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 (format) { 3124 case SNDRV_PCM_FORMAT_S16_LE: 3125 width = FV_WL_16; 3126 break; 3127 case SNDRV_PCM_FORMAT_S20_3LE: 3128 width = FV_WL_20; 3129 break; 3130 case SNDRV_PCM_FORMAT_S24_3LE: 3131 width = FV_WL_24; 3132 break; 3133 case SNDRV_PCM_FORMAT_S24_LE: 3134 case SNDRV_PCM_FORMAT_S32_LE: 3135 width = FV_WL_32; 3136 break; 3137 default: 3138 ret = -EINVAL; 3139 dev_err(component->dev, "Unsupported format width (%d)\n", ret); 3140 return ret; 3141 } 3142 3143 switch (aif_id) { 3144 case TSCS454_DAI1_ID: 3145 reg = R_I2SP1CTL; 3146 break; 3147 case TSCS454_DAI2_ID: 3148 reg = R_I2SP2CTL; 3149 break; 3150 case TSCS454_DAI3_ID: 3151 reg = R_I2SP3CTL; 3152 break; 3153 default: 3154 ret = -EINVAL; 3155 dev_err(component->dev, "AIF ID not recognized (%d)\n", ret); 3156 return ret; 3157 } 3158 3159 ret = snd_soc_component_update_bits(component, 3160 reg, FM_I2SPCTL_WL, width); 3161 if (ret < 0) { 3162 dev_err(component->dev, 3163 "Failed to set sample width (%d)\n", ret); 3164 return ret; 3165 } 3166 3167 return 0; 3168 } 3169 3170 static int tscs454_hw_params(struct snd_pcm_substream *substream, 3171 struct snd_pcm_hw_params *params, 3172 struct snd_soc_dai *dai) 3173 { 3174 struct snd_soc_component *component = dai->component; 3175 struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component); 3176 unsigned int fs = params_rate(params); 3177 struct aif *aif = &tscs454->aifs[dai->id]; 3178 unsigned int val; 3179 int ret; 3180 3181 mutex_lock(&tscs454->aifs_status_lock); 3182 3183 dev_dbg(component->dev, "%s(): aif %d fs = %u\n", __func__, 3184 aif->id, fs); 3185 3186 if (!aif_active(&tscs454->aifs_status, aif->id)) { 3187 if (PLL_44_1K_RATE % fs) 3188 aif->pll = &tscs454->pll1; 3189 else 3190 aif->pll = &tscs454->pll2; 3191 3192 dev_dbg(component->dev, "Reserving pll %d for aif %d\n", 3193 aif->pll->id, aif->id); 3194 3195 reserve_pll(aif->pll); 3196 } 3197 3198 if (!aifs_active(&tscs454->aifs_status)) { /* First active aif */ 3199 val = snd_soc_component_read(component, R_ISRC); 3200 if ((val & FM_ISRC_IBR) == FV_IBR_48) 3201 tscs454->internal_rate.pll = &tscs454->pll1; 3202 else 3203 tscs454->internal_rate.pll = &tscs454->pll2; 3204 3205 dev_dbg(component->dev, "Reserving pll %d for ir\n", 3206 tscs454->internal_rate.pll->id); 3207 3208 reserve_pll(tscs454->internal_rate.pll); 3209 } 3210 3211 ret = set_aif_fs(component, aif->id, fs); 3212 if (ret < 0) { 3213 dev_err(component->dev, "Failed to set aif fs (%d)\n", ret); 3214 goto exit; 3215 } 3216 3217 ret = set_aif_sample_format(component, params_format(params), aif->id); 3218 if (ret < 0) { 3219 dev_err(component->dev, 3220 "Failed to set aif sample format (%d)\n", ret); 3221 goto exit; 3222 } 3223 3224 set_aif_status_active(&tscs454->aifs_status, aif->id, 