2 * Driver for Ensoniq ES1370/ES1371 AudioPCI soundcard
3 * Copyright (c) by Jaroslav Kysela <perex@perex.cz>,
4 * Thomas Sailer <sailer@ife.ee.ethz.ch>
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22 /* Power-Management-Code ( CONFIG_PM )
23 * for ens1371 only ( FIXME )
24 * derived from cs4281.c, atiixp.c and via82xx.c
25 * using http://www.alsa-project.org/~tiwai/writing-an-alsa-driver/
30 #include <linux/delay.h>
31 #include <linux/interrupt.h>
32 #include <linux/init.h>
33 #include <linux/pci.h>
34 #include <linux/slab.h>
35 #include <linux/gameport.h>
36 #include <linux/module.h>
37 #include <linux/mutex.h>
39 #include <sound/core.h>
40 #include <sound/control.h>
41 #include <sound/pcm.h>
42 #include <sound/rawmidi.h>
44 #include <sound/ac97_codec.h>
46 #include <sound/ak4531_codec.h>
48 #include <sound/initval.h>
49 #include <sound/asoundef.h>
57 #define DRIVER_NAME "ENS1370"
59 #define DRIVER_NAME "ENS1371"
63 MODULE_AUTHOR("Jaroslav Kysela <perex@perex.cz>, Thomas Sailer <sailer@ife.ee.ethz.ch>");
64 MODULE_LICENSE("GPL");
66 MODULE_DESCRIPTION("Ensoniq AudioPCI ES1370");
67 MODULE_SUPPORTED_DEVICE("{{Ensoniq,AudioPCI-97 ES1370},"
68 "{Creative Labs,SB PCI64/128 (ES1370)}}");
71 MODULE_DESCRIPTION("Ensoniq/Creative AudioPCI ES1371+");
72 MODULE_SUPPORTED_DEVICE("{{Ensoniq,AudioPCI ES1371/73},"
73 "{Ensoniq,AudioPCI ES1373},"
74 "{Creative Labs,Ectiva EV1938},"
75 "{Creative Labs,SB PCI64/128 (ES1371/73)},"
76 "{Creative Labs,Vibra PCI128},"
80 #if defined(CONFIG_GAMEPORT) || (defined(MODULE) && defined(CONFIG_GAMEPORT_MODULE))
81 #define SUPPORT_JOYSTICK
84 static int index
[SNDRV_CARDS
] = SNDRV_DEFAULT_IDX
; /* Index 0-MAX */
85 static char *id
[SNDRV_CARDS
] = SNDRV_DEFAULT_STR
; /* ID for this card */
86 static int enable
[SNDRV_CARDS
] = SNDRV_DEFAULT_ENABLE_PNP
; /* Enable switches */
87 #ifdef SUPPORT_JOYSTICK
89 static int joystick_port
[SNDRV_CARDS
];
91 static int joystick
[SNDRV_CARDS
];
95 static int spdif
[SNDRV_CARDS
];
96 static int lineio
[SNDRV_CARDS
];
99 module_param_array(index
, int, NULL
, 0444);
100 MODULE_PARM_DESC(index
, "Index value for Ensoniq AudioPCI soundcard.");
101 module_param_array(id
, charp
, NULL
, 0444);
102 MODULE_PARM_DESC(id
, "ID string for Ensoniq AudioPCI soundcard.");
103 module_param_array(enable
, bool, NULL
, 0444);
104 MODULE_PARM_DESC(enable
, "Enable Ensoniq AudioPCI soundcard.");
105 #ifdef SUPPORT_JOYSTICK
107 module_param_array(joystick_port
, int, NULL
, 0444);
108 MODULE_PARM_DESC(joystick_port
, "Joystick port address.");
110 module_param_array(joystick
, bool, NULL
, 0444);
111 MODULE_PARM_DESC(joystick
, "Enable joystick.");
113 #endif /* SUPPORT_JOYSTICK */
115 module_param_array(spdif
, int, NULL
, 0444);
116 MODULE_PARM_DESC(spdif
, "S/PDIF output (-1 = none, 0 = auto, 1 = force).");
117 module_param_array(lineio
, int, NULL
, 0444);
118 MODULE_PARM_DESC(lineio
, "Line In to Rear Out (0 = auto, 1 = force).");
122 /* This is a little confusing because all ES1371 compatible chips have the
123 same DEVICE_ID, the only thing differentiating them is the REV_ID field.
124 This is only significant if you want to enable features on the later parts.
125 Yes, I know it's stupid and why didn't we use the sub IDs?
127 #define ES1371REV_ES1373_A 0x04
128 #define ES1371REV_ES1373_B 0x06
129 #define ES1371REV_CT5880_A 0x07
130 #define CT5880REV_CT5880_C 0x02
131 #define CT5880REV_CT5880_D 0x03 /* ??? -jk */
132 #define CT5880REV_CT5880_E 0x04 /* mw */
133 #define ES1371REV_ES1371_B 0x09
134 #define EV1938REV_EV1938_A 0x00
135 #define ES1371REV_ES1373_8 0x08
141 #define ES_REG(ensoniq, x) ((ensoniq)->port + ES_REG_##x)
143 #define ES_REG_CONTROL 0x00 /* R/W: Interrupt/Chip select control register */
144 #define ES_1370_ADC_STOP (1<<31) /* disable capture buffer transfers */
145 #define ES_1370_XCTL1 (1<<30) /* general purpose output bit */
146 #define ES_1373_BYPASS_P1 (1<<31) /* bypass SRC for PB1 */
147 #define ES_1373_BYPASS_P2 (1<<30) /* bypass SRC for PB2 */
148 #define ES_1373_BYPASS_R (1<<29) /* bypass SRC for REC */
149 #define ES_1373_TEST_BIT (1<<28) /* should be set to 0 for normal operation */
150 #define ES_1373_RECEN_B (1<<27) /* mix record with playback for I2S/SPDIF out */
151 #define ES_1373_SPDIF_THRU (1<<26) /* 0 = SPDIF thru mode, 1 = SPDIF == dig out */
152 #define ES_1371_JOY_ASEL(o) (((o)&0x03)<<24)/* joystick port mapping */
153 #define ES_1371_JOY_ASELM (0x03<<24) /* mask for above */
154 #define ES_1371_JOY_ASELI(i) (((i)>>24)&0x03)
155 #define ES_1371_GPIO_IN(i) (((i)>>20)&0x0f)/* GPIO in [3:0] pins - R/O */
156 #define ES_1370_PCLKDIVO(o) (((o)&0x1fff)<<16)/* clock divide ratio for DAC2 */
157 #define ES_1370_PCLKDIVM ((0x1fff)<<16) /* mask for above */
158 #define ES_1370_PCLKDIVI(i) (((i)>>16)&0x1fff)/* clock divide ratio for DAC2 */
159 #define ES_1371_GPIO_OUT(o) (((o)&0x0f)<<16)/* GPIO out [3:0] pins - W/R */
160 #define ES_1371_GPIO_OUTM (0x0f<<16) /* mask for above */
161 #define ES_MSFMTSEL (1<<15) /* MPEG serial data format; 0 = SONY, 1 = I2S */
162 #define ES_1370_M_SBB (1<<14) /* clock source for DAC - 0 = clock generator; 1 = MPEG clocks */
163 #define ES_1371_SYNC_RES (1<<14) /* Warm AC97 reset */
164 #define ES_1370_WTSRSEL(o) (((o)&0x03)<<12)/* fixed frequency clock for DAC1 */
165 #define ES_1370_WTSRSELM (0x03<<12) /* mask for above */
166 #define ES_1371_ADC_STOP (1<<13) /* disable CCB transfer capture information */
167 #define ES_1371_PWR_INTRM (1<<12) /* power level change interrupts enable */
168 #define ES_1370_DAC_SYNC (1<<11) /* DAC's are synchronous */
169 #define ES_1371_M_CB (1<<11) /* capture clock source; 0 = AC'97 ADC; 1 = I2S */
170 #define ES_CCB_INTRM (1<<10) /* CCB voice interrupts enable */
171 #define ES_1370_M_CB (1<<9) /* capture clock source; 0 = ADC; 1 = MPEG */
172 #define ES_1370_XCTL0 (1<<8) /* generap purpose output bit */
173 #define ES_1371_PDLEV(o) (((o)&0x03)<<8) /* current power down level */
174 #define ES_1371_PDLEVM (0x03<<8) /* mask for above */
175 #define ES_BREQ (1<<7) /* memory bus request enable */
176 #define ES_DAC1_EN (1<<6) /* DAC1 playback channel enable */
177 #define ES_DAC2_EN (1<<5) /* DAC2 playback channel enable */
178 #define ES_ADC_EN (1<<4) /* ADC capture channel enable */
179 #define ES_UART_EN (1<<3) /* UART enable */
180 #define ES_JYSTK_EN (1<<2) /* Joystick module enable */
181 #define ES_1370_CDC_EN (1<<1) /* Codec interface enable */
182 #define ES_1371_XTALCKDIS (1<<1) /* Xtal clock disable */
183 #define ES_1370_SERR_DISABLE (1<<0) /* PCI serr signal disable */
184 #define ES_1371_PCICLKDIS (1<<0) /* PCI clock disable */
185 #define ES_REG_STATUS 0x04 /* R/O: Interrupt/Chip select status register */
186 #define ES_INTR (1<<31) /* Interrupt is pending */
187 #define ES_1371_ST_AC97_RST (1<<29) /* CT5880 AC'97 Reset bit */
188 #define ES_1373_REAR_BIT27 (1<<27) /* rear bits: 000 - front, 010 - mirror, 101 - separate */
189 #define ES_1373_REAR_BIT26 (1<<26)
190 #define ES_1373_REAR_BIT24 (1<<24)
191 #define ES_1373_GPIO_INT_EN(o)(((o)&0x0f)<<20)/* GPIO [3:0] pins - interrupt enable */
192 #define ES_1373_SPDIF_EN (1<<18) /* SPDIF enable */
193 #define ES_1373_SPDIF_TEST (1<<17) /* SPDIF test */
194 #define ES_1371_TEST (1<<16) /* test ASIC */
195 #define ES_1373_GPIO_INT(i) (((i)&0x0f)>>12)/* GPIO [3:0] pins - interrupt pending */
196 #define ES_1370_CSTAT (1<<10) /* CODEC is busy or register write in progress */
197 #define ES_1370_CBUSY (1<<9) /* CODEC is busy */
198 #define ES_1370_CWRIP (1<<8) /* CODEC register write in progress */
199 #define ES_1371_SYNC_ERR (1<<8) /* CODEC synchronization error occurred */
200 #define ES_1371_VC(i) (((i)>>6)&0x03) /* voice code from CCB module */
201 #define ES_1370_VC(i) (((i)>>5)&0x03) /* voice code from CCB module */
202 #define ES_1371_MPWR (1<<5) /* power level interrupt pending */
203 #define ES_MCCB (1<<4) /* CCB interrupt pending */
204 #define ES_UART (1<<3) /* UART interrupt pending */
205 #define ES_DAC1 (1<<2) /* DAC1 channel interrupt pending */
206 #define ES_DAC2 (1<<1) /* DAC2 channel interrupt pending */
207 #define ES_ADC (1<<0) /* ADC channel interrupt pending */
208 #define ES_REG_UART_DATA 0x08 /* R/W: UART data register */
209 #define ES_REG_UART_STATUS 0x09 /* R/O: UART status register */
210 #define ES_RXINT (1<<7) /* RX interrupt occurred */
211 #define ES_TXINT (1<<2) /* TX interrupt occurred */
212 #define ES_TXRDY (1<<1) /* transmitter ready */
213 #define ES_RXRDY (1<<0) /* receiver ready */
214 #define ES_REG_UART_CONTROL 0x09 /* W/O: UART control register */
215 #define ES_RXINTEN (1<<7) /* RX interrupt enable */
216 #define ES_TXINTENO(o) (((o)&0x03)<<5) /* TX interrupt enable */
217 #define ES_TXINTENM (0x03<<5) /* mask for above */
218 #define ES_TXINTENI(i) (((i)>>5)&0x03)
219 #define ES_CNTRL(o) (((o)&0x03)<<0) /* control */
220 #define ES_CNTRLM (0x03<<0) /* mask for above */
221 #define ES_REG_UART_RES 0x0a /* R/W: UART reserver register */
222 #define ES_TEST_MODE (1<<0) /* test mode enabled */
223 #define ES_REG_MEM_PAGE 0x0c /* R/W: Memory page register */
224 #define ES_MEM_PAGEO(o) (((o)&0x0f)<<0) /* memory page select - out */
225 #define ES_MEM_PAGEM (0x0f<<0) /* mask for above */
226 #define ES_MEM_PAGEI(i) (((i)>>0)&0x0f) /* memory page select - in */
227 #define ES_REG_1370_CODEC 0x10 /* W/O: Codec write register address */
228 #define ES_1370_CODEC_WRITE(a,d) ((((a)&0xff)<<8)|(((d)&0xff)<<0))
229 #define ES_REG_1371_CODEC 0x14 /* W/R: Codec Read/Write register address */
230 #define ES_1371_CODEC_RDY (1<<31) /* codec ready */
231 #define ES_1371_CODEC_WIP (1<<30) /* codec register access in progress */
232 #define EV_1938_CODEC_MAGIC (1<<26)
233 #define ES_1371_CODEC_PIRD (1<<23) /* codec read/write select register */
234 #define ES_1371_CODEC_WRITE(a,d) ((((a)&0x7f)<<16)|(((d)&0xffff)<<0))
235 #define ES_1371_CODEC_READS(a) ((((a)&0x7f)<<16)|ES_1371_CODEC_PIRD)
236 #define ES_1371_CODEC_READ(i) (((i)>>0)&0xffff)
238 #define ES_REG_1371_SMPRATE 0x10 /* W/R: Codec rate converter interface register */
239 #define ES_1371_SRC_RAM_ADDRO(o) (((o)&0x7f)<<25)/* address of the sample rate converter */
