU_REG_WRITE(c, QSEED3_DE_THRESHOLD + offset, de_thr);
276 	DPU_REG_WRITE(c, QSEED3_DE_ADJUST_DATA_0 + offset, adjust_a);
277 	DPU_REG_WRITE(c, QSEED3_DE_ADJUST_DATA_1 + offset, adjust_b);
278 	DPU_REG_WRITE(c, QSEED3_DE_ADJUST_DATA_2 + offset, adjust_c);
279 
280 }
281 
dpu_hw_setup_scaler3(struct dpu_hw_blk_reg_map * c,struct dpu_hw_scaler3_cfg * scaler3_cfg,u32 scaler_offset,u32 scaler_version,const struct dpu_format * format)282 void dpu_hw_setup_scaler3(struct dpu_hw_blk_reg_map *c,
283 		struct dpu_hw_scaler3_cfg *scaler3_cfg,
284 		u32 scaler_offset, u32 scaler_version,
285 		const struct dpu_format *format)
286 {
287 	u32 op_mode = 0;
288 	u32 phase_init, preload, src_y_rgb, src_uv, dst;
289 
290 	if (!scaler3_cfg->enable)
291 		goto end;
292 
293 	op_mode |= BIT(0);
294 	op_mode |= (scaler3_cfg->y_rgb_filter_cfg & 0x3) << 16;
295 
296 	if (format && DPU_FORMAT_IS_YUV(format)) {
297 		op_mode |= BIT(12);
298 		op_mode |= (scaler3_cfg->uv_filter_cfg & 0x3) << 24;
299 	}
300 
301 	op_mode |= (scaler3_cfg->blend_cfg & 1) << 31;
302 	op_mode |= (scaler3_cfg->dir_en) ? BIT(4) : 0;
303 
304 	preload =
305 		((scaler3_cfg->preload_x[0] & 0x7F) << 0) |
306 		((scaler3_cfg->preload_y[0] & 0x7F) << 8) |
307 		((scaler3_cfg->preload_x[1] & 0x7F) << 16) |
308 		((scaler3_cfg->preload_y[1] & 0x7F) << 24);
309 
310 	src_y_rgb = (scaler3_cfg->src_width[0] & 0x1FFFF) |
311 		((scaler3_cfg->src_height[0] & 0x1FFFF) << 16);
312 
313 	src_uv = (scaler3_cfg->src_width[1] & 0x1FFFF) |
314 		((scaler3_cfg->src_height[1] & 0x1FFFF) << 16);
315 
316 	dst = (scaler3_cfg->dst_width & 0x1FFFF) |
317 		((scaler3_cfg->dst_height & 0x1FFFF) << 16);
318 
319 	if (scaler3_cfg->de.enable) {
320 		_dpu_hw_setup_scaler3_de(c, &scaler3_cfg->de, scaler_offset);
321 		op_mode |= BIT(8);
322 	}
323 
324 	if (scaler3_cfg->lut_flag) {
325 		if (scaler_version < 0x2004)
326 			_dpu_hw_setup_scaler3_lut(c, scaler3_cfg, scaler_offset);
327 		else
328 			_dpu_hw_setup_scaler3lite_lut(c, scaler3_cfg, scaler_offset);
329 	}
330 
331 	if (scaler_version == 0x1002) {
332 		phase_init =
333 			((scaler3_cfg->init_phase_x[0] & 0x3F) << 0) |
334 			((scaler3_cfg->init_phase_y[0] & 0x3F) << 8) |
335 			((scaler3_cfg->init_phase_x[1] & 0x3F) << 16) |
336 			((scaler3_cfg->init_phase_y[1] & 0x3F) << 24);
337 		DPU_REG_WRITE(c, QSEED3_PHASE_INIT + scaler_offset, phase_init);
338 	} else {
339 		DPU_REG_WRITE(c, QSEED3_PHASE_INIT_Y_H + scaler_offset,
340 			scaler3_cfg->init_phase_x[0] & 0x1FFFFF);
