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TOMOYO Linux Cross Reference
Linux/sound/pci/ice1712/quartet.c

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  1 // SPDX-License-Identifier: GPL-2.0-or-later
  2 /*
  3  *   ALSA driver for ICEnsemble VT1724 (Envy24HT)
  4  *
  5  *   Lowlevel functions for Infrasonic Quartet
  6  *
  7  *      Copyright (c) 2009 Pavel Hofman <pavel.hofman@ivitera.com>
  8  */
  9 
 10 #include <linux/delay.h>
 11 #include <linux/interrupt.h>
 12 #include <linux/init.h>
 13 #include <linux/slab.h>
 14 #include <linux/string.h>
 15 #include <sound/core.h>
 16 #include <sound/tlv.h>
 17 #include <sound/info.h>
 18 
 19 #include "ice1712.h"
 20 #include "envy24ht.h"
 21 #include <sound/ak4113.h>
 22 #include "quartet.h"
 23 
 24 struct qtet_spec {
 25         struct ak4113 *ak4113;
 26         unsigned int scr;       /* system control register */
 27         unsigned int mcr;       /* monitoring control register */
 28         unsigned int cpld;      /* cpld register */
 29 };
 30 
 31 struct qtet_kcontrol_private {
 32         unsigned int bit;
 33         void (*set_register)(struct snd_ice1712 *ice, unsigned int val);
 34         unsigned int (*get_register)(struct snd_ice1712 *ice);
 35         const char * const texts[2];
 36 };
 37 
 38 enum {
 39         IN12_SEL = 0,
 40         IN34_SEL,
 41         AIN34_SEL,
 42         COAX_OUT,
 43         IN12_MON12,
 44         IN12_MON34,
 45         IN34_MON12,
 46         IN34_MON34,
 47         OUT12_MON34,
 48         OUT34_MON12,
 49 };
 50 
 51 static const char * const ext_clock_names[3] = {"IEC958 In", "Word Clock 1xFS",
 52         "Word Clock 256xFS"};
 53 
 54 /* chip address on I2C bus */
 55 #define AK4113_ADDR             0x26    /* S/PDIF receiver */
 56 
 57 /* chip address on SPI bus */
 58 #define AK4620_ADDR             0x02    /* ADC/DAC */
 59 
 60 
 61 /*
 62  * GPIO pins
 63  */
 64 
 65 /* GPIO0 - O - DATA0, def. 0 */
 66 #define GPIO_D0                 (1<<0)
 67 /* GPIO1 - I/O - DATA1, Jack Detect Input0 (0:present, 1:missing), def. 1 */
 68 #define GPIO_D1_JACKDTC0        (1<<1)
 69 /* GPIO2 - I/O - DATA2, Jack Detect Input1 (0:present, 1:missing), def. 1 */
 70 #define GPIO_D2_JACKDTC1        (1<<2)
 71 /* GPIO3 - I/O - DATA3, def. 1 */
 72 #define GPIO_D3                 (1<<3)
 73 /* GPIO4 - I/O - DATA4, SPI CDTO, def. 1 */
 74 #define GPIO_D4_SPI_CDTO        (1<<4)
 75 /* GPIO5 - I/O - DATA5, SPI CCLK, def. 1 */
 76 #define GPIO_D5_SPI_CCLK        (1<<5)
 77 /* GPIO6 - I/O - DATA6, Cable Detect Input (0:detected, 1:not detected */
 78 #define GPIO_D6_CD              (1<<6)
 79 /* GPIO7 - I/O - DATA7, Device Detect Input (0:detected, 1:not detected */
 80 #define GPIO_D7_DD              (1<<7)
 81 /* GPIO8 - O - CPLD Chip Select, def. 1 */
 82 #define GPIO_CPLD_CSN           (1<<8)
 83 /* GPIO9 - O - CPLD register read/write (0:write, 1:read), def. 0 */
 84 #define GPIO_CPLD_RW            (1<<9)
 85 /* GPIO10 - O - SPI Chip Select for CODEC#0, def. 1 */
 86 #define GPIO_SPI_CSN0           (1<<10)
 87 /* GPIO11 - O - SPI Chip Select for CODEC#1, def. 1 */
 88 #define GPIO_SPI_CSN1           (1<<11)
 89 /* GPIO12 - O - Ex. Register Output Enable (0:enable, 1:disable), def. 1,
 90  * init 0 */
 91 #define GPIO_EX_GPIOE           (1<<12)
 92 /* GPIO13 - O - Ex. Register0 Chip Select for System Control Register,
 93  * def. 1 */
 94 #define GPIO_SCR                (1<<13)
 95 /* GPIO14 - O - Ex. Register1 Chip Select for Monitor Control Register,
 96  * def. 1 */
 97 #define GPIO_MCR                (1<<14)
 98 
 99 #define GPIO_SPI_ALL            (GPIO_D4_SPI_CDTO | GPIO_D5_SPI_CCLK |\
100                 GPIO_SPI_CSN0 | GPIO_SPI_CSN1)
101 
102 #define GPIO_DATA_MASK          (GPIO_D0 | GPIO_D1_JACKDTC0 | \
103                 GPIO_D2_JACKDTC1 | GPIO_D3 | \
104                 GPIO_D4_SPI_CDTO | GPIO_D5_SPI_CCLK | \