240 #define ES_1371_SRC_RAM_ADDRM (0x7f<<25) /* mask for above */
241 #define ES_1371_SRC_RAM_ADDRI(i) (((i)>>25)&0x7f)/* address of the sample rate converter */
242 #define ES_1371_SRC_RAM_WE (1<<24) /* R/W: read/write control for sample rate converter */
243 #define ES_1371_SRC_RAM_BUSY (1<<23) /* R/O: sample rate memory is busy */
244 #define ES_1371_SRC_DISABLE (1<<22) /* sample rate converter disable */
245 #define ES_1371_DIS_P1 (1<<21) /* playback channel 1 accumulator update disable */
246 #define ES_1371_DIS_P2 (1<<20) /* playback channel 1 accumulator update disable */
247 #define ES_1371_DIS_R1 (1<<19) /* capture channel accumulator update disable */
248 #define ES_1371_SRC_RAM_DATAO(o) (((o)&0xffff)<<0)/* current value of the sample rate converter */
249 #define ES_1371_SRC_RAM_DATAM (0xffff<<0) /* mask for above */
250 #define ES_1371_SRC_RAM_DATAI(i) (((i)>>0)&0xffff)/* current value of the sample rate converter */
252 #define ES_REG_1371_LEGACY 0x18 /* W/R: Legacy control/status register */
253 #define ES_1371_JFAST (1<<31) /* fast joystick timing */
254 #define ES_1371_HIB (1<<30) /* host interrupt blocking enable */
255 #define ES_1371_VSB (1<<29) /* SB; 0 = addr 0x220xH, 1 = 0x22FxH */
256 #define ES_1371_VMPUO(o) (((o)&0x03)<<27)/* base register address; 0 = 0x320xH; 1 = 0x330xH; 2 = 0x340xH; 3 = 0x350xH */
257 #define ES_1371_VMPUM (0x03<<27) /* mask for above */
258 #define ES_1371_VMPUI(i) (((i)>>27)&0x03)/* base register address */
259 #define ES_1371_VCDCO(o) (((o)&0x03)<<25)/* CODEC; 0 = 0x530xH; 1 = undefined; 2 = 0xe80xH; 3 = 0xF40xH */
260 #define ES_1371_VCDCM (0x03<<25) /* mask for above */
261 #define ES_1371_VCDCI(i) (((i)>>25)&0x03)/* CODEC address */
262 #define ES_1371_FIRQ (1<<24) /* force an interrupt */
263 #define ES_1371_SDMACAP (1<<23) /* enable event capture for slave DMA controller */
264 #define ES_1371_SPICAP (1<<22) /* enable event capture for slave IRQ controller */
265 #define ES_1371_MDMACAP (1<<21) /* enable event capture for master DMA controller */
266 #define ES_1371_MPICAP (1<<20) /* enable event capture for master IRQ controller */
267 #define ES_1371_ADCAP (1<<19) /* enable event capture for ADLIB register; 0x388xH */
268 #define ES_1371_SVCAP (1<<18) /* enable event capture for SB registers */
269 #define ES_1371_CDCCAP (1<<17) /* enable event capture for CODEC registers */
270 #define ES_1371_BACAP (1<<16) /* enable event capture for SoundScape base address */
271 #define ES_1371_EXI(i) (((i)>>8)&0x07) /* event number */
272 #define ES_1371_AI(i) (((i)>>3)&0x1f) /* event significant I/O address */
273 #define ES_1371_WR (1<<2) /* event capture; 0 = read; 1 = write */
274 #define ES_1371_LEGINT (1<<0) /* interrupt for legacy events; 0 = interrupt did occur */
276 #define ES_REG_CHANNEL_STATUS 0x1c /* R/W: first 32-bits from S/PDIF channel status block, es1373 */
278 #define ES_REG_SERIAL 0x20 /* R/W: Serial interface control register */
279 #define ES_1371_DAC_TEST (1<<22) /* DAC test mode enable */
280 #define ES_P2_END_INCO(o) (((o)&0x07)<<19)/* binary offset value to increment / loop end */
281 #define ES_P2_END_INCM (0x07<<19) /* mask for above */
282 #define ES_P2_END_INCI(i) (((i)>>16)&0x07)/* binary offset value to increment / loop end */
283 #define ES_P2_ST_INCO(o) (((o)&0x07)<<16)/* binary offset value to increment / start */
284 #define ES_P2_ST_INCM (0x07<<16) /* mask for above */
285 #define ES_P2_ST_INCI(i) (((i)<<16)&0x07)/* binary offset value to increment / start */
286 #define ES_R1_LOOP_SEL (1<<15) /* ADC; 0 - loop mode; 1 = stop mode */
287 #define ES_P2_LOOP_SEL (1<<14) /* DAC2; 0 - loop mode; 1 = stop mode */
288 #define ES_P1_LOOP_SEL (1<<13) /* DAC1; 0 - loop mode; 1 = stop mode */
289 #define ES_P2_PAUSE (1<<12) /* DAC2; 0 - play mode; 1 = pause mode */
290 #define ES_P1_PAUSE (1<<11) /* DAC1; 0 - play mode; 1 = pause mode */
291 #define ES_R1_INT_EN (1<<10) /* ADC interrupt enable */
292 #define ES_P2_INT_EN (1<<9) /* DAC2 interrupt enable */
293 #define ES_P1_INT_EN (1<<8) /* DAC1 interrupt enable */
294 #define ES_P1_SCT_RLD (1<<7) /* force sample counter reload for DAC1 */
295 #define ES_P2_DAC_SEN (1<<6) /* when stop mode: 0 - DAC2 play back zeros; 1 = DAC2 play back last sample */
296 #define ES_R1_MODEO(o) (((o)&0x03)<<4) /* ADC mode; 0 = 8-bit mono; 1 = 8-bit stereo; 2 = 16-bit mono; 3 = 16-bit stereo */
297 #define ES_R1_MODEM (0x03<<4) /* mask for above */
298 #define ES_R1_MODEI(i) (((i)>>4)&0x03)
299 #define ES_P2_MODEO(o) (((o)&0x03)<<2) /* DAC2 mode; -- '' -- */
300 #define ES_P2_MODEM (0x03<<2) /* mask for above */
301 #define ES_P2_MODEI(i) (((i)>>2)&0x03)
302 #define ES_P1_MODEO(o) (((o)&0x03)<<0) /* DAC1 mode; -- '' -- */
303 #define ES_P1_MODEM (0x03<<0) /* mask for above */
304 #define ES_P1_MODEI(i) (((i)>>0)&0x03)
306 #define ES_REG_DAC1_COUNT 0x24 /* R/W: DAC1 sample count register */
307 #define ES_REG_DAC2_COUNT 0x28 /* R/W: DAC2 sample count register */
308 #define ES_REG_ADC_COUNT 0x2c /* R/W: ADC sample count register */
309 #define ES_REG_CURR_COUNT(i) (((i)>>16)&0xffff)
310 #define ES_REG_COUNTO(o) (((o)&0xffff)<<0)
311 #define ES_REG_COUNTM (0xffff<<0)
312 #define ES_REG_COUNTI(i) (((i)>>0)&0xffff)
314 #define ES_REG_DAC1_FRAME 0x30 /* R/W: PAGE 0x0c; DAC1 frame address */
315 #define ES_REG_DAC1_SIZE 0x34 /* R/W: PAGE 0x0c; DAC1 frame size */
316 #define ES_REG_DAC2_FRAME 0x38 /* R/W: PAGE 0x0c; DAC2 frame address */
317 #define ES_REG_DAC2_SIZE 0x3c /* R/W: PAGE 0x0c; DAC2 frame size */
318 #define ES_REG_ADC_FRAME 0x30 /* R/W: PAGE 0x0d; ADC frame address */
319 #define ES_REG_ADC_SIZE 0x34 /* R/W: PAGE 0x0d; ADC frame size */
320 #define ES_REG_FCURR_COUNTO(o) (((o)&0xffff)<<16)
321 #define ES_REG_FCURR_COUNTM (0xffff<<16)
322 #define ES_REG_FCURR_COUNTI(i) (((i)>>14)&0x3fffc)
323 #define ES_REG_FSIZEO(o) (((o)&0xffff)<<0)
324 #define ES_REG_FSIZEM (0xffff<<0)
325 #define ES_REG_FSIZEI(i) (((i)>>0)&0xffff)
326 #define ES_REG_PHANTOM_FRAME 0x38 /* R/W: PAGE 0x0d: phantom frame address */
327 #define ES_REG_PHANTOM_COUNT 0x3c /* R/W: PAGE 0x0d: phantom frame count */
329 #define ES_REG_UART_FIFO 0x30 /* R/W: PAGE 0x0e; UART FIFO register */
330 #define ES_REG_UF_VALID (1<<8)
331 #define ES_REG_UF_BYTEO(o) (((o)&0xff)<<0)
332 #define ES_REG_UF_BYTEM (0xff<<0)
333 #define ES_REG_UF_BYTEI(i) (((i)>>0)&0xff)
340 #define ES_PAGE_DAC 0x0c
341 #define ES_PAGE_ADC 0x0d
342 #define ES_PAGE_UART 0x0e
343 #define ES_PAGE_UART1 0x0f
346 * Sample rate converter addresses
349 #define ES_SMPREG_DAC1 0x70
350 #define ES_SMPREG_DAC2 0x74
351 #define ES_SMPREG_ADC 0x78
352 #define ES_SMPREG_VOL_ADC 0x6c
353 #define ES_SMPREG_VOL_DAC1 0x7c
354 #define ES_SMPREG_VOL_DAC2 0x7e
355 #define ES_SMPREG_TRUNC_N 0x00
356 #define ES_SMPREG_INT_REGS 0x01
357 #define ES_SMPREG_ACCUM_FRAC 0x02
358 #define ES_SMPREG_VFREQ_FRAC 0x03
364 #define ES_1370_SRCLOCK 1411200
365 #define ES_1370_SRTODIV(x) (ES_1370_SRCLOCK/(x)-2)
371 #define ES_MODE_PLAY1 0x0001
372 #define ES_MODE_PLAY2 0x0002
373 #define ES_MODE_CAPTURE 0x0004
375 #define ES_MODE_OUTPUT 0x0001 /* for MIDI */
376 #define ES_MODE_INPUT 0x0002 /* for MIDI */
384 struct mutex src_mutex
;
388 unsigned long playback1size
;
389 unsigned long playback2size
;
390 unsigned long capture3size
;
394 unsigned int uartm
; /* UART mode */
396 unsigned int ctrl
; /* control register */
397 unsigned int sctrl
; /* serial control register */
398 unsigned int cssr
; /* control status register */
399 unsigned int uartc
; /* uart control register */
400 unsigned int rev
; /* chip revision */
405 struct snd_ac97
*ac97
;
410 struct snd_ak4531
*ak4531
;
416 struct snd_card
*card
;
417 struct snd_pcm
*pcm1
; /* DAC1/ADC PCM */
418 struct snd_pcm
*pcm2
; /* DAC2 PCM */
419 struct snd_pcm_substream
*playback1_substream
;
420 struct snd_pcm_substream
*playback2_substream
;
421 struct snd_pcm_substream
*capture_substream
;
422 unsigned int p1_dma_size
;
423 unsigned int p2_dma_size
;
424 unsigned int c_dma_size
;
425 unsigned int p1_period_size
;
426 unsigned int p2_period_size
;
427 unsigned int c_period_size
;
428 struct snd_rawmidi
*rmidi
;
429 struct snd_rawmidi_substream
*midi_input
;
430 struct snd_rawmidi_substream
*midi_output
;
433 unsigned int spdif_default
;
434 unsigned int spdif_stream
;
437 struct snd_dma_buffer dma_bug
;
440 #ifdef SUPPORT_JOYSTICK
441 struct gameport
*gameport
;
445 static irqreturn_t
snd_audiopci_interrupt(int irq
, void *dev_id
);
447 static DEFINE_PCI_DEVICE_TABLE(snd_audiopci_ids
) = {
449 { PCI_VDEVICE(ENSONIQ
, 0x5000), 0, }, /* ES1370 */
452 { PCI_VDEVICE(ENSONIQ
, 0x1371), 0, }, /* ES1371 */
453 { PCI_VDEVICE(ENSONIQ
, 0x5880), 0, }, /* ES1373 - CT5880 */
454 { PCI_VDEVICE(ECTIVA
, 0x8938), 0, }, /* Ectiva EV1938 */
459 MODULE_DEVICE_TABLE(pci
, snd_audiopci_ids
);
465 #define POLL_COUNT 0xa000
468 static unsigned int snd_es1370_fixed_rates
[] =
469 {5512, 11025, 22050, 44100};
470 static struct snd_pcm_hw_constraint_list snd_es1370_hw_constraints_rates
= {
472 .list
= snd_es1370_fixed_rates
,
475 static struct snd_ratnum es1370_clock
= {
476 .num
= ES_1370_SRCLOCK
,
481 static struct snd_pcm_hw_constraint_ratnums snd_es1370_hw_constraints_clock
= {
483 .rats
= &es1370_clock
,
486 static struct snd_ratden es1371_dac_clock
= {
487 .num_min
= 3000 * (1 << 15),
488 .num_max
= 48000 * (1 << 15),
492 static struct snd_pcm_hw_constraint_ratdens snd_es1371_hw_constraints_dac_clock
= {
494 .rats
= &es1371_dac_clock
,
496 static struct snd_ratnum es1371_adc_clock
= {
502 static struct snd_pcm_hw_constraint_ratnums snd_es1371_hw_constraints_adc_clock
= {
504 .rats
= &es1371_adc_clock
,
507 static const unsigned int snd_ensoniq_sample_shift
[] =
511 * common I/O routines
516 static unsigned int snd_es1371_wait_src_ready(struct ensoniq
* ensoniq
)
518 unsigned int t
, r
= 0;
520 for (t
= 0; t
< POLL_COUNT
; t
++) {
521 r
= inl(ES_REG(ensoniq
, 1371_SMPRATE
));
522 if ((r
& ES_1371_SRC_RAM_BUSY
) == 0)
526 snd_printk(KERN_ERR
"wait src ready timeout 0x%lx [0x%x]\n",
527 ES_REG(ensoniq
, 1371_SMPRATE
), r
);
531 static unsigned int snd_es1371_src_read(struct ensoniq
* ensoniq
, unsigned short reg
