xref: /openbmc/linux/sound/soc/codecs/cs42l42.c (revision 3b73c45e)
1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3  * cs42l42.c -- CS42L42 ALSA SoC audio driver
4  *
5  * Copyright 2016 Cirrus Logic, Inc.
6  *
7  * Author: James Schulman <james.schulman@cirrus.com>
8  * Author: Brian Austin <brian.austin@cirrus.com>
9  * Author: Michael White <michael.white@cirrus.com>
10  */
11 
12 #include <linux/module.h>
13 #include <linux/moduleparam.h>
14 #include <linux/version.h>
15 #include <linux/kernel.h>
16 #include <linux/init.h>
17 #include <linux/delay.h>
18 #include <linux/i2c.h>
19 #include <linux/gpio.h>
20 #include <linux/regmap.h>
21 #include <linux/slab.h>
22 #include <linux/acpi.h>
23 #include <linux/platform_device.h>
24 #include <linux/property.h>
25 #include <linux/regulator/consumer.h>
26 #include <linux/gpio/consumer.h>
27 #include <linux/of_device.h>
28 #include <sound/core.h>
29 #include <sound/pcm.h>
30 #include <sound/pcm_params.h>
31 #include <sound/soc.h>
32 #include <sound/soc-dapm.h>
33 #include <sound/initval.h>
34 #include <sound/tlv.h>
35 #include <dt-bindings/sound/cs42l42.h>
36 
37 #include "cs42l42.h"
38 #include "cirrus_legacy.h"
39 
40 static const struct reg_default cs42l42_reg_defaults[] = {
41 	{ CS42L42_FRZ_CTL,			0x00 },
42 	{ CS42L42_SRC_CTL,			0x10 },
43 	{ CS42L42_MCLK_CTL,			0x02 },
44 	{ CS42L42_SFTRAMP_RATE,			0xA4 },
45 	{ CS42L42_SLOW_START_ENABLE,		0x70 },
46 	{ CS42L42_I2C_DEBOUNCE,			0x88 },
47 	{ CS42L42_I2C_STRETCH,			0x03 },
48 	{ CS42L42_I2C_TIMEOUT,			0xB7 },
49 	{ CS42L42_PWR_CTL1,			0xFF },
50 	{ CS42L42_PWR_CTL2,			0x84 },
51 	{ CS42L42_PWR_CTL3,			0x20 },
52 	{ CS42L42_RSENSE_CTL1,			0x40 },
53 	{ CS42L42_RSENSE_CTL2,			0x00 },
54 	{ CS42L42_OSC_SWITCH,			0x00 },
55 	{ CS42L42_RSENSE_CTL3,			0x1B },
56 	{ CS42L42_TSENSE_CTL,			0x1B },
57 	{ CS42L42_TSRS_INT_DISABLE,		0x00 },
58 	{ CS42L42_HSDET_CTL1,			0x77 },
59 	{ CS42L42_HSDET_CTL2,			0x00 },
60 	{ CS42L42_HS_SWITCH_CTL,		0xF3 },
61 	{ CS42L42_HS_CLAMP_DISABLE,		0x00 },
62 	{ CS42L42_MCLK_SRC_SEL,			0x00 },
63 	{ CS42L42_SPDIF_CLK_CFG,		0x00 },
64 	{ CS42L42_FSYNC_PW_LOWER,		0x00 },
65 	{ CS42L42_FSYNC_PW_UPPER,		0x00 },
66 	{ CS42L42_FSYNC_P_LOWER,		0xF9 },
67 	{ CS42L42_FSYNC_P_UPPER,		0x00 },
68 	{ CS42L42_ASP_CLK_CFG,			0x00 },
69 	{ CS42L42_ASP_FRM_CFG,			0x10 },
70 	{ CS42L42_FS_RATE_EN,			0x00 },
71 	{ CS42L42_IN_ASRC_CLK,			0x00 },
72 	{ CS42L42_OUT_ASRC_CLK,			0x00 },
73 	{ CS42L42_PLL_DIV_CFG1,			0x00 },
74 	{ CS42L42_ADC_OVFL_INT_MASK,		0x01 },
75 	{ CS42L42_MIXER_INT_MASK,		0x0F },
76 	{ CS42L42_SRC_INT_MASK,			0x0F },
77 	{ CS42L42_ASP_RX_INT_MASK,		0x1F },
78 	{ CS42L42_ASP_TX_INT_MASK,		0x0F },
79 	{ CS42L42_CODEC_INT_MASK,		0x03 },
80 	{ CS42L42_SRCPL_INT_MASK,		0x7F },
81 	{ CS42L42_VPMON_INT_MASK,		0x01 },
82 	{ CS42L42_PLL_LOCK_INT_MASK,		0x01 },
83 	{ CS42L42_TSRS_PLUG_INT_MASK,		0x0F },
84 	{ CS42L42_PLL_CTL1,			0x00 },
85 	{ CS42L42_PLL_DIV_FRAC0,		0x00 },
86 	{ CS42L42_PLL_DIV_FRAC1,		0x00 },
87 	{ CS42L42_PLL_DIV_FRAC2,		0x00 },
88 	{ CS42L42_PLL_DIV_INT,			0x40 },
89 	{ CS42L42_PLL_CTL3,			0x10 },
90 	{ CS42L42_PLL_CAL_RATIO,		0x80 },
91 	{ CS42L42_PLL_CTL4,			0x03 },
92 	{ CS42L42_LOAD_DET_EN,			0x00 },
93 	{ CS42L42_HSBIAS_SC_AUTOCTL,		0x03 },
94 	{ CS42L42_WAKE_CTL,			0xC0 },
95 	{ CS42L42_ADC_DISABLE_MUTE,		0x00 },
96 	{ CS42L42_TIPSENSE_CTL,			0x02 },
97 	{ CS42L42_MISC_DET_CTL,			0x03 },
98 	{ CS42L42_MIC_DET_CTL1,			0x1F },
99 	{ CS42L42_MIC_DET_CTL2,			0x2F },
100 	{ CS42L42_DET_INT1_MASK,		0xE0 },
101 	{ CS42L42_DET_INT2_MASK,		0xFF },
102 	{ CS42L42_HS_BIAS_CTL,			0xC2 },
103 	{ CS42L42_ADC_CTL,			0x00 },
104 	{ CS42L42_ADC_VOLUME,			0x00 },
105 	{ CS42L42_ADC_WNF_HPF_CTL,		0x71 },
106 	{ CS42L42_DAC_CTL1,			0x00 },
107 	{ CS42L42_DAC_CTL2,			0x02 },
108 	{ CS42L42_HP_CTL,			0x0D },
109 	{ CS42L42_CLASSH_CTL,			0x07 },
110 	{ CS42L42_MIXER_CHA_VOL,		0x3F },
111 	{ CS42L42_MIXER_ADC_VOL,		0x3F },
112 	{ CS42L42_MIXER_CHB_VOL,		0x3F },
113 	{ CS42L42_EQ_COEF_IN0,			0x00 },
114 	{ CS42L42_EQ_COEF_IN1,			0x00 },
115 	{ CS42L42_EQ_COEF_IN2,			0x00 },
116 	{ CS42L42_EQ_COEF_IN3,			0x00 },
117 	{ CS42L42_EQ_COEF_RW,			0x00 },
118 	{ CS42L42_EQ_COEF_OUT0,			0x00 },
119 	{ CS42L42_EQ_COEF_OUT1,			0x00 },
120 	{ CS42L42_EQ_COEF_OUT2,			0x00 },
121 	{ CS42L42_EQ_COEF_OUT3,			0x00 },
122 	{ CS42L42_EQ_INIT_STAT,			0x00 },
123 	{ CS42L42_EQ_START_FILT,		0x00 },
124 	{ CS42L42_EQ_MUTE_CTL,			0x00 },
125 	{ CS42L42_SP_RX_CH_SEL,			0x04 },
126 	{ CS42L42_SP_RX_ISOC_CTL,		0x04 },
127 	{ CS42L42_SP_RX_FS,			0x8C },
128 	{ CS42l42_SPDIF_CH_SEL,			0x0E },
129 	{ CS42L42_SP_TX_ISOC_CTL,		0x04 },
130 	{ CS42L42_SP_TX_FS,			0xCC },
131 	{ CS42L42_SPDIF_SW_CTL1,		0x3F },
132 	{ CS42L42_SRC_SDIN_FS,			0x40 },
133 	{ CS42L42_SRC_SDOUT_FS,			0x40 },
134 	{ CS42L42_SPDIF_CTL1,			0x01 },
135 	{ CS42L42_SPDIF_CTL2,			0x00 },
136 	{ CS42L42_SPDIF_CTL3,			0x00 },
137 	{ CS42L42_SPDIF_CTL4,			0x42 },
138 	{ CS42L42_ASP_TX_SZ_EN,			0x00 },
139 	{ CS42L42_ASP_TX_CH_EN,			0x00 },
140 	{ CS42L42_ASP_TX_CH_AP_RES,		0x0F },
141 	{ CS42L42_ASP_TX_CH1_BIT_MSB,		0x00 },
142 	{ CS42L42_ASP_TX_CH1_BIT_LSB,		0x00 },
143 	{ CS42L42_ASP_TX_HIZ_DLY_CFG,		0x00 },
144 	{ CS42L42_ASP_TX_CH2_BIT_MSB,		0x00 },
145 	{ CS42L42_ASP_TX_CH2_BIT_LSB,		0x00 },
146 	{ CS42L42_ASP_RX_DAI0_EN,		0x00 },
147 	{ CS42L42_ASP_RX_DAI0_CH1_AP_RES,	0x03 },
148 	{ CS42L42_ASP_RX_DAI0_CH1_BIT_MSB,	0x00 },
149 	{ CS42L42_ASP_RX_DAI0_CH1_BIT_LSB,	0x00 },
150 	{ CS42L42_ASP_RX_DAI0_CH2_AP_RES,	0x03 },
151 	{ CS42L42_ASP_RX_DAI0_CH2_BIT_MSB,	0x00 },
152 	{ CS42L42_ASP_RX_DAI0_CH2_BIT_LSB,	0x00 },
153 	{ CS42L42_ASP_RX_DAI0_CH3_AP_RES,	0x03 },
154 	{ CS42L42_ASP_RX_DAI0_CH3_BIT_MSB,	0x00 },
155 	{ CS42L42_ASP_RX_DAI0_CH3_BIT_LSB,	0x00 },
156 	{ CS42L42_ASP_RX_DAI0_CH4_AP_RES,	0x03 },
157 	{ CS42L42_ASP_RX_DAI0_CH4_BIT_MSB,	0x00 },
158 	{ CS42L42_ASP_RX_DAI0_CH4_BIT_LSB,	0x00 },
159 	{ CS42L42_ASP_RX_DAI1_CH1_AP_RES,	0x03 },
160 	{ CS42L42_ASP_RX_DAI1_CH1_BIT_MSB,	0x00 },
161 	{ CS42L42_ASP_RX_DAI1_CH1_BIT_LSB,	0x00 },
162 	{ CS42L42_ASP_RX_DAI1_CH2_AP_RES,	0x03 },
163 	{ CS42L42_ASP_RX_DAI1_CH2_BIT_MSB,	0x00 },
164 	{ CS42L42_ASP_RX_DAI1_CH2_BIT_LSB,	0x00 },
165 };
166 
167 static bool cs42l42_readable_register(struct device *dev, unsigned int reg)
168 {
169 	switch (reg) {
170 	case CS42L42_PAGE_REGISTER:
171 	case CS42L42_DEVID_AB:
172 	case CS42L42_DEVID_CD:
173 	case CS42L42_DEVID_E:
174 	case CS42L42_FABID:
175 	case CS42L42_REVID:
176 	case CS42L42_FRZ_CTL:
177 	case CS42L42_SRC_CTL:
178 	case CS42L42_MCLK_STATUS:
179 	case CS42L42_MCLK_CTL:
180 	case CS42L42_SFTRAMP_RATE:
181 	case CS42L42_SLOW_START_ENABLE:
182 	case CS42L42_I2C_DEBOUNCE:
183 	case CS42L42_I2C_STRETCH:
184 	case CS42L42_I2C_TIMEOUT:
185 	case CS42L42_PWR_CTL1:
186 	case CS42L42_PWR_CTL2:
187 	case CS42L42_PWR_CTL3:
188 	case CS42L42_RSENSE_CTL1:
189 	case CS42L42_RSENSE_CTL2:
190 	case CS42L42_OSC_SWITCH:
191 	case CS42L42_OSC_SWITCH_STATUS:
192 	case CS42L42_RSENSE_CTL3:
193 	case CS42L42_TSENSE_CTL:
194 	case CS42L42_TSRS_INT_DISABLE:
195 	case CS42L42_TRSENSE_STATUS:
196 	case CS42L42_HSDET_CTL1:
197 	case CS42L42_HSDET_CTL2:
198 	case CS42L42_HS_SWITCH_CTL:
199 	case CS42L42_HS_DET_STATUS:
200 	case CS42L42_HS_CLAMP_DISABLE:
201 	case CS42L42_MCLK_SRC_SEL:
202 	case CS42L42_SPDIF_CLK_CFG:
203 	case CS42L42_FSYNC_PW_LOWER:
204 	case CS42L42_FSYNC_PW_UPPER:
205 	case CS42L42_FSYNC_P_LOWER:
206 	case CS42L42_FSYNC_P_UPPER:
207 	case CS42L42_ASP_CLK_CFG:
208 	case CS42L42_ASP_FRM_CFG:
209 	case CS42L42_FS_RATE_EN:
210 	case CS42L42_IN_ASRC_CLK:
211 	case CS42L42_OUT_ASRC_CLK:
212 	case CS42L42_PLL_DIV_CFG1:
213 	case CS42L42_ADC_OVFL_STATUS:
214 	case CS42L42_MIXER_STATUS:
215 	case CS42L42_SRC_STATUS:
216 	case CS42L42_ASP_RX_STATUS:
217 	case CS42L42_ASP_TX_STATUS:
218 	case CS42L42_CODEC_STATUS:
219 	case CS42L42_DET_INT_STATUS1:
220 	case CS42L42_DET_INT_STATUS2:
221 	case CS42L42_SRCPL_INT_STATUS:
222 	case CS42L42_VPMON_STATUS:
223 	case CS42L42_PLL_LOCK_STATUS:
224 	case CS42L42_TSRS_PLUG_STATUS:
225 	case CS42L42_ADC_OVFL_INT_MASK:
226 	case CS42L42_MIXER_INT_MASK:
227 	case CS42L42_SRC_INT_MASK:
228 	case CS42L42_ASP_RX_INT_MASK:
229 	case CS42L42_ASP_TX_INT_MASK:
230 	case CS42L42_CODEC_INT_MASK:
231 	case CS42L42_SRCPL_INT_MASK:
232 	case CS42L42_VPMON_INT_MASK:
233 	case CS42L42_PLL_LOCK_INT_MASK:
234 	case CS42L42_TSRS_PLUG_INT_MASK:
235 	case CS42L42_PLL_CTL1:
236 	case CS42L42_PLL_DIV_FRAC0:
237 	case CS42L42_PLL_DIV_FRAC1:
238 	case CS42L42_PLL_DIV_FRAC2:
239 	case CS42L42_PLL_DIV_INT:
240 	case CS42L42_PLL_CTL3:
241 	case CS42L42_PLL_CAL_RATIO:
242 	case CS42L42_PLL_CTL4:
243 	case CS42L42_LOAD_DET_RCSTAT:
244 	case CS42L42_LOAD_DET_DONE:
245 	case CS42L42_LOAD_DET_EN:
246 	case CS42L42_HSBIAS_SC_AUTOCTL:
247 	case CS42L42_WAKE_CTL:
248 	case CS42L42_ADC_DISABLE_MUTE:
249 	case CS42L42_TIPSENSE_CTL:
250 	case CS42L42_MISC_DET_CTL:
251 	case CS42L42_MIC_DET_CTL1:
252 	case CS42L42_MIC_DET_CTL2:
253 	case CS42L42_DET_STATUS1:
254 	case CS42L42_DET_STATUS2:
255 	case CS42L42_DET_INT1_MASK:
256 	case CS42L42_DET_INT2_MASK:
257 	case CS42L42_HS_BIAS_CTL:
258 	case CS42L42_ADC_CTL:
259 	case CS42L42_ADC_VOLUME:
260 	case CS42L42_ADC_WNF_HPF_CTL:
261 	case CS42L42_DAC_CTL1:
262 	case CS42L42_DAC_CTL2:
263 	case CS42L42_HP_CTL:
264 	case CS42L42_CLASSH_CTL:
265 	case CS42L42_MIXER_CHA_VOL:
266 	case CS42L42_MIXER_ADC_VOL:
267 	case CS42L42_MIXER_CHB_VOL:
268 	case CS42L42_EQ_COEF_IN0:
269 	case CS42L42_EQ_COEF_IN1:
270 	case CS42L42_EQ_COEF_IN2:
271 	case CS42L42_EQ_COEF_IN3:
272 	case CS42L42_EQ_COEF_RW:
273 	case CS42L42_EQ_COEF_OUT0:
274 	case CS42L42_EQ_COEF_OUT1:
275 	case CS42L42_EQ_COEF_OUT2:
276 	case CS42L42_EQ_COEF_OUT3:
277 	case CS42L42_EQ_INIT_STAT:
278 	case CS42L42_EQ_START_FILT:
279 	case CS42L42_EQ_MUTE_CTL:
280 	case CS42L42_SP_RX_CH_SEL:
281 	case CS42L42_SP_RX_ISOC_CTL:
282 	case CS42L42_SP_RX_FS:
283 	case CS42l42_SPDIF_CH_SEL:
284 	case CS42L42_SP_TX_ISOC_CTL:
285 	case CS42L42_SP_TX_FS:
286 	case CS42L42_SPDIF_SW_CTL1:
287 	case CS42L42_SRC_SDIN_FS:
288 	case CS42L42_SRC_SDOUT_FS:
289 	case CS42L42_SPDIF_CTL1:
290 	case CS42L42_SPDIF_CTL2:
291 	case CS42L42_SPDIF_CTL3:
292 	case CS42L42_SPDIF_CTL4:
293 	case CS42L42_ASP_TX_SZ_EN:
294 	case CS42L42_ASP_TX_CH_EN:
295 	case CS42L42_ASP_TX_CH_AP_RES:
296 	case CS42L42_ASP_TX_CH1_BIT_MSB:
297 	case CS42L42_ASP_TX_CH1_BIT_LSB:
298 	case CS42L42_ASP_TX_HIZ_DLY_CFG:
299 	case CS42L42_ASP_TX_CH2_BIT_MSB:
