4 * Copyright (c) 2006 Openedhand Ltd.
5 * Written by Andrzej Zaborowski <balrog@zabor.org>
7 * This file is licensed under GNU GPL.
12 #include "audio/audio.h"
17 #define CODEC "wm8750"
25 SWVoiceIn
*adc_voice
[IN_PORT_N
];
26 SWVoiceOut
*dac_voice
[OUT_PORT_N
];
28 void (*data_req
)(void *, int, int);
30 uint8_t data_in
[4096];
31 uint8_t data_out
[4096];
36 uint8_t outvol
[7], outmute
[2];
38 uint8_t invol
[4], inmute
[2];
40 uint8_t diff
[2], pol
, ds
, monomix
[2], alc
, mute
;
41 uint8_t path
[4], mpath
[2], power
, format
;
42 const struct wm_rate_s
*rate
;
43 int adc_hz
, dac_hz
, ext_adc_hz
, ext_dac_hz
, master
;
46 /* pow(10.0, -i / 20.0) * 255, i = 0..42 */
47 static const uint8_t wm8750_vol_db_table
[] = {
48 255, 227, 203, 181, 161, 143, 128, 114, 102, 90, 81, 72, 64, 57, 51, 45,
49 40, 36, 32, 29, 26, 23, 20, 18, 16, 14, 13, 11, 10, 9, 8, 7, 6, 6, 5, 5,
53 #define WM8750_OUTVOL_TRANSFORM(x) wm8750_vol_db_table[(0x7f - x) / 3]
54 #define WM8750_INVOL_TRANSFORM(x) (x << 2)
56 static inline void wm8750_in_load(struct wm8750_s
*s
)
59 if (s
->idx_in
+ s
->req_in
<= sizeof(s
->data_in
))
61 s
->idx_in
= audio_MAX(0, (int) sizeof(s
->data_in
) - s
->req_in
);
62 acquired
= AUD_read(*s
->in
[0], s
->data_in
+ s
->idx_in
,
63 sizeof(s
->data_in
) - s
->idx_in
);
66 static inline void wm8750_out_flush(struct wm8750_s
*s
)
69 while (sent
< s
->idx_out
)
70 sent
+= AUD_write(*s
->out
[0], s
->data_out
+ sent
, s
->idx_out
- sent
)
75 static void wm8750_audio_in_cb(void *opaque
, int avail_b
)
77 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
79 s
->data_req(s
->opaque
, s
->req_out
>> 2, avail_b
>> 2);
82 static void wm8750_audio_out_cb(void *opaque
, int free_b
)
84 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
86 if (s
->idx_out
>= free_b
) {
91 s
->req_out
= free_b
- s
->idx_out
;
93 s
->data_req(s
->opaque
, s
->req_out
>> 2, s
->req_in
>> 2);
103 static const struct wm_rate_s wm_rate_table
[] = {
104 { 256, 48000, 256, 48000 }, /* SR: 00000 */
105 { 384, 48000, 384, 48000 }, /* SR: 00001 */
106 { 256, 48000, 1536, 8000 }, /* SR: 00010 */
107 { 384, 48000, 2304, 8000 }, /* SR: 00011 */
108 { 1536, 8000, 256, 48000 }, /* SR: 00100 */
109 { 2304, 8000, 384, 48000 }, /* SR: 00101 */
110 { 1536, 8000, 1536, 8000 }, /* SR: 00110 */
111 { 2304, 8000, 2304, 8000 }, /* SR: 00111 */
112 { 1024, 12000, 1024, 12000 }, /* SR: 01000 */
113 { 1526, 12000, 1536, 12000 }, /* SR: 01001 */
114 { 768, 16000, 768, 16000 }, /* SR: 01010 */
115 { 1152, 16000, 1152, 16000 }, /* SR: 01011 */
116 { 384, 32000, 384, 32000 }, /* SR: 01100 */
117 { 576, 32000, 576, 32000 }, /* SR: 01101 */