105                 GPIO_D6_CD | GPIO_D7_DD)
106 
107 /* System Control Register GPIO_SCR data bits */
108 /* Mic/Line select relay (0:line, 1:mic) */
109 #define SCR_RELAY               GPIO_D0
110 /* Phantom power drive control (0:5V, 1:48V) */
111 #define SCR_PHP_V               GPIO_D1_JACKDTC0
112 /* H/W mute control (0:Normal, 1:Mute) */
113 #define SCR_MUTE                GPIO_D2_JACKDTC1
114 /* Phantom power control (0:Phantom on, 1:off) */
115 #define SCR_PHP                 GPIO_D3
116 /* Analog input 1/2 Source Select */
117 #define SCR_AIN12_SEL0          GPIO_D4_SPI_CDTO
118 #define SCR_AIN12_SEL1          GPIO_D5_SPI_CCLK
119 /* Analog input 3/4 Source Select (0:line, 1:hi-z) */
120 #define SCR_AIN34_SEL           GPIO_D6_CD
121 /* Codec Power Down (0:power down, 1:normal) */
122 #define SCR_CODEC_PDN           GPIO_D7_DD
123 
124 #define SCR_AIN12_LINE          (0)
125 #define SCR_AIN12_MIC           (SCR_AIN12_SEL0)
126 #define SCR_AIN12_LOWCUT        (SCR_AIN12_SEL1 | SCR_AIN12_SEL0)
127 
128 /* Monitor Control Register GPIO_MCR data bits */
129 /* Input 1/2 to Monitor 1/2 (0:off, 1:on) */
130 #define MCR_IN12_MON12          GPIO_D0
131 /* Input 1/2 to Monitor 3/4 (0:off, 1:on) */
132 #define MCR_IN12_MON34          GPIO_D1_JACKDTC0
133 /* Input 3/4 to Monitor 1/2 (0:off, 1:on) */
134 #define MCR_IN34_MON12          GPIO_D2_JACKDTC1
135 /* Input 3/4 to Monitor 3/4 (0:off, 1:on) */
136 #define MCR_IN34_MON34          GPIO_D3
137 /* Output to Monitor 1/2 (0:off, 1:on) */
138 #define MCR_OUT34_MON12         GPIO_D4_SPI_CDTO
139 /* Output to Monitor 3/4 (0:off, 1:on) */
140 #define MCR_OUT12_MON34         GPIO_D5_SPI_CCLK
141 
142 /* CPLD Register DATA bits */
143 /* Clock Rate Select */
144 #define CPLD_CKS0               GPIO_D0
145 #define CPLD_CKS1               GPIO_D1_JACKDTC0
146 #define CPLD_CKS2               GPIO_D2_JACKDTC1
147 /* Sync Source Select (0:Internal, 1:External) */
148 #define CPLD_SYNC_SEL           GPIO_D3
149 /* Word Clock FS Select (0:FS, 1:256FS) */
150 #define CPLD_WORD_SEL           GPIO_D4_SPI_CDTO
151 /* Coaxial Output Source (IS-Link) (0:SPDIF, 1:I2S) */
152 #define CPLD_COAX_OUT           GPIO_D5_SPI_CCLK
153 /* Input 1/2 Source Select (0:Analog12, 1:An34) */
154 #define CPLD_IN12_SEL           GPIO_D6_CD
155 /* Input 3/4 Source Select (0:Analog34, 1:Digital In) */
156 #define CPLD_IN34_SEL           GPIO_D7_DD
157 
158 /* internal clock (CPLD_SYNC_SEL = 0) options */
159 #define CPLD_CKS_44100HZ        (0)
160 #define CPLD_CKS_48000HZ        (CPLD_CKS0)
161 #define CPLD_CKS_88200HZ        (CPLD_CKS1)
162 #define CPLD_CKS_96000HZ        (CPLD_CKS1 | CPLD_CKS0)
163 #define CPLD_CKS_176400HZ       (CPLD_CKS2)
164 #define CPLD_CKS_192000HZ       (CPLD_CKS2 | CPLD_CKS0)
165 
166 #define CPLD_CKS_MASK           (CPLD_CKS0 | CPLD_CKS1 | CPLD_CKS2)
167 
168 /* external clock (CPLD_SYNC_SEL = 1) options */
169 /* external clock - SPDIF */
170 #define CPLD_EXT_SPDIF  (0 | CPLD_SYNC_SEL)
171 /* external clock - WordClock 1xfs */
172 #define CPLD_EXT_WORDCLOCK_1FS  (CPLD_CKS1 | CPLD_SYNC_SEL)
173 /* external clock - WordClock 256xfs */
174 #define CPLD_EXT_WORDCLOCK_256FS        (CPLD_CKS1 | CPLD_WORD_SEL |\
175                 CPLD_SYNC_SEL)
176 
177 #define EXT_SPDIF_TYPE                  0
178 #define EXT_WORDCLOCK_1FS_TYPE          1
179 #define EXT_WORDCLOCK_256FS_TYPE        2
180 
181 #define AK4620_DFS0             (1<<0)
182 #define AK4620_DFS1             (1<<1)
183 #define AK4620_CKS0             (1<<2)
184 #define AK4620_CKS1             (1<<3)
185 /* Clock and Format Control register */
186 #define AK4620_DFS_REG          0x02
187 
188 /* Deem and Volume Control register */
189 #define AK4620_DEEMVOL_REG      0x03
190 #define AK4620_SMUTE            (1<<7)
191 
192 /*
193  * Conversion from int value to its binary form. Used for debugging.
194  * The output buffer must be allocated prior to calling the function.