300 	case CS42L42_ASP_TX_CH2_BIT_LSB:
301 	case CS42L42_ASP_RX_DAI0_EN:
302 	case CS42L42_ASP_RX_DAI0_CH1_AP_RES:
303 	case CS42L42_ASP_RX_DAI0_CH1_BIT_MSB:
304 	case CS42L42_ASP_RX_DAI0_CH1_BIT_LSB:
305 	case CS42L42_ASP_RX_DAI0_CH2_AP_RES:
306 	case CS42L42_ASP_RX_DAI0_CH2_BIT_MSB:
307 	case CS42L42_ASP_RX_DAI0_CH2_BIT_LSB:
308 	case CS42L42_ASP_RX_DAI0_CH3_AP_RES:
309 	case CS42L42_ASP_RX_DAI0_CH3_BIT_MSB:
310 	case CS42L42_ASP_RX_DAI0_CH3_BIT_LSB:
311 	case CS42L42_ASP_RX_DAI0_CH4_AP_RES:
312 	case CS42L42_ASP_RX_DAI0_CH4_BIT_MSB:
313 	case CS42L42_ASP_RX_DAI0_CH4_BIT_LSB:
314 	case CS42L42_ASP_RX_DAI1_CH1_AP_RES:
315 	case CS42L42_ASP_RX_DAI1_CH1_BIT_MSB:
316 	case CS42L42_ASP_RX_DAI1_CH1_BIT_LSB:
317 	case CS42L42_ASP_RX_DAI1_CH2_AP_RES:
318 	case CS42L42_ASP_RX_DAI1_CH2_BIT_MSB:
319 	case CS42L42_ASP_RX_DAI1_CH2_BIT_LSB:
320 	case CS42L42_SUB_REVID:
321 		return true;
322 	default:
323 		return false;
324 	}
325 }
326 
327 static bool cs42l42_volatile_register(struct device *dev, unsigned int reg)
328 {
329 	switch (reg) {
330 	case CS42L42_DEVID_AB:
331 	case CS42L42_DEVID_CD:
332 	case CS42L42_DEVID_E:
333 	case CS42L42_MCLK_STATUS:
334 	case CS42L42_OSC_SWITCH_STATUS:
335 	case CS42L42_TRSENSE_STATUS:
336 	case CS42L42_HS_DET_STATUS:
337 	case CS42L42_ADC_OVFL_STATUS:
338 	case CS42L42_MIXER_STATUS:
339 	case CS42L42_SRC_STATUS:
340 	case CS42L42_ASP_RX_STATUS:
341 	case CS42L42_ASP_TX_STATUS:
342 	case CS42L42_CODEC_STATUS:
343 	case CS42L42_DET_INT_STATUS1:
344 	case CS42L42_DET_INT_STATUS2:
345 	case CS42L42_SRCPL_INT_STATUS:
346 	case CS42L42_VPMON_STATUS:
347 	case CS42L42_PLL_LOCK_STATUS:
348 	case CS42L42_TSRS_PLUG_STATUS:
349 	case CS42L42_LOAD_DET_RCSTAT:
350 	case CS42L42_LOAD_DET_DONE:
351 	case CS42L42_DET_STATUS1:
352 	case CS42L42_DET_STATUS2:
353 		return true;
354 	default:
355 		return false;
356 	}
357 }
358 
359 static const struct regmap_range_cfg cs42l42_page_range = {
360 	.name = "Pages",
361 	.range_min = 0,
362 	.range_max = CS42L42_MAX_REGISTER,
363 	.selector_reg = CS42L42_PAGE_REGISTER,
364 	.selector_mask = 0xff,
365 	.selector_shift = 0,
366 	.window_start = 0,
367 	.window_len = 256,
368 };
369 
370 static const struct regmap_config cs42l42_regmap = {
371 	.reg_bits = 8,
372 	.val_bits = 8,
373 
374 	.readable_reg = cs42l42_readable_register,
375 	.volatile_reg = cs42l42_volatile_register,
376 
377 	.ranges = &cs42l42_page_range,
378 	.num_ranges = 1,
379 
380 	.max_register = CS42L42_MAX_REGISTER,
381 	.reg_defaults = cs42l42_reg_defaults,
382 	.num_reg_defaults = ARRAY_SIZE(cs42l42_reg_defaults),
383 	.cache_type = REGCACHE_RBTREE,
384 
385 	.use_single_read = true,
386 	.use_single_write = true,
387 };
388 
389 static DECLARE_TLV_DB_SCALE(adc_tlv, -9700, 100, true);
390 static DECLARE_TLV_DB_SCALE(mixer_tlv, -6300, 100, true);
391 
392 static int cs42l42_slow_start_put(struct snd_kcontrol *kcontrol,
393 				  struct snd_ctl_elem_value *ucontrol)
394 {
395 	struct snd_soc_component *component = snd_soc_kcontrol_component(kcontrol);
396 	u8 val;
397 
398 	/* all bits of SLOW_START_EN much change together */
399 	switch (ucontrol->value.integer.value[0]) {
400 	case 0:
401 		val = 0;
402 		break;
403 	case 1:
404 		val = CS42L42_SLOW_START_EN_MASK;
405 		break;
406 	default:
407 		return -EINVAL;
408 	}
409 
410 	return snd_soc_component_update_bits(component, CS42L42_SLOW_START_ENABLE,
411 					     CS42L42_SLOW_START_EN_MASK, val);
412 }
413 
414 static const char * const cs42l42_hpf_freq_text[] = {
415 	"1.86Hz", "120Hz", "235Hz", "466Hz"
416 };
417 
418 static SOC_ENUM_SINGLE_DECL(cs42l42_hpf_freq_enum, CS42L42_ADC_WNF_HPF_CTL,
419 			    CS42L42_ADC_HPF_CF_SHIFT,
420 			    cs42l42_hpf_freq_text);
421 
422 static const char * const cs42l42_wnf3_freq_text[] = {
423 	"160Hz", "180Hz", "200Hz", "220Hz",
424 	"240Hz", "260Hz", "280Hz", "300Hz"
425 };
426 
427 static SOC_ENUM_SINGLE_DECL(cs42l42_wnf3_freq_enum, CS42L42_ADC_WNF_HPF_CTL,
428 			    CS42L42_ADC_WNF_CF_SHIFT,
429 			    cs42l42_wnf3_freq_text);
430 
431 static const struct snd_kcontrol_new cs42l42_snd_controls[] = {
432 	/* ADC Volume and Filter Controls */
433 	SOC_SINGLE("ADC Notch Switch", CS42L42_ADC_CTL,
434 				CS42L42_ADC_NOTCH_DIS_SHIFT, true, true),
435 	SOC_SINGLE("ADC Weak Force Switch", CS42L42_ADC_CTL,
436 				CS42L42_ADC_FORCE_WEAK_VCM_SHIFT, true, false),
437 	SOC_SINGLE("ADC Invert Switch", CS42L42_ADC_CTL,
438 				CS42L42_ADC_INV_SHIFT, true, false),
439 	SOC_SINGLE("ADC Boost Switch", CS42L42_ADC_CTL,
440 				CS42L42_ADC_DIG_BOOST_SHIFT, true, false),
441 	SOC_SINGLE_S8_TLV("ADC Volume", CS42L42_ADC_VOLUME, -97, 12, adc_tlv),
442 	SOC_SINGLE("ADC WNF Switch", CS42L42_ADC_WNF_HPF_CTL,
443 				CS42L42_ADC_WNF_EN_SHIFT, true, false),
444 	SOC_SINGLE("ADC HPF Switch", CS42L42_ADC_WNF_HPF_CTL,
445 				CS42L42_ADC_HPF_EN_SHIFT, true, false),
446 	SOC_ENUM("HPF Corner Freq", cs42l42_hpf_freq_enum),
447 	SOC_ENUM("WNF 3dB Freq", cs42l42_wnf3_freq_enum),
448 
449 	/* DAC Volume and Filter Controls */
450 	SOC_SINGLE("DACA Invert Switch", CS42L42_DAC_CTL1,
451 				CS42L42_DACA_INV_SHIFT, true, false),
452 	SOC_SINGLE("DACB Invert Switch", CS42L42_DAC_CTL1,
453 				CS42L42_DACB_INV_SHIFT, true, false),
454 	SOC_SINGLE("DAC HPF Switch", CS42L42_DAC_CTL2,
455 				CS42L42_DAC_HPF_EN_SHIFT, true, false),
456 	SOC_DOUBLE_R_TLV("Mixer Volume", CS42L42_MIXER_CHA_VOL,
457 			 CS42L42_MIXER_CHB_VOL, CS42L42_MIXER_CH_VOL_SHIFT,
458 				0x3f, 1, mixer_tlv),
459 
460 	SOC_SINGLE_EXT("Slow Start Switch", CS42L42_SLOW_START_ENABLE,
461 			CS42L42_SLOW_START_EN_SHIFT, true, false,
462 			snd_soc_get_volsw, cs42l42_slow_start_put),
463 };
464 
465 static int cs42l42_hp_adc_ev(struct snd_soc_dapm_widget *w,
466 			     struct snd_kcontrol *kcontrol, int event)
467 {
468 	struct snd_soc_component *component = snd_soc_dapm_to_component(w->dapm);
469 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
470 
471 	switch (event) {
472 	case SND_SOC_DAPM_PRE_PMU:
473 		cs42l42->hp_adc_up_pending = true;
474 		break;
475 	case SND_SOC_DAPM_POST_PMU:
476 		/* Only need one delay if HP and ADC are both powering-up */
477 		if (cs42l42->hp_adc_up_pending) {
478 			usleep_range(CS42L42_HP_ADC_EN_TIME_US,
479 				     CS42L42_HP_ADC_EN_TIME_US + 1000);
480 			cs42l42->hp_adc_up_pending = false;
481 		}
482 		break;
483 	default:
484 		break;
485 	}
486 
487 	return 0;
488 }
489 
490 static const struct snd_soc_dapm_widget cs42l42_dapm_widgets[] = {
491 	/* Playback Path */
492 	SND_SOC_DAPM_OUTPUT("HP"),
493 	SND_SOC_DAPM_DAC_E("DAC", NULL, CS42L42_PWR_CTL1, CS42L42_HP_PDN_SHIFT, 1,
494 			   cs42l42_hp_adc_ev, SND_SOC_DAPM_PRE_PMU | SND_SOC_DAPM_POST_PMU),
495 	SND_SOC_DAPM_MIXER("MIXER", CS42L42_PWR_CTL1, CS42L42_MIXER_PDN_SHIFT, 1, NULL, 0),
496 	SND_SOC_DAPM_AIF_IN("SDIN1", NULL, 0, SND_SOC_NOPM, 0, 0),
497 	SND_SOC_DAPM_AIF_IN("SDIN2", NULL, 1, SND_SOC_NOPM, 0, 0),
498 
499 	/* Playback Requirements */
500 	SND_SOC_DAPM_SUPPLY("ASP DAI0", CS42L42_PWR_CTL1, CS42L42_ASP_DAI_PDN_SHIFT, 1, NULL, 0),
501 
502 	/* Capture Path */
503 	SND_SOC_DAPM_INPUT("HS"),
504 	SND_SOC_DAPM_ADC_E("ADC", NULL, CS42L42_PWR_CTL1, CS42L42_ADC_PDN_SHIFT, 1,
505 			   cs42l42_hp_adc_ev, SND_SOC_DAPM_PRE_PMU | SND_SOC_DAPM_POST_PMU),
506 	SND_SOC_DAPM_AIF_OUT("SDOUT1", NULL, 0, CS42L42_ASP_TX_CH_EN, CS42L42_ASP_TX0_CH1_SHIFT, 0),
507 	SND_SOC_DAPM_AIF_OUT("SDOUT2", NULL, 1, CS42L42_ASP_TX_CH_EN, CS42L42_ASP_TX0_CH2_SHIFT, 0),
508 
509 	/* Capture Requirements */
510 	SND_SOC_DAPM_SUPPLY("ASP DAO0", CS42L42_PWR_CTL1, CS42L42_ASP_DAO_PDN_SHIFT, 1, NULL, 0),
511 	SND_SOC_DAPM_SUPPLY("ASP TX EN", CS42L42_ASP_TX_SZ_EN, CS42L42_ASP_TX_EN_SHIFT, 0, NULL, 0),
512 
513 	/* Playback/Capture Requirements */
514 	SND_SOC_DAPM_SUPPLY("SCLK", CS42L42_ASP_CLK_CFG, CS42L42_ASP_SCLK_EN_SHIFT, 0, NULL, 0),
515 };
516 
517 static const struct snd_soc_dapm_route cs42l42_audio_map[] = {
518 	/* Playback Path */
519 	{"HP", NULL, "DAC"},
520 	{"DAC", NULL, "MIXER"},
521 	{"MIXER", NULL, "SDIN1"},
522 	{"MIXER", NULL, "SDIN2"},
523 	{"SDIN1", NULL, "Playback"},
524 	{"SDIN2", NULL, "Playback"},
525 
526 	/* Playback Requirements */
527 	{"SDIN1", NULL, "ASP DAI0"},
528 	{"SDIN2", NULL, "ASP DAI0"},
529 	{"SDIN1", NULL, "SCLK"},
530 	{"SDIN2", NULL, "SCLK"},
531 
532 	/* Capture Path */
533 	{"ADC", NULL, "HS"},
534 	{ "SDOUT1", NULL, "ADC" },
535 	{ "SDOUT2", NULL, "ADC" },
536 	{ "Capture", NULL, "SDOUT1" },
537 	{ "Capture", NULL, "SDOUT2" },
538 
539 	/* Capture Requirements */
540 	{ "SDOUT1", NULL, "ASP DAO0" },
541 	{ "SDOUT2", NULL, "ASP DAO0" },
542 	{ "SDOUT1", NULL, "SCLK" },
543 	{ "SDOUT2", NULL, "SCLK" },
544 	{ "SDOUT1", NULL, "ASP TX EN" },
545 	{ "SDOUT2", NULL, "ASP TX EN" },
546 };
547 
548 static int cs42l42_set_jack(struct snd_soc_component *component, struct snd_soc_jack *jk, void *d)
549 {
550 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
551 
552 	/* Prevent race with interrupt handler */
553 	mutex_lock(&cs42l42->irq_lock);
554 	cs42l42->jack = jk;
555 
556 	if (jk) {
557 		switch (cs42l42->hs_type) {
558 		case CS42L42_PLUG_CTIA:
559 		case CS42L42_PLUG_OMTP:
560 			snd_soc_jack_report(jk, SND_JACK_HEADSET, SND_JACK_HEADSET);
561 			break;
562 		case CS42L42_PLUG_HEADPHONE:
563 			snd_soc_jack_report(jk, SND_JACK_HEADPHONE, SND_JACK_HEADPHONE);
564 			break;
565 		default:
566 			break;
567 		}
568 	}
569 	mutex_unlock(&cs42l42->irq_lock);
570 
571 	return 0;
572 }
573 
574 static const struct snd_soc_component_driver soc_component_dev_cs42l42 = {
575 	.set_jack		= cs42l42_set_jack,
576 	.dapm_widgets		= cs42l42_dapm_widgets,
577 	.num_dapm_widgets	= ARRAY_SIZE(cs42l42_dapm_widgets),
578 	.dapm_routes		= cs42l42_audio_map,
579 	.num_dapm_routes	= ARRAY_SIZE(cs42l42_audio_map),
580 	.controls		= cs42l42_snd_controls,
581 	.num_controls		= ARRAY_SIZE(cs42l42_snd_controls),
582 	.idle_bias_on		= 1,
583 	.endianness		= 1,
584 };
585 
586 /* Switch to SCLK. Atomic delay after the write to allow the switch to complete. */
587 static const struct reg_sequence cs42l42_to_sclk_seq[] = {
588 	{
589 		.reg = CS42L42_OSC_SWITCH,
590 		.def = CS42L42_SCLK_PRESENT_MASK,
591 		.delay_us = CS42L42_CLOCK_SWITCH_DELAY_US,
592 	},
593 };
594 
595 /* Switch to OSC. Atomic delay after the write to allow the switch to complete. */
596 static const struct reg_sequence cs42l42_to_osc_seq[] = {
597 	{
598 		.reg = CS42L42_OSC_SWITCH,
599 		.def = 0,
