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[pv_ops_mirror.git] / sound / pci / au88x0 / au88x0_core.c
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1 /*
2 * This program is free software; you can redistribute it and/or modify
3 * it under the terms of the GNU General Public License as published by
4 * the Free Software Foundation; either version 2 of the License, or
5 * (at your option) any later version.
7 * This program is distributed in the hope that it will be useful,
8 * but WITHOUT ANY WARRANTY; without even the implied warranty of
9 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
10 * GNU Library General Public License for more details.
12 * You should have received a copy of the GNU General Public License
13 * along with this program; if not, write to the Free Software
14 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
18 Vortex core low level functions.
20 Author: Manuel Jander (mjander@users.sourceforge.cl)
21 These functions are mainly the result of translations made
22 from the original disassembly of the au88x0 binary drivers,
23 written by Aureal before they went down.
24 Many thanks to the Jeff Muizelaar, Kester Maddock, and whoever
25 contributed to the OpenVortex project.
26 The author of this file, put the few available pieces together
27 and translated the rest of the riddle (Mix, Src and connection stuff).
28 Some things are still to be discovered, and their meanings are unclear.
30 Some of these functions aren't intended to be really used, rather
31 to help to understand how does the AU88X0 chips work. Keep them in, because
32 they could be used somewhere in the future.
34 This code hasn't been tested or proof read thoroughly. If you wanna help,
35 take a look at the AU88X0 assembly and check if this matches.
36 Functions tested ok so far are (they show the desired effect
37 at least):
38 vortex_routes(); (1 bug fixed).
39 vortex_adb_addroute();
40 vortex_adb_addroutes();
41 vortex_connect_codecplay();
42 vortex_src_flushbuffers();
43 vortex_adbdma_setmode(); note: still some unknown arguments!
44 vortex_adbdma_startfifo();
45 vortex_adbdma_stopfifo();
46 vortex_fifo_setadbctrl(); note: still some unknown arguments!
47 vortex_mix_setinputvolumebyte();
48 vortex_mix_enableinput();
49 vortex_mixer_addWTD(); (fixed)
50 vortex_connection_adbdma_src_src();
51 vortex_connection_adbdma_src();
52 vortex_src_change_convratio();
53 vortex_src_addWTD(); (fixed)
55 History:
57 01-03-2003 First revision.
58 01-21-2003 Some bug fixes.
59 17-02-2003 many bugfixes after a big versioning mess.
60 18-02-2003 JAAAAAHHHUUUUUU!!!! The mixer works !! I'm just so happy !
61 (2 hours later...) I cant believe it! Im really lucky today.
62 Now the SRC is working too! Yeah! XMMS works !
63 20-02-2003 First steps into the ALSA world.
64 28-02-2003 As my birthday present, i discovered how the DMA buffer pages really
65 work :-). It was all wrong.
66 12-03-2003 ALSA driver starts working (2 channels).
67 16-03-2003 More srcblock_setupchannel discoveries.
68 12-04-2003 AU8830 playback support. Recording in the works.
69 17-04-2003 vortex_route() and vortex_routes() bug fixes. AU8830 recording
70 works now, but chipn' dale effect is still there.
71 16-05-2003 SrcSetupChannel cleanup. Moved the Src setup stuff entirely
72 into au88x0_pcm.c .
73 06-06-2003 Buffer shifter bugfix. Mixer volume fix.
74 07-12-2003 A3D routing finally fixed. Believed to be OK.
75 25-03-2004 Many thanks to Claudia, for such valuable bug reports.
79 #include "au88x0.h"
80 #include "au88x0_a3d.h"
81 #include <linux/delay.h>
83 /* MIXER (CAsp4Mix.s and CAsp4Mixer.s) */
85 // FIXME: get rid of this.
86 static int mchannels[NR_MIXIN];
87 static int rampchs[NR_MIXIN];
89 static void vortex_mixer_en_sr(vortex_t * vortex, int channel)
91 hwwrite(vortex->mmio, VORTEX_MIXER_SR,
92 hwread(vortex->mmio, VORTEX_MIXER_SR) | (0x1 << channel));
94 static void vortex_mixer_dis_sr(vortex_t * vortex, int channel)
96 hwwrite(vortex->mmio, VORTEX_MIXER_SR,
97 hwread(vortex->mmio, VORTEX_MIXER_SR) & ~(0x1 << channel));
100 #if 0
101 static void
102 vortex_mix_muteinputgain(vortex_t * vortex, unsigned char mix,
103 unsigned char channel)
105 hwwrite(vortex->mmio, VORTEX_MIX_INVOL_A + ((mix << 5) + channel),
106 0x80);
107 hwwrite(vortex->mmio, VORTEX_MIX_INVOL_B + ((mix << 5) + channel),
108 0x80);
111 static int vortex_mix_getvolume(vortex_t * vortex, unsigned char mix)
113 int a;
114 a = hwread(vortex->mmio, VORTEX_MIX_VOL_A + (mix << 2)) & 0xff;
115 //FP2LinearFrac(a);
116 return (a);
119 static int
120 vortex_mix_getinputvolume(vortex_t * vortex, unsigned char mix,
121 int channel, int *vol)
123 int a;
124 if (!(mchannels[mix] & (1 << channel)))
125 return 0;
126 a = hwread(vortex->mmio,
127 VORTEX_MIX_INVOL_A + (((mix << 5) + channel) << 2));
129 if (rampchs[mix] == 0)
130 a = FP2LinearFrac(a);
131 else
132 a = FP2LinearFracWT(a);
134 *vol = a;
135 return (0);
138 static unsigned int vortex_mix_boost6db(unsigned char vol)
140 return (vol + 8); /* WOW! what a complex function! */
143 static void vortex_mix_rampvolume(vortex_t * vortex, int mix)
145 int ch;
146 char a;
147 // This function is intended for ramping down only (see vortex_disableinput()).