195  */
196 static char *get_binary(char *buffer, int value)
197 {
198         int i, j, pos;
199         pos = 0;
200         for (i = 0; i < 4; ++i) {
201                 for (j = 0; j < 8; ++j) {
202                         if (value & (1 << (31-(i*8 + j))))
203                                 buffer[pos] = '1';
204                         else
205                                 buffer[pos] = '';
206                         pos++;
207                 }
208                 if (i < 3) {
209                         buffer[pos] = ' ';
210                         pos++;
211                 }
212         }
213         buffer[pos] = '\0';
214         return buffer;
215 }
216 
217 /*
218  * Initial setup of the conversion array GPIO <-> rate
219  */
220 static const unsigned int qtet_rates[] = {
221         44100, 48000, 88200,
222         96000, 176400, 192000,
223 };
224 
225 static const unsigned int cks_vals[] = {
226         CPLD_CKS_44100HZ, CPLD_CKS_48000HZ, CPLD_CKS_88200HZ,
227         CPLD_CKS_96000HZ, CPLD_CKS_176400HZ, CPLD_CKS_192000HZ,
228 };
229 
230 static const struct snd_pcm_hw_constraint_list qtet_rates_info = {
231         .count = ARRAY_SIZE(qtet_rates),
232         .list = qtet_rates,
233         .mask = 0,
234 };
235 
236 static void qtet_ak4113_write(void *private_data, unsigned char reg,
237                 unsigned char val)
238 {
239         snd_vt1724_write_i2c((struct snd_ice1712 *)private_data, AK4113_ADDR,
240                         reg, val);
241 }
242 
243 static unsigned char qtet_ak4113_read(void *private_data, unsigned char reg)
244 {
245         return snd_vt1724_read_i2c((struct snd_ice1712 *)private_data,
246                         AK4113_ADDR, reg);
247 }
248 
249 
250 /*
251  * AK4620 section
252  */
253 
254 /*
255  * Write data to addr register of ak4620
256  */
257 static void qtet_akm_write(struct snd_akm4xxx *ak, int chip,
258                 unsigned char addr, unsigned char data)
259 {
260         unsigned int tmp, orig_dir;
261         int idx;
262         unsigned int addrdata;
263         struct snd_ice1712 *ice = ak->private_data[0];
264 
265         if (snd_BUG_ON(chip < 0 || chip >= 4))
266                 return;
267         /*dev_dbg(ice->card->dev, "Writing to AK4620: chip=%d, addr=0x%x,
268           data=0x%x\n", chip, addr, data);*/
269         orig_dir = ice->gpio.get_dir(ice);
270         ice->gpio.set_dir(ice, orig_dir | GPIO_SPI_ALL);
271         /* set mask - only SPI bits */
272         ice->gpio.set_mask(ice, ~GPIO_SPI_ALL);
273 
274         tmp = ice->gpio.get_data(ice);
275         /* high all */
276         tmp |= GPIO_SPI_ALL;
277         ice->gpio.set_data(ice, tmp);
278         udelay(100);
279         /* drop chip select */
280         if (chip)
281                 /* CODEC 1 */
282                 tmp &= ~GPIO_SPI_CSN1;
283         else
284                 tmp &= ~GPIO_SPI_CSN0;
285         ice->gpio.set_data(ice, tmp);
286         udelay(100);
287 
288         /* build I2C address + data byte */
289         addrdata = (AK4620_ADDR << 6) | 0x20 | (addr & 0x1f);
290         addrdata = (addrdata << 8) | data;
291         for (idx = 15; idx >= 0; idx--) {
292                 /* drop clock */
293                 tmp &= ~GPIO_D5_SPI_CCLK;
294                 ice->gpio.set_data(ice, tmp);
295                 udelay(100);
296                 /* set data */
297                 if (addrdata & (1 << idx))
298                         tmp |= GPIO_D4_SPI_CDTO;
299                 else
300                         tmp &= ~GPIO_D4_SPI_CDTO;
301                 ice->gpio.set_data(ice, tmp);
302                 udelay(100);
303                 /* raise clock */
304                 tmp |= GPIO_D5_SPI_CCLK;
305                 ice->gpio.set_data(ice, tmp);
306                 udelay(100);
307         }
308         /* all back to 1 */
309         tmp |= GPIO_SPI_ALL;
310         ice->gpio.set_data(ice, tmp);
311         udelay(100);
312 
313         /* return all gpios to non-writable */
314         ice->gpio.set_mask(ice, 0xffffff);
315         /* restore GPIOs direction */
316         ice->gpio.set_dir(ice, orig_dir);
317 }
318 
319 static void qtet_akm_set_regs(struct snd_akm4xxx *ak, unsigned char addr,
320                 unsigned char mask, unsigned char value)
321 {
322         unsigned char tmp;
323         int chip;
324         for (chip = 0; chip < ak->num_chips; chip++) {
325                 tmp = snd_akm4xxx_get(ak, chip, addr);
326                 /* clear the bits */
327                 tmp &= ~mask;
328                 /* set the new bits */
329                 tmp |= value;
330                 snd_akm4xxx_write(ak, chip, addr, tmp);
331         }
332 }
333 
334 /*
335  * change the rate of AK4620
336  */
337 static void qtet_akm_set_rate_val(struct snd_akm4xxx *ak, unsigned int rate)
338 {
339         unsigned char ak4620_dfs;
340 
341         if (rate == 0)  /* no hint - S/PDIF input is master or the new spdif
342                            input rate undetected, simply return */
343                 return;
344 
345         /* adjust DFS on codecs - see datasheet */
346         if (rate > 108000)
347                 ak4620_dfs = AK4620_DFS1 | AK4620_CKS1;
348         else if (rate > 54000)
349                 ak4620_dfs = AK4620_DFS0 | AK4620_CKS0;
350         else
351                 ak4620_dfs = 0;
352 
353         /* set new value */
354         qtet_akm_set_regs(ak, AK4620_DFS_REG, AK4620_DFS0 | AK4620_DFS1 |