600 		.delay_us = CS42L42_CLOCK_SWITCH_DELAY_US,
601 	},
602 };
603 
604 struct cs42l42_pll_params {
605 	u32 sclk;
606 	u8 mclk_src_sel;
607 	u8 sclk_prediv;
608 	u8 pll_div_int;
609 	u32 pll_div_frac;
610 	u8 pll_mode;
611 	u8 pll_divout;
612 	u32 mclk_int;
613 	u8 pll_cal_ratio;
614 	u8 n;
615 };
616 
617 /*
618  * Common PLL Settings for given SCLK
619  * Table 4-5 from the Datasheet
620  */
621 static const struct cs42l42_pll_params pll_ratio_table[] = {
622 	{ 1411200,  1, 0x00, 0x80, 0x000000, 0x03, 0x10, 11289600, 128, 2},
623 	{ 1536000,  1, 0x00, 0x7D, 0x000000, 0x03, 0x10, 12000000, 125, 2},
624 	{ 2304000,  1, 0x00, 0x55, 0xC00000, 0x02, 0x10, 12288000,  85, 2},
625 	{ 2400000,  1, 0x00, 0x50, 0x000000, 0x03, 0x10, 12000000,  80, 2},
626 	{ 2822400,  1, 0x00, 0x40, 0x000000, 0x03, 0x10, 11289600, 128, 1},
627 	{ 3000000,  1, 0x00, 0x40, 0x000000, 0x03, 0x10, 12000000, 128, 1},
628 	{ 3072000,  1, 0x00, 0x3E, 0x800000, 0x03, 0x10, 12000000, 125, 1},
629 	{ 4000000,  1, 0x00, 0x30, 0x800000, 0x03, 0x10, 12000000,  96, 1},
630 	{ 4096000,  1, 0x00, 0x2E, 0xE00000, 0x03, 0x10, 12000000,  94, 1},
631 	{ 5644800,  1, 0x01, 0x40, 0x000000, 0x03, 0x10, 11289600, 128, 1},
632 	{ 6000000,  1, 0x01, 0x40, 0x000000, 0x03, 0x10, 12000000, 128, 1},
633 	{ 6144000,  1, 0x01, 0x3E, 0x800000, 0x03, 0x10, 12000000, 125, 1},
634 	{ 11289600, 0, 0, 0, 0, 0, 0, 11289600, 0, 1},
635 	{ 12000000, 0, 0, 0, 0, 0, 0, 12000000, 0, 1},
636 	{ 12288000, 0, 0, 0, 0, 0, 0, 12288000, 0, 1},
637 	{ 22579200, 1, 0x03, 0x40, 0x000000, 0x03, 0x10, 11289600, 128, 1},
638 	{ 24000000, 1, 0x03, 0x40, 0x000000, 0x03, 0x10, 12000000, 128, 1},
639 	{ 24576000, 1, 0x03, 0x40, 0x000000, 0x03, 0x10, 12288000, 128, 1}
640 };
641 
642 static int cs42l42_pll_config(struct snd_soc_component *component)
643 {
644 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
645 	int i;
646 	u32 clk;
647 	u32 fsync;
648 
649 	if (!cs42l42->sclk)
650 		clk = cs42l42->bclk;
651 	else
652 		clk = cs42l42->sclk;
653 
654 	/* Don't reconfigure if there is an audio stream running */
655 	if (cs42l42->stream_use) {
656 		if (pll_ratio_table[cs42l42->pll_config].sclk == clk)
657 			return 0;
658 		else
659 			return -EBUSY;
660 	}
661 
662 	for (i = 0; i < ARRAY_SIZE(pll_ratio_table); i++) {
663 		if (pll_ratio_table[i].sclk == clk) {
664 			cs42l42->pll_config = i;
665 
666 			/* Configure the internal sample rate */
667 			snd_soc_component_update_bits(component, CS42L42_MCLK_CTL,
668 					CS42L42_INTERNAL_FS_MASK,
669 					((pll_ratio_table[i].mclk_int !=
670 					12000000) &&
671 					(pll_ratio_table[i].mclk_int !=
672 					24000000)) <<
673 					CS42L42_INTERNAL_FS_SHIFT);
674 
675 			/* Set up the LRCLK */
676 			fsync = clk / cs42l42->srate;
677 			if (((fsync * cs42l42->srate) != clk)
678 				|| ((fsync % 2) != 0)) {
679 				dev_err(component->dev,
680 					"Unsupported sclk %d/sample rate %d\n",
681 					clk,
682 					cs42l42->srate);
683 				return -EINVAL;
684 			}
685 			/* Set the LRCLK period */
686 			snd_soc_component_update_bits(component,
687 					CS42L42_FSYNC_P_LOWER,
688 					CS42L42_FSYNC_PERIOD_MASK,
689 					CS42L42_FRAC0_VAL(fsync - 1) <<
690 					CS42L42_FSYNC_PERIOD_SHIFT);
691 			snd_soc_component_update_bits(component,
692 					CS42L42_FSYNC_P_UPPER,
693 					CS42L42_FSYNC_PERIOD_MASK,
694 					CS42L42_FRAC1_VAL(fsync - 1) <<
695 					CS42L42_FSYNC_PERIOD_SHIFT);
696 			/* Set the LRCLK to 50% duty cycle */
697 			fsync = fsync / 2;
698 			snd_soc_component_update_bits(component,
699 					CS42L42_FSYNC_PW_LOWER,
700 					CS42L42_FSYNC_PULSE_WIDTH_MASK,
701 					CS42L42_FRAC0_VAL(fsync - 1) <<
702 					CS42L42_FSYNC_PULSE_WIDTH_SHIFT);
703 			snd_soc_component_update_bits(component,
704 					CS42L42_FSYNC_PW_UPPER,
705 					CS42L42_FSYNC_PULSE_WIDTH_MASK,
706 					CS42L42_FRAC1_VAL(fsync - 1) <<
707 					CS42L42_FSYNC_PULSE_WIDTH_SHIFT);
708 			if (pll_ratio_table[i].mclk_src_sel == 0) {
709 				/* Pass the clock straight through */
710 				snd_soc_component_update_bits(component,
711 					CS42L42_PLL_CTL1,
712 					CS42L42_PLL_START_MASK,	0);
713 			} else {
714 				/* Configure PLL per table 4-5 */
715 				snd_soc_component_update_bits(component,
716 					CS42L42_PLL_DIV_CFG1,
717 					CS42L42_SCLK_PREDIV_MASK,
718 					pll_ratio_table[i].sclk_prediv
719 					<< CS42L42_SCLK_PREDIV_SHIFT);
720 				snd_soc_component_update_bits(component,
721 					CS42L42_PLL_DIV_INT,
722 					CS42L42_PLL_DIV_INT_MASK,
723 					pll_ratio_table[i].pll_div_int
724 					<< CS42L42_PLL_DIV_INT_SHIFT);
725 				snd_soc_component_update_bits(component,
726 					CS42L42_PLL_DIV_FRAC0,
727 					CS42L42_PLL_DIV_FRAC_MASK,
728 					CS42L42_FRAC0_VAL(
729 					pll_ratio_table[i].pll_div_frac)
730 					<< CS42L42_PLL_DIV_FRAC_SHIFT);
731 				snd_soc_component_update_bits(component,
732 					CS42L42_PLL_DIV_FRAC1,
733 					CS42L42_PLL_DIV_FRAC_MASK,
734 					CS42L42_FRAC1_VAL(
735 					pll_ratio_table[i].pll_div_frac)
736 					<< CS42L42_PLL_DIV_FRAC_SHIFT);
737 				snd_soc_component_update_bits(component,
738 					CS42L42_PLL_DIV_FRAC2,
739 					CS42L42_PLL_DIV_FRAC_MASK,
740 					CS42L42_FRAC2_VAL(
741 					pll_ratio_table[i].pll_div_frac)
742 					<< CS42L42_PLL_DIV_FRAC_SHIFT);
743 				snd_soc_component_update_bits(component,
744 					CS42L42_PLL_CTL4,
745 					CS42L42_PLL_MODE_MASK,
746 					pll_ratio_table[i].pll_mode
747 					<< CS42L42_PLL_MODE_SHIFT);
748 				snd_soc_component_update_bits(component,
749 					CS42L42_PLL_CTL3,
750 					CS42L42_PLL_DIVOUT_MASK,
751 					(pll_ratio_table[i].pll_divout * pll_ratio_table[i].n)
752 					<< CS42L42_PLL_DIVOUT_SHIFT);
753 				snd_soc_component_update_bits(component,
754 					CS42L42_PLL_CAL_RATIO,
755 					CS42L42_PLL_CAL_RATIO_MASK,
756 					pll_ratio_table[i].pll_cal_ratio
757 					<< CS42L42_PLL_CAL_RATIO_SHIFT);
758 			}
759 			return 0;
760 		}
761 	}
762 
763 	return -EINVAL;
764 }
765 
766 static void cs42l42_src_config(struct snd_soc_component *component, unsigned int sample_rate)
767 {
768 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
769 	unsigned int fs;
770 
771 	/* Don't reconfigure if there is an audio stream running */
772 	if (cs42l42->stream_use)
773 		return;
774 
775 	/* SRC MCLK must be as close as possible to 125 * sample rate */
776 	if (sample_rate <= 48000)
777 		fs = CS42L42_CLK_IASRC_SEL_6;
778 	else
779 		fs = CS42L42_CLK_IASRC_SEL_12;
780 
781 	/* Set the sample rates (96k or lower) */
782 	snd_soc_component_update_bits(component,
783 				      CS42L42_FS_RATE_EN,
784 				      CS42L42_FS_EN_MASK,
785 				      (CS42L42_FS_EN_IASRC_96K |
786 				       CS42L42_FS_EN_OASRC_96K) <<
787 				      CS42L42_FS_EN_SHIFT);
788 
789 	snd_soc_component_update_bits(component,
790 				      CS42L42_IN_ASRC_CLK,
791 				      CS42L42_CLK_IASRC_SEL_MASK,
792 				      fs << CS42L42_CLK_IASRC_SEL_SHIFT);
793 	snd_soc_component_update_bits(component,
794 				      CS42L42_OUT_ASRC_CLK,
795 				      CS42L42_CLK_OASRC_SEL_MASK,
796 				      fs << CS42L42_CLK_OASRC_SEL_SHIFT);
797 }
798 
799 static int cs42l42_set_dai_fmt(struct snd_soc_dai *codec_dai, unsigned int fmt)
800 {
801 	struct snd_soc_component *component = codec_dai->component;
802 	u32 asp_cfg_val = 0;
803 
804 	switch (fmt & SND_SOC_DAIFMT_MASTER_MASK) {
805 	case SND_SOC_DAIFMT_CBS_CFM:
806 		asp_cfg_val |= CS42L42_ASP_MASTER_MODE <<
807 				CS42L42_ASP_MODE_SHIFT;
808 		break;
809 	case SND_SOC_DAIFMT_CBS_CFS:
810 		asp_cfg_val |= CS42L42_ASP_SLAVE_MODE <<
811 				CS42L42_ASP_MODE_SHIFT;
812 		break;
813 	default:
814 		return -EINVAL;
815 	}
816 
817 	/* interface format */
818 	switch (fmt & SND_SOC_DAIFMT_FORMAT_MASK) {
819 	case SND_SOC_DAIFMT_I2S:
820 		/*
821 		 * 5050 mode, frame starts on falling edge of LRCLK,
822 		 * frame delayed by 1.0 SCLKs
823 		 */
824 		snd_soc_component_update_bits(component,
825 					      CS42L42_ASP_FRM_CFG,
826 					      CS42L42_ASP_STP_MASK |
827 					      CS42L42_ASP_5050_MASK |
828 					      CS42L42_ASP_FSD_MASK,
829 					      CS42L42_ASP_5050_MASK |
830 					      (CS42L42_ASP_FSD_1_0 <<
831 						CS42L42_ASP_FSD_SHIFT));
832 		break;
833 	default:
834 		return -EINVAL;
835 	}
836 
837 	/* Bitclock/frame inversion */
838 	switch (fmt & SND_SOC_DAIFMT_INV_MASK) {
839 	case SND_SOC_DAIFMT_NB_NF:
840 		asp_cfg_val |= CS42L42_ASP_SCPOL_NOR << CS42L42_ASP_SCPOL_SHIFT;
841 		break;
842 	case SND_SOC_DAIFMT_NB_IF:
843 		asp_cfg_val |= CS42L42_ASP_SCPOL_NOR << CS42L42_ASP_SCPOL_SHIFT;
844 		asp_cfg_val |= CS42L42_ASP_LCPOL_INV << CS42L42_ASP_LCPOL_SHIFT;
845 		break;
846 	case SND_SOC_DAIFMT_IB_NF:
847 		break;
848 	case SND_SOC_DAIFMT_IB_IF:
849 		asp_cfg_val |= CS42L42_ASP_LCPOL_INV << CS42L42_ASP_LCPOL_SHIFT;
850 		break;
851 	}
852 
853 	snd_soc_component_update_bits(component, CS42L42_ASP_CLK_CFG, CS42L42_ASP_MODE_MASK |
854 								      CS42L42_ASP_SCPOL_MASK |
855 								      CS42L42_ASP_LCPOL_MASK,
856 								      asp_cfg_val);
857 
858 	return 0;
859 }
860 
861 static int cs42l42_dai_startup(struct snd_pcm_substream *substream, struct snd_soc_dai *dai)
862 {
863 	struct snd_soc_component *component = dai->component;
864 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
865 
866 	/*
867 	 * Sample rates < 44.1 kHz would produce an out-of-range SCLK with
868 	 * a standard I2S frame. If the machine driver sets SCLK it must be
869 	 * legal.
870 	 */
871 	if (cs42l42->sclk)
872 		return 0;
873 
874 	/* Machine driver has not set a SCLK, limit bottom end to 44.1 kHz */
875 	return snd_pcm_hw_constraint_minmax(substream->runtime,
876 					    SNDRV_PCM_HW_PARAM_RATE,
877 					    44100, 96000);
878 }
879 
880 static int cs42l42_pcm_hw_params(struct snd_pcm_substream *substream,
881 				struct snd_pcm_hw_params *params,
882 				struct snd_soc_dai *dai)
883 {
884 	struct snd_soc_component *component = dai->component;
885 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
886 	unsigned int channels = params_channels(params);
887 	unsigned int width = (params_width(params) / 8) - 1;
888 	unsigned int val = 0;
889 	int ret;
890 
891 	cs42l42->srate = params_rate(params);
892 	cs42l42->bclk = snd_soc_params_to_bclk(params);
893 
894 	/* I2S frame always has 2 channels even for mono audio */
895 	if (channels == 1)
896 		cs42l42->bclk *= 2;
897 
898 	/*
899 	 * Assume 24-bit samples are in 32-bit slots, to prevent SCLK being
900 	 * more than assumed (which would result in overclocking).
