xref: /openbmc/linux/sound/soc/codecs/tscs454.c (revision 12cecbf9)
1 // SPDX-License-Identifier: GPL-2.0
2 // tscs454.c -- TSCS454 ALSA SoC Audio driver
3 // Copyright 2018 Tempo Semiconductor, Inc.
4 // Author: Steven Eckhoff <steven.eckhoff.opensource@gmail.com>
5 
6 #include <linux/kernel.h>
7 #include <linux/clk.h>
8 #include <linux/device.h>
9 #include <linux/regmap.h>
10 #include <linux/i2c.h>
11 #include <linux/err.h>
12 #include <linux/string.h>
13 #include <linux/module.h>
14 #include <linux/delay.h>
15 #include <linux/mutex.h>
16 
17 #include <sound/tlv.h>
18 #include <sound/pcm_params.h>
19 #include <sound/pcm.h>
20 #include <sound/soc.h>
21 #include <sound/soc-dapm.h>
22 
23 #include "tscs454.h"
24 
25 static const unsigned int PLL_44_1K_RATE = (44100 * 256);
26 
27 #define COEFF_SIZE 3
28 #define BIQUAD_COEFF_COUNT 5
29 #define BIQUAD_SIZE (COEFF_SIZE * BIQUAD_COEFF_COUNT)
30 
31 #define COEFF_RAM_MAX_ADDR 0xcd
32 #define COEFF_RAM_COEFF_COUNT (COEFF_RAM_MAX_ADDR + 1)
33 #define COEFF_RAM_SIZE (COEFF_SIZE * COEFF_RAM_COEFF_COUNT)
34 
35 enum {
36 	TSCS454_DAI1_ID,
37 	TSCS454_DAI2_ID,
38 	TSCS454_DAI3_ID,
39 	TSCS454_DAI_COUNT,
40 };
41 
42 struct pll {
43 	int id;
44 	unsigned int users;
45 	struct mutex lock;
46 };
47 
48 static inline void pll_init(struct pll *pll, int id)
49 {
50 	pll->id = id;
51 	mutex_init(&pll->lock);
52 }
53 
54 struct internal_rate {
55 	struct pll *pll;
56 };
57 
58 struct aif {
59 	unsigned int id;
60 	bool provider;
61 	struct pll *pll;
62 };
63 
64 static inline void aif_init(struct aif *aif, unsigned int id)
65 {
66 	aif->id = id;
67 }
68 
69 struct coeff_ram {
70 	u8 cache[COEFF_RAM_SIZE];
71 	bool synced;
72 	struct mutex lock;
73 };
74 
75 static inline void init_coeff_ram_cache(u8 *cache)
76 {
77 	static const u8 norm_addrs[] = { 0x00, 0x05, 0x0a, 0x0f, 0x14, 0x19,
78 		0x1f, 0x20, 0x25, 0x2a, 0x2f, 0x34, 0x39, 0x3f, 0x40, 0x45,
79 		0x4a, 0x4f, 0x54, 0x59, 0x5f, 0x60, 0x65, 0x6a, 0x6f, 0x74,
80 		0x79, 0x7f, 0x80, 0x85, 0x8c, 0x91, 0x96, 0x97, 0x9c, 0xa3,
81 		0xa8, 0xad, 0xaf, 0xb0, 0xb5, 0xba, 0xbf, 0xc4, 0xc9};
82 	int i;
83 
84 	for (i = 0; i < ARRAY_SIZE(norm_addrs); i++)
85 		cache[((norm_addrs[i] + 1) * COEFF_SIZE) - 1] = 0x40;
86 }
87 
88 static inline void coeff_ram_init(struct coeff_ram *ram)
89 {
90 	init_coeff_ram_cache(ram->cache);
91 	mutex_init(&ram->lock);
92 }
93 
94 struct aifs_status {
95 	u8 streams;
96 };
97 
98 static inline void set_aif_status_active(struct aifs_status *status,
99 		int aif_id, bool playback)
100 {
101 	u8 mask = 0x01 << (aif_id * 2 + !playback);
102 
103 	status->streams |= mask;
104 }
105 
106 static inline void set_aif_status_inactive(struct aifs_status *status,
107 		int aif_id, bool playback)
108 {
109 	u8 mask = ~(0x01 << (aif_id * 2 + !playback));
110 
111 	status->streams &= mask;
112 }
113 
114 static bool aifs_active(struct aifs_status *status)
115 {
116 	return status->streams;
117 }
118 
119 static bool aif_active(struct aifs_status *status, int aif_id)
120 {
121 	return (0x03 << aif_id * 2) & status->streams;
122 }
123 
124 struct tscs454 {
125 	struct regmap *regmap;
126 	struct aif aifs[TSCS454_DAI_COUNT];
127 
128 	struct aifs_status aifs_status;
129 	struct mutex aifs_status_lock;
130 
131 	struct pll pll1;
132 	struct pll pll2;
133 	struct internal_rate internal_rate;
134 
135 	struct coeff_ram dac_ram;
136 	struct coeff_ram spk_ram;
137 	struct coeff_ram sub_ram;
138 
139 	struct clk *sysclk;
140 	int sysclk_src_id;
141 	unsigned int bclk_freq;
142 };
143 
144 struct coeff_ram_ctl {
145 	unsigned int addr;
146 	struct soc_bytes_ext bytes_ext;
147 };
148 
149 static const struct reg_sequence tscs454_patch[] = {
150 	/* Assign ASRC out of the box so DAI 1 just works */
151 	{ R_AUDIOMUX1, FV_ASRCIMUX_I2S1 | FV_I2S2MUX_I2S2 },
152 	{ R_AUDIOMUX2, FV_ASRCOMUX_I2S1 | FV_DACMUX_I2S1 | FV_I2S3MUX_I2S3 },
153 	{ R_AUDIOMUX3, FV_CLSSDMUX_I2S1 | FV_SUBMUX_I2S1_LR },
154 	{ R_TDMCTL0, FV_TDMMD_256 },
155 	{ VIRT_ADDR(0x0A, 0x13), 1 << 3 },
156 };
157 
158 static bool tscs454_volatile(struct device *dev, unsigned int reg)
159 {
160 	switch (reg) {
161 	case R_PLLSTAT:
162 
163 	case R_SPKCRRDL:
164 	case R_SPKCRRDM:
165 	case R_SPKCRRDH:
166 	case R_SPKCRS:
167 
168 	case R_DACCRRDL:
169 	case R_DACCRRDM:
170 	case R_DACCRRDH:
171 	case R_DACCRS:
172 
173 	case R_SUBCRRDL:
174 	case R_SUBCRRDM:
175 	case R_SUBCRRDH:
176 	case R_SUBCRS:
177 		return true;
178 	default:
179 		return false;
180 	}
181 }
182 
183 static bool tscs454_writable(struct device *dev, unsigned int reg)
184 {
185 	switch (reg) {
186 	case R_SPKCRRDL:
187 	case R_SPKCRRDM:
188 	case R_SPKCRRDH:
189 
190 	case R_DACCRRDL:
191 	case R_DACCRRDM:
192 	case R_DACCRRDH:
193 
194 	case R_SUBCRRDL:
195 	case R_SUBCRRDM:
196 	case R_SUBCRRDH:
197 		return false;
198 	default:
199 		return true;
200 	}
201 }
202 
203 static bool tscs454_readable(struct device *dev, unsigned int reg)
204 {
205 	switch (reg) {
206 	case R_SPKCRWDL:
207 	case R_SPKCRWDM:
208 	case R_SPKCRWDH:
209 
210 	case R_DACCRWDL:
211 	case R_DACCRWDM:
212 	case R_DACCRWDH:
213 
214 	case R_SUBCRWDL:
215 	case R_SUBCRWDM:
216 	case R_SUBCRWDH:
217 		return false;
218 	default:
219 		return true;
220 	}
221 }
222 
223 static bool tscs454_precious(struct device *dev, unsigned int reg)
224 {
225 	switch (reg) {
226 	case R_SPKCRWDL:
227 	case R_SPKCRWDM:
228 	case R_SPKCRWDH:
229 	case R_SPKCRRDL:
230 	case R_SPKCRRDM:
231 	case R_SPKCRRDH:
232 
233 	case R_DACCRWDL:
234 	case R_DACCRWDM:
235 	case R_DACCRWDH:
236 	case R_DACCRRDL:
237 	case R_DACCRRDM:
238 	case R_DACCRRDH:
239 
240 	case R_SUBCRWDL:
241 	case R_SUBCRWDM:
242 	case R_SUBCRWDH:
243 	case R_SUBCRRDL:
244 	case R_SUBCRRDM:
245 	case R_SUBCRRDH:
246 		return true;
247 	default:
248 		return false;
249 	}
250 }
251 
252 static const struct regmap_range_cfg tscs454_regmap_range_cfg = {
253 	.name = "Pages",
254 	.range_min = VIRT_BASE,
255 	.range_max = VIRT_ADDR(0xFE, 0x02),
256 	.selector_reg = R_PAGESEL,
257 	.selector_mask = 0xff,
258 	.selector_shift = 0,
259 	.window_start = 0,
260 	.window_len = 0x100,
261 };
262 
263 static struct regmap_config const tscs454_regmap_cfg = {
264 	.reg_bits = 8,
265 	.val_bits = 8,
266 	.writeable_reg = tscs454_writable,
267 	.readable_reg = tscs454_readable,
268 	.volatile_reg = tscs454_volatile,
269 	.precious_reg = tscs454_precious,
270 	.ranges = &tscs454_regmap_range_cfg,
271 	.num_ranges = 1,
272 	.max_register = VIRT_ADDR(0xFE, 0x02),
273 	.cache_type = REGCACHE_RBTREE,
274 };
275 
276 static inline int tscs454_data_init(struct tscs454 *tscs454,
277 		struct i2c_client *i2c)
278 {
279 	int i;
280 	int ret;
281 
282 	tscs454->regmap = devm_regmap_init_i2c(i2c, &tscs454_regmap_cfg);
283 	if (IS_ERR(tscs454->regmap)) {
284 		ret = PTR_ERR(tscs454->regmap);
285 		return ret;
286 	}
287 
288 	for (i = 0; i < TSCS454_DAI_COUNT; i++)
289 		aif_init(&tscs454->aifs[i], i);
290 
291 	mutex_init(&tscs454->aifs_status_lock);
292 	pll_init(&tscs454->pll1, 1);
293 	pll_init(&tscs454->pll2, 2);
294 
295 	coeff_ram_init(&tscs454->dac_ram);
296 	coeff_ram_init(&tscs454->spk_ram);
297 	coeff_ram_init(&tscs454->sub_ram);
298 
299 	return 0;
300 }
301 
302 struct reg_setting {
303 	unsigned int addr;
304 	unsigned int val;
305 };
306 
307 static int coeff_ram_get(struct snd_kcontrol *kcontrol,
308 	struct snd_ctl_elem_value *ucontrol)
309 {
310 	struct snd_soc_component *component =
311 		snd_soc_kcontrol_component(kcontrol);
312 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
313 	struct coeff_ram_ctl *ctl =
314 		(struct coeff_ram_ctl *)kcontrol->private_value;
315 	struct soc_bytes_ext *params = &ctl->bytes_ext;
316 	u8 *coeff_ram;
317 	struct mutex *coeff_ram_lock;
318 
319 	if (strstr(kcontrol->id.name, "DAC")) {
320 		coeff_ram = tscs454->dac_ram.cache;
321 		coeff_ram_lock = &tscs454->dac_ram.lock;
322 	} else if (strstr(kcontrol->id.name, "Speaker")) {
323 		coeff_ram = tscs454->spk_ram.cache;
324 		coeff_ram_lock = &tscs454->spk_ram.lock;
325 	} else if (strstr(kcontrol->id.name, "Sub")) {
326 		coeff_ram = tscs454->sub_ram.cache;
327 		coeff_ram_lock = &tscs454->sub_ram.lock;
328 	} else {
329 		return -EINVAL;
330 	}
331 
332 	mutex_lock(coeff_ram_lock);
333 
334 	memcpy(ucontrol->value.bytes.data,
335 		&coeff_ram[ctl->addr * COEFF_SIZE], params->max);
336 
337 	mutex_unlock(coeff_ram_lock);
338 
339 	return 0;
340 }
341 
342 #define DACCRSTAT_MAX_TRYS 10
343 static int write_coeff_ram(struct snd_soc_component *component, u8 *coeff_ram,
344 		unsigned int r_stat, unsigned int r_addr, unsigned int r_wr,
345 		unsigned int coeff_addr, unsigned int coeff_cnt)
346 {
347 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
348 	unsigned int val;
349 	int cnt;
350 	int trys;
351 	int ret;
352 
353 	for (cnt = 0; cnt < coeff_cnt; cnt++, coeff_addr++) {
354 
355 		for (trys = 0; trys < DACCRSTAT_MAX_TRYS; trys++) {
356 			val = snd_soc_component_read(component, r_stat);
357 			if (!val)
358 				break;
359 		}
360 
361 		if (trys == DACCRSTAT_MAX_TRYS) {
362 			ret = -EIO;
363 			dev_err(component->dev,
364 				"Coefficient write error (%d)\n", ret);
365 			return ret;
366 		}
367 
368 		ret = regmap_write(tscs454->regmap, r_addr, coeff_addr);
369 		if (ret < 0) {
370 			dev_err(component->dev,
371 				"Failed to write dac ram address (%d)\n", ret);
372 			return ret;
373 		}
374 
375 		ret = regmap_bulk_write(tscs454->regmap, r_wr,
376 			&coeff_ram[coeff_addr * COEFF_SIZE],
377 			COEFF_SIZE);
378 		if (ret < 0) {
379 			dev_err(component->dev,
380 				"Failed to write dac ram (%d)\n", ret);
381 			return ret;
382 		}
383 	}
384 
385 	return 0;
386 }
387 
388 static int coeff_ram_put(struct snd_kcontrol *kcontrol,
389 	struct snd_ctl_elem_value *ucontrol)
390 {
391 	struct snd_soc_component *component =
392 		snd_soc_kcontrol_component(kcontrol);
393 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
394 	struct coeff_ram_ctl *ctl =
395 		(struct coeff_ram_ctl *)kcontrol->private_value;
396 	struct soc_bytes_ext *params = &ctl->bytes_ext;
397 	unsigned int coeff_cnt = params->max / COEFF_SIZE;
398 	u8 *coeff_ram;
399 	struct mutex *coeff_ram_lock;
400 	bool *coeff_ram_synced;
401 	unsigned int r_stat;
402 	unsigned int r_addr;
403 	unsigned int r_wr;
404 	unsigned int val;
405 	int ret;
406 
407 	if (strstr(kcontrol->id.name, "DAC")) {
408 		coeff_ram = tscs454->dac_ram.cache;
409 		coeff_ram_lock = &tscs454->dac_ram.lock;
410 		coeff_ram_synced = &tscs454->dac_ram.synced;
411 		r_stat = R_DACCRS;
412 		r_addr = R_DACCRADD;
413 		r_wr = R_DACCRWDL;
414 	} else if (strstr(kcontrol->id.name, "Speaker")) {
415 		coeff_ram = tscs454->spk_ram.cache;
416 		coeff_ram_lock = &tscs454->spk_ram.lock;
417 		coeff_ram_synced = &tscs454->spk_ram.synced;
418 		r_stat = R_SPKCRS;
419 		r_addr = R_SPKCRADD;
420 		r_wr = R_SPKCRWDL;
421 	} else if (strstr(kcontrol->id.name, "Sub")) {
422 		coeff_ram = tscs454->sub_ram.cache;
423 		coeff_ram_lock = &tscs454->sub_ram.lock;
424 		coeff_ram_synced = &tscs454->sub_ram.synced;
425 		r_stat = R_SUBCRS;
426 		r_addr = R_SUBCRADD;
427 		r_wr = R_SUBCRWDL;
428 	} else {
429 		return -EINVAL;
430 	}
431 
432 	mutex_lock(coeff_ram_lock);
433 
434 	*coeff_ram_synced = false;
435 
436 	memcpy(&coeff_ram[ctl->addr * COEFF_SIZE],
437 		ucontrol->value.bytes.data, params->max);
438 
439 	mutex_lock(&tscs454->pll1.lock);
440 	mutex_lock(&tscs454->pll2.lock);
441 
442 	val = snd_soc_component_read(component, R_PLLSTAT);
443 	if (val) { /* PLLs locked */
444 		ret = write_coeff_ram(component, coeff_ram,
445 			r_stat, r_addr, r_wr,
446 			ctl->addr, coeff_cnt);
447 		if (ret < 0) {
448 			dev_err(component->dev,
449 				"Failed to flush coeff ram cache (%d)\n", ret);
450 			goto exit;
451 		}
452 		*coeff_ram_synced = true;
453 	}
454 
455 	ret = 0;
456 exit:
457 	mutex_unlock(&tscs454->pll2.lock);
458 	mutex_unlock(&tscs454->pll1.lock);
459 	mutex_unlock(coeff_ram_lock);
460 
461 	return ret;
462 }
463 
464 static inline int coeff_ram_sync(struct snd_soc_component *component,
465 		struct tscs454 *tscs454)
466 {
467 	int ret;
468 
469 	mutex_lock(&tscs454->dac_ram.lock);
470 	if (!tscs454->dac_ram.synced) {
471 		ret = write_coeff_ram(component, tscs454->dac_ram.cache,
472 				R_DACCRS, R_DACCRADD, R_DACCRWDL,
473 				0x00, COEFF_RAM_COEFF_COUNT);
474 		if (ret < 0) {
475 			mutex_unlock(&tscs454->dac_ram.lock);
476 			return ret;
477 		}
478 	}
479 	mutex_unlock(&tscs454->dac_ram.lock);
480 
481 	mutex_lock(&tscs454->spk_ram.lock);
482 	if (!tscs454->spk_ram.synced) {
483 		ret = write_coeff_ram(component, tscs454->spk_ram.cache,
484 				R_SPKCRS, R_SPKCRADD, R_SPKCRWDL,
485 				0x00, COEFF_RAM_COEFF_COUNT);
486 		if (ret < 0) {
487 			mutex_unlock(&tscs454->spk_ram.lock);
488 			return ret;
489 		}
490 	}
491 	mutex_unlock(&tscs454->spk_ram.lock);
492 
493 	mutex_lock(&tscs454->sub_ram.lock);
494 	if (!tscs454->sub_ram.synced) {
495 		ret = write_coeff_ram(component, tscs454->sub_ram.cache,
496 				R_SUBCRS, R_SUBCRADD, R_SUBCRWDL,
497 				0x00, COEFF_RAM_COEFF_COUNT);
498 		if (ret < 0) {
499 			mutex_unlock(&tscs454->sub_ram.lock);
500 			return ret;
501 		}
502 	}
503 	mutex_unlock(&tscs454->sub_ram.lock);
504 
505 	return 0;
506 }
507 
508 #define PLL_REG_SETTINGS_COUNT 11
509 struct pll_ctl {
510 	int freq_in;
511 	struct reg_setting settings[PLL_REG_SETTINGS_COUNT];
512 };
513 
514 #define PLL_CTL(f, t, c1, r1, o1, f1l, f1h, c2, r2, o2, f2l, f2h)	\
515 	{								\
516 		.freq_in = f,						\
517 		.settings = {						\
518 			{R_PLL1CTL,	c1},				\
519 			{R_PLL1RDIV,	r1},				\
520 			{R_PLL1ODIV,	o1},				\
521 			{R_PLL1FDIVL,	f1l},				\
522 			{R_PLL1FDIVH,	f1h},				\
523 			{R_PLL2CTL,	c2},				\
524 			{R_PLL2RDIV,	r2},				\
525 			{R_PLL2ODIV,	o2},				\
526 			{R_PLL2FDIVL,	f2l},				\
527 			{R_PLL2FDIVH,	f2h},				\
528 			{R_TIMEBASE,	t},				\
529 		},							\
530 	}
531 
532 static const struct pll_ctl pll_ctls[] = {
533 	PLL_CTL(1411200, 0x05,
534 		0xB9, 0x07, 0x02, 0xC3, 0x04,
535 		0x5A, 0x02, 0x03, 0xE0, 0x01),
536 	PLL_CTL(1536000, 0x05,
537 		0x5A, 0x02, 0x03, 0xE0, 0x01,
538 		0x5A, 0x02, 0x03, 0xB9, 0x01),
539 	PLL_CTL(2822400, 0x0A,
540 		0x63, 0x07, 0x04, 0xC3, 0x04,
541 		0x62, 0x07, 0x03, 0x48, 0x03),
542 	PLL_CTL(3072000, 0x0B,
543 		0x62, 0x07, 0x03, 0x48, 0x03,
544 		0x5A, 0x04, 0x03, 0xB9, 0x01),
545 	PLL_CTL(5644800, 0x15,
546 		0x63, 0x0E, 0x04, 0xC3, 0x04,
547 		0x5A, 0x08, 0x03, 0xE0, 0x01),
548 	PLL_CTL(6144000, 0x17,
549 		0x5A, 0x08, 0x03, 0xE0, 0x01,
550 		0x5A, 0x08, 0x03, 0xB9, 0x01),
551 	PLL_CTL(12000000, 0x2E,
552 		0x5B, 0x19, 0x03, 0x00, 0x03,
553 		0x6A, 0x19, 0x05, 0x98, 0x04),
554 	PLL_CTL(19200000, 0x4A,
555 		0x53, 0x14, 0x03, 0x80, 0x01,
556 		0x5A, 0x19, 0x03, 0xB9, 0x01),
557 	PLL_CTL(22000000, 0x55,
558 		0x6A, 0x37, 0x05, 0x00, 0x06,
559 		0x62, 0x26, 0x03, 0x49, 0x02),
560 	PLL_CTL(22579200, 0x57,
561 		0x62, 0x31, 0x03, 0x20, 0x03,
562 		0x53, 0x1D, 0x03, 0xB3, 0x01),
563 	PLL_CTL(24000000, 0x5D,
564 		0x53, 0x19, 0x03, 0x80, 0x01,
565 		0x5B, 0x19, 0x05, 0x4C, 0x02),
566 	PLL_CTL(24576000, 0x5F,
567 		0x53, 0x1D, 0x03, 0xB3, 0x01,
568 		0x62, 0x40, 0x03, 0x72, 0x03),
569 	PLL_CTL(27000000, 0x68,
570 		0x62, 0x4B, 0x03, 0x00, 0x04,
571 		0x6A, 0x7D, 0x03, 0x20, 0x06),
572 	PLL_CTL(36000000, 0x8C,
573 		0x5B, 0x4B, 0x03, 0x00, 0x03,
574 		0x6A, 0x7D, 0x03, 0x98, 0x04),
575 	PLL_CTL(11289600, 0x2B,
576 		0x6A, 0x31, 0x03, 0x40, 0x06,
577 		0x5A, 0x12, 0x03, 0x1C, 0x02),
578 	PLL_CTL(26000000, 0x65,
579 		0x63, 0x41, 0x05, 0x00, 0x06,
580 		0x5A, 0x26, 0x03, 0xEF, 0x01),
581 	PLL_CTL(12288000, 0x2F,
582 		0x5A, 0x12, 0x03, 0x1C, 0x02,
583 		0x62, 0x20, 0x03, 0x72, 0x03),
584 	PLL_CTL(40000000, 0x9B,
585 		0xA2, 0x7D, 0x03, 0x80, 0x04,
586 		0x63, 0x7D, 0x05, 0xE4, 0x06),
587 	PLL_CTL(512000, 0x01,
588 		0x62, 0x01, 0x03, 0xD0, 0x02,
589 		0x5B, 0x01, 0x04, 0x72, 0x03),
590 	PLL_CTL(705600, 0x02,
591 		0x62, 0x02, 0x03, 0x15, 0x04,
592 		0x62, 0x01, 0x04, 0x80, 0x02),
593 	PLL_CTL(1024000, 0x03,
594 		0x62, 0x02, 0x03, 0xD0, 0x02,
595 		0x5B, 0x02, 0x04, 0x72, 0x03),
596 	PLL_CTL(2048000, 0x07,
597 		0x62, 0x04, 0x03, 0xD0, 0x02,
598 		0x5B, 0x04, 0x04, 0x72, 0x03),
599 	PLL_CTL(2400000, 0x08,
600 		0x62, 0x05, 0x03, 0x00, 0x03,
601 		0x63, 0x05, 0x05, 0x98, 0x04),
602 };
603 
604 static inline const struct pll_ctl *get_pll_ctl(unsigned long freq_in)
605 {
606 	int i;
607 	struct pll_ctl const *pll_ctl = NULL;
608 
609 	for (i = 0; i < ARRAY_SIZE(pll_ctls); ++i)
610 		if (pll_ctls[i].freq_in == freq_in) {
611 			pll_ctl = &pll_ctls[i];
612 			break;
613 		}
614 
615 	return pll_ctl;
616 }
617 
618 enum {
619 	PLL_INPUT_XTAL = 0,
620 	PLL_INPUT_MCLK1,
621 	PLL_INPUT_MCLK2,
622 	PLL_INPUT_BCLK,
623 };
624 
625 static int set_sysclk(struct snd_soc_component *component)
626 {
627 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
628 	struct pll_ctl const *pll_ctl;
629 	unsigned long freq;
630 	int i;
631 	int ret;
632 
633 	if (tscs454->sysclk_src_id < PLL_INPUT_BCLK)
634 		freq = clk_get_rate(tscs454->sysclk);
635 	else
636 		freq = tscs454->bclk_freq;
637 	pll_ctl = get_pll_ctl(freq);
638 	if (!pll_ctl) {
639 		ret = -EINVAL;
640 		dev_err(component->dev,
641 				"Invalid PLL input %lu (%d)\n", freq, ret);
642 		return ret;
643 	}
644 
645 	for (i = 0; i < PLL_REG_SETTINGS_COUNT; ++i) {
646 		ret = snd_soc_component_write(component,
647 				pll_ctl->settings[i].addr,
648 				pll_ctl->settings[i].val);
649 		if (ret < 0) {
650 			dev_err(component->dev,
651 					"Failed to set pll setting (%d)\n",
652 					ret);
653 			return ret;
654 		}
655 	}
656 
657 	return 0;
658 }
659 
660 static inline void reserve_pll(struct pll *pll)
661 {
662 	mutex_lock(&pll->lock);
663 	pll->users++;
664 	mutex_unlock(&pll->lock);
665 }
666 
667 static inline void free_pll(struct pll *pll)
668 {
669 	mutex_lock(&pll->lock);
670 	pll->users--;
671 	mutex_unlock(&pll->lock);
672 }
673 
674 static int pll_connected(struct snd_soc_dapm_widget *source,
675 		struct snd_soc_dapm_widget *sink)
676 {
677 	struct snd_soc_component *component =
678 		snd_soc_dapm_to_component(source->dapm);
679 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
680 	int users;
681 
682 	if (strstr(source->name, "PLL 1")) {
683 		mutex_lock(&tscs454->pll1.lock);
684 		users = tscs454->pll1.users;
685 		mutex_unlock(&tscs454->pll1.lock);
686 		dev_dbg(component->dev, "%s(): PLL 1 users = %d\n", __func__,
687 				users);
688 	} else {
689 		mutex_lock(&tscs454->pll2.lock);
690 		users = tscs454->pll2.users;
691 		mutex_unlock(&tscs454->pll2.lock);
692 		dev_dbg(component->dev, "%s(): PLL 2 users = %d\n", __func__,
693 				users);
694 	}
695 
696 	return users;
697 }
698 
699 /*
700  * PLL must be enabled after power up and must be disabled before power down
701  * for proper clock switching.