118 { 128, 96000, 128, 96000 }, /* SR: 01110 */
119 { 192, 96000, 192, 96000 }, /* SR: 01111 */
120 { 256, 44100, 256, 44100 }, /* SR: 10000 */
121 { 384, 44100, 384, 44100 }, /* SR: 10001 */
122 { 256, 44100, 1408, 8018 }, /* SR: 10010 */
123 { 384, 44100, 2112, 8018 }, /* SR: 10011 */
124 { 1408, 8018, 256, 44100 }, /* SR: 10100 */
125 { 2112, 8018, 384, 44100 }, /* SR: 10101 */
126 { 1408, 8018, 1408, 8018 }, /* SR: 10110 */
127 { 2112, 8018, 2112, 8018 }, /* SR: 10111 */
128 { 1024, 11025, 1024, 11025 }, /* SR: 11000 */
129 { 1536, 11025, 1536, 11025 }, /* SR: 11001 */
130 { 512, 22050, 512, 22050 }, /* SR: 11010 */
131 { 768, 22050, 768, 22050 }, /* SR: 11011 */
132 { 512, 24000, 512, 24000 }, /* SR: 11100 */
133 { 768, 24000, 768, 24000 }, /* SR: 11101 */
134 { 128, 88200, 128, 88200 }, /* SR: 11110 */
135 { 192, 88200, 192, 88200 }, /* SR: 11111 */
138 static void wm8750_vol_update(struct wm8750_s
*s
)
140 /* FIXME: multiply all volumes by s->invol[2], s->invol[3] */
142 AUD_set_volume_in(s
->adc_voice
[0], s
->mute
,
143 s
->inmute
[0] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[0]),
144 s
->inmute
[1] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[1]));
145 AUD_set_volume_in(s
->adc_voice
[1], s
->mute
,
146 s
->inmute
[0] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[0]),
147 s
->inmute
[1] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[1]));
148 AUD_set_volume_in(s
->adc_voice
[2], s
->mute
,
149 s
->inmute
[0] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[0]),
150 s
->inmute
[1] ? 0 : WM8750_INVOL_TRANSFORM(s
->invol
[1]));
152 /* FIXME: multiply all volumes by s->outvol[0], s->outvol[1] */
154 /* Speaker: LOUT2VOL ROUT2VOL */
155 AUD_set_volume_out(s
->dac_voice
[0], s
->mute
,
156 s
->outmute
[0] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[4]),
157 s
->outmute
[1] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[5]));
159 /* Headphone: LOUT1VOL ROUT1VOL */
160 AUD_set_volume_out(s
->dac_voice
[1], s
->mute
,
161 s
->outmute
[0] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[2]),
162 s
->outmute
[1] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[3]));
164 /* MONOOUT: MONOVOL MONOVOL */
165 AUD_set_volume_out(s
->dac_voice
[2], s
->mute
,
166 s
->outmute
[0] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[6]),
167 s
->outmute
[1] ? 0 : WM8750_OUTVOL_TRANSFORM(s
->outvol
[6]));
170 static void wm8750_set_format(struct wm8750_s
*s
)
173 audsettings_t in_fmt
;
174 audsettings_t out_fmt
;
175 audsettings_t monoout_fmt
;
179 if (s
->in
[0] && *s
->in
[0])
180 AUD_set_active_in(*s
->in
[0], 0);
181 if (s
->out
[0] && *s
->out
[0])
182 AUD_set_active_out(*s