901 	 */
902 	if (params_width(params) == 24)
903 		cs42l42->bclk = (cs42l42->bclk / 3) * 4;
904 
905 	switch (substream->stream) {
906 	case SNDRV_PCM_STREAM_CAPTURE:
907 		/* channel 2 on high LRCLK */
908 		val = CS42L42_ASP_TX_CH2_AP_MASK |
909 		      (width << CS42L42_ASP_TX_CH2_RES_SHIFT) |
910 		      (width << CS42L42_ASP_TX_CH1_RES_SHIFT);
911 
912 		snd_soc_component_update_bits(component, CS42L42_ASP_TX_CH_AP_RES,
913 				CS42L42_ASP_TX_CH1_AP_MASK | CS42L42_ASP_TX_CH2_AP_MASK |
914 				CS42L42_ASP_TX_CH2_RES_MASK | CS42L42_ASP_TX_CH1_RES_MASK, val);
915 		break;
916 	case SNDRV_PCM_STREAM_PLAYBACK:
917 		val |= width << CS42L42_ASP_RX_CH_RES_SHIFT;
918 		/* channel 1 on low LRCLK */
919 		snd_soc_component_update_bits(component, CS42L42_ASP_RX_DAI0_CH1_AP_RES,
920 							 CS42L42_ASP_RX_CH_AP_MASK |
921 							 CS42L42_ASP_RX_CH_RES_MASK, val);
922 		/* Channel 2 on high LRCLK */
923 		val |= CS42L42_ASP_RX_CH_AP_HI << CS42L42_ASP_RX_CH_AP_SHIFT;
924 		snd_soc_component_update_bits(component, CS42L42_ASP_RX_DAI0_CH2_AP_RES,
925 							 CS42L42_ASP_RX_CH_AP_MASK |
926 							 CS42L42_ASP_RX_CH_RES_MASK, val);
927 
928 		/* Channel B comes from the last active channel */
929 		snd_soc_component_update_bits(component, CS42L42_SP_RX_CH_SEL,
930 					      CS42L42_SP_RX_CHB_SEL_MASK,
931 					      (channels - 1) << CS42L42_SP_RX_CHB_SEL_SHIFT);
932 
933 		/* Both LRCLK slots must be enabled */
934 		snd_soc_component_update_bits(component, CS42L42_ASP_RX_DAI0_EN,
935 					      CS42L42_ASP_RX0_CH_EN_MASK,
936 					      BIT(CS42L42_ASP_RX0_CH1_SHIFT) |
937 					      BIT(CS42L42_ASP_RX0_CH2_SHIFT));
938 		break;
939 	default:
940 		break;
941 	}
942 
943 	ret = cs42l42_pll_config(component);
944 	if (ret)
945 		return ret;
946 
947 	cs42l42_src_config(component, params_rate(params));
948 
949 	return 0;
950 }
951 
952 static int cs42l42_set_sysclk(struct snd_soc_dai *dai,
953 				int clk_id, unsigned int freq, int dir)
954 {
955 	struct snd_soc_component *component = dai->component;
956 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
957 	int i;
958 
959 	if (freq == 0) {
960 		cs42l42->sclk = 0;
961 		return 0;
962 	}
963 
964 	for (i = 0; i < ARRAY_SIZE(pll_ratio_table); i++) {
965 		if (pll_ratio_table[i].sclk == freq) {
966 			cs42l42->sclk = freq;
967 			return 0;
968 		}
969 	}
970 
971 	dev_err(component->dev, "SCLK %u not supported\n", freq);
972 
973 	return -EINVAL;
974 }
975 
976 static int cs42l42_mute_stream(struct snd_soc_dai *dai, int mute, int stream)
977 {
978 	struct snd_soc_component *component = dai->component;
979 	struct cs42l42_private *cs42l42 = snd_soc_component_get_drvdata(component);
980 	unsigned int regval;
981 	int ret;
982 
983 	if (mute) {
984 		/* Mute the headphone */
985 		if (stream == SNDRV_PCM_STREAM_PLAYBACK)
986 			snd_soc_component_update_bits(component, CS42L42_HP_CTL,
987 						      CS42L42_HP_ANA_AMUTE_MASK |
988 						      CS42L42_HP_ANA_BMUTE_MASK,
989 						      CS42L42_HP_ANA_AMUTE_MASK |
990 						      CS42L42_HP_ANA_BMUTE_MASK);
991 
992 		cs42l42->stream_use &= ~(1 << stream);
993 		if (!cs42l42->stream_use) {
994 			/*
995 			 * Switch to the internal oscillator.
996 			 * SCLK must remain running until after this clock switch.
997 			 * Without a source of clock the I2C bus doesn't work.
998 			 */
999 			regmap_multi_reg_write(cs42l42->regmap, cs42l42_to_osc_seq,
1000 					       ARRAY_SIZE(cs42l42_to_osc_seq));
1001 
1002 			/* Must disconnect PLL before stopping it */
1003 			snd_soc_component_update_bits(component,
1004 						      CS42L42_MCLK_SRC_SEL,
1005 						      CS42L42_MCLK_SRC_SEL_MASK,
1006 						      0);
1007 			usleep_range(100, 200);
1008 
1009 			snd_soc_component_update_bits(component, CS42L42_PLL_CTL1,
1010 						      CS42L42_PLL_START_MASK, 0);
1011 		}
1012 	} else {
1013 		if (!cs42l42->stream_use) {
1014 			/* SCLK must be running before codec unmute.
1015 			 *
1016 			 * PLL must not be started with ADC and HP both off
1017 			 * otherwise the FILT+ supply will not charge properly.
1018 			 * DAPM widgets power-up before stream unmute so at least
1019 			 * one of the "DAC" or "ADC" widgets will already have
1020 			 * powered-up.
1021 			 */
1022 			if (pll_ratio_table[cs42l42->pll_config].mclk_src_sel) {
1023 				snd_soc_component_update_bits(component, CS42L42_PLL_CTL1,
1024 							      CS42L42_PLL_START_MASK, 1);
1025 
1026 				if (pll_ratio_table[cs42l42->pll_config].n > 1) {
1027 					usleep_range(CS42L42_PLL_DIVOUT_TIME_US,
1028 						     CS42L42_PLL_DIVOUT_TIME_US * 2);
1029 					regval = pll_ratio_table[cs42l42->pll_config].pll_divout;
1030 					snd_soc_component_update_bits(component, CS42L42_PLL_CTL3,
1031 								      CS42L42_PLL_DIVOUT_MASK,
1032 								      regval <<
1033 								      CS42L42_PLL_DIVOUT_SHIFT);
1034 				}
1035 
1036 				ret = regmap_read_poll_timeout(cs42l42->regmap,
1037 							       CS42L42_PLL_LOCK_STATUS,
1038 							       regval,
1039 							       (regval & 1),
1040 							       CS42L42_PLL_LOCK_POLL_US,
1041 							       CS42L42_PLL_LOCK_TIMEOUT_US);
1042 				if (ret < 0)
1043 					dev_warn(component->dev, "PLL failed to lock: %d\n", ret);
1044 
1045 				/* PLL must be running to drive glitchless switch logic */
1046 				snd_soc_component_update_bits(component,
1047 							      CS42L42_MCLK_SRC_SEL,
1048 							      CS42L42_MCLK_SRC_SEL_MASK,
1049 							      CS42L42_MCLK_SRC_SEL_MASK);
1050 			}
1051 
1052 			/* Mark SCLK as present, turn off internal oscillator */
1053 			regmap_multi_reg_write(cs42l42->regmap, cs42l42_to_sclk_seq,
1054 					       ARRAY_SIZE(cs42l42_to_sclk_seq));
1055 		}
1056 		cs42l42->stream_use |= 1 << stream;
1057 
1058 		if (stream == SNDRV_PCM_STREAM_PLAYBACK) {
1059 			/* Un-mute the headphone */
1060 			snd_soc_component_update_bits(component, CS42L42_HP_CTL,
1061 						      CS42L42_HP_ANA_AMUTE_MASK |
1062 						      CS42L42_HP_ANA_BMUTE_MASK,
1063 						      0);
1064 		}
1065 	}
1066 
1067 	return 0;
1068 }
1069 
1070 #define CS42L42_FORMATS (SNDRV_PCM_FMTBIT_S16_LE |\
1071 			 SNDRV_PCM_FMTBIT_S24_LE |\
1072 			 SNDRV_PCM_FMTBIT_S32_LE)
1073 
1074 static const struct snd_soc_dai_ops cs42l42_ops = {
1075 	.startup	= cs42l42_dai_startup,
1076 	.hw_params	= cs42l42_pcm_hw_params,
1077 	.set_fmt	= cs42l42_set_dai_fmt,
1078 	.set_sysclk	= cs42l42_set_sysclk,
1079 	.mute_stream	= cs42l42_mute_stream,
1080 };
1081 
1082 static struct snd_soc_dai_driver cs42l42_dai = {
1083 		.name = "cs42l42",
1084 		.playback = {
1085 			.stream_name = "Playback",
1086 			.channels_min = 1,
1087 			.channels_max = 2,
1088 			.rates = SNDRV_PCM_RATE_8000_96000,
1089 			.formats = CS42L42_FORMATS,
1090 		},
1091 		.capture = {
1092 			.stream_name = "Capture",
1093 			.channels_min = 1,
1094 			.channels_max = 2,
1095 			.rates = SNDRV_PCM_RATE_8000_96000,
1096 			.formats = CS42L42_FORMATS,
1097 		},
1098 		.symmetric_rate = 1,
1099 		.symmetric_sample_bits = 1,
1100 		.ops = &cs42l42_ops,
1101 };
1102 
1103 static void cs42l42_manual_hs_type_detect(struct cs42l42_private *cs42l42)
1104 {
1105 	unsigned int hs_det_status;
1106 	unsigned int hs_det_comp1;
1107 	unsigned int hs_det_comp2;
1108 	unsigned int hs_det_sw;
1109 
1110 	/* Set hs detect to manual, active mode */
1111 	regmap_update_bits(cs42l42->regmap,
1112 		CS42L42_HSDET_CTL2,
1113 		CS42L42_HSDET_CTRL_MASK |
1114 		CS42L42_HSDET_SET_MASK |
1115 		CS42L42_HSBIAS_REF_MASK |
1116 		CS42L42_HSDET_AUTO_TIME_MASK,
1117 		(1 << CS42L42_HSDET_CTRL_SHIFT) |
1118 		(0 << CS42L42_HSDET_SET_SHIFT) |
1119 		(0 << CS42L42_HSBIAS_REF_SHIFT) |
1120 		(0 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1121 
1122 	/* Configure HS DET comparator reference levels. */
1123 	regmap_update_bits(cs42l42->regmap,
1124 				CS42L42_HSDET_CTL1,
1125 				CS42L42_HSDET_COMP1_LVL_MASK |
1126 				CS42L42_HSDET_COMP2_LVL_MASK,
1127 				(CS42L42_HSDET_COMP1_LVL_VAL << CS42L42_HSDET_COMP1_LVL_SHIFT) |
1128 				(CS42L42_HSDET_COMP2_LVL_VAL << CS42L42_HSDET_COMP2_LVL_SHIFT));
1129 
1130 	/* Open the SW_HSB_HS3 switch and close SW_HSB_HS4 for a Type 1 headset. */
1131 	regmap_write(cs42l42->regmap, CS42L42_HS_SWITCH_CTL, CS42L42_HSDET_SW_COMP1);
1132 
1133 	msleep(100);
1134 
1135 	regmap_read(cs42l42->regmap, CS42L42_HS_DET_STATUS, &hs_det_status);
1136 
1137 	hs_det_comp1 = (hs_det_status & CS42L42_HSDET_COMP1_OUT_MASK) >>
1138 			CS42L42_HSDET_COMP1_OUT_SHIFT;
1139 	hs_det_comp2 = (hs_det_status & CS42L42_HSDET_COMP2_OUT_MASK) >>
1140 			CS42L42_HSDET_COMP2_OUT_SHIFT;
1141 
1142 	/* Close the SW_HSB_HS3 switch for a Type 2 headset. */
1143 	regmap_write(cs42l42->regmap, CS42L42_HS_SWITCH_CTL, CS42L42_HSDET_SW_COMP2);
1144 
1145 	msleep(100);
1146 
1147 	regmap_read(cs42l42->regmap, CS42L42_HS_DET_STATUS, &hs_det_status);
1148 
1149 	hs_det_comp1 |= ((hs_det_status & CS42L42_HSDET_COMP1_OUT_MASK) >>
1150 			CS42L42_HSDET_COMP1_OUT_SHIFT) << 1;
1151 	hs_det_comp2 |= ((hs_det_status & CS42L42_HSDET_COMP2_OUT_MASK) >>
1152 			CS42L42_HSDET_COMP2_OUT_SHIFT) << 1;
1153 
1154 	/* Use Comparator 1 with 1.25V Threshold. */
1155 	switch (hs_det_comp1) {
1156 	case CS42L42_HSDET_COMP_TYPE1:
1157 		cs42l42->hs_type = CS42L42_PLUG_CTIA;
1158 		hs_det_sw = CS42L42_HSDET_SW_TYPE1;
1159 		break;
1160 	case CS42L42_HSDET_COMP_TYPE2:
1161 		cs42l42->hs_type = CS42L42_PLUG_OMTP;
1162 		hs_det_sw = CS42L42_HSDET_SW_TYPE2;
1163 		break;
1164 	default:
1165 		/* Fallback to Comparator 2 with 1.75V Threshold. */
1166 		switch (hs_det_comp2) {
1167 		case CS42L42_HSDET_COMP_TYPE1:
1168 			cs42l42->hs_type = CS42L42_PLUG_CTIA;
1169 			hs_det_sw = CS42L42_HSDET_SW_TYPE1;
1170 			break;
1171 		case CS42L42_HSDET_COMP_TYPE2:
1172 			cs42l42->hs_type = CS42L42_PLUG_OMTP;
1173 			hs_det_sw = CS42L42_HSDET_SW_TYPE2;
1174 			break;
1175 		case CS42L42_HSDET_COMP_TYPE3:
1176 			cs42l42->hs_type = CS42L42_PLUG_HEADPHONE;
1177 			hs_det_sw = CS42L42_HSDET_SW_TYPE3;
1178 			break;
1179 		default:
1180 			cs42l42->hs_type = CS42L42_PLUG_INVALID;
1181 			hs_det_sw = CS42L42_HSDET_SW_TYPE4;
1182 			break;
1183 		}
1184 	}
1185 
1186 	/* Set Switches */
1187 	regmap_write(cs42l42->regmap, CS42L42_HS_SWITCH_CTL, hs_det_sw);
1188 
1189 	/* Set HSDET mode to Manual—Disabled */
1190 	regmap_update_bits(cs42l42->regmap,
1191 		CS42L42_HSDET_CTL2,
1192 		CS42L42_HSDET_CTRL_MASK |
1193 		CS42L42_HSDET_SET_MASK |
1194 		CS42L42_HSBIAS_REF_MASK |
1195 		CS42L42_HSDET_AUTO_TIME_MASK,
1196 		(0 << CS42L42_HSDET_CTRL_SHIFT) |
1197 		(0 << CS42L42_HSDET_SET_SHIFT) |
1198 		(0 << CS42L42_HSBIAS_REF_SHIFT) |
1199 		(0 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1200 
1201 	/* Configure HS DET comparator reference levels. */
1202 	regmap_update_bits(cs42l42->regmap,
1203 				CS42L42_HSDET_CTL1,
1204 				CS42L42_HSDET_COMP1_LVL_MASK |
1205 				CS42L42_HSDET_COMP2_LVL_MASK,
1206 				(CS42L42_HSDET_COMP1_LVL_DEFAULT << CS42L42_HSDET_COMP1_LVL_SHIFT) |
1207 				(CS42L42_HSDET_COMP2_LVL_DEFAULT << CS42L42_HSDET_COMP2_LVL_SHIFT));
1208 }
1209 
1210 static void cs42l42_process_hs_type_detect(struct cs42l42_private *cs42l42)
1211 {
1212 	unsigned int hs_det_status;
1213 	unsigned int int_status;
1214 
1215 	/* Read and save the hs detection result */
1216 	regmap_read(cs42l42->regmap, CS42L42_HS_DET_STATUS, &hs_det_status);
1217 
1218 	/* Mask the auto detect interrupt */
1219 	regmap_update_bits(cs42l42->regmap,
1220 		CS42L42_CODEC_INT_MASK,
1221 		CS42L42_PDN_DONE_MASK |
1222 		CS42L42_HSDET_AUTO_DONE_MASK,
1223 		(1 << CS42L42_PDN_DONE_SHIFT) |
1224 		(1 << CS42L42_HSDET_AUTO_DONE_SHIFT));
1225 
1226 
1227 	cs42l42->hs_type = (hs_det_status & CS42L42_HSDET_TYPE_MASK) >>
1228 				CS42L42_HSDET_TYPE_SHIFT;
1229 
1230 	/* Set hs detect to automatic, disabled mode */
1231 	regmap_update_bits(cs42l42->regmap,
1232 		CS42L42_HSDET_CTL2,
1233 		CS42L42_HSDET_CTRL_MASK |
1234 		CS42L42_HSDET_SET_MASK |
1235 		CS42L42_HSBIAS_REF_MASK |
1236 		CS42L42_HSDET_AUTO_TIME_MASK,
1237 		(2 << CS42L42_HSDET_CTRL_SHIFT) |
1238 		(2 << CS42L42_HSDET_SET_SHIFT) |
1239 		(0 << CS42L42_HSBIAS_REF_SHIFT) |
1240 		(3 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1241 
1242 	/* Run Manual detection if auto detect has not found a headset.