702  */
703 static int pll_power_event(struct snd_soc_dapm_widget *w,
704 		struct snd_kcontrol *kcontrol, int event)
705 {
706 	struct snd_soc_component *component =
707 		snd_soc_dapm_to_component(w->dapm);
708 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
709 	bool enable;
710 	bool pll1;
711 	unsigned int msk;
712 	unsigned int val;
713 	int ret;
714 
715 	if (strstr(w->name, "PLL 1"))
716 		pll1 = true;
717 	else
718 		pll1 = false;
719 
720 	msk = pll1 ? FM_PLLCTL_PLL1CLKEN : FM_PLLCTL_PLL2CLKEN;
721 
722 	if (event == SND_SOC_DAPM_POST_PMU)
723 		enable = true;
724 	else
725 		enable = false;
726 
727 	if (enable)
728 		val = pll1 ? FV_PLL1CLKEN_ENABLE : FV_PLL2CLKEN_ENABLE;
729 	else
730 		/*
731 		 * FV_PLL1CLKEN_DISABLE and FV_PLL2CLKEN_DISABLE are
732 		 * identical zero vzalues, there is no need to test
733 		 * the PLL index
734 		 */
735 		val = FV_PLL1CLKEN_DISABLE;
736 
737 	ret = snd_soc_component_update_bits(component, R_PLLCTL, msk, val);
738 	if (ret < 0) {
739 		dev_err(component->dev, "Failed to %s PLL %d  (%d)\n",
740 				enable ? "enable" : "disable",
741 				pll1 ? 1 : 2,
742 				ret);
743 		return ret;
744 	}
745 
746 	if (enable) {
747 		msleep(20); // Wait for lock
748 		ret = coeff_ram_sync(component, tscs454);
749 		if (ret < 0) {
750 			dev_err(component->dev,
751 					"Failed to sync coeff ram (%d)\n", ret);
752 			return ret;
753 		}
754 	}
755 
756 	return 0;
757 }
758 
759 static inline int aif_set_provider(struct snd_soc_component *component,
760 		unsigned int aif_id, bool provider)
761 {
762 	unsigned int reg;
763 	unsigned int mask;
764 	unsigned int val;
765 	int ret;
766 
767 	switch (aif_id) {
768 	case TSCS454_DAI1_ID:
769 		reg = R_I2SP1CTL;
770 		break;
771 	case TSCS454_DAI2_ID:
772 		reg = R_I2SP2CTL;
773 		break;
774 	case TSCS454_DAI3_ID:
775 		reg = R_I2SP3CTL;
776 		break;
777 	default:
778 		ret = -ENODEV;
779 		dev_err(component->dev, "Unknown DAI %d (%d)\n", aif_id, ret);
780 		return ret;
781 	}
782 	mask = FM_I2SPCTL_PORTMS;
783 	val = provider ? FV_PORTMS_MASTER : FV_PORTMS_SLAVE;
784 
785 	ret = snd_soc_component_update_bits(component, reg, mask, val);
786 	if (ret < 0) {
787 		dev_err(component->dev, "Failed to set DAI %d to %s (%d)\n",
788 			aif_id, provider ? "provider" : "consumer", ret);
789 		return ret;
790 	}
791 
792 	return 0;
793 }
794 
795 static inline
796 int aif_prepare(struct snd_soc_component *component, struct aif *aif)
797 {
798 	int ret;
799 
800 	ret = aif_set_provider(component, aif->id, aif->provider);
801 	if (ret < 0)
802 		return ret;
803 
804 	return 0;
805 }
806 
807 static inline int aif_free(struct snd_soc_component *component,
808 		struct aif *aif, bool playback)
809 {
810 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
811 
812 	mutex_lock(&tscs454->aifs_status_lock);
813 
814 	dev_dbg(component->dev, "%s(): aif %d\n", __func__, aif->id);
815 
816 	set_aif_status_inactive(&tscs454->aifs_status, aif->id, playback);
817 
818 	dev_dbg(component->dev, "Set aif %d inactive. Streams status is 0x%x\n",
819 		aif->id, tscs454->aifs_status.streams);
820 
821 	if (!aif_active(&tscs454->aifs_status, aif->id)) {
822 		/* Do config in slave mode */
823 		aif_set_provider(component, aif->id, false);
824 		dev_dbg(component->dev, "Freeing pll %d from aif %d\n",
825 				aif->pll->id, aif->id);
826 		free_pll(aif->pll);
827 	}
828 
829 	if (!aifs_active(&tscs454->aifs_status)) {
830 		dev_dbg(component->dev, "Freeing pll %d from ir\n",
831 				tscs454->internal_rate.pll->id);
832 		free_pll(tscs454->internal_rate.pll);
833 	}
834 
835 	mutex_unlock(&tscs454->aifs_status_lock);
836 
837 	return 0;
838 }
839 
840 /* R_PLLCTL PG 0 ADDR 0x15 */
841 static char const * const bclk_sel_txt[] = {
842 		"BCLK 1", "BCLK 2", "BCLK 3"};
843 
844 static struct soc_enum const bclk_sel_enum =
845 		SOC_ENUM_SINGLE(R_PLLCTL, FB_PLLCTL_BCLKSEL,
846 				ARRAY_SIZE(bclk_sel_txt), bclk_sel_txt);
847 
848 /* R_ISRC PG 0 ADDR 0x16 */
849 static char const * const isrc_br_txt[] = {
850 		"44.1kHz", "48kHz"};
851 
852 static struct soc_enum const isrc_br_enum =
853 		SOC_ENUM_SINGLE(R_ISRC, FB_ISRC_IBR,
854 				ARRAY_SIZE(isrc_br_txt), isrc_br_txt);
855 
856 static char const * const isrc_bm_txt[] = {
857 		"0.25x", "0.5x", "1.0x", "2.0x"};
858 
859 static struct soc_enum const isrc_bm_enum =
860 		SOC_ENUM_SINGLE(R_ISRC, FB_ISRC_IBM,
861 				ARRAY_SIZE(isrc_bm_txt), isrc_bm_txt);
862 
863 /* R_SCLKCTL PG 0 ADDR 0x18 */
864 static char const * const modular_rate_txt[] = {
865 	"Reserved", "Half", "Full", "Auto",};
866 
867 static struct soc_enum const adc_modular_rate_enum =
868 	SOC_ENUM_SINGLE(R_SCLKCTL, FB_SCLKCTL_ASDM,
869 			ARRAY_SIZE(modular_rate_txt), modular_rate_txt);
870 
871 static struct soc_enum const dac_modular_rate_enum =
872 	SOC_ENUM_SINGLE(R_SCLKCTL, FB_SCLKCTL_DSDM,
873 			ARRAY_SIZE(modular_rate_txt), modular_rate_txt);
874 
875 /* R_I2SIDCTL PG 0 ADDR 0x38 */
876 static char const * const data_ctrl_txt[] = {
877 	"L/R", "L/L", "R/R", "R/L"};
878 
879 static struct soc_enum const data_in_ctrl_enums[] = {
880 	SOC_ENUM_SINGLE(R_I2SIDCTL, FB_I2SIDCTL_I2SI1DCTL,
881 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
882 	SOC_ENUM_SINGLE(R_I2SIDCTL, FB_I2SIDCTL_I2SI2DCTL,
883 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
884 	SOC_ENUM_SINGLE(R_I2SIDCTL, FB_I2SIDCTL_I2SI3DCTL,
885 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
886 };
887 
888 /* R_I2SODCTL PG 0 ADDR 0x39 */
889 static struct soc_enum const data_out_ctrl_enums[] = {
890 	SOC_ENUM_SINGLE(R_I2SODCTL, FB_I2SODCTL_I2SO1DCTL,
891 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
892 	SOC_ENUM_SINGLE(R_I2SODCTL, FB_I2SODCTL_I2SO2DCTL,
893 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
894 	SOC_ENUM_SINGLE(R_I2SODCTL, FB_I2SODCTL_I2SO3DCTL,
895 			ARRAY_SIZE(data_ctrl_txt), data_ctrl_txt),
896 };
897 
898 /* R_AUDIOMUX1 PG 0 ADDR 0x3A */
899 static char const * const asrc_mux_txt[] = {
900 		"None", "DAI 1", "DAI 2", "DAI 3"};
901 
902 static struct soc_enum const asrc_in_mux_enum =
903 		SOC_ENUM_SINGLE(R_AUDIOMUX1, FB_AUDIOMUX1_ASRCIMUX,
904 				ARRAY_SIZE(asrc_mux_txt), asrc_mux_txt);
905 
906 static char const * const dai_mux_txt[] = {
907 		"CH 0_1", "CH 2_3", "CH 4_5", "ADC/DMic 1",
908 		"DMic 2", "ClassD", "DAC", "Sub"};
909 
910 static struct soc_enum const dai2_mux_enum =
911 		SOC_ENUM_SINGLE(R_AUDIOMUX1, FB_AUDIOMUX1_I2S2MUX,
912 				ARRAY_SIZE(dai_mux_txt), dai_mux_txt);
913 
914 static struct snd_kcontrol_new const dai2_mux_dapm_enum =
915 		SOC_DAPM_ENUM("DAI 2 Mux",  dai2_mux_enum);
916 
917 static struct soc_enum const dai1_mux_enum =
918 		SOC_ENUM_SINGLE(R_AUDIOMUX1, FB_AUDIOMUX1_I2S1MUX,
919 				ARRAY_SIZE(dai_mux_txt), dai_mux_txt);
920 
921 static struct snd_kcontrol_new const dai1_mux_dapm_enum =
922 		SOC_DAPM_ENUM("DAI 1 Mux", dai1_mux_enum);
923 
924 /* R_AUDIOMUX2 PG 0 ADDR 0x3B */
925 static struct soc_enum const asrc_out_mux_enum =
926 		SOC_ENUM_SINGLE(R_AUDIOMUX2, FB_AUDIOMUX2_ASRCOMUX,
927 				ARRAY_SIZE(asrc_mux_txt), asrc_mux_txt);
928 
929 static struct soc_enum const dac_mux_enum =
930 		SOC_ENUM_SINGLE(R_AUDIOMUX2, FB_AUDIOMUX2_DACMUX,
931 				ARRAY_SIZE(dai_mux_txt), dai_mux_txt);
932 
933 static struct snd_kcontrol_new const dac_mux_dapm_enum =
934 		SOC_DAPM_ENUM("DAC Mux", dac_mux_enum);
935 
936 static struct soc_enum const dai3_mux_enum =
937 		SOC_ENUM_SINGLE(R_AUDIOMUX2, FB_AUDIOMUX2_I2S3MUX,
938 				ARRAY_SIZE(dai_mux_txt), dai_mux_txt);
939 
940 static struct snd_kcontrol_new const dai3_mux_dapm_enum =
941 		SOC_DAPM_ENUM("DAI 3 Mux", dai3_mux_enum);
942 
943 /* R_AUDIOMUX3 PG 0 ADDR 0x3C */
944 static char const * const sub_mux_txt[] = {
945 		"CH 0", "CH 1", "CH 0 + 1",
946 		"CH 2", "CH 3", "CH 2 + 3",
947 		"CH 4", "CH 5", "CH 4 + 5",
948 		"ADC/DMic 1 Left", "ADC/DMic 1 Right",
949 		"ADC/DMic 1 Left Plus Right",
950 		"DMic 2 Left", "DMic 2 Right", "DMic 2 Left Plus Right",
951 		"ClassD Left", "ClassD Right", "ClassD Left Plus Right"};
952 
953 static struct soc_enum const sub_mux_enum =
954 		SOC_ENUM_SINGLE(R_AUDIOMUX3, FB_AUDIOMUX3_SUBMUX,
955 				ARRAY_SIZE(sub_mux_txt), sub_mux_txt);
956 
957 static struct snd_kcontrol_new const sub_mux_dapm_enum =
958 		SOC_DAPM_ENUM("Sub Mux", sub_mux_enum);
959 
960 static struct soc_enum const classd_mux_enum =
961 		SOC_ENUM_SINGLE(R_AUDIOMUX3, FB_AUDIOMUX3_CLSSDMUX,
962 				ARRAY_SIZE(dai_mux_txt), dai_mux_txt);
963 
964 static struct snd_kcontrol_new const classd_mux_dapm_enum =
965 		SOC_DAPM_ENUM("ClassD Mux", classd_mux_enum);
966 
967 /* R_HSDCTL1 PG 1 ADDR 0x01 */
968 static char const * const jack_type_txt[] = {
969 		"3 Terminal", "4 Terminal"};
970 
971 static struct soc_enum const hp_jack_type_enum =
972 		SOC_ENUM_SINGLE(R_HSDCTL1, FB_HSDCTL1_HPJKTYPE,
973 				ARRAY_SIZE(jack_type_txt), jack_type_txt);
974 
975 static char const * const hs_det_pol_txt[] = {
976 		"Rising", "Falling"};
977 
978 static struct soc_enum const hs_det_pol_enum =
979 		SOC_ENUM_SINGLE(R_HSDCTL1, FB_HSDCTL1_HSDETPOL,
980 				ARRAY_SIZE(hs_det_pol_txt), hs_det_pol_txt);
981 
982 /* R_HSDCTL1 PG 1 ADDR 0x02 */
983 static char const * const hs_mic_bias_force_txt[] = {
984 		"Off", "Ring", "Sleeve"};
985 
986 static struct soc_enum const hs_mic_bias_force_enum =
987 		SOC_ENUM_SINGLE(R_HSDCTL2, FB_HSDCTL2_FMICBIAS1,
988 				ARRAY_SIZE(hs_mic_bias_force_txt),
989 				hs_mic_bias_force_txt);
990 
991 static char const * const plug_type_txt[] = {
992 		"OMTP", "CTIA", "Reserved", "Headphone"};
993 
994 static struct soc_enum const plug_type_force_enum =
995 		SOC_ENUM_SINGLE(R_HSDCTL2, FB_HSDCTL2_FPLUGTYPE,
996 		ARRAY_SIZE(plug_type_txt), plug_type_txt);
997 
998 
999 /* R_CH0AIC PG 1 ADDR 0x06 */
1000 static char const * const in_bst_mux_txt[] = {
1001 		"Input 1", "Input 2", "Input 3", "D2S"};
1002 
1003 static struct soc_enum const in_bst_mux_ch0_enum =
1004 		SOC_ENUM_SINGLE(R_CH0AIC, FB_CH0AIC_INSELL,
1005 				ARRAY_SIZE(in_bst_mux_txt),
1006 				in_bst_mux_txt);
1007 static struct snd_kcontrol_new const in_bst_mux_ch0_dapm_enum =
1008 		SOC_DAPM_ENUM("Input Boost Channel 0 Enum",
1009 				in_bst_mux_ch0_enum);
1010 
1011 static DECLARE_TLV_DB_SCALE(in_bst_vol_tlv_arr, 0, 1000, 0);
1012 
1013 static char const * const adc_mux_txt[] = {
1014 		"Input 1 Boost Bypass", "Input 2 Boost Bypass",
1015 		"Input 3 Boost Bypass", "Input Boost"};
1016 
1017 static struct soc_enum const adc_mux_ch0_enum =
1018 		SOC_ENUM_SINGLE(R_CH0AIC, FB_CH0AIC_LADCIN,
1019 				ARRAY_SIZE(adc_mux_txt), adc_mux_txt);
1020 static struct snd_kcontrol_new const adc_mux_ch0_dapm_enum =
1021 		SOC_DAPM_ENUM("ADC Channel 0 Enum", adc_mux_ch0_enum);
1022 
1023 static char const * const in_proc_mux_txt[] = {
1024 		"ADC", "DMic"};
1025 
1026 static struct soc_enum const in_proc_ch0_enum =
1027 		SOC_ENUM_SINGLE(R_CH0AIC, FB_CH0AIC_IPCH0S,
1028 				ARRAY_SIZE(in_proc_mux_txt), in_proc_mux_txt);
1029 static struct snd_kcontrol_new const in_proc_mux_ch0_dapm_enum =
1030 		SOC_DAPM_ENUM("Input Processor Channel 0 Enum",
1031 				in_proc_ch0_enum);
1032 
1033 /* R_CH1AIC PG 1 ADDR 0x07 */
1034 static struct soc_enum const in_bst_mux_ch1_enum =
1035 		SOC_ENUM_SINGLE(R_CH1AIC, FB_CH1AIC_INSELR,
1036 				ARRAY_SIZE(in_bst_mux_txt),
1037 				in_bst_mux_txt);
1038 static struct snd_kcontrol_new const in_bst_mux_ch1_dapm_enum =
1039 		SOC_DAPM_ENUM("Input Boost Channel 1 Enum",
1040 				in_bst_mux_ch1_enum);
1041 
1042 static struct soc_enum const adc_mux_ch1_enum =
1043 		SOC_ENUM_SINGLE(R_CH1AIC, FB_CH1AIC_RADCIN,
1044 				ARRAY_SIZE(adc_mux_txt), adc_mux_txt);
1045 static struct snd_kcontrol_new const adc_mux_ch1_dapm_enum =
1046 		SOC_DAPM_ENUM("ADC Channel 1 Enum", adc_mux_ch1_enum);
1047 
1048 static struct soc_enum const in_proc_ch1_enum =
1049 		SOC_ENUM_SINGLE(R_CH1AIC, FB_CH1AIC_IPCH1S,
1050 				ARRAY_SIZE(in_proc_mux_txt), in_proc_mux_txt);
1051 static struct snd_kcontrol_new const in_proc_mux_ch1_dapm_enum =
1052 		SOC_DAPM_ENUM("Input Processor Channel 1 Enum",
1053 				in_proc_ch1_enum);
1054 
1055 /* R_ICTL0 PG 1 ADDR 0x0A */
1056 static char const * const pol_txt[] = {
1057 		"Normal", "Invert"};
1058 
1059 static struct soc_enum const in_pol_ch1_enum =
1060 		SOC_ENUM_SINGLE(R_ICTL0, FB_ICTL0_IN0POL,
1061 				ARRAY_SIZE(pol_txt), pol_txt);
1062 
1063 static struct soc_enum const in_pol_ch0_enum =
1064 		SOC_ENUM_SINGLE(R_ICTL0, FB_ICTL0_IN1POL,
1065 				ARRAY_SIZE(pol_txt), pol_txt);
1066 
1067 static char const * const in_proc_ch_sel_txt[] = {
1068 		"Normal", "Mono Mix to Channel 0",
1069 		"Mono Mix to Channel 1", "Add"};
1070 
1071 static struct soc_enum const in_proc_ch01_sel_enum =
1072 		SOC_ENUM_SINGLE(R_ICTL0, FB_ICTL0_INPCH10SEL,
1073 				ARRAY_SIZE(in_proc_ch_sel_txt),
1074 				in_proc_ch_sel_txt);
1075 
1076 /* R_ICTL1 PG 1 ADDR 0x0B */
1077 static struct soc_enum const in_pol_ch3_enum =
1078 		SOC_ENUM_SINGLE(R_ICTL1, FB_ICTL1_IN2POL,
1079 				ARRAY_SIZE(pol_txt), pol_txt);
1080 
1081 static struct soc_enum const in_pol_ch2_enum =
1082 		SOC_ENUM_SINGLE(R_ICTL1, FB_ICTL1_IN3POL,
1083 				ARRAY_SIZE(pol_txt), pol_txt);
1084 
1085 static struct soc_enum const in_proc_ch23_sel_enum =
1086 		SOC_ENUM_SINGLE(R_ICTL1, FB_ICTL1_INPCH32SEL,
1087 				ARRAY_SIZE(in_proc_ch_sel_txt),
1088 				in_proc_ch_sel_txt);
1089 
1090 /* R_MICBIAS PG 1 ADDR 0x0C */
1091 static char const * const mic_bias_txt[] = {
1092 		"2.5V", "2.1V", "1.8V", "Vdd"};
1093 
1094 static struct soc_enum const mic_bias_2_enum =
1095 		SOC_ENUM_SINGLE(R_MICBIAS, FB_MICBIAS_MICBOV2,
1096 				ARRAY_SIZE(mic_bias_txt), mic_bias_txt);
1097 
1098 static struct soc_enum const mic_bias_1_enum =
1099 		SOC_ENUM_SINGLE(R_MICBIAS, FB_MICBIAS_MICBOV1,
1100 				ARRAY_SIZE(mic_bias_txt), mic_bias_txt);
1101 
1102 /* R_PGACTL0 PG 1 ADDR 0x0D */
1103 /* R_PGACTL1 PG 1 ADDR 0x0E */
1104 /* R_PGACTL2 PG 1 ADDR 0x0F */
1105 /* R_PGACTL3 PG 1 ADDR 0x10 */
1106 static DECLARE_TLV_DB_SCALE(in_pga_vol_tlv_arr, -1725, 75, 0);
1107 
1108 /* R_ICH0VOL PG1 ADDR 0x12 */
1109 /* R_ICH1VOL PG1 ADDR 0x13 */
1110 /* R_ICH2VOL PG1 ADDR 0x14 */
1111 /* R_ICH3VOL PG1 ADDR 0x15 */
1112 static DECLARE_TLV_DB_MINMAX(in_vol_tlv_arr, -7125, 2400);
1113 
1114 /* R_ASRCILVOL PG1 ADDR 0x16 */
1115 /* R_ASRCIRVOL PG1 ADDR 0x17 */
1116 /* R_ASRCOLVOL PG1 ADDR 0x18 */
1117 /* R_ASRCORVOL PG1 ADDR 0x19 */
1118 static DECLARE_TLV_DB_MINMAX(asrc_vol_tlv_arr, -9562, 600);
1119 
1120 /* R_ALCCTL0 PG1 ADDR 0x1D */
1121 static char const * const alc_mode_txt[] = {
1122 		"ALC", "Limiter"};
1123 
1124 static struct soc_enum const alc_mode_enum =
1125 		SOC_ENUM_SINGLE(R_ALCCTL0, FB_ALCCTL0_ALCMODE,
1126 				ARRAY_SIZE(alc_mode_txt), alc_mode_txt);
1127 
1128 static char const * const alc_ref_text[] = {
1129 		"Channel 0", "Channel 1", "Channel 2", "Channel 3", "Peak"};
1130 
1131 static struct soc_enum const alc_ref_enum =
1132 		SOC_ENUM_SINGLE(R_ALCCTL0, FB_ALCCTL0_ALCREF,
1133 				ARRAY_SIZE(alc_ref_text), alc_ref_text);
1134 
1135 /* R_ALCCTL1 PG 1 ADDR 0x1E */
1136 static DECLARE_TLV_DB_SCALE(alc_max_gain_tlv_arr, -1200, 600, 0);
1137 static DECLARE_TLV_DB_SCALE(alc_target_tlv_arr, -2850, 150, 0);
1138 
1139 /* R_ALCCTL2 PG 1 ADDR 0x1F */
1140 static DECLARE_TLV_DB_SCALE(alc_min_gain_tlv_arr, -1725, 600, 0);
1141 
1142 /* R_NGATE PG 1 ADDR 0x21 */
1143 static DECLARE_TLV_DB_SCALE(ngth_tlv_arr, -7650, 150, 0);
1144 
1145 static char const * const ngate_type_txt[] = {
1146 		"PGA Constant", "ADC Mute"};
1147 