341 		DPU_REG_WRITE(c, QSEED3_PHASE_INIT_Y_V + scaler_offset,
342 			scaler3_cfg->init_phase_y[0] & 0x1FFFFF);
343 		DPU_REG_WRITE(c, QSEED3_PHASE_INIT_UV_H + scaler_offset,
344 			scaler3_cfg->init_phase_x[1] & 0x1FFFFF);
345 		DPU_REG_WRITE(c, QSEED3_PHASE_INIT_UV_V + scaler_offset,
346 			scaler3_cfg->init_phase_y[1] & 0x1FFFFF);
347 	}
348 
349 	DPU_REG_WRITE(c, QSEED3_PHASE_STEP_Y_H + scaler_offset,
350 		scaler3_cfg->phase_step_x[0] & 0xFFFFFF);
351 
352 	DPU_REG_WRITE(c, QSEED3_PHASE_STEP_Y_V + scaler_offset,
353 		scaler3_cfg->phase_step_y[0] & 0xFFFFFF);
354 
355 	DPU_REG_WRITE(c, QSEED3_PHASE_STEP_UV_H + scaler_offset,
356 		scaler3_cfg->phase_step_x[1] & 0xFFFFFF);
357 
358 	DPU_REG_WRITE(c, QSEED3_PHASE_STEP_UV_V + scaler_offset,
359 		scaler3_cfg->phase_step_y[1] & 0xFFFFFF);
360 
361 	DPU_REG_WRITE(c, QSEED3_PRELOAD + scaler_offset, preload);
362 
363 	DPU_REG_WRITE(c, QSEED3_SRC_SIZE_Y_RGB_A + scaler_offset, src_y_rgb);
364 
365 	DPU_REG_WRITE(c, QSEED3_SRC_SIZE_UV + scaler_offset, src_uv);
366 
367 	DPU_REG_WRITE(c, QSEED3_DST_SIZE + scaler_offset, dst);
368 
369 end:
370 	if (format && !DPU_FORMAT_IS_DX(format))
371 		op_mode |= BIT(14);
372 
373 	if (format && format->alpha_enable) {
374 		op_mode |= BIT(10);
375 		if (scaler_version == 0x1002)
376 			op_mode |= (scaler3_cfg->alpha_filter_cfg & 0x1) << 30;
377 		else
378 			op_mode |= (scaler3_cfg->alpha_filter_cfg & 0x3) << 29;
379 	}
380 
381 	DPU_REG_WRITE(c, QSEED3_OP_MODE + scaler_offset, op_mode);
382 }
383 
dpu_hw_get_scaler3_ver(struct dpu_hw_blk_reg_map * c,u32 scaler_offset)384 u32 dpu_hw_get_scaler3_ver(struct dpu_hw_blk_reg_map *c,
385 			u32 scaler_offset)
386 {
387 	return DPU_REG_READ(c, QSEED3_HW_VERSION + scaler_offset);
388 }
389 
dpu_hw_csc_setup(struct dpu_hw_blk_reg_map * c,u32 csc_reg_off,const struct dpu_csc_cfg * data,bool csc10)390 void dpu_hw_csc_setup(struct dpu_hw_blk_reg_map *c,
391 		u32 csc_reg_off,
392 		const struct dpu_csc_cfg *data, bool csc10)
393 {
394 	static const u32 matrix_shift = 7;
395 	u32 clamp_shift = csc10 ? 16 : 8;
396 	u32 val;
397 
398 	/* matrix coeff - convert S15.16 to S4.9 */
399 	val = ((data->csc_mv[0] >> matrix_shift) & 0x1FFF) |
400 		(((data->csc_mv[1] >> matrix_shift) & 0x1FFF) << 16);
401 	DPU_REG_WRITE(c, csc_reg_off, val);
402 	val = ((data->csc_mv[2] >> matrix_shift) & 0x1FFF) |
403 		(((data->csc_mv[3] >> matrix_shift) & 0x1FFF) << 16);
404 	DPU_REG_WRITE(c, csc_reg_off + 0x4, val);
405 	val = ((data->csc_mv[4] >> matrix_shift) & 0x1FFF) |