1243 	 * We Re-Run with Manual Detection if the original detection was invalid or headphones,
1244 	 * to ensure that a headset mic is detected in all cases.
1245 	 */
1246 	if (cs42l42->hs_type == CS42L42_PLUG_INVALID ||
1247 		cs42l42->hs_type == CS42L42_PLUG_HEADPHONE) {
1248 		dev_dbg(cs42l42->dev, "Running Manual Detection Fallback\n");
1249 		cs42l42_manual_hs_type_detect(cs42l42);
1250 	}
1251 
1252 	/* Set up button detection */
1253 	if ((cs42l42->hs_type == CS42L42_PLUG_CTIA) ||
1254 	      (cs42l42->hs_type == CS42L42_PLUG_OMTP)) {
1255 		/* Set auto HS bias settings to default */
1256 		regmap_update_bits(cs42l42->regmap,
1257 			CS42L42_HSBIAS_SC_AUTOCTL,
1258 			CS42L42_HSBIAS_SENSE_EN_MASK |
1259 			CS42L42_AUTO_HSBIAS_HIZ_MASK |
1260 			CS42L42_TIP_SENSE_EN_MASK |
1261 			CS42L42_HSBIAS_SENSE_TRIP_MASK,
1262 			(0 << CS42L42_HSBIAS_SENSE_EN_SHIFT) |
1263 			(0 << CS42L42_AUTO_HSBIAS_HIZ_SHIFT) |
1264 			(0 << CS42L42_TIP_SENSE_EN_SHIFT) |
1265 			(3 << CS42L42_HSBIAS_SENSE_TRIP_SHIFT));
1266 
1267 		/* Set up hs detect level sensitivity */
1268 		regmap_update_bits(cs42l42->regmap,
1269 			CS42L42_MIC_DET_CTL1,
1270 			CS42L42_LATCH_TO_VP_MASK |
1271 			CS42L42_EVENT_STAT_SEL_MASK |
1272 			CS42L42_HS_DET_LEVEL_MASK,
1273 			(1 << CS42L42_LATCH_TO_VP_SHIFT) |
1274 			(0 << CS42L42_EVENT_STAT_SEL_SHIFT) |
1275 			(cs42l42->bias_thresholds[0] <<
1276 			CS42L42_HS_DET_LEVEL_SHIFT));
1277 
1278 		/* Set auto HS bias settings to default */
1279 		regmap_update_bits(cs42l42->regmap,
1280 			CS42L42_HSBIAS_SC_AUTOCTL,
1281 			CS42L42_HSBIAS_SENSE_EN_MASK |
1282 			CS42L42_AUTO_HSBIAS_HIZ_MASK |
1283 			CS42L42_TIP_SENSE_EN_MASK |
1284 			CS42L42_HSBIAS_SENSE_TRIP_MASK,
1285 			(cs42l42->hs_bias_sense_en << CS42L42_HSBIAS_SENSE_EN_SHIFT) |
1286 			(1 << CS42L42_AUTO_HSBIAS_HIZ_SHIFT) |
1287 			(0 << CS42L42_TIP_SENSE_EN_SHIFT) |
1288 			(3 << CS42L42_HSBIAS_SENSE_TRIP_SHIFT));
1289 
1290 		/* Turn on level detect circuitry */
1291 		regmap_update_bits(cs42l42->regmap,
1292 			CS42L42_MISC_DET_CTL,
1293 			CS42L42_HSBIAS_CTL_MASK |
1294 			CS42L42_PDN_MIC_LVL_DET_MASK,
1295 			(3 << CS42L42_HSBIAS_CTL_SHIFT) |
1296 			(0 << CS42L42_PDN_MIC_LVL_DET_SHIFT));
1297 
1298 		msleep(cs42l42->btn_det_init_dbnce);
1299 
1300 		/* Clear any button interrupts before unmasking them */
1301 		regmap_read(cs42l42->regmap, CS42L42_DET_INT_STATUS2,
1302 			    &int_status);
1303 
1304 		/* Unmask button detect interrupts */
1305 		regmap_update_bits(cs42l42->regmap,
1306 			CS42L42_DET_INT2_MASK,
1307 			CS42L42_M_DETECT_TF_MASK |
1308 			CS42L42_M_DETECT_FT_MASK |
1309 			CS42L42_M_HSBIAS_HIZ_MASK |
1310 			CS42L42_M_SHORT_RLS_MASK |
1311 			CS42L42_M_SHORT_DET_MASK,
1312 			(0 << CS42L42_M_DETECT_TF_SHIFT) |
1313 			(0 << CS42L42_M_DETECT_FT_SHIFT) |
1314 			(0 << CS42L42_M_HSBIAS_HIZ_SHIFT) |
1315 			(1 << CS42L42_M_SHORT_RLS_SHIFT) |
1316 			(1 << CS42L42_M_SHORT_DET_SHIFT));
1317 	} else {
1318 		/* Make sure button detect and HS bias circuits are off */
1319 		regmap_update_bits(cs42l42->regmap,
1320 			CS42L42_MISC_DET_CTL,
1321 			CS42L42_HSBIAS_CTL_MASK |
1322 			CS42L42_PDN_MIC_LVL_DET_MASK,
1323 			(1 << CS42L42_HSBIAS_CTL_SHIFT) |
1324 			(1 << CS42L42_PDN_MIC_LVL_DET_SHIFT));
1325 	}
1326 
1327 	regmap_update_bits(cs42l42->regmap,
1328 				CS42L42_DAC_CTL2,
1329 				CS42L42_HPOUT_PULLDOWN_MASK |
1330 				CS42L42_HPOUT_LOAD_MASK |
1331 				CS42L42_HPOUT_CLAMP_MASK |
1332 				CS42L42_DAC_HPF_EN_MASK |
1333 				CS42L42_DAC_MON_EN_MASK,
1334 				(0 << CS42L42_HPOUT_PULLDOWN_SHIFT) |
1335 				(0 << CS42L42_HPOUT_LOAD_SHIFT) |
1336 				(0 << CS42L42_HPOUT_CLAMP_SHIFT) |
1337 				(1 << CS42L42_DAC_HPF_EN_SHIFT) |
1338 				(0 << CS42L42_DAC_MON_EN_SHIFT));
1339 
1340 	/* Unmask tip sense interrupts */
1341 	regmap_update_bits(cs42l42->regmap,
1342 		CS42L42_TSRS_PLUG_INT_MASK,
1343 		CS42L42_TS_PLUG_MASK |
1344 		CS42L42_TS_UNPLUG_MASK,
1345 		(0 << CS42L42_TS_PLUG_SHIFT) |
1346 		(0 << CS42L42_TS_UNPLUG_SHIFT));
1347 }
1348 
1349 static void cs42l42_init_hs_type_detect(struct cs42l42_private *cs42l42)
1350 {
1351 	/* Mask tip sense interrupts */
1352 	regmap_update_bits(cs42l42->regmap,
1353 				CS42L42_TSRS_PLUG_INT_MASK,
1354 				CS42L42_TS_PLUG_MASK |
1355 				CS42L42_TS_UNPLUG_MASK,
1356 				(1 << CS42L42_TS_PLUG_SHIFT) |
1357 				(1 << CS42L42_TS_UNPLUG_SHIFT));
1358 
1359 	/* Make sure button detect and HS bias circuits are off */
1360 	regmap_update_bits(cs42l42->regmap,
1361 				CS42L42_MISC_DET_CTL,
1362 				CS42L42_HSBIAS_CTL_MASK |
1363 				CS42L42_PDN_MIC_LVL_DET_MASK,
1364 				(1 << CS42L42_HSBIAS_CTL_SHIFT) |
1365 				(1 << CS42L42_PDN_MIC_LVL_DET_SHIFT));
1366 
1367 	/* Set auto HS bias settings to default */
1368 	regmap_update_bits(cs42l42->regmap,
1369 				CS42L42_HSBIAS_SC_AUTOCTL,
1370 				CS42L42_HSBIAS_SENSE_EN_MASK |
1371 				CS42L42_AUTO_HSBIAS_HIZ_MASK |
1372 				CS42L42_TIP_SENSE_EN_MASK |
1373 				CS42L42_HSBIAS_SENSE_TRIP_MASK,
1374 				(0 << CS42L42_HSBIAS_SENSE_EN_SHIFT) |
1375 				(0 << CS42L42_AUTO_HSBIAS_HIZ_SHIFT) |
1376 				(0 << CS42L42_TIP_SENSE_EN_SHIFT) |
1377 				(3 << CS42L42_HSBIAS_SENSE_TRIP_SHIFT));
1378 
1379 	/* Set hs detect to manual, disabled mode */
1380 	regmap_update_bits(cs42l42->regmap,
1381 				CS42L42_HSDET_CTL2,
1382 				CS42L42_HSDET_CTRL_MASK |
1383 				CS42L42_HSDET_SET_MASK |
1384 				CS42L42_HSBIAS_REF_MASK |
1385 				CS42L42_HSDET_AUTO_TIME_MASK,
1386 				(0 << CS42L42_HSDET_CTRL_SHIFT) |
1387 				(2 << CS42L42_HSDET_SET_SHIFT) |
1388 				(0 << CS42L42_HSBIAS_REF_SHIFT) |
1389 				(3 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1390 
1391 	regmap_update_bits(cs42l42->regmap,
1392 				CS42L42_DAC_CTL2,
1393 				CS42L42_HPOUT_PULLDOWN_MASK |
1394 				CS42L42_HPOUT_LOAD_MASK |
1395 				CS42L42_HPOUT_CLAMP_MASK |
1396 				CS42L42_DAC_HPF_EN_MASK |
1397 				CS42L42_DAC_MON_EN_MASK,
1398 				(8 << CS42L42_HPOUT_PULLDOWN_SHIFT) |
1399 				(0 << CS42L42_HPOUT_LOAD_SHIFT) |
1400 				(1 << CS42L42_HPOUT_CLAMP_SHIFT) |
1401 				(1 << CS42L42_DAC_HPF_EN_SHIFT) |
1402 				(1 << CS42L42_DAC_MON_EN_SHIFT));
1403 
1404 	/* Power up HS bias to 2.7V */
1405 	regmap_update_bits(cs42l42->regmap,
1406 				CS42L42_MISC_DET_CTL,
1407 				CS42L42_HSBIAS_CTL_MASK |
1408 				CS42L42_PDN_MIC_LVL_DET_MASK,
1409 				(3 << CS42L42_HSBIAS_CTL_SHIFT) |
1410 				(1 << CS42L42_PDN_MIC_LVL_DET_SHIFT));
1411 
1412 	/* Wait for HS bias to ramp up */
1413 	msleep(cs42l42->hs_bias_ramp_time);
1414 
1415 	/* Unmask auto detect interrupt */
1416 	regmap_update_bits(cs42l42->regmap,
1417 				CS42L42_CODEC_INT_MASK,
1418 				CS42L42_PDN_DONE_MASK |
1419 				CS42L42_HSDET_AUTO_DONE_MASK,
1420 				(1 << CS42L42_PDN_DONE_SHIFT) |
1421 				(0 << CS42L42_HSDET_AUTO_DONE_SHIFT));
1422 
1423 	/* Set hs detect to automatic, enabled mode */
1424 	regmap_update_bits(cs42l42->regmap,
1425 				CS42L42_HSDET_CTL2,
1426 				CS42L42_HSDET_CTRL_MASK |
1427 				CS42L42_HSDET_SET_MASK |
1428 				CS42L42_HSBIAS_REF_MASK |
1429 				CS42L42_HSDET_AUTO_TIME_MASK,
1430 				(3 << CS42L42_HSDET_CTRL_SHIFT) |
1431 				(2 << CS42L42_HSDET_SET_SHIFT) |
1432 				(0 << CS42L42_HSBIAS_REF_SHIFT) |
1433 				(3 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1434 }
1435 
1436 static void cs42l42_cancel_hs_type_detect(struct cs42l42_private *cs42l42)
1437 {
1438 	/* Mask button detect interrupts */
1439 	regmap_update_bits(cs42l42->regmap,
1440 		CS42L42_DET_INT2_MASK,
1441 		CS42L42_M_DETECT_TF_MASK |
1442 		CS42L42_M_DETECT_FT_MASK |
1443 		CS42L42_M_HSBIAS_HIZ_MASK |
1444 		CS42L42_M_SHORT_RLS_MASK |
1445 		CS42L42_M_SHORT_DET_MASK,
1446 		(1 << CS42L42_M_DETECT_TF_SHIFT) |
1447 		(1 << CS42L42_M_DETECT_FT_SHIFT) |
1448 		(1 << CS42L42_M_HSBIAS_HIZ_SHIFT) |
1449 		(1 << CS42L42_M_SHORT_RLS_SHIFT) |
1450 		(1 << CS42L42_M_SHORT_DET_SHIFT));
1451 
1452 	/* Ground HS bias */
1453 	regmap_update_bits(cs42l42->regmap,
1454 				CS42L42_MISC_DET_CTL,
1455 				CS42L42_HSBIAS_CTL_MASK |
1456 				CS42L42_PDN_MIC_LVL_DET_MASK,
1457 				(1 << CS42L42_HSBIAS_CTL_SHIFT) |
1458 				(1 << CS42L42_PDN_MIC_LVL_DET_SHIFT));
1459 
1460 	/* Set auto HS bias settings to default */
1461 	regmap_update_bits(cs42l42->regmap,
1462 				CS42L42_HSBIAS_SC_AUTOCTL,
1463 				CS42L42_HSBIAS_SENSE_EN_MASK |
1464 				CS42L42_AUTO_HSBIAS_HIZ_MASK |
1465 				CS42L42_TIP_SENSE_EN_MASK |
1466 				CS42L42_HSBIAS_SENSE_TRIP_MASK,
1467 				(0 << CS42L42_HSBIAS_SENSE_EN_SHIFT) |
1468 				(0 << CS42L42_AUTO_HSBIAS_HIZ_SHIFT) |
1469 				(0 << CS42L42_TIP_SENSE_EN_SHIFT) |
1470 				(3 << CS42L42_HSBIAS_SENSE_TRIP_SHIFT));
1471 
1472 	/* Set hs detect to manual, disabled mode */
1473 	regmap_update_bits(cs42l42->regmap,
1474 				CS42L42_HSDET_CTL2,
1475 				CS42L42_HSDET_CTRL_MASK |
1476 				CS42L42_HSDET_SET_MASK |
1477 				CS42L42_HSBIAS_REF_MASK |
1478 				CS42L42_HSDET_AUTO_TIME_MASK,
1479 				(0 << CS42L42_HSDET_CTRL_SHIFT) |
1480 				(2 << CS42L42_HSDET_SET_SHIFT) |
1481 				(0 << CS42L42_HSBIAS_REF_SHIFT) |
1482 				(3 << CS42L42_HSDET_AUTO_TIME_SHIFT));
1483 }
1484 
1485 static int cs42l42_handle_button_press(struct cs42l42_private *cs42l42)
1486 {
1487 	int bias_level;
1488 	unsigned int detect_status;
1489 
1490 	/* Mask button detect interrupts */
1491 	regmap_update_bits(cs42l42->regmap,
1492 		CS42L42_DET_INT2_MASK,
1493 		CS42L42_M_DETECT_TF_MASK |
1494 		CS42L42_M_DETECT_FT_MASK |
1495 		CS42L42_M_HSBIAS_HIZ_MASK |
1496 		CS42L42_M_SHORT_RLS_MASK |
1497 		CS42L42_M_SHORT_DET_MASK,
1498 		(1 << CS42L42_M_DETECT_TF_SHIFT) |
1499 		(1 << CS42L42_M_DETECT_FT_SHIFT) |
1500 		(1 << CS42L42_M_HSBIAS_HIZ_SHIFT) |
1501 		(1 << CS42L42_M_SHORT_RLS_SHIFT) |
1502 		(1 << CS42L42_M_SHORT_DET_SHIFT));
1503 
1504 	usleep_range(cs42l42->btn_det_event_dbnce * 1000,
1505 		     cs42l42->btn_det_event_dbnce * 2000);
1506 
1507 	/* Test all 4 level detect biases */
1508 	bias_level = 1;
1509 	do {
1510 		/* Adjust button detect level sensitivity */
1511 		regmap_update_bits(cs42l42->regmap,
1512 			CS42L42_MIC_DET_CTL1,
1513 			CS42L42_LATCH_TO_VP_MASK |
1514 			CS42L42_EVENT_STAT_SEL_MASK |
1515 			CS42L42_HS_DET_LEVEL_MASK,
1516 			(1 << CS42L42_LATCH_TO_VP_SHIFT) |
1517 			(0 << CS42L42_EVENT_STAT_SEL_SHIFT) |
1518 			(cs42l42->bias_thresholds[bias_level] <<
1519 			CS42L42_HS_DET_LEVEL_SHIFT));
1520 
1521 		regmap_read(cs42l42->regmap, CS42L42_DET_STATUS2,
1522 				&detect_status);
1523 	} while ((detect_status & CS42L42_HS_TRUE_MASK) &&
1524 		(++bias_level < CS42L42_NUM_BIASES));
1525 
1526 	switch (bias_level) {
1527 	case 1: /* Function C button press */
1528 		bias_level = SND_JACK_BTN_2;
1529 		dev_dbg(cs42l42->dev, "Function C button press\n");
1530 		break;
1531 	case 2: /* Function B button press */
1532 		bias_level = SND_JACK_BTN_1;
1533 		dev_dbg(cs42l42->dev, "Function B button press\n");
1534 		break;
1535 	case 3: /* Function D button press */