->out
[0], 0);
184 for (i
= 0; i
< IN_PORT_N
; i
++)
185 if (s
->adc_voice
[i
]) {
186 AUD_close_in(&s
->card
, s
->adc_voice
[i
]);
189 for (i
= 0; i
< OUT_PORT_N
; i
++)
190 if (s
->dac_voice
[i
]) {
191 AUD_close_out(&s
->card
, s
->dac_voice
[i
]);
199 in_fmt
.endianness
= 0;
200 in_fmt
.nchannels
= 2;
201 in_fmt
.freq
= s
->adc_hz
;
202 in_fmt
.fmt
= AUD_FMT_S16
;
204 s
->adc_voice
[0] = AUD_open_in(&s
->card
, s
->adc_voice
[0],
205 CODEC
".input1", s
, wm8750_audio_in_cb
, &in_fmt
);
206 s
->adc_voice
[1] = AUD_open_in(&s
->card
, s
->adc_voice
[1],
207 CODEC
".input2", s
, wm8750_audio_in_cb
, &in_fmt
);
208 s
->adc_voice
[2] = AUD_open_in(&s
->card
, s
->adc_voice
[2],
209 CODEC
".input3", s
, wm8750_audio_in_cb
, &in_fmt
);
212 out_fmt
.endianness
= 0;
213 out_fmt
.nchannels
= 2;
214 out_fmt
.freq
= s
->dac_hz
;
215 out_fmt
.fmt
= AUD_FMT_S16
;
216 monoout_fmt
.endianness
= 0;
217 monoout_fmt
.nchannels
= 1;
218 monoout_fmt
.freq
= s
->rate
->dac_hz
;
219 monoout_fmt
.fmt
= AUD_FMT_S16
;
221 s
->dac_voice
[0] = AUD_open_out(&s
->card
, s
->dac_voice
[0],
222 CODEC
".speaker", s
, wm8750_audio_out_cb
, &out_fmt
);
223 s
->dac_voice
[1] = AUD_open_out(&s
->card
, s
->dac_voice
[1],
224 CODEC
".headphone", s
, wm8750_audio_out_cb
, &out_fmt
);
225 /* MONOMIX is also in stereo for simplicity */
226 s
->dac_voice
[2] = AUD_open_out(&s
->card
, s
->dac_voice
[2],
227 CODEC
".monomix", s
, wm8750_audio_out_cb
, &out_fmt
);
228 /* no sense emulating OUT3 which is a mix of other outputs */
230 wm8750_vol_update(s
);
232 /* We should connect the left and right channels to their
233 * respective inputs/outputs but we have completely no need
234 * for mixing or combining paths to different ports, so we
235 * connect both channels to where the left channel is routed. */
236 if (s
->in
[0] && *s
->in
[0])
237 AUD_set_active_in(*s
->in
[0], 1);
238 if (s
->out
[0] && *s
->out
[0])
239 AUD_set_active_out(*s
->out
[0], 1);
242 static void wm8750_clk_update(struct wm8750_s
*s
, int ext
)
244 if (s
->master
|| !s
->ext_dac_hz
)
245 s
->dac_hz
= s
->rate
->dac_hz
;
247 s
->dac_hz
= s
->ext_dac_hz
;
249 if (s
->master
|| !s
->ext_adc_hz
)
250 s
->adc_hz
= s
->rate
->adc_hz
;
252 s
->adc_hz
= s
->ext_adc_hz
;
254 if (s
->master
|| (!s
->ext_dac_hz
&& !s
->ext_adc_hz
)) {
256 wm8750_set_format(s
);
259 wm8750_set_format(s
);
263 void wm8750_reset(i2c_slave
*i2c
)
265 struct wm8750_s
*s
= (struct wm8750_s
*) i2c
;
266 s
->rate
= &wm_rate_table
[0];
268 wm8750_clk_update(s
, 1);
273 s
->in
[0] = &s
->adc_voice
[0];
278 s
->out
[0] = &s
->dac_voice
[0];
298 s
->idx_in
= sizeof(s
->data_in
);