)
533 unsigned int temp
, i
, orig
, r
;
536 temp
= orig
= snd_es1371_wait_src_ready(ensoniq
);
538 /* expose the SRC state bits */
539 r
= temp
& (ES_1371_SRC_DISABLE
| ES_1371_DIS_P1
|
540 ES_1371_DIS_P2
| ES_1371_DIS_R1
);
541 r
|= ES_1371_SRC_RAM_ADDRO(reg
) | 0x10000;
542 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
544 /* now, wait for busy and the correct time to read */
545 temp
= snd_es1371_wait_src_ready(ensoniq
);
547 if ((temp
& 0x00870000) != 0x00010000) {
548 /* wait for the right state */
549 for (i
= 0; i
< POLL_COUNT
; i
++) {
550 temp
= inl(ES_REG(ensoniq
, 1371_SMPRATE
));
551 if ((temp
& 0x00870000) == 0x00010000)
556 /* hide the state bits */
557 r
= orig
& (ES_1371_SRC_DISABLE
| ES_1371_DIS_P1
|
558 ES_1371_DIS_P2
| ES_1371_DIS_R1
);
559 r
|= ES_1371_SRC_RAM_ADDRO(reg
);
560 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
565 static void snd_es1371_src_write(struct ensoniq
* ensoniq
,
566 unsigned short reg
, unsigned short data
)
570 r
= snd_es1371_wait_src_ready(ensoniq
) &
571 (ES_1371_SRC_DISABLE
| ES_1371_DIS_P1
|
572 ES_1371_DIS_P2
| ES_1371_DIS_R1
);
573 r
|= ES_1371_SRC_RAM_ADDRO(reg
) | ES_1371_SRC_RAM_DATAO(data
);
574 outl(r
| ES_1371_SRC_RAM_WE
, ES_REG(ensoniq
, 1371_SMPRATE
));
577 #endif /* CHIP1371 */
581 static void snd_es1370_codec_write(struct snd_ak4531
*ak4531
,
582 unsigned short reg
, unsigned short val
)
584 struct ensoniq
*ensoniq
= ak4531
->private_data
;
585 unsigned long end_time
= jiffies
+ HZ
/ 10;
589 "CODEC WRITE: reg = 0x%x, val = 0x%x (0x%x), creg = 0x%x\n",
590 reg
, val
, ES_1370_CODEC_WRITE(reg
, val
), ES_REG(ensoniq
, 1370_CODEC
));
593 if (!(inl(ES_REG(ensoniq
, STATUS
)) & ES_1370_CSTAT
)) {
594 outw(ES_1370_CODEC_WRITE(reg
, val
), ES_REG(ensoniq
, 1370_CODEC
));
597 schedule_timeout_uninterruptible(1);
598 } while (time_after(end_time
, jiffies
));
599 snd_printk(KERN_ERR
"codec write timeout, status = 0x%x\n",
600 inl(ES_REG(ensoniq
, STATUS
)));
603 #endif /* CHIP1370 */
607 static inline bool is_ev1938(struct ensoniq
*ensoniq
)
609 return ensoniq
->pci
->device
== 0x8938;
612 static void snd_es1371_codec_write(struct snd_ac97
*ac97
,
613 unsigned short reg
, unsigned short val
)
615 struct ensoniq
*ensoniq
= ac97
->private_data
;
616 unsigned int t
, x
, flag
;
618 flag
= is_ev1938(ensoniq
) ? EV_1938_CODEC_MAGIC
: 0;
619 mutex_lock(&ensoniq
->src_mutex
);
620 for (t
= 0; t
< POLL_COUNT
; t
++) {
621 if (!(inl(ES_REG(ensoniq
, 1371_CODEC
)) & ES_1371_CODEC_WIP
)) {
622 /* save the current state for latter */
623 x
= snd_es1371_wait_src_ready(ensoniq
);
624 outl((x
& (ES_1371_SRC_DISABLE
| ES_1371_DIS_P1
|
625 ES_1371_DIS_P2
| ES_1371_DIS_R1
)) | 0x00010000,
626 ES_REG(ensoniq
, 1371_SMPRATE
));
627 /* wait for not busy (state 0) first to avoid
629 for (t
= 0; t
< POLL_COUNT
; t
++) {
630 if ((inl(ES_REG(ensoniq
, 1371_SMPRATE
)) & 0x00870000) ==
634 /* wait for a SAFE time to write addr/data and then do it, dammit */
635 for (t
= 0; t
< POLL_COUNT
; t
++) {
636 if ((inl(ES_REG(ensoniq
, 1371_SMPRATE
)) & 0x00870000) ==
640 outl(ES_1371_CODEC_WRITE(reg
, val
) | flag
,
641 ES_REG(ensoniq
, 1371_CODEC
));
642 /* restore SRC reg */
643 snd_es1371_wait_src_ready(ensoniq
);
644 outl(x
, ES_REG(ensoniq
, 1371_SMPRATE
));
645 mutex_unlock(&ensoniq
->src_mutex
);
649 mutex_unlock(&ensoniq
->src_mutex
);
650 snd_printk(KERN_ERR
"codec write timeout at 0x%lx [0x%x]\n",
651 ES_REG(ensoniq
, 1371_CODEC
), inl(ES_REG(ensoniq
, 1371_CODEC
)));
654 static unsigned short snd_es1371_codec_read(struct snd_ac97
*ac97
,
657 struct ensoniq
*ensoniq
= ac97
->private_data
;
658 unsigned int t
, x
, flag
, fail
= 0;
660 flag
= is_ev1938(ensoniq
) ? EV_1938_CODEC_MAGIC
: 0;
662 mutex_lock(&ensoniq
->src_mutex
);
663 for (t
= 0; t
< POLL_COUNT
; t
++) {
664 if (!(inl(ES_REG(ensoniq
, 1371_CODEC
)) & ES_1371_CODEC_WIP
)) {
665 /* save the current state for latter */
666 x
= snd_es1371_wait_src_ready(ensoniq
);
667 outl((x
& (ES_1371_SRC_DISABLE
| ES_1371_DIS_P1
|
668 ES_1371_DIS_P2
| ES_1371_DIS_R1
)) | 0x00010000,
669 ES_REG(ensoniq
, 1371_SMPRATE
));
670 /* wait for not busy (state 0) first to avoid
672 for (t
= 0; t
< POLL_COUNT
; t
++) {
673 if ((inl(ES_REG(ensoniq
, 1371_SMPRATE
)) & 0x00870000) ==
677 /* wait for a SAFE time to write addr/data and then do it, dammit */
678 for (t
= 0; t
< POLL_COUNT
; t
++) {
679 if ((inl(ES_REG(ensoniq
, 1371_SMPRATE
)) & 0x00870000) ==
683 outl(ES_1371_CODEC_READS(reg
) | flag
,
684 ES_REG(ensoniq
, 1371_CODEC
));
685 /* restore SRC reg */
686 snd_es1371_wait_src_ready(ensoniq
);
687 outl(x
, ES_REG(ensoniq
, 1371_SMPRATE
));
688 /* wait for WIP again */
689 for (t
= 0; t
< POLL_COUNT
; t
++) {
690 if (!(inl(ES_REG(ensoniq
, 1371_CODEC
)) & ES_1371_CODEC_WIP
))
693 /* now wait for the stinkin' data (RDY) */
694 for (t
= 0; t
< POLL_COUNT
; t
++) {
695 if ((x
= inl(ES_REG(ensoniq
, 1371_CODEC
))) & ES_1371_CODEC_RDY
) {
696 if (is_ev1938(ensoniq
)) {
697 for (t
= 0; t
< 100; t
++)
698 inl(ES_REG(ensoniq
, CONTROL
));
699 x
= inl(ES_REG(ensoniq
, 1371_CODEC
));
701 mutex_unlock(&ensoniq
->src_mutex
);
702 return ES_1371_CODEC_READ(x
);
705 mutex_unlock(&ensoniq
->src_mutex
);
707 snd_printk(KERN_ERR
"codec read timeout (final) "
708 "at 0x%lx, reg = 0x%x [0x%x]\n",
709 ES_REG(ensoniq
, 1371_CODEC
), reg
,
710 inl(ES_REG(ensoniq
, 1371_CODEC
)));
716 mutex_unlock(&ensoniq
->src_mutex
);
717 snd_printk(KERN_ERR
"es1371: codec read timeout at 0x%lx [0x%x]\n",
718 ES_REG(ensoniq
, 1371_CODEC
), inl(ES_REG(ensoniq
, 1371_CODEC
)));
722 static void snd_es1371_codec_wait(struct snd_ac97
*ac97
)
725 snd_es1371_codec_read(ac97
, AC97_RESET
);
726 snd_es1371_codec_read(ac97
, AC97_VENDOR_ID1
);
727 snd_es1371_codec_read(ac97
, AC97_VENDOR_ID2
);
731 static void snd_es1371_adc_rate(struct ensoniq
* ensoniq
, unsigned int rate
)
733 unsigned int n
, truncm
, freq
, result
;
735 mutex_lock(&ensoniq
->src_mutex
);
737 if ((1 << n
) & ((1 << 15) | (1 << 13) | (1 << 11) | (1 << 9)))
739 truncm
= (21 * n
- 1) | 1;
740 freq
= ((48000UL << 15) / rate
) * n
;
741 result
= (48000UL << 15) / (freq
/ n
);
745 snd_es1371_src_write(ensoniq
, ES_SMPREG_ADC
+ ES_SMPREG_TRUNC_N
,
746 (((239 - truncm
) >> 1) << 9) | (n
<< 4));
750 snd_es1371_src_write(ensoniq
, ES_SMPREG_ADC
+ ES_SMPREG_TRUNC_N
,
751 0x8000 | (((119 - truncm
) >> 1) << 9) | (n
<< 4));
753 snd_es1371_src_write(ensoniq
, ES_SMPREG_ADC
+ ES_SMPREG_INT_REGS
,
754 (snd_es1371_src_read(ensoniq
, ES_SMPREG_ADC
+
755 ES_SMPREG_INT_REGS
) & 0x00ff) |
756 ((freq
>> 5) & 0xfc00));
757 snd_es1371_src_write(ensoniq
, ES_SMPREG_ADC
+ ES_SMPREG_VFREQ_FRAC
, freq
& 0x7fff);
758 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_ADC
, n
<< 8);
759 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_ADC
+ 1, n
<< 8);
760 mutex_unlock(&ensoniq
->src_mutex
);
763 static void snd_es1371_dac1_rate(struct ensoniq
* ensoniq
, unsigned int rate
)
765 unsigned int freq
, r
;
767 mutex_lock(&ensoniq
->src_mutex
);
768 freq
= ((rate
<< 15) + 1500) / 3000;
769 r
= (snd_es1371_wait_src_ready(ensoniq
) & (ES_1371_SRC_DISABLE
|
770 ES_1371_DIS_P2
| ES_1371_DIS_R1
)) |
772 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
773 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC1
+ ES_SMPREG_INT_REGS
,
774 (snd_es1371_src_read(ensoniq
, ES_SMPREG_DAC1
+
775 ES_SMPREG_INT_REGS
) & 0x00ff) |
776 ((freq
>> 5) & 0xfc00));
777 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC1
+ ES_SMPREG_VFREQ_FRAC
, freq
& 0x7fff);
778 r
= (snd_es1371_wait_src_ready(ensoniq
) & (ES_1371_SRC_DISABLE
|
779 ES_1371_DIS_P2
| ES_1371_DIS_R1
));
780 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
781 mutex_unlock(&ensoniq
->src_mutex
);
784 static void snd_es1371_dac2_rate(struct ensoniq
* ensoniq
, unsigned int rate
)
786 unsigned int freq
, r
;
788 mutex_lock(&ensoniq
->src_mutex
);
789 freq
= ((rate
<< 15) + 1500) / 3000;
790 r
= (snd_es1371_wait_src_ready(ensoniq
) & (ES_1371_SRC_DISABLE
|
791 ES_1371_DIS_P1
| ES_1371_DIS_R1
)) |
793 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
794 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC2
+ ES_SMPREG_INT_REGS
,
795 (snd_es1371_src_read(ensoniq
, ES_SMPREG_DAC2
+
796 ES_SMPREG_INT_REGS
) & 0x00ff) |
797 ((freq
>> 5) & 0xfc00));
798 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC2
+ ES_SMPREG_VFREQ_FRAC
,
800 r
= (snd_es1371_wait_src_ready(ensoniq
) & (ES_1371_SRC_DISABLE
|
801 ES_1371_DIS_P1
| ES_1371_DIS_R1
));
802 outl(r
, ES_REG(ensoniq
, 1371_SMPRATE
));
803 mutex_unlock(&ensoniq
->src_mutex
);
806 #endif /* CHIP1371 */
808 static int snd_ensoniq_trigger(struct snd_pcm_substream
*substream
, int cmd
)
810 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
812 case SNDRV_PCM_TRIGGER_PAUSE_PUSH
:
813 case SNDRV_PCM_TRIGGER_PAUSE_RELEASE
:
815 unsigned int what
= 0;
816 struct snd_pcm_substream
*s
;
817 snd_pcm_group_for_each_entry(s
, substream
) {
818 if (s
== ensoniq
->playback1_substream
) {
820 snd_pcm_trigger_done(s
, substream
);
821 } else if (s
== ensoniq
->playback2_substream
) {
823 snd_pcm_trigger_done(s
, substream
);
824 } else if (s
== ensoniq
->capture_substream
)
827 spin_lock(&ensoniq
->reg_lock
);
828 if (cmd
== SNDRV_PCM_TRIGGER_PAUSE_PUSH
)
829 ensoniq
->sctrl
|= what
;
831 ensoniq
->sctrl
&= ~what
;
832 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
833 spin_unlock(&ensoniq
->reg_lock
);
836 case SNDRV_PCM_TRIGGER_START
:
837 case SNDRV_PCM_TRIGGER_STOP
:
839 unsigned int what
= 0;
840 struct snd_pcm_substream
*s
;
841 snd_pcm_group_for_each_entry(s
, substream
) {
842 if (s
== ensoniq
->playback1_substream
) {
844 snd_pcm_trigger_done(s
, substream
);
845 } else if (s
== ensoniq
->playback2_substream
) {
847 snd_pcm_trigger_done(s
, substream
);
848 } else if (s
== ensoniq
->capture_substream
) {
850 snd_pcm_trigger_done(s
, substream
);
853 spin_lock(&ensoniq
->reg_lock
);
854 if (cmd
== SNDRV_PCM_TRIGGER_START
)
855 ensoniq
->ctrl
|= what
;
857 ensoniq
->ctrl
&= ~what
;
858 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
859 spin_unlock(&ensoniq
->reg_lock
);
872 static int snd_ensoniq_hw_params(struct snd_pcm_substream
*substream