355                         AK4620_CKS0 | AK4620_CKS1, ak4620_dfs);
356 }
357 
358 #define AK_CONTROL(xname, xch)  { .name = xname, .num_channels = xch }
359 
360 #define PCM_12_PLAYBACK_VOLUME  "PCM 1/2 Playback Volume"
361 #define PCM_34_PLAYBACK_VOLUME  "PCM 3/4 Playback Volume"
362 #define PCM_12_CAPTURE_VOLUME   "PCM 1/2 Capture Volume"
363 #define PCM_34_CAPTURE_VOLUME   "PCM 3/4 Capture Volume"
364 
365 static const struct snd_akm4xxx_dac_channel qtet_dac[] = {
366         AK_CONTROL(PCM_12_PLAYBACK_VOLUME, 2),
367         AK_CONTROL(PCM_34_PLAYBACK_VOLUME, 2),
368 };
369 
370 static const struct snd_akm4xxx_adc_channel qtet_adc[] = {
371         AK_CONTROL(PCM_12_CAPTURE_VOLUME, 2),
372         AK_CONTROL(PCM_34_CAPTURE_VOLUME, 2),
373 };
374 
375 static const struct snd_akm4xxx akm_qtet_dac = {
376         .type = SND_AK4620,
377         .num_dacs = 4,  /* DAC1 - Output 12
378         */
379         .num_adcs = 4,  /* ADC1 - Input 12
380         */
381         .ops = {
382                 .write = qtet_akm_write,
383                 .set_rate_val = qtet_akm_set_rate_val,
384         },
385         .dac_info = qtet_dac,
386         .adc_info = qtet_adc,
387 };
388 
389 /* Communication routines with the CPLD */
390 
391 
392 /* Writes data to external register reg, both reg and data are
393  * GPIO representations */
394 static void reg_write(struct snd_ice1712 *ice, unsigned int reg,
395                 unsigned int data)
396 {
397         unsigned int tmp;
398 
399         mutex_lock(&ice->gpio_mutex);
400         /* set direction of used GPIOs*/
401         /* all outputs */
402         tmp = 0x00ffff;
403         ice->gpio.set_dir(ice, tmp);
404         /* mask - writable bits */
405         ice->gpio.set_mask(ice, ~(tmp));
406         /* write the data */
407         tmp = ice->gpio.get_data(ice);
408         tmp &= ~GPIO_DATA_MASK;
409         tmp |= data;
410         ice->gpio.set_data(ice, tmp);
411         udelay(100);
412         /* drop output enable */
413         tmp &=  ~GPIO_EX_GPIOE;
414         ice->gpio.set_data(ice, tmp);
415         udelay(100);
416         /* drop the register gpio */
417         tmp &= ~reg;
418         ice->gpio.set_data(ice, tmp);
419         udelay(100);
420         /* raise the register GPIO */
421         tmp |= reg;
422         ice->gpio.set_data(ice, tmp);
423         udelay(100);
424 
425         /* raise all data gpios */
426         tmp |= GPIO_DATA_MASK;
427         ice->gpio.set_data(ice, tmp);
428         /* mask - immutable bits */
429         ice->gpio.set_mask(ice, 0xffffff);
430         /* outputs only 8-15 */
431         ice->gpio.set_dir(ice, 0x00ff00);
432         mutex_unlock(&ice->gpio_mutex);
433 }
434 
435 static unsigned int get_scr(struct snd_ice1712 *ice)
436 {
437         struct qtet_spec *spec = ice->spec;
438         return spec->scr;
439 }
440 
441 static unsigned int get_mcr(struct snd_ice1712 *ice)
442 {
443         struct qtet_spec *spec = ice->spec;
444         return spec->mcr;
445 }
446 
447 static unsigned int get_cpld(struct snd_ice1712 *ice)
448 {
449         struct qtet_spec *spec = ice->spec;
450         return spec->cpld;
451 }
452 
453 static void set_scr(struct snd_ice1712 *ice, unsigned int val)
454 {
455         struct qtet_spec *spec = ice->spec;
456         reg_write(ice, GPIO_SCR, val);
457         spec->scr = val;
458 }
459 
460 static void set_mcr(struct snd_ice1712 *ice, unsigned int val)
461 {
462         struct qtet_spec *spec = ice->spec;
463         reg_write(ice, GPIO_MCR, val);
464         spec->mcr = val;
465 }
466 
467 static void set_cpld(struct snd_ice1712 *ice, unsigned int val)
468 {
469         struct qtet_spec *spec = ice->spec;
470         reg_write(ice, GPIO_CPLD_CSN, val);
471         spec->cpld = val;
472 }
473 
474 static void proc_regs_read(struct snd_info_entry *entry,
475                 struct snd_info_buffer *buffer)
476 {
477         struct snd_ice1712 *ice = entry->private_data;
478         char bin_buffer[36];
479 
480         snd_iprintf(buffer, "SCR:       %s\n", get_binary(bin_buffer,
481                                 get_scr(ice)));
482         snd_iprintf(buffer, "MCR:       %s\n", get_binary(bin_buffer,
483                                 get_mcr(ice)));
484         snd_iprintf(buffer, "CPLD:      %s\n", get_binary(bin_buffer,
485                                 get_cpld(ice)));
486 }
487 
488 static void proc_init(struct snd_ice1712 *ice)
489 {
490         snd_card_ro_proc_new(ice->card, "quartet", ice, proc_regs_read);
491 }
492 
493 static int qtet_mute_get(struct snd_kcontrol *kcontrol,
494                 struct snd_ctl_elem_value *ucontrol)
495 {
496         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
497         unsigned int val;
498         val = get_scr(ice) & SCR_MUTE;
499         ucontrol->value.integer.value[0] = (val) ? 0 : 1;
500         return 0;
501 }
502 
503 static int qtet_mute_put(struct snd_kcontrol *kcontrol,
504                 struct snd_ctl_elem_value *ucontrol)
505 {
506         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
507         unsigned int old, new, smute;
508         old = get_scr(ice) & SCR_MUTE;
509         if (ucontrol->value.integer.value[0]) {
510                 /* unmute */
511                 new = 0;
512                 /* un-smuting DAC */
513                 smute = 0;
514         } else {
515                 /* mute */
516                 new = SCR_MUTE;
517                 /* smuting DAC */
518                 smute = AK4620_SMUTE;