406 		(((data->csc_mv[5] >> matrix_shift) & 0x1FFF) << 16);
407 	DPU_REG_WRITE(c, csc_reg_off + 0x8, val);
408 	val = ((data->csc_mv[6] >> matrix_shift) & 0x1FFF) |
409 		(((data->csc_mv[7] >> matrix_shift) & 0x1FFF) << 16);
410 	DPU_REG_WRITE(c, csc_reg_off + 0xc, val);
411 	val = (data->csc_mv[8] >> matrix_shift) & 0x1FFF;
412 	DPU_REG_WRITE(c, csc_reg_off + 0x10, val);
413 
414 	/* Pre clamp */
415 	val = (data->csc_pre_lv[0] << clamp_shift) | data->csc_pre_lv[1];
416 	DPU_REG_WRITE(c, csc_reg_off + 0x14, val);
417 	val = (data->csc_pre_lv[2] << clamp_shift) | data->csc_pre_lv[3];
418 	DPU_REG_WRITE(c, csc_reg_off + 0x18, val);
419 	val = (data->csc_pre_lv[4] << clamp_shift) | data->csc_pre_lv[5];
420 	DPU_REG_WRITE(c, csc_reg_off + 0x1c, val);
421 
422 	/* Post clamp */
423 	val = (data->csc_post_lv[0] << clamp_shift) | data->csc_post_lv[1];
424 	DPU_REG_WRITE(c, csc_reg_off + 0x20, val);
425 	val = (data->csc_post_lv[2] << clamp_shift) | data->csc_post_lv[3];
426 	DPU_REG_WRITE(c, csc_reg_off + 0x24, val);
427 	val = (data->csc_post_lv[4] << clamp_shift) | data->csc_post_lv[5];
428 	DPU_REG_WRITE(c, csc_reg_off + 0x28, val);
429 
430 	/* Pre-Bias */
431 	DPU_REG_WRITE(c, csc_reg_off + 0x2c, data->csc_pre_bv[0]);
432 	DPU_REG_WRITE(c, csc_reg_off + 0x30, data->csc_pre_bv[1]);
433 	DPU_REG_WRITE(c, csc_reg_off + 0x34, data->csc_pre_bv[2]);
434 
435 	/* Post-Bias */
436 	DPU_REG_WRITE(c, csc_reg_off + 0x38, data->csc_post_bv[0]);
437 	DPU_REG_WRITE(c, csc_reg_off + 0x3c, data->csc_post_bv[1]);
438 	DPU_REG_WRITE(c, csc_reg_off + 0x40, data->csc_post_bv[2]);
439 }
440 
441 /**
442  * _dpu_hw_get_qos_lut - get LUT mapping based on fill level
443  * @tbl:		Pointer to LUT table
444  * @total_fl:		fill level
445  * Return: LUT setting corresponding to the fill level
446  */
_dpu_hw_get_qos_lut(const struct dpu_qos_lut_tbl * tbl,u32 total_fl)447 u64 _dpu_hw_get_qos_lut(const struct dpu_qos_lut_tbl *tbl,
448 		u32 total_fl)
449 {
450 	int i;
451 
452 	if (!tbl || !tbl->nentry || !tbl->entries)
453 		return 0;
454 
455 	for (i = 0; i < tbl->nentry; i++)
456 		if (total_fl <= tbl->entries[i].fl)
457 			return tbl->entries[i].lut;
458 
459 	/* if last fl is zero, use as default */
460 	if (!tbl->entries[i-1].fl)
461 		return tbl->entries[i-1].lut;
462 
463 	return 0;
464 }
465 
_dpu_hw_setup_qos_lut(struct dpu_hw_blk_reg_map * c,u32 offset,bool qos_8lvl,const struct dpu_hw_qos_cfg * cfg)466 void _dpu_hw_setup_qos_lut(struct dpu_hw_blk_reg_map *c, u32 offset,
467 			   bool qos_8lvl,