,
873 struct snd_pcm_hw_params
*hw_params
)
875 return snd_pcm_lib_malloc_pages(substream
, params_buffer_bytes(hw_params
));
878 static int snd_ensoniq_hw_free(struct snd_pcm_substream
*substream
)
880 return snd_pcm_lib_free_pages(substream
);
883 static int snd_ensoniq_playback1_prepare(struct snd_pcm_substream
*substream
)
885 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
886 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
887 unsigned int mode
= 0;
889 ensoniq
->p1_dma_size
= snd_pcm_lib_buffer_bytes(substream
);
890 ensoniq
->p1_period_size
= snd_pcm_lib_period_bytes(substream
);
891 if (snd_pcm_format_width(runtime
->format
) == 16)
893 if (runtime
->channels
> 1)
895 spin_lock_irq(&ensoniq
->reg_lock
);
896 ensoniq
->ctrl
&= ~ES_DAC1_EN
;
898 /* 48k doesn't need SRC (it breaks AC3-passthru) */
899 if (runtime
->rate
== 48000)
900 ensoniq
->ctrl
|= ES_1373_BYPASS_P1
;
902 ensoniq
->ctrl
&= ~ES_1373_BYPASS_P1
;
904 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
905 outl(ES_MEM_PAGEO(ES_PAGE_DAC
), ES_REG(ensoniq
, MEM_PAGE
));
906 outl(runtime
->dma_addr
, ES_REG(ensoniq
, DAC1_FRAME
));
907 outl((ensoniq
->p1_dma_size
>> 2) - 1, ES_REG(ensoniq
, DAC1_SIZE
));
908 ensoniq
->sctrl
&= ~(ES_P1_LOOP_SEL
| ES_P1_PAUSE
| ES_P1_SCT_RLD
| ES_P1_MODEM
);
909 ensoniq
->sctrl
|= ES_P1_INT_EN
| ES_P1_MODEO(mode
);
910 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
911 outl((ensoniq
->p1_period_size
>> snd_ensoniq_sample_shift
[mode
]) - 1,
912 ES_REG(ensoniq
, DAC1_COUNT
));
914 ensoniq
->ctrl
&= ~ES_1370_WTSRSELM
;
915 switch (runtime
->rate
) {
916 case 5512: ensoniq
->ctrl
|= ES_1370_WTSRSEL(0); break;
917 case 11025: ensoniq
->ctrl
|= ES_1370_WTSRSEL(1); break;
918 case 22050: ensoniq
->ctrl
|= ES_1370_WTSRSEL(2); break;
919 case 44100: ensoniq
->ctrl
|= ES_1370_WTSRSEL(3); break;
923 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
924 spin_unlock_irq(&ensoniq
->reg_lock
);
926 snd_es1371_dac1_rate(ensoniq
, runtime
->rate
);
931 static int snd_ensoniq_playback2_prepare(struct snd_pcm_substream
*substream
)
933 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
934 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
935 unsigned int mode
= 0;
937 ensoniq
->p2_dma_size
= snd_pcm_lib_buffer_bytes(substream
);
938 ensoniq
->p2_period_size
= snd_pcm_lib_period_bytes(substream
);
939 if (snd_pcm_format_width(runtime
->format
) == 16)
941 if (runtime
->channels
> 1)
943 spin_lock_irq(&ensoniq
->reg_lock
);
944 ensoniq
->ctrl
&= ~ES_DAC2_EN
;
945 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
946 outl(ES_MEM_PAGEO(ES_PAGE_DAC
), ES_REG(ensoniq
, MEM_PAGE
));
947 outl(runtime
->dma_addr
, ES_REG(ensoniq
, DAC2_FRAME
));
948 outl((ensoniq
->p2_dma_size
>> 2) - 1, ES_REG(ensoniq
, DAC2_SIZE
));
949 ensoniq
->sctrl
&= ~(ES_P2_LOOP_SEL
| ES_P2_PAUSE
| ES_P2_DAC_SEN
|
950 ES_P2_END_INCM
| ES_P2_ST_INCM
| ES_P2_MODEM
);
951 ensoniq
->sctrl
|= ES_P2_INT_EN
| ES_P2_MODEO(mode
) |
952 ES_P2_END_INCO(mode
& 2 ? 2 : 1) | ES_P2_ST_INCO(0);
953 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
954 outl((ensoniq
->p2_period_size
>> snd_ensoniq_sample_shift
[mode
]) - 1,
955 ES_REG(ensoniq
, DAC2_COUNT
));
957 if (!(ensoniq
->u
.es1370
.pclkdiv_lock
& ES_MODE_CAPTURE
)) {
958 ensoniq
->ctrl
&= ~ES_1370_PCLKDIVM
;
959 ensoniq
->ctrl
|= ES_1370_PCLKDIVO(ES_1370_SRTODIV(runtime
->rate
));
960 ensoniq
->u
.es1370
.pclkdiv_lock
|= ES_MODE_PLAY2
;
963 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
964 spin_unlock_irq(&ensoniq
->reg_lock
);
966 snd_es1371_dac2_rate(ensoniq
, runtime
->rate
);
971 static int snd_ensoniq_capture_prepare(struct snd_pcm_substream
*substream
)
973 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
974 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
975 unsigned int mode
= 0;
977 ensoniq
->c_dma_size
= snd_pcm_lib_buffer_bytes(substream
);
978 ensoniq
->c_period_size
= snd_pcm_lib_period_bytes(substream
);
979 if (snd_pcm_format_width(runtime
->format
) == 16)
981 if (runtime
->channels
> 1)
983 spin_lock_irq(&ensoniq
->reg_lock
);
984 ensoniq
->ctrl
&= ~ES_ADC_EN
;
985 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
986 outl(ES_MEM_PAGEO(ES_PAGE_ADC
), ES_REG(ensoniq
, MEM_PAGE
));
987 outl(runtime
->dma_addr
, ES_REG(ensoniq
, ADC_FRAME
));
988 outl((ensoniq
->c_dma_size
>> 2) - 1, ES_REG(ensoniq
, ADC_SIZE
));
989 ensoniq
->sctrl
&= ~(ES_R1_LOOP_SEL
| ES_R1_MODEM
);
990 ensoniq
->sctrl
|= ES_R1_INT_EN
| ES_R1_MODEO(mode
);
991 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
992 outl((ensoniq
->c_period_size
>> snd_ensoniq_sample_shift
[mode
]) - 1,
993 ES_REG(ensoniq
, ADC_COUNT
));
995 if (!(ensoniq
->u
.es1370
.pclkdiv_lock
& ES_MODE_PLAY2
)) {
996 ensoniq
->ctrl
&= ~ES_1370_PCLKDIVM
;
997 ensoniq
->ctrl
|= ES_1370_PCLKDIVO(ES_1370_SRTODIV(runtime
->rate
));
998 ensoniq
->u
.es1370
.pclkdiv_lock
|= ES_MODE_CAPTURE
;
1001 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1002 spin_unlock_irq(&ensoniq
->reg_lock
);
1004 snd_es1371_adc_rate(ensoniq
, runtime
->rate
);
1009 static snd_pcm_uframes_t
snd_ensoniq_playback1_pointer(struct snd_pcm_substream
*substream
)
1011 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1014 spin_lock(&ensoniq
->reg_lock
);
1015 if (inl(ES_REG(ensoniq
, CONTROL
)) & ES_DAC1_EN
) {
1016 outl(ES_MEM_PAGEO(ES_PAGE_DAC
), ES_REG(ensoniq
, MEM_PAGE
));
1017 ptr
= ES_REG_FCURR_COUNTI(inl(ES_REG(ensoniq
, DAC1_SIZE
)));
1018 ptr
= bytes_to_frames(substream
->runtime
, ptr
);
1022 spin_unlock(&ensoniq
->reg_lock
);
1026 static snd_pcm_uframes_t
snd_ensoniq_playback2_pointer(struct snd_pcm_substream
*substream
)
1028 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1031 spin_lock(&ensoniq
->reg_lock
);
1032 if (inl(ES_REG(ensoniq
, CONTROL
)) & ES_DAC2_EN
) {
1033 outl(ES_MEM_PAGEO(ES_PAGE_DAC
), ES_REG(ensoniq
, MEM_PAGE
));
1034 ptr
= ES_REG_FCURR_COUNTI(inl(ES_REG(ensoniq
, DAC2_SIZE
)));
1035 ptr
= bytes_to_frames(substream
->runtime
, ptr
);
1039 spin_unlock(&ensoniq
->reg_lock
);
1043 static snd_pcm_uframes_t
snd_ensoniq_capture_pointer(struct snd_pcm_substream
*substream
)
1045 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1048 spin_lock(&ensoniq
->reg_lock
);
1049 if (inl(ES_REG(ensoniq
, CONTROL
)) & ES_ADC_EN
) {
1050 outl(ES_MEM_PAGEO(ES_PAGE_ADC
), ES_REG(ensoniq
, MEM_PAGE
));
1051 ptr
= ES_REG_FCURR_COUNTI(inl(ES_REG(ensoniq
, ADC_SIZE
)));
1052 ptr
= bytes_to_frames(substream
->runtime
, ptr
);
1056 spin_unlock(&ensoniq
->reg_lock
);
1060 static struct snd_pcm_hardware snd_ensoniq_playback1
=
1062 .info
= (SNDRV_PCM_INFO_MMAP
| SNDRV_PCM_INFO_INTERLEAVED
|
1063 SNDRV_PCM_INFO_BLOCK_TRANSFER
|
1064 SNDRV_PCM_INFO_MMAP_VALID
|
1065 SNDRV_PCM_INFO_PAUSE
| SNDRV_PCM_INFO_SYNC_START
),
1066 .formats
= SNDRV_PCM_FMTBIT_U8
| SNDRV_PCM_FMTBIT_S16_LE
,
1069 SNDRV_PCM_RATE_CONTINUOUS
| SNDRV_PCM_RATE_8000_48000
,
1071 (SNDRV_PCM_RATE_KNOT
| /* 5512Hz rate */
1072 SNDRV_PCM_RATE_11025
| SNDRV_PCM_RATE_22050
|
1073 SNDRV_PCM_RATE_44100
),
1079 .buffer_bytes_max
= (128*1024),
1080 .period_bytes_min
= 64,
1081 .period_bytes_max
= (128*1024),
1083 .periods_max
= 1024,
1087 static struct snd_pcm_hardware snd_ensoniq_playback2
=
1089 .info
= (SNDRV_PCM_INFO_MMAP
| SNDRV_PCM_INFO_INTERLEAVED
|
1090 SNDRV_PCM_INFO_BLOCK_TRANSFER
|
1091 SNDRV_PCM_INFO_MMAP_VALID
| SNDRV_PCM_INFO_PAUSE
|
1092 SNDRV_PCM_INFO_SYNC_START
),
1093 .formats
= SNDRV_PCM_FMTBIT_U8
| SNDRV_PCM_FMTBIT_S16_LE
,
1094 .rates
= SNDRV_PCM_RATE_CONTINUOUS
| SNDRV_PCM_RATE_8000_48000
,
1099 .buffer_bytes_max
= (128*1024),
1100 .period_bytes_min
= 64,
1101 .period_bytes_max
= (128*1024),
1103 .periods_max
= 1024,
1107 static struct snd_pcm_hardware snd_ensoniq_capture
=
1109 .info
= (SNDRV_PCM_INFO_MMAP
| SNDRV_PCM_INFO_INTERLEAVED
|
1110 SNDRV_PCM_INFO_BLOCK_TRANSFER
|
1111 SNDRV_PCM_INFO_MMAP_VALID
| SNDRV_PCM_INFO_SYNC_START
),
1112 .formats
= SNDRV_PCM_FMTBIT_U8
| SNDRV_PCM_FMTBIT_S16_LE
,
1113 .rates
= SNDRV_PCM_RATE_CONTINUOUS
| SNDRV_PCM_RATE_8000_48000
,
1118 .buffer_bytes_max
= (128*1024),
1119 .period_bytes_min
= 64,
1120 .period_bytes_max
= (128*1024),
1122 .periods_max
= 1024,
1126 static int snd_ensoniq_playback1_open(struct snd_pcm_substream
*substream
)
1128 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1129 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
1131 ensoniq
->mode
|= ES_MODE_PLAY1
;
1132 ensoniq
->playback1_substream
= substream
;
1133 runtime
->hw
= snd_ensoniq_playback1
;
1134 snd_pcm_set_sync(substream
);
1135 spin_lock_irq(&ensoniq
->reg_lock
);
1136 if (ensoniq
->spdif
&& ensoniq
->playback2_substream
== NULL
)
1137 ensoniq
->spdif_stream
= ensoniq
->spdif_default
;
1138 spin_unlock_irq(&ensoniq
->reg_lock
);
1140 snd_pcm_hw_constraint_list(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1141 &snd_es1370_hw_constraints_rates
);
1143 snd_pcm_hw_constraint_ratdens(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1144 &snd_es1371_hw_constraints_dac_clock
);
1149 static int snd_ensoniq_playback2_open(struct snd_pcm_substream
*substream
)
1151 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1152 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
1154 ensoniq
->mode
|= ES_MODE_PLAY2
;
1155 ensoniq
->playback2_substream
= substream
;
1156 runtime
->hw
= snd_ensoniq_playback2
;
1157 snd_pcm_set_sync(substream
);
1158 spin_lock_irq(&ensoniq
->reg_lock
);
1159 if (ensoniq
->spdif
&& ensoniq
->playback1_substream
== NULL
)
1160 ensoniq
->spdif_stream
= ensoniq
->spdif_default
;
1161 spin_unlock_irq(&ensoniq
->reg_lock
);
1163 snd_pcm_hw_constraint_ratnums(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1164 &snd_es1370_hw_constraints_clock
);
1166 snd_pcm_hw_constraint_ratdens(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1167 &snd_es1371_hw_constraints_dac_clock
);
1172 static int snd_ensoniq_capture_open(struct snd_pcm_substream
*substream
)
1174 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1175 struct snd_pcm_runtime
*runtime
= substream
->runtime
;
1177 ensoniq
->mode
|= ES_MODE_CAPTURE
;
1178 ensoniq
->capture_substream
= substream
;
1179 runtime
->hw
= snd_ensoniq_capture
;
1180 snd_pcm_set_sync(substream
