2 * cmpci.c -- C-Media PCI audio driver.
4 * Copyright (C) 1999 C-media support (support@cmedia.com.tw)
6 * Based on the PCI drivers by Thomas Sailer (sailer@ife.ee.ethz.ch)
9 * http://www.cmedia.com.tw
11 * This program is free software; you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License as published by
13 * the Free Software Foundation; either version 2 of the License, or
14 * (at your option) any later version.
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
21 * You should have received a copy of the GNU General Public License
22 * along with this program; if not, write to the Free Software
23 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25 * Special thanks to David C. Niemi, Jan Pfeifer
28 * Module command line parameters:
33 * /dev/dsp standard /dev/dsp device, (mostly) OSS compatible
34 * /dev/mixer standard /dev/mixer device, (mostly) OSS compatible
35 * /dev/midi simple MIDI UART interface, no ioctl
37 * The card has both an FM and a Wavetable synth, but I have to figure
38 * out first how to drive them...
41 * 06.05.98 0.1 Initial release
42 * 10.05.98 0.2 Fixed many bugs, esp. ADC rate calculation
43 * First stab at a simple midi interface (no bells&whistles)
44 * 13.05.98 0.3 Fix stupid cut&paste error: set_adc_rate was called instead of
45 * set_dac_rate in the FMODE_WRITE case in cm_open
46 * Fix hwptr out of bounds (now mpg123 works)
47 * 14.05.98 0.4 Don't allow excessive interrupt rates
48 * 08.06.98 0.5 First release using Alan Cox' soundcore instead of miscdevice
49 * 03.08.98 0.6 Do not include modversions.h
50 * Now mixer behaviour can basically be selected between
51 * "OSS documented" and "OSS actual" behaviour
52 * 31.08.98 0.7 Fix realplayer problems - dac.count issues
53 * 10.12.98 0.8 Fix drain_dac trying to wait on not yet initialized DMA
54 * 16.12.98 0.9 Fix a few f_file & FMODE_ bugs
55 * 06.01.99 0.10 remove the silly SA_INTERRUPT flag.
56 * hopefully killed the egcs section type conflict
57 * 12.03.99 0.11 cinfo.blocks should be reset after GETxPTR ioctl.
58 * reported by Johan Maes <joma@telindus.be>
59 * 22.03.99 0.12 return EAGAIN instead of EBUSY when O_NONBLOCK
60 * read/write cannot be executed
61 * 18.08.99 1.5 Only deallocate DMA buffer when unloading.
62 * 02.09.99 1.6 Enable SPDIF LOOP
63 * Change the mixer read back
64 * 21.09.99 2.33 Use RCS version as driver version.
65 * Add support for modem, S/PDIF loop and 4 channels.
67 * Fix bug cause x11amp cannot play.
70 * Arnaldo Carvalho de Melo <acme@conectiva.com.br>
71 * 18/05/2001 - .bss nitpicks, fix a bug in set_dac_channels where it
72 * was calling prog_dmabuf with s->lock held, call missing
73 * unlock_kernel in cm_midi_release
74 * 08/10/2001 - use set_current_state in some more places
76 * Carlos Eduardo Gorges <carlos@techlinux.com.br>
78 * - SMP support ( spin[un]lock* revision )
79 * - speaker mixer support
81 * - optimizations and cleanups
83 * 03/01/2003 - open_mode fixes from Georg Acher <acher@in.tum.de>
84 * Simon Braunschmidt <brasimon@web.de>
86 * - provide support for opl3 FM by releasing IO range after initialization
88 * ChenLi Tien <cltien@cmedia.com.tw>
90 * - Fix S/PDIF out if spdif_loop enabled
91 * - Load opl3 driver if enabled (fmio in proper range)
92 * - Load mpu401 if enabled (mpuio in proper range)
94 * - Fix DUAL_DAC dma synchronization bug
95 * - Check exist FM/MPU401 I/O before activate.
96 * - Add AFTM_S16_BE format support, so MPlayer/Xine can play AC3/mutlichannel
98 * - Change to support kernel 2.6 so only small patch needed
99 * - All parameters default to 0
100 * - Add spdif_out to send PCM through S/PDIF out jack
101 * - Add hw_copy to get 4-spaker output for general PCM/analog output
103 * Stefan Thater <stefan.thaeter@gmx.de>
105 * - Fix mute single channel for CD/Line-in/AUX-in
107 /*****************************************************************************/
109 #include <linux/config.h>
110 #include <linux/module.h>
111 #include <linux/string.h>
112 #include <linux/interrupt.h>
113 #include <linux/ioport.h>
114 #include <linux/sched.h>
115 #include <linux/delay.h>
116 #include <linux/sound.h>
117 #include <linux/slab.h>
118 #include <linux/soundcard.h>
119 #include <linux/pci.h>
120 #include <linux/init.h>
121 #include <linux/poll.h>
122 #include <linux/spinlock.h>
123 #include <linux/smp_lock.h>
124 #include <linux/bitops.h>
125 #include <linux/wait.h>
128 #include <asm/page.h>
129 #include <asm/uaccess.h>
131 #ifdef CONFIG_SOUND_CMPCI_MIDI
132 #include "sound_config.h"
135 #ifdef CONFIG_SOUND_CMPCI_FM
138 #ifdef CONFIG_SOUND_CMPCI_JOYSTICK
139 #include <linux/gameport.h>
142 /* --------------------------------------------------------------------- */
143 #undef OSS_DOCUMENTED_MIXER_SEMANTICS
146 /* --------------------------------------------------------------------- */
148 #define CM_MAGIC ((PCI_VENDOR_ID_CMEDIA<<16)|PCI_DEVICE_ID_CMEDIA_CM8338A)
150 /* CM8338 registers definition ****************/
152 #define CODEC_CMI_FUNCTRL0 (0x00)
153 #define CODEC_CMI_FUNCTRL1 (0x04)
154 #define CODEC_CMI_CHFORMAT (0x08)
155 #define CODEC_CMI_INT_HLDCLR (0x0C)
156 #define CODEC_CMI_INT_STATUS (0x10)
157 #define CODEC_CMI_LEGACY_CTRL (0x14)
158 #define CODEC_CMI_MISC_CTRL (0x18)
159 #define CODEC_CMI_TDMA_POS (0x1C)
160 #define CODEC_CMI_MIXER (0x20)
161 #define CODEC_SB16_DATA (0x22)
162 #define CODEC_SB16_ADDR (0x23)
163 #define CODEC_CMI_MIXER1 (0x24)
164 #define CODEC_CMI_MIXER2 (0x25)
165 #define CODEC_CMI_AUX_VOL (0x26)
166 #define CODEC_CMI_MISC (0x27)
167 #define CODEC_CMI_AC97 (0x28)
169 #define CODEC_CMI_CH0_FRAME1 (0x80)
170 #define CODEC_CMI_CH0_FRAME2 (0x84)
171 #define CODEC_CMI_CH1_FRAME1 (0x88)
172 #define CODEC_CMI_CH1_FRAME2 (0x8C)
174 #define CODEC_CMI_SPDIF_CTRL (0x90)
175 #define CODEC_CMI_MISC_CTRL2 (0x92)
177 #define CODEC_CMI_EXT_REG (0xF0)
179 /* Mixer registers for SB16 ******************/
181 #define DSP_MIX_DATARESETIDX ((unsigned char)(0x00))
183 #define DSP_MIX_MASTERVOLIDX_L ((unsigned char)(0x30))
184 #define DSP_MIX_MASTERVOLIDX_R ((unsigned char)(0x31))
185 #define DSP_MIX_VOICEVOLIDX_L ((unsigned char)(0x32))
186 #define DSP_MIX_VOICEVOLIDX_R ((unsigned char)(0x33))
187 #define DSP_MIX_FMVOLIDX_L ((unsigned char)(0x34))
188 #define DSP_MIX_FMVOLIDX_R ((unsigned char)(0x35))
189 #define DSP_MIX_CDVOLIDX_L ((unsigned char)(0x36))
190 #define DSP_MIX_CDVOLIDX_R ((unsigned char)(0x37))
191 #define DSP_MIX_LINEVOLIDX_L ((unsigned char)(0x38))
192 #define DSP_MIX_LINEVOLIDX_R ((unsigned char)(0x39))
194 #define DSP_MIX_MICVOLIDX ((unsigned char)(0x3A))
195 #define DSP_MIX_SPKRVOLIDX ((unsigned char)(0x3B))
197 #define DSP_MIX_OUTMIXIDX ((unsigned char)(0x3C))
199 #define DSP_MIX_ADCMIXIDX_L ((unsigned char)(0x3D))
200 #define DSP_MIX_ADCMIXIDX_R ((unsigned char)(0x3E))
202 #define DSP_MIX_INGAINIDX_L ((unsigned char)(0x3F))
203 #define DSP_MIX_INGAINIDX_R ((unsigned char)(0x40))
204 #define DSP_MIX_OUTGAINIDX_L ((unsigned char)(0x41))
205 #define DSP_MIX_OUTGAINIDX_R ((unsigned char)(0x42))
207 #define DSP_MIX_AGCIDX ((unsigned char)(0x43))
209 #define DSP_MIX_TREBLEIDX_L ((unsigned char)(0x44))
210 #define DSP_MIX_TREBLEIDX_R ((unsigned char)(0x45))
211 #define DSP_MIX_BASSIDX_L ((unsigned char)(0x46))
212 #define DSP_MIX_BASSIDX_R ((unsigned char)(0x47))
213 #define DSP_MIX_EXTENSION ((unsigned char)(0xf0))
214 // pseudo register for AUX
215 #define DSP_MIX_AUXVOL_L ((unsigned char)(0x50))
216 #define DSP_MIX_AUXVOL_R ((unsigned char)(0x51))
219 #define CM_EXTENT_CODEC 0x100
220 #define CM_EXTENT_MIDI 0x2
221 #define CM_EXTENT_SYNTH 0x4
222 #define CM_EXTENT_GAME 0x8
224 // Function Control Register 0 (00h)
230 // Function Control Register 0+2 (02h)
236 // Function Control Register 1 (04h)
237 #define JYSTK_EN 0x02
239 #define SPDO2DAC 0x40
240 #define SPDFLOOP 0x80
242 // Function Control Register 1+1 (05h)
247 #define SPDIF2DAC (SPDF_1 << 8 | SPDO2DAC)
249 // Channel Format Register (08h)
250 #define CM_CFMT_STEREO 0x01
251 #define CM_CFMT_16BIT 0x02
252 #define CM_CFMT_MASK 0x03
253 #define POLVALID 0x20
254 #define INVSPDIFI 0x80
256 // Channel Format Register+2 (0ah)
257 #define SPD24SEL 0x20
259 // Channel Format Register+3 (0bh)
263 // Interrupt Hold/Clear Register+2 (0eh)
264 #define CH0_INT_EN 0x01
265 #define CH1_INT_EN 0x02
267 // Interrupt Register (10h)
273 // Legacy Control/Status Register+1 (15h)
275 #define BASE2LIN 0x20
276 #define CENTR2LIN 0x40
277 #define CB2LIN (BASE2LIN | CENTR2LIN)
280 // Legacy Control/Status Register+2 (16h)
281 #define DAC2SPDO 0x20
282 #define SPDCOPYRHT 0x40
283 #define ENSPDOUT 0x80
285 // Legacy Control/Status Register+3 (17h)
291 // Miscellaneous Control Register (18h)
292 #define REAR2LIN 0x20
294 #define ENCENTER 0x80
296 // Miscellaneous Control Register+1 (19h)
297 #define SELSPDIFI2 0x01
298 #define SPDF_AC97 0x80
300 // Miscellaneous Control Register+2 (1ah)
303 #define SPD32SEL 0x20
307 // Miscellaneous Control Register+3 (1bh)
308 #define SPDIFI48K 0x01
313 #define SPDIF48K (SPDIFI48K << 24 | SPDF_AC97 << 8)
318 #define REAR2FRONT 0x10
323 // Miscellaneous Register (27h)
324 #define SPDVALID 0x02
325 #define CENTR2MIC 0x04
327 // Miscellaneous Register2 (92h)
328 #define SPD32KFMT 0x10
330 #define CM_CFMT_DACSHIFT 2
331 #define CM_CFMT_ADCSHIFT 0
332 #define CM_FREQ_DACSHIFT 5
333 #define CM_FREQ_ADCSHIFT 2
334 #define RSTDAC RST_CH1
335 #define RSTADC RST_CH0
338 #define PAUSEDAC PAUSE1
339 #define PAUSEADC PAUSE0
340 #define CODEC_CMI_ADC_FRAME1 CODEC_CMI_CH0_FRAME1
341 #define CODEC_CMI_ADC_FRAME2 CODEC_CMI_CH0_FRAME2
342 #define CODEC_CMI_DAC_FRAME1 CODEC_CMI_CH1_FRAME1
343 #define CODEC_CMI_DAC_FRAME2 CODEC_CMI_CH1_FRAME2
344 #define DACINT CHINT1
345 #define ADCINT CHINT0
346 #define DACBUSY CH1BUSY
347 #define ADCBUSY CH0BUSY
348 #define ENDACINT CH1_INT_EN
349 #define ENADCINT CH0_INT_EN
351 static const unsigned sample_size
[] = { 1, 2, 2, 4 };
352 static const unsigned sample_shift
[] = { 0, 1, 1, 2 };
354 #define SND_DEV_DSP16 5
356 #define NR_DEVICE 3 /* maximum number of devices */
358 #define set_dac1_rate set_adc_rate
359 #define set_dac1_rate_unlocked set_adc_rate_unlocked
360 #define stop_dac1 stop_adc
361 #define stop_dac1_unlocked stop_adc_unlocked
362 #define get_dmadac1 get_dmaadc
364 static unsigned int devindex
= 0;
366 //*********************************************/
372 /* list of cmedia devices */
373 struct list_head devs
;
375 /* the corresponding pci_dev structure */
378 int dev_audio
; /* soundcore stuff */
381 unsigned int iosb
, iobase
, iosynth
,
382 iomidi
, iogame
, irq
; /* hardware resources */
383 unsigned short deviceid
; /* pci_id */
385 struct { /* mixer stuff */
387 unsigned short vol
[13];
390 unsigned int rateadc
, ratedac
; /* wave stuff */
391 unsigned char fmt
, enable
;
394 struct semaphore open_sem
;
396 wait_queue_head_t open_wait
;
404 unsigned hwptr
, swptr
;
405 unsigned total_bytes
;
407 unsigned error
; /* over/underrun */
408 wait_queue_head_t wait
;
410 unsigned fragsize
; /* redundant, but makes calculations easier */
412 unsigned fragsamples
;
415 unsigned mapped
:1; /* OSS stuff */
417 unsigned endcleared
:1;
419 unsigned ossfragshift
;
421 unsigned subdivision
;
424 #ifdef CONFIG_SOUND_CMPCI_MIDI
426 struct address_info mpu_data
;
428 #ifdef CONFIG_SOUND_CMPCI_JOYSTICK