148 for (ch = 0; ch < 0x20; ch++) {
149 if (((1 << ch) & rampchs[mix]) == 0)
150 continue;
151 a = hwread(vortex->mmio,
152 VORTEX_MIX_INVOL_B + (((mix << 5) + ch) << 2));
153 if (a > -126) {
154 a -= 2;
155 hwwrite(vortex->mmio,
156 VORTEX_MIX_INVOL_A +
157 (((mix << 5) + ch) << 2), a);
158 hwwrite(vortex->mmio,
159 VORTEX_MIX_INVOL_B +
160 (((mix << 5) + ch) << 2), a);
161 } else
162 vortex_mix_killinput(vortex, mix, ch);
166 static int
167 vortex_mix_getenablebit(vortex_t * vortex, unsigned char mix, int mixin)
169 int addr, temp;
170 if (mixin >= 0)
171 addr = mixin;
172 else
173 addr = mixin + 3;
174 addr = ((mix << 3) + (addr >> 2)) << 2;
175 temp = hwread(vortex->mmio, VORTEX_MIX_ENIN + addr);
176 return ((temp >> (mixin & 3)) & 1);
178 #endif
179 static void
180 vortex_mix_setvolumebyte(vortex_t * vortex, unsigned char mix,
181 unsigned char vol)
183 int temp;
184 hwwrite(vortex->mmio, VORTEX_MIX_VOL_A + (mix << 2), vol);
185 if (1) { /*if (this_10) */
186 temp = hwread(vortex->mmio, VORTEX_MIX_VOL_B + (mix << 2));
187 if ((temp != 0x80) || (vol == 0x80))
188 return;
190 hwwrite(vortex->mmio, VORTEX_MIX_VOL_B + (mix << 2), vol);
193 static void
194 vortex_mix_setinputvolumebyte(vortex_t * vortex, unsigned char mix,
195 int mixin, unsigned char vol)
197 int temp;
199 hwwrite(vortex->mmio,
200 VORTEX_MIX_INVOL_A + (((mix << 5) + mixin) << 2), vol);
201 if (1) { /* this_10, initialized to 1. */
202 temp =
203 hwread(vortex->mmio,
204 VORTEX_MIX_INVOL_B + (((mix << 5) + mixin) << 2));
205 if ((temp != 0x80) || (vol == 0x80))
206 return;
208 hwwrite(vortex->mmio,
209 VORTEX_MIX_INVOL_B + (((mix << 5) + mixin) << 2), vol);
212 static void
213 vortex_mix_setenablebit(vortex_t * vortex, unsigned char mix, int mixin, int en)
215 int temp, addr;
217 if (mixin < 0)
218 addr = (mixin + 3);
219 else
220 addr = mixin;
221 addr = ((mix << 3) + (addr >> 2)) << 2;
222 temp = hwread(vortex->mmio, VORTEX_MIX_ENIN + addr);
223 if (en)
224 temp |= (1 << (mixin & 3));
225 else
226 temp &= ~(1 << (mixin & 3));
227 /* Mute input. Astatic void crackling? */
228 hwwrite(vortex->mmio,
229 VORTEX_MIX_INVOL_B + (((mix << 5) + mixin) << 2), 0x80);
230 /* Looks like clear buffer. */
231 hwwrite(vortex->mmio, VORTEX_MIX_SMP + (mixin << 2), 0x0);
232 hwwrite(vortex->mmio, VORTEX_MIX_SMP + 4 + (mixin << 2), 0x0);
233 /* Write enable bit. */
234 hwwrite(vortex->mmio, VORTEX_MIX_ENIN + addr, temp);
237 static void
238 vortex_mix_killinput(vortex_t * vortex, unsigned char mix, int mixin)
240 rampchs[mix] &= ~(1 << mixin);
241 vortex_mix_setinputvolumebyte(vortex, mix, mixin, 0x80);
242 mchannels[mix] &= ~(1 << mixin);
243 vortex_mix_setenablebit(vortex, mix, mixin, 0);
246 static void
247 vortex_mix_enableinput(vortex_t * vortex, unsigned char mix, int mixin)
249 vortex_mix_killinput(vortex, mix, mixin);
250 if ((mchannels[mix] & (1 << mixin)) == 0) {
251 vortex_mix_setinputvolumebyte(vortex, mix, mixin, 0x80); /*0x80 : mute */
252 mchannels[mix] |= (1 << mixin);
254 vortex_mix_setenablebit(vortex, mix, mixin, 1);
257 static void
258 vortex_mix_disableinput(vortex_t * vortex, unsigned char mix, int channel,
259 int ramp)
261 if (ramp) {
262 rampchs[mix] |= (1 << channel);
263 // Register callback.
264 //vortex_mix_startrampvolume(vortex);
265 vortex_mix_killinput(vortex, mix, channel);
266 } else
267 vortex_mix_killinput(vortex, mix, channel);
270 static int
271 vortex_mixer_addWTD(vortex_t * vortex, unsigned char mix, unsigned char ch)
273 int temp, lifeboat = 0, prev;
275 temp = hwread(vortex->mmio, VORTEX_MIXER_SR);
276 if ((temp & (1 << ch)) == 0) {
277 hwwrite(vortex->mmio, VORTEX_MIXER_CHNBASE + (ch << 2), mix);
278 vortex_mixer_en_sr(vortex, ch);
279 return 1;
281 prev = VORTEX_MIXER_CHNBASE + (ch << 2);
282 temp = hwread(vortex->mmio, prev);
283 while (temp & 0x10) {
284 prev = VORTEX_MIXER_RTBASE + ((temp & 0xf) << 2);
285 temp = hwread(vortex->mmio, prev);
286 //printk(KERN_INFO "vortex: mixAddWTD: while addr=%x, val=%x\n", prev, temp);
287 if ((++lifeboat) > 0xf) {
288 printk(KERN_ERR
289 "vortex_mixer_addWTD: lifeboat overflow\n");
290 return 0;
293 hwwrite(vortex->mmio, VORTEX_MIXER_RTBASE + ((temp & 0xf) << 2), mix);
294 hwwrite(vortex->mmio, prev, (temp & 0xf) | 0x10);
295 return 1;
298 static int
299 vortex_mixer_delWTD(vortex_t * vortex, unsigned char mix, unsigned char ch)
301 int esp14 = -1, esp18, eax, ebx, edx, ebp, esi = 0;
302 //int esp1f=edi(while)=src, esp10=ch;
304 eax = hwread(vortex->mmio, VORTEX_MIXER_SR);
305 if (((1 << ch) & eax) == 0) {
306 printk(KERN_ERR "mix ALARM %x\n", eax);
307 return 0;
309 ebp = VORTEX_MIXER_CHNBASE + (ch << 2);
310 esp18 = hwread(vortex->mmio, ebp);
311 if (esp18 & 0x10) {
312 ebx = (esp18 & 0xf);
313 if (mix == ebx) {
314 ebx = VORTEX_MIXER_RTBASE + (mix << 2);
315 edx = hwread(vortex->mmio, ebx);
316 //7b60
317 hwwrite(vortex->mmio, ebp, edx);
318 hwwrite(vortex->mmio, ebx, 0);
319 } else {
320 //7ad3
321 edx =
322 hwread(vortex->mmio,
323 VORTEX_MIXER_RTBASE + (ebx << 2));
324 //printk(KERN_INFO "vortex: mixdelWTD: 1 addr=%x, val=%x, src=%x\n", ebx, edx, src);
325 while ((edx & 0xf) != mix) {
326 if ((esi) > 0xf) {
327 printk(KERN_ERR
328 "vortex: mixdelWTD: error lifeboat overflow\n");
329 return 0;
331 esp14 = ebx;
332 ebx = edx & 0xf;
333 ebp = ebx << 2;
334 edx =
335 hwread(vortex->mmio,
336 VORTEX_MIXER_RTBASE + ebp);
337 //printk(KERN_INFO "vortex: mixdelWTD: while addr=%x, val=%x\n", ebp, edx);
338 esi++;
340 //7b30
341 ebp = ebx << 2;
342 if (edx & 0x10) { /* Delete entry in between others */
343 ebx = VORTEX_MIXER_RTBASE + ((edx & 0xf) << 2);
344 edx = hwread(vortex->mmio, ebx);
345 //7b60
346 hwwrite(vortex->mmio,
347 VORTEX_MIXER_RTBASE + ebp, edx);
348 hwwrite(vortex->mmio, ebx, 0);
349 //printk(KERN_INFO "vortex mixdelWTD between addr= 0x%x, val= 0x%x\n", ebp, edx);
350 } else { /* Delete last entry */
351 //7b83
352 if (esp14 == -1)
353 hwwrite(vortex->mmio,
354 VORTEX_MIXER_CHNBASE +
355 (ch << 2), esp18 & 0xef);
356 else {
357 ebx = (0xffffffe0 & edx) | (0xf & ebx);
358 hwwrite(vortex->mmio,
359 VORTEX_MIXER_RTBASE +
360 (esp14 << 2), ebx);
361 //printk(KERN_INFO "vortex mixdelWTD last addr= 0x%x, val= 0x%x\n", esp14, ebx);
363 hwwrite(vortex->mmio,
364 VORTEX_MIXER_RTBASE + ebp, 0);
365 return 1;
368 } else {
369 //printk(KERN_INFO "removed last mix\n");
370 //7be0
371 vortex_mixer_dis_sr(vortex, ch);
372 hwwrite(vortex->mmio, ebp, 0);
374 return 1;
377 static void vortex_mixer_init(vortex_t * vortex)
379 u32 addr;
380 int x;
382 // FIXME: get rid of this crap.