302 wm8750_vol_update(s
);
306 static void wm8750_event(i2c_slave
*i2c
, enum i2c_event event
)
308 struct wm8750_s
*s
= (struct wm8750_s
*) i2c
;
317 printf("%s: message too short (%i bytes)\n",
318 __FUNCTION__
, s
->i2c_len
);
326 #define WM8750_LINVOL 0x00
327 #define WM8750_RINVOL 0x01
328 #define WM8750_LOUT1V 0x02
329 #define WM8750_ROUT1V 0x03
330 #define WM8750_ADCDAC 0x05
331 #define WM8750_IFACE 0x07
332 #define WM8750_SRATE 0x08
333 #define WM8750_LDAC 0x0a
334 #define WM8750_RDAC 0x0b
335 #define WM8750_BASS 0x0c
336 #define WM8750_TREBLE 0x0d
337 #define WM8750_RESET 0x0f
338 #define WM8750_3D 0x10
339 #define WM8750_ALC1 0x11
340 #define WM8750_ALC2 0x12
341 #define WM8750_ALC3 0x13
342 #define WM8750_NGATE 0x14
343 #define WM8750_LADC 0x15
344 #define WM8750_RADC 0x16
345 #define WM8750_ADCTL1 0x17
346 #define WM8750_ADCTL2 0x18
347 #define WM8750_PWR1 0x19
348 #define WM8750_PWR2 0x1a
349 #define WM8750_ADCTL3 0x1b
350 #define WM8750_ADCIN 0x1f
351 #define WM8750_LADCIN 0x20
352 #define WM8750_RADCIN 0x21
353 #define WM8750_LOUTM1 0x22
354 #define WM8750_LOUTM2 0x23
355 #define WM8750_ROUTM1 0x24
356 #define WM8750_ROUTM2 0x25
357 #define WM8750_MOUTM1 0x26
358 #define WM8750_MOUTM2 0x27
359 #define WM8750_LOUT2V 0x28
360 #define WM8750_ROUT2V 0x29
361 #define WM8750_MOUTV 0x2a
363 static int wm8750_tx(i2c_slave
*i2c
, uint8_t data
)
365 struct wm8750_s
*s
= (struct wm8750_s
*) i2c
;
369 if (s
->i2c_len
>= 2) {
370 printf("%s: long message (%i bytes)\n", __FUNCTION__
, s
->i2c_len
);
375 s
->i2c_data
[s
->i2c_len
++] = data
;
379 cmd
= s
->i2c_data
[0] >> 1;
380 value
= ((s
->i2c_data
[0] << 8) | s
->i2c_data
[1]) & 0x1ff;
383 case WM8750_LADCIN
: /* ADC Signal Path Control (Left) */
384 s
->diff
[0] = (((value
>> 6) & 3) == 3); /* LINSEL */
386 s
->in
[0] = &s
->adc_voice
[0 + s
->ds
* 1];
388 s
->in
[0] = &s
->adc_voice
[((value
>> 6) & 3) * 1 + 0];
391 case WM8750_RADCIN
: /* ADC Signal Path Control (Right) */
392 s
->diff
[1] = (((value
>> 6) & 3) == 3); /* RINSEL */
394 s
->in
[1] = &s
->adc_voice
[0 + s
->ds
* 1];
396 s
->in
[1] = &s
->adc_voice
[((value
>> 6) & 3) * 1 + 0];
399 case WM8750_ADCIN
: /* ADC Input Mode */
400 s
->ds
= (value
>> 8) & 1; /* DS */
402 s
->in
[0] = &s
->adc_voice
[0 + s
->ds
* 1];
404 s
->in
[1] = &s
->adc_voice
[0 + s
->ds
* 1];
405 s
->monomix
[0] = (value
>> 6) & 3; /* MONOMIX */
408 case WM8750_ADCTL1
: /* Additional Control (1) */
409 s
->monomix
[1] = (value
>> 1) & 1; /* DMONOMIX */
412 case WM8750_PWR1
: /* Power Management (1) */
413 s
->enable
= ((value
>> 6) & 7) == 3; /* VMIDSEL, VREF */
414 wm8750_set_format(s
);
417 case WM8750_LINVOL
: /* Left Channel PGA */