1536 		bias_level = SND_JACK_BTN_3;
1537 		dev_dbg(cs42l42->dev, "Function D button press\n");
1538 		break;
1539 	case 4: /* Function A button press */
1540 		bias_level = SND_JACK_BTN_0;
1541 		dev_dbg(cs42l42->dev, "Function A button press\n");
1542 		break;
1543 	default:
1544 		bias_level = 0;
1545 		break;
1546 	}
1547 
1548 	/* Set button detect level sensitivity back to default */
1549 	regmap_update_bits(cs42l42->regmap,
1550 		CS42L42_MIC_DET_CTL1,
1551 		CS42L42_LATCH_TO_VP_MASK |
1552 		CS42L42_EVENT_STAT_SEL_MASK |
1553 		CS42L42_HS_DET_LEVEL_MASK,
1554 		(1 << CS42L42_LATCH_TO_VP_SHIFT) |
1555 		(0 << CS42L42_EVENT_STAT_SEL_SHIFT) |
1556 		(cs42l42->bias_thresholds[0] << CS42L42_HS_DET_LEVEL_SHIFT));
1557 
1558 	/* Clear any button interrupts before unmasking them */
1559 	regmap_read(cs42l42->regmap, CS42L42_DET_INT_STATUS2,
1560 		    &detect_status);
1561 
1562 	/* Unmask button detect interrupts */
1563 	regmap_update_bits(cs42l42->regmap,
1564 		CS42L42_DET_INT2_MASK,
1565 		CS42L42_M_DETECT_TF_MASK |
1566 		CS42L42_M_DETECT_FT_MASK |
1567 		CS42L42_M_HSBIAS_HIZ_MASK |
1568 		CS42L42_M_SHORT_RLS_MASK |
1569 		CS42L42_M_SHORT_DET_MASK,
1570 		(0 << CS42L42_M_DETECT_TF_SHIFT) |
1571 		(0 << CS42L42_M_DETECT_FT_SHIFT) |
1572 		(0 << CS42L42_M_HSBIAS_HIZ_SHIFT) |
1573 		(1 << CS42L42_M_SHORT_RLS_SHIFT) |
1574 		(1 << CS42L42_M_SHORT_DET_SHIFT));
1575 
1576 	return bias_level;
1577 }
1578 
1579 struct cs42l42_irq_params {
1580 	u16 status_addr;
1581 	u16 mask_addr;
1582 	u8 mask;
1583 };
1584 
1585 static const struct cs42l42_irq_params irq_params_table[] = {
1586 	{CS42L42_ADC_OVFL_STATUS, CS42L42_ADC_OVFL_INT_MASK,
1587 		CS42L42_ADC_OVFL_VAL_MASK},
1588 	{CS42L42_MIXER_STATUS, CS42L42_MIXER_INT_MASK,
1589 		CS42L42_MIXER_VAL_MASK},
1590 	{CS42L42_SRC_STATUS, CS42L42_SRC_INT_MASK,
1591 		CS42L42_SRC_VAL_MASK},
1592 	{CS42L42_ASP_RX_STATUS, CS42L42_ASP_RX_INT_MASK,
1593 		CS42L42_ASP_RX_VAL_MASK},
1594 	{CS42L42_ASP_TX_STATUS, CS42L42_ASP_TX_INT_MASK,
1595 		CS42L42_ASP_TX_VAL_MASK},
1596 	{CS42L42_CODEC_STATUS, CS42L42_CODEC_INT_MASK,
1597 		CS42L42_CODEC_VAL_MASK},
1598 	{CS42L42_DET_INT_STATUS1, CS42L42_DET_INT1_MASK,
1599 		CS42L42_DET_INT_VAL1_MASK},
1600 	{CS42L42_DET_INT_STATUS2, CS42L42_DET_INT2_MASK,
1601 		CS42L42_DET_INT_VAL2_MASK},
1602 	{CS42L42_SRCPL_INT_STATUS, CS42L42_SRCPL_INT_MASK,
1603 		CS42L42_SRCPL_VAL_MASK},
1604 	{CS42L42_VPMON_STATUS, CS42L42_VPMON_INT_MASK,
1605 		CS42L42_VPMON_VAL_MASK},
1606 	{CS42L42_PLL_LOCK_STATUS, CS42L42_PLL_LOCK_INT_MASK,
1607 		CS42L42_PLL_LOCK_VAL_MASK},
1608 	{CS42L42_TSRS_PLUG_STATUS, CS42L42_TSRS_PLUG_INT_MASK,
1609 		CS42L42_TSRS_PLUG_VAL_MASK}
1610 };
1611 
1612 static irqreturn_t cs42l42_irq_thread(int irq, void *data)
1613 {
1614 	struct cs42l42_private *cs42l42 = (struct cs42l42_private *)data;
1615 	unsigned int stickies[12];
1616 	unsigned int masks[12];
1617 	unsigned int current_plug_status;
1618 	unsigned int current_button_status;
1619 	unsigned int i;
1620 	int report = 0;
1621 
1622 	mutex_lock(&cs42l42->irq_lock);
1623 	if (cs42l42->suspended) {
1624 		mutex_unlock(&cs42l42->irq_lock);
1625 		return IRQ_NONE;
1626 	}
1627 
1628 	/* Read sticky registers to clear interurpt */
1629 	for (i = 0; i < ARRAY_SIZE(stickies); i++) {
1630 		regmap_read(cs42l42->regmap, irq_params_table[i].status_addr,
1631 				&(stickies[i]));
1632 		regmap_read(cs42l42->regmap, irq_params_table[i].mask_addr,
1633 				&(masks[i]));
1634 		stickies[i] = stickies[i] & (~masks[i]) &
1635 				irq_params_table[i].mask;
1636 	}
1637 
1638 	/* Read tip sense status before handling type detect */
1639 	current_plug_status = (stickies[11] &
1640 		(CS42L42_TS_PLUG_MASK | CS42L42_TS_UNPLUG_MASK)) >>
1641 		CS42L42_TS_PLUG_SHIFT;
1642 
1643 	/* Read button sense status */
1644 	current_button_status = stickies[7] &
1645 		(CS42L42_M_DETECT_TF_MASK |
1646 		CS42L42_M_DETECT_FT_MASK |
1647 		CS42L42_M_HSBIAS_HIZ_MASK);
1648 
1649 	/*
1650 	 * Check auto-detect status. Don't assume a previous unplug event has
1651 	 * cleared the flags. If the jack is unplugged and plugged during
1652 	 * system suspend there won't have been an unplug event.
1653 	 */
1654 	if ((~masks[5]) & irq_params_table[5].mask) {
1655 		if (stickies[5] & CS42L42_HSDET_AUTO_DONE_MASK) {
1656 			cs42l42_process_hs_type_detect(cs42l42);
1657 			switch (cs42l42->hs_type) {
1658 			case CS42L42_PLUG_CTIA:
1659 			case CS42L42_PLUG_OMTP:
1660 				snd_soc_jack_report(cs42l42->jack, SND_JACK_HEADSET,
1661 						    SND_JACK_HEADSET |
1662 						    SND_JACK_BTN_0 | SND_JACK_BTN_1 |
1663 						    SND_JACK_BTN_2 | SND_JACK_BTN_3);
1664 				break;
1665 			case CS42L42_PLUG_HEADPHONE:
1666 				snd_soc_jack_report(cs42l42->jack, SND_JACK_HEADPHONE,
1667 						    SND_JACK_HEADSET |
1668 						    SND_JACK_BTN_0 | SND_JACK_BTN_1 |
1669 						    SND_JACK_BTN_2 | SND_JACK_BTN_3);
1670 				break;
1671 			default:
1672 				break;
1673 			}
1674 			dev_dbg(cs42l42->dev, "Auto detect done (%d)\n", cs42l42->hs_type);
1675 		}
1676 	}
1677 
1678 	/* Check tip sense status */
1679 	if ((~masks[11]) & irq_params_table[11].mask) {
1680 		switch (current_plug_status) {
1681 		case CS42L42_TS_PLUG:
1682 			if (cs42l42->plug_state != CS42L42_TS_PLUG) {
1683 				cs42l42->plug_state = CS42L42_TS_PLUG;
1684 				cs42l42_init_hs_type_detect(cs42l42);
1685 			}
1686 			break;
1687 
1688 		case CS42L42_TS_UNPLUG:
1689 			if (cs42l42->plug_state != CS42L42_TS_UNPLUG) {
1690 				cs42l42->plug_state = CS42L42_TS_UNPLUG;
1691 				cs42l42_cancel_hs_type_detect(cs42l42);
1692 
1693 				snd_soc_jack_report(cs42l42->jack, 0,
1694 						    SND_JACK_HEADSET |
1695 						    SND_JACK_BTN_0 | SND_JACK_BTN_1 |
1696 						    SND_JACK_BTN_2 | SND_JACK_BTN_3);
1697 
1698 				dev_dbg(cs42l42->dev, "Unplug event\n");
1699 			}
1700 			break;
1701 
1702 		default:
1703 			cs42l42->plug_state = CS42L42_TS_TRANS;
1704 		}
1705 	}
1706 
1707 	/* Check button detect status */
1708 	if (cs42l42->plug_state == CS42L42_TS_PLUG && ((~masks[7]) & irq_params_table[7].mask)) {
1709 		if (!(current_button_status &
1710 			CS42L42_M_HSBIAS_HIZ_MASK)) {
1711 
1712 			if (current_button_status & CS42L42_M_DETECT_TF_MASK) {
1713 				dev_dbg(cs42l42->dev, "Button released\n");
1714 				report = 0;
1715 			} else if (current_button_status & CS42L42_M_DETECT_FT_MASK) {
1716 				report = cs42l42_handle_button_press(cs42l42);
1717 
1718 			}
1719 			snd_soc_jack_report(cs42l42->jack, report, SND_JACK_BTN_0 | SND_JACK_BTN_1 |
1720 								   SND_JACK_BTN_2 | SND_JACK_BTN_3);
1721 		}
1722 	}
1723 
1724 	mutex_unlock(&cs42l42->irq_lock);
1725 
1726 	return IRQ_HANDLED;
1727 }
1728 
1729 static void cs42l42_set_interrupt_masks(struct cs42l42_private *cs42l42)
1730 {
1731 	regmap_update_bits(cs42l42->regmap, CS42L42_ADC_OVFL_INT_MASK,
1732 			CS42L42_ADC_OVFL_MASK,
1733 			(1 << CS42L42_ADC_OVFL_SHIFT));
1734 
1735 	regmap_update_bits(cs42l42->regmap, CS42L42_MIXER_INT_MASK,
1736 			CS42L42_MIX_CHB_OVFL_MASK |
1737 			CS42L42_MIX_CHA_OVFL_MASK |
1738 			CS42L42_EQ_OVFL_MASK |
1739 			CS42L42_EQ_BIQUAD_OVFL_MASK,
1740 			(1 << CS42L42_MIX_CHB_OVFL_SHIFT) |
1741 			(1 << CS42L42_MIX_CHA_OVFL_SHIFT) |
1742 			(1 << CS42L42_EQ_OVFL_SHIFT) |
1743 			(1 << CS42L42_EQ_BIQUAD_OVFL_SHIFT));
1744 
1745 	regmap_update_bits(cs42l42->regmap, CS42L42_SRC_INT_MASK,
1746 			CS42L42_SRC_ILK_MASK |
1747 			CS42L42_SRC_OLK_MASK |
1748 			CS42L42_SRC_IUNLK_MASK |
1749 			CS42L42_SRC_OUNLK_MASK,
1750 			(1 << CS42L42_SRC_ILK_SHIFT) |
1751 			(1 << CS42L42_SRC_OLK_SHIFT) |
1752 			(1 << CS42L42_SRC_IUNLK_SHIFT) |
1753 			(1 << CS42L42_SRC_OUNLK_SHIFT));
1754 
1755 	regmap_update_bits(cs42l42->regmap, CS42L42_ASP_RX_INT_MASK,
1756 			CS42L42_ASPRX_NOLRCK_MASK |
1757 			CS42L42_ASPRX_EARLY_MASK |
1758 			CS42L42_ASPRX_LATE_MASK |
1759 			CS42L42_ASPRX_ERROR_MASK |
1760 			CS42L42_ASPRX_OVLD_MASK,
1761 			(1 << CS42L42_ASPRX_NOLRCK_SHIFT) |
1762 			(1 << CS42L42_ASPRX_EARLY_SHIFT) |
1763 			(1 << CS42L42_ASPRX_LATE_SHIFT) |
1764 			(1 << CS42L42_ASPRX_ERROR_SHIFT) |
1765 			(1 << CS42L42_ASPRX_OVLD_SHIFT));
1766 
1767 	regmap_update_bits(cs42l42->regmap, CS42L42_ASP_TX_INT_MASK,
1768 			CS42L42_ASPTX_NOLRCK_MASK |
1769 			CS42L42_ASPTX_EARLY_MASK |
1770 			CS42L42_ASPTX_LATE_MASK |
1771 			CS42L42_ASPTX_SMERROR_MASK,
1772 			(1 << CS42L42_ASPTX_NOLRCK_SHIFT) |
1773 			(1 << CS42L42_ASPTX_EARLY_SHIFT) |
1774 			(1 << CS42L42_ASPTX_LATE_SHIFT) |
1775 			(1 << CS42L42_ASPTX_SMERROR_SHIFT));
1776 
1777 	regmap_update_bits(cs42l42->regmap, CS42L42_CODEC_INT_MASK,
1778 			CS42L42_PDN_DONE_MASK |
1779 			CS42L42_HSDET_AUTO_DONE_MASK,
1780 			(1 << CS42L42_PDN_DONE_SHIFT) |
1781 			(1 << CS42L42_HSDET_AUTO_DONE_SHIFT));
1782 
1783 	regmap_update_bits(cs42l42->regmap, CS42L42_SRCPL_INT_MASK,
1784 			CS42L42_SRCPL_ADC_LK_MASK |
1785 			CS42L42_SRCPL_DAC_LK_MASK |
1786 			CS42L42_SRCPL_ADC_UNLK_MASK |
1787 			CS42L42_SRCPL_DAC_UNLK_MASK,
1788 			(1 << CS42L42_SRCPL_ADC_LK_SHIFT) |
1789 			(1 << CS42L42_SRCPL_DAC_LK_SHIFT) |
1790 			(1 << CS42L42_SRCPL_ADC_UNLK_SHIFT) |
1791 			(1 << CS42L42_SRCPL_DAC_UNLK_SHIFT));
1792 
1793 	regmap_update_bits(cs42l42->regmap, CS42L42_DET_INT1_MASK,
1794 			CS42L42_TIP_SENSE_UNPLUG_MASK |
1795 			CS42L42_TIP_SENSE_PLUG_MASK |
1796 			CS42L42_HSBIAS_SENSE_MASK,
1797 			(1 << CS42L42_TIP_SENSE_UNPLUG_SHIFT) |
1798 			(1 << CS42L42_TIP_SENSE_PLUG_SHIFT) |
1799 			(1 << CS42L42_HSBIAS_SENSE_SHIFT));
1800 
1801 	regmap_update_bits(cs42l42->regmap, CS42L42_DET_INT2_MASK,
1802 			CS42L42_M_DETECT_TF_MASK |
1803 			CS42L42_M_DETECT_FT_MASK |
1804 			CS42L42_M_HSBIAS_HIZ_MASK |
1805 			CS42L42_M_SHORT_RLS_MASK |
1806 			CS42L42_M_SHORT_DET_MASK,
1807 			(1 << CS42L42_M_DETECT_TF_SHIFT) |
1808 			(1 << CS42L42_M_DETECT_FT_SHIFT) |
1809 			(1 << CS42L42_M_HSBIAS_HIZ_SHIFT) |
1810 			(1 << CS42L42_M_SHORT_RLS_SHIFT) |
1811 			(1 << CS42L42_M_SHORT_DET_SHIFT));
1812 
1813 	regmap_update_bits(cs42l42->regmap, CS42L42_VPMON_INT_MASK,
1814 			CS42L42_VPMON_MASK,
1815 			(1 << CS42L42_VPMON_SHIFT));
1816 
1817 	regmap_update_bits(cs42l42->regmap, CS42L42_PLL_LOCK_INT_MASK,
1818 			CS42L42_PLL_LOCK_MASK,
1819 			(1 << CS42L42_PLL_LOCK_SHIFT));
1820 
1821 	regmap_update_bits(cs42l42->regmap, CS42L42_TSRS_PLUG_INT_MASK,
1822 			CS42L42_RS_PLUG_MASK |
1823 			CS42L42_RS_UNPLUG_MASK |
1824 			CS42L42_TS_PLUG_MASK |
1825 			CS42L42_TS_UNPLUG_MASK,
1826 			(1 << CS42L42_RS_PLUG_SHIFT) |
1827 			(1 << CS42L42_RS_UNPLUG_SHIFT) |
1828 			(0 << CS42L42_TS_PLUG_SHIFT) |
1829 			(0 << CS42L42_TS_UNPLUG_SHIFT));
1830 }
1831 
1832 static void cs42l42_setup_hs_type_detect(struct cs42l42_private *cs42l42)
1833 {
1834 	unsigned int reg;
1835 
1836 	cs42l42->hs_type = CS42L42_PLUG_INVALID;
1837 
1838 	/*
1839 	 * DETECT_MODE must always be 0 with ADC and HP both off otherwise the
1840 	 * FILT+ supply will not charge properly.