);
1182 snd_pcm_hw_constraint_ratnums(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1183 &snd_es1370_hw_constraints_clock
);
1185 snd_pcm_hw_constraint_ratnums(runtime
, 0, SNDRV_PCM_HW_PARAM_RATE
,
1186 &snd_es1371_hw_constraints_adc_clock
);
1191 static int snd_ensoniq_playback1_close(struct snd_pcm_substream
*substream
)
1193 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1195 ensoniq
->playback1_substream
= NULL
;
1196 ensoniq
->mode
&= ~ES_MODE_PLAY1
;
1200 static int snd_ensoniq_playback2_close(struct snd_pcm_substream
*substream
)
1202 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1204 ensoniq
->playback2_substream
= NULL
;
1205 spin_lock_irq(&ensoniq
->reg_lock
);
1207 ensoniq
->u
.es1370
.pclkdiv_lock
&= ~ES_MODE_PLAY2
;
1209 ensoniq
->mode
&= ~ES_MODE_PLAY2
;
1210 spin_unlock_irq(&ensoniq
->reg_lock
);
1214 static int snd_ensoniq_capture_close(struct snd_pcm_substream
*substream
)
1216 struct ensoniq
*ensoniq
= snd_pcm_substream_chip(substream
);
1218 ensoniq
->capture_substream
= NULL
;
1219 spin_lock_irq(&ensoniq
->reg_lock
);
1221 ensoniq
->u
.es1370
.pclkdiv_lock
&= ~ES_MODE_CAPTURE
;
1223 ensoniq
->mode
&= ~ES_MODE_CAPTURE
;
1224 spin_unlock_irq(&ensoniq
->reg_lock
);
1228 static struct snd_pcm_ops snd_ensoniq_playback1_ops
= {
1229 .open
= snd_ensoniq_playback1_open
,
1230 .close
= snd_ensoniq_playback1_close
,
1231 .ioctl
= snd_pcm_lib_ioctl
,
1232 .hw_params
= snd_ensoniq_hw_params
,
1233 .hw_free
= snd_ensoniq_hw_free
,
1234 .prepare
= snd_ensoniq_playback1_prepare
,
1235 .trigger
= snd_ensoniq_trigger
,
1236 .pointer
= snd_ensoniq_playback1_pointer
,
1239 static struct snd_pcm_ops snd_ensoniq_playback2_ops
= {
1240 .open
= snd_ensoniq_playback2_open
,
1241 .close
= snd_ensoniq_playback2_close
,
1242 .ioctl
= snd_pcm_lib_ioctl
,
1243 .hw_params
= snd_ensoniq_hw_params
,
1244 .hw_free
= snd_ensoniq_hw_free
,
1245 .prepare
= snd_ensoniq_playback2_prepare
,
1246 .trigger
= snd_ensoniq_trigger
,
1247 .pointer
= snd_ensoniq_playback2_pointer
,
1250 static struct snd_pcm_ops snd_ensoniq_capture_ops
= {
1251 .open
= snd_ensoniq_capture_open
,
1252 .close
= snd_ensoniq_capture_close
,
1253 .ioctl
= snd_pcm_lib_ioctl
,
1254 .hw_params
= snd_ensoniq_hw_params
,
1255 .hw_free
= snd_ensoniq_hw_free
,
1256 .prepare
= snd_ensoniq_capture_prepare
,
1257 .trigger
= snd_ensoniq_trigger
,
1258 .pointer
= snd_ensoniq_capture_pointer
,
1261 static int __devinit
snd_ensoniq_pcm(struct ensoniq
* ensoniq
, int device
,
1262 struct snd_pcm
** rpcm
)
1264 struct snd_pcm
*pcm
;
1270 err
= snd_pcm_new(ensoniq
->card
, "ES1370/1", device
, 1, 1, &pcm
);
1272 err
= snd_pcm_new(ensoniq
->card
, "ES1371/1", device
, 1, 1, &pcm
);
1278 snd_pcm_set_ops(pcm
, SNDRV_PCM_STREAM_PLAYBACK
, &snd_ensoniq_playback2_ops
);
1280 snd_pcm_set_ops(pcm
, SNDRV_PCM_STREAM_PLAYBACK
, &snd_ensoniq_playback1_ops
);
1282 snd_pcm_set_ops(pcm
, SNDRV_PCM_STREAM_CAPTURE
, &snd_ensoniq_capture_ops
);
1284 pcm
->private_data
= ensoniq
;
1285 pcm
->info_flags
= 0;
1287 strcpy(pcm
->name
, "ES1370 DAC2/ADC");
1289 strcpy(pcm
->name
, "ES1371 DAC2/ADC");
1291 ensoniq
->pcm1
= pcm
;
1293 snd_pcm_lib_preallocate_pages_for_all(pcm
, SNDRV_DMA_TYPE_DEV
,
1294 snd_dma_pci_data(ensoniq
->pci
), 64*1024, 128*1024);
1301 static int __devinit
snd_ensoniq_pcm2(struct ensoniq
* ensoniq
, int device
,
1302 struct snd_pcm
** rpcm
)
1304 struct snd_pcm
*pcm
;
1310 err
= snd_pcm_new(ensoniq
->card
, "ES1370/2", device
, 1, 0, &pcm
);
1312 err
= snd_pcm_new(ensoniq
->card
, "ES1371/2", device
, 1, 0, &pcm
);
1318 snd_pcm_set_ops(pcm
, SNDRV_PCM_STREAM_PLAYBACK
, &snd_ensoniq_playback1_ops
);
1320 snd_pcm_set_ops(pcm
, SNDRV_PCM_STREAM_PLAYBACK
, &snd_ensoniq_playback2_ops
);
1322 pcm
->private_data
= ensoniq
;
1323 pcm
->info_flags
= 0;
1325 strcpy(pcm
->name
, "ES1370 DAC1");
1327 strcpy(pcm
->name
, "ES1371 DAC1");
1329 ensoniq
->pcm2
= pcm
;
1331 snd_pcm_lib_preallocate_pages_for_all(pcm
, SNDRV_DMA_TYPE_DEV
,
1332 snd_dma_pci_data(ensoniq
->pci
), 64*1024, 128*1024);
1344 * ENS1371 mixer (including SPDIF interface)
1347 static int snd_ens1373_spdif_info(struct snd_kcontrol
*kcontrol
,
1348 struct snd_ctl_elem_info
*uinfo
)
1350 uinfo
->type
= SNDRV_CTL_ELEM_TYPE_IEC958
;
1355 static int snd_ens1373_spdif_default_get(struct snd_kcontrol
*kcontrol
,
1356 struct snd_ctl_elem_value
*ucontrol
)
1358 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1359 spin_lock_irq(&ensoniq
->reg_lock
);
1360 ucontrol
->value
.iec958
.status
[0] = (ensoniq
->spdif_default
>> 0) & 0xff;
1361 ucontrol
->value
.iec958
.status
[1] = (ensoniq
->spdif_default
>> 8) & 0xff;
1362 ucontrol
->value
.iec958
.status
[2] = (ensoniq
->spdif_default
>> 16) & 0xff;
1363 ucontrol
->value
.iec958
.status
[3] = (ensoniq
->spdif_default
>> 24) & 0xff;
1364 spin_unlock_irq(&ensoniq
->reg_lock
);
1368 static int snd_ens1373_spdif_default_put(struct snd_kcontrol
*kcontrol
,
1369 struct snd_ctl_elem_value
*ucontrol
)
1371 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1375 val
= ((u32
)ucontrol
->value
.iec958
.status
[0] << 0) |
1376 ((u32
)ucontrol
->value
.iec958
.status
[1] << 8) |
1377 ((u32
)ucontrol
->value
.iec958
.status
[2] << 16) |
1378 ((u32
)ucontrol
->value
.iec958
.status
[3] << 24);
1379 spin_lock_irq(&ensoniq
->reg_lock
);
1380 change
= ensoniq
->spdif_default
!= val
;
1381 ensoniq
->spdif_default
= val
;
1382 if (change
&& ensoniq
->playback1_substream
== NULL
&&
1383 ensoniq
->playback2_substream
== NULL
)
1384 outl(val
, ES_REG(ensoniq
, CHANNEL_STATUS
));
1385 spin_unlock_irq(&ensoniq
->reg_lock
);
1389 static int snd_ens1373_spdif_mask_get(struct snd_kcontrol
*kcontrol
,
1390 struct snd_ctl_elem_value
*ucontrol
)
1392 ucontrol
->value
.iec958
.status
[0] = 0xff;
1393 ucontrol
->value
.iec958
.status
[1] = 0xff;
1394 ucontrol
->value
.iec958
.status
[2] = 0xff;
1395 ucontrol
->value
.iec958
.status
[3] = 0xff;
1399 static int snd_ens1373_spdif_stream_get(struct snd_kcontrol
*kcontrol
,
1400 struct snd_ctl_elem_value
*ucontrol
)
1402 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1403 spin_lock_irq(&ensoniq
->reg_lock
);
1404 ucontrol
->value
.iec958
.status
[0] = (ensoniq
->spdif_stream
>> 0) & 0xff;
1405 ucontrol
->value
.iec958
.status
[1] = (ensoniq
->spdif_stream
>> 8) & 0xff;
1406 ucontrol
->value
.iec958
.status
[2] = (ensoniq
->spdif_stream
>> 16) & 0xff;
1407 ucontrol
->value
.iec958
.status
[3] = (ensoniq
->spdif_stream
>> 24) & 0xff;
1408 spin_unlock_irq(&ensoniq
->reg_lock
);
1412 static int snd_ens1373_spdif_stream_put(struct snd_kcontrol
*kcontrol
,
1413 struct snd_ctl_elem_value
*ucontrol
)
1415 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1419 val
= ((u32
)ucontrol
->value
.iec958
.status
[0] << 0) |
1420 ((u32
)ucontrol
->value
.iec958
.status
[1] << 8) |
1421 ((u32
)ucontrol
->value
.iec958
.status
[2] << 16) |
1422 ((u32
)ucontrol
->value
.iec958
.status
[3] << 24);
1423 spin_lock_irq(&ensoniq
->reg_lock
);
1424 change
= ensoniq
->spdif_stream
!= val
;
1425 ensoniq
->spdif_stream
= val
;
1426 if (change
&& (ensoniq
->playback1_substream
!= NULL
||
1427 ensoniq
->playback2_substream
!= NULL
))
1428 outl(val
, ES_REG(ensoniq
, CHANNEL_STATUS
));
1429 spin_unlock_irq(&ensoniq
->reg_lock
);
1433 #define ES1371_SPDIF(xname) \
1434 { .iface = SNDRV_CTL_ELEM_IFACE_MIXER, .name = xname, .info = snd_es1371_spdif_info, \
1435 .get = snd_es1371_spdif_get, .put = snd_es1371_spdif_put }
1437 #define snd_es1371_spdif_info snd_ctl_boolean_mono_info
1439 static int snd_es1371_spdif_get(struct snd_kcontrol
*kcontrol
,
1440 struct snd_ctl_elem_value
*ucontrol
)
1442 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1444 spin_lock_irq(&ensoniq
->reg_lock
);
1445 ucontrol
->value
.integer
.value
[0] = ensoniq
->ctrl
& ES_1373_SPDIF_THRU
? 1 : 0;
1446 spin_unlock_irq(&ensoniq
->reg_lock
);
1450 static int snd_es1371_spdif_put(struct snd_kcontrol
*kcontrol
,
1451 struct snd_ctl_elem_value
*ucontrol
)
1453 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1454 unsigned int nval1
, nval2
;
1457 nval1
= ucontrol
->value
.integer
.value
[0] ? ES_1373_SPDIF_THRU
: 0;
1458 nval2
= ucontrol
->value
.integer
.value
[0] ? ES_1373_SPDIF_EN
: 0;
1459 spin_lock_irq(&ensoniq
->reg_lock
);
1460 change
= (ensoniq
->ctrl
& ES_1373_SPDIF_THRU
) != nval1
;
1461 ensoniq
->ctrl
&= ~ES_1373_SPDIF_THRU
;
1462 ensoniq
->ctrl
|= nval1
;
1463 ensoniq
->cssr
&= ~ES_1373_SPDIF_EN
;
1464 ensoniq
->cssr
|= nval2
;
1465 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1466 outl(ensoniq
->cssr
, ES_REG(ensoniq
, STATUS
));
1467 spin_unlock_irq(&ensoniq
->reg_lock
);
1472 /* spdif controls */
1473 static struct snd_kcontrol_new snd_es1371_mixer_spdif
[] __devinitdata
= {
1474 ES1371_SPDIF(SNDRV_CTL_NAME_IEC958("",PLAYBACK
,SWITCH
)),
1476 .iface
= SNDRV_CTL_ELEM_IFACE_PCM
,
1477 .name
= SNDRV_CTL_NAME_IEC958("",PLAYBACK
,DEFAULT
),
1478 .info
= snd_ens1373_spdif_info
,
1479 .get
= snd_ens1373_spdif_default_get
,
1480 .put
= snd_ens1373_spdif_default_put
,
1483 .access
= SNDRV_CTL_ELEM_ACCESS_READ
,
1484 .iface
= SNDRV_CTL_ELEM_IFACE_PCM
,
1485 .name
= SNDRV_CTL_NAME_IEC958("",PLAYBACK
,MASK
),
1486 .info
= snd_ens1373_spdif_info
,
1487 .get
= snd_ens1373_spdif_mask_get
1490 .iface
= SNDRV_CTL_ELEM_IFACE_PCM
,
1491 .name
= SNDRV_CTL_NAME_IEC958("",PLAYBACK
,PCM_STREAM
),
1492 .info
= snd_ens1373_spdif_info
,
1493 .get
= snd_ens1373_spdif_stream_get
,
1494 .put
= snd_ens1373_spdif_stream_put
1499 #define snd_es1373_rear_info snd_ctl_boolean_mono_info
1501 static int snd_es1373_rear_get(struct snd_kcontrol
*kcontrol
,
1502 struct snd_ctl_elem_value
*ucontrol
)
1504 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1507 spin_lock_irq(&ensoniq
->reg_lock
);
1508 if ((ensoniq
->cssr
& (ES_1373_REAR_BIT27
|ES_1373_REAR_BIT26
|
1509 ES_1373_REAR_BIT24
)) == ES_1373_REAR_BIT26
)
1511 ucontrol
->value
.integer
.value
[0] = val
;
1512 spin_unlock_irq(&ensoniq
->reg_lock
);
1516 static int snd_es1373_rear_put(struct snd_kcontrol
*kcontrol
,
1517 struct snd_ctl_elem_value
*ucontrol
)
1519 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1523 nval1
= ucontrol
->value
.integer
.value
[0] ?