383 memset(mchannels, 0, NR_MIXOUT * sizeof(int));
384 memset(rampchs, 0, NR_MIXOUT * sizeof(int));
386 addr = VORTEX_MIX_SMP + 0x17c;
387 for (x = 0x5f; x >= 0; x--) {
388 hwwrite(vortex->mmio, addr, 0);
389 addr -= 4;
391 addr = VORTEX_MIX_ENIN + 0x1fc;
392 for (x = 0x7f; x >= 0; x--) {
393 hwwrite(vortex->mmio, addr, 0);
394 addr -= 4;
396 addr = VORTEX_MIX_SMP + 0x17c;
397 for (x = 0x5f; x >= 0; x--) {
398 hwwrite(vortex->mmio, addr, 0);
399 addr -= 4;
401 addr = VORTEX_MIX_INVOL_A + 0x7fc;
402 for (x = 0x1ff; x >= 0; x--) {
403 hwwrite(vortex->mmio, addr, 0x80);
404 addr -= 4;
406 addr = VORTEX_MIX_VOL_A + 0x3c;
407 for (x = 0xf; x >= 0; x--) {
408 hwwrite(vortex->mmio, addr, 0x80);
409 addr -= 4;
411 addr = VORTEX_MIX_INVOL_B + 0x7fc;
412 for (x = 0x1ff; x >= 0; x--) {
413 hwwrite(vortex->mmio, addr, 0x80);
414 addr -= 4;
416 addr = VORTEX_MIX_VOL_B + 0x3c;
417 for (x = 0xf; x >= 0; x--) {
418 hwwrite(vortex->mmio, addr, 0x80);
419 addr -= 4;
421 addr = VORTEX_MIXER_RTBASE + (MIXER_RTBASE_SIZE - 1) * 4;
422 for (x = (MIXER_RTBASE_SIZE - 1); x >= 0; x--) {
423 hwwrite(vortex->mmio, addr, 0x0);
424 addr -= 4;
426 hwwrite(vortex->mmio, VORTEX_MIXER_SR, 0);
428 /* Set clipping ceiling (this may be all wrong). */
430 for (x = 0; x > 0x80; x++) {
431 hwwrite(vortex->mmio, VORTEX_MIXER_CLIP + (x << 2), 0x3ffff);
435 call CAsp4Mix__Initialize_CAsp4HwIO____CAsp4Mixer____
436 Register ISR callback for volume smooth fade out.
437 Maybe this avoids clicks when press "stop" ?
441 /* SRC (CAsp4Src.s and CAsp4SrcBlock) */
443 static void vortex_src_en_sr(vortex_t * vortex, int channel)
445 hwwrite(vortex->mmio, VORTEX_SRCBLOCK_SR,
446 hwread(vortex->mmio, VORTEX_SRCBLOCK_SR) | (0x1 << channel));
449 static void vortex_src_dis_sr(vortex_t * vortex, int channel)
451 hwwrite(vortex->mmio, VORTEX_SRCBLOCK_SR,
452 hwread(vortex->mmio, VORTEX_SRCBLOCK_SR) & ~(0x1 << channel));
455 static void vortex_src_flushbuffers(vortex_t * vortex, unsigned char src)
457 int i;
459 for (i = 0x1f; i >= 0; i--)
460 hwwrite(vortex->mmio,
461 VORTEX_SRC_DATA0 + (src << 7) + (i << 2), 0);
462 hwwrite(vortex->mmio, VORTEX_SRC_DATA + (src << 3), 0);
463 hwwrite(vortex->mmio, VORTEX_SRC_DATA + (src << 3) + 4, 0);
466 static void vortex_src_cleardrift(vortex_t * vortex, unsigned char src)
468 hwwrite(vortex->mmio, VORTEX_SRC_DRIFT0 + (src << 2), 0);
469 hwwrite(vortex->mmio, VORTEX_SRC_DRIFT1 + (src << 2), 0);
470 hwwrite(vortex->mmio, VORTEX_SRC_DRIFT2 + (src << 2), 1);
473 static void
474 vortex_src_set_throttlesource(vortex_t * vortex, unsigned char src, int en)
476 int temp;
478 temp = hwread(vortex->mmio, VORTEX_SRC_SOURCE);
479 if (en)
480 temp |= 1 << src;
481 else
482 temp &= ~(1 << src);
483 hwwrite(vortex->mmio, VORTEX_SRC_SOURCE, temp);
486 static int
487 vortex_src_persist_convratio(vortex_t * vortex, unsigned char src, int ratio)
489 int temp, lifeboat = 0;
491 do {
492 hwwrite(vortex->mmio, VORTEX_SRC_CONVRATIO + (src << 2), ratio);
493 temp = hwread(vortex->mmio, VORTEX_SRC_CONVRATIO + (src << 2));
494 if ((++lifeboat) > 0x9) {
495 printk(KERN_ERR "Vortex: Src cvr fail\n");
496 break;
499 while (temp != ratio);
500 return temp;
503 #if 0
504 static void vortex_src_slowlock(vortex_t * vortex, unsigned char src)
506 int temp;
508 hwwrite(vortex->mmio, VORTEX_SRC_DRIFT2 + (src << 2), 1);
509 hwwrite(vortex->mmio, VORTEX_SRC_DRIFT0 + (src << 2), 0);
510 temp = hwread(vortex->mmio, VORTEX_SRC_U0 + (src << 2));
511 if (temp & 0x200)
512 hwwrite(vortex->mmio, VORTEX_SRC_U0 + (src << 2),
513 temp & ~0x200L);
516 static void
517 vortex_src_change_convratio(vortex_t * vortex, unsigned char src, int ratio)
519 int temp, a;
521 if ((ratio & 0x10000) && (ratio != 0x10000)) {
522 if (ratio & 0x3fff)
523 a = (0x11 - ((ratio >> 0xe) & 0x3)) - 1;
524 else
525 a = (0x11 - ((ratio >> 0xe) & 0x3)) - 2;
526 } else
527 a = 0xc;
528 temp = hwread(vortex->mmio, VORTEX_SRC_U0 + (src << 2));
529 if (((temp >> 4) & 0xf) != a)
530 hwwrite(vortex->mmio, VORTEX_SRC_U0 + (src << 2),
531 (temp & 0xf) | ((a & 0xf) << 4));
533 vortex_src_persist_convratio(vortex, src, ratio);
536 static int
537 vortex_src_checkratio(vortex_t * vortex, unsigned char src,
538 unsigned int desired_ratio)
540 int hw_ratio, lifeboat = 0;
542 hw_ratio = hwread(vortex->mmio, VORTEX_SRC_CONVRATIO + (src << 2));
544 while (hw_ratio != desired_ratio) {
545 hwwrite(vortex->mmio, VORTEX_SRC_CONVRATIO + (src << 2), desired_ratio);
547 if ((lifeboat++) > 15) {
548 printk(KERN_ERR "Vortex: could not set src-%d from %d to %d\n",
549 src, hw_ratio, desired_ratio);
550 break;
554 return hw_ratio;
557 #endif
559 Objective: Set samplerate for given SRC module.
560 Arguments:
561 card: pointer to vortex_t strcut.
562 src: Integer index of the SRC module.
563 cr: Current sample rate conversion factor.
564 b: unknown 16 bit value.
565 sweep: Enable Samplerate fade from cr toward tr flag.
566 dirplay: 1: playback, 0: recording.
567 sl: Slow Lock flag.
568 tr: Target samplerate conversion.
569 thsource: Throttle source flag (no idea what that means).
571 static void vortex_src_setupchannel(vortex_t * card, unsigned char src,
572 unsigned int cr, unsigned int b, int sweep, int d,
573 int dirplay, int sl, unsigned int tr, int thsource)
575 // noplayback: d=2,4,7,0xa,0xb when using first 2 src's.
576 // c: enables pitch sweep.
577 // looks like g is c related. Maybe g is a sweep parameter ?
578 // g = cvr
579 // dirplay: 0 = recording, 1 = playback
580 // d = src hw index.