1841 	 */
1842 	regmap_update_bits(cs42l42->regmap, CS42L42_MISC_DET_CTL,
1843 			   CS42L42_DETECT_MODE_MASK, 0);
1844 
1845 	/* Latch analog controls to VP power domain */
1846 	regmap_update_bits(cs42l42->regmap, CS42L42_MIC_DET_CTL1,
1847 			CS42L42_LATCH_TO_VP_MASK |
1848 			CS42L42_EVENT_STAT_SEL_MASK |
1849 			CS42L42_HS_DET_LEVEL_MASK,
1850 			(1 << CS42L42_LATCH_TO_VP_SHIFT) |
1851 			(0 << CS42L42_EVENT_STAT_SEL_SHIFT) |
1852 			(cs42l42->bias_thresholds[0] <<
1853 			CS42L42_HS_DET_LEVEL_SHIFT));
1854 
1855 	/* Remove ground noise-suppression clamps */
1856 	regmap_update_bits(cs42l42->regmap,
1857 			CS42L42_HS_CLAMP_DISABLE,
1858 			CS42L42_HS_CLAMP_DISABLE_MASK,
1859 			(1 << CS42L42_HS_CLAMP_DISABLE_SHIFT));
1860 
1861 	/* Enable the tip sense circuit */
1862 	regmap_update_bits(cs42l42->regmap, CS42L42_TSENSE_CTL,
1863 			   CS42L42_TS_INV_MASK, CS42L42_TS_INV_MASK);
1864 
1865 	regmap_update_bits(cs42l42->regmap, CS42L42_TIPSENSE_CTL,
1866 			CS42L42_TIP_SENSE_CTRL_MASK |
1867 			CS42L42_TIP_SENSE_INV_MASK |
1868 			CS42L42_TIP_SENSE_DEBOUNCE_MASK,
1869 			(3 << CS42L42_TIP_SENSE_CTRL_SHIFT) |
1870 			(!cs42l42->ts_inv << CS42L42_TIP_SENSE_INV_SHIFT) |
1871 			(2 << CS42L42_TIP_SENSE_DEBOUNCE_SHIFT));
1872 
1873 	/* Save the initial status of the tip sense */
1874 	regmap_read(cs42l42->regmap,
1875 			  CS42L42_TSRS_PLUG_STATUS,
1876 			  &reg);
1877 	cs42l42->plug_state = (((char) reg) &
1878 		      (CS42L42_TS_PLUG_MASK | CS42L42_TS_UNPLUG_MASK)) >>
1879 		      CS42L42_TS_PLUG_SHIFT;
1880 }
1881 
1882 static const unsigned int threshold_defaults[] = {
1883 	CS42L42_HS_DET_LEVEL_15,
1884 	CS42L42_HS_DET_LEVEL_8,
1885 	CS42L42_HS_DET_LEVEL_4,
1886 	CS42L42_HS_DET_LEVEL_1
1887 };
1888 
1889 static int cs42l42_handle_device_data(struct device *dev,
1890 					struct cs42l42_private *cs42l42)
1891 {
1892 	unsigned int val;
1893 	u32 thresholds[CS42L42_NUM_BIASES];
1894 	int ret;
1895 	int i;
1896 
1897 	ret = device_property_read_u32(dev, "cirrus,ts-inv", &val);
1898 	if (!ret) {
1899 		switch (val) {
1900 		case CS42L42_TS_INV_EN:
1901 		case CS42L42_TS_INV_DIS:
1902 			cs42l42->ts_inv = val;
1903 			break;
1904 		default:
1905 			dev_err(dev,
1906 				"Wrong cirrus,ts-inv DT value %d\n",
1907 				val);
1908 			cs42l42->ts_inv = CS42L42_TS_INV_DIS;
1909 		}
1910 	} else {
1911 		cs42l42->ts_inv = CS42L42_TS_INV_DIS;
1912 	}
1913 
1914 	ret = device_property_read_u32(dev, "cirrus,ts-dbnc-rise", &val);
1915 	if (!ret) {
1916 		switch (val) {
1917 		case CS42L42_TS_DBNCE_0:
1918 		case CS42L42_TS_DBNCE_125:
1919 		case CS42L42_TS_DBNCE_250:
1920 		case CS42L42_TS_DBNCE_500:
1921 		case CS42L42_TS_DBNCE_750:
1922 		case CS42L42_TS_DBNCE_1000:
1923 		case CS42L42_TS_DBNCE_1250:
1924 		case CS42L42_TS_DBNCE_1500:
1925 			cs42l42->ts_dbnc_rise = val;
1926 			break;
1927 		default:
1928 			dev_err(dev,
1929 				"Wrong cirrus,ts-dbnc-rise DT value %d\n",
1930 				val);
1931 			cs42l42->ts_dbnc_rise = CS42L42_TS_DBNCE_1000;
1932 		}
1933 	} else {
1934 		cs42l42->ts_dbnc_rise = CS42L42_TS_DBNCE_1000;
1935 	}
1936 
1937 	regmap_update_bits(cs42l42->regmap, CS42L42_TSENSE_CTL,
1938 			CS42L42_TS_RISE_DBNCE_TIME_MASK,
1939 			(cs42l42->ts_dbnc_rise <<
1940 			CS42L42_TS_RISE_DBNCE_TIME_SHIFT));
1941 
1942 	ret = device_property_read_u32(dev, "cirrus,ts-dbnc-fall", &val);
1943 	if (!ret) {
1944 		switch (val) {
1945 		case CS42L42_TS_DBNCE_0:
1946 		case CS42L42_TS_DBNCE_125:
1947 		case CS42L42_TS_DBNCE_250:
1948 		case CS42L42_TS_DBNCE_500:
1949 		case CS42L42_TS_DBNCE_750:
1950 		case CS42L42_TS_DBNCE_1000:
1951 		case CS42L42_TS_DBNCE_1250:
1952 		case CS42L42_TS_DBNCE_1500:
1953 			cs42l42->ts_dbnc_fall = val;
1954 			break;
1955 		default:
1956 			dev_err(dev,
1957 				"Wrong cirrus,ts-dbnc-fall DT value %d\n",
1958 				val);
1959 			cs42l42->ts_dbnc_fall = CS42L42_TS_DBNCE_0;
1960 		}
1961 	} else {
1962 		cs42l42->ts_dbnc_fall = CS42L42_TS_DBNCE_0;
1963 	}
1964 
1965 	regmap_update_bits(cs42l42->regmap, CS42L42_TSENSE_CTL,
1966 			CS42L42_TS_FALL_DBNCE_TIME_MASK,
1967 			(cs42l42->ts_dbnc_fall <<
1968 			CS42L42_TS_FALL_DBNCE_TIME_SHIFT));
1969 
1970 	ret = device_property_read_u32(dev, "cirrus,btn-det-init-dbnce", &val);
1971 	if (!ret) {
1972 		if (val <= CS42L42_BTN_DET_INIT_DBNCE_MAX)
1973 			cs42l42->btn_det_init_dbnce = val;
1974 		else {
1975 			dev_err(dev,
1976 				"Wrong cirrus,btn-det-init-dbnce DT value %d\n",
1977 				val);
1978 			cs42l42->btn_det_init_dbnce =
1979 				CS42L42_BTN_DET_INIT_DBNCE_DEFAULT;
1980 		}
1981 	} else {
1982 		cs42l42->btn_det_init_dbnce =
1983 			CS42L42_BTN_DET_INIT_DBNCE_DEFAULT;
1984 	}
1985 
1986 	ret = device_property_read_u32(dev, "cirrus,btn-det-event-dbnce", &val);
1987 	if (!ret) {
1988 		if (val <= CS42L42_BTN_DET_EVENT_DBNCE_MAX)
1989 			cs42l42->btn_det_event_dbnce = val;
1990 		else {
1991 			dev_err(dev,
1992 				"Wrong cirrus,btn-det-event-dbnce DT value %d\n", val);
1993 			cs42l42->btn_det_event_dbnce =
1994 				CS42L42_BTN_DET_EVENT_DBNCE_DEFAULT;
1995 		}
1996 	} else {
1997 		cs42l42->btn_det_event_dbnce =
1998 			CS42L42_BTN_DET_EVENT_DBNCE_DEFAULT;
1999 	}
2000 
2001 	ret = device_property_read_u32_array(dev, "cirrus,bias-lvls",
2002 					     thresholds, ARRAY_SIZE(thresholds));
2003 	if (!ret) {
2004 		for (i = 0; i < CS42L42_NUM_BIASES; i++) {
2005 			if (thresholds[i] <= CS42L42_HS_DET_LEVEL_MAX)
2006 				cs42l42->bias_thresholds[i] = thresholds[i];
2007 			else {
2008 				dev_err(dev,
2009 					"Wrong cirrus,bias-lvls[%d] DT value %d\n", i,
2010 					thresholds[i]);
2011 				cs42l42->bias_thresholds[i] = threshold_defaults[i];
2012 			}
2013 		}
2014 	} else {
2015 		for (i = 0; i < CS42L42_NUM_BIASES; i++)
2016 			cs42l42->bias_thresholds[i] = threshold_defaults[i];
2017 	}
2018 
2019 	ret = device_property_read_u32(dev, "cirrus,hs-bias-ramp-rate", &val);
2020 	if (!ret) {
2021 		switch (val) {
2022 		case CS42L42_HSBIAS_RAMP_FAST_RISE_SLOW_FALL:
2023 			cs42l42->hs_bias_ramp_rate = val;
2024 			cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME0;
2025 			break;
2026 		case CS42L42_HSBIAS_RAMP_FAST:
2027 			cs42l42->hs_bias_ramp_rate = val;
2028 			cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME1;
2029 			break;
2030 		case CS42L42_HSBIAS_RAMP_SLOW:
2031 			cs42l42->hs_bias_ramp_rate = val;
2032 			cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME2;
2033 			break;
2034 		case CS42L42_HSBIAS_RAMP_SLOWEST:
2035 			cs42l42->hs_bias_ramp_rate = val;
2036 			cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME3;
2037 			break;
2038 		default:
2039 			dev_err(dev,
2040 				"Wrong cirrus,hs-bias-ramp-rate DT value %d\n",
2041 				val);
2042 			cs42l42->hs_bias_ramp_rate = CS42L42_HSBIAS_RAMP_SLOW;
2043 			cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME2;
2044 		}
2045 	} else {
2046 		cs42l42->hs_bias_ramp_rate = CS42L42_HSBIAS_RAMP_SLOW;
2047 		cs42l42->hs_bias_ramp_time = CS42L42_HSBIAS_RAMP_TIME2;
2048 	}
2049 
2050 	regmap_update_bits(cs42l42->regmap, CS42L42_HS_BIAS_CTL,
2051 			CS42L42_HSBIAS_RAMP_MASK,
2052 			(cs42l42->hs_bias_ramp_rate <<
2053 			CS42L42_HSBIAS_RAMP_SHIFT));
2054 
2055 	if (device_property_read_bool(dev, "cirrus,hs-bias-sense-disable"))
2056 		cs42l42->hs_bias_sense_en = 0;
2057 	else
2058 		cs42l42->hs_bias_sense_en = 1;
2059 
2060 	return 0;
2061 }
2062 
2063 /* Datasheet suspend sequence */
2064 static const struct reg_sequence __maybe_unused cs42l42_shutdown_seq[] = {
2065 	REG_SEQ0(CS42L42_MIC_DET_CTL1,		0x9F),
2066 	REG_SEQ0(CS42L42_ADC_OVFL_INT_MASK,	0x01),
2067 	REG_SEQ0(CS42L42_MIXER_INT_MASK,	0x0F),
2068 	REG_SEQ0(CS42L42_SRC_INT_MASK,		0x0F),
2069 	REG_SEQ0(CS42L42_ASP_RX_INT_MASK,	0x1F),
2070 	REG_SEQ0(CS42L42_ASP_TX_INT_MASK,	0x0F),
2071 	REG_SEQ0(CS42L42_CODEC_INT_MASK,	0x03),
2072 	REG_SEQ0(CS42L42_SRCPL_INT_MASK,	0x7F),
2073 	REG_SEQ0(CS42L42_VPMON_INT_MASK,	0x01),
2074 	REG_SEQ0(CS42L42_PLL_LOCK_INT_MASK,	0x01),
2075 	REG_SEQ0(CS42L42_TSRS_PLUG_INT_MASK,	0x0F),
2076 	REG_SEQ0(CS42L42_WAKE_CTL,		0xE1),
2077 	REG_SEQ0(CS42L42_DET_INT1_MASK,		0xE0),
2078 	REG_SEQ0(CS42L42_DET_INT2_MASK,		0xFF),
2079 	REG_SEQ0(CS42L42_MIXER_CHA_VOL,		0x3F),
2080 	REG_SEQ0(CS42L42_MIXER_ADC_VOL,		0x3F),
2081 	REG_SEQ0(CS42L42_MIXER_CHB_VOL,		0x3F),
2082 	REG_SEQ0(CS42L42_HP_CTL,		0x0F),
2083 	REG_SEQ0(CS42L42_ASP_RX_DAI0_EN,	0x00),
2084 	REG_SEQ0(CS42L42_ASP_CLK_CFG,		0x00),
2085 	REG_SEQ0(CS42L42_HSDET_CTL2,		0x00),
2086 	REG_SEQ0(CS42L42_PWR_CTL1,		0xFE),
2087 	REG_SEQ0(CS42L42_PWR_CTL2,		0x8C),
2088 	REG_SEQ0(CS42L42_DAC_CTL2,		0x02),
2089 	REG_SEQ0(CS42L42_HS_CLAMP_DISABLE,	0x00),
2090 	REG_SEQ0(CS42L42_MISC_DET_CTL,		0x03),
2091 	REG_SEQ0(CS42L42_TIPSENSE_CTL,		0x02),
2092 	REG_SEQ0(CS42L42_HSBIAS_SC_AUTOCTL,	0x03),
2093 	REG_SEQ0(CS42L42_PWR_CTL1,		0xFF)
2094 };
2095 
2096 static int __maybe_unused cs42l42_suspend(struct device *dev)
2097 {
2098 	struct cs42l42_private *cs42l42 = dev_get_drvdata(dev);
2099 	unsigned int reg;
2100 	u8 save_regs[ARRAY_SIZE(cs42l42_shutdown_seq)];
2101 	int i, ret;
2102 
2103 	/*
2104 	 * Wait for threaded irq handler to be idle and stop it processing
2105 	 * future interrupts. This ensures a safe disable if the interrupt
2106 	 * is shared.