418 s
->invol
[0] = value
& 0x3f; /* LINVOL */
419 s
->inmute
[0] = (value
>> 7) & 1; /* LINMUTE */
420 wm8750_vol_update(s
);
423 case WM8750_RINVOL
: /* Right Channel PGA */
424 s
->invol
[1] = value
& 0x3f; /* RINVOL */
425 s
->inmute
[1] = (value
>> 7) & 1; /* RINMUTE */
426 wm8750_vol_update(s
);
429 case WM8750_ADCDAC
: /* ADC and DAC Control */
430 s
->pol
= (value
>> 5) & 3; /* ADCPOL */
431 s
->mute
= (value
>> 3) & 1; /* DACMU */
432 wm8750_vol_update(s
);
435 case WM8750_ADCTL3
: /* Additional Control (3) */
438 case WM8750_LADC
: /* Left ADC Digital Volume */
439 s
->invol
[2] = value
& 0xff; /* LADCVOL */
440 wm8750_vol_update(s
);
443 case WM8750_RADC
: /* Right ADC Digital Volume */
444 s
->invol
[3] = value
& 0xff; /* RADCVOL */
445 wm8750_vol_update(s
);
448 case WM8750_ALC1
: /* ALC Control (1) */
449 s
->alc
= (value
>> 7) & 3; /* ALCSEL */
452 case WM8750_NGATE
: /* Noise Gate Control */
453 case WM8750_3D
: /* 3D enhance */
456 case WM8750_LDAC
: /* Left Channel Digital Volume */
457 s
->outvol
[0] = value
& 0xff; /* LDACVOL */
458 wm8750_vol_update(s
);
461 case WM8750_RDAC
: /* Right Channel Digital Volume */
462 s
->outvol
[1] = value
& 0xff; /* RDACVOL */
463 wm8750_vol_update(s
);
466 case WM8750_BASS
: /* Bass Control */
469 case WM8750_LOUTM1
: /* Left Mixer Control (1) */
470 s
->path
[0] = (value
>> 8) & 1; /* LD2LO */
471 /* TODO: mute/unmute respective paths */
472 wm8750_vol_update(s
);
475 case WM8750_LOUTM2
: /* Left Mixer Control (2) */
476 s
->path
[1] = (value
>> 8) & 1; /* RD2LO */
477 /* TODO: mute/unmute respective paths */
478 wm8750_vol_update(s
);
481 case WM8750_ROUTM1
: /* Right Mixer Control (1) */
482 s
->path
[2] = (value
>> 8) & 1; /* LD2RO */
483 /* TODO: mute/unmute respective paths */
484 wm8750_vol_update(s
);
487 case WM8750_ROUTM2
: /* Right Mixer Control (2) */
488 s
->path
[3] = (value
>> 8) & 1; /* RD2RO */
489 /* TODO: mute/unmute respective paths */
490 wm8750_vol_update(s
);
493 case WM8750_MOUTM1
: /* Mono Mixer Control (1) */
494 s
->mpath
[0] = (value
>> 8) & 1; /* LD2MO */
495 /* TODO: mute/unmute respective paths */
496 wm8750_vol_update(s
);
499 case WM8750_MOUTM2
: /* Mono Mixer Control (2) */
500 s
->mpath
[1] = (value
>> 8) & 1; /* RD2MO */
501 /* TODO: mute/unmute respective paths */
502 wm8750_vol_update(s
);
505 case WM8750_LOUT1V
: /* LOUT1 Volume */
506 s
->outvol
[2] = value
& 0x7f; /* LOUT1VOL */
507 wm8750_vol_update(s
);
510 case WM8750_LOUT2V
: /* LOUT2 Volume */
511 s
->outvol
[4] = value
& 0x7f; /* LOUT2VOL */
512 wm8750_vol_update(s
);
515 case WM8750_ROUT1V
: /* ROUT1 Volume */
516 s
->outvol
[3] = value