582 int esi, ebp = 0, esp10;
584 vortex_src_flushbuffers(card, src);
586 if (sweep) {
587 if ((tr & 0x10000) && (tr != 0x10000)) {
588 tr = 0;
589 esi = 0x7;
590 } else {
591 if ((((short)tr) < 0) && (tr != 0x8000)) {
592 tr = 0;
593 esi = 0x8;
594 } else {
595 tr = 1;
596 esi = 0xc;
599 } else {
600 if ((cr & 0x10000) && (cr != 0x10000)) {
601 tr = 0; /*ebx = 0 */
602 esi = 0x11 - ((cr >> 0xe) & 7);
603 if (cr & 0x3fff)
604 esi -= 1;
605 else
606 esi -= 2;
607 } else {
608 tr = 1;
609 esi = 0xc;
612 vortex_src_cleardrift(card, src);
613 vortex_src_set_throttlesource(card, src, thsource);
615 if ((dirplay == 0) && (sweep == 0)) {
616 if (tr)
617 esp10 = 0xf;
618 else
619 esp10 = 0xc;
620 ebp = 0;
621 } else {
622 if (tr)
623 ebp = 0xf;
624 else
625 ebp = 0xc;
626 esp10 = 0;
628 hwwrite(card->mmio, VORTEX_SRC_U0 + (src << 2),
629 (sl << 0x9) | (sweep << 0x8) | ((esi & 0xf) << 4) | d);
630 /* 0xc0 esi=0xc c=f=0 d=0 */
631 vortex_src_persist_convratio(card, src, cr);
632 hwwrite(card->mmio, VORTEX_SRC_U1 + (src << 2), b & 0xffff);
633 /* 0 b=0 */
634 hwwrite(card->mmio, VORTEX_SRC_U2 + (src << 2),
635 (tr << 0x11) | (dirplay << 0x10) | (ebp << 0x8) | esp10);
636 /* 0x30f00 e=g=1 esp10=0 ebp=f */
637 //printk(KERN_INFO "vortex: SRC %d, d=0x%x, esi=0x%x, esp10=0x%x, ebp=0x%x\n", src, d, esi, esp10, ebp);
640 static void vortex_srcblock_init(vortex_t * vortex)
642 u32 addr;
643 int x;
644 hwwrite(vortex->mmio, VORTEX_SRC_SOURCESIZE, 0x1ff);
646 for (x=0; x<0x10; x++) {
647 vortex_src_init(&vortex_src[x], x);
650 //addr = 0xcc3c;
651 //addr = 0x26c3c;
652 addr = VORTEX_SRC_RTBASE + 0x3c;
653 for (x = 0xf; x >= 0; x--) {
654 hwwrite(vortex->mmio, addr, 0);
655 addr -= 4;
657 //addr = 0xcc94;
658 //addr = 0x26c94;
659 addr = VORTEX_SRC_CHNBASE + 0x54;
660 for (x = 0x15; x >= 0; x--) {
661 hwwrite(vortex->mmio, addr, 0);
662 addr -= 4;
666 static int
667 vortex_src_addWTD(vortex_t * vortex, unsigned char src, unsigned char ch)
669 int temp, lifeboat = 0, prev;
670 // esp13 = src
672 temp = hwread(vortex->mmio, VORTEX_SRCBLOCK_SR);
673 if ((temp & (1 << ch)) == 0) {
674 hwwrite(vortex->mmio, VORTEX_SRC_CHNBASE + (ch << 2), src);
675 vortex_src_en_sr(vortex, ch);
676 return 1;
678 prev = VORTEX_SRC_CHNBASE + (ch << 2); /*ebp */
679 temp = hwread(vortex->mmio, prev);
680 //while (temp & NR_SRC) {
681 while (temp & 0x10) {
682 prev = VORTEX_SRC_RTBASE + ((temp & 0xf) << 2); /*esp12 */
683 //prev = VORTEX_SRC_RTBASE + ((temp & (NR_SRC-1)) << 2); /*esp12*/
684 temp = hwread(vortex->mmio, prev);
685 //printk(KERN_INFO "vortex: srcAddWTD: while addr=%x, val=%x\n", prev, temp);
686 if ((++lifeboat) > 0xf) {
687 printk(KERN_ERR
688 "vortex_src_addWTD: lifeboat overflow\n");
689 return 0;
692 hwwrite(vortex->mmio, VORTEX_SRC_RTBASE + ((temp & 0xf) << 2), src);
693 //hwwrite(vortex->mmio, prev, (temp & (NR_SRC-1)) | NR_SRC);
694 hwwrite(vortex->mmio, prev, (temp & 0xf) | 0x10);
695 return 1;
698 static int
699 vortex_src_delWTD(vortex_t * vortex, unsigned char src, unsigned char ch)
701 int esp14 = -1, esp18, eax, ebx, edx, ebp, esi = 0;
702 //int esp1f=edi(while)=src, esp10=ch;
704 eax = hwread(vortex->mmio, VORTEX_SRCBLOCK_SR);
705 if (((1 << ch) & eax) == 0) {
706 printk(KERN_ERR "src alarm\n");
707 return 0;
709 ebp = VORTEX_SRC_CHNBASE + (ch << 2);
710 esp18 = hwread(vortex->mmio, ebp);
711 if (esp18 & 0x10) {
712 ebx = (esp18 & 0xf);
713 if (src == ebx) {
714 ebx = VORTEX_SRC_RTBASE + (src << 2);
715 edx = hwread(vortex->mmio, ebx);
716 //7b60
717 hwwrite(vortex->mmio, ebp, edx);
718 hwwrite(vortex->mmio, ebx, 0);
719 } else {
720 //7ad3
721 edx =
722 hwread(vortex->mmio,
723 VORTEX_SRC_RTBASE + (ebx << 2));
724 //printk(KERN_INFO "vortex: srcdelWTD: 1 addr=%x, val=%x, src=%x\n", ebx, edx, src);
725 while ((edx & 0xf) != src) {
726 if ((esi) > 0xf) {
727 printk
728 ("vortex: srcdelWTD: error, lifeboat overflow\n");
729 return 0;
731 esp14 = ebx;
732 ebx = edx & 0xf;
733 ebp = ebx << 2;
734 edx =
735 hwread(vortex->mmio,
736 VORTEX_SRC_RTBASE + ebp);
737 //printk(KERN_INFO "vortex: srcdelWTD: while addr=%x, val=%x\n", ebp, edx);
738 esi++;
740 //7b30
741 ebp = ebx << 2;
742 if (edx & 0x10) { /* Delete entry in between others */
743 ebx = VORTEX_SRC_RTBASE + ((edx & 0xf) << 2);
744 edx = hwread(vortex->mmio, ebx);
745 //7b60
746 hwwrite(vortex->mmio,
747 VORTEX_SRC_RTBASE + ebp, edx);
748 hwwrite(vortex->mmio, ebx, 0);
749 //printk(KERN_INFO "vortex srcdelWTD between addr= 0x%x, val= 0x%x\n", ebp, edx);
750 } else { /* Delete last entry */
751 //7b83
752 if (esp14 == -1)
753 hwwrite(vortex->mmio,
754 VORTEX_SRC_CHNBASE +
755 (ch << 2), esp18 & 0xef);
756 else {
757 ebx = (0xffffffe0 & edx) | (0xf & ebx);
758 hwwrite(vortex->mmio,
759 VORTEX_SRC_RTBASE +
760 (esp14 << 2), ebx);
761 //printk(KERN_INFO"vortex srcdelWTD last addr= 0x%x, val= 0x%x\n", esp14, ebx);
763 hwwrite(vortex->mmio,
764 VORTEX_SRC_RTBASE + ebp, 0);
765 return 1;
768 } else {
769 //7be0
770 vortex_src_dis_sr(vortex, ch);
771 hwwrite(vortex->mmio, ebp, 0);
773 return 1;
776 /*FIFO*/
778 static void
779 vortex_fifo_clearadbdata(vortex_t * vortex, int fifo, int x)
781 for (x--; x >= 0; x--)
782 hwwrite(vortex->mmio,
783 VORTEX_FIFO_ADBDATA +
784 (((fifo << FIFO_SIZE_BITS) + x) << 2), 0);
787 #if 0
788 static void vortex_fifo_adbinitialize(vortex_t * vortex, int fifo, int j)
790 vortex_fifo_clearadbdata(vortex, fifo, FIFO_SIZE);
791 #ifdef CHIP_AU8820
792 hwwrite(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2),
793 (FIFO_U1 | ((j & FIFO_MASK) << 0xb)));
794 #else
795 hwwrite(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2),
796 (FIFO_U1 | ((j & FIFO_MASK) << 0xc)));
797 #endif
799 #endif
800 static void vortex_fifo_setadbvalid(vortex_t * vortex, int fifo, int en)
802 hwwrite(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2),
803 (hwread(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2)) &
804 0xffffffef) | ((1 & en) << 4) | FIFO_U1);
807 static void
808 vortex_fifo_setadbctrl(vortex_t * vortex, int fifo, int b, int priority,
809 int empty, int valid, int f)
811 int temp, lifeboat = 0;
812 //int this_8[NR_ADB] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; /* position */
813 int this_4 = 0x2;
814 /* f seems priority related.