1148 static struct soc_enum const ngate_type_enum =
1149 		SOC_ENUM_SINGLE(R_NGATE, FB_NGATE_NGG,
1150 				ARRAY_SIZE(ngate_type_txt), ngate_type_txt);
1151 
1152 /* R_DMICCTL PG 1 ADDR 0x22 */
1153 static char const * const dmic_mono_sel_txt[] = {
1154 		"Stereo", "Mono"};
1155 
1156 static struct soc_enum const dmic_mono_sel_enum =
1157 		SOC_ENUM_SINGLE(R_DMICCTL, FB_DMICCTL_DMONO,
1158 			ARRAY_SIZE(dmic_mono_sel_txt), dmic_mono_sel_txt);
1159 
1160 /* R_DACCTL PG 2 ADDR 0x01 */
1161 static struct soc_enum const dac_pol_r_enum =
1162 		SOC_ENUM_SINGLE(R_DACCTL, FB_DACCTL_DACPOLR,
1163 			ARRAY_SIZE(pol_txt), pol_txt);
1164 
1165 static struct soc_enum const dac_pol_l_enum =
1166 		SOC_ENUM_SINGLE(R_DACCTL, FB_DACCTL_DACPOLL,
1167 			ARRAY_SIZE(pol_txt), pol_txt);
1168 
1169 static char const * const dac_dith_txt[] = {
1170 		"Half", "Full", "Disabled", "Static"};
1171 
1172 static struct soc_enum const dac_dith_enum =
1173 		SOC_ENUM_SINGLE(R_DACCTL, FB_DACCTL_DACDITH,
1174 			ARRAY_SIZE(dac_dith_txt), dac_dith_txt);
1175 
1176 /* R_SPKCTL PG 2 ADDR 0x02 */
1177 static struct soc_enum const spk_pol_r_enum =
1178 		SOC_ENUM_SINGLE(R_SPKCTL, FB_SPKCTL_SPKPOLR,
1179 				ARRAY_SIZE(pol_txt), pol_txt);
1180 
1181 static struct soc_enum const spk_pol_l_enum =
1182 		SOC_ENUM_SINGLE(R_SPKCTL, FB_SPKCTL_SPKPOLL,
1183 				ARRAY_SIZE(pol_txt), pol_txt);
1184 
1185 /* R_SUBCTL PG 2 ADDR 0x03 */
1186 static struct soc_enum const sub_pol_enum =
1187 		SOC_ENUM_SINGLE(R_SUBCTL, FB_SUBCTL_SUBPOL,
1188 				ARRAY_SIZE(pol_txt), pol_txt);
1189 
1190 /* R_MVOLL PG 2 ADDR 0x08 */
1191 /* R_MVOLR PG 2 ADDR 0x09 */
1192 static DECLARE_TLV_DB_MINMAX(mvol_tlv_arr, -9562, 0);
1193 
1194 /* R_HPVOLL PG 2 ADDR 0x0A */
1195 /* R_HPVOLR PG 2 ADDR 0x0B */
1196 static DECLARE_TLV_DB_SCALE(hp_vol_tlv_arr, -8850, 75, 0);
1197 
1198 /* R_SPKVOLL PG 2 ADDR 0x0C */
1199 /* R_SPKVOLR PG 2 ADDR 0x0D */
1200 static DECLARE_TLV_DB_SCALE(spk_vol_tlv_arr, -7725, 75, 0);
1201 
1202 /* R_SPKEQFILT PG 3 ADDR 0x01 */
1203 static char const * const eq_txt[] = {
1204 	"Pre Scale",
1205 	"Pre Scale + EQ Band 0",
1206 	"Pre Scale + EQ Band 0 - 1",
1207 	"Pre Scale + EQ Band 0 - 2",
1208 	"Pre Scale + EQ Band 0 - 3",
1209 	"Pre Scale + EQ Band 0 - 4",
1210 	"Pre Scale + EQ Band 0 - 5",
1211 };
1212 
1213 static struct soc_enum const spk_eq_enums[] = {
1214 	SOC_ENUM_SINGLE(R_SPKEQFILT, FB_SPKEQFILT_EQ2BE,
1215 		ARRAY_SIZE(eq_txt), eq_txt),
1216 	SOC_ENUM_SINGLE(R_SPKEQFILT, FB_SPKEQFILT_EQ1BE,
1217 		ARRAY_SIZE(eq_txt), eq_txt),
1218 };
1219 
1220 /* R_SPKMBCCTL PG 3 ADDR 0x0B */
1221 static char const * const lvl_mode_txt[] = {
1222 		"Average", "Peak"};
1223 
1224 static struct soc_enum const spk_mbc3_lvl_det_mode_enum =
1225 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_LVLMODE3,
1226 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1227 
1228 static char const * const win_sel_txt[] = {
1229 		"512", "64"};
1230 
1231 static struct soc_enum const spk_mbc3_win_sel_enum =
1232 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_WINSEL3,
1233 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1234 
1235 static struct soc_enum const spk_mbc2_lvl_det_mode_enum =
1236 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_LVLMODE2,
1237 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1238 
1239 static struct soc_enum const spk_mbc2_win_sel_enum =
1240 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_WINSEL2,
1241 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1242 
1243 static struct soc_enum const spk_mbc1_lvl_det_mode_enum =
1244 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_LVLMODE1,
1245 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1246 
1247 static struct soc_enum const spk_mbc1_win_sel_enum =
1248 		SOC_ENUM_SINGLE(R_SPKMBCCTL, FB_SPKMBCCTL_WINSEL1,
1249 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1250 
1251 /* R_SPKMBCMUG1 PG 3 ADDR 0x0C */
1252 static struct soc_enum const spk_mbc1_phase_pol_enum =
1253 		SOC_ENUM_SINGLE(R_SPKMBCMUG1, FB_SPKMBCMUG_PHASE,
1254 				ARRAY_SIZE(pol_txt), pol_txt);
1255 
1256 static DECLARE_TLV_DB_MINMAX(mbc_mug_tlv_arr, -4650, 0);
1257 
1258 /* R_SPKMBCTHR1 PG 3 ADDR 0x0D */
1259 static DECLARE_TLV_DB_MINMAX(thr_tlv_arr, -9562, 0);
1260 
1261 /* R_SPKMBCRAT1 PG 3 ADDR 0x0E */
1262 static char const * const comp_rat_txt[] = {
1263 		"Reserved", "1.5:1", "2:1", "3:1", "4:1", "5:1", "6:1",
1264 		"7:1", "8:1", "9:1", "10:1", "11:1", "12:1", "13:1", "14:1",
1265 		"15:1", "16:1", "17:1", "18:1", "19:1", "20:1"};
1266 
1267 static struct soc_enum const spk_mbc1_comp_rat_enum =
1268 		SOC_ENUM_SINGLE(R_SPKMBCRAT1, FB_SPKMBCRAT_RATIO,
1269 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1270 
1271 /* R_SPKMBCMUG2 PG 3 ADDR 0x13 */
1272 static struct soc_enum const spk_mbc2_phase_pol_enum =
1273 		SOC_ENUM_SINGLE(R_SPKMBCMUG2, FB_SPKMBCMUG_PHASE,
1274 				ARRAY_SIZE(pol_txt), pol_txt);
1275 
1276 /* R_SPKMBCRAT2 PG 3 ADDR 0x15 */
1277 static struct soc_enum const spk_mbc2_comp_rat_enum =
1278 		SOC_ENUM_SINGLE(R_SPKMBCRAT2, FB_SPKMBCRAT_RATIO,
1279 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1280 
1281 /* R_SPKMBCMUG3 PG 3 ADDR 0x1A */
1282 static struct soc_enum const spk_mbc3_phase_pol_enum =
1283 		SOC_ENUM_SINGLE(R_SPKMBCMUG3, FB_SPKMBCMUG_PHASE,
1284 				ARRAY_SIZE(pol_txt), pol_txt);
1285 
1286 /* R_SPKMBCRAT3 PG 3 ADDR 0x1C */
1287 static struct soc_enum const spk_mbc3_comp_rat_enum =
1288 		SOC_ENUM_SINGLE(R_SPKMBCRAT3, FB_SPKMBCRAT_RATIO,
1289 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1290 
1291 /* R_SPKCLECTL PG 3 ADDR 0x21 */
1292 static struct soc_enum const spk_cle_lvl_mode_enum =
1293 		SOC_ENUM_SINGLE(R_SPKCLECTL, FB_SPKCLECTL_LVLMODE,
1294 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1295 
1296 static struct soc_enum const spk_cle_win_sel_enum =
1297 		SOC_ENUM_SINGLE(R_SPKCLECTL, FB_SPKCLECTL_WINSEL,
1298 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1299 
1300 /* R_SPKCLEMUG PG 3 ADDR 0x22 */
1301 static DECLARE_TLV_DB_MINMAX(cle_mug_tlv_arr, 0, 4650);
1302 
1303 /* R_SPKCOMPRAT PG 3 ADDR 0x24 */
1304 static struct soc_enum const spk_comp_rat_enum =
1305 		SOC_ENUM_SINGLE(R_SPKCOMPRAT, FB_SPKCOMPRAT_RATIO,
1306 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1307 
1308 /* R_SPKEXPTHR PG 3 ADDR 0x2F */
1309 static char const * const exp_rat_txt[] = {
1310 		"Reserved", "Reserved", "1:2", "1:3",
1311 		"1:4", "1:5", "1:6", "1:7"};
1312 
1313 static struct soc_enum const spk_exp_rat_enum =
1314 		SOC_ENUM_SINGLE(R_SPKEXPRAT, FB_SPKEXPRAT_RATIO,
1315 				ARRAY_SIZE(exp_rat_txt), exp_rat_txt);
1316 
1317 /* R_DACEQFILT PG 4 ADDR 0x01 */
1318 static struct soc_enum const dac_eq_enums[] = {
1319 	SOC_ENUM_SINGLE(R_DACEQFILT, FB_DACEQFILT_EQ2BE,
1320 		ARRAY_SIZE(eq_txt), eq_txt),
1321 	SOC_ENUM_SINGLE(R_DACEQFILT, FB_DACEQFILT_EQ1BE,
1322 		ARRAY_SIZE(eq_txt), eq_txt),
1323 };
1324 
1325 /* R_DACMBCCTL PG 4 ADDR 0x0B */
1326 static struct soc_enum const dac_mbc3_lvl_det_mode_enum =
1327 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_LVLMODE3,
1328 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1329 
1330 static struct soc_enum const dac_mbc3_win_sel_enum =
1331 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_WINSEL3,
1332 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1333 
1334 static struct soc_enum const dac_mbc2_lvl_det_mode_enum =
1335 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_LVLMODE2,
1336 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1337 
1338 static struct soc_enum const dac_mbc2_win_sel_enum =
1339 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_WINSEL2,
1340 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1341 
1342 static struct soc_enum const dac_mbc1_lvl_det_mode_enum =
1343 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_LVLMODE1,
1344 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1345 
1346 static struct soc_enum const dac_mbc1_win_sel_enum =
1347 		SOC_ENUM_SINGLE(R_DACMBCCTL, FB_DACMBCCTL_WINSEL1,
1348 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1349 
1350 /* R_DACMBCMUG1 PG 4 ADDR 0x0C */
1351 static struct soc_enum const dac_mbc1_phase_pol_enum =
1352 		SOC_ENUM_SINGLE(R_DACMBCMUG1, FB_DACMBCMUG_PHASE,
1353 				ARRAY_SIZE(pol_txt), pol_txt);
1354 
1355 /* R_DACMBCRAT1 PG 4 ADDR 0x0E */
1356 static struct soc_enum const dac_mbc1_comp_rat_enum =
1357 		SOC_ENUM_SINGLE(R_DACMBCRAT1, FB_DACMBCRAT_RATIO,
1358 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1359 
1360 /* R_DACMBCMUG2 PG 4 ADDR 0x13 */
1361 static struct soc_enum const dac_mbc2_phase_pol_enum =
1362 		SOC_ENUM_SINGLE(R_DACMBCMUG2, FB_DACMBCMUG_PHASE,
1363 				ARRAY_SIZE(pol_txt), pol_txt);
1364 
1365 /* R_DACMBCRAT2 PG 4 ADDR 0x15 */
1366 static struct soc_enum const dac_mbc2_comp_rat_enum =
1367 		SOC_ENUM_SINGLE(R_DACMBCRAT2, FB_DACMBCRAT_RATIO,
1368 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1369 
1370 /* R_DACMBCMUG3 PG 4 ADDR 0x1A */
1371 static struct soc_enum const dac_mbc3_phase_pol_enum =
1372 		SOC_ENUM_SINGLE(R_DACMBCMUG3, FB_DACMBCMUG_PHASE,
1373 				ARRAY_SIZE(pol_txt), pol_txt);
1374 
1375 /* R_DACMBCRAT3 PG 4 ADDR 0x1C */
1376 static struct soc_enum const dac_mbc3_comp_rat_enum =
1377 		SOC_ENUM_SINGLE(R_DACMBCRAT3, FB_DACMBCRAT_RATIO,
1378 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1379 
1380 /* R_DACCLECTL PG 4 ADDR 0x21 */
1381 static struct soc_enum const dac_cle_lvl_mode_enum =
1382 		SOC_ENUM_SINGLE(R_DACCLECTL, FB_DACCLECTL_LVLMODE,
1383 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1384 
1385 static struct soc_enum const dac_cle_win_sel_enum =
1386 		SOC_ENUM_SINGLE(R_DACCLECTL, FB_DACCLECTL_WINSEL,
1387 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1388 
1389 /* R_DACCOMPRAT PG 4 ADDR 0x24 */
1390 static struct soc_enum const dac_comp_rat_enum =
1391 		SOC_ENUM_SINGLE(R_DACCOMPRAT, FB_DACCOMPRAT_RATIO,
1392 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1393 
1394 /* R_DACEXPRAT PG 4 ADDR 0x30 */
1395 static struct soc_enum const dac_exp_rat_enum =
1396 		SOC_ENUM_SINGLE(R_DACEXPRAT, FB_DACEXPRAT_RATIO,
1397 				ARRAY_SIZE(exp_rat_txt), exp_rat_txt);
1398 
1399 /* R_SUBEQFILT PG 5 ADDR 0x01 */
1400 static struct soc_enum const sub_eq_enums[] = {
1401 	SOC_ENUM_SINGLE(R_SUBEQFILT, FB_SUBEQFILT_EQ2BE,
1402 		ARRAY_SIZE(eq_txt), eq_txt),
1403 	SOC_ENUM_SINGLE(R_SUBEQFILT, FB_SUBEQFILT_EQ1BE,
1404 		ARRAY_SIZE(eq_txt), eq_txt),
1405 };
1406 
1407 /* R_SUBMBCCTL PG 5 ADDR 0x0B */
1408 static struct soc_enum const sub_mbc3_lvl_det_mode_enum =
1409 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_LVLMODE3,
1410 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1411 
1412 static struct soc_enum const sub_mbc3_win_sel_enum =
1413 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_WINSEL3,
1414 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1415 
1416 static struct soc_enum const sub_mbc2_lvl_det_mode_enum =
1417 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_LVLMODE2,
1418 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1419 
1420 static struct soc_enum const sub_mbc2_win_sel_enum =
1421 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_WINSEL2,
1422 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1423 
1424 static struct soc_enum const sub_mbc1_lvl_det_mode_enum =
1425 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_LVLMODE1,
1426 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1427 
1428 static struct soc_enum const sub_mbc1_win_sel_enum =
1429 		SOC_ENUM_SINGLE(R_SUBMBCCTL, FB_SUBMBCCTL_WINSEL1,
1430 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1431 
1432 /* R_SUBMBCMUG1 PG 5 ADDR 0x0C */
1433 static struct soc_enum const sub_mbc1_phase_pol_enum =
1434 		SOC_ENUM_SINGLE(R_SUBMBCMUG1, FB_SUBMBCMUG_PHASE,
1435 				ARRAY_SIZE(pol_txt), pol_txt);
1436 
1437 /* R_SUBMBCRAT1 PG 5 ADDR 0x0E */
1438 static struct soc_enum const sub_mbc1_comp_rat_enum =
1439 		SOC_ENUM_SINGLE(R_SUBMBCRAT1, FB_SUBMBCRAT_RATIO,
1440 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1441 
1442 /* R_SUBMBCMUG2 PG 5 ADDR 0x13 */
1443 static struct soc_enum const sub_mbc2_phase_pol_enum =
1444 		SOC_ENUM_SINGLE(R_SUBMBCMUG2, FB_SUBMBCMUG_PHASE,
1445 				ARRAY_SIZE(pol_txt), pol_txt);
1446 
1447 /* R_SUBMBCRAT2 PG 5 ADDR 0x15 */
1448 static struct soc_enum const sub_mbc2_comp_rat_enum =
1449 		SOC_ENUM_SINGLE(R_SUBMBCRAT2, FB_SUBMBCRAT_RATIO,
1450 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1451 
1452 /* R_SUBMBCMUG3 PG 5 ADDR 0x1A */
1453 static struct soc_enum const sub_mbc3_phase_pol_enum =
1454 		SOC_ENUM_SINGLE(R_SUBMBCMUG3, FB_SUBMBCMUG_PHASE,
1455 				ARRAY_SIZE(pol_txt), pol_txt);
1456 
1457 /* R_SUBMBCRAT3 PG 5 ADDR 0x1C */
1458 static struct soc_enum const sub_mbc3_comp_rat_enum =
1459 		SOC_ENUM_SINGLE(R_SUBMBCRAT3, FB_SUBMBCRAT_RATIO,
1460 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1461 
1462 /* R_SUBCLECTL PG 5 ADDR 0x21 */
1463 static struct soc_enum const sub_cle_lvl_mode_enum =
1464 		SOC_ENUM_SINGLE(R_SUBCLECTL, FB_SUBCLECTL_LVLMODE,
1465 				ARRAY_SIZE(lvl_mode_txt), lvl_mode_txt);
1466 static struct soc_enum const sub_cle_win_sel_enum =
1467 		SOC_ENUM_SINGLE(R_SUBCLECTL, FB_SUBCLECTL_WINSEL,
1468 				ARRAY_SIZE(win_sel_txt), win_sel_txt);
1469 
1470 /* R_SUBCOMPRAT PG 5 ADDR 0x24 */
1471 static struct soc_enum const sub_comp_rat_enum =
1472 		SOC_ENUM_SINGLE(R_SUBCOMPRAT, FB_SUBCOMPRAT_RATIO,
1473 				ARRAY_SIZE(comp_rat_txt), comp_rat_txt);
1474 
1475 /* R_SUBEXPRAT PG 5 ADDR 0x30 */
1476 static struct soc_enum const sub_exp_rat_enum =
1477 		SOC_ENUM_SINGLE(R_SUBEXPRAT, FB_SUBEXPRAT_RATIO,
1478 				ARRAY_SIZE(exp_rat_txt), exp_rat_txt);
1479 
1480 static int bytes_info_ext(struct snd_kcontrol *kcontrol,
1481 	struct snd_ctl_elem_info *ucontrol)
1482 {
1483 	struct coeff_ram_ctl *ctl =
1484 		(struct coeff_ram_ctl *)kcontrol->private_value;
1485 	struct soc_bytes_ext *params = &ctl->bytes_ext;
1486 
1487 	ucontrol->type = SNDRV_CTL_ELEM_TYPE_BYTES;
1488 	ucontrol->count = params->max;
1489 
1490 	return 0;
1491 }
1492 
1493 /* CH 0_1 Input Mux */
1494 static char const * const ch_0_1_mux_txt[] = {"DAI 1", "TDM 0_1"};
1495 
1496 static struct soc_enum const ch_0_1_mux_enum =
1497 		SOC_ENUM_SINGLE(SND_SOC_NOPM, 0,
1498 				ARRAY_SIZE(ch_0_1_mux_txt), ch_0_1_mux_txt);
1499 
1500 static struct snd_kcontrol_new const ch_0_1_mux_dapm_enum =
1501 		SOC_DAPM_ENUM("CH 0_1 Input Mux", ch_0_1_mux_enum);
1502 
1503 /* CH 2_3 Input Mux */
1504 static char const * const ch_2_3_mux_txt[] = {"DAI 2", "TDM 2_3"};
1505 
1506 static struct soc_enum const ch_2_3_mux_enum =
1507 		SOC_ENUM_SINGLE(SND_SOC_NOPM, 0,
1508 				ARRAY_SIZE(ch_2_3_mux_txt), ch_2_3_mux_txt);
1509 
1510 static struct snd_kcontrol_new const ch_2_3_mux_dapm_enum =
1511 		SOC_DAPM_ENUM("CH 2_3 Input Mux", ch_2_3_mux_enum);
1512 
1513 /* CH 4_5 Input Mux */
1514 static char const * const ch_4_5_mux_txt[] = {"DAI 3", "TDM 4_5"};
1515 
1516 static struct soc_enum const ch_4_5_mux_enum =
1517 		SOC_ENUM_SINGLE(SND_SOC_NOPM, 0,
1518 				ARRAY_SIZE(ch_4_5_mux_txt), ch_4_5_mux_txt);
1519 
1520 static struct snd_kcontrol_new const ch_4_5_mux_dapm_enum =
1521 		SOC_DAPM_ENUM("CH 4_5 Input Mux", ch_4_5_mux_enum);
1522 
1523 #define COEFF_RAM_CTL(xname, xcount, xaddr) \
1524 {	.iface = SNDRV_CTL_ELEM_IFACE_MIXER, .name = xname, \
1525 	.info = bytes_info_ext, \
1526 	.get = coeff_ram_get, .put = coeff_ram_put, \