2107 	 */
2108 	mutex_lock(&cs42l42->irq_lock);
2109 	cs42l42->suspended = true;
2110 
2111 	/* Save register values that will be overwritten by shutdown sequence */
2112 	for (i = 0; i < ARRAY_SIZE(cs42l42_shutdown_seq); ++i) {
2113 		regmap_read(cs42l42->regmap, cs42l42_shutdown_seq[i].reg, &reg);
2114 		save_regs[i] = (u8)reg;
2115 	}
2116 
2117 	/* Shutdown codec */
2118 	regmap_multi_reg_write(cs42l42->regmap,
2119 			       cs42l42_shutdown_seq,
2120 			       ARRAY_SIZE(cs42l42_shutdown_seq));
2121 
2122 	/* All interrupt sources are now disabled */
2123 	mutex_unlock(&cs42l42->irq_lock);
2124 
2125 	/* Wait for power-down complete */
2126 	msleep(CS42L42_PDN_DONE_TIME_MS);
2127 	ret = regmap_read_poll_timeout(cs42l42->regmap,
2128 				       CS42L42_CODEC_STATUS, reg,
2129 				       (reg & CS42L42_PDN_DONE_MASK),
2130 				       CS42L42_PDN_DONE_POLL_US,
2131 				       CS42L42_PDN_DONE_TIMEOUT_US);
2132 	if (ret)
2133 		dev_warn(dev, "Failed to get PDN_DONE: %d\n", ret);
2134 
2135 	/* Discharge FILT+ */
2136 	regmap_update_bits(cs42l42->regmap, CS42L42_PWR_CTL2,
2137 			   CS42L42_DISCHARGE_FILT_MASK, CS42L42_DISCHARGE_FILT_MASK);
2138 	msleep(CS42L42_FILT_DISCHARGE_TIME_MS);
2139 
2140 	regcache_cache_only(cs42l42->regmap, true);
2141 	gpiod_set_value_cansleep(cs42l42->reset_gpio, 0);
2142 	regulator_bulk_disable(ARRAY_SIZE(cs42l42->supplies), cs42l42->supplies);
2143 
2144 	/* Restore register values to the regmap cache */
2145 	for (i = 0; i < ARRAY_SIZE(cs42l42_shutdown_seq); ++i)
2146 		regmap_write(cs42l42->regmap, cs42l42_shutdown_seq[i].reg, save_regs[i]);
2147 
2148 	/* The cached address page register value is now stale */
2149 	regcache_drop_region(cs42l42->regmap, CS42L42_PAGE_REGISTER, CS42L42_PAGE_REGISTER);
2150 
2151 	dev_dbg(dev, "System suspended\n");
2152 
2153 	return 0;
2154 
2155 }
2156 
2157 static int __maybe_unused cs42l42_resume(struct device *dev)
2158 {
2159 	struct cs42l42_private *cs42l42 = dev_get_drvdata(dev);
2160 	int ret;
2161 
2162 	/*
2163 	 * If jack was unplugged and re-plugged during suspend it could
2164 	 * have changed type but the tip-sense state hasn't changed.
2165 	 * Force a plugged state to be re-evaluated.
2166 	 */
2167 	if (cs42l42->plug_state != CS42L42_TS_UNPLUG)
2168 		cs42l42->plug_state = CS42L42_TS_TRANS;
2169 
2170 	ret = regulator_bulk_enable(ARRAY_SIZE(cs42l42->supplies), cs42l42->supplies);
2171 	if (ret != 0) {
2172 		dev_err(dev, "Failed to enable supplies: %d\n", ret);
2173 		return ret;
2174 	}
2175 
2176 	gpiod_set_value_cansleep(cs42l42->reset_gpio, 1);
2177 	usleep_range(CS42L42_BOOT_TIME_US, CS42L42_BOOT_TIME_US * 2);
2178 
2179 	regcache_cache_only(cs42l42->regmap, false);
2180 	regcache_mark_dirty(cs42l42->regmap);
2181 
2182 	mutex_lock(&cs42l42->irq_lock);
2183 	/* Sync LATCH_TO_VP first so the VP domain registers sync correctly */
2184 	regcache_sync_region(cs42l42->regmap, CS42L42_MIC_DET_CTL1, CS42L42_MIC_DET_CTL1);
2185 	regcache_sync(cs42l42->regmap);
2186 
2187 	cs42l42->suspended = false;
2188 	mutex_unlock(&cs42l42->irq_lock);
2189 
2190 	dev_dbg(dev, "System resumed\n");
2191 
2192 	return 0;
2193 }
2194 
2195 static int cs42l42_i2c_probe(struct i2c_client *i2c_client)
2196 {
2197 	struct cs42l42_private *cs42l42;
2198 	int ret, i, devid;
2199 	unsigned int reg;
2200 
2201 	cs42l42 = devm_kzalloc(&i2c_client->dev, sizeof(struct cs42l42_private),
2202 			       GFP_KERNEL);
2203 	if (!cs42l42)
2204 		return -ENOMEM;
2205 
2206 	cs42l42->dev = &i2c_client->dev;
2207 	i2c_set_clientdata(i2c_client, cs42l42);
2208 	mutex_init(&cs42l42->irq_lock);
2209 
2210 	cs42l42->regmap = devm_regmap_init_i2c(i2c_client, &cs42l42_regmap);
2211 	if (IS_ERR(cs42l42->regmap)) {
2212 		ret = PTR_ERR(cs42l42->regmap);
2213 		dev_err(&i2c_client->dev, "regmap_init() failed: %d\n", ret);
2214 		return ret;
2215 	}
2216 
2217 	for (i = 0; i < ARRAY_SIZE(cs42l42->supplies); i++)
2218 		cs42l42->supplies[i].supply = cs42l42_supply_names[i];
2219 
2220 	ret = devm_regulator_bulk_get(&i2c_client->dev,
2221 				      ARRAY_SIZE(cs42l42->supplies),
2222 				      cs42l42->supplies);
2223 	if (ret != 0) {
2224 		dev_err(&i2c_client->dev,
2225 			"Failed to request supplies: %d\n", ret);
2226 		return ret;
2227 	}
2228 
2229 	ret = regulator_bulk_enable(ARRAY_SIZE(cs42l42->supplies),
2230 				    cs42l42->supplies);
2231 	if (ret != 0) {
2232 		dev_err(&i2c_client->dev,
2233 			"Failed to enable supplies: %d\n", ret);
2234 		return ret;
2235 	}
2236 
2237 	/* Reset the Device */
2238 	cs42l42->reset_gpio = devm_gpiod_get_optional(&i2c_client->dev,
2239 		"reset", GPIOD_OUT_LOW);
2240 	if (IS_ERR(cs42l42->reset_gpio)) {
2241 		ret = PTR_ERR(cs42l42->reset_gpio);
2242 		goto err_disable_noreset;
2243 	}
2244 
2245 	if (cs42l42->reset_gpio) {
2246 		dev_dbg(&i2c_client->dev, "Found reset GPIO\n");
2247 		gpiod_set_value_cansleep(cs42l42->reset_gpio, 1);
2248 	}
2249 	usleep_range(CS42L42_BOOT_TIME_US, CS42L42_BOOT_TIME_US * 2);
2250 
2251 	/* Request IRQ if one was specified */
2252 	if (i2c_client->irq) {
2253 		ret = request_threaded_irq(i2c_client->irq,
2254 					   NULL, cs42l42_irq_thread,
2255 					   IRQF_ONESHOT | IRQF_TRIGGER_LOW,
2256 					   "cs42l42", cs42l42);
2257 		if (ret == -EPROBE_DEFER) {
2258 			goto err_disable_noirq;
2259 		} else if (ret != 0) {
2260 			dev_err(&i2c_client->dev,
2261 				"Failed to request IRQ: %d\n", ret);
2262 			goto err_disable_noirq;
2263 		}
2264 	}
2265 
2266 	/* initialize codec */
2267 	devid = cirrus_read_device_id(cs42l42->regmap, CS42L42_DEVID_AB);
2268 	if (devid < 0) {
2269 		ret = devid;
2270 		dev_err(&i2c_client->dev, "Failed to read device ID: %d\n", ret);
2271 		goto err_disable;
2272 	}
2273 
2274 	if (devid != CS42L42_CHIP_ID) {
2275 		ret = -ENODEV;
2276 		dev_err(&i2c_client->dev,
2277 			"CS42L42 Device ID (%X). Expected %X\n",
2278 			devid, CS42L42_CHIP_ID);
2279 		goto err_disable;
2280 	}
2281 
2282 	ret = regmap_read(cs42l42->regmap, CS42L42_REVID, &reg);
2283 	if (ret < 0) {
2284 		dev_err(&i2c_client->dev, "Get Revision ID failed\n");
2285 		goto err_shutdown;
2286 	}
2287 
2288 	dev_info(&i2c_client->dev,
2289 		 "Cirrus Logic CS42L42, Revision: %02X\n", reg & 0xFF);
2290 
2291 	/* Power up the codec */
2292 	regmap_update_bits(cs42l42->regmap, CS42L42_PWR_CTL1,
2293 			CS42L42_ASP_DAO_PDN_MASK |
2294 			CS42L42_ASP_DAI_PDN_MASK |
2295 			CS42L42_MIXER_PDN_MASK |
2296 			CS42L42_EQ_PDN_MASK |
2297 			CS42L42_HP_PDN_MASK |
2298 			CS42L42_ADC_PDN_MASK |
2299 			CS42L42_PDN_ALL_MASK,
2300 			(1 << CS42L42_ASP_DAO_PDN_SHIFT) |
2301 			(1 << CS42L42_ASP_DAI_PDN_SHIFT) |
2302 			(1 << CS42L42_MIXER_PDN_SHIFT) |
2303 			(1 << CS42L42_EQ_PDN_SHIFT) |
2304 			(1 << CS42L42_HP_PDN_SHIFT) |
2305 			(1 << CS42L42_ADC_PDN_SHIFT) |
2306 			(0 << CS42L42_PDN_ALL_SHIFT));
2307 
2308 	ret = cs42l42_handle_device_data(&i2c_client->dev, cs42l42);
2309 	if (ret != 0)
2310 		goto err_shutdown;
2311 
2312 	/* Setup headset detection */
2313 	cs42l42_setup_hs_type_detect(cs42l42);
2314 
2315 	/* Mask/Unmask Interrupts */
2316 	cs42l42_set_interrupt_masks(cs42l42);
2317 
2318 	/* Register codec for machine driver */
2319 	ret = devm_snd_soc_register_component(&i2c_client->dev,
2320 			&soc_component_dev_cs42l42, &cs42l42_dai, 1);
2321 	if (ret < 0)
2322 		goto err_shutdown;
2323 
2324 	return 0;
2325 
2326 err_shutdown:
2327 	regmap_write(cs42l42->regmap, CS42L42_CODEC_INT_MASK, 0xff);
2328 	regmap_write(cs42l42->regmap, CS42L42_TSRS_PLUG_INT_MASK, 0xff);
2329 	regmap_write(cs42l42->regmap, CS42L42_PWR_CTL1, 0xff);
2330 
2331 err_disable:
2332 	if (i2c_client->irq)
2333 		free_irq(i2c_client->irq, cs42l42);
2334 
2335 err_disable_noirq:
2336 	gpiod_set_value_cansleep(cs42l42->reset_gpio, 0);
2337 err_disable_noreset:
2338 	regulator_bulk_disable(ARRAY_SIZE(cs42l42->supplies),
2339 				cs42l42->supplies);
2340 	return ret;
2341 }
2342 
2343 static int cs42l42_i2c_remove(struct i2c_client *i2c_client)
2344 {
2345 	struct cs42l42_private *cs42l42 = i2c_get_clientdata(i2c_client);
2346 
2347 	if (i2c_client->irq)
2348 		free_irq(i2c_client->irq, cs42l42);
2349 
2350 	/*
2351 	 * The driver might not have control of reset and power supplies,
2352 	 * so ensure that the chip internals are powered down.
2353 	 */
2354 	regmap_write(cs42l42->regmap, CS42L42_CODEC_INT_MASK, 0xff);
2355 	regmap_write(cs42l42->regmap, CS42L42_TSRS_PLUG_INT_MASK, 0xff);
2356 	regmap_write(cs42l42->regmap, CS42L42_PWR_CTL1, 0xff);
2357 
2358 	gpiod_set_value_cansleep(cs42l42->reset_gpio, 0);
2359 	regulator_bulk_disable(ARRAY_SIZE(cs42l42->supplies), cs42l42->supplies);
2360 
2361 	return 0;
2362 }
2363 
2364 static const struct dev_pm_ops cs42l42_pm_ops = {
2365 	SET_SYSTEM_SLEEP_PM_OPS(cs42l42_suspend, cs42l42_resume)
2366 };
2367 
2368 #ifdef CONFIG_OF
2369 static const struct of_device_id cs42l42_of_match[] = {
2370 	{ .compatible = "cirrus,cs42l42", },
2371 	{}
2372 };
2373 MODULE_DEVICE_TABLE(of, cs42l42_of_match);
2374 #endif
2375 
2376 #ifdef CONFIG_ACPI
2377 static const struct acpi_device_id cs42l42_acpi_match[] = {
2378 	{"10134242", 0,},
2379 	{}
2380 };
2381 MODULE_DEVICE_TABLE(acpi, cs42l42_acpi_match);
2382 #endif
2383 
2384 static const struct i2c_device_id cs42l42_id[] = {
2385 	{"cs42l42", 0},
2386 	{}
2387 };
2388 
2389 MODULE_DEVICE_TABLE(i2c, cs42l42_id);
2390 
2391 static struct i2c_driver cs42l42_i2c_driver = {
2392 	.driver = {
2393 		.name = "cs42l42",
2394 		.pm = &cs42l42_pm_ops,
2395 		.of_match_table = of_match_ptr(cs42l42_of_match),
2396 		.acpi_match_table = ACPI_PTR(cs42l42_acpi_match),
2397 		},
2398 	.id_table = cs42l42_id,
2399 	.probe_new = cs42l42_i2c_probe,
2400 	.remove = cs42l42_i2c_remove,
2401 };
2402 
2403 module_i2c_driver(cs42l42_i2c_driver);
2404 
2405 MODULE_DESCRIPTION("ASoC CS42L42 driver");
2406 MODULE_AUTHOR("James Schulman, Cirrus Logic Inc, <james.schulman@cirrus.com>");
2407 MODULE_AUTHOR("Brian Austin, Cirrus Logic Inc, <brian.austin@cirrus.com>");
2408 MODULE_AUTHOR("Michael White, Cirrus Logic Inc, <michael.white@cirrus.com>");
2409 MODULE_AUTHOR("Lucas Tanure <tanureal@opensource.cirrus.com>");
2410 MODULE_AUTHOR("Richard Fitzgerald <rf@opensource.cirrus.com>");
2411 MODULE_AUTHOR("Vitaly Rodionov <vitalyr@opensource.cirrus.com>");
2412 MODULE_LICENSE("GPL");
2413