1524 ES_1373_REAR_BIT26
: (ES_1373_REAR_BIT27
|ES_1373_REAR_BIT24
);
1525 spin_lock_irq(&ensoniq
->reg_lock
);
1526 change
= (ensoniq
->cssr
& (ES_1373_REAR_BIT27
|
1527 ES_1373_REAR_BIT26
|ES_1373_REAR_BIT24
)) != nval1
;
1528 ensoniq
->cssr
&= ~(ES_1373_REAR_BIT27
|ES_1373_REAR_BIT26
|ES_1373_REAR_BIT24
);
1529 ensoniq
->cssr
|= nval1
;
1530 outl(ensoniq
->cssr
, ES_REG(ensoniq
, STATUS
));
1531 spin_unlock_irq(&ensoniq
->reg_lock
);
1535 static struct snd_kcontrol_new snd_ens1373_rear __devinitdata
=
1537 .iface
= SNDRV_CTL_ELEM_IFACE_MIXER
,
1538 .name
= "AC97 2ch->4ch Copy Switch",
1539 .info
= snd_es1373_rear_info
,
1540 .get
= snd_es1373_rear_get
,
1541 .put
= snd_es1373_rear_put
,
1544 #define snd_es1373_line_info snd_ctl_boolean_mono_info
1546 static int snd_es1373_line_get(struct snd_kcontrol
*kcontrol
,
1547 struct snd_ctl_elem_value
*ucontrol
)
1549 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1552 spin_lock_irq(&ensoniq
->reg_lock
);
1553 if ((ensoniq
->ctrl
& ES_1371_GPIO_OUTM
) >= 4)
1555 ucontrol
->value
.integer
.value
[0] = val
;
1556 spin_unlock_irq(&ensoniq
->reg_lock
);
1560 static int snd_es1373_line_put(struct snd_kcontrol
*kcontrol
,
1561 struct snd_ctl_elem_value
*ucontrol
)
1563 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1567 spin_lock_irq(&ensoniq
->reg_lock
);
1568 ctrl
= ensoniq
->ctrl
;
1569 if (ucontrol
->value
.integer
.value
[0])
1570 ensoniq
->ctrl
|= ES_1371_GPIO_OUT(4); /* switch line-in -> rear out */
1572 ensoniq
->ctrl
&= ~ES_1371_GPIO_OUT(4);
1573 changed
= (ctrl
!= ensoniq
->ctrl
);
1575 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1576 spin_unlock_irq(&ensoniq
->reg_lock
);
1580 static struct snd_kcontrol_new snd_ens1373_line __devinitdata
=
1582 .iface
= SNDRV_CTL_ELEM_IFACE_MIXER
,
1583 .name
= "Line In->Rear Out Switch",
1584 .info
= snd_es1373_line_info
,
1585 .get
= snd_es1373_line_get
,
1586 .put
= snd_es1373_line_put
,
1589 static void snd_ensoniq_mixer_free_ac97(struct snd_ac97
*ac97
)
1591 struct ensoniq
*ensoniq
= ac97
->private_data
;
1592 ensoniq
->u
.es1371
.ac97
= NULL
;
1595 struct es1371_quirk
{
1596 unsigned short vid
; /* vendor ID */
1597 unsigned short did
; /* device ID */
1598 unsigned char rev
; /* revision */
1601 static int es1371_quirk_lookup(struct ensoniq
*ensoniq
,
1602 struct es1371_quirk
*list
)
1604 while (list
->vid
!= (unsigned short)PCI_ANY_ID
) {
1605 if (ensoniq
->pci
->vendor
== list
->vid
&&
1606 ensoniq
->pci
->device
== list
->did
&&
1607 ensoniq
->rev
== list
->rev
)
1614 static struct es1371_quirk es1371_spdif_present
[] __devinitdata
= {
1615 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_C
},
1616 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_D
},
1617 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_E
},
1618 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_ES1371
, .rev
= ES1371REV_CT5880_A
},
1619 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_ES1371
, .rev
= ES1371REV_ES1373_8
},
1620 { .vid
= PCI_ANY_ID
, .did
= PCI_ANY_ID
}
1623 static struct snd_pci_quirk ens1373_line_quirk
[] __devinitdata
= {
1624 SND_PCI_QUIRK_ID(0x1274, 0x2000), /* GA-7DXR */
1625 SND_PCI_QUIRK_ID(0x1458, 0xa000), /* GA-8IEXP */
1629 static int __devinit
snd_ensoniq_1371_mixer(struct ensoniq
*ensoniq
,
1630 int has_spdif
, int has_line
)
1632 struct snd_card
*card
= ensoniq
->card
;
1633 struct snd_ac97_bus
*pbus
;
1634 struct snd_ac97_template ac97
;
1636 static struct snd_ac97_bus_ops ops
= {
1637 .write
= snd_es1371_codec_write
,
1638 .read
= snd_es1371_codec_read
,
1639 .wait
= snd_es1371_codec_wait
,
1642 if ((err
= snd_ac97_bus(card
, 0, &ops
, NULL
, &pbus
)) < 0)
1645 memset(&ac97
, 0, sizeof(ac97
));
1646 ac97
.private_data
= ensoniq
;
1647 ac97
.private_free
= snd_ensoniq_mixer_free_ac97
;
1648 ac97
.pci
= ensoniq
->pci
;
1649 ac97
.scaps
= AC97_SCAP_AUDIO
;
1650 if ((err
= snd_ac97_mixer(pbus
, &ac97
, &ensoniq
->u
.es1371
.ac97
)) < 0)
1652 if (has_spdif
> 0 ||
1653 (!has_spdif
&& es1371_quirk_lookup(ensoniq
, es1371_spdif_present
))) {
1654 struct snd_kcontrol
*kctl
;
1655 int i
, is_spdif
= 0;
1657 ensoniq
->spdif_default
= ensoniq
->spdif_stream
=
1658 SNDRV_PCM_DEFAULT_CON_SPDIF
;
1659 outl(ensoniq
->spdif_default
, ES_REG(ensoniq
, CHANNEL_STATUS
));
1661 if (ensoniq
->u
.es1371
.ac97
->ext_id
& AC97_EI_SPDIF
)
1664 for (i
= 0; i
< ARRAY_SIZE(snd_es1371_mixer_spdif
); i
++) {
1665 kctl
= snd_ctl_new1(&snd_es1371_mixer_spdif
[i
], ensoniq
);
1668 kctl
->id
.index
= is_spdif
;
1669 err
= snd_ctl_add(card
, kctl
);
1674 if (ensoniq
->u
.es1371
.ac97
->ext_id
& AC97_EI_SDAC
) {
1675 /* mirror rear to front speakers */
1676 ensoniq
->cssr
&= ~(ES_1373_REAR_BIT27
|ES_1373_REAR_BIT24
);
1677 ensoniq
->cssr
|= ES_1373_REAR_BIT26
;
1678 err
= snd_ctl_add(card
, snd_ctl_new1(&snd_ens1373_rear
, ensoniq
));
1683 snd_pci_quirk_lookup(ensoniq
->pci
, ens1373_line_quirk
)) {
1684 err
= snd_ctl_add(card
, snd_ctl_new1(&snd_ens1373_line
,
1693 #endif /* CHIP1371 */
1695 /* generic control callbacks for ens1370 */
1697 #define ENSONIQ_CONTROL(xname, mask) \
1698 { .iface = SNDRV_CTL_ELEM_IFACE_CARD, .name = xname, .info = snd_ensoniq_control_info, \
1699 .get = snd_ensoniq_control_get, .put = snd_ensoniq_control_put, \
1700 .private_value = mask }
1702 #define snd_ensoniq_control_info snd_ctl_boolean_mono_info
1704 static int snd_ensoniq_control_get(struct snd_kcontrol
*kcontrol
,
1705 struct snd_ctl_elem_value
*ucontrol
)
1707 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1708 int mask
= kcontrol
->private_value
;
1710 spin_lock_irq(&ensoniq
->reg_lock
);
1711 ucontrol
->value
.integer
.value
[0] = ensoniq
->ctrl
& mask
? 1 : 0;
1712 spin_unlock_irq(&ensoniq
->reg_lock
);
1716 static int snd_ensoniq_control_put(struct snd_kcontrol
*kcontrol
,
1717 struct snd_ctl_elem_value
*ucontrol
)
1719 struct ensoniq
*ensoniq
= snd_kcontrol_chip(kcontrol
);
1720 int mask
= kcontrol
->private_value
;
1724 nval
= ucontrol
->value
.integer
.value
[0] ? mask
: 0;
1725 spin_lock_irq(&ensoniq
->reg_lock
);
1726 change
= (ensoniq
->ctrl
& mask
) != nval
;
1727 ensoniq
->ctrl
&= ~mask
;
1728 ensoniq
->ctrl
|= nval
;
1729 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1730 spin_unlock_irq(&ensoniq
->reg_lock
);
1738 static struct snd_kcontrol_new snd_es1370_controls
[2] __devinitdata
= {
1739 ENSONIQ_CONTROL("PCM 0 Output also on Line-In Jack", ES_1370_XCTL0
),
1740 ENSONIQ_CONTROL("Mic +5V bias", ES_1370_XCTL1
)
1743 #define ES1370_CONTROLS ARRAY_SIZE(snd_es1370_controls)
1745 static void snd_ensoniq_mixer_free_ak4531(struct snd_ak4531
*ak4531
)
1747 struct ensoniq
*ensoniq
= ak4531
->private_data
;
1748 ensoniq
->u
.es1370
.ak4531
= NULL
;
1751 static int __devinit
snd_ensoniq_1370_mixer(struct ensoniq
* ensoniq
)
1753 struct snd_card
*card
= ensoniq
->card
;
1754 struct snd_ak4531 ak4531
;
1758 /* try reset AK4531 */
1759 outw(ES_1370_CODEC_WRITE(AK4531_RESET
, 0x02), ES_REG(ensoniq
, 1370_CODEC
));
1760 inw(ES_REG(ensoniq
, 1370_CODEC
));
1762 outw(ES_1370_CODEC_WRITE(AK4531_RESET
, 0x03), ES_REG(ensoniq
, 1370_CODEC
));
1763 inw(ES_REG(ensoniq
, 1370_CODEC
));
1766 memset(&ak4531
, 0, sizeof(ak4531
));
1767 ak4531
.write
= snd_es1370_codec_write
;
1768 ak4531
.private_data
= ensoniq
;
1769 ak4531
.private_free
= snd_ensoniq_mixer_free_ak4531
;
1770 if ((err
= snd_ak4531_mixer(card
, &ak4531
, &ensoniq
->u
.es1370
.ak4531
)) < 0)
1772 for (idx
= 0; idx
< ES1370_CONTROLS
; idx
++) {
1773 err
= snd_ctl_add(card
, snd_ctl_new1(&snd_es1370_controls
[idx
], ensoniq
));
1780 #endif /* CHIP1370 */
1782 #ifdef SUPPORT_JOYSTICK
1785 static int __devinit
snd_ensoniq_get_joystick_port(int dev
)
1787 switch (joystick_port
[dev
]) {
1788 case 0: /* disabled */
1789 case 1: /* auto-detect */
1794 return joystick_port
[dev
];
1797 printk(KERN_ERR
"ens1371: invalid joystick port %#x", joystick_port
[dev
]);
1802 static inline int snd_ensoniq_get_joystick_port(int dev
)
1804 return joystick
[dev
] ? 0x200 : 0;
1808 static int __devinit
snd_ensoniq_create_gameport(struct ensoniq
*ensoniq
, int dev
)
1810 struct gameport
*gp
;
1813 io_port
= snd_ensoniq_get_joystick_port(dev
);
1819 case 1: /* auto_detect */
1820 for (io_port
= 0x200; io_port
<= 0x218; io_port
+= 8)
1821 if (request_region(io_port
, 8, "ens137x: gameport"))
1823 if (io_port
> 0x218) {
1824 printk(KERN_WARNING
"ens137x: no gameport ports available\n");
1830 if (!request_region(io_port
, 8, "ens137x: gameport")) {
1831 printk(KERN_WARNING
"ens137x: gameport io port 0x%#x in use\n",
1838 ensoniq
->gameport
= gp
= gameport_allocate_port();
1840 printk(KERN_ERR
"ens137x: cannot allocate memory for gameport\n");
1841 release_region(io_port
, 8);
1845 gameport_set_name(gp
, "ES137x");
1846 gameport_set_phys(gp
, "pci%s/gameport0", pci_name(ensoniq
->pci
));
1847 gameport_set_dev_parent(gp
, &ensoniq
->pci
->dev
);
1850 ensoniq
->ctrl
|= ES_JYSTK_EN
;
1852 ensoniq
->ctrl
&= ~ES_1371_JOY_ASELM
;
1853 ensoniq
->ctrl
|= ES_1371_JOY_ASEL((io_port
- 0x200) / 8);
1855 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1857 gameport_register_port(ensoniq
->gameport
);
1862 static void snd_ensoniq_free_gameport(struct ensoniq
*ensoniq
)
1864 if (ensoniq
->gameport
) {
1865 int port
= ensoniq
->gameport