519         }
520         if (old != new) {
521                 struct snd_akm4xxx *ak = ice->akm;
522                 set_scr(ice, (get_scr(ice) & ~SCR_MUTE) | new);
523                 /* set smute */
524                 qtet_akm_set_regs(ak, AK4620_DEEMVOL_REG, AK4620_SMUTE, smute);
525                 return 1;
526         }
527         /* no change */
528         return 0;
529 }
530 
531 static int qtet_ain12_enum_info(struct snd_kcontrol *kcontrol,
532                 struct snd_ctl_elem_info *uinfo)
533 {
534         static const char * const texts[3] =
535                 {"Line In 1/2", "Mic", "Mic + Low-cut"};
536         return snd_ctl_enum_info(uinfo, 1, ARRAY_SIZE(texts), texts);
537 }
538 
539 static int qtet_ain12_sw_get(struct snd_kcontrol *kcontrol,
540                 struct snd_ctl_elem_value *ucontrol)
541 {
542         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
543         unsigned int val, result;
544         val = get_scr(ice) & (SCR_AIN12_SEL1 | SCR_AIN12_SEL0);
545         switch (val) {
546         case SCR_AIN12_LINE:
547                 result = 0;
548                 break;
549         case SCR_AIN12_MIC:
550                 result = 1;
551                 break;
552         case SCR_AIN12_LOWCUT:
553                 result = 2;
554                 break;
555         default:
556                 /* BUG - no other combinations allowed */
557                 snd_BUG();
558                 result = 0;
559         }
560         ucontrol->value.integer.value[0] = result;
561         return 0;
562 }
563 
564 static int qtet_ain12_sw_put(struct snd_kcontrol *kcontrol,
565                 struct snd_ctl_elem_value *ucontrol)
566 {
567         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
568         unsigned int old, new, tmp, masked_old;
569         old = get_scr(ice);
570         masked_old = old & (SCR_AIN12_SEL1 | SCR_AIN12_SEL0);
571         tmp = ucontrol->value.integer.value[0];
572         if (tmp == 2)
573                 tmp = 3;        /* binary 10 is not supported */
574         tmp <<= 4;      /* shifting to SCR_AIN12_SEL0 */
575         if (tmp != masked_old) {
576                 /* change requested */
577                 switch (tmp) {
578                 case SCR_AIN12_LINE:
579                         new = old & ~(SCR_AIN12_SEL1 | SCR_AIN12_SEL0);
580                         set_scr(ice, new);
581                         /* turn off relay */
582                         new &= ~SCR_RELAY;
583                         set_scr(ice, new);
584                         break;
585                 case SCR_AIN12_MIC:
586                         /* turn on relay */
587                         new = old | SCR_RELAY;
588                         set_scr(ice, new);
589                         new = (new & ~SCR_AIN12_SEL1) | SCR_AIN12_SEL0;
590                         set_scr(ice, new);
591                         break;
592                 case SCR_AIN12_LOWCUT:
593                         /* turn on relay */
594                         new = old | SCR_RELAY;
595                         set_scr(ice, new);
596                         new |= SCR_AIN12_SEL1 | SCR_AIN12_SEL0;
597                         set_scr(ice, new);
598                         break;
599                 default:
600                         snd_BUG();
601                 }
602                 return 1;
603         }
604         /* no change */
605         return 0;
606 }
607 
608 static int qtet_php_get(struct snd_kcontrol *kcontrol,
609                 struct snd_ctl_elem_value *ucontrol)
610 {
611         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
612         unsigned int val;
613         /* if phantom voltage =48V, phantom on */
614         val = get_scr(ice) & SCR_PHP_V;
615         ucontrol->value.integer.value[0] = val ? 1 : 0;
616         return 0;
617 }
618 
619 static int qtet_php_put(struct snd_kcontrol *kcontrol,
620                 struct snd_ctl_elem_value *ucontrol)
621 {
622         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
623         unsigned int old, new;
624         old = new = get_scr(ice);
625         if (ucontrol->value.integer.value[0] /* phantom on requested */
626                         && (~old & SCR_PHP_V)) /* 0 = voltage 5V */ {
627                 /* is off, turn on */
628                 /* turn voltage on first, = 1 */
629                 new = old | SCR_PHP_V;
630                 set_scr(ice, new);
631                 /* turn phantom on, = 0 */
632                 new &= ~SCR_PHP;
633                 set_scr(ice, new);
634         } else if (!ucontrol->value.integer.value[0] && (old & SCR_PHP_V)) {
635                 /* phantom off requested and 1 = voltage 48V */
636                 /* is on, turn off */
637                 /* turn voltage off first, = 0 */
638                 new = old & ~SCR_PHP_V;
639                 set_scr(ice, new);
640                 /* turn phantom off, = 1 */
641                 new |= SCR_PHP;
642                 set_scr(ice, new);
643         }
644         if (old != new)
645                 return 1;
646         /* no change */
647         return 0;
648 }
649 
650 #define PRIV_SW(xid, xbit, xreg)        [xid] = {.bit = xbit,\
651         .set_register = set_##xreg,\
652         .get_register = get_##xreg, }
653 
654 
655 #define PRIV_ENUM2(xid, xbit, xreg, xtext1, xtext2)     [xid] = {.bit = xbit,\
656         .set_register = set_##xreg,\
657         .get_register = get_##xreg,\
658         .texts = {xtext1, xtext2} }