815 * CAsp4AdbDma::SetPriority is the only place that calls SetAdbCtrl with f set to 1
816 * every where else it is set to 0. It seems, however, that CAsp4AdbDma::SetPriority
817 * is never called, thus the f related bits remain a mystery for now.
819 do {
820 temp = hwread(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2));
821 if (lifeboat++ > 0xbb8) {
822 printk(KERN_ERR
823 "Vortex: vortex_fifo_setadbctrl fail\n");
824 break;
827 while (temp & FIFO_RDONLY);
829 // AU8830 semes to take some special care about fifo content (data).
830 // But i'm just to lazy to translate that :)
831 if (valid) {
832 if ((temp & FIFO_VALID) == 0) {
833 //this_8[fifo] = 0;
834 vortex_fifo_clearadbdata(vortex, fifo, FIFO_SIZE); // this_4
835 #ifdef CHIP_AU8820
836 temp = (this_4 & 0x1f) << 0xb;
837 #else
838 temp = (this_4 & 0x3f) << 0xc;
839 #endif
840 temp = (temp & 0xfffffffd) | ((b & 1) << 1);
841 temp = (temp & 0xfffffff3) | ((priority & 3) << 2);
842 temp = (temp & 0xffffffef) | ((valid & 1) << 4);
843 temp |= FIFO_U1;
844 temp = (temp & 0xffffffdf) | ((empty & 1) << 5);
845 #ifdef CHIP_AU8820
846 temp = (temp & 0xfffbffff) | ((f & 1) << 0x12);
847 #endif
848 #ifdef CHIP_AU8830
849 temp = (temp & 0xf7ffffff) | ((f & 1) << 0x1b);
850 temp = (temp & 0xefffffff) | ((f & 1) << 0x1c);
851 #endif
852 #ifdef CHIP_AU8810
853 temp = (temp & 0xfeffffff) | ((f & 1) << 0x18);
854 temp = (temp & 0xfdffffff) | ((f & 1) << 0x19);
855 #endif
857 } else {
858 if (temp & FIFO_VALID) {
859 #ifdef CHIP_AU8820
860 temp = ((f & 1) << 0x12) | (temp & 0xfffbffef);
861 #endif
862 #ifdef CHIP_AU8830
863 temp =
864 ((f & 1) << 0x1b) | (temp & 0xe7ffffef) | FIFO_BITS;
865 #endif
866 #ifdef CHIP_AU8810
867 temp =
868 ((f & 1) << 0x18) | (temp & 0xfcffffef) | FIFO_BITS;
869 #endif
870 } else
871 /*if (this_8[fifo]) */
872 vortex_fifo_clearadbdata(vortex, fifo, FIFO_SIZE);
874 hwwrite(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2), temp);
875 hwread(vortex->mmio, VORTEX_FIFO_ADBCTRL + (fifo << 2));
878 #ifndef CHIP_AU8810
879 static void vortex_fifo_clearwtdata(vortex_t * vortex, int fifo, int x)
881 if (x < 1)
882 return;
883 for (x--; x >= 0; x--)
884 hwwrite(vortex->mmio,
885 VORTEX_FIFO_WTDATA +
886 (((fifo << FIFO_SIZE_BITS) + x) << 2), 0);
889 static void vortex_fifo_wtinitialize(vortex_t * vortex, int fifo, int j)
891 vortex_fifo_clearwtdata(vortex, fifo, FIFO_SIZE);
892 #ifdef CHIP_AU8820
893 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2),
894 (FIFO_U1 | ((j & FIFO_MASK) << 0xb)));
895 #else
896 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2),
897 (FIFO_U1 | ((j & FIFO_MASK) << 0xc)));
898 #endif
901 static void vortex_fifo_setwtvalid(vortex_t * vortex, int fifo, int en)
903 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2),
904 (hwread(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2)) &
905 0xffffffef) | ((en & 1) << 4) | FIFO_U1);
908 static void
909 vortex_fifo_setwtctrl(vortex_t * vortex, int fifo, int ctrl, int priority,
910 int empty, int valid, int f)
912 int temp = 0, lifeboat = 0;
913 int this_4 = 2;
915 do {
916 temp = hwread(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2));
917 if (lifeboat++ > 0xbb8) {
918 printk(KERN_ERR "Vortex: vortex_fifo_setwtctrl fail\n");
919 break;
922 while (temp & FIFO_RDONLY);
924 if (valid) {
925 if ((temp & FIFO_VALID) == 0) {
926 vortex_fifo_clearwtdata(vortex, fifo, FIFO_SIZE); // this_4
927 #ifdef CHIP_AU8820
928 temp = (this_4 & 0x1f) << 0xb;
929 #else
930 temp = (this_4 & 0x3f) << 0xc;
931 #endif
932 temp = (temp & 0xfffffffd) | ((ctrl & 1) << 1);
933 temp = (temp & 0xfffffff3) | ((priority & 3) << 2);
934 temp = (temp & 0xffffffef) | ((valid & 1) << 4);
935 temp |= FIFO_U1;
936 temp = (temp & 0xffffffdf) | ((empty & 1) << 5);
937 #ifdef CHIP_AU8820
938 temp = (temp & 0xfffbffff) | ((f & 1) << 0x12);
939 #endif
940 #ifdef CHIP_AU8830
941 temp = (temp & 0xf7ffffff) | ((f & 1) << 0x1b);
942 temp = (temp & 0xefffffff) | ((f & 1) << 0x1c);
943 #endif
944 #ifdef CHIP_AU8810
945 temp = (temp & 0xfeffffff) | ((f & 1) << 0x18);
946 temp = (temp & 0xfdffffff) | ((f & 1) << 0x19);
947 #endif
949 } else {
950 if (temp & FIFO_VALID) {
951 #ifdef CHIP_AU8820
952 temp = ((f & 1) << 0x12) | (temp & 0xfffbffef);
953 #endif
954 #ifdef CHIP_AU8830
955 temp =
956 ((f & 1) << 0x1b) | (temp & 0xe7ffffef) | FIFO_BITS;
957 #endif
958 #ifdef CHIP_AU8810
959 temp =
960 ((f & 1) << 0x18) | (temp & 0xfcffffef) | FIFO_BITS;
961 #endif
962 } else
963 /*if (this_8[fifo]) */
964 vortex_fifo_clearwtdata(vortex, fifo, FIFO_SIZE);
966 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2), temp);
967 hwread(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2));
970 do {
971 temp = hwread(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2));
972 if (lifeboat++ > 0xbb8) {
973 printk(KERN_ERR "Vortex: vortex_fifo_setwtctrl fail (hanging)\n");
974 break;
976 } while ((temp & FIFO_RDONLY)&&(temp & FIFO_VALID)&&(temp != 0xFFFFFFFF));
979 if (valid) {
980 if (temp & FIFO_VALID) {
981 temp = 0x40000;
982 //temp |= 0x08000000;
983 //temp |= 0x10000000;
984 //temp |= 0x04000000;
985 //temp |= 0x00400000;
986 temp |= 0x1c400000;
987 temp &= 0xFFFFFFF3;
988 temp &= 0xFFFFFFEF;
989 temp |= (valid & 1) << 4;
990 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2), temp);
991 return;
992 } else {
993 vortex_fifo_clearwtdata(vortex, fifo, FIFO_SIZE);
994 return;
996 } else {
997 temp &= 0xffffffef;
998 temp |= 0x08000000;
999 temp |= 0x10000000;
1000 temp |= 0x04000000;
1001 temp |= 0x00400000;
1002 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2), temp);
1003 temp = hwread(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2));