1527 	.private_value = (unsigned long)&(struct coeff_ram_ctl) { \
1528 		.addr = xaddr, \
1529 		.bytes_ext = {.max = xcount, }, \
1530 	} \
1531 }
1532 
1533 static struct snd_kcontrol_new const tscs454_snd_controls[] = {
1534 	/* R_PLLCTL PG 0 ADDR 0x15 */
1535 	SOC_ENUM("PLL BCLK Input", bclk_sel_enum),
1536 	/* R_ISRC PG 0 ADDR 0x16 */
1537 	SOC_ENUM("Internal Rate", isrc_br_enum),
1538 	SOC_ENUM("Internal Rate Multiple", isrc_bm_enum),
1539 	/* R_SCLKCTL PG 0 ADDR 0x18 */
1540 	SOC_ENUM("ADC Modular Rate", adc_modular_rate_enum),
1541 	SOC_ENUM("DAC Modular Rate", dac_modular_rate_enum),
1542 	/* R_ASRC PG 0 ADDR 0x28 */
1543 	SOC_SINGLE("ASRC Out High Bandwidth Switch",
1544 			R_ASRC, FB_ASRC_ASRCOBW, 1, 0),
1545 	SOC_SINGLE("ASRC In High Bandwidth Switch",
1546 			R_ASRC, FB_ASRC_ASRCIBW, 1, 0),
1547 	/* R_I2SIDCTL PG 0 ADDR 0x38 */
1548 	SOC_ENUM("I2S 1 Data In Control", data_in_ctrl_enums[0]),
1549 	SOC_ENUM("I2S 2 Data In Control", data_in_ctrl_enums[1]),
1550 	SOC_ENUM("I2S 3 Data In Control", data_in_ctrl_enums[2]),
1551 	/* R_I2SODCTL PG 0 ADDR 0x39 */
1552 	SOC_ENUM("I2S 1 Data Out Control", data_out_ctrl_enums[0]),
1553 	SOC_ENUM("I2S 2 Data Out Control", data_out_ctrl_enums[1]),
1554 	SOC_ENUM("I2S 3 Data Out Control", data_out_ctrl_enums[2]),
1555 	/* R_AUDIOMUX1 PG 0 ADDR 0x3A */
1556 	SOC_ENUM("ASRC In", asrc_in_mux_enum),
1557 	/* R_AUDIOMUX2 PG 0 ADDR 0x3B */
1558 	SOC_ENUM("ASRC Out", asrc_out_mux_enum),
1559 	/* R_HSDCTL1 PG 1 ADDR 0x01 */
1560 	SOC_ENUM("Headphone Jack Type", hp_jack_type_enum),
1561 	SOC_ENUM("Headset Detection Polarity", hs_det_pol_enum),
1562 	SOC_SINGLE("Headphone Detection Switch",
1563 			R_HSDCTL1, FB_HSDCTL1_HPID_EN, 1, 0),
1564 	SOC_SINGLE("Headset OMTP/CTIA Switch",
1565 			R_HSDCTL1, FB_HSDCTL1_GBLHS_EN, 1, 0),
1566 	/* R_HSDCTL1 PG 1 ADDR 0x02 */
1567 	SOC_ENUM("Headset Mic Bias Force", hs_mic_bias_force_enum),
1568 	SOC_SINGLE("Manual Mic Bias Switch",
1569 			R_HSDCTL2, FB_HSDCTL2_MB1MODE, 1, 0),
1570 	SOC_SINGLE("Ring/Sleeve Auto Switch",
1571 			R_HSDCTL2, FB_HSDCTL2_SWMODE, 1, 0),
1572 	SOC_ENUM("Manual Mode Plug Type", plug_type_force_enum),
1573 	/* R_CH0AIC PG 1 ADDR 0x06 */
1574 	SOC_SINGLE_TLV("Input Boost Channel 0 Volume", R_CH0AIC,
1575 			FB_CHAIC_MICBST, 0x3, 0, in_bst_vol_tlv_arr),
1576 	/* R_CH1AIC PG 1 ADDR 0x07 */
1577 	SOC_SINGLE_TLV("Input Boost Channel 1 Volume", R_CH1AIC,
1578 			FB_CHAIC_MICBST, 0x3, 0, in_bst_vol_tlv_arr),
1579 	/* R_CH2AIC PG 1 ADDR 0x08 */
1580 	SOC_SINGLE_TLV("Input Boost Channel 2 Volume", R_CH2AIC,
1581 			FB_CHAIC_MICBST, 0x3, 0, in_bst_vol_tlv_arr),
1582 	/* R_CH3AIC PG 1 ADDR 0x09 */
1583 	SOC_SINGLE_TLV("Input Boost Channel 3 Volume", R_CH3AIC,
1584 			FB_CHAIC_MICBST, 0x3, 0, in_bst_vol_tlv_arr),
1585 	/* R_ICTL0 PG 1 ADDR 0x0A */
1586 	SOC_ENUM("Input Channel 1 Polarity", in_pol_ch1_enum),
1587 	SOC_ENUM("Input Channel 0 Polarity", in_pol_ch0_enum),
1588 	SOC_ENUM("Input Processor Channel 0/1 Operation",
1589 			in_proc_ch01_sel_enum),
1590 	SOC_SINGLE("Input Channel 1 Mute Switch",
1591 			R_ICTL0, FB_ICTL0_IN1MUTE, 1, 0),
1592 	SOC_SINGLE("Input Channel 0 Mute Switch",
1593 			R_ICTL0, FB_ICTL0_IN0MUTE, 1, 0),
1594 	SOC_SINGLE("Input Channel 1 HPF Disable Switch",
1595 			R_ICTL0, FB_ICTL0_IN1HP, 1, 0),
1596 	SOC_SINGLE("Input Channel 0 HPF Disable Switch",
1597 			R_ICTL0, FB_ICTL0_IN0HP, 1, 0),
1598 	/* R_ICTL1 PG 1 ADDR 0x0B */
1599 	SOC_ENUM("Input Channel 3 Polarity", in_pol_ch3_enum),
1600 	SOC_ENUM("Input Channel 2 Polarity", in_pol_ch2_enum),
1601 	SOC_ENUM("Input Processor Channel 2/3 Operation",
1602 			in_proc_ch23_sel_enum),
1603 	SOC_SINGLE("Input Channel 3 Mute Switch",
1604 			R_ICTL1, FB_ICTL1_IN3MUTE, 1, 0),
1605 	SOC_SINGLE("Input Channel 2 Mute Switch",
1606 			R_ICTL1, FB_ICTL1_IN2MUTE, 1, 0),
1607 	SOC_SINGLE("Input Channel 3 HPF Disable Switch",
1608 			R_ICTL1, FB_ICTL1_IN3HP, 1, 0),
1609 	SOC_SINGLE("Input Channel 2 HPF Disable Switch",
1610 			R_ICTL1, FB_ICTL1_IN2HP, 1, 0),
1611 	/* R_MICBIAS PG 1 ADDR 0x0C */
1612 	SOC_ENUM("Mic Bias 2 Voltage", mic_bias_2_enum),
1613 	SOC_ENUM("Mic Bias 1 Voltage", mic_bias_1_enum),
1614 	/* R_PGACTL0 PG 1 ADDR 0x0D */
1615 	SOC_SINGLE("Input Channel 0 PGA Mute Switch",
1616 			R_PGACTL0, FB_PGACTL_PGAMUTE, 1, 0),
1617 	SOC_SINGLE_TLV("Input Channel 0 PGA Volume", R_PGACTL0,
1618 			FB_PGACTL_PGAVOL,
1619 			FM_PGACTL_PGAVOL, 0, in_pga_vol_tlv_arr),
1620 	/* R_PGACTL1 PG 1 ADDR 0x0E */
1621 	SOC_SINGLE("Input Channel 1 PGA Mute Switch",
1622 			R_PGACTL1, FB_PGACTL_PGAMUTE, 1, 0),
1623 	SOC_SINGLE_TLV("Input Channel 1 PGA Volume", R_PGACTL1,
1624 			FB_PGACTL_PGAVOL,
1625 			FM_PGACTL_PGAVOL, 0, in_pga_vol_tlv_arr),
1626 	/* R_PGACTL2 PG 1 ADDR 0x0F */
1627 	SOC_SINGLE("Input Channel 2 PGA Mute Switch",
1628 			R_PGACTL2, FB_PGACTL_PGAMUTE, 1, 0),
1629 	SOC_SINGLE_TLV("Input Channel 2 PGA Volume", R_PGACTL2,
1630 			FB_PGACTL_PGAVOL,
1631 			FM_PGACTL_PGAVOL, 0, in_pga_vol_tlv_arr),
1632 	/* R_PGACTL3 PG 1 ADDR 0x10 */
1633 	SOC_SINGLE("Input Channel 3 PGA Mute Switch",
1634 			R_PGACTL3, FB_PGACTL_PGAMUTE, 1, 0),
1635 	SOC_SINGLE_TLV("Input Channel 3 PGA Volume", R_PGACTL3,
1636 			FB_PGACTL_PGAVOL,
1637 			FM_PGACTL_PGAVOL, 0, in_pga_vol_tlv_arr),
1638 	/* R_ICH0VOL PG 1 ADDR 0x12 */
1639 	SOC_SINGLE_TLV("Input Channel 0 Volume", R_ICH0VOL,
1640 			FB_ICHVOL_ICHVOL, FM_ICHVOL_ICHVOL, 0, in_vol_tlv_arr),
1641 	/* R_ICH1VOL PG 1 ADDR 0x13 */
1642 	SOC_SINGLE_TLV("Input Channel 1 Volume", R_ICH1VOL,
1643 			FB_ICHVOL_ICHVOL, FM_ICHVOL_ICHVOL, 0, in_vol_tlv_arr),
1644 	/* R_ICH2VOL PG 1 ADDR 0x14 */
1645 	SOC_SINGLE_TLV("Input Channel 2 Volume", R_ICH2VOL,
1646 			FB_ICHVOL_ICHVOL, FM_ICHVOL_ICHVOL, 0, in_vol_tlv_arr),
1647 	/* R_ICH3VOL PG 1 ADDR 0x15 */
1648 	SOC_SINGLE_TLV("Input Channel 3 Volume", R_ICH3VOL,
1649 			FB_ICHVOL_ICHVOL, FM_ICHVOL_ICHVOL, 0, in_vol_tlv_arr),
1650 	/* R_ASRCILVOL PG 1 ADDR 0x16 */
1651 	SOC_SINGLE_TLV("ASRC Input Left Volume", R_ASRCILVOL,
1652 			FB_ASRCILVOL_ASRCILVOL, FM_ASRCILVOL_ASRCILVOL,
1653 			0, asrc_vol_tlv_arr),
1654 	/* R_ASRCIRVOL PG 1 ADDR 0x17 */
1655 	SOC_SINGLE_TLV("ASRC Input Right Volume", R_ASRCIRVOL,
1656 			FB_ASRCIRVOL_ASRCIRVOL, FM_ASRCIRVOL_ASRCIRVOL,
1657 			0, asrc_vol_tlv_arr),
1658 	/* R_ASRCOLVOL PG 1 ADDR 0x18 */
1659 	SOC_SINGLE_TLV("ASRC Output Left Volume", R_ASRCOLVOL,
1660 			FB_ASRCOLVOL_ASRCOLVOL, FM_ASRCOLVOL_ASRCOLVOL,
1661 			0, asrc_vol_tlv_arr),
1662 	/* R_ASRCORVOL PG 1 ADDR 0x19 */
1663 	SOC_SINGLE_TLV("ASRC Output Right Volume", R_ASRCORVOL,
1664 			FB_ASRCORVOL_ASRCOLVOL, FM_ASRCORVOL_ASRCOLVOL,
1665 			0, asrc_vol_tlv_arr),
1666 	/* R_IVOLCTLU PG 1 ADDR 0x1C */
1667 	/* R_ALCCTL0 PG 1 ADDR 0x1D */
1668 	SOC_ENUM("ALC Mode", alc_mode_enum),
1669 	SOC_ENUM("ALC Reference", alc_ref_enum),
1670 	SOC_SINGLE("Input Channel 3 ALC Switch",
1671 			R_ALCCTL0, FB_ALCCTL0_ALCEN3, 1, 0),
1672 	SOC_SINGLE("Input Channel 2 ALC Switch",
1673 			R_ALCCTL0, FB_ALCCTL0_ALCEN2, 1, 0),
1674 	SOC_SINGLE("Input Channel 1 ALC Switch",
1675 			R_ALCCTL0, FB_ALCCTL0_ALCEN1, 1, 0),
1676 	SOC_SINGLE("Input Channel 0 ALC Switch",
1677 			R_ALCCTL0, FB_ALCCTL0_ALCEN0, 1, 0),
1678 	/* R_ALCCTL1 PG 1 ADDR 0x1E */
1679 	SOC_SINGLE_TLV("ALC Max Gain Volume", R_ALCCTL1,
1680 			FB_ALCCTL1_MAXGAIN, FM_ALCCTL1_MAXGAIN,
1681 			0, alc_max_gain_tlv_arr),
1682 	SOC_SINGLE_TLV("ALC Target Volume", R_ALCCTL1,
1683 			FB_ALCCTL1_ALCL, FM_ALCCTL1_ALCL,
1684 			0, alc_target_tlv_arr),
1685 	/* R_ALCCTL2 PG 1 ADDR 0x1F */
1686 	SOC_SINGLE("ALC Zero Cross Switch",
1687 			R_ALCCTL2, FB_ALCCTL2_ALCZC, 1, 0),
1688 	SOC_SINGLE_TLV("ALC Min Gain Volume", R_ALCCTL2,
1689 			FB_ALCCTL2_MINGAIN, FM_ALCCTL2_MINGAIN,
1690 			0, alc_min_gain_tlv_arr),
1691 	SOC_SINGLE_RANGE("ALC Hold", R_ALCCTL2,
1692 			FB_ALCCTL2_HLD, 0, FM_ALCCTL2_HLD, 0),
1693 	/* R_ALCCTL3 PG 1 ADDR 0x20 */
1694 	SOC_SINGLE_RANGE("ALC Decay", R_ALCCTL3,
1695 			FB_ALCCTL3_DCY, 0, FM_ALCCTL3_DCY, 0),
1696 	SOC_SINGLE_RANGE("ALC Attack", R_ALCCTL3,
1697 			FB_ALCCTL3_ATK, 0, FM_ALCCTL3_ATK, 0),
1698 	/* R_NGATE PG 1 ADDR 0x21 */
1699 	SOC_SINGLE_TLV("Noise Gate Threshold Volume", R_NGATE,
1700 			FB_NGATE_NGTH, FM_NGATE_NGTH, 0, ngth_tlv_arr),
1701 	SOC_ENUM("Noise Gate Type", ngate_type_enum),
1702 	SOC_SINGLE("Noise Gate Switch", R_NGATE, FB_NGATE_NGAT, 1, 0),
1703 	/* R_DMICCTL PG 1 ADDR 0x22 */
1704 	SOC_SINGLE("Digital Mic 2 Switch", R_DMICCTL, FB_DMICCTL_DMIC2EN, 1, 0),
1705 	SOC_SINGLE("Digital Mic 1 Switch", R_DMICCTL, FB_DMICCTL_DMIC1EN, 1, 0),
1706 	SOC_ENUM("Digital Mic Mono Select", dmic_mono_sel_enum),
1707 	/* R_DACCTL PG 2 ADDR 0x01 */
1708 	SOC_ENUM("DAC Polarity Left", dac_pol_r_enum),
1709 	SOC_ENUM("DAC Polarity Right", dac_pol_l_enum),
1710 	SOC_ENUM("DAC Dither", dac_dith_enum),
1711 	SOC_SINGLE("DAC Mute Switch", R_DACCTL, FB_DACCTL_DACMUTE, 1, 0),
1712 	SOC_SINGLE("DAC De-Emphasis Switch", R_DACCTL, FB_DACCTL_DACDEM, 1, 0),
1713 	/* R_SPKCTL PG 2 ADDR 0x02 */
1714 	SOC_ENUM("Speaker Polarity Right", spk_pol_r_enum),
1715 	SOC_ENUM("Speaker Polarity Left", spk_pol_l_enum),
1716 	SOC_SINGLE("Speaker Mute Switch", R_SPKCTL, FB_SPKCTL_SPKMUTE, 1, 0),
1717 	SOC_SINGLE("Speaker De-Emphasis Switch",
1718 			R_SPKCTL, FB_SPKCTL_SPKDEM, 1, 0),
1719 	/* R_SUBCTL PG 2 ADDR 0x03 */
1720 	SOC_ENUM("Sub Polarity", sub_pol_enum),
1721 	SOC_SINGLE("SUB Mute Switch", R_SUBCTL, FB_SUBCTL_SUBMUTE, 1, 0),
1722 	SOC_SINGLE("Sub De-Emphasis Switch", R_SUBCTL, FB_SUBCTL_SUBDEM, 1, 0),
1723 	/* R_DCCTL PG 2 ADDR 0x04 */
1724 	SOC_SINGLE("Sub DC Removal Switch", R_DCCTL, FB_DCCTL_SUBDCBYP, 1, 1),
1725 	SOC_SINGLE("DAC DC Removal Switch", R_DCCTL, FB_DCCTL_DACDCBYP, 1, 1),
1726 	SOC_SINGLE("Speaker DC Removal Switch",
1727 			R_DCCTL, FB_DCCTL_SPKDCBYP, 1, 1),
1728 	SOC_SINGLE("DC Removal Coefficient Switch", R_DCCTL, FB_DCCTL_DCCOEFSEL,
1729 			FM_DCCTL_DCCOEFSEL, 0),
1730 	/* R_OVOLCTLU PG 2 ADDR 0x06 */
1731 	SOC_SINGLE("Output Fade Switch", R_OVOLCTLU, FB_OVOLCTLU_OFADE, 1, 0),
1732 	/* R_MVOLL PG 2 ADDR 0x08 */
1733 	/* R_MVOLR PG 2 ADDR 0x09 */
1734 	SOC_DOUBLE_R_TLV("Master Volume", R_MVOLL, R_MVOLR,
1735 			FB_MVOLL_MVOL_L, FM_MVOLL_MVOL_L, 0, mvol_tlv_arr),
1736 	/* R_HPVOLL PG 2 ADDR 0x0A */
1737 	/* R_HPVOLR PG 2 ADDR 0x0B */
1738 	SOC_DOUBLE_R_TLV("Headphone Volume", R_HPVOLL, R_HPVOLR,
1739 			FB_HPVOLL_HPVOL_L, FM_HPVOLL_HPVOL_L, 0,
1740 			hp_vol_tlv_arr),
1741 	/* R_SPKVOLL PG 2 ADDR 0x0C */
1742 	/* R_SPKVOLR PG 2 ADDR 0x0D */
1743 	SOC_DOUBLE_R_TLV("Speaker Volume", R_SPKVOLL, R_SPKVOLR,
1744 			FB_SPKVOLL_SPKVOL_L, FM_SPKVOLL_SPKVOL_L, 0,
1745 			spk_vol_tlv_arr),
1746 	/* R_SUBVOL PG 2 ADDR 0x10 */
1747 	SOC_SINGLE_TLV("Sub Volume", R_SUBVOL,
1748 			FB_SUBVOL_SUBVOL, FM_SUBVOL_SUBVOL, 0, spk_vol_tlv_arr),
1749 	/* R_SPKEQFILT PG 3 ADDR 0x01 */
1750 	SOC_SINGLE("Speaker EQ 2 Switch",
1751 			R_SPKEQFILT, FB_SPKEQFILT_EQ2EN, 1, 0),
1752 	SOC_ENUM("Speaker EQ 2 Band", spk_eq_enums[0]),
1753 	SOC_SINGLE("Speaker EQ 1 Switch",
1754 			R_SPKEQFILT, FB_SPKEQFILT_EQ1EN, 1, 0),
1755 	SOC_ENUM("Speaker EQ 1 Band", spk_eq_enums[1]),
1756 	/* R_SPKMBCEN PG 3 ADDR 0x0A */
1757 	SOC_SINGLE("Speaker MBC 3 Switch",
1758 			R_SPKMBCEN, FB_SPKMBCEN_MBCEN3, 1, 0),
1759 	SOC_SINGLE("Speaker MBC 2 Switch",
1760 			R_SPKMBCEN, FB_SPKMBCEN_MBCEN2, 1, 0),
1761 	SOC_SINGLE("Speaker MBC 1 Switch",
1762 			R_SPKMBCEN, FB_SPKMBCEN_MBCEN1, 1, 0),
1763 	/* R_SPKMBCCTL PG 3 ADDR 0x0B */
1764 	SOC_ENUM("Speaker MBC 3 Mode", spk_mbc3_lvl_det_mode_enum),
1765 	SOC_ENUM("Speaker MBC 3 Window", spk_mbc3_win_sel_enum),
1766 	SOC_ENUM("Speaker MBC 2 Mode", spk_mbc2_lvl_det_mode_enum),
1767 	SOC_ENUM("Speaker MBC 2 Window", spk_mbc2_win_sel_enum),
1768 	SOC_ENUM("Speaker MBC 1 Mode", spk_mbc1_lvl_det_mode_enum),
1769 	SOC_ENUM("Speaker MBC 1 Window", spk_mbc1_win_sel_enum),
1770 	/* R_SPKMBCMUG1 PG 3 ADDR 0x0C */
1771 	SOC_ENUM("Speaker MBC 1 Phase Polarity", spk_mbc1_phase_pol_enum),
1772 	SOC_SINGLE_TLV("Speaker MBC1 Make-Up Gain Volume", R_SPKMBCMUG1,
1773 			FB_SPKMBCMUG_MUGAIN, FM_SPKMBCMUG_MUGAIN,
1774 			0, mbc_mug_tlv_arr),
1775 	/* R_SPKMBCTHR1 PG 3 ADDR 0x0D */
1776 	SOC_SINGLE_TLV("Speaker MBC 1 Compressor Threshold Volume",
1777 			R_SPKMBCTHR1, FB_SPKMBCTHR_THRESH, FM_SPKMBCTHR_THRESH,
1778 			0, thr_tlv_arr),
1779 	/* R_SPKMBCRAT1 PG 3 ADDR 0x0E */
1780 	SOC_ENUM("Speaker MBC 1 Compressor Ratio", spk_mbc1_comp_rat_enum),
1781 	/* R_SPKMBCATK1L PG 3 ADDR 0x0F */
1782 	/* R_SPKMBCATK1H PG 3 ADDR 0x10 */
1783 	SND_SOC_BYTES("Speaker MBC 1 Attack", R_SPKMBCATK1L, 2),
1784 	/* R_SPKMBCREL1L PG 3 ADDR 0x11 */
1785 	/* R_SPKMBCREL1H PG 3 ADDR 0x12 */
1786 	SND_SOC_BYTES("Speaker MBC 1 Release", R_SPKMBCREL1L, 2),
1787 	/* R_SPKMBCMUG2 PG 3 ADDR 0x13 */
1788 	SOC_ENUM("Speaker MBC 2 Phase Polarity", spk_mbc2_phase_pol_enum),
1789 	SOC_SINGLE_TLV("Speaker MBC2 Make-Up Gain Volume", R_SPKMBCMUG2,
1790 			FB_SPKMBCMUG_MUGAIN, FM_SPKMBCMUG_MUGAIN,
1791 			0, mbc_mug_tlv_arr),
1792 	/* R_SPKMBCTHR2 PG 3 ADDR 0x14 */
1793 	SOC_SINGLE_TLV("Speaker MBC 2 Compressor Threshold Volume",
1794 			R_SPKMBCTHR2, FB_SPKMBCTHR_THRESH, FM_SPKMBCTHR_THRESH,
1795 			0, thr_tlv_arr),
1796 	/* R_SPKMBCRAT2 PG 3 ADDR 0x15 */
1797 	SOC_ENUM("Speaker MBC 2 Compressor Ratio", spk_mbc2_comp_rat_enum),
1798 	/* R_SPKMBCATK2L PG 3 ADDR 0x16 */
1799 	/* R_SPKMBCATK2H PG 3 ADDR 0x17 */
1800 	SND_SOC_BYTES("Speaker MBC 2 Attack", R_SPKMBCATK2L, 2),
1801 	/* R_SPKMBCREL2L PG 3 ADDR 0x18 */
1802 	/* R_SPKMBCREL2H PG 3 ADDR 0x19 */
1803 	SND_SOC_BYTES("Speaker MBC 2 Release", R_SPKMBCREL2L, 2),
1804 	/* R_SPKMBCMUG3 PG 3 ADDR 0x1A */
1805 	SOC_ENUM("Speaker MBC 3 Phase Polarity", spk_mbc3_phase_pol_enum),
1806 	SOC_SINGLE_TLV("Speaker MBC 3 Make-Up Gain Volume", R_SPKMBCMUG3,
1807 			FB_SPKMBCMUG_MUGAIN, FM_SPKMBCMUG_MUGAIN,
1808 			0, mbc_mug_tlv_arr),
1809 	/* R_SPKMBCTHR3 PG 3 ADDR 0x1B */
1810 	SOC_SINGLE_TLV("Speaker MBC 3 Threshold Volume", R_SPKMBCTHR3,
1811 			FB_SPKMBCTHR_THRESH, FM_SPKMBCTHR_THRESH,
1812 			0, thr_tlv_arr),
1813 	/* R_SPKMBCRAT3 PG 3 ADDR 0x1C */
1814 	SOC_ENUM("Speaker MBC 3 Compressor Ratio", spk_mbc3_comp_rat_enum),
1815 	/* R_SPKMBCATK3L PG 3 ADDR 0x1D */
1816 	/* R_SPKMBCATK3H PG 3 ADDR 0x1E */
1817 	SND_SOC_BYTES("Speaker MBC 3 Attack", R_SPKMBCATK3L, 3),
1818 	/* R_SPKMBCREL3L PG 3 ADDR 0x1F */
1819 	/* R_SPKMBCREL3H PG 3 ADDR 0x20 */
1820 	SND_SOC_BYTES("Speaker MBC 3 Release", R_SPKMBCREL3L, 3),
1821 	/* R_SPKCLECTL PG 3 ADDR 0x21 */
1822 	SOC_ENUM("Speaker CLE Level Mode", spk_cle_lvl_mode_enum),
1823 	SOC_ENUM("Speaker CLE Window", spk_cle_win_sel_enum),
1824 	SOC_SINGLE("Speaker CLE Expander Switch",
1825 			R_SPKCLECTL, FB_SPKCLECTL_EXPEN, 1, 0),
1826 	SOC_SINGLE("Speaker CLE Limiter Switch",
1827 			R_SPKCLECTL, FB_SPKCLECTL_LIMEN, 1, 0),
1828 	SOC_SINGLE("Speaker CLE Compressor Switch",
1829 			R_SPKCLECTL, FB_SPKCLECTL_COMPEN, 1, 0),
1830 	/* R_SPKCLEMUG PG 3 ADDR 0x22 */
1831 	SOC_SINGLE_TLV("Speaker CLE Make-Up Gain Volume", R_SPKCLEMUG,
1832 			FB_SPKCLEMUG_MUGAIN, FM_SPKCLEMUG_MUGAIN,
1833 			0, cle_mug_tlv_arr),
1834 	/* R_SPKCOMPTHR PG 3 ADDR 0x23 */
1835 	SOC_SINGLE_TLV("Speaker Compressor Threshold Volume", R_SPKCOMPTHR,
1836 			FB_SPKCOMPTHR_THRESH, FM_SPKCOMPTHR_THRESH,
1837 			0, thr_tlv_arr),
1838 	/* R_SPKCOMPRAT PG 3 ADDR 0x24 */
1839 	SOC_ENUM("Speaker Compressor Ratio", spk_comp_rat_enum),
1840 	/* R_SPKCOMPATKL PG 3 ADDR 0x25 */
1841 	/* R_SPKCOMPATKH PG 3 ADDR 0x26 */
1842 	SND_SOC_BYTES("Speaker Compressor Attack", R_SPKCOMPATKL, 2),
1843 	/* R_SPKCOMPRELL PG 3 ADDR 0x27 */
1844 	/* R_SPKCOMPRELH PG 3 ADDR 0x28 */