468 			   const struct dpu_hw_qos_cfg *cfg)
469 {
470 	DPU_REG_WRITE(c, offset + QOS_DANGER_LUT, cfg->danger_lut);
471 	DPU_REG_WRITE(c, offset + QOS_SAFE_LUT, cfg->safe_lut);
472 
473 	if (qos_8lvl) {
474 		DPU_REG_WRITE(c, offset + QOS_CREQ_LUT_0, cfg->creq_lut);
475 		DPU_REG_WRITE(c, offset + QOS_CREQ_LUT_1, cfg->creq_lut >> 32);
476 	} else {
477 		DPU_REG_WRITE(c, offset + QOS_CREQ_LUT, cfg->creq_lut);
478 	}
479 
480 	DPU_REG_WRITE(c, offset + QOS_QOS_CTRL,
481 		      cfg->danger_safe_en ? QOS_QOS_CTRL_DANGER_SAFE_EN : 0);
482 }
483 
484 /*
485  * note: Aside from encoders, input_sel should be set to 0x0 by default
486  */
dpu_hw_setup_misr(struct dpu_hw_blk_reg_map * c,u32 misr_ctrl_offset,u8 input_sel)487 void dpu_hw_setup_misr(struct dpu_hw_blk_reg_map *c,
488 		u32 misr_ctrl_offset, u8 input_sel)
489 {
490 	u32 config = 0;
491 
492 	DPU_REG_WRITE(c, misr_ctrl_offset, MISR_CTRL_STATUS_CLEAR);
493 
494 	/* Clear old MISR value (in case it's read before a new value is calculated)*/
495 	wmb();
496 
497 	config = MISR_FRAME_COUNT | MISR_CTRL_ENABLE | MISR_CTRL_FREE_RUN_MASK |
498 		((input_sel & 0xF) << 24);
499 	DPU_REG_WRITE(c, misr_ctrl_offset, config);
500 }
501 
dpu_hw_collect_misr(struct dpu_hw_blk_reg_map * c,u32 misr_ctrl_offset,u32 misr_signature_offset,u32 * misr_value)502 int dpu_hw_collect_misr(struct dpu_hw_blk_reg_map *c,
503 		u32 misr_ctrl_offset,
504 		u32 misr_signature_offset,
505 		u32 *misr_value)
506 {
507 	u32 ctrl = 0;
508 
509 	if (!misr_value)
510 		return -EINVAL;
511 
512 	ctrl = DPU_REG_READ(c, misr_ctrl_offset);
513 
514 	if (!(ctrl & MISR_CTRL_ENABLE))
515 		return -ENODATA;
516 
517 	if (!(ctrl & MISR_CTRL_STATUS))
518 		return -EINVAL;
519 
520 	*misr_value = DPU_REG_READ(c, misr_signature_offset);
521 
522 	return 0;
523 }
524 
525 #define CDP_ENABLE		BIT(0)
526 #define CDP_UBWC_META_ENABLE	BIT(1)
527 #define CDP_TILE_AMORTIZE_ENABLE BIT(2)
528 #define CDP_PRELOAD_AHEAD_64	BIT(3)
529 
dpu_setup_cdp(struct dpu_hw_blk_reg_map * c,u32 offset,const struct dpu_format * fmt,bool enable)530 void dpu_setup_cdp(struct dpu_hw_blk_reg_map *c, u32 offset,
531 		   const struct dpu_format *fmt, bool enable)
532 {
533 	u32 cdp_cntl = CDP_PRELOAD_AHEAD_64;
534 
535 	if (enable)
536 		cdp_cntl |= CDP_ENABLE;
537 	if (DPU_FORMAT_IS_UBWC(fmt))
538 		cdp_cntl |= CDP_UBWC_META_ENABLE;
539 	if (DPU_FORMAT_IS_UBWC(fmt) ||
540 	    DPU_FORMAT_IS_TILE(fmt))
541 		cdp_cntl |= CDP_TILE_AMORTIZE_ENABLE;
542 
543 	DPU_REG_WRITE(c, offset, cdp_cntl);
544 }
545