429 struct gameport
*gameport
;
435 int capability
; /* HW capability, various for chip versions */
437 int status
; /* HW or SW state */
439 int spdif_counter
; /* spdif frame counter */
442 /* flags used for capability */
443 #define CAN_AC3_HW 0x00000001 /* 037 or later */
444 #define CAN_AC3_SW 0x00000002 /* 033 or later */
445 #define CAN_AC3 (CAN_AC3_HW | CAN_AC3_SW)
446 #define CAN_DUAL_DAC 0x00000004 /* 033 or later */
447 #define CAN_MULTI_CH_HW 0x00000008 /* 039 or later */
448 #define CAN_MULTI_CH (CAN_MULTI_CH_HW | CAN_DUAL_DAC)
449 #define CAN_LINE_AS_REAR 0x00000010 /* 033 or later */
450 #define CAN_LINE_AS_BASS 0x00000020 /* 039 or later */
451 #define CAN_MIC_AS_BASS 0x00000040 /* 039 or later */
453 /* flags used for status */
454 #define DO_AC3_HW 0x00000001
455 #define DO_AC3_SW 0x00000002
456 #define DO_AC3 (DO_AC3_HW | DO_AC3_SW)
457 #define DO_DUAL_DAC 0x00000004
458 #define DO_MULTI_CH_HW 0x00000008
459 #define DO_MULTI_CH (DO_MULTI_CH_HW | DO_DUAL_DAC)
460 #define DO_LINE_AS_REAR 0x00000010 /* 033 or later */
461 #define DO_LINE_AS_BASS 0x00000020 /* 039 or later */
462 #define DO_MIC_AS_BASS 0x00000040 /* 039 or later */
463 #define DO_SPDIF_OUT 0x00000100
464 #define DO_SPDIF_IN 0x00000200
465 #define DO_SPDIF_LOOP 0x00000400
466 #define DO_BIGENDIAN_W 0x00001000 /* used in PowerPC */
467 #define DO_BIGENDIAN_R 0x00002000 /* used in PowerPC */
469 static LIST_HEAD(devs
);
474 static int spdif_inverse
;
475 static int spdif_loop
;
476 static int spdif_out
;
477 static int use_line_as_rear
;
478 static int use_line_as_bass
;
479 static int use_mic_as_bass
;
480 static int mic_boost
;
482 module_param(mpuio
, int, 0);
483 module_param(fmio
, int, 0);
484 module_param(joystick
, bool, 0);
485 module_param(spdif_inverse
, bool, 0);
486 module_param(spdif_loop
, bool, 0);
487 module_param(spdif_out
, bool, 0);
488 module_param(use_line_as_rear
, bool, 0);
489 module_param(use_line_as_bass
, bool, 0);
490 module_param(use_mic_as_bass
, bool, 0);
491 module_param(mic_boost
, bool, 0);
492 module_param(hw_copy
, bool, 0);
493 MODULE_PARM_DESC(mpuio
, "(0x330, 0x320, 0x310, 0x300) Base of MPU-401, 0 to disable");
494 MODULE_PARM_DESC(fmio
, "(0x388, 0x3C8, 0x3E0) Base of OPL3, 0 to disable");
495 MODULE_PARM_DESC(joystick
, "(1/0) Enable joystick interface, still need joystick driver");
496 MODULE_PARM_DESC(spdif_inverse
, "(1/0) Invert S/PDIF-in signal");
497 MODULE_PARM_DESC(spdif_loop
, "(1/0) Route S/PDIF-in to S/PDIF-out directly");
498 MODULE_PARM_DESC(spdif_out
, "(1/0) Send PCM to S/PDIF-out (PCM volume will not function)");
499 MODULE_PARM_DESC(use_line_as_rear
, "(1/0) Use line-in jack as rear-out");
500 MODULE_PARM_DESC(use_line_as_bass
, "(1/0) Use line-in jack as bass/center");
501 MODULE_PARM_DESC(use_mic_as_bass
, "(1/0) Use mic-in jack as bass/center");
502 MODULE_PARM_DESC(mic_boost
, "(1/0) Enable microphone boost");
503 MODULE_PARM_DESC(hw_copy
, "Copy front channel to surround channel");
505 /* --------------------------------------------------------------------- */
507 static inline unsigned ld2(unsigned int x
)
509 unsigned exp
=16,l
=5,r
=0;
510 static const unsigned num
[]={0x2,0x4,0x10,0x100,0x10000};
512 /* num: 2, 4, 16, 256, 65536 */
513 /* exp: 1, 2, 4, 8, 16 */
517 if(num
[l
]>2) x
>>= exp
;
526 /* --------------------------------------------------------------------- */
528 static void maskb(unsigned int addr
, unsigned int mask
, unsigned int value
)
530 outb((inb(addr
) & mask
) | value
, addr
);
533 static void maskw(unsigned int addr
, unsigned int mask
, unsigned int value
)
535 outw((inw(addr
) & mask
) | value
, addr
);
538 static void maskl(unsigned int addr
, unsigned int mask
, unsigned int value
)
540 outl((inl(addr
) & mask
) | value
, addr
);
543 static void set_dmadac1(struct cm_state
*s
, unsigned int addr
, unsigned int count
)
546 outl(addr
, s
->iobase
+ CODEC_CMI_ADC_FRAME1
);
547 outw(count
- 1, s
->iobase
+ CODEC_CMI_ADC_FRAME2
);
548 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~CHADC0
, 0);
551 static void set_dmaadc(struct cm_state
*s
, unsigned int addr
, unsigned int count
)
553 outl(addr
, s
->iobase
+ CODEC_CMI_ADC_FRAME1
);
554 outw(count
- 1, s
->iobase
+ CODEC_CMI_ADC_FRAME2
);
555 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~0, CHADC0
);
558 static void set_dmadac(struct cm_state
*s
, unsigned int addr
, unsigned int count
)
560 outl(addr
, s
->iobase
+ CODEC_CMI_DAC_FRAME1
);
561 outw(count
- 1, s
->iobase
+ CODEC_CMI_DAC_FRAME2
);
562 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~CHADC1
, 0);
563 if (s
->status
& DO_DUAL_DAC
)
564 set_dmadac1(s
, 0, count
);
567 static void set_countadc(struct cm_state
*s
, unsigned count
)
569 outw(count
- 1, s
->iobase
+ CODEC_CMI_ADC_FRAME2
+ 2);
572 static void set_countdac(struct cm_state
*s
, unsigned count
)
574 outw(count
- 1, s
->iobase
+ CODEC_CMI_DAC_FRAME2
+ 2);
575 if (s
->status
& DO_DUAL_DAC
)
576 set_countadc(s
, count
);
579 static unsigned get_dmadac(struct cm_state
*s
)
581 unsigned int curr_addr
;
583 curr_addr
= inw(s
->iobase
+ CODEC_CMI_DAC_FRAME2
) + 1;
584 curr_addr
<<= sample_shift
[(s
->fmt
>> CM_CFMT_DACSHIFT
) & CM_CFMT_MASK
];
585 curr_addr
= s
->dma_dac
.dmasize
- curr_addr
;
590 static unsigned get_dmaadc(struct cm_state
*s
)
592 unsigned int curr_addr
;
594 curr_addr
= inw(s
->iobase
+ CODEC_CMI_ADC_FRAME2
) + 1;
595 curr_addr
<<= sample_shift
[(s
->fmt
>> CM_CFMT_ADCSHIFT
) & CM_CFMT_MASK
];
596 curr_addr
= s
->dma_adc
.dmasize
- curr_addr
;
601 static void wrmixer(struct cm_state
*s
, unsigned char idx
, unsigned char data
)
603 unsigned char regval
, pseudo
;
606 if (idx
== DSP_MIX_AUXVOL_L
) {
609 regval
= inb(s
->iobase
+ CODEC_CMI_AUX_VOL
) & ~0x0f;
610 outb(regval
| data
, s
->iobase
+ CODEC_CMI_AUX_VOL
);
613 if (idx
== DSP_MIX_AUXVOL_R
) {
615 regval
= inb(s
->iobase
+ CODEC_CMI_AUX_VOL
) & ~0xf0;
616 outb(regval
| data
, s
->iobase
+ CODEC_CMI_AUX_VOL
);
619 outb(idx
, s
->iobase
+ CODEC_SB16_ADDR
);
622 if (idx
== DSP_MIX_OUTMIXIDX
) {
623 pseudo
= data
& ~0x1f;
625 regval
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & ~0x30;
626 outb(regval
| pseudo
, s
->iobase
+ CODEC_CMI_MIXER2
);
628 if (idx
== DSP_MIX_ADCMIXIDX_L
) {
629 pseudo
= data
& 0x80;
631 regval
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & ~0x40;
632 outb(regval
| pseudo
, s
->iobase
+ CODEC_CMI_MIXER2
);
634 if (idx
== DSP_MIX_ADCMIXIDX_R
) {
635 pseudo
= data
& 0x80;
636 regval
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & ~0x80;
637 outb(regval
| pseudo
, s
->iobase
+ CODEC_CMI_MIXER2
);
639 outb(data
, s
->iobase
+ CODEC_SB16_DATA
);
643 static unsigned char rdmixer(struct cm_state
*s
, unsigned char idx
)
645 unsigned char v
, pseudo
;
648 if (idx
== DSP_MIX_AUXVOL_L
) {
649 v
= inb(s
->iobase
+ CODEC_CMI_AUX_VOL
) & 0x0f;
653 if (idx
== DSP_MIX_AUXVOL_L
) {
654 v
= inb(s
->iobase
+ CODEC_CMI_AUX_VOL
) & 0xf0;
657 outb(idx
, s
->iobase
+ CODEC_SB16_ADDR
);
659 v
= inb(s
->iobase
+ CODEC_SB16_DATA
);
662 if (idx
== DSP_MIX_OUTMIXIDX
) {
663 pseudo
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & 0x30;
667 if (idx
== DSP_MIX_ADCMIXIDX_L
) {
668 pseudo
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & 0x40;
672 if (idx
== DSP_MIX_ADCMIXIDX_R
) {
673 pseudo
= inb(s
->iobase
+ CODEC_CMI_MIXER2
) & 0x80;
679 static void set_fmt_unlocked(struct cm_state
*s
, unsigned char mask
, unsigned char data
)
681 if (mask
&& s
->chip_version
> 0) { /* 8338 cannot keep this */
682 s
->fmt
= inb(s
->iobase
+ CODEC_CMI_CHFORMAT
);
685 s
->fmt
= (s
->fmt
& mask
) | data
;
686 outb(s
->fmt
, s
->iobase
+ CODEC_CMI_CHFORMAT
);
690 static void set_fmt(struct cm_state
*s
, unsigned char mask
, unsigned char data
)
694 spin_lock_irqsave(&s
->lock
, flags
);
695 set_fmt_unlocked(s
,mask
,data
);
696 spin_unlock_irqrestore(&s
->lock
, flags
);
699 static void frobindir(struct cm_state
*s
, unsigned char idx
, unsigned char mask
, unsigned char data
)
701 outb(idx
, s
->iobase
+ CODEC_SB16_ADDR
);
703 outb((inb(s
->iobase
+ CODEC_SB16_DATA
) & mask
) | data
, s
->iobase
+ CODEC_SB16_DATA
);
714 { 5512, (0 + 5512) / 2, (5512 + 8000) / 2, 0 },
715 { 8000, (5512 + 8000) / 2, (8000 + 11025) / 2, 4 },
716 { 11025, (8000 + 11025) / 2, (11025 + 16000) / 2, 1 },
717 { 16000, (11025 + 16000) / 2, (16000 + 22050) / 2, 5 },
718 { 22050, (16000 + 22050) / 2, (22050 + 32000) / 2, 2 },
719 { 32000, (22050 + 32000) / 2, (32000 + 44100) / 2, 6 },
720 { 44100, (32000 + 44100) / 2, (44100 + 48000) / 2, 3 },
721 { 48000, (44100 + 48000) / 2, 48000, 7 }
724 static void set_spdif_copyright(struct cm_state
*s
, int spdif_copyright
)
726 /* enable SPDIF-in Copyright */
727 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 2, ~SPDCOPYRHT
, spdif_copyright
? SPDCOPYRHT
: 0);
730 static void set_spdif_loop(struct cm_state
*s
, int spdif_loop
)
732 /* enable SPDIF loop */
734 s
->status
|= DO_SPDIF_LOOP
;
735 /* turn on spdif-in to spdif-out */
736 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0, SPDFLOOP
);
738 s
->status
&= ~DO_SPDIF_LOOP
;
739 /* turn off spdif-in to spdif-out */
740 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~SPDFLOOP
, 0);
744 static void set_spdif_monitor(struct cm_state
*s
, int channel
)
747 maskw(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~SPDO2DAC
, channel
== 2 ? SPDO2DAC
: 0);
749 if (s
->chip_version
>= 39)
750 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~CDPLAY
, channel
? CDPLAY
: 0);
753 static void set_spdifout_level(struct cm_state
*s
, int level5v
)
756 if (s
->chip_version
> 0)
757 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 3, ~SPDO5V
, level5v
? SPDO5V
: 0);
760 static void set_spdifin_inverse(struct cm_state
*s
, int spdif_inverse
)
762 if (s
->chip_version
== 0) /* 8338 has not this feature */
765 /* turn on spdif-in inverse */
766 if (s
->chip_version
>= 39)
767 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
, ~0, INVSPDIFI
);
769 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~0, 1);
771 /* turn off spdif-ininverse */
772 if (s
->chip_version
>= 39)
773 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
, ~INVSPDIFI
, 0);
775 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~1, 0);
779 static void set_spdifin_channel2(struct cm_state
*s
, int channel2
)
782 if (s
->chip_version
>= 39)
783 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 1, ~SELSPDIFI2
, channel2
? SELSPDIFI2
: 0);
786 static void set_spdifin_valid(struct cm_state
*s
, int valid
)
789 maskb(s
->iobase
+ CODEC_CMI_MISC
, ~SPDVALID
, valid
? SPDVALID
: 0);
792 static void set_spdifout_unlocked(struct cm_state
*s
, unsigned rate
)
794 if (rate
!= 48000 && rate
!= 44100)
796 if (rate
== 48000 || rate
== 44100) {
797 set_spdif_loop(s
, 0);
799 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~0, SPDF_1
);
800 // SPDIFI48K SPDF_AC97
801 maskl(s
->iobase
+ CODEC_CMI_MISC_CTRL
, ~SPDIF48K
, rate
== 48000 ? SPDIF48K
: 0);
802 if (s
->chip_version
>= 55)
804 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL2
, ~SPD32KFMT
, rate
== 48000 ? SPD32KFMT
: 0);
805 if (s
->chip_version
> 0)
807 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 2, ~0, ENSPDOUT
);
809 set_spdif_monitor(s
, 2);
810 s
->status
|= DO_SPDIF_OUT
;