659 
660 static const struct qtet_kcontrol_private qtet_privates[] = {
661         PRIV_ENUM2(IN12_SEL, CPLD_IN12_SEL, cpld, "An In 1/2", "An In 3/4"),
662         PRIV_ENUM2(IN34_SEL, CPLD_IN34_SEL, cpld, "An In 3/4", "IEC958 In"),
663         PRIV_ENUM2(AIN34_SEL, SCR_AIN34_SEL, scr, "Line In 3/4", "Hi-Z"),
664         PRIV_ENUM2(COAX_OUT, CPLD_COAX_OUT, cpld, "IEC958", "I2S"),
665         PRIV_SW(IN12_MON12, MCR_IN12_MON12, mcr),
666         PRIV_SW(IN12_MON34, MCR_IN12_MON34, mcr),
667         PRIV_SW(IN34_MON12, MCR_IN34_MON12, mcr),
668         PRIV_SW(IN34_MON34, MCR_IN34_MON34, mcr),
669         PRIV_SW(OUT12_MON34, MCR_OUT12_MON34, mcr),
670         PRIV_SW(OUT34_MON12, MCR_OUT34_MON12, mcr),
671 };
672 
673 static int qtet_enum_info(struct snd_kcontrol *kcontrol,
674                 struct snd_ctl_elem_info *uinfo)
675 {
676         struct qtet_kcontrol_private private =
677                 qtet_privates[kcontrol->private_value];
678         return snd_ctl_enum_info(uinfo, 1, ARRAY_SIZE(private.texts),
679                                  private.texts);
680 }
681 
682 static int qtet_sw_get(struct snd_kcontrol *kcontrol,
683                 struct snd_ctl_elem_value *ucontrol)
684 {
685         struct qtet_kcontrol_private private =
686                 qtet_privates[kcontrol->private_value];
687         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
688         ucontrol->value.integer.value[0] =
689                 (private.get_register(ice) & private.bit) ? 1 : 0;
690         return 0;
691 }
692 
693 static int qtet_sw_put(struct snd_kcontrol *kcontrol,
694                 struct snd_ctl_elem_value *ucontrol)
695 {
696         struct qtet_kcontrol_private private =
697                 qtet_privates[kcontrol->private_value];
698         struct snd_ice1712 *ice = snd_kcontrol_chip(kcontrol);
699         unsigned int old, new;
700         old = private.get_register(ice);
701         if (ucontrol->value.integer.value[0])
702                 new = old | private.bit;
703         else
704                 new = old & ~private.bit;
705         if (old != new) {
706                 private.set_register(ice, new);
707                 return 1;
708         }
709         /* no change */
710         return 0;
711 }
712 
713 #define qtet_sw_info    snd_ctl_boolean_mono_info
714 
715 #define QTET_CONTROL(xname, xtype, xpriv)       \
716         {.iface = SNDRV_CTL_ELEM_IFACE_MIXER,\
717         .name = xname,\
718         .info = qtet_##xtype##_info,\
719         .get = qtet_sw_get,\
720         .put = qtet_sw_put,\
721         .private_value = xpriv }
722 
723 static const struct snd_kcontrol_new qtet_controls[] = {
724         {
725                 .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
726                 .name = "Master Playback Switch",
727                 .info = qtet_sw_info,
728                 .get = qtet_mute_get,
729                 .put = qtet_mute_put,
730                 .private_value = 0
731         },
732         {
733                 .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
734                 .name = "Phantom Power",
735                 .info = qtet_sw_info,
736                 .get = qtet_php_get,
737                 .put = qtet_php_put,
738                 .private_value = 0
739         },
740         {
741                 .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
742                 .name = "Analog In 1/2 Capture Switch",
743                 .info = qtet_ain12_enum_info,
744                 .get = qtet_ain12_sw_get,
745                 .put = qtet_ain12_sw_put,
746                 .private_value = 0
747         },
748         QTET_CONTROL("Analog In 3/4 Capture Switch", enum, AIN34_SEL),
749         QTET_CONTROL("PCM In 1/2 Capture Switch", enum, IN12_SEL),
750         QTET_CONTROL("PCM In 3/4 Capture Switch", enum, IN34_SEL),
751         QTET_CONTROL("Coax Output Source", enum, COAX_OUT),
752         QTET_CONTROL("Analog In 1/2 to Monitor 1/2", sw, IN12_MON12),
753         QTET_CONTROL("Analog In 1/2 to Monitor 3/4", sw, IN12_MON34),
754         QTET_CONTROL("Analog In 3/4 to Monitor 1/2", sw, IN34_MON12),
755         QTET_CONTROL("Analog In 3/4 to Monitor 3/4", sw, IN34_MON34),
756         QTET_CONTROL("Output 1/2 to Monitor 3/4", sw, OUT12_MON34),
757         QTET_CONTROL("Output 3/4 to Monitor 1/2", sw, OUT34_MON12),
758 };
759 
760 static const char * const follower_vols[] = {
761         PCM_12_PLAYBACK_VOLUME,
762         PCM_34_PLAYBACK_VOLUME,
763         NULL
764 };
765 
766 static
767 DECLARE_TLV_DB_SCALE(qtet_master_db_scale, -6350, 50, 1);
768 
769 static int qtet_add_controls(struct snd_ice1712 *ice)
770 {
771         struct qtet_spec *spec = ice->spec;
772         int err, i;
773         struct snd_kcontrol *vmaster;
774         err = snd_ice1712_akm4xxx_build_controls(ice);
775         if (err < 0)
776                 return err;
777         for (i = 0; i < ARRAY_SIZE(qtet_controls); i++) {
778                 err = snd_ctl_add(ice->card,
779                                 snd_ctl_new1(&qtet_controls[i], ice));
780                 if (err < 0)
781                         return err;
782         }
783 
784         /* Create virtual master control */
785         vmaster = snd_ctl_make_virtual_master("Master Playback Volume",
786                         qtet_master_db_scale);
787         if (!vmaster)
788                 return -ENOMEM;
789         err = snd_ctl_add(ice->card, vmaster);
790         if (err < 0)