3225 substream->stream == SNDRV_PCM_STREAM_PLAYBACK); 3226 3227 dev_dbg(component->dev, "Set aif %d active. Streams status is 0x%x\n", 3228 aif->id, tscs454->aifs_status.streams); 3229 3230 ret = 0; 3231 exit: 3232 mutex_unlock(&tscs454->aifs_status_lock); 3233 3234 return ret; 3235 } 3236 3237 static int tscs454_hw_free(struct snd_pcm_substream *substream, 3238 struct snd_soc_dai *dai) 3239 { 3240 struct snd_soc_component *component = dai->component; 3241 struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component); 3242 struct aif *aif = &tscs454->aifs[dai->id]; 3243 3244 return aif_free(component, aif, 3245 substream->stream == SNDRV_PCM_STREAM_PLAYBACK); 3246 } 3247 3248 static int tscs454_prepare(struct snd_pcm_substream *substream, 3249 struct snd_soc_dai *dai) 3250 { 3251 int ret; 3252 struct snd_soc_component *component = dai->component; 3253 struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component); 3254 struct aif *aif = &tscs454->aifs[dai->id]; 3255 3256 ret = aif_prepare(component, aif); 3257 if (ret < 0) 3258 return ret; 3259 3260 return 0; 3261 } 3262 3263 static struct snd_soc_dai_ops const tscs454_dai1_ops = { 3264 .set_sysclk = tscs454_set_sysclk, 3265 .set_bclk_ratio = tscs454_set_bclk_ratio, 3266 .set_fmt = tscs454_set_dai_fmt, 3267 .set_tdm_slot = tscs454_dai1_set_tdm_slot, 3268 .hw_params = tscs454_hw_params, 3269 .hw_free = tscs454_hw_free, 3270 .prepare = tscs454_prepare, 3271 }; 3272 3273 static struct snd_soc_dai_ops const tscs454_dai23_ops = { 3274 .set_sysclk = tscs454_set_sysclk, 3275 .set_bclk_ratio = tscs454_set_bclk_ratio, 3276 .set_fmt = tscs454_set_dai_fmt, 3277 .set_tdm_slot = tscs454_dai23_set_tdm_slot, 3278 .hw_params = tscs454_hw_params, 3279 .hw_free = tscs454_hw_free, 3280 .prepare = tscs454_prepare, 3281 }; 3282 3283 static int tscs454_probe(struct snd_soc_component *component) 3284 { 3285 struct tscs454 *tscs454 = snd_soc_component_get_drvdata(component); 3286 unsigned int val; 3287 int ret = 0; 3288 3289 switch (tscs454->sysclk_src_id) { 3290 case PLL_INPUT_XTAL: 3291 val = FV_PLLISEL_XTAL; 3292 break; 3293 case PLL_INPUT_MCLK1: 3294 val = FV_PLLISEL_MCLK1; 3295 break; 3296 case PLL_INPUT_MCLK2: 3297 val = FV_PLLISEL_MCLK2; 3298 break; 3299 case PLL_INPUT_BCLK: 3300 val = FV_PLLISEL_BCLK; 3301 break; 3302 default: 3303 ret = -EINVAL; 3304 dev_err(component->dev, "Invalid sysclk src id (%d)\n", ret); 3305 return ret; 3306 } 3307 3308 ret = snd_soc_component_update_bits(component, R_PLLCTL, 3309 FM_PLLCTL_PLLISEL, val); 3310 if (ret < 0) { 3311 dev_err(component->dev, "Failed to set PLL input (%d)\n", ret); 3312 return ret; 3313 } 3314 3315 if (tscs454->sysclk_src_id < PLL_INPUT_BCLK) 3316 ret = set_sysclk(component); 3317 3318 return ret; 3319 } 3320 3321 static const struct