812 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~SPDF_1
, 0);
813 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 2, ~ENSPDOUT
, 0);
815 set_spdif_monitor(s
, 0);
816 s
->status
&= ~DO_SPDIF_OUT
;
820 static void set_spdifout(struct cm_state
*s
, unsigned rate
)
824 spin_lock_irqsave(&s
->lock
, flags
);
825 set_spdifout_unlocked(s
,rate
);
826 spin_unlock_irqrestore(&s
->lock
, flags
);
829 static void set_spdifin_unlocked(struct cm_state
*s
, unsigned rate
)
831 if (rate
== 48000 || rate
== 44100) {
833 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~0, SPDF_1
);
834 // SPDIFI48K SPDF_AC97
835 maskl(s
->iobase
+ CODEC_CMI_MISC_CTRL
, ~SPDIF48K
, rate
== 48000 ? SPDIF48K
: 0);
836 s
->status
|= DO_SPDIF_IN
;
838 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~SPDF_1
, 0);
839 s
->status
&= ~DO_SPDIF_IN
;
843 static void set_spdifin(struct cm_state
*s
, unsigned rate
)
847 spin_lock_irqsave(&s
->lock
, flags
);
848 set_spdifin_unlocked(s
,rate
);
849 spin_unlock_irqrestore(&s
->lock
, flags
);
852 /* find parity for bit 4~30 */
853 static unsigned parity(unsigned data
)
858 data
>>= 4; // start from bit 4
859 while (counter
<= 30) {
868 static void set_ac3_unlocked(struct cm_state
*s
, unsigned rate
)
870 if (!(s
->capability
& CAN_AC3
))
873 if (rate
&& rate
!= 44100)
875 if (rate
== 48000 || rate
== 44100) {
877 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~0, WSMUTE
);
878 if (s
->chip_version
>= 39)
879 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
, ~0, MUTECH1
);
880 // AC3EN for 039, 0x04
881 if (s
->chip_version
>= 39) {
882 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~0, AC3_EN
);
883 if (s
->chip_version
== 55)
884 maskb(s
->iobase
+ CODEC_CMI_SPDIF_CTRL
, ~2, 0);
885 // AC3EN for 037, 0x10
886 } else if (s
->chip_version
== 37)
887 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~0, 0x10);
888 if (s
->capability
& CAN_AC3_HW
) {
889 // SPD24SEL for 039, 0x20, but cannot be set
890 if (s
->chip_version
== 39)
891 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~0, SPD24SEL
);
892 // SPD24SEL for 037, 0x02
893 else if (s
->chip_version
== 37)
894 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~0, 0x02);
895 if (s
->chip_version
>= 39)
896 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~CDPLAY
, 0);
898 s
->status
|= DO_AC3_HW
;
900 // SPD32SEL for 037 & 039
901 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~0, SPD32SEL
);
902 // set 176K sample rate to fix 033 HW bug
903 if (s
->chip_version
== 33) {
905 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 1, ~0, 0x08);
907 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 1, ~0x08, 0);
909 s
->status
|= DO_AC3_SW
;
912 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~WSMUTE
, 0);
913 if (s
->chip_version
>= 39)
914 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
, ~MUTECH1
, 0);
915 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 2, ~(SPD24SEL
|0x12), 0);
916 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~(SPD32SEL
|AC3_EN
), 0);
917 if (s
->chip_version
== 33)
918 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 1, ~0x08, 0);
919 if (s
->chip_version
>= 39)
920 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~0, CDPLAY
);
921 s
->status
&= ~DO_AC3
;
923 s
->spdif_counter
= 0;
926 static void set_line_as_rear(struct cm_state
*s
, int use_line_as_rear
)
928 if (!(s
->capability
& CAN_LINE_AS_REAR
))
930 if (use_line_as_rear
) {
931 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~0, SPK4
);
932 s
->status
|= DO_LINE_AS_REAR
;
934 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~SPK4
, 0);
935 s
->status
&= ~DO_LINE_AS_REAR
;
939 static void set_line_as_bass(struct cm_state
*s
, int use_line_as_bass
)
941 if (!(s
->capability
& CAN_LINE_AS_BASS
))
943 if (use_line_as_bass
) {
944 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 1, ~0, CB2LIN
);
945 s
->status
|= DO_LINE_AS_BASS
;
947 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 1, ~CB2LIN
, 0);
948 s
->status
&= ~DO_LINE_AS_BASS
;
952 static void set_mic_as_bass(struct cm_state
*s
, int use_mic_as_bass
)
954 if (!(s
->capability
& CAN_MIC_AS_BASS
))
956 if (use_mic_as_bass
) {
957 maskb(s
->iobase
+ CODEC_CMI_MISC
, ~0, 0x04);
958 s
->status
|= DO_MIC_AS_BASS
;
960 maskb(s
->iobase
+ CODEC_CMI_MISC
, ~0x04, 0);
961 s
->status
&= ~DO_MIC_AS_BASS
;
965 static void set_hw_copy(struct cm_state
*s
, int hw_copy
)
967 if (s
->max_channels
> 2 && hw_copy
)
968 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 3, ~0, N4SPK3D
);
970 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 3, ~N4SPK3D
, 0);
973 static void set_ac3(struct cm_state
*s
, unsigned rate
)
977 spin_lock_irqsave(&s
->lock
, flags
);
978 set_spdifout_unlocked(s
, rate
);
979 set_ac3_unlocked(s
, rate
);
980 spin_unlock_irqrestore(&s
->lock
, flags
);
983 static int trans_ac3(struct cm_state
*s
, void *dest
, const char __user
*source
, int size
)
987 unsigned short data16
;
988 unsigned long *dst
= (unsigned long *) dest
;
989 unsigned short __user
*src
= (unsigned short __user
*)source
;
993 if ((err
= __get_user(data16
, src
++)))
995 data
= (unsigned long)le16_to_cpu(data16
);
996 data
<<= 12; // ok for 16-bit data
997 if (s
->spdif_counter
== 2 || s
->spdif_counter
== 3)
998 data
|= 0x40000000; // indicate AC-3 raw data
1000 data
|= 0x80000000; // parity
1001 if (s
->spdif_counter
== 0)
1002 data
|= 3; // preamble 'M'
1003 else if (s
->spdif_counter
& 1)
1004 data
|= 5; // odd, 'W'
1006 data
|= 9; // even, 'M'
1007 *dst
++ = cpu_to_le32(data
);
1009 if (s
->spdif_counter
== 384)
1010 s
->spdif_counter
= 0;
1016 static void set_adc_rate_unlocked(struct cm_state
*s
, unsigned rate
)
1018 unsigned char freq
= 4;
1025 for (i
= 0; i
< sizeof(rate_lookup
) / sizeof(rate_lookup
[0]); i
++) {
1026 if (rate
> rate_lookup
[i
].lower
&& rate
<= rate_lookup
[i
].upper
) {
1027 rate
= rate_lookup
[i
].rate
;
1028 freq
= rate_lookup
[i
].freq
;
1033 freq
<<= CM_FREQ_ADCSHIFT
;
1035 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~ASFC
, freq
);
1038 static void set_adc_rate(struct cm_state
*s
, unsigned rate
)
1040 unsigned long flags
;
1041 unsigned char freq
= 4;
1048 for (i
= 0; i
< sizeof(rate_lookup
) / sizeof(rate_lookup
[0]); i
++) {
1049 if (rate
> rate_lookup
[i
].lower
&& rate
<= rate_lookup
[i
].upper
) {
1050 rate
= rate_lookup
[i
].rate
;
1051 freq
= rate_lookup
[i
].freq
;
1056 freq
<<= CM_FREQ_ADCSHIFT
;
1058 spin_lock_irqsave(&s
->lock
, flags
);
1059 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~ASFC
, freq
);
1060 spin_unlock_irqrestore(&s
->lock
, flags
);
1063 static void set_dac_rate(struct cm_state
*s
, unsigned rate
)
1065 unsigned long flags
;
1066 unsigned char freq
= 4;
1073 for (i
= 0; i
< sizeof(rate_lookup
) / sizeof(rate_lookup
[0]); i
++) {
1074 if (rate
> rate_lookup
[i
].lower
&& rate
<= rate_lookup
[i
].upper
) {
1075 rate
= rate_lookup
[i
].rate
;
1076 freq
= rate_lookup
[i
].freq
;
1081 freq
<<= CM_FREQ_DACSHIFT
;
1083 spin_lock_irqsave(&s
->lock
, flags
);
1084 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
+ 1, ~DSFC
, freq
);
1085 spin_unlock_irqrestore(&s
->lock
, flags
);
1087 if (s
->curr_channels
<= 2 && spdif_out
)
1088 set_spdifout(s
, rate
);
1089 if (s
->status
& DO_DUAL_DAC
)
1090 set_dac1_rate(s
, rate
);
1093 /* --------------------------------------------------------------------- */
1094 static inline void reset_adc(struct cm_state
*s
)
1096 /* reset bus master */
1097 outb(s
->enable
| RSTADC
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1099 outb(s
->enable
& ~RSTADC
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1102 static inline void reset_dac(struct cm_state
*s
)
1104 /* reset bus master */
1105 outb(s
->enable
| RSTDAC
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1107 outb(s
->enable
& ~RSTDAC
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1108 if (s
->status
& DO_DUAL_DAC
)
1112 static inline void pause_adc(struct cm_state
*s
)
1114 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~0, PAUSEADC
);
1117 static inline void pause_dac(struct cm_state
*s
)
1119 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~0, PAUSEDAC
);
1120 if (s
->status
& DO_DUAL_DAC
)
1124 static inline void disable_adc(struct cm_state
*s
)
1126 /* disable channel */
1127 s
->enable
&= ~ENADC
;
1128 outb(s
->enable
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1132 static inline void disable_dac(struct cm_state
*s
)
1134 /* disable channel */
1135 s
->enable
&= ~ENDAC
;
1136 outb(s
->enable
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1138 if (s
->status
& DO_DUAL_DAC
)
1142 static inline void enable_adc(struct cm_state
*s
)
1144 if (!(s
->enable
& ENADC
)) {
1145 /* enable channel */
1147 outb(s
->enable
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1149 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~PAUSEADC
, 0);
1152 static inline void enable_dac_unlocked(struct cm_state
*s
)
1154 if (!(s
->enable
& ENDAC
)) {
1155 /* enable channel */
1157 outb(s
->enable
, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2);
1159 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~PAUSEDAC
, 0);
1161 if (s
->status
& DO_DUAL_DAC
)
1165 static inline void stop_adc_unlocked(struct cm_state
*s
)
1167 if (s
->enable
& ENADC
) {
1168 /* disable interrupt */
1169 maskb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2, ~ENADCINT
, 0);
1174 static inline void stop_adc(struct cm_state
*s
)
1176 unsigned long flags
;
1178 spin_lock_irqsave(&s
->lock
, flags
);
1179 stop_adc_unlocked(s
);
1180 spin_unlock_irqrestore(&s
->lock
, flags
);
1184 static inline void stop_dac_unlocked(struct cm_state
*s
)
1186 if (s
->enable
& ENDAC
) {
1187 /* disable interrupt */
1188 maskb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2, ~ENDACINT
, 0);
1191 if (s
->status
& DO_DUAL_DAC
)
1192 stop_dac1_unlocked(s
);
1195 static inline void stop_dac(struct cm_state
*s
)
1197 unsigned long flags
;
1199 spin_lock_irqsave(&s
->lock
, flags
);
1200 stop_dac_unlocked(s
);
1201 spin_unlock_irqrestore(&s
->lock
, flags
);
1204 static inline void start_adc_unlocked(struct cm_state
*s
)
1206 if ((s
->dma_adc
.mapped
|| s
->dma_adc
.count
< (signed)(s
->dma_adc
.dmasize
- 2*s
->dma_adc
.fragsize
))
1207 && s
->dma_adc
.ready
) {
1208 /* enable interrupt */
1209 maskb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2, ~0, ENADCINT
);
1214 static void start_adc(struct cm_state
*s
)
1216 unsigned long flags
;
1218 spin_lock_irqsave(&s
->lock
, flags
);
1219 start_adc_unlocked(s
);
1220 spin_unlock_irqrestore(&s
->lock
, flags
);
1223 static void start_dac1_unlocked(struct cm_state
*s
)
1225 if ((s
->dma_adc
.mapped
|| s
->dma_adc
.count
> 0) && s
->dma_adc
.ready
) {
1226 /* enable interrupt */
1227 maskb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2, ~0, ENADCINT
);
1228 enable_dac_unlocked(s
);
1232 static void start_dac_unlocked(struct cm_state
*s
)
1234 if ((s
->dma_dac
.mapped
|| s
->dma_dac
.count
> 0) && s
->dma_dac
.ready
) {
1235 /* enable interrupt */
1236 maskb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2, ~0, ENDACINT
);
1237 enable_dac_unlocked(s
);
1239 if (s
->status
& DO_DUAL_DAC
)
1240 start_dac1_unlocked(s
);
1243 static void start_dac(struct cm_state