1845 	SND_SOC_BYTES("Speaker Compressor Release", R_SPKCOMPRELL, 2),
1846 	/* R_SPKLIMTHR PG 3 ADDR 0x29 */
1847 	SOC_SINGLE_TLV("Speaker Limiter Threshold Volume", R_SPKLIMTHR,
1848 			FB_SPKLIMTHR_THRESH, FM_SPKLIMTHR_THRESH,
1849 			0, thr_tlv_arr),
1850 	/* R_SPKLIMTGT PG 3 ADDR 0x2A */
1851 	SOC_SINGLE_TLV("Speaker Limiter Target Volume", R_SPKLIMTGT,
1852 			FB_SPKLIMTGT_TARGET, FM_SPKLIMTGT_TARGET,
1853 			0, thr_tlv_arr),
1854 	/* R_SPKLIMATKL PG 3 ADDR 0x2B */
1855 	/* R_SPKLIMATKH PG 3 ADDR 0x2C */
1856 	SND_SOC_BYTES("Speaker Limiter Attack", R_SPKLIMATKL, 2),
1857 	/* R_SPKLIMRELL PG 3 ADDR 0x2D */
1858 	/* R_SPKLIMRELR PG 3 ADDR 0x2E */
1859 	SND_SOC_BYTES("Speaker Limiter Release", R_SPKLIMRELL, 2),
1860 	/* R_SPKEXPTHR PG 3 ADDR 0x2F */
1861 	SOC_SINGLE_TLV("Speaker Expander Threshold Volume", R_SPKEXPTHR,
1862 			FB_SPKEXPTHR_THRESH, FM_SPKEXPTHR_THRESH,
1863 			0, thr_tlv_arr),
1864 	/* R_SPKEXPRAT PG 3 ADDR 0x30 */
1865 	SOC_ENUM("Speaker Expander Ratio", spk_exp_rat_enum),
1866 	/* R_SPKEXPATKL PG 3 ADDR 0x31 */
1867 	/* R_SPKEXPATKR PG 3 ADDR 0x32 */
1868 	SND_SOC_BYTES("Speaker Expander Attack", R_SPKEXPATKL, 2),
1869 	/* R_SPKEXPRELL PG 3 ADDR 0x33 */
1870 	/* R_SPKEXPRELR PG 3 ADDR 0x34 */
1871 	SND_SOC_BYTES("Speaker Expander Release", R_SPKEXPRELL, 2),
1872 	/* R_SPKFXCTL PG 3 ADDR 0x35 */
1873 	SOC_SINGLE("Speaker 3D Switch", R_SPKFXCTL, FB_SPKFXCTL_3DEN, 1, 0),
1874 	SOC_SINGLE("Speaker Treble Enhancement Switch",
1875 			R_SPKFXCTL, FB_SPKFXCTL_TEEN, 1, 0),
1876 	SOC_SINGLE("Speaker Treble NLF Switch",
1877 			R_SPKFXCTL, FB_SPKFXCTL_TNLFBYP, 1, 1),
1878 	SOC_SINGLE("Speaker Bass Enhancement Switch",
1879 			R_SPKFXCTL, FB_SPKFXCTL_BEEN, 1, 0),
1880 	SOC_SINGLE("Speaker Bass NLF Switch",
1881 			R_SPKFXCTL, FB_SPKFXCTL_BNLFBYP, 1, 1),
1882 	/* R_DACEQFILT PG 4 ADDR 0x01 */
1883 	SOC_SINGLE("DAC EQ 2 Switch",
1884 			R_DACEQFILT, FB_DACEQFILT_EQ2EN, 1, 0),
1885 	SOC_ENUM("DAC EQ 2 Band", dac_eq_enums[0]),
1886 	SOC_SINGLE("DAC EQ 1 Switch", R_DACEQFILT, FB_DACEQFILT_EQ1EN, 1, 0),
1887 	SOC_ENUM("DAC EQ 1 Band", dac_eq_enums[1]),
1888 	/* R_DACMBCEN PG 4 ADDR 0x0A */
1889 	SOC_SINGLE("DAC MBC 3 Switch", R_DACMBCEN, FB_DACMBCEN_MBCEN3, 1, 0),
1890 	SOC_SINGLE("DAC MBC 2 Switch", R_DACMBCEN, FB_DACMBCEN_MBCEN2, 1, 0),
1891 	SOC_SINGLE("DAC MBC 1 Switch", R_DACMBCEN, FB_DACMBCEN_MBCEN1, 1, 0),
1892 	/* R_DACMBCCTL PG 4 ADDR 0x0B */
1893 	SOC_ENUM("DAC MBC 3 Mode", dac_mbc3_lvl_det_mode_enum),
1894 	SOC_ENUM("DAC MBC 3 Window", dac_mbc3_win_sel_enum),
1895 	SOC_ENUM("DAC MBC 2 Mode", dac_mbc2_lvl_det_mode_enum),
1896 	SOC_ENUM("DAC MBC 2 Window", dac_mbc2_win_sel_enum),
1897 	SOC_ENUM("DAC MBC 1 Mode", dac_mbc1_lvl_det_mode_enum),
1898 	SOC_ENUM("DAC MBC 1 Window", dac_mbc1_win_sel_enum),
1899 	/* R_DACMBCMUG1 PG 4 ADDR 0x0C */
1900 	SOC_ENUM("DAC MBC 1 Phase Polarity", dac_mbc1_phase_pol_enum),
1901 	SOC_SINGLE_TLV("DAC MBC 1 Make-Up Gain Volume", R_DACMBCMUG1,
1902 			FB_DACMBCMUG_MUGAIN, FM_DACMBCMUG_MUGAIN,
1903 			0, mbc_mug_tlv_arr),
1904 	/* R_DACMBCTHR1 PG 4 ADDR 0x0D */
1905 	SOC_SINGLE_TLV("DAC MBC 1 Compressor Threshold Volume", R_DACMBCTHR1,
1906 			FB_DACMBCTHR_THRESH, FM_DACMBCTHR_THRESH,
1907 			0, thr_tlv_arr),
1908 	/* R_DACMBCRAT1 PG 4 ADDR 0x0E */
1909 	SOC_ENUM("DAC MBC 1 Compressor Ratio", dac_mbc1_comp_rat_enum),
1910 	/* R_DACMBCATK1L PG 4 ADDR 0x0F */
1911 	/* R_DACMBCATK1H PG 4 ADDR 0x10 */
1912 	SND_SOC_BYTES("DAC MBC 1 Attack", R_DACMBCATK1L, 2),
1913 	/* R_DACMBCREL1L PG 4 ADDR 0x11 */
1914 	/* R_DACMBCREL1H PG 4 ADDR 0x12 */
1915 	SND_SOC_BYTES("DAC MBC 1 Release", R_DACMBCREL1L, 2),
1916 	/* R_DACMBCMUG2 PG 4 ADDR 0x13 */
1917 	SOC_ENUM("DAC MBC 2 Phase Polarity", dac_mbc2_phase_pol_enum),
1918 	SOC_SINGLE_TLV("DAC MBC 2 Make-Up Gain Volume", R_DACMBCMUG2,
1919 			FB_DACMBCMUG_MUGAIN, FM_DACMBCMUG_MUGAIN,
1920 			0, mbc_mug_tlv_arr),
1921 	/* R_DACMBCTHR2 PG 4 ADDR 0x14 */
1922 	SOC_SINGLE_TLV("DAC MBC 2 Compressor Threshold Volume", R_DACMBCTHR2,
1923 			FB_DACMBCTHR_THRESH, FM_DACMBCTHR_THRESH,
1924 			0, thr_tlv_arr),
1925 	/* R_DACMBCRAT2 PG 4 ADDR 0x15 */
1926 	SOC_ENUM("DAC MBC 2 Compressor Ratio", dac_mbc2_comp_rat_enum),
1927 	/* R_DACMBCATK2L PG 4 ADDR 0x16 */
1928 	/* R_DACMBCATK2H PG 4 ADDR 0x17 */
1929 	SND_SOC_BYTES("DAC MBC 2 Attack", R_DACMBCATK2L, 2),
1930 	/* R_DACMBCREL2L PG 4 ADDR 0x18 */
1931 	/* R_DACMBCREL2H PG 4 ADDR 0x19 */
1932 	SND_SOC_BYTES("DAC MBC 2 Release", R_DACMBCREL2L, 2),
1933 	/* R_DACMBCMUG3 PG 4 ADDR 0x1A */
1934 	SOC_ENUM("DAC MBC 3 Phase Polarity", dac_mbc3_phase_pol_enum),
1935 	SOC_SINGLE_TLV("DAC MBC 3 Make-Up Gain Volume", R_DACMBCMUG3,
1936 			FB_DACMBCMUG_MUGAIN, FM_DACMBCMUG_MUGAIN,
1937 			0, mbc_mug_tlv_arr),
1938 	/* R_DACMBCTHR3 PG 4 ADDR 0x1B */
1939 	SOC_SINGLE_TLV("DAC MBC 3 Threshold Volume", R_DACMBCTHR3,
1940 			FB_DACMBCTHR_THRESH, FM_DACMBCTHR_THRESH,
1941 			0, thr_tlv_arr),
1942 	/* R_DACMBCRAT3 PG 4 ADDR 0x1C */
1943 	SOC_ENUM("DAC MBC 3 Compressor Ratio", dac_mbc3_comp_rat_enum),
1944 	/* R_DACMBCATK3L PG 4 ADDR 0x1D */
1945 	/* R_DACMBCATK3H PG 4 ADDR 0x1E */
1946 	SND_SOC_BYTES("DAC MBC 3 Attack", R_DACMBCATK3L, 3),
1947 	/* R_DACMBCREL3L PG 4 ADDR 0x1F */
1948 	/* R_DACMBCREL3H PG 4 ADDR 0x20 */
1949 	SND_SOC_BYTES("DAC MBC 3 Release", R_DACMBCREL3L, 3),
1950 	/* R_DACCLECTL PG 4 ADDR 0x21 */
1951 	SOC_ENUM("DAC CLE Level Mode", dac_cle_lvl_mode_enum),
1952 	SOC_ENUM("DAC CLE Window", dac_cle_win_sel_enum),
1953 	SOC_SINGLE("DAC CLE Expander Switch",
1954 			R_DACCLECTL, FB_DACCLECTL_EXPEN, 1, 0),
1955 	SOC_SINGLE("DAC CLE Limiter Switch",
1956 			R_DACCLECTL, FB_DACCLECTL_LIMEN, 1, 0),
1957 	SOC_SINGLE("DAC CLE Compressor Switch",
1958 			R_DACCLECTL, FB_DACCLECTL_COMPEN, 1, 0),
1959 	/* R_DACCLEMUG PG 4 ADDR 0x22 */
1960 	SOC_SINGLE_TLV("DAC CLE Make-Up Gain Volume", R_DACCLEMUG,
1961 			FB_DACCLEMUG_MUGAIN, FM_DACCLEMUG_MUGAIN,
1962 			0, cle_mug_tlv_arr),
1963 	/* R_DACCOMPTHR PG 4 ADDR 0x23 */
1964 	SOC_SINGLE_TLV("DAC Compressor Threshold Volume", R_DACCOMPTHR,
1965 			FB_DACCOMPTHR_THRESH, FM_DACCOMPTHR_THRESH,
1966 			0, thr_tlv_arr),
1967 	/* R_DACCOMPRAT PG 4 ADDR 0x24 */
1968 	SOC_ENUM("DAC Compressor Ratio", dac_comp_rat_enum),
1969 	/* R_DACCOMPATKL PG 4 ADDR 0x25 */
1970 	/* R_DACCOMPATKH PG 4 ADDR 0x26 */
1971 	SND_SOC_BYTES("DAC Compressor Attack", R_DACCOMPATKL, 2),
1972 	/* R_DACCOMPRELL PG 4 ADDR 0x27 */
1973 	/* R_DACCOMPRELH PG 4 ADDR 0x28 */
1974 	SND_SOC_BYTES("DAC Compressor Release", R_DACCOMPRELL, 2),
1975 	/* R_DACLIMTHR PG 4 ADDR 0x29 */
1976 	SOC_SINGLE_TLV("DAC Limiter Threshold Volume", R_DACLIMTHR,
1977 			FB_DACLIMTHR_THRESH, FM_DACLIMTHR_THRESH,
1978 			0, thr_tlv_arr),
1979 	/* R_DACLIMTGT PG 4 ADDR 0x2A */
1980 	SOC_SINGLE_TLV("DAC Limiter Target Volume", R_DACLIMTGT,
1981 			FB_DACLIMTGT_TARGET, FM_DACLIMTGT_TARGET,
1982 			0, thr_tlv_arr),
1983 	/* R_DACLIMATKL PG 4 ADDR 0x2B */
1984 	/* R_DACLIMATKH PG 4 ADDR 0x2C */
1985 	SND_SOC_BYTES("DAC Limiter Attack", R_DACLIMATKL, 2),
1986 	/* R_DACLIMRELL PG 4 ADDR 0x2D */
1987 	/* R_DACLIMRELR PG 4 ADDR 0x2E */
1988 	SND_SOC_BYTES("DAC Limiter Release", R_DACLIMRELL, 2),
1989 	/* R_DACEXPTHR PG 4 ADDR 0x2F */
1990 	SOC_SINGLE_TLV("DAC Expander Threshold Volume", R_DACEXPTHR,
1991 			FB_DACEXPTHR_THRESH, FM_DACEXPTHR_THRESH,
1992 			0, thr_tlv_arr),
1993 	/* R_DACEXPRAT PG 4 ADDR 0x30 */
1994 	SOC_ENUM("DAC Expander Ratio", dac_exp_rat_enum),
1995 	/* R_DACEXPATKL PG 4 ADDR 0x31 */
1996 	/* R_DACEXPATKR PG 4 ADDR 0x32 */
1997 	SND_SOC_BYTES("DAC Expander Attack", R_DACEXPATKL, 2),
1998 	/* R_DACEXPRELL PG 4 ADDR 0x33 */
1999 	/* R_DACEXPRELR PG 4 ADDR 0x34 */
2000 	SND_SOC_BYTES("DAC Expander Release", R_DACEXPRELL, 2),
2001 	/* R_DACFXCTL PG 4 ADDR 0x35 */
2002 	SOC_SINGLE("DAC 3D Switch", R_DACFXCTL, FB_DACFXCTL_3DEN, 1, 0),
2003 	SOC_SINGLE("DAC Treble Enhancement Switch",
2004 			R_DACFXCTL, FB_DACFXCTL_TEEN, 1, 0),
2005 	SOC_SINGLE("DAC Treble NLF Switch",
2006 			R_DACFXCTL, FB_DACFXCTL_TNLFBYP, 1, 1),
2007 	SOC_SINGLE("DAC Bass Enhancement Switch",
2008 			R_DACFXCTL, FB_DACFXCTL_BEEN, 1, 0),
2009 	SOC_SINGLE("DAC Bass NLF Switch",
2010 			R_DACFXCTL, FB_DACFXCTL_BNLFBYP, 1, 1),
2011 	/* R_SUBEQFILT PG 5 ADDR 0x01 */
2012 	SOC_SINGLE("Sub EQ 2 Switch",
2013 			R_SUBEQFILT, FB_SUBEQFILT_EQ2EN, 1, 0),
2014 	SOC_ENUM("Sub EQ 2 Band", sub_eq_enums[0]),
2015 	SOC_SINGLE("Sub EQ 1 Switch", R_SUBEQFILT, FB_SUBEQFILT_EQ1EN, 1, 0),
2016 	SOC_ENUM("Sub EQ 1 Band", sub_eq_enums[1]),
2017 	/* R_SUBMBCEN PG 5 ADDR 0x0A */
2018 	SOC_SINGLE("Sub MBC 3 Switch", R_SUBMBCEN, FB_SUBMBCEN_MBCEN3, 1, 0),
2019 	SOC_SINGLE("Sub MBC 2 Switch", R_SUBMBCEN, FB_SUBMBCEN_MBCEN2, 1, 0),
2020 	SOC_SINGLE("Sub MBC 1 Switch", R_SUBMBCEN, FB_SUBMBCEN_MBCEN1, 1, 0),
2021 	/* R_SUBMBCCTL PG 5 ADDR 0x0B */
2022 	SOC_ENUM("Sub MBC 3 Mode", sub_mbc3_lvl_det_mode_enum),
2023 	SOC_ENUM("Sub MBC 3 Window", sub_mbc3_win_sel_enum),
2024 	SOC_ENUM("Sub MBC 2 Mode", sub_mbc2_lvl_det_mode_enum),
2025 	SOC_ENUM("Sub MBC 2 Window", sub_mbc2_win_sel_enum),
2026 	SOC_ENUM("Sub MBC 1 Mode", sub_mbc1_lvl_det_mode_enum),
2027 	SOC_ENUM("Sub MBC 1 Window", sub_mbc1_win_sel_enum),
2028 	/* R_SUBMBCMUG1 PG 5 ADDR 0x0C */
2029 	SOC_ENUM("Sub MBC 1 Phase Polarity", sub_mbc1_phase_pol_enum),
2030 	SOC_SINGLE_TLV("Sub MBC 1 Make-Up Gain Volume", R_SUBMBCMUG1,
2031 			FB_SUBMBCMUG_MUGAIN, FM_SUBMBCMUG_MUGAIN,
2032 			0, mbc_mug_tlv_arr),
2033 	/* R_SUBMBCTHR1 PG 5 ADDR 0x0D */
2034 	SOC_SINGLE_TLV("Sub MBC 1 Compressor Threshold Volume", R_SUBMBCTHR1,
2035 			FB_SUBMBCTHR_THRESH, FM_SUBMBCTHR_THRESH,
2036 			0, thr_tlv_arr),
2037 	/* R_SUBMBCRAT1 PG 5 ADDR 0x0E */
2038 	SOC_ENUM("Sub MBC 1 Compressor Ratio", sub_mbc1_comp_rat_enum),
2039 	/* R_SUBMBCATK1L PG 5 ADDR 0x0F */
2040 	/* R_SUBMBCATK1H PG 5 ADDR 0x10 */
2041 	SND_SOC_BYTES("Sub MBC 1 Attack", R_SUBMBCATK1L, 2),
2042 	/* R_SUBMBCREL1L PG 5 ADDR 0x11 */
2043 	/* R_SUBMBCREL1H PG 5 ADDR 0x12 */
2044 	SND_SOC_BYTES("Sub MBC 1 Release", R_SUBMBCREL1L, 2),
2045 	/* R_SUBMBCMUG2 PG 5 ADDR 0x13 */
2046 	SOC_ENUM("Sub MBC 2 Phase Polarity", sub_mbc2_phase_pol_enum),
2047 	SOC_SINGLE_TLV("Sub MBC 2 Make-Up Gain Volume", R_SUBMBCMUG2,
2048 			FB_SUBMBCMUG_MUGAIN, FM_SUBMBCMUG_MUGAIN,
2049 			0, mbc_mug_tlv_arr),
2050 	/* R_SUBMBCTHR2 PG 5 ADDR 0x14 */
2051 	SOC_SINGLE_TLV("Sub MBC 2 Compressor Threshold Volume", R_SUBMBCTHR2,
2052 			FB_SUBMBCTHR_THRESH, FM_SUBMBCTHR_THRESH,
2053 			0, thr_tlv_arr),
2054 	/* R_SUBMBCRAT2 PG 5 ADDR 0x15 */
2055 	SOC_ENUM("Sub MBC 2 Compressor Ratio", sub_mbc2_comp_rat_enum),
2056 	/* R_SUBMBCATK2L PG 5 ADDR 0x16 */
2057 	/* R_SUBMBCATK2H PG 5 ADDR 0x17 */
2058 	SND_SOC_BYTES("Sub MBC 2 Attack", R_SUBMBCATK2L, 2),
2059 	/* R_SUBMBCREL2L PG 5 ADDR 0x18 */
2060 	/* R_SUBMBCREL2H PG 5 ADDR 0x19 */
2061 	SND_SOC_BYTES("Sub MBC 2 Release", R_SUBMBCREL2L, 2),
2062 	/* R_SUBMBCMUG3 PG 5 ADDR 0x1A */
2063 	SOC_ENUM("Sub MBC 3 Phase Polarity", sub_mbc3_phase_pol_enum),
2064 	SOC_SINGLE_TLV("Sub MBC 3 Make-Up Gain Volume", R_SUBMBCMUG3,
2065 			FB_SUBMBCMUG_MUGAIN, FM_SUBMBCMUG_MUGAIN,
2066 			0, mbc_mug_tlv_arr),
2067 	/* R_SUBMBCTHR3 PG 5 ADDR 0x1B */
2068 	SOC_SINGLE_TLV("Sub MBC 3 Threshold Volume", R_SUBMBCTHR3,
2069 			FB_SUBMBCTHR_THRESH, FM_SUBMBCTHR_THRESH,
2070 			0, thr_tlv_arr),
2071 	/* R_SUBMBCRAT3 PG 5 ADDR 0x1C */
2072 	SOC_ENUM("Sub MBC 3 Compressor Ratio", sub_mbc3_comp_rat_enum),
2073 	/* R_SUBMBCATK3L PG 5 ADDR 0x1D */
2074 	/* R_SUBMBCATK3H PG 5 ADDR 0x1E */
2075 	SND_SOC_BYTES("Sub MBC 3 Attack", R_SUBMBCATK3L, 3),
2076 	/* R_SUBMBCREL3L PG 5 ADDR 0x1F */
2077 	/* R_SUBMBCREL3H PG 5 ADDR 0x20 */
2078 	SND_SOC_BYTES("Sub MBC 3 Release", R_SUBMBCREL3L, 3),
2079 	/* R_SUBCLECTL PG 5 ADDR 0x21 */
2080 	SOC_ENUM("Sub CLE Level Mode", sub_cle_lvl_mode_enum),
2081 	SOC_ENUM("Sub CLE Window", sub_cle_win_sel_enum),
2082 	SOC_SINGLE("Sub CLE Expander Switch",
2083 			R_SUBCLECTL, FB_SUBCLECTL_EXPEN, 1, 0),
2084 	SOC_SINGLE("Sub CLE Limiter Switch",
2085 			R_SUBCLECTL, FB_SUBCLECTL_LIMEN, 1, 0),
2086 	SOC_SINGLE("Sub CLE Compressor Switch",
2087 			R_SUBCLECTL, FB_SUBCLECTL_COMPEN, 1, 0),
2088 	/* R_SUBCLEMUG PG 5 ADDR 0x22 */
2089 	SOC_SINGLE_TLV("Sub CLE Make-Up Gain Volume", R_SUBCLEMUG,
2090 			FB_SUBCLEMUG_MUGAIN, FM_SUBCLEMUG_MUGAIN,
2091 			0, cle_mug_tlv_arr),
2092 	/* R_SUBCOMPTHR PG 5 ADDR 0x23 */
2093 	SOC_SINGLE_TLV("Sub Compressor Threshold Volume", R_SUBCOMPTHR,
2094 			FB_SUBCOMPTHR_THRESH, FM_SUBCOMPTHR_THRESH,
2095 			0, thr_tlv_arr),
2096 	/* R_SUBCOMPRAT PG 5 ADDR 0x24 */
2097 	SOC_ENUM("Sub Compressor Ratio", sub_comp_rat_enum),
2098 	/* R_SUBCOMPATKL PG 5 ADDR 0x25 */
2099 	/* R_SUBCOMPATKH PG 5 ADDR 0x26 */
2100 	SND_SOC_BYTES("Sub Compressor Attack", R_SUBCOMPATKL, 2),
2101 	/* R_SUBCOMPRELL PG 5 ADDR 0x27 */
2102 	/* R_SUBCOMPRELH PG 5 ADDR 0x28 */
2103 	SND_SOC_BYTES("Sub Compressor Release", R_SUBCOMPRELL, 2),
2104 	/* R_SUBLIMTHR PG 5 ADDR 0x29 */
2105 	SOC_SINGLE_TLV("Sub Limiter Threshold Volume", R_SUBLIMTHR,
2106 			FB_SUBLIMTHR_THRESH, FM_SUBLIMTHR_THRESH,
2107 			0, thr_tlv_arr),
2108 	/* R_SUBLIMTGT PG 5 ADDR 0x2A */
2109 	SOC_SINGLE_TLV("Sub Limiter Target Volume", R_SUBLIMTGT,
2110 			FB_SUBLIMTGT_TARGET, FM_SUBLIMTGT_TARGET,
2111 			0, thr_tlv_arr),
2112 	/* R_SUBLIMATKL PG 5 ADDR 0x2B */
2113 	/* R_SUBLIMATKH PG 5 ADDR 0x2C */
2114 	SND_SOC_BYTES("Sub Limiter Attack", R_SUBLIMATKL, 2),
2115 	/* R_SUBLIMRELL PG 5 ADDR 0x2D */
2116 	/* R_SUBLIMRELR PG 5 ADDR 0x2E */
2117 	SND_SOC_BYTES("Sub Limiter Release", R_SUBLIMRELL, 2),
2118 	/* R_SUBEXPTHR PG 5 ADDR 0x2F */
2119 	SOC_SINGLE_TLV("Sub Expander Threshold Volume", R_SUBEXPTHR,
2120 			FB_SUBEXPTHR_THRESH, FM_SUBEXPTHR_THRESH,
2121 			0, thr_tlv_arr),
2122 	/* R_SUBEXPRAT PG 5 ADDR 0x30 */
2123 	SOC_ENUM("Sub Expander Ratio", sub_exp_rat_enum),
2124 	/* R_SUBEXPATKL PG 5 ADDR 0x31 */
2125 	/* R_SUBEXPATKR PG 5 ADDR 0x32 */
2126 	SND_SOC_BYTES("Sub Expander Attack", R_SUBEXPATKL, 2),
2127 	/* R_SUBEXPRELL PG 5 ADDR 0x33 */
2128 	/* R_SUBEXPRELR PG 5 ADDR 0x34 */
2129 	SND_SOC_BYTES("Sub Expander Release", R_SUBEXPRELL, 2),
2130 	/* R_SUBFXCTL PG 5 ADDR 0x35 */
2131 	SOC_SINGLE("Sub Treble Enhancement Switch",
2132 			R_SUBFXCTL, FB_SUBFXCTL_TEEN, 1, 0),
2133 	SOC_SINGLE("Sub Treble NLF Switch",
2134 			R_SUBFXCTL, FB_SUBFXCTL_TNLFBYP, 1, 1),
2135 	SOC_SINGLE("Sub Bass Enhancement Switch",
2136 			R_SUBFXCTL, FB_SUBFXCTL_BEEN, 1, 0),
2137 	SOC_SINGLE("Sub Bass NLF Switch",
2138 			R_SUBFXCTL, FB_SUBFXCTL_BNLFBYP, 1, 1),
2139 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 1", BIQUAD_SIZE, 0x00),
2140 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 2", BIQUAD_SIZE, 0x05),
2141 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 3", BIQUAD_SIZE, 0x0a),
2142 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 4", BIQUAD_SIZE, 0x0f),
2143 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 5", BIQUAD_SIZE, 0x14),
2144 	COEFF_RAM_CTL("DAC Cascade 1 Left BiQuad 6", BIQUAD_SIZE, 0x19),
2145 
2146 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 1", BIQUAD_SIZE, 0x20),
2147 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 2", BIQUAD_SIZE, 0x25),
2148 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 3", BIQUAD_SIZE, 0x2a),
2149 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 4", BIQUAD_SIZE, 0x2f),
2150 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 5", BIQUAD_SIZE, 0x34),
2151 	COEFF_RAM_CTL("DAC Cascade 1 Right BiQuad 6", BIQUAD_SIZE, 0x39),
2152 
2153 	COEFF_RAM_CTL("DAC Cascade 1 Left Prescale", COEFF_SIZE, 0x1f),