1004 //((temp >> 6) & 0x3f)
1006 priority = 0;
1007 if (((temp & 0x0fc0) ^ ((temp >> 6) & 0x0fc0)) & 0FFFFFFC0)
1008 vortex_fifo_clearwtdata(vortex, fifo, FIFO_SIZE);
1009 valid = 0xfb;
1010 temp = (temp & 0xfffffffd) | ((ctrl & 1) << 1);
1011 temp = (temp & 0xfffdffff) | ((f & 1) << 0x11);
1012 temp = (temp & 0xfffffff3) | ((priority & 3) << 2);
1013 temp = (temp & 0xffffffef) | ((valid & 1) << 4);
1014 temp = (temp & 0xffffffdf) | ((empty & 1) << 5);
1015 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2), temp);
1021 temp = (temp & 0xfffffffd) | ((ctrl & 1) << 1);
1022 temp = (temp & 0xfffdffff) | ((f & 1) << 0x11);
1023 temp = (temp & 0xfffffff3) | ((priority & 3) << 2);
1024 temp = (temp & 0xffffffef) | ((valid & 1) << 4);
1025 temp = (temp & 0xffffffdf) | ((empty & 1) << 5);
1026 #ifdef FIFO_BITS
1027 temp = temp | FIFO_BITS | 40000;
1028 #endif
1029 // 0x1c440010, 0x1c400000
1030 hwwrite(vortex->mmio, VORTEX_FIFO_WTCTRL + (fifo << 2), temp);
1034 #endif
1035 static void vortex_fifo_init(vortex_t * vortex)
1037 int x;
1038 u32 addr;
1040 /* ADB DMA channels fifos. */
1041 addr = VORTEX_FIFO_ADBCTRL + ((NR_ADB - 1) * 4);
1042 for (x = NR_ADB - 1; x >= 0; x--) {
1043 hwwrite(vortex->mmio, addr, (FIFO_U0 | FIFO_U1));
1044 if (hwread(vortex->mmio, addr) != (FIFO_U0 | FIFO_U1))
1045 printk(KERN_ERR "bad adb fifo reset!");
1046 vortex_fifo_clearadbdata(vortex, x, FIFO_SIZE);
1047 addr -= 4;
1050 #ifndef CHIP_AU8810
1051 /* WT DMA channels fifos. */
1052 addr = VORTEX_FIFO_WTCTRL + ((NR_WT - 1) * 4);
1053 for (x = NR_WT - 1; x >= 0; x--) {
1054 hwwrite(vortex->mmio, addr, FIFO_U0);
1055 if (hwread(vortex->mmio, addr) != FIFO_U0)
1056 printk(KERN_ERR
1057 "bad wt fifo reset (0x%08x, 0x%08x)!\n",
1058 addr, hwread(vortex->mmio, addr));
1059 vortex_fifo_clearwtdata(vortex, x, FIFO_SIZE);
1060 addr -= 4;
1062 #endif
1063 /* trigger... */
1064 #ifdef CHIP_AU8820
1065 hwwrite(vortex->mmio, 0xf8c0, 0xd03); //0x0843 0xd6b
1066 #else
1067 #ifdef CHIP_AU8830
1068 hwwrite(vortex->mmio, 0x17000, 0x61); /* wt a */
1069 hwwrite(vortex->mmio, 0x17004, 0x61); /* wt b */
1070 #endif
1071 hwwrite(vortex->mmio, 0x17008, 0x61); /* adb */
1072 #endif
1075 /* ADBDMA */
1077 static void vortex_adbdma_init(vortex_t * vortex)
1081 static void vortex_adbdma_setfirstbuffer(vortex_t * vortex, int adbdma)
1083 stream_t *dma = &vortex->dma_adb[adbdma];
1085 hwwrite(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2),
1086 dma->dma_ctrl);
1089 static void vortex_adbdma_setstartbuffer(vortex_t * vortex, int adbdma, int sb)
1091 stream_t *dma = &vortex->dma_adb[adbdma];
1092 //hwwrite(vortex->mmio, VORTEX_ADBDMA_START + (adbdma << 2), sb << (((NR_ADB-1)-((adbdma&0xf)*2))));
1093 hwwrite(vortex->mmio, VORTEX_ADBDMA_START + (adbdma << 2),
1094 sb << ((0xf - (adbdma & 0xf)) * 2));
1095 dma->period_real = dma->period_virt = sb;
1098 static void
1099 vortex_adbdma_setbuffers(vortex_t * vortex, int adbdma,
1100 struct snd_sg_buf * sgbuf, int psize, int count)
1102 stream_t *dma = &vortex->dma_adb[adbdma];
1104 if (sgbuf == NULL) {
1105 printk(KERN_INFO "vortex: FATAL: sgbuf is NULL!\n");
1106 return;
1108 //printk(KERN_INFO "vortex: page count = %d, tblcount = %d\n", count, sgbuf->tblsize);
1110 dma->period_bytes = psize;
1111 dma->nr_periods = count;
1112 dma->sgbuf = sgbuf;
1114 dma->cfg0 = 0;
1115 dma->cfg1 = 0;
1116 switch (count) {
1117 /* Four or more pages */
1118 default:
1119 case 4:
1120 dma->cfg1 |= 0x88000000 | 0x44000000 | 0x30000000 | (psize - 1);
1121 hwwrite(vortex->mmio,
1122 VORTEX_ADBDMA_BUFBASE + (adbdma << 4) + 0xc,
1123 snd_sgbuf_get_addr(sgbuf, psize * 3));
1124 /* 3 pages */
1125 case 3:
1126 dma->cfg0 |= 0x12000000;
1127 dma->cfg1 |= 0x80000000 | 0x40000000 | ((psize - 1) << 0xc);
1128 hwwrite(vortex->mmio,
1129 VORTEX_ADBDMA_BUFBASE + (adbdma << 4) + 0x8,
1130 snd_sgbuf_get_addr(sgbuf, psize * 2));
1131 /* 2 pages */
1132 case 2:
1133 dma->cfg0 |= 0x88000000 | 0x44000000 | 0x10000000 | (psize - 1);
1134 hwwrite(vortex->mmio,
1135 VORTEX_ADBDMA_BUFBASE + (adbdma << 4) + 0x4,
1136 snd_sgbuf_get_addr(sgbuf, psize));
1137 /* 1 page */
1138 case 1:
1139 dma->cfg0 |= 0x80000000 | 0x40000000 | ((psize - 1) << 0xc);
1140 hwwrite(vortex->mmio,
1141 VORTEX_ADBDMA_BUFBASE + (adbdma << 4),
1142 snd_sgbuf_get_addr(sgbuf, 0));
1143 break;
1145 //printk("vortex: cfg0 = 0x%x\nvortex: cfg1=0x%x\n", dma->cfg0, dma->cfg1);
1146 hwwrite(vortex->mmio, VORTEX_ADBDMA_BUFCFG0 + (adbdma << 3), dma->cfg0);
1147 hwwrite(vortex->mmio, VORTEX_ADBDMA_BUFCFG1 + (adbdma << 3), dma->cfg1);
1149 vortex_adbdma_setfirstbuffer(vortex, adbdma);
1150 vortex_adbdma_setstartbuffer(vortex, adbdma, 0);
1153 static void
1154 vortex_adbdma_setmode(vortex_t * vortex, int adbdma, int ie, int dir,
1155 int fmt, int d, u32 offset)
1157 stream_t *dma = &vortex->dma_adb[adbdma];
1159 dma->dma_unknown = d;
1160 dma->dma_ctrl =
1161 ((offset & OFFSET_MASK) | (dma->dma_ctrl & ~OFFSET_MASK));
1162 /* Enable PCMOUT interrupts. */
1163 dma->dma_ctrl =
1164 (dma->dma_ctrl & ~IE_MASK) | ((ie << IE_SHIFT) & IE_MASK);
1166 dma->dma_ctrl =
1167 (dma->dma_ctrl & ~DIR_MASK) | ((dir << DIR_SHIFT) & DIR_MASK);
1168 dma->dma_ctrl =
1169 (dma->dma_ctrl & ~FMT_MASK) | ((fmt << FMT_SHIFT) & FMT_MASK);
1171 hwwrite(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2),
1172 dma->dma_ctrl);
1173 hwread(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2));
1176 static int vortex_adbdma_bufshift(vortex_t * vortex, int adbdma)
1178 stream_t *dma = &vortex->dma_adb[adbdma];
1179 int page, p, pp, delta, i;
1181 page =
1182 (hwread(vortex->mmio, VORTEX_ADBDMA_STAT + (adbdma << 2)) &