*s
)
1245 unsigned long flags
;
1247 spin_lock_irqsave(&s
->lock
, flags
);
1248 start_dac_unlocked(s
);
1249 spin_unlock_irqrestore(&s
->lock
, flags
);
1252 static int prog_dmabuf(struct cm_state
*s
, unsigned rec
);
1254 static int set_dac_channels(struct cm_state
*s
, int channels
)
1256 unsigned long flags
;
1257 static unsigned int fmmute
= 0;
1259 spin_lock_irqsave(&s
->lock
, flags
);
1261 if ((channels
> 2) && (channels
<= s
->max_channels
)
1262 && (((s
->fmt
>> CM_CFMT_DACSHIFT
) & CM_CFMT_MASK
) == (CM_CFMT_STEREO
| CM_CFMT_16BIT
))) {
1263 set_spdifout_unlocked(s
, 0);
1264 if (s
->capability
& CAN_MULTI_CH_HW
) {
1266 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 3, ~0, NXCHG
);
1268 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 3, ~(CHB3D5C
|CHB3D
), channels
> 4 ? CHB3D5C
: CHB3D
);
1270 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 1, ~CHB3D6C
, channels
== 6 ? CHB3D6C
: 0);
1272 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
, ~ENCENTER
, channels
== 6 ? ENCENTER
: 0);
1273 s
->status
|= DO_MULTI_CH_HW
;
1274 } else if (s
->capability
& CAN_DUAL_DAC
) {
1275 unsigned char fmtm
= ~0, fmts
= 0;
1278 // ENDBDAC, turn on double DAC mode
1279 // XCHGDAC, CH0 -> back, CH1->front
1280 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~0, ENDBDAC
|XCHGDAC
);
1282 fmmute
= inb(s
->iobase
+ CODEC_CMI_MIXER1
) & FMMUTE
;
1283 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~0, FMMUTE
);
1284 s
->status
|= DO_DUAL_DAC
;
1285 // prepare secondary buffer
1286 spin_unlock_irqrestore(&s
->lock
, flags
);
1287 ret
= prog_dmabuf(s
, 1);
1288 if (ret
) return ret
;
1289 spin_lock_irqsave(&s
->lock
, flags
);
1291 // copy the hw state
1292 fmtm
&= ~((CM_CFMT_STEREO
| CM_CFMT_16BIT
) << CM_CFMT_DACSHIFT
);
1293 fmtm
&= ~((CM_CFMT_STEREO
| CM_CFMT_16BIT
) << CM_CFMT_ADCSHIFT
);
1294 // the HW only support 16-bit stereo
1295 fmts
|= CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
;
1296 fmts
|= CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
;
1297 fmts
|= CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
;
1298 fmts
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
1300 set_fmt_unlocked(s
, fmtm
, fmts
);
1301 set_adc_rate_unlocked(s
, s
->ratedac
);
1303 // disable 4 speaker mode (analog duplicate)
1305 s
->curr_channels
= channels
;
1307 // enable jack redirect
1308 set_line_as_rear(s
, use_line_as_rear
);
1310 set_line_as_bass(s
, use_line_as_bass
);
1311 set_mic_as_bass(s
, use_mic_as_bass
);
1314 if (s
->status
& DO_MULTI_CH_HW
) {
1315 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 3, ~NXCHG
, 0);
1316 maskb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 3, ~(CHB3D5C
|CHB3D
), 0);
1317 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 1, ~CHB3D6C
, 0);
1318 } else if (s
->status
& DO_DUAL_DAC
) {
1319 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~ENDBDAC
, 0);
1320 maskb(s
->iobase
+ CODEC_CMI_MIXER1
, ~FMMUTE
, fmmute
);
1322 // enable 4 speaker mode (analog duplicate)
1323 set_hw_copy(s
, hw_copy
);
1324 s
->status
&= ~DO_MULTI_CH
;
1325 s
->curr_channels
= s
->fmt
& (CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
) ? 2 : 1;
1326 // disable jack redirect
1327 set_line_as_rear(s
, hw_copy
? use_line_as_rear
: 0);
1328 set_line_as_bass(s
, 0);
1329 set_mic_as_bass(s
, 0);
1331 spin_unlock_irqrestore(&s
->lock
, flags
);
1332 return s
->curr_channels
;
1335 /* --------------------------------------------------------------------- */
1337 #define DMABUF_DEFAULTORDER (16-PAGE_SHIFT)
1338 #define DMABUF_MINORDER 1
1340 static void dealloc_dmabuf(struct cm_state
*s
, struct dmabuf
*db
)
1342 struct page
*pstart
, *pend
;
1345 /* undo marking the pages as reserved */
1346 pend
= virt_to_page(db
->rawbuf
+ (PAGE_SIZE
<< db
->buforder
) - 1);
1347 for (pstart
= virt_to_page(db
->rawbuf
); pstart
<= pend
; pstart
++)
1348 ClearPageReserved(pstart
);
1349 pci_free_consistent(s
->dev
, PAGE_SIZE
<< db
->buforder
, db
->rawbuf
, db
->dmaaddr
);
1352 db
->mapped
= db
->ready
= 0;
1355 /* Ch1 is used for playback, Ch0 is used for recording */
1357 static int prog_dmabuf(struct cm_state
*s
, unsigned rec
)
1359 struct dmabuf
*db
= rec
? &s
->dma_adc
: &s
->dma_dac
;
1360 unsigned rate
= rec
? s
->rateadc
: s
->ratedac
;
1362 unsigned bytepersec
;
1364 struct page
*pstart
, *pend
;
1366 unsigned long flags
;
1371 fmt
>>= CM_CFMT_ADCSHIFT
;
1374 fmt
>>= CM_CFMT_DACSHIFT
;
1377 fmt
&= CM_CFMT_MASK
;
1378 db
->hwptr
= db
->swptr
= db
->total_bytes
= db
->count
= db
->error
= db
->endcleared
= 0;
1380 db
->ready
= db
->mapped
= 0;
1381 for (order
= DMABUF_DEFAULTORDER
; order
>= DMABUF_MINORDER
; order
--)
1382 if ((db
->rawbuf
= pci_alloc_consistent(s
->dev
, PAGE_SIZE
<< order
, &db
->dmaaddr
)))
1384 if (!db
->rawbuf
|| !db
->dmaaddr
)
1386 db
->buforder
= order
;
1387 /* now mark the pages as reserved; otherwise remap_pfn_range doesn't do what we want */
1388 pend
= virt_to_page(db
->rawbuf
+ (PAGE_SIZE
<< db
->buforder
) - 1);
1389 for (pstart
= virt_to_page(db
->rawbuf
); pstart
<= pend
; pstart
++)
1390 SetPageReserved(pstart
);
1392 bytepersec
= rate
<< sample_shift
[fmt
];
1393 bufs
= PAGE_SIZE
<< db
->buforder
;
1394 if (db
->ossfragshift
) {
1395 if ((1000 << db
->ossfragshift
) < bytepersec
)
1396 db
->fragshift
= ld2(bytepersec
/1000);
1398 db
->fragshift
= db
->ossfragshift
;
1400 db
->fragshift
= ld2(bytepersec
/100/(db
->subdivision
? db
->subdivision
: 1));
1401 if (db
->fragshift
< 3)
1404 db
->numfrag
= bufs
>> db
->fragshift
;
1405 while (db
->numfrag
< 4 && db
->fragshift
> 3) {
1407 db
->numfrag
= bufs
>> db
->fragshift
;
1409 db
->fragsize
= 1 << db
->fragshift
;
1410 if (db
->ossmaxfrags
>= 4 && db
->ossmaxfrags
< db
->numfrag
)
1411 db
->numfrag
= db
->ossmaxfrags
;
1412 /* to make fragsize >= 4096 */
1413 db
->fragsamples
= db
->fragsize
>> sample_shift
[fmt
];
1414 db
->dmasize
= db
->numfrag
<< db
->fragshift
;
1415 db
->dmasamples
= db
->dmasize
>> sample_shift
[fmt
];
1416 memset(db
->rawbuf
, (fmt
& CM_CFMT_16BIT
) ? 0 : 0x80, db
->dmasize
);
1417 spin_lock_irqsave(&s
->lock
, flags
);
1419 if (s
->status
& DO_DUAL_DAC
)
1420 set_dmadac1(s
, db
->dmaaddr
, db
->dmasize
>> sample_shift
[fmt
]);
1422 set_dmaadc(s
, db
->dmaaddr
, db
->dmasize
>> sample_shift
[fmt
]);
1423 /* program sample counts */
1424 set_countdac(s
, db
->fragsamples
);
1426 set_dmadac(s
, db
->dmaaddr
, db
->dmasize
>> sample_shift
[fmt
]);
1427 /* program sample counts */
1428 set_countdac(s
, db
->fragsamples
);
1430 spin_unlock_irqrestore(&s
->lock
, flags
);
1436 static inline void clear_advance(struct cm_state
*s
)
1438 unsigned char c
= (s
->fmt
& (CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
)) ? 0 : 0x80;
1439 unsigned char *buf
= s
->dma_dac
.rawbuf
;
1440 unsigned char *buf1
= s
->dma_adc
.rawbuf
;
1441 unsigned bsize
= s
->dma_dac
.dmasize
;
1442 unsigned bptr
= s
->dma_dac
.swptr
;
1443 unsigned len
= s
->dma_dac
.fragsize
;
1445 if (bptr
+ len
> bsize
) {
1446 unsigned x
= bsize
- bptr
;
1447 memset(buf
+ bptr
, c
, x
);
1448 if (s
->status
& DO_DUAL_DAC
)
1449 memset(buf1
+ bptr
, c
, x
);
1453 memset(buf
+ bptr
, c
, len
);
1454 if (s
->status
& DO_DUAL_DAC
)
1455 memset(buf1
+ bptr
, c
, len
);
1458 /* call with spinlock held! */
1459 static void cm_update_ptr(struct cm_state
*s
)
1464 /* update ADC pointer */
1465 if (s
->dma_adc
.ready
) {
1466 if (s
->status
& DO_DUAL_DAC
) {
1467 /* the dac part will finish for this */
1469 hwptr
= get_dmaadc(s
) % s
->dma_adc
.dmasize
;
1470 diff
= (s
->dma_adc
.dmasize
+ hwptr
- s
->dma_adc
.hwptr
) % s
->dma_adc
.dmasize
;
1471 s
->dma_adc
.hwptr
= hwptr
;
1472 s
->dma_adc
.total_bytes
+= diff
;
1473 s
->dma_adc
.count
+= diff
;
1474 if (s
->dma_adc
.count
>= (signed)s
->dma_adc
.fragsize
)
1475 wake_up(&s
->dma_adc
.wait
);
1476 if (!s
->dma_adc
.mapped
) {
1477 if (s
->dma_adc
.count
> (signed)(s
->dma_adc
.dmasize
- ((3 * s
->dma_adc
.fragsize
) >> 1))) {
1484 /* update DAC pointer */
1485 if (s
->dma_dac
.ready
) {
1486 hwptr
= get_dmadac(s
) % s
->dma_dac
.dmasize
;
1487 diff
= (s
->dma_dac
.dmasize
+ hwptr
- s
->dma_dac
.hwptr
) % s
->dma_dac
.dmasize
;
1488 s
->dma_dac
.hwptr
= hwptr
;
1489 s
->dma_dac
.total_bytes
+= diff
;
1490 if (s
->status
& DO_DUAL_DAC
) {
1491 s
->dma_adc
.hwptr
= hwptr
;
1492 s
->dma_adc
.total_bytes
+= diff
;
1494 if (s
->dma_dac
.mapped
) {
1495 s
->dma_dac
.count
+= diff
;
1496 if (s
->status
& DO_DUAL_DAC
)
1497 s
->dma_adc
.count
+= diff
;
1498 if (s
->dma_dac
.count
>= (signed)s
->dma_dac
.fragsize
)
1499 wake_up(&s
->dma_dac
.wait
);
1501 s
->dma_dac
.count
-= diff
;
1502 if (s
->status
& DO_DUAL_DAC
)
1503 s
->dma_adc
.count
-= diff
;
1504 if (s
->dma_dac
.count
<= 0) {
1507 } else if (s
->dma_dac
.count
<= (signed)s
->dma_dac
.fragsize
&& !s
->dma_dac
.endcleared
) {
1509 s
->dma_dac
.endcleared
= 1;
1510 if (s
->status
& DO_DUAL_DAC
)
1511 s
->dma_adc
.endcleared
= 1;
1513 if (s
->dma_dac
.count
+ (signed)s
->dma_dac
.fragsize
<= (signed)s
->dma_dac
.dmasize
)
1514 wake_up(&s
->dma_dac
.wait
);
1519 static irqreturn_t
cm_interrupt(int irq
, void *dev_id
, struct pt_regs
*regs
)
1521 struct cm_state
*s
= (struct cm_state
*)dev_id
;
1522 unsigned int intsrc
, intstat
;
1523 unsigned char mask
= 0;
1525 /* fastpath out, to ease interrupt sharing */
1526 intsrc
= inl(s
->iobase
+ CODEC_CMI_INT_STATUS
);
1527 if (!(intsrc
& 0x80000000))
1529 spin_lock(&s
->lock
);
1530 intstat
= inb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2);
1531 /* acknowledge interrupt */
1532 if (intsrc
& ADCINT
)
1534 if (intsrc
& DACINT
)
1536 outb(intstat
& ~mask
, s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2);
1537 outb(intstat
| mask
, s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2);
1539 spin_unlock(&s
->lock
);
1540 #ifdef CONFIG_SOUND_CMPCI_MIDI
1541 if (intsrc
& 0x00010000) { // UART interrupt
1542 if (s
->midi_devc
&& intchk_mpu401((void *)s
->midi_devc
))
1543 mpuintr(irq
, (void *)s
->midi_devc
, regs
);
1545 inb(s
->iomidi
);// dummy read
1551 /* --------------------------------------------------------------------- */
1553 static const char invalid_magic
[] = KERN_CRIT
"cmpci: invalid magic value\n";
1555 #define VALIDATE_STATE(s) \
1557 if (!(s) || (s)->magic != CM_MAGIC) { \
1558 printk(invalid_magic); \
1563 /* --------------------------------------------------------------------- */
1567 #define MT_4MUTEMONO 3
1569 #define MT_5MUTEMONO 5
1571 static const struct {
1577 } mixtable
[SOUND_MIXER_NRDEVICES
] = {
1578 [SOUND_MIXER_CD
] = { DSP_MIX_CDVOLIDX_L
, DSP_MIX_CDVOLIDX_R
, MT_5MUTE
, 0x04, 0x06 },
1579 [SOUND_MIXER_LINE
] = { DSP_MIX_LINEVOLIDX_L
, DSP_MIX_LINEVOLIDX_R
, MT_5MUTE
, 0x10, 0x18 },
1580 [SOUND_MIXER_MIC
] = { DSP_MIX_MICVOLIDX
, DSP_MIX_MICVOLIDX
, MT_5MUTEMONO
, 0x01, 0x01 },
1581 [SOUND_MIXER_SYNTH
] = { DSP_MIX_FMVOLIDX_L
, DSP_MIX_FMVOLIDX_R
, MT_5MUTE
, 0x40, 0x00 },
1582 [SOUND_MIXER_VOLUME
] = { DSP_MIX_MASTERVOLIDX_L
, DSP_MIX_MASTERVOLIDX_R
, MT_5MUTE
, 0x00, 0x00 },
1583 [SOUND_MIXER_PCM
] = { DSP_MIX_VOICEVOLIDX_L
, DSP_MIX_VOICEVOLIDX_R
, MT_5MUTE
, 0x00, 0x00 },
1584 [SOUND_MIXER_LINE1
] = { DSP_MIX_AUXVOL_L
, DSP_MIX_AUXVOL_R
, MT_5MUTE
, 0x80, 0x60 },
1585 [SOUND_MIXER_SPEAKER
]= { DSP_MIX_SPKRVOLIDX
, DSP_MIX_SPKRVOLIDX