& 0x7f; /* ROUT1VOL */
517 wm8750_vol_update(s
);
520 case WM8750_ROUT2V
: /* ROUT2 Volume */
521 s
->outvol
[5] = value
& 0x7f; /* ROUT2VOL */
522 wm8750_vol_update(s
);
525 case WM8750_MOUTV
: /* MONOOUT Volume */
526 s
->outvol
[6] = value
& 0x7f; /* MONOOUTVOL */
527 wm8750_vol_update(s
);
530 case WM8750_ADCTL2
: /* Additional Control (2) */
533 case WM8750_PWR2
: /* Power Management (2) */
534 s
->power
= value
& 0x7e;
535 /* TODO: mute/unmute respective paths */
536 wm8750_vol_update(s
);
539 case WM8750_IFACE
: /* Digital Audio Interface Format */
541 s
->master
= (value
>> 6) & 1; /* MS */
542 wm8750_clk_update(s
, s
->master
);
545 case WM8750_SRATE
: /* Clocking and Sample Rate Control */
546 s
->rate
= &wm_rate_table
[(value
>> 1) & 0x1f];
547 wm8750_clk_update(s
, 0);
550 case WM8750_RESET
: /* Reset */
551 wm8750_reset(&s
->i2c
);
556 printf("%s: unknown register %02x\n", __FUNCTION__
, cmd
);
563 static int wm8750_rx(i2c_slave
*i2c
)
568 static void wm8750_save(QEMUFile
*f
, void *opaque
)
570 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
572 qemu_put_8s(f
, &s
->i2c_data
[0]);
573 qemu_put_8s(f
, &s
->i2c_data
[1]);
574 qemu_put_be32(f
, s
->i2c_len
);
575 qemu_put_be32(f
, s
->enable
);
576 qemu_put_be32(f
, s
->idx_in
);
577 qemu_put_be32(f
, s
->req_in
);
578 qemu_put_be32(f
, s
->idx_out
);
579 qemu_put_be32(f
, s
->req_out
);
581 for (i
= 0; i
< 7; i
++)
582 qemu_put_8s(f
, &s
->outvol
[i
]);
583 for (i
= 0; i
< 2; i
++)
584 qemu_put_8s(f
, &s
->outmute
[i
]);
585 for (i
= 0; i
< 4; i
++)
586 qemu_put_8s(f
, &s
->invol
[i
]);
587 for (i
= 0; i
< 2; i
++)
588 qemu_put_8s(f
, &s
->inmute
[i
]);
590 for (i
= 0; i
< 2; i
++)
591 qemu_put_8s(f
, &s
->diff
[i
]);
592 qemu_put_8s(f
, &s
->pol
);
593 qemu_put_8s(f
, &s
->ds
);
594 for (i
= 0; i
< 2; i
++)
595 qemu_put_8s(f
, &s
->monomix
[i
]);
596 qemu_put_8s(f
, &s
->alc
);
597 qemu_put_8s(f
, &s
->mute
);
598 for (i
= 0; i
< 4; i
++)
599 qemu_put_8s(f
, &s
->path
[i
]);
600 for (i
= 0; i
< 2; i
++)
601 qemu_put_8s(f
, &s
->mpath
[i
]);
602 qemu_put_8s(f
, &s
->format
);
603 qemu_put_8s(f
, &s
->power
);
604 qemu_put_byte(f
, (s
->rate
- wm_rate_table
) / sizeof(*s
->rate
));
605 i2c_slave_save(f
, &s
->i2c
);
608 static int wm8750_load(QEMUFile
*f
, void *opaque
, int version_id
)
610 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
612 qemu_get_8s(f
, &s
->i2c_data
[0]);
613 qemu_get_8s(f
, &s
->i2c_data
[1]);
614 s
->i2c_len
= qemu_get_be32(f
);
615 s
->enable
= qemu_get_be32(f
);
616 s
->idx_in
= qemu_get_be32(f
);
617 s
->req_in
= qemu_get_be32(f
);
618 s
->idx_out
= qemu_get_be32(f
);
619 s
->req_out
= qemu_get_be32(f