791                 return err;
792         err = snd_ctl_add_followers(ice->card, vmaster, follower_vols);
793         if (err < 0)
794                 return err;
795         /* only capture SPDIF over AK4113 */
796         return snd_ak4113_build(spec->ak4113,
797                         ice->pcm->streams[SNDRV_PCM_STREAM_CAPTURE].substream);
798 }
799 
800 static inline int qtet_is_spdif_master(struct snd_ice1712 *ice)
801 {
802         /* CPLD_SYNC_SEL: 0 = internal, 1 = external (i.e. spdif master) */
803         return (get_cpld(ice) & CPLD_SYNC_SEL) ? 1 : 0;
804 }
805 
806 static unsigned int qtet_get_rate(struct snd_ice1712 *ice)
807 {
808         int i;
809         unsigned char result;
810 
811         result =  get_cpld(ice) & CPLD_CKS_MASK;
812         for (i = 0; i < ARRAY_SIZE(cks_vals); i++)
813                 if (cks_vals[i] == result)
814                         return qtet_rates[i];
815         return 0;
816 }
817 
818 static int get_cks_val(int rate)
819 {
820         int i;
821         for (i = 0; i < ARRAY_SIZE(qtet_rates); i++)
822                 if (qtet_rates[i] == rate)
823                         return cks_vals[i];
824         return 0;
825 }
826 
827 /* setting new rate */
828 static void qtet_set_rate(struct snd_ice1712 *ice, unsigned int rate)
829 {
830         unsigned int new;
831         unsigned char val;
832         /* switching ice1724 to external clock - supplied by ext. circuits */
833         val = inb(ICEMT1724(ice, RATE));
834         outb(val | VT1724_SPDIF_MASTER, ICEMT1724(ice, RATE));
835 
836         new =  (get_cpld(ice) & ~CPLD_CKS_MASK) | get_cks_val(rate);
837         /* switch to internal clock, drop CPLD_SYNC_SEL */
838         new &= ~CPLD_SYNC_SEL;
839         /* dev_dbg(ice->card->dev, "QT - set_rate: old %x, new %x\n",
840            get_cpld(ice), new); */
841         set_cpld(ice, new);
842 }
843 
844 static inline unsigned char qtet_set_mclk(struct snd_ice1712 *ice,
845                 unsigned int rate)
846 {
847         /* no change in master clock */
848         return 0;
849 }
850 
851 /* setting clock to external - SPDIF */
852 static int qtet_set_spdif_clock(struct snd_ice1712 *ice, int type)
853 {
854         unsigned int old, new;
855 
856         old = new = get_cpld(ice);
857         new &= ~(CPLD_CKS_MASK | CPLD_WORD_SEL);
858         switch (type) {
859         case EXT_SPDIF_TYPE:
860                 new |= CPLD_EXT_SPDIF;
861                 break;
862         case EXT_WORDCLOCK_1FS_TYPE:
863                 new |= CPLD_EXT_WORDCLOCK_1FS;
864                 break;
865         case EXT_WORDCLOCK_256FS_TYPE:
866                 new |= CPLD_EXT_WORDCLOCK_256FS;
867                 break;
868         default:
869                 snd_BUG();
870         }
871         if (old != new) {
872                 set_cpld(ice, new);
873                 /* changed */
874                 return 1;
875         }
876         return 0;
877 }
878 
879 static int qtet_get_spdif_master_type(struct snd_ice1712 *ice)
880 {
881         unsigned int val;
882         int result;
883         val = get_cpld(ice);
884         /* checking only rate/clock-related bits */
885         val &= (CPLD_CKS_MASK | CPLD_WORD_SEL | CPLD_SYNC_SEL);
886         if (!(val & CPLD_SYNC_SEL)) {
887                 /* switched to internal clock, is not any external type */
888                 result = -1;
889         } else {
890                 switch (val) {
891                 case (CPLD_EXT_SPDIF):
892                         result = EXT_SPDIF_TYPE;
893                         break;
894                 case (CPLD_EXT_WORDCLOCK_1FS):
895                         result = EXT_WORDCLOCK_1FS_TYPE;
896                         break;
897                 case (CPLD_EXT_WORDCLOCK_256FS):
898                         result = EXT_WORDCLOCK_256FS_TYPE;
899                         break;
900                 default:
901                         /* undefined combination of external clock setup */
902                         snd_BUG();
903                         result = 0;
904                 }
905         }
906         return result;
907 }
908 
909 /* Called when ak4113 detects change in the input SPDIF stream */
910 static void qtet_ak4113_change(struct ak4113 *ak4113, unsigned char c0,
911                 unsigned char c1)
912 {
913         struct snd_ice1712 *ice = ak4113->change_callback_private;
914         int rate;
915         if ((qtet_get_spdif_master_type(ice) == EXT_SPDIF_TYPE) &&
916                         c1) {
917                 /* only for SPDIF master mode, rate was changed */
918                 rate = snd_ak4113_external_rate(ak4113);
919                 /* dev_dbg(ice->card->dev, "ak4113 - input rate changed to %d\n",
920                    rate); */
921                 qtet_akm_set_rate_val(ice->akm, rate);
922         }
923 }
924 
925 /*
926  * If clock slaved to SPDIF-IN, setting runtime rate
927  * to the detected external rate
928  */
929 static void qtet_spdif_in_open(struct snd_ice1712 *ice,
930                 struct snd_pcm_substream *substream)
931 {
932         struct qtet_spec *spec = ice->spec;
933         struct snd_pcm_runtime *runtime = substream->runtime;
934         int rate;
935 
936         if (qtet_get_spdif_master_type(ice) != EXT_SPDIF_TYPE)
937                 /* not external SPDIF, no rate limitation */
938                 return;
939         /* only external SPDIF can detect incoming sample rate */
940         rate = snd_ak4113_external_rate(spec->ak4113);