, MT_5MUTEMONO
, 0x00, 0x01 }
1588 static const unsigned char volidx
[SOUND_MIXER_NRDEVICES
] =
1590 [SOUND_MIXER_CD
] = 1,
1591 [SOUND_MIXER_LINE
] = 2,
1592 [SOUND_MIXER_MIC
] = 3,
1593 [SOUND_MIXER_SYNTH
] = 4,
1594 [SOUND_MIXER_VOLUME
] = 5,
1595 [SOUND_MIXER_PCM
] = 6,
1596 [SOUND_MIXER_LINE1
] = 7,
1597 [SOUND_MIXER_SPEAKER
]= 8
1600 static unsigned mixer_outmask(struct cm_state
*s
)
1602 unsigned long flags
;
1605 spin_lock_irqsave(&s
->lock
, flags
);
1606 j
= rdmixer(s
, DSP_MIX_OUTMIXIDX
);
1607 spin_unlock_irqrestore(&s
->lock
, flags
);
1608 for (k
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1609 if (j
& mixtable
[i
].play
)
1614 static unsigned mixer_recmask(struct cm_state
*s
)
1616 unsigned long flags
;
1619 spin_lock_irqsave(&s
->lock
, flags
);
1620 j
= rdmixer(s
, DSP_MIX_ADCMIXIDX_L
);
1621 spin_unlock_irqrestore(&s
->lock
, flags
);
1622 for (k
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1623 if (j
& mixtable
[i
].rec
)
1628 static int mixer_ioctl(struct cm_state
*s
, unsigned int cmd
, unsigned long arg
)
1630 unsigned long flags
;
1632 unsigned char l
, r
, rl
, rr
;
1633 void __user
*argp
= (void __user
*)arg
;
1634 int __user
*p
= argp
;
1637 if (cmd
== SOUND_MIXER_INFO
) {
1639 memset(&info
, 0, sizeof(info
));
1640 strlcpy(info
.id
, "cmpci", sizeof(info
.id
));
1641 strlcpy(info
.name
, "C-Media PCI", sizeof(info
.name
));
1642 info
.modify_counter
= s
->mix
.modcnt
;
1643 if (copy_to_user(argp
, &info
, sizeof(info
)))
1647 if (cmd
== SOUND_OLD_MIXER_INFO
) {
1648 _old_mixer_info info
;
1649 memset(&info
, 0, sizeof(info
));
1650 strlcpy(info
.id
, "cmpci", sizeof(info
.id
));
1651 strlcpy(info
.name
, "C-Media cmpci", sizeof(info
.name
));
1652 if (copy_to_user(argp
, &info
, sizeof(info
)))
1656 if (cmd
== OSS_GETVERSION
)
1657 return put_user(SOUND_VERSION
, p
);
1658 if (_IOC_TYPE(cmd
) != 'M' || _SIOC_SIZE(cmd
) != sizeof(int))
1660 if (_SIOC_DIR(cmd
) == _SIOC_READ
) {
1661 switch (_IOC_NR(cmd
)) {
1662 case SOUND_MIXER_RECSRC
: /* Arg contains a bit for each recording source */
1663 val
= mixer_recmask(s
);
1664 return put_user(val
, p
);
1666 case SOUND_MIXER_OUTSRC
: /* Arg contains a bit for each recording source */
1667 val
= mixer_outmask(s
);
1668 return put_user(val
, p
);
1670 case SOUND_MIXER_DEVMASK
: /* Arg contains a bit for each supported device */
1671 for (val
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1672 if (mixtable
[i
].type
)
1674 return put_user(val
, p
);
1676 case SOUND_MIXER_RECMASK
: /* Arg contains a bit for each supported recording source */
1677 for (val
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1678 if (mixtable
[i
].rec
)
1680 return put_user(val
, p
);
1682 case SOUND_MIXER_OUTMASK
: /* Arg contains a bit for each supported recording source */
1683 for (val
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1684 if (mixtable
[i
].play
)
1686 return put_user(val
, p
);
1688 case SOUND_MIXER_STEREODEVS
: /* Mixer channels supporting stereo */
1689 for (val
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++)
1690 if (mixtable
[i
].type
&& mixtable
[i
].type
!= MT_4MUTEMONO
)
1692 return put_user(val
, p
);
1694 case SOUND_MIXER_CAPS
:
1695 return put_user(0, p
);
1699 if (i
>= SOUND_MIXER_NRDEVICES
|| !mixtable
[i
].type
)
1703 return put_user(s
->mix
.vol
[volidx
[i
]-1], p
);
1706 if (_SIOC_DIR(cmd
) != (_SIOC_READ
|_SIOC_WRITE
))
1709 switch (_IOC_NR(cmd
)) {
1710 case SOUND_MIXER_RECSRC
: /* Arg contains a bit for each recording source */
1711 if (get_user(val
, p
))
1713 i
= generic_hweight32(val
);
1714 for (j
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++) {
1715 if (!(val
& (1 << i
)))
1717 if (!mixtable
[i
].rec
) {
1721 j
|= mixtable
[i
].rec
;
1723 spin_lock_irqsave(&s
->lock
, flags
);
1724 wrmixer(s
, DSP_MIX_ADCMIXIDX_L
, j
);
1725 wrmixer(s
, DSP_MIX_ADCMIXIDX_R
, (j
& 1) | (j
>>1) | (j
& 0x80));
1726 spin_unlock_irqrestore(&s
->lock
, flags
);
1729 case SOUND_MIXER_OUTSRC
: /* Arg contains a bit for each recording source */
1730 if (get_user(val
, p
))
1732 for (j
= i
= 0; i
< SOUND_MIXER_NRDEVICES
; i
++) {
1733 if (!(val
& (1 << i
)))
1735 if (!mixtable
[i
].play
) {
1739 j
|= mixtable
[i
].play
;
1741 spin_lock_irqsave(&s
->lock
, flags
);
1742 wrmixer(s
, DSP_MIX_OUTMIXIDX
, j
);
1743 spin_unlock_irqrestore(&s
->lock
, flags
);
1748 if (i
>= SOUND_MIXER_NRDEVICES
|| !mixtable
[i
].type
)
1750 if (get_user(val
, p
))
1753 r
= (val
>> 8) & 0xff;
1758 spin_lock_irqsave(&s
->lock
, flags
);
1759 switch (mixtable
[i
].type
) {
1765 frobindir(s
, mixtable
[i
].left
, 0xf0, l
/ 6);
1766 frobindir(s
, mixtable
[i
].right
, 0xf0, l
/ 6);
1770 rl
= (l
< 4 ? 0 : (l
- 5) / 3) & 31;
1772 wrmixer(s
, mixtable
[i
].left
, rl
<<3);
1773 if (i
== SOUND_MIXER_MIC
)
1774 maskb(s
->iobase
+ CODEC_CMI_MIXER2
, ~0x0e, rr
<<1);
1778 rl
= l
< 4 ? 0 : (l
- 5) / 3;
1779 wrmixer(s
, mixtable
[i
].left
, rl
<<3);
1780 l
= rdmixer(s
, DSP_MIX_OUTMIXIDX
) & ~mixtable
[i
].play
;
1781 r
= rl
? mixtable
[i
].play
: 0;
1782 wrmixer(s
, DSP_MIX_OUTMIXIDX
, l
| r
);
1784 if (i
== SOUND_MIXER_MIC
) {
1785 if (s
->chip_version
>= 37) {
1787 maskb(s
->iobase
+ CODEC_CMI_MIXER2
, ~0x0e, (rr
&0x07)<<1);
1788 frobindir(s
, DSP_MIX_EXTENSION
, ~0x01, rr
>>3);
1791 maskb(s
->iobase
+ CODEC_CMI_MIXER2
, ~0x0e, rr
<<1);
1797 rl
= l
< 4 ? 0 : (l
- 5) / 3;
1798 rr
= r
< 4 ? 0 : (r
- 5) / 3;
1799 wrmixer(s
, mixtable
[i
].left
, rl
<<3);
1800 wrmixer(s
, mixtable
[i
].right
, rr
<<3);
1801 l
= rdmixer(s
, DSP_MIX_OUTMIXIDX
);
1802 l
&= ~mixtable
[i
].play
;
1803 r
= (rl
|rr
) ? mixtable
[i
].play
: 0;
1804 wrmixer(s
, DSP_MIX_OUTMIXIDX
, l
| r
);
1816 wrmixer(s
, mixtable
[i
].left
, rl
);
1817 wrmixer(s
, mixtable
[i
].right
, rr
);
1820 spin_unlock_irqrestore(&s
->lock
, flags
);
1824 s
->mix
.vol
[volidx
[i
]-1] = val
;
1825 return put_user(s
->mix
.vol
[volidx
[i
]-1], p
);
1829 /* --------------------------------------------------------------------- */
1831 static int cm_open_mixdev(struct inode
*inode
, struct file
*file
)
1833 int minor
= iminor(inode
);
1834 struct list_head
*list
;
1837 for (list
= devs
.next
; ; list
= list
->next
) {
1840 s
= list_entry(list
, struct cm_state
, devs
);
1841 if (s
->dev_mixer
== minor
)
1845 file
->private_data
= s
;
1846 return nonseekable_open(inode
, file
);
1849 static int cm_release_mixdev(struct inode
*inode
, struct file
*file
)
1851 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
1857 static int cm_ioctl_mixdev(struct inode
*inode
, struct file
*file
, unsigned int cmd
, unsigned long arg
)
1859 return mixer_ioctl((struct cm_state
*)file
->private_data
, cmd
, arg
);
1862 static /*const*/ struct file_operations cm_mixer_fops
= {
1863 .owner
= THIS_MODULE
,
1864 .llseek
= no_llseek
,
1865 .ioctl
= cm_ioctl_mixdev
,
1866 .open
= cm_open_mixdev
,
1867 .release
= cm_release_mixdev
,
1871 /* --------------------------------------------------------------------- */
1873 static int drain_dac(struct cm_state
*s
, int nonblock
)
1875 DECLARE_WAITQUEUE(wait
, current
);
1876 unsigned long flags
;
1879 if (s
->dma_dac
.mapped
|| !s
->dma_dac
.ready
)
1881 add_wait_queue(&s
->dma_dac
.wait
, &wait
);
1883 __set_current_state(TASK_INTERRUPTIBLE
);
1884 spin_lock_irqsave(&s
->lock
, flags
);
1885 count
= s
->dma_dac
.count
;
1886 spin_unlock_irqrestore(&s
->lock
, flags
);
1889 if (signal_pending(current
))
1892 remove_wait_queue(&s
->dma_dac
.wait
, &wait
);
1893 set_current_state(TASK_RUNNING
);
1896 tmo
= 3 * HZ
* (count
+ s
->dma_dac
.fragsize
) / 2 / s
->ratedac
;
1897 tmo
>>= sample_shift
[(s
->fmt
>> CM_CFMT_DACSHIFT
) & CM_CFMT_MASK
];
1898 if (!schedule_timeout(tmo
+ 1))
1899 DBG(printk(KERN_DEBUG
"cmpci: dma timed out??\n");)
1901 remove_wait_queue(&s
->dma_dac
.wait
, &wait
);
1902 set_current_state(TASK_RUNNING
);
1903 if (signal_pending(current
))
1904 return -ERESTARTSYS
;
1908 /* --------------------------------------------------------------------- */
1910 static ssize_t
cm_read(struct file
*file
, char __user
*buffer
, size_t count
, loff_t
*ppos
)
1912 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
1913 DECLARE_WAITQUEUE(wait
, current
);
1915 unsigned long flags
;
1920 if (s
->dma_adc
.mapped
)
1922 if (!s
->dma_adc
.ready
&& (ret
= prog_dmabuf(s
, 1)))
1924 if (!access_ok(VERIFY_WRITE
, buffer
, count
))
1928 add_wait_queue(&s
->dma_adc
.wait
, &wait
);
1930 spin_lock_irqsave(&s
->lock
, flags
);
1931 swptr
= s
->dma_adc
.swptr
;
1932 cnt
= s
->dma_adc
.dmasize
-swptr
;
1933 if (s
->dma_adc
.count
< cnt
)
1934 cnt
= s
->dma_adc
.count
;
1936 __set_current_state(TASK_INTERRUPTIBLE
);
1937 spin_unlock_irqrestore(&s
->lock
, flags
);
1941 if (s
->dma_adc
.enabled
)
1943 if (file
->f_flags
& O_NONBLOCK
) {
1948 if (!schedule_timeout(HZ
)) {
1949 printk(KERN_DEBUG
"cmpci: read: chip lockup? dmasz %u fragsz %u count %i hwptr %u swptr %u\n",
1950 s
->dma_adc
.dmasize
, s
->dma_adc
.fragsize
, s
->dma_adc
.count
,
1951 s
->dma_adc
.hwptr
, s
->dma_adc
.swptr
);
1952 spin_lock_irqsave(&s
->lock
, flags
);
1953 stop_adc_unlocked(s
);
1954 set_dmaadc(s
, s
->dma_adc
.dmaaddr
, s
->dma_adc
.dmasamples
);
1955 /* program sample counts */
1956 set_countadc(s
, s
->dma_adc
.fragsamples
);
1957 s
->dma_adc
.count
= s
->dma_adc
.hwptr
= s
->dma_adc
.swptr
= 0;
1958 spin_unlock_irqrestore(&s
->lock
, flags
);
1960 if (signal_pending(current
)) {
1967 if (s
->status
& DO_BIGENDIAN_R
) {
1970 char __user
*dst
= buffer
;
1971 unsigned char data
[2];
1973 src
= (unsigned char *) (s
->dma_adc
.rawbuf
+ swptr
);
1974 // copy left/right sample at one time
1975 for (i
= 0; i
< cnt
/ 2; i
++) {
1978 if ((err
= __put_user(data
[0], dst
++))) {
1982 if ((err
= __put_user(data
[1], dst
++))) {
1988 } else if (copy_to_user(buffer
, s
->dma_adc
.rawbuf
+ swptr
, cnt
)) {
1993 swptr
= (swptr
+ cnt
) % s
->dma_adc
.dmasize
;
1994 spin_lock_irqsave(&s
->lock
, flags
);
1995 s
->dma_adc
.swptr
= swptr
;
1996 s
->dma_adc
.count
-= cnt
;
2000 if (s
->dma_adc
.enabled
)
2001 start_adc_unlocked(s
);
2002 spin_unlock_irqrestore(&s
->lock
, flags
);
2005 remove_wait_queue(&s
->dma_adc
.wait
, &wait
);
2006 set_current_state(TASK_RUNNING
);
2010 static ssize_t
cm_write(struct file
*file
, const char __user
*buffer
, size_t count
, loff_t
*ppos
)
2012 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
2013 DECLARE_WAITQUEUE(wait
, current
);
2015 unsigned long flags
;
2020 if (s
->dma_dac
.mapped
)
2022 if (!s
->dma_dac
.ready
&& (ret
= prog_dmabuf(s
, 0)))
2024 if (!access_ok(VERIFY_READ
, buffer
, count
))
2026 if (s
->status
& DO_DUAL_DAC
) {
2027 if (s
->dma_adc
.mapped
)
2029 if (!s
->dma_adc
.ready
&& (ret
= prog_dmabuf(s
, 1)))
2032 if (!access_ok(VERIFY_READ
, buffer
, count
))
2036 add_wait_queue(&s
->dma_dac
.wait
, &wait
);
2038 spin_lock_irqsave(&s
->lock
, flags
);
2039 if (s
->dma_dac
.count
< 0) {
2040 s
->dma_dac
.count
= 0;
2041 s
->dma_dac
.swptr
= s
->dma_dac
.hwptr
;
2043 if (s
->status
& DO_DUAL_DAC
) {
2044 s
->dma_adc
.swptr
= s
->dma_dac
.swptr
;
2045 s
->dma_adc
.count
= s
->dma_dac
.count
;
2046 s
->dma_adc
.endcleared
= s
->dma_dac
.endcleared
;
2048 swptr
= s
->dma_dac
.swptr
;
2049 cnt
= s
->dma_dac
.dmasize
-swptr
;
2050 if (s
->status
& DO_AC3_SW
) {
2051 if (s
->dma_dac
.count
+ 2 * cnt
> s
->dma_dac
.dmasize
)