);
621 for (i
= 0; i
< 7; i
++)
622 qemu_get_8s(f
, &s
->outvol
[i
]);
623 for (i
= 0; i
< 2; i
++)
624 qemu_get_8s(f
, &s
->outmute
[i
]);
625 for (i
= 0; i
< 4; i
++)
626 qemu_get_8s(f
, &s
->invol
[i
]);
627 for (i
= 0; i
< 2; i
++)
628 qemu_get_8s(f
, &s
->inmute
[i
]);
630 for (i
= 0; i
< 2; i
++)
631 qemu_get_8s(f
, &s
->diff
[i
]);
632 qemu_get_8s(f
, &s
->pol
);
633 qemu_get_8s(f
, &s
->ds
);
634 for (i
= 0; i
< 2; i
++)
635 qemu_get_8s(f
, &s
->monomix
[i
]);
636 qemu_get_8s(f
, &s
->alc
);
637 qemu_get_8s(f
, &s
->mute
);
638 for (i
= 0; i
< 4; i
++)
639 qemu_get_8s(f
, &s
->path
[i
]);
640 for (i
= 0; i
< 2; i
++)
641 qemu_get_8s(f
, &s
->mpath
[i
]);
642 qemu_get_8s(f
, &s
->format
);
643 qemu_get_8s(f
, &s
->power
);
644 s
->rate
= &wm_rate_table
[(uint8_t) qemu_get_byte(f
) & 0x1f];
645 i2c_slave_load(f
, &s
->i2c
);
649 static int wm8750_iid
= 0;
651 i2c_slave
*wm8750_init(i2c_bus
*bus
, AudioState
*audio
)
653 struct wm8750_s
*s
= (struct wm8750_s
*)
654 i2c_slave_init(bus
, 0, sizeof(struct wm8750_s
));
655 s
->i2c
.event
= wm8750_event
;
656 s
->i2c
.recv
= wm8750_rx
;
657 s
->i2c
.send
= wm8750_tx
;
659 AUD_register_card(audio
, CODEC
, &s
->card
);
660 wm8750_reset(&s
->i2c
);
662 register_savevm(CODEC
, wm8750_iid
++, 0, wm8750_save
, wm8750_load
, s
);
668 static void wm8750_fini(i2c_slave
*i2c
)
670 struct wm8750_s
*s
= (struct wm8750_s
*) i2c
;
671 wm8750_reset(&s
->i2c
);
672 AUD_remove_card(&s
->card
);
677 void wm8750_data_req_set(i2c_slave
*i2c
,
678 void (*data_req
)(void *, int, int), void *opaque
)
680 struct wm8750_s
*s
= (struct wm8750_s
*) i2c
;
681 s
->data_req
= data_req
;
685 void wm8750_dac_dat(void *opaque
, uint32_t sample
)
687 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
689 *(uint32_t *) &s
->data_out
[s
->idx_out
] = sample
;
692 if (s
->idx_out
>= sizeof(s
->data_out
) || s
->req_out
<= 0)
696 void *wm8750_dac_buffer(void *opaque
, int samples
)
698 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
699 /* XXX: Should check if there are <i>samples</i> free samples available */
700 void *ret
= s
->data_out
+ s
->idx_out
;
702 s
->idx_out
+= samples
<< 2;
703 s
->req_out
-= samples
<< 2;
707 void wm8750_dac_commit(void *opaque
)
709 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
711 return wm8750_out_flush(s
);
714 uint32_t wm8750_adc_dat(void *opaque
)
716 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
719 if (s
->idx_in
>= sizeof(s
->data_in
))
722 data
= (uint32_t *) &s
->data_in
[s
->idx_in
];
728 void wm8750_set_bclk_in(void *opaque
, int hz
)
730 struct wm8750_s
*s
= (struct wm8750_s
*) opaque
;
734 wm8750_clk_update(s
, 1);