2154 	COEFF_RAM_CTL("DAC Cascade 1 Right Prescale", COEFF_SIZE, 0x3f),
2155 
2156 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 1", BIQUAD_SIZE, 0x40),
2157 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 2", BIQUAD_SIZE, 0x45),
2158 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 3", BIQUAD_SIZE, 0x4a),
2159 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 4", BIQUAD_SIZE, 0x4f),
2160 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 5", BIQUAD_SIZE, 0x54),
2161 	COEFF_RAM_CTL("DAC Cascade 2 Left BiQuad 6", BIQUAD_SIZE, 0x59),
2162 
2163 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 1", BIQUAD_SIZE, 0x60),
2164 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 2", BIQUAD_SIZE, 0x65),
2165 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 3", BIQUAD_SIZE, 0x6a),
2166 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 4", BIQUAD_SIZE, 0x6f),
2167 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 5", BIQUAD_SIZE, 0x74),
2168 	COEFF_RAM_CTL("DAC Cascade 2 Right BiQuad 6", BIQUAD_SIZE, 0x79),
2169 
2170 	COEFF_RAM_CTL("DAC Cascade 2 Left Prescale", COEFF_SIZE, 0x5f),
2171 	COEFF_RAM_CTL("DAC Cascade 2 Right Prescale", COEFF_SIZE, 0x7f),
2172 
2173 	COEFF_RAM_CTL("DAC Bass Extraction BiQuad 1", BIQUAD_SIZE, 0x80),
2174 	COEFF_RAM_CTL("DAC Bass Extraction BiQuad 2", BIQUAD_SIZE, 0x85),
2175 
2176 	COEFF_RAM_CTL("DAC Bass Non Linear Function 1", COEFF_SIZE, 0x8a),
2177 	COEFF_RAM_CTL("DAC Bass Non Linear Function 2", COEFF_SIZE, 0x8b),
2178 
2179 	COEFF_RAM_CTL("DAC Bass Limiter BiQuad", BIQUAD_SIZE, 0x8c),
2180 
2181 	COEFF_RAM_CTL("DAC Bass Cut Off BiQuad", BIQUAD_SIZE, 0x91),
2182 
2183 	COEFF_RAM_CTL("DAC Bass Mix", COEFF_SIZE, 0x96),
2184 
2185 	COEFF_RAM_CTL("DAC Treb Extraction BiQuad 1", BIQUAD_SIZE, 0x97),
2186 	COEFF_RAM_CTL("DAC Treb Extraction BiQuad 2", BIQUAD_SIZE, 0x9c),
2187 
2188 	COEFF_RAM_CTL("DAC Treb Non Linear Function 1", COEFF_SIZE, 0xa1),
2189 	COEFF_RAM_CTL("DAC Treb Non Linear Function 2", COEFF_SIZE, 0xa2),
2190 
2191 	COEFF_RAM_CTL("DAC Treb Limiter BiQuad", BIQUAD_SIZE, 0xa3),
2192 
2193 	COEFF_RAM_CTL("DAC Treb Cut Off BiQuad", BIQUAD_SIZE, 0xa8),
2194 
2195 	COEFF_RAM_CTL("DAC Treb Mix", COEFF_SIZE, 0xad),
2196 
2197 	COEFF_RAM_CTL("DAC 3D", COEFF_SIZE, 0xae),
2198 
2199 	COEFF_RAM_CTL("DAC 3D Mix", COEFF_SIZE, 0xaf),
2200 
2201 	COEFF_RAM_CTL("DAC MBC 1 BiQuad 1", BIQUAD_SIZE, 0xb0),
2202 	COEFF_RAM_CTL("DAC MBC 1 BiQuad 2", BIQUAD_SIZE, 0xb5),
2203 
2204 	COEFF_RAM_CTL("DAC MBC 2 BiQuad 1", BIQUAD_SIZE, 0xba),
2205 	COEFF_RAM_CTL("DAC MBC 2 BiQuad 2", BIQUAD_SIZE, 0xbf),
2206 
2207 	COEFF_RAM_CTL("DAC MBC 3 BiQuad 1", BIQUAD_SIZE, 0xc4),
2208 	COEFF_RAM_CTL("DAC MBC 3 BiQuad 2", BIQUAD_SIZE, 0xc9),
2209 
2210 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 1", BIQUAD_SIZE, 0x00),
2211 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 2", BIQUAD_SIZE, 0x05),
2212 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 3", BIQUAD_SIZE, 0x0a),
2213 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 4", BIQUAD_SIZE, 0x0f),
2214 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 5", BIQUAD_SIZE, 0x14),
2215 	COEFF_RAM_CTL("Speaker Cascade 1 Left BiQuad 6", BIQUAD_SIZE, 0x19),
2216 
2217 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 1", BIQUAD_SIZE, 0x20),
2218 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 2", BIQUAD_SIZE, 0x25),
2219 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 3", BIQUAD_SIZE, 0x2a),
2220 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 4", BIQUAD_SIZE, 0x2f),
2221 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 5", BIQUAD_SIZE, 0x34),
2222 	COEFF_RAM_CTL("Speaker Cascade 1 Right BiQuad 6", BIQUAD_SIZE, 0x39),
2223 
2224 	COEFF_RAM_CTL("Speaker Cascade 1 Left Prescale", COEFF_SIZE, 0x1f),
2225 	COEFF_RAM_CTL("Speaker Cascade 1 Right Prescale", COEFF_SIZE, 0x3f),
2226 
2227 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 1", BIQUAD_SIZE, 0x40),
2228 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 2", BIQUAD_SIZE, 0x45),
2229 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 3", BIQUAD_SIZE, 0x4a),
2230 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 4", BIQUAD_SIZE, 0x4f),
2231 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 5", BIQUAD_SIZE, 0x54),
2232 	COEFF_RAM_CTL("Speaker Cascade 2 Left BiQuad 6", BIQUAD_SIZE, 0x59),
2233 
2234 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 1", BIQUAD_SIZE, 0x60),
2235 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 2", BIQUAD_SIZE, 0x65),
2236 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 3", BIQUAD_SIZE, 0x6a),
2237 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 4", BIQUAD_SIZE, 0x6f),
2238 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 5", BIQUAD_SIZE, 0x74),
2239 	COEFF_RAM_CTL("Speaker Cascade 2 Right BiQuad 6", BIQUAD_SIZE, 0x79),
2240 
2241 	COEFF_RAM_CTL("Speaker Cascade 2 Left Prescale", COEFF_SIZE, 0x5f),
2242 	COEFF_RAM_CTL("Speaker Cascade 2 Right Prescale", COEFF_SIZE, 0x7f),
2243 
2244 	COEFF_RAM_CTL("Speaker Bass Extraction BiQuad 1", BIQUAD_SIZE, 0x80),
2245 	COEFF_RAM_CTL("Speaker Bass Extraction BiQuad 2", BIQUAD_SIZE, 0x85),
2246 
2247 	COEFF_RAM_CTL("Speaker Bass Non Linear Function 1", COEFF_SIZE, 0x8a),
2248 	COEFF_RAM_CTL("Speaker Bass Non Linear Function 2", COEFF_SIZE, 0x8b),
2249 
2250 	COEFF_RAM_CTL("Speaker Bass Limiter BiQuad", BIQUAD_SIZE, 0x8c),
2251 
2252 	COEFF_RAM_CTL("Speaker Bass Cut Off BiQuad", BIQUAD_SIZE, 0x91),
2253 
2254 	COEFF_RAM_CTL("Speaker Bass Mix", COEFF_SIZE, 0x96),
2255 
2256 	COEFF_RAM_CTL("Speaker Treb Extraction BiQuad 1", BIQUAD_SIZE, 0x97),
2257 	COEFF_RAM_CTL("Speaker Treb Extraction BiQuad 2", BIQUAD_SIZE, 0x9c),
2258 
2259 	COEFF_RAM_CTL("Speaker Treb Non Linear Function 1", COEFF_SIZE, 0xa1),
2260 	COEFF_RAM_CTL("Speaker Treb Non Linear Function 2", COEFF_SIZE, 0xa2),
2261 
2262 	COEFF_RAM_CTL("Speaker Treb Limiter BiQuad", BIQUAD_SIZE, 0xa3),
2263 
2264 	COEFF_RAM_CTL("Speaker Treb Cut Off BiQuad", BIQUAD_SIZE, 0xa8),
2265 
2266 	COEFF_RAM_CTL("Speaker Treb Mix", COEFF_SIZE, 0xad),
2267 
2268 	COEFF_RAM_CTL("Speaker 3D", COEFF_SIZE, 0xae),
2269 
2270 	COEFF_RAM_CTL("Speaker 3D Mix", COEFF_SIZE, 0xaf),
2271 
2272 	COEFF_RAM_CTL("Speaker MBC 1 BiQuad 1", BIQUAD_SIZE, 0xb0),
2273 	COEFF_RAM_CTL("Speaker MBC 1 BiQuad 2", BIQUAD_SIZE, 0xb5),
2274 
2275 	COEFF_RAM_CTL("Speaker MBC 2 BiQuad 1", BIQUAD_SIZE, 0xba),
2276 	COEFF_RAM_CTL("Speaker MBC 2 BiQuad 2", BIQUAD_SIZE, 0xbf),
2277 
2278 	COEFF_RAM_CTL("Speaker MBC 3 BiQuad 1", BIQUAD_SIZE, 0xc4),
2279 	COEFF_RAM_CTL("Speaker MBC 3 BiQuad 2", BIQUAD_SIZE, 0xc9),
2280 
2281 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 1", BIQUAD_SIZE, 0x00),
2282 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 2", BIQUAD_SIZE, 0x05),
2283 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 3", BIQUAD_SIZE, 0x0a),
2284 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 4", BIQUAD_SIZE, 0x0f),
2285 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 5", BIQUAD_SIZE, 0x14),
2286 	COEFF_RAM_CTL("Sub Cascade 1 Left BiQuad 6", BIQUAD_SIZE, 0x19),
2287 
2288 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 1", BIQUAD_SIZE, 0x20),
2289 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 2", BIQUAD_SIZE, 0x25),
2290 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 3", BIQUAD_SIZE, 0x2a),
2291 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 4", BIQUAD_SIZE, 0x2f),
2292 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 5", BIQUAD_SIZE, 0x34),
2293 	COEFF_RAM_CTL("Sub Cascade 1 Right BiQuad 6", BIQUAD_SIZE, 0x39),
2294 
2295 	COEFF_RAM_CTL("Sub Cascade 1 Left Prescale", COEFF_SIZE, 0x1f),
2296 	COEFF_RAM_CTL("Sub Cascade 1 Right Prescale", COEFF_SIZE, 0x3f),
2297 
2298 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 1", BIQUAD_SIZE, 0x40),
2299 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 2", BIQUAD_SIZE, 0x45),
2300 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 3", BIQUAD_SIZE, 0x4a),
2301 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 4", BIQUAD_SIZE, 0x4f),
2302 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 5", BIQUAD_SIZE, 0x54),
2303 	COEFF_RAM_CTL("Sub Cascade 2 Left BiQuad 6", BIQUAD_SIZE, 0x59),
2304 
2305 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 1", BIQUAD_SIZE, 0x60),
2306 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 2", BIQUAD_SIZE, 0x65),
2307 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 3", BIQUAD_SIZE, 0x6a),
2308 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 4", BIQUAD_SIZE, 0x6f),
2309 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 5", BIQUAD_SIZE, 0x74),
2310 	COEFF_RAM_CTL("Sub Cascade 2 Right BiQuad 6", BIQUAD_SIZE, 0x79),
2311 
2312 	COEFF_RAM_CTL("Sub Cascade 2 Left Prescale", COEFF_SIZE, 0x5f),
2313 	COEFF_RAM_CTL("Sub Cascade 2 Right Prescale", COEFF_SIZE, 0x7f),
2314 
2315 	COEFF_RAM_CTL("Sub Bass Extraction BiQuad 1", BIQUAD_SIZE, 0x80),
2316 	COEFF_RAM_CTL("Sub Bass Extraction BiQuad 2", BIQUAD_SIZE, 0x85),
2317 
2318 	COEFF_RAM_CTL("Sub Bass Non Linear Function 1", COEFF_SIZE, 0x8a),
2319 	COEFF_RAM_CTL("Sub Bass Non Linear Function 2", COEFF_SIZE, 0x8b),
2320 
2321 	COEFF_RAM_CTL("Sub Bass Limiter BiQuad", BIQUAD_SIZE, 0x8c),
2322 
2323 	COEFF_RAM_CTL("Sub Bass Cut Off BiQuad", BIQUAD_SIZE, 0x91),
2324 
2325 	COEFF_RAM_CTL("Sub Bass Mix", COEFF_SIZE, 0x96),
2326 
2327 	COEFF_RAM_CTL("Sub Treb Extraction BiQuad 1", BIQUAD_SIZE, 0x97),
2328 	COEFF_RAM_CTL("Sub Treb Extraction BiQuad 2", BIQUAD_SIZE, 0x9c),
2329 
2330 	COEFF_RAM_CTL("Sub Treb Non Linear Function 1", COEFF_SIZE, 0xa1),
2331 	COEFF_RAM_CTL("Sub Treb Non Linear Function 2", COEFF_SIZE, 0xa2),
2332 
2333 	COEFF_RAM_CTL("Sub Treb Limiter BiQuad", BIQUAD_SIZE, 0xa3),
2334 
2335 	COEFF_RAM_CTL("Sub Treb Cut Off BiQuad", BIQUAD_SIZE, 0xa8),
2336 
2337 	COEFF_RAM_CTL("Sub Treb Mix", COEFF_SIZE, 0xad),
2338 
2339 	COEFF_RAM_CTL("Sub 3D", COEFF_SIZE, 0xae),
2340 
2341 	COEFF_RAM_CTL("Sub 3D Mix", COEFF_SIZE, 0xaf),
2342 
2343 	COEFF_RAM_CTL("Sub MBC 1 BiQuad 1", BIQUAD_SIZE, 0xb0),
2344 	COEFF_RAM_CTL("Sub MBC 1 BiQuad 2", BIQUAD_SIZE, 0xb5),
2345 
2346 	COEFF_RAM_CTL("Sub MBC 2 BiQuad 1", BIQUAD_SIZE, 0xba),
2347 	COEFF_RAM_CTL("Sub MBC 2 BiQuad 2", BIQUAD_SIZE, 0xbf),
2348 
2349 	COEFF_RAM_CTL("Sub MBC 3 BiQuad 1", BIQUAD_SIZE, 0xc4),
2350 	COEFF_RAM_CTL("Sub MBC 3 BiQuad 2", BIQUAD_SIZE, 0xc9),
2351 };
2352 
2353 static struct snd_soc_dapm_widget const tscs454_dapm_widgets[] = {
2354 	/* R_PLLCTL PG 0 ADDR 0x15 */
2355 	SND_SOC_DAPM_SUPPLY("PLL 1 Power", R_PLLCTL, FB_PLLCTL_PU_PLL1, 0,
2356 			pll_power_event,
2357 			SND_SOC_DAPM_POST_PMU|SND_SOC_DAPM_PRE_PMD),
2358 	SND_SOC_DAPM_SUPPLY("PLL 2 Power", R_PLLCTL, FB_PLLCTL_PU_PLL2, 0,
2359 			pll_power_event,
2360 			SND_SOC_DAPM_POST_PMU|SND_SOC_DAPM_PRE_PMD),
2361 	/* R_I2SPINC0 PG 0 ADDR 0x22 */
2362 	SND_SOC_DAPM_AIF_OUT("DAI 3 Out", "DAI 3 Capture", 0,
2363 			R_I2SPINC0, FB_I2SPINC0_SDO3TRI, 1),
2364 	SND_SOC_DAPM_AIF_OUT("DAI 2 Out", "DAI 2 Capture", 0,
2365 			R_I2SPINC0, FB_I2SPINC0_SDO2TRI, 1),
2366 	SND_SOC_DAPM_AIF_OUT("DAI 1 Out", "DAI 1 Capture", 0,
2367 			R_I2SPINC0, FB_I2SPINC0_SDO1TRI, 1),
2368 	/* R_PWRM0 PG 0 ADDR 0x33 */
2369 	SND_SOC_DAPM_ADC("Input Processor Channel 3", NULL,
2370 			R_PWRM0, FB_PWRM0_INPROC3PU, 0),
2371 	SND_SOC_DAPM_ADC("Input Processor Channel 2", NULL,
2372 			R_PWRM0, FB_PWRM0_INPROC2PU, 0),
2373 	SND_SOC_DAPM_ADC("Input Processor Channel 1", NULL,
2374 			R_PWRM0, FB_PWRM0_INPROC1PU, 0),
2375 	SND_SOC_DAPM_ADC("Input Processor Channel 0", NULL,
2376 			R_PWRM0, FB_PWRM0_INPROC0PU, 0),
2377 	SND_SOC_DAPM_SUPPLY("Mic Bias 2",
2378 			R_PWRM0, FB_PWRM0_MICB2PU, 0, NULL, 0),
2379 	SND_SOC_DAPM_SUPPLY("Mic Bias 1", R_PWRM0,
2380 			FB_PWRM0_MICB1PU, 0, NULL, 0),
2381 	/* R_PWRM1 PG 0 ADDR 0x34 */
2382 	SND_SOC_DAPM_SUPPLY("Sub Power", R_PWRM1, FB_PWRM1_SUBPU, 0, NULL, 0),
2383 	SND_SOC_DAPM_SUPPLY("Headphone Left Power",
2384 			R_PWRM1, FB_PWRM1_HPLPU, 0, NULL, 0),
2385 	SND_SOC_DAPM_SUPPLY("Headphone Right Power",
2386 			R_PWRM1, FB_PWRM1_HPRPU, 0, NULL, 0),
2387 	SND_SOC_DAPM_SUPPLY("Speaker Left Power",
2388 			R_PWRM1, FB_PWRM1_SPKLPU, 0, NULL, 0),
2389 	SND_SOC_DAPM_SUPPLY("Speaker Right Power",
2390 			R_PWRM1, FB_PWRM1_SPKRPU, 0, NULL, 0),
2391 	SND_SOC_DAPM_SUPPLY("Differential Input 2 Power",
2392 			R_PWRM1, FB_PWRM1_D2S2PU, 0, NULL, 0),
2393 	SND_SOC_DAPM_SUPPLY("Differential Input 1 Power",
2394 			R_PWRM1, FB_PWRM1_D2S1PU, 0, NULL, 0),
2395 	/* R_PWRM2 PG 0 ADDR 0x35 */
2396 	SND_SOC_DAPM_SUPPLY("DAI 3 Out Power",
2397 			R_PWRM2, FB_PWRM2_I2S3OPU, 0, NULL, 0),
2398 	SND_SOC_DAPM_SUPPLY("DAI 2 Out Power",
2399 			R_PWRM2, FB_PWRM2_I2S2OPU, 0, NULL, 0),
2400 	SND_SOC_DAPM_SUPPLY("DAI 1 Out Power",
2401 			R_PWRM2, FB_PWRM2_I2S1OPU, 0, NULL, 0),
2402 	SND_SOC_DAPM_SUPPLY("DAI 3 In Power",
2403 			R_PWRM2, FB_PWRM2_I2S3IPU, 0, NULL, 0),
2404 	SND_SOC_DAPM_SUPPLY("DAI 2 In Power",
2405 			R_PWRM2, FB_PWRM2_I2S2IPU, 0, NULL, 0),
2406 	SND_SOC_DAPM_SUPPLY("DAI 1 In Power",
2407 			R_PWRM2, FB_PWRM2_I2S1IPU, 0, NULL, 0),
2408 	/* R_PWRM3 PG 0 ADDR 0x36 */
2409 	SND_SOC_DAPM_SUPPLY("Line Out Left Power",
2410 			R_PWRM3, FB_PWRM3_LLINEPU, 0, NULL, 0),
2411 	SND_SOC_DAPM_SUPPLY("Line Out Right Power",
2412 			R_PWRM3, FB_PWRM3_RLINEPU, 0, NULL, 0),
2413 	/* R_PWRM4 PG 0 ADDR 0x37 */
2414 	SND_SOC_DAPM_DAC("Sub", NULL, R_PWRM4, FB_PWRM4_OPSUBPU, 0),
2415 	SND_SOC_DAPM_DAC("DAC Left", NULL, R_PWRM4, FB_PWRM4_OPDACLPU, 0),
2416 	SND_SOC_DAPM_DAC("DAC Right", NULL, R_PWRM4, FB_PWRM4_OPDACRPU, 0),
2417 	SND_SOC_DAPM_DAC("ClassD Left", NULL, R_PWRM4, FB_PWRM4_OPSPKLPU, 0),
2418 	SND_SOC_DAPM_DAC("ClassD Right", NULL, R_PWRM4, FB_PWRM4_OPSPKRPU, 0),
2419 	/* R_AUDIOMUX1  PG 0 ADDR 0x3A */
2420 	SND_SOC_DAPM_MUX("DAI 2 Out Mux", SND_SOC_NOPM, 0, 0,
2421 			&dai2_mux_dapm_enum),
2422 	SND_SOC_DAPM_MUX("DAI 1 Out Mux", SND_SOC_NOPM, 0, 0,
2423 			&dai1_mux_dapm_enum),
2424 	/* R_AUDIOMUX2 PG 0 ADDR 0x3B */
2425 	SND_SOC_DAPM_MUX("DAC Mux", SND_SOC_NOPM, 0, 0,
2426 			&dac_mux_dapm_enum),
2427 	SND_SOC_DAPM_MUX("DAI 3 Out Mux", SND_SOC_NOPM, 0, 0,
2428 			&dai3_mux_dapm_enum),
2429 	/* R_AUDIOMUX3 PG 0 ADDR 0x3C */
2430 	SND_SOC_DAPM_MUX("Sub Mux", SND_SOC_NOPM, 0, 0,
2431 			&sub_mux_dapm_enum),
2432 	SND_SOC_DAPM_MUX("Speaker Mux", SND_SOC_NOPM, 0, 0,
2433 			&classd_mux_dapm_enum),
2434 	/* R_HSDCTL1 PG 1 ADDR 0x01 */
2435 	SND_SOC_DAPM_SUPPLY("GHS Detect Power", R_HSDCTL1,
2436 			FB_HSDCTL1_CON_DET_PWD, 1, NULL, 0),
2437 	/* R_CH0AIC PG 1 ADDR 0x06 */
2438 	SND_SOC_DAPM_MUX("Input Boost Channel 0 Mux", SND_SOC_NOPM, 0, 0,
2439 			&in_bst_mux_ch0_dapm_enum),
2440 	SND_SOC_DAPM_MUX("ADC Channel 0 Mux", SND_SOC_NOPM, 0, 0,
2441 			&adc_mux_ch0_dapm_enum),
2442 	SND_SOC_DAPM_MUX("Input Processor Channel 0 Mux", SND_SOC_NOPM, 0, 0,
2443 			&in_proc_mux_ch0_dapm_enum),
2444 	/* R_CH1AIC PG 1 ADDR 0x07 */
2445 	SND_SOC_DAPM_MUX("Input Boost Channel 1 Mux", SND_SOC_NOPM, 0, 0,
2446 			&in_bst_mux_ch1_dapm_enum),
2447 	SND_SOC_DAPM_MUX("ADC Channel 1 Mux", SND_SOC_NOPM, 0, 0,
2448 			&adc_mux_ch1_dapm_enum),
2449 	SND_SOC_DAPM_MUX("Input Processor Channel 1 Mux", SND_SOC_NOPM, 0, 0,
2450 			&in_proc_mux_ch1_dapm_enum),
2451 	/* Virtual */
2452 	SND_SOC_DAPM_AIF_IN("DAI 3 In", "DAI 3 Playback", 0,
2453 			SND_SOC_NOPM, 0, 0),
2454 	SND_SOC_DAPM_AIF_IN("DAI 2 In", "DAI 2 Playback", 0,
2455 			SND_SOC_NOPM, 0, 0),