2052 cnt
= (s
->dma_dac
.dmasize
- s
->dma_dac
.count
) / 2;
2054 if (s
->dma_dac
.count
+ cnt
> s
->dma_dac
.dmasize
)
2055 cnt
= s
->dma_dac
.dmasize
- s
->dma_dac
.count
;
2058 __set_current_state(TASK_INTERRUPTIBLE
);
2059 spin_unlock_irqrestore(&s
->lock
, flags
);
2062 if ((s
->status
& DO_DUAL_DAC
) && (cnt
> count
/ 2))
2065 if (s
->dma_dac
.enabled
)
2067 if (file
->f_flags
& O_NONBLOCK
) {
2072 if (!schedule_timeout(HZ
)) {
2073 printk(KERN_DEBUG
"cmpci: write: chip lockup? dmasz %u fragsz %u count %i hwptr %u swptr %u\n",
2074 s
->dma_dac
.dmasize
, s
->dma_dac
.fragsize
, s
->dma_dac
.count
,
2075 s
->dma_dac
.hwptr
, s
->dma_dac
.swptr
);
2076 spin_lock_irqsave(&s
->lock
, flags
);
2077 stop_dac_unlocked(s
);
2078 set_dmadac(s
, s
->dma_dac
.dmaaddr
, s
->dma_dac
.dmasamples
);
2079 /* program sample counts */
2080 set_countdac(s
, s
->dma_dac
.fragsamples
);
2081 s
->dma_dac
.count
= s
->dma_dac
.hwptr
= s
->dma_dac
.swptr
= 0;
2082 if (s
->status
& DO_DUAL_DAC
) {
2083 set_dmadac1(s
, s
->dma_adc
.dmaaddr
, s
->dma_adc
.dmasamples
);
2084 s
->dma_adc
.count
= s
->dma_adc
.hwptr
= s
->dma_adc
.swptr
= 0;
2086 spin_unlock_irqrestore(&s
->lock
, flags
);
2088 if (signal_pending(current
)) {
2095 if (s
->status
& DO_AC3_SW
) {
2098 // clip exceeded data, caught by 033 and 037
2099 if (swptr
+ 2 * cnt
> s
->dma_dac
.dmasize
)
2100 cnt
= (s
->dma_dac
.dmasize
- swptr
) / 2;
2101 if ((err
= trans_ac3(s
, s
->dma_dac
.rawbuf
+ swptr
, buffer
, cnt
))) {
2105 swptr
= (swptr
+ 2 * cnt
) % s
->dma_dac
.dmasize
;
2106 } else if ((s
->status
& DO_DUAL_DAC
) && (s
->status
& DO_BIGENDIAN_W
)) {
2108 const char __user
*src
= buffer
;
2109 unsigned char *dst0
, *dst1
;
2110 unsigned char data
[8];
2112 dst0
= (unsigned char *) (s
->dma_dac
.rawbuf
+ swptr
);
2113 dst1
= (unsigned char *) (s
->dma_adc
.rawbuf
+ swptr
);
2114 // copy left/right sample at one time
2115 for (i
= 0; i
< cnt
/ 4; i
++) {
2116 if ((err
= __get_user(data
[0], src
++))) {
2120 if ((err
= __get_user(data
[1], src
++))) {
2124 if ((err
= __get_user(data
[2], src
++))) {
2128 if ((err
= __get_user(data
[3], src
++))) {
2132 if ((err
= __get_user(data
[4], src
++))) {
2136 if ((err
= __get_user(data
[5], src
++))) {
2140 if ((err
= __get_user(data
[6], src
++))) {
2144 if ((err
= __get_user(data
[7], src
++))) {
2159 swptr
= (swptr
+ cnt
) % s
->dma_dac
.dmasize
;
2160 } else if (s
->status
& DO_DUAL_DAC
) {
2162 unsigned long __user
*src
= (unsigned long __user
*) buffer
;
2163 unsigned long *dst0
, *dst1
;
2165 dst0
= (unsigned long *) (s
->dma_dac
.rawbuf
+ swptr
);
2166 dst1
= (unsigned long *) (s
->dma_adc
.rawbuf
+ swptr
);
2167 // copy left/right sample at one time
2168 for (i
= 0; i
< cnt
/ 4; i
++) {
2169 if ((err
= __get_user(*dst0
++, src
++))) {
2173 if ((err
= __get_user(*dst1
++, src
++))) {
2178 swptr
= (swptr
+ cnt
) % s
->dma_dac
.dmasize
;
2179 } else if (s
->status
& DO_BIGENDIAN_W
) {
2181 const char __user
*src
= buffer
;
2183 unsigned char data
[2];
2185 dst
= (unsigned char *) (s
->dma_dac
.rawbuf
+ swptr
);
2186 // swap hi/lo bytes for each sample
2187 for (i
= 0; i
< cnt
/ 2; i
++) {
2188 if ((err
= __get_user(data
[0], src
++))) {
2192 if ((err
= __get_user(data
[1], src
++))) {
2200 swptr
= (swptr
+ cnt
) % s
->dma_dac
.dmasize
;
2202 if (copy_from_user(s
->dma_dac
.rawbuf
+ swptr
, buffer
, cnt
)) {
2207 swptr
= (swptr
+ cnt
) % s
->dma_dac
.dmasize
;
2209 spin_lock_irqsave(&s
->lock
, flags
);
2210 s
->dma_dac
.swptr
= swptr
;
2211 s
->dma_dac
.count
+= cnt
;
2212 if (s
->status
& DO_AC3_SW
)
2213 s
->dma_dac
.count
+= cnt
;
2214 s
->dma_dac
.endcleared
= 0;
2215 spin_unlock_irqrestore(&s
->lock
, flags
);
2219 if (s
->status
& DO_DUAL_DAC
) {
2224 if (s
->dma_dac
.enabled
)
2228 remove_wait_queue(&s
->dma_dac
.wait
, &wait
);
2229 set_current_state(TASK_RUNNING
);
2233 static unsigned int cm_poll(struct file
*file
, struct poll_table_struct
*wait
)
2235 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
2236 unsigned long flags
;
2237 unsigned int mask
= 0;
2240 if (file
->f_mode
& FMODE_WRITE
) {
2241 if (!s
->dma_dac
.ready
&& prog_dmabuf(s
, 0))
2243 poll_wait(file
, &s
->dma_dac
.wait
, wait
);
2245 if (file
->f_mode
& FMODE_READ
) {
2246 if (!s
->dma_adc
.ready
&& prog_dmabuf(s
, 1))
2248 poll_wait(file
, &s
->dma_adc
.wait
, wait
);
2250 spin_lock_irqsave(&s
->lock
, flags
);
2252 if (file
->f_mode
& FMODE_READ
) {
2253 if (s
->dma_adc
.count
>= (signed)s
->dma_adc
.fragsize
)
2254 mask
|= POLLIN
| POLLRDNORM
;
2256 if (file
->f_mode
& FMODE_WRITE
) {
2257 if (s
->dma_dac
.mapped
) {
2258 if (s
->dma_dac
.count
>= (signed)s
->dma_dac
.fragsize
)
2259 mask
|= POLLOUT
| POLLWRNORM
;
2261 if ((signed)s
->dma_dac
.dmasize
>= s
->dma_dac
.count
+ (signed)s
->dma_dac
.fragsize
)
2262 mask
|= POLLOUT
| POLLWRNORM
;
2265 spin_unlock_irqrestore(&s
->lock
, flags
);
2269 static int cm_mmap(struct file
*file
, struct vm_area_struct
*vma
)
2271 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
2278 if (vma
->vm_flags
& VM_WRITE
) {
2279 if ((ret
= prog_dmabuf(s
, 0)) != 0)
2282 } else if (vma
->vm_flags
& VM_READ
) {
2283 if ((ret
= prog_dmabuf(s
, 1)) != 0)
2289 if (vma
->vm_pgoff
!= 0)
2291 size
= vma
->vm_end
- vma
->vm_start
;
2292 if (size
> (PAGE_SIZE
<< db
->buforder
))
2295 if (remap_pfn_range(vma
, vma
->vm_start
,
2296 virt_to_phys(db
->rawbuf
) >> PAGE_SHIFT
,
2297 size
, vma
->vm_page_prot
))
2306 #define SNDCTL_SPDIF_COPYRIGHT _SIOW('S', 0, int) // set/reset S/PDIF copy protection
2307 #define SNDCTL_SPDIF_LOOP _SIOW('S', 1, int) // set/reset S/PDIF loop
2308 #define SNDCTL_SPDIF_MONITOR _SIOW('S', 2, int) // set S/PDIF monitor
2309 #define SNDCTL_SPDIF_LEVEL _SIOW('S', 3, int) // set/reset S/PDIF out level
2310 #define SNDCTL_SPDIF_INV _SIOW('S', 4, int) // set/reset S/PDIF in inverse
2311 #define SNDCTL_SPDIF_SEL2 _SIOW('S', 5, int) // set S/PDIF in #2
2312 #define SNDCTL_SPDIF_VALID _SIOW('S', 6, int) // set S/PDIF valid
2313 #define SNDCTL_SPDIFOUT _SIOW('S', 7, int) // set S/PDIF out
2314 #define SNDCTL_SPDIFIN _SIOW('S', 8, int) // set S/PDIF out
2316 static int cm_ioctl(struct inode
*inode
, struct file
*file
, unsigned int cmd
, unsigned long arg
)
2318 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
2319 unsigned long flags
;
2320 audio_buf_info abinfo
;
2322 int val
, mapped
, ret
;
2323 unsigned char fmtm
, fmtd
;
2324 void __user
*argp
= (void __user
*)arg
;
2325 int __user
*p
= argp
;
2328 mapped
= ((file
->f_mode
& FMODE_WRITE
) && s
->dma_dac
.mapped
) ||
2329 ((file
->f_mode
& FMODE_READ
) && s
->dma_adc
.mapped
);
2331 case OSS_GETVERSION
:
2332 return put_user(SOUND_VERSION
, p
);
2334 case SNDCTL_DSP_SYNC
:
2335 if (file
->f_mode
& FMODE_WRITE
)
2336 return drain_dac(s
, 0/*file->f_flags & O_NONBLOCK*/);
2339 case SNDCTL_DSP_SETDUPLEX
:
2342 case SNDCTL_DSP_GETCAPS
:
2343 return put_user(DSP_CAP_DUPLEX
| DSP_CAP_REALTIME
| DSP_CAP_TRIGGER
| DSP_CAP_MMAP
| DSP_CAP_BIND
, p
);
2345 case SNDCTL_DSP_RESET
:
2346 if (file
->f_mode
& FMODE_WRITE
) {
2348 synchronize_irq(s
->irq
);
2349 s
->dma_dac
.swptr
= s
->dma_dac
.hwptr
= s
->dma_dac
.count
= s
->dma_dac
.total_bytes
= 0;
2350 if (s
->status
& DO_DUAL_DAC
)
2351 s
->dma_adc
.swptr
= s
->dma_adc
.hwptr
= s
->dma_adc
.count
= s
->dma_adc
.total_bytes
= 0;
2353 if (file
->f_mode
& FMODE_READ
) {
2355 synchronize_irq(s
->irq
);
2356 s
->dma_adc
.swptr
= s
->dma_adc
.hwptr
= s
->dma_adc
.count
= s
->dma_adc
.total_bytes
= 0;
2360 case SNDCTL_DSP_SPEED
:
2361 if (get_user(val
, p
))
2364 if (file
->f_mode
& FMODE_READ
) {
2365 spin_lock_irqsave(&s
->lock
, flags
);
2366 stop_adc_unlocked(s
);
2367 s
->dma_adc
.ready
= 0;
2368 set_adc_rate_unlocked(s
, val
);
2369 spin_unlock_irqrestore(&s
->lock
, flags
);
2371 if (file
->f_mode
& FMODE_WRITE
) {
2373 s
->dma_dac
.ready
= 0;
2374 if (s
->status
& DO_DUAL_DAC
)
2375 s
->dma_adc
.ready
= 0;
2376 set_dac_rate(s
, val
);
2379 return put_user((file
->f_mode
& FMODE_READ
) ? s
->rateadc
: s
->ratedac
, p
);
2381 case SNDCTL_DSP_STEREO
:
2382 if (get_user(val
, p
))
2386 if (file
->f_mode
& FMODE_READ
) {
2388 s
->dma_adc
.ready
= 0;
2390 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
2392 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
);
2394 if (file
->f_mode
& FMODE_WRITE
) {
2396 s
->dma_dac
.ready
= 0;
2398 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
;
2400 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
);
2401 if (s
->status
& DO_DUAL_DAC
) {
2402 s
->dma_adc
.ready
= 0;
2404 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
2406 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
);
2409 set_fmt(s
, fmtm
, fmtd
);
2412 case SNDCTL_DSP_CHANNELS
:
2413 if (get_user(val
, p
))
2418 if (file
->f_mode
& FMODE_READ
) {
2420 s
->dma_adc
.ready
= 0;
2422 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
2424 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
);
2426 if (file
->f_mode
& FMODE_WRITE
) {
2428 s
->dma_dac
.ready
= 0;
2430 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
;
2432 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
);
2433 if (s
->status
& DO_DUAL_DAC
) {
2434 s
->dma_adc
.ready
= 0;
2436 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
2438 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
);
2441 set_fmt(s
, fmtm
, fmtd
);
2442 if ((s
->capability
& CAN_MULTI_CH
)
2443 && (file
->f_mode
& FMODE_WRITE
)) {
2444 val
= set_dac_channels(s
, val
);
2445 return put_user(val
, p
);
2448 return put_user((s
->fmt
& ((file
->f_mode
& FMODE_READ
) ? (CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
)
2449 : (CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
))) ? 2 : 1, p
);
2451 case SNDCTL_DSP_GETFMTS
: /* Returns a mask */
2452 return put_user(AFMT_S16_BE
|AFMT_S16_LE
|AFMT_U8
|
2453 ((s
->capability
& CAN_AC3
) ? AFMT_AC3
: 0), p
);
2455 case SNDCTL_DSP_SETFMT
: /* Selects ONE fmt*/
2456 if (get_user(val
, p
))
2458 if (val
!= AFMT_QUERY
) {
2461 if (file
->f_mode
& FMODE_READ
) {
2463 s
->dma_adc
.ready
= 0;
2464 if (val
== AFMT_S16_BE
|| val
== AFMT_S16_LE
)
2465 fmtd
|= CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
;
2467 fmtm
&= ~(CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
);
2468 if (val
== AFMT_S16_BE
)
2469 s
->status
|= DO_BIGENDIAN_R
;
2471 s
->status
&= ~DO_BIGENDIAN_R
;
2473 if (file
->f_mode
& FMODE_WRITE
) {
2475 s
->dma_dac
.ready
= 0;
2476 if (val
== AFMT_S16_BE
|| val
== AFMT_S16_LE
|| val
== AFMT_AC3
)
2477 fmtd
|= CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
;
2479 fmtm
&= ~(CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
);
2480 if (val
== AFMT_AC3
) {
2481 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
;
2485 if (s
->status
& DO_DUAL_DAC
) {
2486 s
->dma_adc
.ready
= 0;
2487 if (val
== AFMT_S16_BE
|| val
== AFMT_S16_LE
)
2488 fmtd
|= CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
;
2490 fmtm
&= ~(CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
);
2492 if (val
== AFMT_S16_BE
)
2493 s
->status
|= DO_BIGENDIAN_W
;
2495 s
->status
&= ~DO_BIGENDIAN_W
;
2497 set_fmt(s
, fmtm
, fmtd
);
2499 if (s
->status
& DO_AC3
) return put_user(AFMT_AC3
, p
);
2500 return put_user((s
->fmt
& ((file
->f_mode
& FMODE_READ
) ? (CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
)