snd_soc_component_driver soc_component_dev_tscs454 = { 3322 .probe = tscs454_probe, 3323 .dapm_widgets = tscs454_dapm_widgets, 3324 .num_dapm_widgets = ARRAY_SIZE(tscs454_dapm_widgets), 3325 .dapm_routes = tscs454_intercon, 3326 .num_dapm_routes = ARRAY_SIZE(tscs454_intercon), 3327 .controls = tscs454_snd_controls, 3328 .num_controls = ARRAY_SIZE(tscs454_snd_controls), 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 const struct i2c_device_id *id) 3405 { 3406 struct tscs454 *tscs454; 3407 int src; 3408 int ret; 3409 3410 tscs454 = devm_kzalloc(&i2c->dev, sizeof(*tscs454), GFP_KERNEL); 3411 if (!tscs454) 3412 return -ENOMEM; 3413 3414 ret = tscs454_data_init(tscs454, i2c); 3415 if (ret < 0) 3416 return ret; 3417 3418 i2c_set_clientdata(i2c, tscs454); 3419 3420 for (src = PLL_INPUT_XTAL; src < PLL_INPUT_BCLK; src++) { 3421 tscs454->sysclk = devm_clk_get(&i2c->dev, src_names[src]); 3422 if (!IS_ERR(tscs454->sysclk)) { 3423 break; 3424 } else if (PTR_ERR(tscs454->sysclk) != -ENOENT) { 3425 ret = PTR_ERR(tscs454->sysclk); 3426 dev_err(&i2c->dev, "Failed to get sysclk (%d)\n", ret); 3427 return ret; 3428 } 3429 } 3430 dev_dbg(&i2c->dev, "PLL input is %s\n", src_names[src]); 3431 tscs454->sysclk_src_id = src; 3432 3433 ret = regmap_write(tscs454->regmap, 3434 R_RESET, FV_RESET_PWR_ON_DEFAULTS); 3435 if (ret < 0) { 3436 dev_err(&i2c->dev, "Failed to reset the component (%d)\n", ret); 3437 return ret; 3438 } 3439 regcache_mark_dirty(tscs454->regmap); 3440 3441 ret = regmap_register_patch(tscs454->regmap, tscs454_patch, 3442 ARRAY_SIZE(tscs454_patch)); 3443 if (ret < 0) { 3444 dev_err(&i2c->dev, "Failed to apply patch (%d)\n", ret); 3445 return ret; 3446 } 3447 /* Sync pg sel reg with cache */ 3448 regmap_write(tscs454->regmap, R_PAGESEL, 0x00); 3449 3450 ret = devm_snd_soc_register_component(&i2c->dev, &soc_component_dev_tscs454, 3451 tscs454_dais, ARRAY_SIZE(tscs454_dais)); 3452 if (ret) { 3453 dev_err(&i2c->dev, "Failed to register component (%d)\n", ret); 3454 return ret; 3455 } 3456 3457 return 0; 3458 } 3459 3460 static const struct i2c_device_id tscs454_i2c_id[] = { 3461 { "tscs454", 0 }, 3462 { } 3463 }; 3464 MODULE_DEVICE_TABLE(i2c, tscs454_i2c_id); 3465 3466 static const struct of_device_id tscs454_of_match[] = { 3467 { .compatible = "tempo,tscs454", }, 3468 { } 3469 }; 3470 MODULE_DEVICE_TABLE(of, tscs454_of_match); 3471 3472 static struct i2c_driver tscs454_i2c_driver = { 3473 .driver = { 3474 .name = "tscs454", 3475 .of_match_table = tscs454_of_match, 3476 }, 3477 .probe = tscs454_i2c_probe, 3478 .id_table = tscs454_i2c_id, 3479 }; 3480 3481 module_i2c_driver(tscs454_i2c_driver); 3482 3483 MODULE_AUTHOR("Tempo Semiconductor <steven.eckhoff.opensource@gmail.com"); 3484 MODULE_DESCRIPTION("ASoC TSCS454 driver"); 3485 MODULE_LICENSE("GPL v2"); 3486