2456 	SND_SOC_DAPM_AIF_IN("DAI 1 In", "DAI 1 Playback", 0,
2457 			SND_SOC_NOPM, 0, 0),
2458 	SND_SOC_DAPM_SUPPLY("PLLs", SND_SOC_NOPM, 0, 0, NULL, 0),
2459 	SND_SOC_DAPM_OUTPUT("Sub Out"),
2460 	SND_SOC_DAPM_OUTPUT("Headphone Left"),
2461 	SND_SOC_DAPM_OUTPUT("Headphone Right"),
2462 	SND_SOC_DAPM_OUTPUT("Speaker Left"),
2463 	SND_SOC_DAPM_OUTPUT("Speaker Right"),
2464 	SND_SOC_DAPM_OUTPUT("Line Out Left"),
2465 	SND_SOC_DAPM_OUTPUT("Line Out Right"),
2466 	SND_SOC_DAPM_INPUT("D2S 2"),
2467 	SND_SOC_DAPM_INPUT("D2S 1"),
2468 	SND_SOC_DAPM_INPUT("Line In 1 Left"),
2469 	SND_SOC_DAPM_INPUT("Line In 1 Right"),
2470 	SND_SOC_DAPM_INPUT("Line In 2 Left"),
2471 	SND_SOC_DAPM_INPUT("Line In 2 Right"),
2472 	SND_SOC_DAPM_INPUT("Line In 3 Left"),
2473 	SND_SOC_DAPM_INPUT("Line In 3 Right"),
2474 	SND_SOC_DAPM_INPUT("DMic 1"),
2475 	SND_SOC_DAPM_INPUT("DMic 2"),
2476 
2477 	SND_SOC_DAPM_MUX("CH 0_1 Mux", SND_SOC_NOPM, 0, 0,
2478 			&ch_0_1_mux_dapm_enum),
2479 	SND_SOC_DAPM_MUX("CH 2_3 Mux", SND_SOC_NOPM, 0, 0,
2480 			&ch_2_3_mux_dapm_enum),
2481 	SND_SOC_DAPM_MUX("CH 4_5 Mux", SND_SOC_NOPM, 0, 0,
2482 			&ch_4_5_mux_dapm_enum),
2483 };
2484 
2485 static struct snd_soc_dapm_route const tscs454_intercon[] = {
2486 	/* PLLs */
2487 	{"PLLs", NULL, "PLL 1 Power", pll_connected},
2488 	{"PLLs", NULL, "PLL 2 Power", pll_connected},
2489 	/* Inputs */
2490 	{"DAI 3 In", NULL, "DAI 3 In Power"},
2491 	{"DAI 2 In", NULL, "DAI 2 In Power"},
2492 	{"DAI 1 In", NULL, "DAI 1 In Power"},
2493 	/* Outputs */
2494 	{"DAI 3 Out", NULL, "DAI 3 Out Power"},
2495 	{"DAI 2 Out", NULL, "DAI 2 Out Power"},
2496 	{"DAI 1 Out", NULL, "DAI 1 Out Power"},
2497 	/* Ch Muxing */
2498 	{"CH 0_1 Mux", "DAI 1", "DAI 1 In"},
2499 	{"CH 0_1 Mux", "TDM 0_1", "DAI 1 In"},
2500 	{"CH 2_3 Mux", "DAI 2", "DAI 2 In"},
2501 	{"CH 2_3 Mux", "TDM 2_3", "DAI 1 In"},
2502 	{"CH 4_5 Mux", "DAI 3", "DAI 2 In"},
2503 	{"CH 4_5 Mux", "TDM 4_5", "DAI 1 In"},
2504 	/* In/Out Muxing */
2505 	{"DAI 1 Out Mux", "CH 0_1", "CH 0_1 Mux"},
2506 	{"DAI 1 Out Mux", "CH 2_3", "CH 2_3 Mux"},
2507 	{"DAI 1 Out Mux", "CH 4_5", "CH 4_5 Mux"},
2508 	{"DAI 2 Out Mux", "CH 0_1", "CH 0_1 Mux"},
2509 	{"DAI 2 Out Mux", "CH 2_3", "CH 2_3 Mux"},
2510 	{"DAI 2 Out Mux", "CH 4_5", "CH 4_5 Mux"},
2511 	{"DAI 3 Out Mux", "CH 0_1", "CH 0_1 Mux"},
2512 	{"DAI 3 Out Mux", "CH 2_3", "CH 2_3 Mux"},
2513 	{"DAI 3 Out Mux", "CH 4_5", "CH 4_5 Mux"},
2514 	/******************
2515 	 * Playback Paths *
2516 	 ******************/
2517 	/* DAC Path */
2518 	{"DAC Mux", "CH 4_5", "CH 4_5 Mux"},
2519 	{"DAC Mux", "CH 2_3", "CH 2_3 Mux"},
2520 	{"DAC Mux", "CH 0_1", "CH 0_1 Mux"},
2521 	{"DAC Left", NULL, "DAC Mux"},
2522 	{"DAC Right", NULL, "DAC Mux"},
2523 	{"DAC Left", NULL, "PLLs"},
2524 	{"DAC Right", NULL, "PLLs"},
2525 	{"Headphone Left", NULL, "Headphone Left Power"},
2526 	{"Headphone Right", NULL, "Headphone Right Power"},
2527 	{"Headphone Left", NULL, "DAC Left"},
2528 	{"Headphone Right", NULL, "DAC Right"},
2529 	/* Line Out */
2530 	{"Line Out Left", NULL, "Line Out Left Power"},
2531 	{"Line Out Right", NULL, "Line Out Right Power"},
2532 	{"Line Out Left", NULL, "DAC Left"},
2533 	{"Line Out Right", NULL, "DAC Right"},
2534 	/* ClassD Path */
2535 	{"Speaker Mux", "CH 4_5", "CH 4_5 Mux"},
2536 	{"Speaker Mux", "CH 2_3", "CH 2_3 Mux"},
2537 	{"Speaker Mux", "CH 0_1", "CH 0_1 Mux"},
2538 	{"ClassD Left", NULL, "Speaker Mux"},
2539 	{"ClassD Right", NULL, "Speaker Mux"},
2540 	{"ClassD Left", NULL, "PLLs"},
2541 	{"ClassD Right", NULL, "PLLs"},
2542 	{"Speaker Left", NULL, "Speaker Left Power"},
2543 	{"Speaker Right", NULL, "Speaker Right Power"},
2544 	{"Speaker Left", NULL, "ClassD Left"},
2545 	{"Speaker Right", NULL, "ClassD Right"},
2546 	/* Sub Path */
2547 	{"Sub Mux", "CH 4", "CH 4_5 Mux"},
2548 	{"Sub Mux", "CH 5", "CH 4_5 Mux"},
2549 	{"Sub Mux", "CH 4 + 5", "CH 4_5 Mux"},
2550 	{"Sub Mux", "CH 2", "CH 2_3 Mux"},
2551 	{"Sub Mux", "CH 3", "CH 2_3 Mux"},
2552 	{"Sub Mux", "CH 2 + 3", "CH 2_3 Mux"},
2553 	{"Sub Mux", "CH 0", "CH 0_1 Mux"},
2554 	{"Sub Mux", "CH 1", "CH 0_1 Mux"},
2555 	{"Sub Mux", "CH 0 + 1", "CH 0_1 Mux"},
2556 	{"Sub Mux", "ADC/DMic 1 Left", "Input Processor Channel 0"},
2557 	{"Sub Mux", "ADC/DMic 1 Right", "Input Processor Channel 1"},
2558 	{"Sub Mux", "ADC/DMic 1 Left Plus Right", "Input Processor Channel 0"},
2559 	{"Sub Mux", "ADC/DMic 1 Left Plus Right", "Input Processor Channel 1"},
2560 	{"Sub Mux", "DMic 2 Left", "DMic 2"},
2561 	{"Sub Mux", "DMic 2 Right", "DMic 2"},
2562 	{"Sub Mux", "DMic 2 Left Plus Right", "DMic 2"},
2563 	{"Sub Mux", "ClassD Left", "ClassD Left"},
2564 	{"Sub Mux", "ClassD Right", "ClassD Right"},
2565 	{"Sub Mux", "ClassD Left Plus Right", "ClassD Left"},
2566 	{"Sub Mux", "ClassD Left Plus Right", "ClassD Right"},
2567 	{"Sub", NULL, "Sub Mux"},
2568 	{"Sub", NULL, "PLLs"},
2569 	{"Sub Out", NULL, "Sub Power"},
2570 	{"Sub Out", NULL, "Sub"},
2571 	/*****************
2572 	 * Capture Paths *
2573 	 *****************/
2574 	{"Input Boost Channel 0 Mux", "Input 3", "Line In 3 Left"},
2575 	{"Input Boost Channel 0 Mux", "Input 2", "Line In 2 Left"},
2576 	{"Input Boost Channel 0 Mux", "Input 1", "Line In 1 Left"},
2577 	{"Input Boost Channel 0 Mux", "D2S", "D2S 1"},
2578 
2579 	{"Input Boost Channel 1 Mux", "Input 3", "Line In 3 Right"},
2580 	{"Input Boost Channel 1 Mux", "Input 2", "Line In 2 Right"},
2581 	{"Input Boost Channel 1 Mux", "Input 1", "Line In 1 Right"},
2582 	{"Input Boost Channel 1 Mux", "D2S", "D2S 2"},
2583 
2584 	{"ADC Channel 0 Mux", "Input 3 Boost Bypass", "Line In 3 Left"},
2585 	{"ADC Channel 0 Mux", "Input 2 Boost Bypass", "Line In 2 Left"},
2586 	{"ADC Channel 0 Mux", "Input 1 Boost Bypass", "Line In 1 Left"},
2587 	{"ADC Channel 0 Mux", "Input Boost", "Input Boost Channel 0 Mux"},
2588 
2589 	{"ADC Channel 1 Mux", "Input 3 Boost Bypass", "Line In 3 Right"},
2590 	{"ADC Channel 1 Mux", "Input 2 Boost Bypass", "Line In 2 Right"},
2591 	{"ADC Channel 1 Mux", "Input 1 Boost Bypass", "Line In 1 Right"},
2592 	{"ADC Channel 1 Mux", "Input Boost", "Input Boost Channel 1 Mux"},
2593 
2594 	{"Input Processor Channel 0 Mux", "ADC", "ADC Channel 0 Mux"},
2595 	{"Input Processor Channel 0 Mux", "DMic", "DMic 1"},
2596 
2597 	{"Input Processor Channel 0", NULL, "PLLs"},
2598 	{"Input Processor Channel 0", NULL, "Input Processor Channel 0 Mux"},
2599 
2600 	{"Input Processor Channel 1 Mux", "ADC", "ADC Channel 1 Mux"},
2601 	{"Input Processor Channel 1 Mux", "DMic", "DMic 1"},
2602 
2603 	{"Input Processor Channel 1", NULL, "PLLs"},
2604 	{"Input Processor Channel 1", NULL, "Input Processor Channel 1 Mux"},
2605 
2606 	{"Input Processor Channel 2", NULL, "PLLs"},
2607 	{"Input Processor Channel 2", NULL, "DMic 2"},
2608 
2609 	{"Input Processor Channel 3", NULL, "PLLs"},
2610 	{"Input Processor Channel 3", NULL, "DMic 2"},
2611 
2612 	{"DAI 1 Out Mux", "ADC/DMic 1", "Input Processor Channel 0"},
2613 	{"DAI 1 Out Mux", "ADC/DMic 1", "Input Processor Channel 1"},
2614 	{"DAI 1 Out Mux", "DMic 2", "Input Processor Channel 2"},
2615 	{"DAI 1 Out Mux", "DMic 2", "Input Processor Channel 3"},
2616 
2617 	{"DAI 2 Out Mux", "ADC/DMic 1", "Input Processor Channel 0"},
2618 	{"DAI 2 Out Mux", "ADC/DMic 1", "Input Processor Channel 1"},
2619 	{"DAI 2 Out Mux", "DMic 2", "Input Processor Channel 2"},
2620 	{"DAI 2 Out Mux", "DMic 2", "Input Processor Channel 3"},
2621 
2622 	{"DAI 3 Out Mux", "ADC/DMic 1", "Input Processor Channel 0"},
2623 	{"DAI 3 Out Mux", "ADC/DMic 1", "Input Processor Channel 1"},
2624 	{"DAI 3 Out Mux", "DMic 2", "Input Processor Channel 2"},
2625 	{"DAI 3 Out Mux", "DMic 2", "Input Processor Channel 3"},
2626 
2627 	{"DAI 1 Out", NULL, "DAI 1 Out Mux"},
2628 	{"DAI 2 Out", NULL, "DAI 2 Out Mux"},
2629 	{"DAI 3 Out", NULL, "DAI 3 Out Mux"},
2630 };
2631 
2632 /* This is used when BCLK is sourcing the PLLs */
2633 static int tscs454_set_sysclk(struct snd_soc_dai *dai,
2634 		int clk_id, unsigned int freq, int dir)
2635 {
2636 	struct snd_soc_component *component = dai->component;
2637 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
2638 	unsigned int val;
2639 	int bclk_dai;
2640 
2641 	dev_dbg(component->dev, "%s(): freq = %u\n", __func__, freq);
2642 
2643 	val = snd_soc_component_read(component, R_PLLCTL);
2644 
2645 	bclk_dai = (val & FM_PLLCTL_BCLKSEL) >> FB_PLLCTL_BCLKSEL;
2646 	if (bclk_dai != dai->id)
2647 		return 0;
2648 
2649 	tscs454->bclk_freq = freq;
2650 	return set_sysclk(component);
2651 }
2652 
2653 static int tscs454_set_bclk_ratio(struct snd_soc_dai *dai,
2654 		unsigned int ratio)
2655 {
2656 	unsigned int mask;
2657 	int ret;
2658 	struct snd_soc_component *component = dai->component;
2659 	unsigned int val;
2660 	int shift;
2661 
2662 	dev_dbg(component->dev, "set_bclk_ratio() id = %d ratio = %u\n",
2663 			dai->id, ratio);
2664 
2665 	switch (dai->id) {
2666 	case TSCS454_DAI1_ID:
2667 		mask = FM_I2SCMC_BCMP1;
2668 		shift = FB_I2SCMC_BCMP1;
2669 		break;
2670 	case TSCS454_DAI2_ID:
2671 		mask = FM_I2SCMC_BCMP2;
2672 		shift = FB_I2SCMC_BCMP2;
2673 		break;
2674 	case TSCS454_DAI3_ID:
2675 		mask = FM_I2SCMC_BCMP3;
2676 		shift = FB_I2SCMC_BCMP3;
2677 		break;
2678 	default:
2679 		ret = -EINVAL;
2680 		dev_err(component->dev, "Unknown audio interface (%d)\n", ret);
2681 		return ret;
2682 	}
2683 
2684 	switch (ratio) {
2685 	case 32:
2686 		val = I2SCMC_BCMP_32X;
2687 		break;
2688 	case 40:
2689 		val = I2SCMC_BCMP_40X;
2690 		break;
2691 	case 64:
2692 		val = I2SCMC_BCMP_64X;
2693 		break;
2694 	default:
2695 		ret = -EINVAL;
2696 		dev_err(component->dev, "Unsupported bclk ratio (%d)\n", ret);
2697 		return ret;
2698 	}
2699 
2700 	ret = snd_soc_component_update_bits(component,
2701 			R_I2SCMC, mask, val << shift);
2702 	if (ret < 0) {
2703 		dev_err(component->dev,
2704 				"Failed to set DAI BCLK ratio (%d)\n", ret);
2705 		return ret;
2706 	}
2707 
2708 	return 0;
2709 }
2710 
2711 static inline int set_aif_provider_from_fmt(struct snd_soc_component *component,
2712 		struct aif *aif, unsigned int fmt)
2713 {
2714 	int ret;
2715 
2716 	switch (fmt & SND_SOC_DAIFMT_CLOCK_PROVIDER_MASK) {
2717 	case SND_SOC_DAIFMT_CBP_CFP:
2718 		aif->provider = true;
2719 		break;
2720 	case SND_SOC_DAIFMT_CBC_CFC:
2721 		aif->provider = false;
2722 		break;
2723 	default:
2724 		ret = -EINVAL;
2725 		dev_err(component->dev, "Unsupported format (%d)\n", ret);
2726 		return ret;
2727 	}
2728 
2729 	return 0;
2730 }
2731 
2732 static inline int set_aif_tdm_delay(struct snd_soc_component *component,
2733 		unsigned int dai_id, bool delay)
2734 {
2735 	unsigned int reg;
2736 	int ret;
2737 
2738 	switch (dai_id) {
2739 	case TSCS454_DAI1_ID:
2740 		reg = R_TDMCTL0;
2741 		break;
2742 	case TSCS454_DAI2_ID:
2743 		reg = R_PCMP2CTL0;
2744 		break;
2745 	case TSCS454_DAI3_ID:
2746 		reg = R_PCMP3CTL0;
2747 		break;
2748 	default:
2749 		ret = -EINVAL;
2750 		dev_err(component->dev,
2751 				"DAI %d unknown (%d)\n", dai_id + 1, ret);
2752 		return ret;
2753 	}
2754 	ret = snd_soc_component_update_bits(component,
2755 			reg, FM_TDMCTL0_BDELAY, delay);
2756 	if (ret < 0) {
2757 		dev_err(component->dev, "Failed to setup tdm format (%d)\n",
2758 				ret);
2759 		return ret;
2760 	}
2761 
2762 	return 0;
2763 }
2764 
2765 static inline int set_aif_format_from_fmt(struct snd_soc_component *component,
2766 		unsigned int dai_id, unsigned int fmt)
2767 {
2768 	unsigned int reg;
2769 	unsigned int val;
2770 	int ret;
2771 
2772 	switch (dai_id) {
2773 	case TSCS454_DAI1_ID:
2774 		reg = R_I2SP1CTL;
2775 		break;
2776 	case TSCS454_DAI2_ID:
2777 		reg = R_I2SP2CTL;
2778 		break;
2779 	case TSCS454_DAI3_ID:
2780 		reg = R_I2SP3CTL;
2781 		break;
2782 	default:
2783 		ret = -EINVAL;
2784 		dev_err(component->dev,
2785 				"DAI %d unknown (%d)\n", dai_id + 1, ret);
2786 		return ret;
2787 	}
2788 
2789 	switch (fmt & SND_SOC_DAIFMT_FORMAT_MASK) {
2790 	case SND_SOC_DAIFMT_RIGHT_J:
2791 		val = FV_FORMAT_RIGHT;
2792 		break;
2793 	case SND_SOC_DAIFMT_LEFT_J:
2794 		val = FV_FORMAT_LEFT;
2795 		break;
2796 	case SND_SOC_DAIFMT_I2S:
2797 		val = FV_FORMAT_I2S;
2798 		break;
2799 	case SND_SOC_DAIFMT_DSP_A:
2800 		ret = set_aif_tdm_delay(component, dai_id, true);
2801 		if (ret < 0)
2802 			return ret;
2803 		val = FV_FORMAT_TDM;
2804 		break;
2805 	case SND_SOC_DAIFMT_DSP_B:
2806 		ret = set_aif_tdm_delay(component, dai_id, false);
2807 		if (ret < 0)
2808 			return ret;
2809 		val = FV_FORMAT_TDM;
2810 		break;
2811 	default:
2812 		ret = -EINVAL;
2813 		dev_err(component->dev, "Format unsupported (%d)\n", ret);
2814 		return ret;
2815 	}
2816 
2817 	ret = snd_soc_component_update_bits(component,
2818 			reg, FM_I2SPCTL_FORMAT, val);
2819 	if (ret < 0) {
2820 		dev_err(component->dev, "Failed to set DAI %d format (%d)\n",
2821 				dai_id + 1, ret);
2822 		return ret;
2823 	}
2824 
2825 	return 0;
2826 }
2827 
2828 static inline int
2829 set_aif_clock_format_from_fmt(struct snd_soc_component *component,
2830 		unsigned int dai_id, unsigned int fmt)
2831 {
2832 	unsigned int reg;
2833 	unsigned int val;
2834 	int ret;
2835 
2836 	switch (dai_id) {
2837 	case TSCS454_DAI1_ID:
2838 		reg = R_I2SP1CTL;
2839 		break;
2840 	case TSCS454_DAI2_ID:
2841 		reg = R_I2SP2CTL;
2842 		break;
2843 	case TSCS454_DAI3_ID:
2844 		reg = R_I2SP3CTL;
2845 		break;
2846 	default:
2847 		ret = -EINVAL;
2848 		dev_err(component->dev,
2849 				"DAI %d unknown (%d)\n", dai_id + 1, ret);
2850 		return ret;
2851 	}
2852 
2853 	switch (fmt & SND_SOC_DAIFMT_INV_MASK) {
2854 	case SND_SOC_DAIFMT_NB_NF:
2855 		val = FV_BCLKP_NOT_INVERTED | FV_LRCLKP_NOT_INVERTED;
2856 		break;
2857 	case SND_SOC_DAIFMT_NB_IF:
2858 		val = FV_BCLKP_NOT_INVERTED | FV_LRCLKP_INVERTED;
2859 		break;
2860 	case SND_SOC_DAIFMT_IB_NF:
2861 		val = FV_BCLKP_INVERTED | FV_LRCLKP_NOT_INVERTED;
2862 		break;
2863 	case SND_SOC_DAIFMT_IB_IF:
2864 		val = FV_BCLKP_INVERTED | FV_LRCLKP_INVERTED;
2865 		break;
2866 	default:
2867 		ret = -EINVAL;
2868 		dev_err(component->dev, "Format unknown (%d)\n", ret);
2869 		return ret;
2870 	}
2871 
2872 	ret = snd_soc_component_update_bits(component, reg,
2873 			FM_I2SPCTL_BCLKP | FM_I2SPCTL_LRCLKP, val);
2874 	if (ret < 0) {
2875 		dev_err(component->dev,
2876 				"Failed to set clock polarity for DAI%d (%d)\n",
2877 				dai_id + 1, ret);
2878 		return ret;
2879 	}
2880 
2881 	return 0;
2882 }
2883 
2884 static int tscs454_set_dai_fmt(struct snd_soc_dai *dai, unsigned int fmt)
2885 {
2886 	struct snd_soc_component *component = dai->component;
2887 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
2888 	struct aif *aif = &tscs454->aifs[dai->id];
2889 	int ret;
2890 
2891 	ret = set_aif_provider_from_fmt(component, aif, fmt);
2892 	if (ret < 0)
2893 		return ret;
2894 
2895 	ret = set_aif_format_from_fmt(component, dai->id, fmt);
2896 	if (ret < 0)
2897 		return ret;
2898 
2899 	ret = set_aif_clock_format_from_fmt(component, dai->id, fmt);
2900 	if (ret < 0)
2901 		return ret;
2902 
2903 	return 0;
2904 }
2905 
2906 static int tscs454_dai1_set_tdm_slot(struct snd_soc_dai *dai,
2907 		unsigned int tx_mask, unsigned int rx_mask, int slots,
2908 		int slot_width)
2909 {
2910 	struct snd_soc_component *component = dai->component;
2911 	unsigned int val;
2912 	int ret;
2913 
2914 	if (!slots)
2915 		return 0;
2916 
2917 	if (tx_mask >= (1 << slots) || rx_mask >= (1 << slots)) {
2918 		ret = -EINVAL;
2919 		dev_err(component->dev, "Invalid TDM slot mask (%d)\n", ret);
2920 		return ret;