2501 : (CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
))) ? val
: AFMT_U8
, p
);
2503 case SNDCTL_DSP_POST
:
2506 case SNDCTL_DSP_GETTRIGGER
:
2508 if (s
->status
& DO_DUAL_DAC
) {
2509 if (file
->f_mode
& FMODE_WRITE
&&
2510 (s
->enable
& ENDAC
) &&
2511 (s
->enable
& ENADC
))
2512 val
|= PCM_ENABLE_OUTPUT
;
2513 return put_user(val
, p
);
2515 if (file
->f_mode
& FMODE_READ
&& s
->enable
& ENADC
)
2516 val
|= PCM_ENABLE_INPUT
;
2517 if (file
->f_mode
& FMODE_WRITE
&& s
->enable
& ENDAC
)
2518 val
|= PCM_ENABLE_OUTPUT
;
2519 return put_user(val
, p
);
2521 case SNDCTL_DSP_SETTRIGGER
:
2522 if (get_user(val
, p
))
2524 if (file
->f_mode
& FMODE_READ
) {
2525 if (val
& PCM_ENABLE_INPUT
) {
2526 if (!s
->dma_adc
.ready
&& (ret
= prog_dmabuf(s
, 1)))
2528 s
->dma_adc
.enabled
= 1;
2531 s
->dma_adc
.enabled
= 0;
2535 if (file
->f_mode
& FMODE_WRITE
) {
2536 if (val
& PCM_ENABLE_OUTPUT
) {
2537 if (!s
->dma_dac
.ready
&& (ret
= prog_dmabuf(s
, 0)))
2539 if (s
->status
& DO_DUAL_DAC
) {
2540 if (!s
->dma_adc
.ready
&& (ret
= prog_dmabuf(s
, 1)))
2543 s
->dma_dac
.enabled
= 1;
2546 s
->dma_dac
.enabled
= 0;
2552 case SNDCTL_DSP_GETOSPACE
:
2553 if (!(file
->f_mode
& FMODE_WRITE
))
2555 if (!(s
->enable
& ENDAC
) && (val
= prog_dmabuf(s
, 0)) != 0)
2557 spin_lock_irqsave(&s
->lock
, flags
);
2559 abinfo
.fragsize
= s
->dma_dac
.fragsize
;
2560 abinfo
.bytes
= s
->dma_dac
.dmasize
- s
->dma_dac
.count
;
2561 abinfo
.fragstotal
= s
->dma_dac
.numfrag
;
2562 abinfo
.fragments
= abinfo
.bytes
>> s
->dma_dac
.fragshift
;
2563 spin_unlock_irqrestore(&s
->lock
, flags
);
2564 return copy_to_user(argp
, &abinfo
, sizeof(abinfo
)) ? -EFAULT
: 0;
2566 case SNDCTL_DSP_GETISPACE
:
2567 if (!(file
->f_mode
& FMODE_READ
))
2569 if (!(s
->enable
& ENADC
) && (val
= prog_dmabuf(s
, 1)) != 0)
2571 spin_lock_irqsave(&s
->lock
, flags
);
2573 abinfo
.fragsize
= s
->dma_adc
.fragsize
;
2574 abinfo
.bytes
= s
->dma_adc
.count
;
2575 abinfo
.fragstotal
= s
->dma_adc
.numfrag
;
2576 abinfo
.fragments
= abinfo
.bytes
>> s
->dma_adc
.fragshift
;
2577 spin_unlock_irqrestore(&s
->lock
, flags
);
2578 return copy_to_user(argp
, &abinfo
, sizeof(abinfo
)) ? -EFAULT
: 0;
2580 case SNDCTL_DSP_NONBLOCK
:
2581 file
->f_flags
|= O_NONBLOCK
;
2584 case SNDCTL_DSP_GETODELAY
:
2585 if (!(file
->f_mode
& FMODE_WRITE
))
2587 spin_lock_irqsave(&s
->lock
, flags
);
2589 val
= s
->dma_dac
.count
;
2590 spin_unlock_irqrestore(&s
->lock
, flags
);
2591 return put_user(val
, p
);
2593 case SNDCTL_DSP_GETIPTR
:
2594 if (!(file
->f_mode
& FMODE_READ
))
2596 spin_lock_irqsave(&s
->lock
, flags
);
2598 cinfo
.bytes
= s
->dma_adc
.total_bytes
;
2599 cinfo
.blocks
= s
->dma_adc
.count
>> s
->dma_adc
.fragshift
;
2600 cinfo
.ptr
= s
->dma_adc
.hwptr
;
2601 if (s
->dma_adc
.mapped
)
2602 s
->dma_adc
.count
&= s
->dma_adc
.fragsize
-1;
2603 spin_unlock_irqrestore(&s
->lock
, flags
);
2604 return copy_to_user(argp
, &cinfo
, sizeof(cinfo
)) ? -EFAULT
: 0;
2606 case SNDCTL_DSP_GETOPTR
:
2607 if (!(file
->f_mode
& FMODE_WRITE
))
2609 spin_lock_irqsave(&s
->lock
, flags
);
2611 cinfo
.bytes
= s
->dma_dac
.total_bytes
;
2612 cinfo
.blocks
= s
->dma_dac
.count
>> s
->dma_dac
.fragshift
;
2613 cinfo
.ptr
= s
->dma_dac
.hwptr
;
2614 if (s
->dma_dac
.mapped
)
2615 s
->dma_dac
.count
&= s
->dma_dac
.fragsize
-1;
2616 if (s
->status
& DO_DUAL_DAC
) {
2617 if (s
->dma_adc
.mapped
)
2618 s
->dma_adc
.count
&= s
->dma_adc
.fragsize
-1;
2620 spin_unlock_irqrestore(&s
->lock
, flags
);
2621 return copy_to_user(argp
, &cinfo
, sizeof(cinfo
)) ? -EFAULT
: 0;
2623 case SNDCTL_DSP_GETBLKSIZE
:
2624 if (file
->f_mode
& FMODE_WRITE
) {
2625 if ((val
= prog_dmabuf(s
, 0)))
2627 if (s
->status
& DO_DUAL_DAC
) {
2628 if ((val
= prog_dmabuf(s
, 1)))
2630 return put_user(2 * s
->dma_dac
.fragsize
, p
);
2632 return put_user(s
->dma_dac
.fragsize
, p
);
2634 if ((val
= prog_dmabuf(s
, 1)))
2636 return put_user(s
->dma_adc
.fragsize
, p
);
2638 case SNDCTL_DSP_SETFRAGMENT
:
2639 if (get_user(val
, p
))
2641 if (file
->f_mode
& FMODE_READ
) {
2642 s
->dma_adc
.ossfragshift
= val
& 0xffff;
2643 s
->dma_adc
.ossmaxfrags
= (val
>> 16) & 0xffff;
2644 if (s
->dma_adc
.ossfragshift
< 4)
2645 s
->dma_adc
.ossfragshift
= 4;
2646 if (s
->dma_adc
.ossfragshift
> 15)
2647 s
->dma_adc
.ossfragshift
= 15;
2648 if (s
->dma_adc
.ossmaxfrags
< 4)
2649 s
->dma_adc
.ossmaxfrags
= 4;
2651 if (file
->f_mode
& FMODE_WRITE
) {
2652 s
->dma_dac
.ossfragshift
= val
& 0xffff;
2653 s
->dma_dac
.ossmaxfrags
= (val
>> 16) & 0xffff;
2654 if (s
->dma_dac
.ossfragshift
< 4)
2655 s
->dma_dac
.ossfragshift
= 4;
2656 if (s
->dma_dac
.ossfragshift
> 15)
2657 s
->dma_dac
.ossfragshift
= 15;
2658 if (s
->dma_dac
.ossmaxfrags
< 4)
2659 s
->dma_dac
.ossmaxfrags
= 4;
2660 if (s
->status
& DO_DUAL_DAC
) {
2661 s
->dma_adc
.ossfragshift
= s
->dma_dac
.ossfragshift
;
2662 s
->dma_adc
.ossmaxfrags
= s
->dma_dac
.ossmaxfrags
;
2667 case SNDCTL_DSP_SUBDIVIDE
:
2668 if ((file
->f_mode
& FMODE_READ
&& s
->dma_adc
.subdivision
) ||
2669 (file
->f_mode
& FMODE_WRITE
&& s
->dma_dac
.subdivision
))
2671 if (get_user(val
, p
))
2673 if (val
!= 1 && val
!= 2 && val
!= 4)
2675 if (file
->f_mode
& FMODE_READ
)
2676 s
->dma_adc
.subdivision
= val
;
2677 if (file
->f_mode
& FMODE_WRITE
) {
2678 s
->dma_dac
.subdivision
= val
;
2679 if (s
->status
& DO_DUAL_DAC
)
2680 s
->dma_adc
.subdivision
= val
;
2684 case SOUND_PCM_READ_RATE
:
2685 return put_user((file
->f_mode
& FMODE_READ
) ? s
->rateadc
: s
->ratedac
, p
);
2687 case SOUND_PCM_READ_CHANNELS
:
2688 return put_user((s
->fmt
& ((file
->f_mode
& FMODE_READ
) ? (CM_CFMT_STEREO
<< CM_CFMT_ADCSHIFT
) : (CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
))) ? 2 : 1, p
);
2690 case SOUND_PCM_READ_BITS
:
2691 return put_user((s
->fmt
& ((file
->f_mode
& FMODE_READ
) ? (CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
) : (CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
))) ? 16 : 8, p
);
2693 case SOUND_PCM_READ_FILTER
:
2694 return put_user((file
->f_mode
& FMODE_READ
) ? s
->rateadc
: s
->ratedac
, p
);
2696 case SNDCTL_DSP_GETCHANNELMASK
:
2697 return put_user(DSP_BIND_FRONT
|DSP_BIND_SURR
|DSP_BIND_CENTER_LFE
|DSP_BIND_SPDIF
, p
);
2699 case SNDCTL_DSP_BIND_CHANNEL
:
2700 if (get_user(val
, p
))
2702 if (val
== DSP_BIND_QUERY
) {
2703 val
= DSP_BIND_FRONT
;
2704 if (s
->status
& DO_SPDIF_OUT
)
2705 val
|= DSP_BIND_SPDIF
;
2707 if (s
->curr_channels
== 4)
2708 val
|= DSP_BIND_SURR
;
2709 if (s
->curr_channels
> 4)
2710 val
|= DSP_BIND_CENTER_LFE
;
2713 if (file
->f_mode
& FMODE_READ
) {
2715 s
->dma_adc
.ready
= 0;
2716 if (val
& DSP_BIND_SPDIF
) {
2717 set_spdifin(s
, s
->rateadc
);
2718 if (!(s
->status
& DO_SPDIF_OUT
))
2719 val
&= ~DSP_BIND_SPDIF
;
2722 if (file
->f_mode
& FMODE_WRITE
) {
2724 s
->dma_dac
.ready
= 0;
2725 if (val
& DSP_BIND_SPDIF
) {
2726 set_spdifout(s
, s
->ratedac
);
2727 set_dac_channels(s
, s
->fmt
& (CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
) ? 2 : 1);
2728 if (!(s
->status
& DO_SPDIF_OUT
))
2729 val
&= ~DSP_BIND_SPDIF
;
2734 mask
= val
& (DSP_BIND_FRONT
|DSP_BIND_SURR
|DSP_BIND_CENTER_LFE
);
2736 case DSP_BIND_FRONT
:
2739 case DSP_BIND_FRONT
|DSP_BIND_SURR
:
2742 case DSP_BIND_FRONT
|DSP_BIND_SURR
|DSP_BIND_CENTER_LFE
:
2746 channels
= s
->fmt
& (CM_CFMT_STEREO
<< CM_CFMT_DACSHIFT
) ? 2 : 1;
2749 set_dac_channels(s
, channels
);
2753 return put_user(val
, p
);
2755 case SOUND_PCM_WRITE_FILTER
:
2756 case SNDCTL_DSP_MAPINBUF
:
2757 case SNDCTL_DSP_MAPOUTBUF
:
2758 case SNDCTL_DSP_SETSYNCRO
:
2760 case SNDCTL_SPDIF_COPYRIGHT
:
2761 if (get_user(val
, p
))
2763 set_spdif_copyright(s
, val
);
2765 case SNDCTL_SPDIF_LOOP
:
2766 if (get_user(val
, p
))
2768 set_spdif_loop(s
, val
);
2770 case SNDCTL_SPDIF_MONITOR
:
2771 if (get_user(val
, p
))
2773 set_spdif_monitor(s
, val
);
2775 case SNDCTL_SPDIF_LEVEL
:
2776 if (get_user(val
, p
))
2778 set_spdifout_level(s
, val
);
2780 case SNDCTL_SPDIF_INV
:
2781 if (get_user(val
, p
))
2783 set_spdifin_inverse(s
, val
);
2785 case SNDCTL_SPDIF_SEL2
:
2786 if (get_user(val
, p
))
2788 set_spdifin_channel2(s
, val
);
2790 case SNDCTL_SPDIF_VALID
:
2791 if (get_user(val
, p
))
2793 set_spdifin_valid(s
, val
);
2795 case SNDCTL_SPDIFOUT
:
2796 if (get_user(val
, p
))
2798 set_spdifout(s
, val
? s
->ratedac
: 0);
2800 case SNDCTL_SPDIFIN
:
2801 if (get_user(val
, p
))
2803 set_spdifin(s
, val
? s
->rateadc
: 0);
2806 return mixer_ioctl(s
, cmd
, arg
);
2809 static int cm_open(struct inode
*inode
, struct file
*file
)
2811 int minor
= iminor(inode
);
2812 DECLARE_WAITQUEUE(wait
, current
);
2813 unsigned char fmtm
= ~0, fmts
= 0;
2814 struct list_head
*list
;
2817 for (list
= devs
.next
; ; list
= list
->next
) {
2820 s
= list_entry(list
, struct cm_state
, devs
);
2821 if (!((s
->dev_audio
^ minor
) & ~0xf))
2825 file
->private_data
= s
;
2826 /* wait for device to become free */
2828 while (s
->open_mode
& file
->f_mode
) {
2829 if (file
->f_flags
& O_NONBLOCK
) {
2833 add_wait_queue(&s
->open_wait
, &wait
);
2834 __set_current_state(TASK_INTERRUPTIBLE
);
2837 remove_wait_queue(&s
->open_wait
, &wait
);
2838 set_current_state(TASK_RUNNING
);
2839 if (signal_pending(current
))
2840 return -ERESTARTSYS
;
2843 if (file
->f_mode
& FMODE_READ
) {
2844 s
->status
&= ~DO_BIGENDIAN_R
;
2845 fmtm
&= ~((CM_CFMT_STEREO
| CM_CFMT_16BIT
) << CM_CFMT_ADCSHIFT
);
2846 if ((minor
& 0xf) == SND_DEV_DSP16
)
2847 fmts
|= CM_CFMT_16BIT
<< CM_CFMT_ADCSHIFT
;
2848 s
->dma_adc
.ossfragshift
= s
->dma_adc
.ossmaxfrags
= s
->dma_adc
.subdivision
= 0;
2849 s
->dma_adc
.enabled
= 1;
2850 set_adc_rate(s
, 8000);
2851 // spdif-in is turnned off by default
2854 if (file
->f_mode
& FMODE_WRITE
) {
2855 s
->status
&= ~DO_BIGENDIAN_W
;
2856 fmtm
&= ~((CM_CFMT_STEREO
| CM_CFMT_16BIT
) << CM_CFMT_DACSHIFT
);
2857 if ((minor
& 0xf) == SND_DEV_DSP16
)
2858 fmts
|= CM_CFMT_16BIT
<< CM_CFMT_DACSHIFT
;
2859 s
->dma_dac
.ossfragshift
= s
->dma_dac
.ossmaxfrags
= s
->dma_dac
.subdivision
= 0;
2860 s
->dma_dac
.enabled
= 1;
2861 set_dac_rate(s
, 8000);
2862 // clear previous multichannel, spdif, ac3 state
2865 set_dac_channels(s
, 1);
2867 set_fmt(s
, fmtm
, fmts
);
2868 s
->open_mode
|= file
->f_mode
& (FMODE_READ
| FMODE_WRITE
);
2870 return nonseekable_open(inode
, file
);
2873 static int cm_release(struct inode
*inode
, struct file
*file
)
2875 struct cm_state
*s
= (struct cm_state
*)file
->private_data
;
2879 if (file
->f_mode
& FMODE_WRITE
)
2880 drain_dac(s
, file
->f_flags
& O_NONBLOCK
);
2882 if (file
->f_mode
& FMODE_WRITE
) {
2885 dealloc_dmabuf(s
, &s
->dma_dac
);
2886 if (s
->status
& DO_DUAL_DAC
)
2887 dealloc_dmabuf(s
, &s
->dma_adc
);
2889 if (s
->status
& DO_MULTI_CH
)
2890 set_dac_channels(s
, 1);
2891 if (s
->status
& DO_AC3
)
2893 if (s
->status
& DO_SPDIF_OUT
)
2895 /* enable SPDIF loop */
2896 set_spdif_loop(s
, spdif_loop
);
2897 s
->status
&= ~DO_BIGENDIAN_W
;
2899 if (file
->f_mode
& FMODE_READ
) {
2901 dealloc_dmabuf(s
, &s
->dma_adc
);
2902 s
->status
&= ~DO_BIGENDIAN_R
;
2904 s
->open_mode
&= ~(file
->f_mode
& (FMODE_READ
|FMODE_WRITE
));
2906 wake_up(&s
->open_wait
);
2911 static /*const*/ struct file_operations cm_audio_fops
= {
2912 .owner
= THIS_MODULE
,
2913 .llseek
= no_llseek
,
2920 .release
= cm_release
,
2923 /* --------------------------------------------------------------------- */