941         if (rate >= runtime->hw.rate_min && rate <= runtime->hw.rate_max) {
942                 runtime->hw.rate_min = rate;
943                 runtime->hw.rate_max = rate;
944         }
945 }
946 
947 /*
948  * initialize the chip
949  */
950 static int qtet_init(struct snd_ice1712 *ice)
951 {
952         static const unsigned char ak4113_init_vals[] = {
953                 /* AK4113_REG_PWRDN */  AK4113_RST | AK4113_PWN |
954                         AK4113_OCKS0 | AK4113_OCKS1,
955                 /* AK4113_REQ_FORMAT */ AK4113_DIF_I24I2S | AK4113_VTX |
956                         AK4113_DEM_OFF | AK4113_DEAU,
957                 /* AK4113_REG_IO0 */    AK4113_OPS2 | AK4113_TXE |
958                         AK4113_XTL_24_576M,
959                 /* AK4113_REG_IO1 */    AK4113_EFH_1024LRCLK | AK4113_IPS(0),
960                 /* AK4113_REG_INT0_MASK */      0,
961                 /* AK4113_REG_INT1_MASK */      0,
962                 /* AK4113_REG_DATDTS */         0,
963         };
964         int err;
965         struct qtet_spec *spec;
966         struct snd_akm4xxx *ak;
967         unsigned char val;
968 
969         /* switching ice1724 to external clock - supplied by ext. circuits */
970         val = inb(ICEMT1724(ice, RATE));
971         outb(val | VT1724_SPDIF_MASTER, ICEMT1724(ice, RATE));
972 
973         spec = kzalloc(sizeof(*spec), GFP_KERNEL);
974         if (!spec)
975                 return -ENOMEM;
976         /* qtet is clocked by Xilinx array */
977         ice->hw_rates = &qtet_rates_info;
978         ice->is_spdif_master = qtet_is_spdif_master;
979         ice->get_rate = qtet_get_rate;
980         ice->set_rate = qtet_set_rate;
981         ice->set_mclk = qtet_set_mclk;
982         ice->set_spdif_clock = qtet_set_spdif_clock;
983         ice->get_spdif_master_type = qtet_get_spdif_master_type;
984         ice->ext_clock_names = ext_clock_names;
985         ice->ext_clock_count = ARRAY_SIZE(ext_clock_names);
986         /* since Qtet can detect correct SPDIF-in rate, all streams can be
987          * limited to this specific rate */
988         ice->spdif.ops.open = ice->pro_open = qtet_spdif_in_open;
989         ice->spec = spec;
990 
991         /* Mute Off */
992         /* SCR Initialize*/
993         /* keep codec power down first */
994         set_scr(ice, SCR_PHP);
995         udelay(1);
996         /* codec power up */
997         set_scr(ice, SCR_PHP | SCR_CODEC_PDN);
998 
999         /* MCR Initialize */
1000         set_mcr(ice, 0);
1001 
1002         /* CPLD Initialize */
1003         set_cpld(ice, 0);
1004 
1005 
1006         ice->num_total_dacs = 2;
1007         ice->num_total_adcs = 2;
1008 
1009         ice->akm = kcalloc(2, sizeof(struct snd_akm4xxx), GFP_KERNEL);
1010         ak = ice->akm;
1011         if (!ak)
1012                 return -ENOMEM;
1013         /* only one codec with two chips */
1014         ice->akm_codecs = 1;
1015         err = snd_ice1712_akm4xxx_init(ak, &akm_qtet_dac, NULL, ice);
1016         if (err < 0)
1017                 return err;
1018         err = snd_ak4113_create(ice->card,
1019                         qtet_ak4113_read,
1020                         qtet_ak4113_write,
1021                         ak4113_init_vals,
1022                         ice, &spec->ak4113);
1023         if (err < 0)
1024                 return err;
1025         /* callback for codecs rate setting */
1026         spec->ak4113->change_callback = qtet_ak4113_change;
1027         spec->ak4113->change_callback_private = ice;
1028         /* AK41143 in Quartet can detect external rate correctly
1029          * (i.e. check_flags = 0) */
1030         spec->ak4113->check_flags = 0;
1031 
1032         proc_init(ice);
1033 
1034         qtet_set_rate(ice, 44100);
1035         return 0;
1036 }
1037 
1038 static const unsigned char qtet_eeprom[] = {
1039         [ICE_EEP2_SYSCONF]     = 0x28,  /* clock 256(24MHz), mpu401, 1xADC,
1040                                            1xDACs, SPDIF in */
1041         [ICE_EEP2_ACLINK]      = 0x80,  /* I2S */
1042         [ICE_EEP2_I2S]         = 0x78,  /* 96k, 24bit, 192k */
1043         [ICE_EEP2_SPDIF]       = 0xc3,  /* out-en, out-int, in, out-ext */
1044         [ICE_EEP2_GPIO_DIR]    = 0x00,  /* 0-7 inputs, switched to output
1045                                            only during output operations */
1046         [ICE_EEP2_GPIO_DIR1]   = 0xff,  /* 8-15 outputs */
1047         [ICE_EEP2_GPIO_DIR2]   = 0x00,
1048         [ICE_EEP2_GPIO_MASK]   = 0xff,  /* changed only for OUT operations */
1049         [ICE_EEP2_GPIO_MASK1]  = 0x00,
1050         [ICE_EEP2_GPIO_MASK2]  = 0xff,
1051 
1052         [ICE_EEP2_GPIO_STATE]  = 0x00, /* inputs */
1053         [ICE_EEP2_GPIO_STATE1] = 0x7d, /* all 1, but GPIO_CPLD_RW
1054                                           and GPIO15 always zero */
1055         [ICE_EEP2_GPIO_STATE2] = 0x00, /* inputs */
1056 };
1057 
1058 /* entry point */
1059 struct snd_ice1712_card_info snd_vt1724_qtet_cards[] = {
1060         {
1061                 .subvendor = VT1724_SUBDEVICE_QTET,
1062                 .name = "Infrasonic Quartet",
1063                 .model = "quartet",
1064                 .chip_init = qtet_init,
1065                 .build_controls = qtet_add_controls,
1066                 .eeprom_size = sizeof(qtet_eeprom),
1067                 .eeprom_data = qtet_eeprom,
1068         },
1069         { } /* terminator */
1070 };
1071 

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