2921 	}
2922 
2923 	switch (slots) {
2924 	case 2:
2925 		val = FV_TDMSO_2 | FV_TDMSI_2;
2926 		break;
2927 	case 4:
2928 		val = FV_TDMSO_4 | FV_TDMSI_4;
2929 		break;
2930 	case 6:
2931 		val = FV_TDMSO_6 | FV_TDMSI_6;
2932 		break;
2933 	default:
2934 		ret = -EINVAL;
2935 		dev_err(component->dev, "Invalid number of slots (%d)\n", ret);
2936 		return ret;
2937 	}
2938 
2939 	switch (slot_width) {
2940 	case 16:
2941 		val = val | FV_TDMDSS_16;
2942 		break;
2943 	case 24:
2944 		val = val | FV_TDMDSS_24;
2945 		break;
2946 	case 32:
2947 		val = val | FV_TDMDSS_32;
2948 		break;
2949 	default:
2950 		ret = -EINVAL;
2951 		dev_err(component->dev, "Invalid TDM slot width (%d)\n", ret);
2952 		return ret;
2953 	}
2954 	ret = snd_soc_component_write(component, R_TDMCTL1, val);
2955 	if (ret < 0) {
2956 		dev_err(component->dev, "Failed to set slots (%d)\n", ret);
2957 		return ret;
2958 	}
2959 
2960 	return 0;
2961 }
2962 
2963 static int tscs454_dai23_set_tdm_slot(struct snd_soc_dai *dai,
2964 		unsigned int tx_mask, unsigned int rx_mask, int slots,
2965 		int slot_width)
2966 {
2967 	struct snd_soc_component *component = dai->component;
2968 	unsigned int reg;
2969 	unsigned int val;
2970 	int ret;
2971 
2972 	if (!slots)
2973 		return 0;
2974 
2975 	if (tx_mask >= (1 << slots) || rx_mask >= (1 << slots)) {
2976 		ret = -EINVAL;
2977 		dev_err(component->dev, "Invalid TDM slot mask (%d)\n", ret);
2978 		return ret;
2979 	}
2980 
2981 	switch (dai->id) {
2982 	case TSCS454_DAI2_ID:
2983 		reg = R_PCMP2CTL1;
2984 		break;
2985 	case TSCS454_DAI3_ID:
2986 		reg = R_PCMP3CTL1;
2987 		break;
2988 	default:
2989 		ret = -EINVAL;
2990 		dev_err(component->dev, "Unrecognized interface %d (%d)\n",
2991 				dai->id, ret);
2992 		return ret;
2993 	}
2994 
2995 	switch (slots) {
2996 	case 1:
2997 		val = FV_PCMSOP_1 | FV_PCMSIP_1;
2998 		break;
2999 	case 2:
3000 		val = FV_PCMSOP_2 | FV_PCMSIP_2;
3001 		break;
3002 	default:
3003 		ret = -EINVAL;
3004 		dev_err(component->dev, "Invalid number of slots (%d)\n", ret);
3005 		return ret;
3006 	}
3007 
3008 	switch (slot_width) {
3009 	case 16:
3010 		val = val | FV_PCMDSSP_16;
3011 		break;
3012 	case 24:
3013 		val = val | FV_PCMDSSP_24;
3014 		break;
3015 	case 32:
3016 		val = val | FV_PCMDSSP_32;
3017 		break;
3018 	default:
3019 		ret = -EINVAL;
3020 		dev_err(component->dev, "Invalid TDM slot width (%d)\n", ret);
3021 		return ret;
3022 	}
3023 	ret = snd_soc_component_write(component, reg, val);
3024 	if (ret < 0) {
3025 		dev_err(component->dev, "Failed to set slots (%d)\n", ret);
3026 		return ret;
3027 	}
3028 
3029 	return 0;
3030 }
3031 
3032 static int set_aif_fs(struct snd_soc_component *component,
3033 		unsigned int id,
3034 		unsigned int rate)
3035 {
3036 	unsigned int reg;
3037 	unsigned int br;
3038 	unsigned int bm;
3039 	int ret;
3040 
3041 	switch (rate) {
3042 	case 8000:
3043 		br = FV_I2SMBR_32;
3044 		bm = FV_I2SMBM_0PT25;
3045 		break;
3046 	case 16000:
3047 		br = FV_I2SMBR_32;
3048 		bm = FV_I2SMBM_0PT5;
3049 		break;
3050 	case 24000:
3051 		br = FV_I2SMBR_48;
3052 		bm = FV_I2SMBM_0PT5;
3053 		break;
3054 	case 32000:
3055 		br = FV_I2SMBR_32;
3056 		bm = FV_I2SMBM_1;
3057 		break;
3058 	case 48000:
3059 		br = FV_I2SMBR_48;
3060 		bm = FV_I2SMBM_1;
3061 		break;
3062 	case 96000:
3063 		br = FV_I2SMBR_48;
3064 		bm = FV_I2SMBM_2;
3065 		break;
3066 	case 11025:
3067 		br = FV_I2SMBR_44PT1;
3068 		bm = FV_I2SMBM_0PT25;
3069 		break;
3070 	case 22050:
3071 		br = FV_I2SMBR_44PT1;
3072 		bm = FV_I2SMBM_0PT5;
3073 		break;
3074 	case 44100:
3075 		br = FV_I2SMBR_44PT1;
3076 		bm = FV_I2SMBM_1;
3077 		break;
3078 	case 88200:
3079 		br = FV_I2SMBR_44PT1;
3080 		bm = FV_I2SMBM_2;
3081 		break;
3082 	default:
3083 		ret = -EINVAL;
3084 		dev_err(component->dev, "Unsupported sample rate (%d)\n", ret);
3085 		return ret;
3086 	}
3087 
3088 	switch (id) {
3089 	case TSCS454_DAI1_ID:
3090 		reg = R_I2S1MRATE;
3091 		break;
3092 	case TSCS454_DAI2_ID:
3093 		reg = R_I2S2MRATE;
3094 		break;
3095 	case TSCS454_DAI3_ID:
3096 		reg = R_I2S3MRATE;
3097 		break;
3098 	default:
3099 		ret = -EINVAL;
3100 		dev_err(component->dev, "DAI ID not recognized (%d)\n", ret);
3101 		return ret;
3102 	}
3103 
3104 	ret = snd_soc_component_update_bits(component, reg,
3105 			FM_I2SMRATE_I2SMBR | FM_I2SMRATE_I2SMBM, br|bm);
3106 	if (ret < 0) {
3107 		dev_err(component->dev,
3108 				"Failed to update register (%d)\n", ret);
3109 		return ret;
3110 	}
3111 
3112 	return 0;
3113 }
3114 
3115 static int set_aif_sample_format(struct snd_soc_component *component,
3116 		snd_pcm_format_t format,
3117 		int aif_id)
3118 {
3119 	unsigned int reg;
3120 	unsigned int width;
3121 	int ret;
3122 
3123 	switch (snd_pcm_format_width(format)) {
3124 	case 16:
3125 		width = FV_WL_16;
3126 		break;
3127 	case 20:
3128 		width = FV_WL_20;
3129 		break;
3130 	case 24:
3131 		width = FV_WL_24;
3132 		break;
3133 	case 32:
3134 		width = FV_WL_32;
3135 		break;
3136 	default:
3137 		ret = -EINVAL;
3138 		dev_err(component->dev, "Unsupported format width (%d)\n", ret);
3139 		return ret;
3140 	}
3141 
3142 	switch (aif_id) {
3143 	case TSCS454_DAI1_ID:
3144 		reg = R_I2SP1CTL;
3145 		break;
3146 	case TSCS454_DAI2_ID:
3147 		reg = R_I2SP2CTL;
3148 		break;
3149 	case TSCS454_DAI3_ID:
3150 		reg = R_I2SP3CTL;
3151 		break;
3152 	default:
3153 		ret = -EINVAL;
3154 		dev_err(component->dev, "AIF ID not recognized (%d)\n", ret);
3155 		return ret;
3156 	}
3157 
3158 	ret = snd_soc_component_update_bits(component,
3159 			reg, FM_I2SPCTL_WL, width);
3160 	if (ret < 0) {
3161 		dev_err(component->dev,
3162 				"Failed to set sample width (%d)\n", ret);
3163 		return ret;
3164 	}
3165 
3166 	return 0;
3167 }
3168 
3169 static int tscs454_hw_params(struct snd_pcm_substream *substream,
3170 		struct snd_pcm_hw_params *params,
3171 		struct snd_soc_dai *dai)
3172 {
3173 	struct snd_soc_component *component = dai->component;
3174 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
3175 	unsigned int fs = params_rate(params);
3176 	struct aif *aif = &tscs454->aifs[dai->id];
3177 	unsigned int val;
3178 	int ret;
3179 
3180 	mutex_lock(&tscs454->aifs_status_lock);
3181 
3182 	dev_dbg(component->dev, "%s(): aif %d fs = %u\n", __func__,
3183 			aif->id, fs);
3184 
3185 	if (!aif_active(&tscs454->aifs_status, aif->id)) {
3186 		if (PLL_44_1K_RATE % fs)
3187 			aif->pll = &tscs454->pll1;
3188 		else
3189 			aif->pll = &tscs454->pll2;
3190 
3191 		dev_dbg(component->dev, "Reserving pll %d for aif %d\n",
3192 				aif->pll->id, aif->id);
3193 
3194 		reserve_pll(aif->pll);
3195 	}
3196 
3197 	if (!aifs_active(&tscs454->aifs_status)) { /* First active aif */
3198 		val = snd_soc_component_read(component, R_ISRC);
3199 		if ((val & FM_ISRC_IBR) == FV_IBR_48)
3200 			tscs454->internal_rate.pll = &tscs454->pll1;
3201 		else
3202 			tscs454->internal_rate.pll = &tscs454->pll2;
3203 
3204 		dev_dbg(component->dev, "Reserving pll %d for ir\n",
3205 				tscs454->internal_rate.pll->id);
3206 
3207 		reserve_pll(tscs454->internal_rate.pll);
3208 	}
3209 
3210 	ret = set_aif_fs(component, aif->id, fs);
3211 	if (ret < 0) {
3212 		dev_err(component->dev, "Failed to set aif fs (%d)\n", ret);
3213 		goto exit;
3214 	}
3215 
3216 	ret = set_aif_sample_format(component, params_format(params), aif->id);
3217 	if (ret < 0) {
3218 		dev_err(component->dev,
3219 				"Failed to set aif sample format (%d)\n", ret);
3220 		goto exit;
3221 	}
3222 
3223 	set_aif_status_active(&tscs454->aifs_status, aif->id,
3224 			substream->stream == SNDRV_PCM_STREAM_PLAYBACK);
3225 
3226 	dev_dbg(component->dev, "Set aif %d active. Streams status is 0x%x\n",
3227 		aif->id, tscs454->aifs_status.streams);
3228 
3229 	ret = 0;
3230 exit:
3231 	mutex_unlock(&tscs454->aifs_status_lock);
3232 
3233 	return ret;
3234 }
3235 
3236 static int tscs454_hw_free(struct snd_pcm_substream *substream,
3237 		struct snd_soc_dai *dai)
3238 {
3239 	struct snd_soc_component *component = dai->component;
3240 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
3241 	struct aif *aif = &tscs454->aifs[dai->id];
3242 
3243 	return aif_free(component, aif,
3244 			substream->stream == SNDRV_PCM_STREAM_PLAYBACK);
3245 }
3246 
3247 static int tscs454_prepare(struct snd_pcm_substream *substream,
3248 		struct snd_soc_dai *dai)
3249 {
3250 	int ret;
3251 	struct snd_soc_component *component = dai->component;
3252 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
3253 	struct aif *aif = &tscs454->aifs[dai->id];
3254 
3255 	ret = aif_prepare(component, aif);
3256 	if (ret < 0)
3257 		return ret;
3258 
3259 	return 0;
3260 }
3261 
3262 static struct snd_soc_dai_ops const tscs454_dai1_ops = {
3263 	.set_sysclk	= tscs454_set_sysclk,
3264 	.set_bclk_ratio = tscs454_set_bclk_ratio,
3265 	.set_fmt	= tscs454_set_dai_fmt,
3266 	.set_tdm_slot	= tscs454_dai1_set_tdm_slot,
3267 	.hw_params	= tscs454_hw_params,
3268 	.hw_free	= tscs454_hw_free,
3269 	.prepare	= tscs454_prepare,
3270 };
3271 
3272 static struct snd_soc_dai_ops const tscs454_dai23_ops = {
3273 	.set_sysclk	= tscs454_set_sysclk,
3274 	.set_bclk_ratio = tscs454_set_bclk_ratio,
3275 	.set_fmt	= tscs454_set_dai_fmt,
3276 	.set_tdm_slot	= tscs454_dai23_set_tdm_slot,
3277 	.hw_params	= tscs454_hw_params,
3278 	.hw_free	= tscs454_hw_free,
3279 	.prepare	= tscs454_prepare,
3280 };
3281 
3282 static int tscs454_probe(struct snd_soc_component *component)
3283 {
3284 	struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component);
3285 	unsigned int val;
3286 	int ret = 0;
3287 
3288 	switch (tscs454->sysclk_src_id) {
3289 	case PLL_INPUT_XTAL:
3290 		val = FV_PLLISEL_XTAL;
3291 		break;
3292 	case PLL_INPUT_MCLK1:
3293 		val = FV_PLLISEL_MCLK1;
3294 		break;
3295 	case PLL_INPUT_MCLK2:
3296 		val = FV_PLLISEL_MCLK2;
3297 		break;
3298 	case PLL_INPUT_BCLK:
3299 		val = FV_PLLISEL_BCLK;
3300 		break;
3301 	default:
3302 		ret = -EINVAL;
3303 		dev_err(component->dev, "Invalid sysclk src id (%d)\n", ret);
3304 		return ret;
3305 	}
3306 
3307 	ret = snd_soc_component_update_bits(component, R_PLLCTL,
3308 			FM_PLLCTL_PLLISEL, val);
3309 	if (ret < 0) {
3310 		dev_err(component->dev, "Failed to set PLL input (%d)\n", ret);
3311 		return ret;
3312 	}
3313 
3314 	if (tscs454->sysclk_src_id < PLL_INPUT_BCLK)
3315 		ret = set_sysclk(component);
3316 
3317 	return ret;
3318 }
3319 
3320 static const struct snd_soc_component_driver soc_component_dev_tscs454 = {
3321 	.probe =	tscs454_probe,
3322 	.dapm_widgets = tscs454_dapm_widgets,
3323 	.num_dapm_widgets = ARRAY_SIZE(tscs454_dapm_widgets),
3324 	.dapm_routes = tscs454_intercon,
3325 	.num_dapm_routes = ARRAY_SIZE(tscs454_intercon),
3326 	.controls =	tscs454_snd_controls,
3327 	.num_controls = ARRAY_SIZE(tscs454_snd_controls),
3328 	.endianness = 1,
3329 };
3330 
3331 #define TSCS454_RATES SNDRV_PCM_RATE_8000_96000
3332 
3333 #define TSCS454_FORMATS (SNDRV_PCM_FMTBIT_S16_LE | SNDRV_PCM_FMTBIT_S20_3LE \
3334 	| SNDRV_PCM_FMTBIT_S24_3LE | SNDRV_PCM_FMTBIT_S24_LE \
3335 	| SNDRV_PCM_FMTBIT_S32_LE)
3336 
3337 static struct snd_soc_dai_driver tscs454_dais[] = {
3338 	{
3339 		.name = "tscs454-dai1",
3340 		.id = TSCS454_DAI1_ID,
3341 		.playback = {
3342 			.stream_name = "DAI 1 Playback",
3343 			.channels_min = 1,
3344 			.channels_max = 6,
3345 			.rates = TSCS454_RATES,
3346 			.formats = TSCS454_FORMATS,},
3347 		.capture = {
3348 			.stream_name = "DAI 1 Capture",
3349 			.channels_min = 1,
3350 			.channels_max = 6,
3351 			.rates = TSCS454_RATES,
3352 			.formats = TSCS454_FORMATS,},
3353 		.ops = &tscs454_dai1_ops,
3354 		.symmetric_rate = 1,
3355 		.symmetric_channels = 1,
3356 		.symmetric_sample_bits = 1,
3357 	},
3358 	{
3359 		.name = "tscs454-dai2",
3360 		.id = TSCS454_DAI2_ID,
3361 		.playback = {
3362 			.stream_name = "DAI 2 Playback",
3363 			.channels_min = 1,
3364 			.channels_max = 2,
3365 			.rates = TSCS454_RATES,
3366 			.formats = TSCS454_FORMATS,},
3367 		.capture = {
3368 			.stream_name = "DAI 2 Capture",
3369 			.channels_min = 1,
3370 			.channels_max = 2,
3371 			.rates = TSCS454_RATES,
3372 			.formats = TSCS454_FORMATS,},
3373 		.ops = &tscs454_dai23_ops,
3374 		.symmetric_rate = 1,
3375 		.symmetric_channels = 1,
3376 		.symmetric_sample_bits = 1,
3377 	},
3378 	{
3379 		.name = "tscs454-dai3",
3380 		.id = TSCS454_DAI3_ID,
3381 		.playback = {
3382 			.stream_name = "DAI 3 Playback",
3383 			.channels_min = 1,
3384 			.channels_max = 2,
3385 			.rates = TSCS454_RATES,
3386 			.formats = TSCS454_FORMATS,},
3387 		.capture = {
3388 			.stream_name = "DAI 3 Capture",
3389 			.channels_min = 1,
3390 			.channels_max = 2,
3391 			.rates = TSCS454_RATES,
3392 			.formats = TSCS454_FORMATS,},
3393 		.ops = &tscs454_dai23_ops,
3394 		.symmetric_rate = 1,
3395 		.symmetric_channels = 1,
3396 		.symmetric_sample_bits = 1,
3397 	},
3398 };
3399 
3400 static char const * const src_names[] = {
3401 	"xtal", "mclk1", "mclk2", "bclk"};
3402 
3403 static int tscs454_i2c_probe(struct i2c_client *i2c)
3404 {
3405 	struct tscs454 *tscs454;
3406 	int src;
3407 	int ret;
3408 
3409 	tscs454 = devm_kzalloc(&i2c->dev, sizeof(*tscs454), GFP_KERNEL);
3410 	if (!tscs454)
3411 		return -ENOMEM;
3412 
3413 	ret = tscs454_data_init(tscs454, i2c);
3414 	if (ret < 0)
3415 		return ret;
3416 
3417 	i2c_set_clientdata(i2c, tscs454);
3418 
3419 	for (src = PLL_INPUT_XTAL; src < PLL_INPUT_BCLK; src++) {
3420 		tscs454->sysclk = devm_clk_get(&i2c->dev, src_names[src]);
3421 		if (!IS_ERR(tscs454->sysclk)) {
3422 			break;
3423 		} else if (PTR_ERR(tscs454->sysclk) != -ENOENT) {
3424 			ret = PTR_ERR(tscs454->sysclk);
3425 			dev_err(&i2c->dev, "Failed to get sysclk (%d)\n", ret);
3426 			return ret;
3427 		}
3428 	}
3429 	dev_dbg(&i2c->dev, "PLL input is %s\n", src_names[src]);
3430 	tscs454->sysclk_src_id = src;
3431 
3432 	ret = regmap_write(tscs454->regmap,
3433 			R_RESET, FV_RESET_PWR_ON_DEFAULTS);
3434 	if (ret < 0) {
3435 		dev_err(&i2c->dev, "Failed to reset the component (%d)\n", ret);
3436 		return ret;
3437 	}
3438 	regcache_mark_dirty(tscs454->regmap);
3439 
3440 	ret = regmap_register_patch(tscs454->regmap, tscs454_patch,
3441 			ARRAY_SIZE(tscs454_patch));
3442 	if (ret < 0) {
3443 		dev_err(&i2c->dev, "Failed to apply patch (%d)\n", ret);
3444 		return ret;
3445 	}
3446 	/* Sync pg sel reg with cache */
3447 	regmap_write(tscs454->regmap, R_PAGESEL, 0x00);
3448 
3449 	ret = devm_snd_soc_register_component(&i2c->dev, &soc_component_dev_tscs454,
3450 			tscs454_dais, ARRAY_SIZE(tscs454_dais));
3451 	if (ret) {
3452 		dev_err(&i2c->dev, "Failed to register component (%d)\n", ret);
3453 		return ret;
3454 	}
3455 
3456 	return 0;
3457 }
3458 
3459 static const struct i2c_device_id tscs454_i2c_id[] = {
3460 	{ "tscs454", 0 },
3461 	{ }
3462 };
3463 MODULE_DEVICE_TABLE(i2c, tscs454_i2c_id);
3464 
3465 static const struct of_device_id tscs454_of_match[] = {
3466 	{ .compatible = "tempo,tscs454", },
3467 	{ }
3468 };
3469 MODULE_DEVICE_TABLE(of, tscs454_of_match);
3470 
3471 static struct i2c_driver tscs454_i2c_driver = {
3472 	.driver = {
3473 		.name = "tscs454",
3474 		.of_match_table = tscs454_of_match,
3475 	},
3476 	.probe_new = tscs454_i2c_probe,
3477 	.id_table = tscs454_i2c_id,
3478 };
3479 
3480 module_i2c_driver(tscs454_i2c_driver);
3481 
3482 MODULE_AUTHOR("Tempo Semiconductor <steven.eckhoff.opensource@gmail.com");
3483 MODULE_DESCRIPTION("ASoC TSCS454 driver");
3484 MODULE_LICENSE("GPL v2");
3485