2925 static struct initvol
{
2928 } initvol
[] __devinitdata
= {
2929 { SOUND_MIXER_WRITE_CD
, 0x4f4f },
2930 { SOUND_MIXER_WRITE_LINE
, 0x4f4f },
2931 { SOUND_MIXER_WRITE_MIC
, 0x4f4f },
2932 { SOUND_MIXER_WRITE_SYNTH
, 0x4f4f },
2933 { SOUND_MIXER_WRITE_VOLUME
, 0x4f4f },
2934 { SOUND_MIXER_WRITE_PCM
, 0x4f4f }
2937 /* check chip version and capability */
2938 static int query_chip(struct cm_state
*s
)
2940 int ChipVersion
= -1;
2941 unsigned char RegValue
;
2943 // check reg 0Ch, bit 24-31
2944 RegValue
= inb(s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 3);
2945 if (RegValue
== 0) {
2946 // check reg 08h, bit 24-28
2947 RegValue
= inb(s
->iobase
+ CODEC_CMI_CHFORMAT
+ 3);
2949 if (RegValue
== 0) {
2951 s
->max_channels
= 4;
2952 s
->capability
|= CAN_AC3_SW
;
2953 s
->capability
|= CAN_DUAL_DAC
;
2956 s
->max_channels
= 4;
2957 s
->capability
|= CAN_AC3_HW
;
2958 s
->capability
|= CAN_DUAL_DAC
;
2961 // check reg 0Ch, bit 26
2962 if (RegValue
& (1 << (26-24))) {
2964 if (RegValue
& (1 << (24-24)))
2965 s
->max_channels
= 6;
2967 s
->max_channels
= 4;
2968 s
->capability
|= CAN_AC3_HW
;
2969 s
->capability
|= CAN_DUAL_DAC
;
2970 s
->capability
|= CAN_MULTI_CH_HW
;
2971 s
->capability
|= CAN_LINE_AS_BASS
;
2972 s
->capability
|= CAN_MIC_AS_BASS
;
2974 ChipVersion
= 55; // 4 or 6 channels
2975 s
->max_channels
= 6;
2976 s
->capability
|= CAN_AC3_HW
;
2977 s
->capability
|= CAN_DUAL_DAC
;
2978 s
->capability
|= CAN_MULTI_CH_HW
;
2979 s
->capability
|= CAN_LINE_AS_BASS
;
2980 s
->capability
|= CAN_MIC_AS_BASS
;
2983 s
->capability
|= CAN_LINE_AS_REAR
;
2987 #ifdef CONFIG_SOUND_CMPCI_JOYSTICK
2988 static int __devinit
cm_create_gameport(struct cm_state
*s
, int io_port
)
2990 struct gameport
*gp
;
2992 if (!request_region(io_port
, CM_EXTENT_GAME
, "cmpci GAME")) {
2993 printk(KERN_ERR
"cmpci: gameport io ports 0x%#x in use\n", io_port
);
2997 if (!(s
->gameport
= gp
= gameport_allocate_port())) {
2998 printk(KERN_ERR
"cmpci: can not allocate memory for gameport\n");
2999 release_region(io_port
, CM_EXTENT_GAME
);
3003 gameport_set_name(gp
, "C-Media GP");
3004 gameport_set_phys(gp
, "pci%s/gameport0", pci_name(s
->dev
));
3005 gp
->dev
.parent
= &s
->dev
->dev
;
3008 /* enable joystick */
3009 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0, 0x02);
3011 gameport_register_port(gp
);
3016 static void __devexit
cm_free_gameport(struct cm_state
*s
)
3019 int gpio
= s
->gameport
->io
;
3021 gameport_unregister_port(s
->gameport
);
3023 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0x02, 0);
3024 release_region(gpio
, CM_EXTENT_GAME
);
3028 static inline int cm_create_gameport(struct cm_state
*s
, int io_port
) { return -ENOSYS
; }
3029 static inline void cm_free_gameport(struct cm_state
*s
) { }
3032 #define echo_option(x)\
3033 if (x) strcat(options, "" #x " ")
3035 static int __devinit
cm_probe(struct pci_dev
*pcidev
, const struct pci_device_id
*pciid
)
3040 unsigned char reg_mask
;
3042 struct resource
*ports
;
3044 unsigned short deviceid
;
3047 { PCI_DEVICE_ID_CMEDIA_CM8338A
, "CM8338A" },
3048 { PCI_DEVICE_ID_CMEDIA_CM8338B
, "CM8338B" },
3049 { PCI_DEVICE_ID_CMEDIA_CM8738
, "CM8738" },
3050 { PCI_DEVICE_ID_CMEDIA_CM8738B
, "CM8738B" },
3052 char *devicename
= "unknown";
3055 if ((ret
= pci_enable_device(pcidev
)))
3057 if (!(pci_resource_flags(pcidev
, 0) & IORESOURCE_IO
))
3059 if (pcidev
->irq
== 0)
3061 i
= pci_set_dma_mask(pcidev
, 0xffffffff);
3063 printk(KERN_WARNING
"cmpci: architecture does not support 32bit PCI busmaster DMA\n");
3066 s
= kmalloc(sizeof(*s
), GFP_KERNEL
);
3068 printk(KERN_WARNING
"cmpci: out of memory\n");
3071 /* search device name */
3072 for (i
= 0; i
< sizeof(devicetable
) / sizeof(devicetable
[0]); i
++) {
3073 if (devicetable
[i
].deviceid
== pcidev
->device
) {
3074 devicename
= devicetable
[i
].devicename
;
3078 memset(s
, 0, sizeof(struct cm_state
));
3079 init_waitqueue_head(&s
->dma_adc
.wait
);
3080 init_waitqueue_head(&s
->dma_dac
.wait
);
3081 init_waitqueue_head(&s
->open_wait
);
3082 init_MUTEX(&s
->open_sem
);
3083 spin_lock_init(&s
->lock
);
3084 s
->magic
= CM_MAGIC
;
3086 s
->iobase
= pci_resource_start(pcidev
, 0);
3089 #ifdef CONFIG_SOUND_CMPCI_MIDI
3095 s
->irq
= pcidev
->irq
;
3097 if (!request_region(s
->iobase
, CM_EXTENT_CODEC
, "cmpci")) {
3098 printk(KERN_ERR
"cmpci: io ports %#x-%#x in use\n", s
->iobase
, s
->iobase
+CM_EXTENT_CODEC
-1);
3102 /* dump parameters */
3103 strcpy(options
, "cmpci: ");
3104 echo_option(joystick
);
3105 echo_option(spdif_inverse
);
3106 echo_option(spdif_loop
);
3107 echo_option(spdif_out
);
3108 echo_option(use_line_as_rear
);
3109 echo_option(use_line_as_bass
);
3110 echo_option(use_mic_as_bass
);
3111 echo_option(mic_boost
);
3112 echo_option(hw_copy
);
3113 printk(KERN_INFO
"%s\n", options
);
3115 /* initialize codec registers */
3116 outb(0, s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2); /* disable ints */
3117 outb(0, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2); /* disable channels */
3119 wrmixer(s
, DSP_MIX_DATARESETIDX
, 0);
3122 if ((ret
= request_irq(s
->irq
, cm_interrupt
, SA_SHIRQ
, "cmpci", s
))) {
3123 printk(KERN_ERR
"cmpci: irq %u in use\n", s
->irq
);
3126 printk(KERN_INFO
"cmpci: found %s adapter at io %#x irq %u\n",
3127 devicename
, s
->iobase
, s
->irq
);
3128 /* register devices */
3129 if ((s
->dev_audio
= register_sound_dsp(&cm_audio_fops
, -1)) < 0) {
3133 if ((s
->dev_mixer
= register_sound_mixer(&cm_mixer_fops
, -1)) < 0) {
3137 pci_set_master(pcidev
); /* enable bus mastering */
3138 /* initialize the chips */
3141 /* set mixer output */
3142 frobindir(s
, DSP_MIX_OUTMIXIDX
, 0x1f, 0x1f);
3143 /* set mixer input */
3144 val
= SOUND_MASK_LINE
|SOUND_MASK_SYNTH
|SOUND_MASK_CD
|SOUND_MASK_MIC
;
3145 mixer_ioctl(s
, SOUND_MIXER_WRITE_RECSRC
, (unsigned long)&val
);
3146 for (i
= 0; i
< sizeof(initvol
)/sizeof(initvol
[0]); i
++) {
3147 val
= initvol
[i
].vol
;
3148 mixer_ioctl(s
, initvol
[i
].mixch
, (unsigned long)&val
);
3151 /* use channel 1 for playback, channel 0 for record */
3152 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL0
, ~CHADC1
, CHADC0
);
3153 /* turn off VMIC3 - mic boost */
3155 maskb(s
->iobase
+ CODEC_CMI_MIXER2
, ~1, 0);
3157 maskb(s
->iobase
+ CODEC_CMI_MIXER2
, ~0, 1);
3158 s
->deviceid
= pcidev
->device
;
3160 if (pcidev
->device
== PCI_DEVICE_ID_CMEDIA_CM8738
3161 || pcidev
->device
== PCI_DEVICE_ID_CMEDIA_CM8738B
) {
3163 /* chip version and hw capability check */
3164 s
->chip_version
= query_chip(s
);
3165 printk(KERN_INFO
"cmpci: chip version = 0%d\n", s
->chip_version
);
3167 /* set SPDIF-in inverse before enable SPDIF loop */
3168 set_spdifin_inverse(s
, spdif_inverse
);
3170 /* use SPDIF in #1 */
3171 set_spdifin_channel2(s
, 0);
3173 s
->chip_version
= 0;
3174 /* 8338 will fall here */
3175 s
->max_channels
= 4;
3176 s
->capability
|= CAN_DUAL_DAC
;
3177 s
->capability
|= CAN_LINE_AS_REAR
;
3179 /* enable SPDIF loop */
3180 set_spdif_loop(s
, spdif_loop
);
3182 // enable 4 speaker mode (analog duplicate)
3183 set_hw_copy(s
, hw_copy
);
3186 #ifdef CONFIG_SOUND_CMPCI_FM
3188 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~8, 0);
3190 /* don't enable OPL3 if there is one */
3191 if (opl3_detect(s
->iosynth
, NULL
)) {
3194 /* set IO based at 0x388 */
3195 switch (s
->iosynth
) {
3212 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 3, ~0x03, reg_mask
);
3215 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~0, 8);
3216 if (opl3_detect(s
->iosynth
, NULL
))
3217 ret
= opl3_init(s
->iosynth
, NULL
, THIS_MODULE
);
3219 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~8, 0);
3226 #ifdef CONFIG_SOUND_CMPCI_MIDI
3227 switch (s
->iomidi
) {
3244 ports
= request_region(s
->iomidi
, 2, "mpu401");
3247 /* disable MPU-401 */
3248 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0x04, 0);
3249 s
->mpu_data
.name
= "cmpci mpu";
3250 s
->mpu_data
.io_base
= s
->iomidi
;
3251 s
->mpu_data
.irq
= -s
->irq
; // tell mpu401 to share irq
3252 if (probe_mpu401(&s
->mpu_data
, ports
)) {
3253 release_region(s
->iomidi
, 2);
3257 maskb(s
->iobase
+ CODEC_CMI_LEGACY_CTRL
+ 3, ~0x60, reg_mask
);
3258 /* enable MPU-401 */
3259 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0, 0x04);
3260 /* clear all previously received interrupt */
3261 for (timeout
= 900000; timeout
> 0; timeout
--) {
3262 if ((inb(s
->iomidi
+ 1) && 0x80) == 0)
3267 if (!probe_mpu401(&s
->mpu_data
, ports
)) {
3268 release_region(s
->iomidi
, 2);
3270 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0, 0x04);
3272 attach_mpu401(&s
->mpu_data
, THIS_MODULE
);
3273 s
->midi_devc
= s
->mpu_data
.slots
[1];
3277 /* disable joystick port */
3278 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0x02, 0);
3280 cm_create_gameport(s
, 0x200);
3282 /* store it in the driver field */
3283 pci_set_drvdata(pcidev
, s
);
3284 /* put it into driver list */
3285 list_add_tail(&s
->devs
, &devs
);
3286 /* increment devindex */
3287 if (devindex
< NR_DEVICE
-1)
3292 unregister_sound_dsp(s
->dev_audio
);
3294 printk(KERN_ERR
"cmpci: cannot register misc device\n");
3295 free_irq(s
->irq
, s
);
3297 release_region(s
->iobase
, CM_EXTENT_CODEC
);
3303 /* --------------------------------------------------------------------- */
3305 MODULE_AUTHOR("ChenLi Tien, cltien@cmedia.com.tw");
3306 MODULE_DESCRIPTION("CM8x38 Audio Driver");
3307 MODULE_LICENSE("GPL");
3309 static void __devexit
cm_remove(struct pci_dev
*dev
)
3311 struct cm_state
*s
= pci_get_drvdata(dev
);
3316 cm_free_gameport(s
);
3318 #ifdef CONFIG_SOUND_CMPCI_FM
3321 maskb(s
->iobase
+ CODEC_CMI_MISC_CTRL
+ 2, ~8, 0);
3324 #ifdef CONFIG_SOUND_CMPCI_MIDI
3326 unload_mpu401(&s
->mpu_data
);
3327 /* disable MPU-401 */
3328 maskb(s
->iobase
+ CODEC_CMI_FUNCTRL1
, ~0x04, 0);
3331 set_spdif_loop(s
, 0);
3333 outb(0, s
->iobase
+ CODEC_CMI_INT_HLDCLR
+ 2); /* disable ints */
3334 synchronize_irq(s
->irq
);
3335 outb(0, s
->iobase
+ CODEC_CMI_FUNCTRL0
+ 2); /* disable channels */
3336 free_irq(s
->irq
, s
);
3339 wrmixer(s
, DSP_MIX_DATARESETIDX
, 0);
3341 release_region(s
->iobase
, CM_EXTENT_CODEC
);
3342 unregister_sound_dsp(s
->dev_audio
);
3343 unregister_sound_mixer(s
->dev_mixer
);
3345 pci_set_drvdata(dev
, NULL
);
3348 static struct pci_device_id id_table
[] __devinitdata
= {
3349 { PCI_VENDOR_ID_CMEDIA
, PCI_DEVICE_ID_CMEDIA_CM8738B
, PCI_ANY_ID
, PCI_ANY_ID
, 0, 0 },
3350 { PCI_VENDOR_ID_CMEDIA
, PCI_DEVICE_ID_CMEDIA_CM8738
, PCI_ANY_ID
, PCI_ANY_ID
, 0, 0 },
3351 { PCI_VENDOR_ID_CMEDIA
, PCI_DEVICE_ID_CMEDIA_CM8338A
, PCI_ANY_ID
, PCI_ANY_ID
, 0, 0 },
3352 { PCI_VENDOR_ID_CMEDIA
, PCI_DEVICE_ID_CMEDIA_CM8338B
, PCI_ANY_ID
, PCI_ANY_ID
, 0, 0 },
3356 MODULE_DEVICE_TABLE(pci
, id_table
);
3358 static struct pci_driver cm_driver
= {
3360 .id_table
= id_table
,
3362 .remove
= __devexit_p(cm_remove
)
3365 static int __init
init_cmpci(void)
3367 printk(KERN_INFO
"cmpci: version $Revision: 6.82 $ time " __TIME__
" " __DATE__
"\n");
3368 return pci_module_init(&cm_driver
);
3371 static void __exit
cleanup_cmpci(void)
3373 printk(KERN_INFO
"cmpci: unloading\n");
3374 pci_unregister_driver(&cm_driver
);
3377 module_init(init_cmpci
);
3378 module_exit(cleanup_cmpci
);
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