->io
;
1867 gameport_unregister_port(ensoniq
->gameport
);
1868 ensoniq
->gameport
= NULL
;
1869 ensoniq
->ctrl
&= ~ES_JYSTK_EN
;
1870 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1871 release_region(port
, 8);
1875 static inline int snd_ensoniq_create_gameport(struct ensoniq
*ensoniq
, long port
) { return -ENOSYS
; }
1876 static inline void snd_ensoniq_free_gameport(struct ensoniq
*ensoniq
) { }
1877 #endif /* SUPPORT_JOYSTICK */
1883 static void snd_ensoniq_proc_read(struct snd_info_entry
*entry
,
1884 struct snd_info_buffer
*buffer
)
1886 struct ensoniq
*ensoniq
= entry
->private_data
;
1889 snd_iprintf(buffer
, "Ensoniq AudioPCI ES1370\n\n");
1891 snd_iprintf(buffer
, "Ensoniq AudioPCI ES1371\n\n");
1893 snd_iprintf(buffer
, "Joystick enable : %s\n",
1894 ensoniq
->ctrl
& ES_JYSTK_EN
? "on" : "off");
1896 snd_iprintf(buffer
, "MIC +5V bias : %s\n",
1897 ensoniq
->ctrl
& ES_1370_XCTL1
? "on" : "off");
1898 snd_iprintf(buffer
, "Line In to AOUT : %s\n",
1899 ensoniq
->ctrl
& ES_1370_XCTL0
? "on" : "off");
1901 snd_iprintf(buffer
, "Joystick port : 0x%x\n",
1902 (ES_1371_JOY_ASELI(ensoniq
->ctrl
) * 8) + 0x200);
1906 static void __devinit
snd_ensoniq_proc_init(struct ensoniq
* ensoniq
)
1908 struct snd_info_entry
*entry
;
1910 if (! snd_card_proc_new(ensoniq
->card
, "audiopci", &entry
))
1911 snd_info_set_text_ops(entry
, ensoniq
, snd_ensoniq_proc_read
);
1918 static int snd_ensoniq_free(struct ensoniq
*ensoniq
)
1920 snd_ensoniq_free_gameport(ensoniq
);
1921 if (ensoniq
->irq
< 0)
1924 outl(ES_1370_SERR_DISABLE
, ES_REG(ensoniq
, CONTROL
)); /* switch everything off */
1925 outl(0, ES_REG(ensoniq
, SERIAL
)); /* clear serial interface */
1927 outl(0, ES_REG(ensoniq
, CONTROL
)); /* switch everything off */
1928 outl(0, ES_REG(ensoniq
, SERIAL
)); /* clear serial interface */
1930 if (ensoniq
->irq
>= 0)
1931 synchronize_irq(ensoniq
->irq
);
1932 pci_set_power_state(ensoniq
->pci
, 3);
1935 if (ensoniq
->dma_bug
.area
)
1936 snd_dma_free_pages(&ensoniq
->dma_bug
);
1938 if (ensoniq
->irq
>= 0)
1939 free_irq(ensoniq
->irq
, ensoniq
);
1940 pci_release_regions(ensoniq
->pci
);
1941 pci_disable_device(ensoniq
->pci
);
1946 static int snd_ensoniq_dev_free(struct snd_device
*device
)
1948 struct ensoniq
*ensoniq
= device
->device_data
;
1949 return snd_ensoniq_free(ensoniq
);
1953 static struct snd_pci_quirk es1371_amplifier_hack
[] __devinitdata
= {
1954 SND_PCI_QUIRK_ID(0x107b, 0x2150), /* Gateway Solo 2150 */
1955 SND_PCI_QUIRK_ID(0x13bd, 0x100c), /* EV1938 on Mebius PC-MJ100V */
1956 SND_PCI_QUIRK_ID(0x1102, 0x5938), /* Targa Xtender300 */
1957 SND_PCI_QUIRK_ID(0x1102, 0x8938), /* IPC Topnote G notebook */
1961 static struct es1371_quirk es1371_ac97_reset_hack
[] = {
1962 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_C
},
1963 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_D
},
1964 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_CT5880
, .rev
= CT5880REV_CT5880_E
},
1965 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_ES1371
, .rev
= ES1371REV_CT5880_A
},
1966 { .vid
= PCI_VENDOR_ID_ENSONIQ
, .did
= PCI_DEVICE_ID_ENSONIQ_ES1371
, .rev
= ES1371REV_ES1373_8
},
1967 { .vid
= PCI_ANY_ID
, .did
= PCI_ANY_ID
}
1971 static void snd_ensoniq_chip_init(struct ensoniq
*ensoniq
)
1976 /* this code was part of snd_ensoniq_create before intruduction
1980 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1981 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
1982 outl(ES_MEM_PAGEO(ES_PAGE_ADC
), ES_REG(ensoniq
, MEM_PAGE
));
1983 outl(ensoniq
->dma_bug
.addr
, ES_REG(ensoniq
, PHANTOM_FRAME
));
1984 outl(0, ES_REG(ensoniq
, PHANTOM_COUNT
));
1986 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
1987 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
1988 outl(0, ES_REG(ensoniq
, 1371_LEGACY
));
1989 if (es1371_quirk_lookup(ensoniq
, es1371_ac97_reset_hack
)) {
1990 outl(ensoniq
->cssr
, ES_REG(ensoniq
, STATUS
));
1991 /* need to delay around 20ms(bleech) to give
1992 some CODECs enough time to wakeup */
1995 /* AC'97 warm reset to start the bitclk */
1996 outl(ensoniq
->ctrl
| ES_1371_SYNC_RES
, ES_REG(ensoniq
, CONTROL
));
1997 inl(ES_REG(ensoniq
, CONTROL
));
1999 outl(ensoniq
->ctrl
, ES_REG(ensoniq
, CONTROL
));
2000 /* Init the sample rate converter */
2001 snd_es1371_wait_src_ready(ensoniq
);
2002 outl(ES_1371_SRC_DISABLE
, ES_REG(ensoniq
, 1371_SMPRATE
));
2003 for (idx
= 0; idx
< 0x80; idx
++)
2004 snd_es1371_src_write(ensoniq
, idx
, 0);
2005 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC1
+ ES_SMPREG_TRUNC_N
, 16 << 4);
2006 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC1
+ ES_SMPREG_INT_REGS
, 16 << 10);
2007 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC2
+ ES_SMPREG_TRUNC_N
, 16 << 4);
2008 snd_es1371_src_write(ensoniq
, ES_SMPREG_DAC2
+ ES_SMPREG_INT_REGS
, 16 << 10);
2009 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_ADC
, 1 << 12);
2010 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_ADC
+ 1, 1 << 12);
2011 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_DAC1
, 1 << 12);
2012 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_DAC1
+ 1, 1 << 12);
2013 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_DAC2
, 1 << 12);
2014 snd_es1371_src_write(ensoniq
, ES_SMPREG_VOL_DAC2
+ 1, 1 << 12);
2015 snd_es1371_adc_rate(ensoniq
, 22050);
2016 snd_es1371_dac1_rate(ensoniq
, 22050);
2017 snd_es1371_dac2_rate(ensoniq
, 22050);
2019 * enabling the sample rate converter without properly programming
2020 * its parameters causes the chip to lock up (the SRC busy bit will
2021 * be stuck high, and I've found no way to rectify this other than
2022 * power cycle) - Thomas Sailer
2024 snd_es1371_wait_src_ready(ensoniq
);
2025 outl(0, ES_REG(ensoniq
, 1371_SMPRATE
));
2026 /* try reset codec directly */
2027 outl(ES_1371_CODEC_WRITE(0, 0), ES_REG(ensoniq
, 1371_CODEC
));
2029 outb(ensoniq
->uartc
= 0x00, ES_REG(ensoniq
, UART_CONTROL
));
2030 outb(0x00, ES_REG(ensoniq
, UART_RES
));
2031 outl(ensoniq
->cssr
, ES_REG(ensoniq
, STATUS
));
2032 synchronize_irq(ensoniq
->irq
);
2036 static int snd_ensoniq_suspend(struct pci_dev
*pci
, pm_message_t state
)
2038 struct snd_card
*card
= pci_get_drvdata(pci
);
2039 struct ensoniq
*ensoniq
= card
->private_data
;
2041 snd_power_change_state(card
, SNDRV_CTL_POWER_D3hot
);
2043 snd_pcm_suspend_all(ensoniq
->pcm1
);
2044 snd_pcm_suspend_all(ensoniq
->pcm2
);
2047 snd_ac97_suspend(ensoniq
->u
.es1371
.ac97
);
2049 /* try to reset AK4531 */
2050 outw(ES_1370_CODEC_WRITE(AK4531_RESET
, 0x02), ES_REG(ensoniq
, 1370_CODEC
));
2051 inw(ES_REG(ensoniq
, 1370_CODEC
));
2053 outw(ES_1370_CODEC_WRITE(AK4531_RESET
, 0x03), ES_REG(ensoniq
, 1370_CODEC
));
2054 inw(ES_REG(ensoniq
, 1370_CODEC
));
2056 snd_ak4531_suspend(ensoniq
->u
.es1370
.ak4531
);
2059 pci_disable_device(pci
);
2060 pci_save_state(pci
);
2061 pci_set_power_state(pci
, pci_choose_state(pci
, state
));
2065 static int snd_ensoniq_resume(struct pci_dev
*pci
)
2067 struct snd_card
*card
= pci_get_drvdata(pci
);
2068 struct ensoniq
*ensoniq
= card
->private_data
;
2070 pci_set_power_state(pci
, PCI_D0
);
2071 pci_restore_state(pci
);
2072 if (pci_enable_device(pci
) < 0) {
2073 printk(KERN_ERR DRIVER_NAME
": pci_enable_device failed, "
2074 "disabling device\n");
2075 snd_card_disconnect(card
);
2078 pci_set_master(pci
);
2080 snd_ensoniq_chip_init(ensoniq
);
2083 snd_ac97_resume(ensoniq
->u
.es1371
.ac97
);
2085 snd_ak4531_resume(ensoniq
->u
.es1370
.ak4531
);
2087 snd_power_change_state(card
, SNDRV_CTL_POWER_D0
);
2090 #endif /* CONFIG_PM */
2093 static int __devinit
snd_ensoniq_create(struct snd_card
*card
,
2094 struct pci_dev
*pci
,
2095 struct ensoniq
** rensoniq
)
2097 struct ensoniq
*ensoniq
;
2099 static struct snd_device_ops ops
= {
2100 .dev_free
= snd_ensoniq_dev_free
,
2104 if ((err
= pci_enable_device(pci
)) < 0)
2106 ensoniq
= kzalloc(sizeof(*ensoniq
), GFP_KERNEL
);
2107 if (ensoniq
== NULL
) {
2108 pci_disable_device(pci
);
2111 spin_lock_init(&ensoniq
->reg_lock
);
2112 mutex_init(&ensoniq
->src_mutex
);
2113 ensoniq
->card
= card
;
2116 if ((err
= pci_request_regions(pci
, "Ensoniq AudioPCI")) < 0) {
2118 pci_disable_device(pci
);
2121 ensoniq
->port
= pci_resource_start(pci
, 0);
2122 if (request_irq(pci
->irq
, snd_audiopci_interrupt
, IRQF_SHARED
,
2123 KBUILD_MODNAME
, ensoniq
)) {
2124 snd_printk(KERN_ERR
"unable to grab IRQ %d\n", pci
->irq
);
2125 snd_ensoniq_free(ensoniq
);
2128 ensoniq
->irq
= pci
->irq
;
2130 if (snd_dma_alloc_pages(SNDRV_DMA_TYPE_DEV
, snd_dma_pci_data(pci
),
2131 16, &ensoniq
->dma_bug
) < 0) {
2132 snd_printk(KERN_ERR
"unable to allocate space for phantom area - dma_bug\n");
2133 snd_ensoniq_free(ensoniq
);
2137 pci_set_master(pci
);
2138 ensoniq
->rev
= pci
->revision
;
2141 ensoniq
->ctrl
= ES_1370_CDC_EN
| ES_1370_SERR_DISABLE
|
2142 ES_1370_PCLKDIVO(ES_1370_SRTODIV(8000));
2143 #else /* get microphone working */
2144 ensoniq
->ctrl
= ES_1370_CDC_EN
| ES_1370_PCLKDIVO(ES_1370_SRTODIV(8000));
2151 if (snd_pci_quirk_lookup(pci
, es1371_amplifier_hack
))
2152 ensoniq
->ctrl
|= ES_1371_GPIO_OUT(1); /* turn amplifier on */
2154 if (es1371_quirk_lookup(ensoniq
, es1371_ac97_reset_hack
))
2155 ensoniq
->cssr
|= ES_1371_ST_AC97_RST