1183 ADB_SUBBUF_MASK) >> ADB_SUBBUF_SHIFT;
1184 if (dma->nr_periods >= 4)
1185 delta = (page - dma->period_real) & 3;
1186 else {
1187 delta = (page - dma->period_real);
1188 if (delta < 0)
1189 delta += dma->nr_periods;
1191 if (delta == 0)
1192 return 0;
1194 /* refresh hw page table */
1195 if (dma->nr_periods > 4) {
1196 for (i = 0; i < delta; i++) {
1197 /* p: audio buffer page index */
1198 p = dma->period_virt + i + 4;
1199 if (p >= dma->nr_periods)
1200 p -= dma->nr_periods;
1201 /* pp: hardware DMA page index. */
1202 pp = dma->period_real + i;
1203 if (pp >= 4)
1204 pp -= 4;
1205 //hwwrite(vortex->mmio, VORTEX_ADBDMA_BUFBASE+(((adbdma << 2)+pp) << 2), dma->table[p].addr);
1206 hwwrite(vortex->mmio,
1207 VORTEX_ADBDMA_BUFBASE + (((adbdma << 2) + pp) << 2),
1208 snd_sgbuf_get_addr(dma->sgbuf,
1209 dma->period_bytes * p));
1210 /* Force write thru cache. */
1211 hwread(vortex->mmio, VORTEX_ADBDMA_BUFBASE +
1212 (((adbdma << 2) + pp) << 2));
1215 dma->period_virt += delta;
1216 dma->period_real = page;
1217 if (dma->period_virt >= dma->nr_periods)
1218 dma->period_virt -= dma->nr_periods;
1219 if (delta != 1)
1220 printk(KERN_INFO "vortex: %d virt=%d, real=%d, delta=%d\n",
1221 adbdma, dma->period_virt, dma->period_real, delta);
1223 return delta;
1227 static void vortex_adbdma_resetup(vortex_t *vortex, int adbdma) {
1228 stream_t *dma = &vortex->dma_adb[adbdma];
1229 int p, pp, i;
1231 /* refresh hw page table */
1232 for (i=0 ; i < 4 && i < dma->nr_periods; i++) {
1233 /* p: audio buffer page index */
1234 p = dma->period_virt + i;
1235 if (p >= dma->nr_periods)
1236 p -= dma->nr_periods;
1237 /* pp: hardware DMA page index. */
1238 pp = dma->period_real + i;
1239 if (dma->nr_periods < 4) {
1240 if (pp >= dma->nr_periods)
1241 pp -= dma->nr_periods;
1243 else {
1244 if (pp >= 4)
1245 pp -= 4;
1247 hwwrite(vortex->mmio, VORTEX_ADBDMA_BUFBASE+(((adbdma << 2)+pp) << 2), snd_sgbuf_get_addr(dma->sgbuf, dma->period_bytes * p));
1248 /* Force write thru cache. */
1249 hwread(vortex->mmio, VORTEX_ADBDMA_BUFBASE + (((adbdma << 2)+pp) << 2));
1253 static int inline vortex_adbdma_getlinearpos(vortex_t * vortex, int adbdma)
1255 stream_t *dma = &vortex->dma_adb[adbdma];
1256 int temp;
1258 temp = hwread(vortex->mmio, VORTEX_ADBDMA_STAT + (adbdma << 2));
1259 temp = (dma->period_virt * dma->period_bytes) + (temp & POS_MASK);
1260 return (temp);
1263 static void vortex_adbdma_startfifo(vortex_t * vortex, int adbdma)
1265 int this_8 = 0 /*empty */ , this_4 = 0 /*priority */ ;
1266 stream_t *dma = &vortex->dma_adb[adbdma];
1268 switch (dma->fifo_status) {
1269 case FIFO_START:
1270 vortex_fifo_setadbvalid(vortex, adbdma,
1271 dma->fifo_enabled ? 1 : 0);
1272 break;
1273 case FIFO_STOP:
1274 this_8 = 1;
1275 hwwrite(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2),
1276 dma->dma_ctrl);
1277 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1278 this_4, this_8,
1279 dma->fifo_enabled ? 1 : 0, 0);
1280 break;
1281 case FIFO_PAUSE:
1282 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1283 this_4, this_8,
1284 dma->fifo_enabled ? 1 : 0, 0);
1285 break;
1287 dma->fifo_status = FIFO_START;
1290 static void vortex_adbdma_resumefifo(vortex_t * vortex, int adbdma)
1292 stream_t *dma = &vortex->dma_adb[adbdma];
1294 int this_8 = 1, this_4 = 0;
1295 switch (dma->fifo_status) {
1296 case FIFO_STOP:
1297 hwwrite(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2),
1298 dma->dma_ctrl);
1299 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1300 this_4, this_8,
1301 dma->fifo_enabled ? 1 : 0, 0);
1302 break;
1303 case FIFO_PAUSE:
1304 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1305 this_4, this_8,
1306 dma->fifo_enabled ? 1 : 0, 0);
1307 break;
1309 dma->fifo_status = FIFO_START;
1312 static void vortex_adbdma_pausefifo(vortex_t * vortex, int adbdma)
1314 stream_t *dma = &vortex->dma_adb[adbdma];
1316 int this_8 = 0, this_4 = 0;
1317 switch (dma->fifo_status) {
1318 case FIFO_START:
1319 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1320 this_4, this_8, 0, 0);
1321 break;
1322 case FIFO_STOP:
1323 hwwrite(vortex->mmio, VORTEX_ADBDMA_CTRL + (adbdma << 2),
1324 dma->dma_ctrl);
1325 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1326 this_4, this_8, 0, 0);
1327 break;
1329 dma->fifo_status = FIFO_PAUSE;
1332 #if 0 // Using pause instead
1333 static void vortex_adbdma_stopfifo(vortex_t * vortex, int adbdma)
1335 stream_t *dma = &vortex->dma_adb[adbdma];
1337 int this_4 = 0, this_8 = 0;
1338 if (dma->fifo_status == FIFO_START)
1339 vortex_fifo_setadbctrl(vortex, adbdma, dma->dma_unknown,
1340 this_4, this_8, 0, 0);
1341 else if (dma->fifo_status == FIFO_STOP)
1342 return;
1343 dma->fifo_status = FIFO_STOP;
1344 dma->fifo_enabled = 0;
1347 #endif
1348 /* WTDMA */
1350 #ifndef CHIP_AU8810
1351 static void vortex_wtdma_setfirstbuffer(vortex_t * vortex, int wtdma)
1353 //int this_7c=dma_ctrl;
1354 stream_t *dma = &vortex->dma_wt[wtdma];
1356 hwwrite(vortex->mmio, VORTEX_WTDMA_CTRL + (wtdma << 2), dma->dma_ctrl);
1359 static void vortex_wtdma_setstartbuffer(vortex_t * vortex, int wtdma, int sb)
1361 stream_t *dma = &vortex->dma_wt[wtdma];
1362 //hwwrite(vortex->mmio, VORTEX_WTDMA_START + (wtdma << 2), sb << ((0x1f-(wtdma&0xf)*2)));
1363 hwwrite(vortex->mmio, VORTEX_WTDMA_START + (wtdma << 2),
1364 sb << ((0xf - (wtdma & 0xf)) * 2));
1365 dma->period_real = dma->period_virt = sb;
1368 static void
1369 vortex_wtdma_setbuffers(vortex_t * vortex, int wtdma,
1370 struct snd_sg_buf * sgbuf, int psize, int count)
1372 stream_t *dma = &vortex->dma_wt[wtdma];
1374 dma->period_bytes = psize;
1375 dma->nr_periods = count;
1376 dma->sgbuf = sgbuf;