;
2158 snd_ensoniq_chip_init(ensoniq
);
2160 if ((err
= snd_device_new(card
, SNDRV_DEV_LOWLEVEL
, ensoniq
, &ops
)) < 0) {
2161 snd_ensoniq_free(ensoniq
);
2165 snd_ensoniq_proc_init(ensoniq
);
2167 snd_card_set_dev(card
, &pci
->dev
);
2169 *rensoniq
= ensoniq
;
2177 static void snd_ensoniq_midi_interrupt(struct ensoniq
* ensoniq
)
2179 struct snd_rawmidi
*rmidi
= ensoniq
->rmidi
;
2180 unsigned char status
, mask
, byte
;
2184 /* do Rx at first */
2185 spin_lock(&ensoniq
->reg_lock
);
2186 mask
= ensoniq
->uartm
& ES_MODE_INPUT
? ES_RXRDY
: 0;
2188 status
= inb(ES_REG(ensoniq
, UART_STATUS
));
2189 if ((status
& mask
) == 0)
2191 byte
= inb(ES_REG(ensoniq
, UART_DATA
));
2192 snd_rawmidi_receive(ensoniq
->midi_input
, &byte
, 1);
2194 spin_unlock(&ensoniq
->reg_lock
);
2196 /* do Tx at second */
2197 spin_lock(&ensoniq
->reg_lock
);
2198 mask
= ensoniq
->uartm
& ES_MODE_OUTPUT
? ES_TXRDY
: 0;
2200 status
= inb(ES_REG(ensoniq
, UART_STATUS
));
2201 if ((status
& mask
) == 0)
2203 if (snd_rawmidi_transmit(ensoniq
->midi_output
, &byte
, 1) != 1) {
2204 ensoniq
->uartc
&= ~ES_TXINTENM
;
2205 outb(ensoniq
->uartc
, ES_REG(ensoniq
, UART_CONTROL
));
2208 outb(byte
, ES_REG(ensoniq
, UART_DATA
));
2211 spin_unlock(&ensoniq
->reg_lock
);
2214 static int snd_ensoniq_midi_input_open(struct snd_rawmidi_substream
*substream
)
2216 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2218 spin_lock_irq(&ensoniq
->reg_lock
);
2219 ensoniq
->uartm
|= ES_MODE_INPUT
;
2220 ensoniq
->midi_input
= substream
;
2221 if (!(ensoniq
->uartm
& ES_MODE_OUTPUT
)) {
2222 outb(ES_CNTRL(3), ES_REG(ensoniq
, UART_CONTROL
));
2223 outb(ensoniq
->uartc
= 0, ES_REG(ensoniq
, UART_CONTROL
));
2224 outl(ensoniq
->ctrl
|= ES_UART_EN
, ES_REG(ensoniq
, CONTROL
));
2226 spin_unlock_irq(&ensoniq
->reg_lock
);
2230 static int snd_ensoniq_midi_input_close(struct snd_rawmidi_substream
*substream
)
2232 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2234 spin_lock_irq(&ensoniq
->reg_lock
);
2235 if (!(ensoniq
->uartm
& ES_MODE_OUTPUT
)) {
2236 outb(ensoniq
->uartc
= 0, ES_REG(ensoniq
, UART_CONTROL
));
2237 outl(ensoniq
->ctrl
&= ~ES_UART_EN
, ES_REG(ensoniq
, CONTROL
));
2239 outb(ensoniq
->uartc
&= ~ES_RXINTEN
, ES_REG(ensoniq
, UART_CONTROL
));
2241 ensoniq
->midi_input
= NULL
;
2242 ensoniq
->uartm
&= ~ES_MODE_INPUT
;
2243 spin_unlock_irq(&ensoniq
->reg_lock
);
2247 static int snd_ensoniq_midi_output_open(struct snd_rawmidi_substream
*substream
)
2249 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2251 spin_lock_irq(&ensoniq
->reg_lock
);
2252 ensoniq
->uartm
|= ES_MODE_OUTPUT
;
2253 ensoniq
->midi_output
= substream
;
2254 if (!(ensoniq
->uartm
& ES_MODE_INPUT
)) {
2255 outb(ES_CNTRL(3), ES_REG(ensoniq
, UART_CONTROL
));
2256 outb(ensoniq
->uartc
= 0, ES_REG(ensoniq
, UART_CONTROL
));
2257 outl(ensoniq
->ctrl
|= ES_UART_EN
, ES_REG(ensoniq
, CONTROL
));
2259 spin_unlock_irq(&ensoniq
->reg_lock
);
2263 static int snd_ensoniq_midi_output_close(struct snd_rawmidi_substream
*substream
)
2265 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2267 spin_lock_irq(&ensoniq
->reg_lock
);
2268 if (!(ensoniq
->uartm
& ES_MODE_INPUT
)) {
2269 outb(ensoniq
->uartc
= 0, ES_REG(ensoniq
, UART_CONTROL
));
2270 outl(ensoniq
->ctrl
&= ~ES_UART_EN
, ES_REG(ensoniq
, CONTROL
));
2272 outb(ensoniq
->uartc
&= ~ES_TXINTENM
, ES_REG(ensoniq
, UART_CONTROL
));
2274 ensoniq
->midi_output
= NULL
;
2275 ensoniq
->uartm
&= ~ES_MODE_OUTPUT
;
2276 spin_unlock_irq(&ensoniq
->reg_lock
);
2280 static void snd_ensoniq_midi_input_trigger(struct snd_rawmidi_substream
*substream
, int up
)
2282 unsigned long flags
;
2283 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2286 spin_lock_irqsave(&ensoniq
->reg_lock
, flags
);
2288 if ((ensoniq
->uartc
& ES_RXINTEN
) == 0) {
2289 /* empty input FIFO */
2290 for (idx
= 0; idx
< 32; idx
++)
2291 inb(ES_REG(ensoniq
, UART_DATA
));
2292 ensoniq
->uartc
|= ES_RXINTEN
;
2293 outb(ensoniq
->uartc
, ES_REG(ensoniq
, UART_CONTROL
));
2296 if (ensoniq
->uartc
& ES_RXINTEN
) {
2297 ensoniq
->uartc
&= ~ES_RXINTEN
;
2298 outb(ensoniq
->uartc
, ES_REG(ensoniq
, UART_CONTROL
));
2301 spin_unlock_irqrestore(&ensoniq
->reg_lock
, flags
);
2304 static void snd_ensoniq_midi_output_trigger(struct snd_rawmidi_substream
*substream
, int up
)
2306 unsigned long flags
;
2307 struct ensoniq
*ensoniq
= substream
->rmidi
->private_data
;
2310 spin_lock_irqsave(&ensoniq
->reg_lock
, flags
);
2312 if (ES_TXINTENI(ensoniq
->uartc
) == 0) {
2313 ensoniq
->uartc
|= ES_TXINTENO(1);
2314 /* fill UART FIFO buffer at first, and turn Tx interrupts only if necessary */
2315 while (ES_TXINTENI(ensoniq
->uartc
) == 1 &&
2316 (inb(ES_REG(ensoniq
, UART_STATUS
)) & ES_TXRDY
)) {
2317 if (snd_rawmidi_transmit(substream
, &byte
, 1) != 1) {
2318 ensoniq
->uartc
&= ~ES_TXINTENM
;
2320 outb(byte
, ES_REG(ensoniq
, UART_DATA
));
2323 outb(ensoniq
->uartc
, ES_REG(ensoniq
, UART_CONTROL
));
2326 if (ES_TXINTENI(ensoniq
->uartc
) == 1) {
2327 ensoniq
->uartc
&= ~ES_TXINTENM
;
2328 outb(ensoniq
->uartc
, ES_REG(ensoniq
, UART_CONTROL
));
2331 spin_unlock_irqrestore(&ensoniq
->reg_lock
, flags
);
2334 static struct snd_rawmidi_ops snd_ensoniq_midi_output
=
2336 .open
= snd_ensoniq_midi_output_open
,
2337 .close
= snd_ensoniq_midi_output_close
,
2338 .trigger
= snd_ensoniq_midi_output_trigger
,
2341 static struct snd_rawmidi_ops snd_ensoniq_midi_input
=
2343 .open
= snd_ensoniq_midi_input_open
,
2344 .close
= snd_ensoniq_midi_input_close
,
2345 .trigger
= snd_ensoniq_midi_input_trigger
,
2348 static int __devinit
snd_ensoniq_midi(struct ensoniq
* ensoniq
, int device
,
2349 struct snd_rawmidi
**rrawmidi
)
2351 struct snd_rawmidi
*rmidi
;
2356 if ((err
= snd_rawmidi_new(ensoniq
->card
, "ES1370/1", device
, 1, 1, &rmidi
)) < 0)
2359 strcpy(rmidi
->name
, "ES1370");
2361 strcpy(rmidi
->name
, "ES1371");
2363 snd_rawmidi_set_ops(rmidi
, SNDRV_RAWMIDI_STREAM_OUTPUT
, &snd_ensoniq_midi_output
);
2364 snd_rawmidi_set_ops(rmidi
, SNDRV_RAWMIDI_STREAM_INPUT
, &snd_ensoniq_midi_input
);
2365 rmidi
->info_flags
|= SNDRV_RAWMIDI_INFO_OUTPUT
| SNDRV_RAWMIDI_INFO_INPUT
|
2366 SNDRV_RAWMIDI_INFO_DUPLEX
;
2367 rmidi
->private_data
= ensoniq
;
2368 ensoniq
->rmidi
= rmidi
;
2378 static irqreturn_t
snd_audiopci_interrupt(int irq
, void *dev_id
)
2380 struct ensoniq
*ensoniq
= dev_id
;
2381 unsigned int status
, sctrl
;
2383 if (ensoniq
== NULL
)
2386 status
= inl(ES_REG(ensoniq
, STATUS
));
2387 if (!(status
& ES_INTR
))
2390 spin_lock(&ensoniq
->reg_lock
);
2391 sctrl
= ensoniq
->sctrl
;
2392 if (status
& ES_DAC1
)
2393 sctrl
&= ~ES_P1_INT_EN
;
2394 if (status
& ES_DAC2
)
2395 sctrl
&= ~ES_P2_INT_EN
;
2396 if (status
& ES_ADC
)
2397 sctrl
&= ~ES_R1_INT_EN
;
2398 outl(sctrl
, ES_REG(ensoniq
, SERIAL
));
2399 outl(ensoniq
->sctrl
, ES_REG(ensoniq
, SERIAL
));
2400 spin_unlock(&ensoniq
->reg_lock
);
2402 if (status
& ES_UART
)
2403 snd_ensoniq_midi_interrupt(ensoniq
);
2404 if ((status
& ES_DAC2
) && ensoniq
->playback2_substream
)
2405 snd_pcm_period_elapsed(ensoniq
->playback2_substream
);
2406 if ((status
& ES_ADC
) && ensoniq
->capture_substream
)
2407 snd_pcm_period_elapsed(ensoniq
->capture_substream
);
2408 if ((status
& ES_DAC1
) && ensoniq
->playback1_substream
)
2409 snd_pcm_period_elapsed(ensoniq
->playback1_substream
);
2413 static int __devinit
snd_audiopci_probe(struct pci_dev
*pci
,
2414 const struct pci_device_id
*pci_id
)
2417 struct snd_card
*card
;
2418 struct ensoniq
*ensoniq
;
2419 int err
, pcm_devs
[2];
2421 if (dev
>= SNDRV_CARDS
)
2428 err
= snd_card_create(index
[dev
], id
[dev
], THIS_MODULE
, 0, &card
);
2432 if ((err
= snd_ensoniq_create(card
, pci
, &ensoniq
)) < 0) {
2433 snd_card_free(card
);
2436 card
->private_data
= ensoniq
;
2438 pcm_devs
[0] = 0; pcm_devs
[1] = 1;
2440 if ((err
= snd_ensoniq_1370_mixer(ensoniq
)) < 0) {
2441 snd_card_free(card
);
2446 if ((err
= snd_ensoniq_1371_mixer(ensoniq
, spdif
[dev
], lineio
[dev
])) < 0) {
2447 snd_card_free(card
);
2451 if ((err
= snd_ensoniq_pcm(ensoniq
, 0, NULL
)) < 0) {
2452 snd_card_free(card
);
2455 if ((err
= snd_ensoniq_pcm2(ensoniq
, 1, NULL
)) < 0) {
2456 snd_card_free(card
);
2459 if ((err
= snd_ensoniq_midi(ensoniq
, 0, NULL
)) < 0) {
2460 snd_card_free(card
);
2464 snd_ensoniq_create_gameport(ensoniq
, dev
);
2466 strcpy(card
->driver
, DRIVER_NAME
);
2468 strcpy(card
->shortname
, "Ensoniq AudioPCI");
2469 sprintf(card
->longname
, "%s %s at 0x%lx, irq %i",
2475 if ((err
= snd_card_register(card
)) < 0) {
2476 snd_card_free(card
);
2480 pci_set_drvdata(pci
, card
);
2485 static void __devexit
snd_audiopci_remove(struct pci_dev
*pci
)
2487 snd_card_free(pci_get_drvdata(pci
));
2488 pci_set_drvdata(pci
, NULL
);
2491 static struct pci_driver driver
= {
2492 .name
= KBUILD_MODNAME
,
2493 .id_table
= snd_audiopci_ids
,
2494 .probe
= snd_audiopci_probe
,
2495 .remove
= __devexit_p(snd_audiopci_remove
),
2497 .suspend
= snd_ensoniq_suspend
,
2498 .resume
= snd_ensoniq_resume
,
2502 static int __init
alsa_card_ens137x_init(void)
2504 return pci_register_driver(&driver
);
2507 static void __exit
alsa_card_ens137x_exit(void)
2509 pci_unregister_driver(&driver
);
2512 module_init(alsa_card_ens137x_init
)
2513 module_exit(alsa_card_ens137x_exit
)