1378 dma->cfg0 = 0;
1379 dma->cfg1 = 0;
1380 switch (count) {
1381 /* Four or more pages */
1382 default:
1383 case 4:
1384 dma->cfg1 |= 0x88000000 | 0x44000000 | 0x30000000 | (psize-1);
1385 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFBASE + (wtdma << 4) + 0xc,
1386 snd_sgbuf_get_addr(sgbuf, psize * 3));
1387 /* 3 pages */
1388 case 3:
1389 dma->cfg0 |= 0x12000000;
1390 dma->cfg1 |= 0x80000000 | 0x40000000 | ((psize-1) << 0xc);
1391 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFBASE + (wtdma << 4) + 0x8,
1392 snd_sgbuf_get_addr(sgbuf, psize * 2));
1393 /* 2 pages */
1394 case 2:
1395 dma->cfg0 |= 0x88000000 | 0x44000000 | 0x10000000 | (psize-1);
1396 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFBASE + (wtdma << 4) + 0x4,
1397 snd_sgbuf_get_addr(sgbuf, psize));
1398 /* 1 page */
1399 case 1:
1400 dma->cfg0 |= 0x80000000 | 0x40000000 | ((psize-1) << 0xc);
1401 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFBASE + (wtdma << 4),
1402 snd_sgbuf_get_addr(sgbuf, 0));
1403 break;
1405 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFCFG0 + (wtdma << 3), dma->cfg0);
1406 hwwrite(vortex->mmio, VORTEX_WTDMA_BUFCFG1 + (wtdma << 3), dma->cfg1);
1408 vortex_wtdma_setfirstbuffer(vortex, wtdma);
1409 vortex_wtdma_setstartbuffer(vortex, wtdma, 0);
1412 static void
1413 vortex_wtdma_setmode(vortex_t * vortex, int wtdma, int ie, int fmt, int d,
1414 /*int e, */ u32 offset)
1416 stream_t *dma = &vortex->dma_wt[wtdma];
1418 //dma->this_08 = e;
1419 dma->dma_unknown = d;
1420 dma->dma_ctrl = 0;
1421 dma->dma_ctrl =
1422 ((offset & OFFSET_MASK) | (dma->dma_ctrl & ~OFFSET_MASK));
1423 /* PCMOUT interrupt */
1424 dma->dma_ctrl =
1425 (dma->dma_ctrl & ~IE_MASK) | ((ie << IE_SHIFT) & IE_MASK);
1426 /* Always playback. */
1427 dma->dma_ctrl |= (1 << DIR_SHIFT);
1428 /* Audio Format */
1429 dma->dma_ctrl =
1430 (dma->dma_ctrl & FMT_MASK) | ((fmt << FMT_SHIFT) & FMT_MASK);
1431 /* Write into hardware */
1432 hwwrite(vortex->mmio, VORTEX_WTDMA_CTRL + (wtdma << 2), dma->dma_ctrl);
1435 static int vortex_wtdma_bufshift(vortex_t * vortex, int wtdma)
1437 stream_t *dma = &vortex->dma_wt[wtdma];
1438 int page, p, pp, delta, i;
1440 page =
1441 (hwread(vortex->mmio, VORTEX_WTDMA_STAT + (wtdma << 2)) &
1442 WT_SUBBUF_MASK)
1443 >> WT_SUBBUF_SHIFT;
1444 if (dma->nr_periods >= 4)
1445 delta = (page - dma->period_real) & 3;
1446 else {
1447 delta = (page - dma->period_real);
1448 if (delta < 0)
1449 delta += dma->nr_periods;
1451 if (delta == 0)
1452 return 0;
1454 /* refresh hw page table */
1455 if (dma->nr_periods > 4) {
1456 for (i = 0; i < delta; i++) {
1457 /* p: audio buffer page index */
1458 p = dma->period_virt + i + 4;
1459 if (p >= dma->nr_periods)
1460 p -= dma->nr_periods;
1461 /* pp: hardware DMA page index. */
1462 pp = dma->period_real + i;
1463 if (pp >= 4)
1464 pp -= 4;
1465 hwwrite(vortex->mmio,
1466 VORTEX_WTDMA_BUFBASE +
1467 (((wtdma << 2) + pp) << 2),
1468 snd_sgbuf_get_addr(dma->sgbuf, dma->period_bytes * p));
1469 /* Force write thru cache. */
1470 hwread(vortex->mmio, VORTEX_WTDMA_BUFBASE +
1471 (((wtdma << 2) + pp) << 2));
1474 dma->period_virt += delta;
1475 if (dma->period_virt >= dma->nr_periods)
1476 dma->period_virt -= dma->nr_periods;
1477 dma->period_real = page;
1479 if (delta != 1)
1480 printk(KERN_WARNING "vortex: wt virt = %d, delta = %d\n",
1481 dma->period_virt, delta);
1483 return delta;
1486 #if 0
1487 static void
1488 vortex_wtdma_getposition(vortex_t * vortex, int wtdma, int *subbuf, int *pos)
1490 int temp;
1491 temp = hwread(vortex->mmio, VORTEX_WTDMA_STAT + (wtdma << 2));
1492 *subbuf = (temp >> WT_SUBBUF_SHIFT) & WT_SUBBUF_MASK;
1493 *pos = temp & POS_MASK;
1496 static int vortex_wtdma_getcursubuffer(vortex_t * vortex, int wtdma)
1498 return ((hwread(vortex->mmio, VORTEX_WTDMA_STAT + (wtdma << 2)) >>
1499 POS_SHIFT) & POS_MASK);
1501 #endif
1502 static int inline vortex_wtdma_getlinearpos(vortex_t * vortex, int wtdma)
1504 stream_t *dma = &vortex->dma_wt[wtdma];
1505 int temp;
1507 temp = hwread(vortex->mmio, VORTEX_WTDMA_STAT + (wtdma << 2));
1508 //temp = (temp & POS_MASK) + (((temp>>WT_SUBBUF_SHIFT) & WT_SUBBUF_MASK)*(dma->cfg0&POS_MASK));
1509 temp = (temp & POS_MASK) + ((dma->period_virt) * (dma->period_bytes));
1510 return temp;
1513 static void vortex_wtdma_startfifo(vortex_t * vortex, int wtdma)
1515 stream_t *dma = &vortex->dma_wt[wtdma];
1516 int this_8 = 0, this_4 = 0;
1518 switch (dma->fifo_status) {
1519 case FIFO_START:
1520 vortex_fifo_setwtvalid(vortex, wtdma,
1521 dma->fifo_enabled ? 1 : 0);
1522 break;
1523 case FIFO_STOP:
1524 this_8 = 1;
1525 hwwrite(vortex->mmio, VORTEX_WTDMA_CTRL + (wtdma << 2),
1526 dma->dma_ctrl);
1527 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1528 this_4, this_8,
1529 dma->fifo_enabled ? 1 : 0, 0);
1530 break;
1531 case FIFO_PAUSE:
1532 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1533 this_4, this_8,
1534 dma->fifo_enabled ? 1 : 0, 0);
1535 break;
1537 dma->fifo_status = FIFO_START;
1540 static void vortex_wtdma_resumefifo(vortex_t * vortex, int wtdma)
1542 stream_t *dma = &vortex->dma_wt[wtdma];
1544 int this_8 = 0, this_4 = 0;
1545 switch (dma->fifo_status) {
1546 case FIFO_STOP:
1547 hwwrite(vortex->mmio, VORTEX_WTDMA_CTRL + (wtdma << 2),
1548 dma->dma_ctrl);
1549 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1550 this_4, this_8,
1551 dma->fifo_enabled ? 1 : 0, 0);
1552 break;
1553 case FIFO_PAUSE:
1554 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1555 this_4, this_8,
1556 dma->fifo_enabled ? 1 : 0, 0);
1557 break;
1559 dma->fifo_status = FIFO_START;
1562 static void vortex_wtdma_pausefifo(vortex_t * vortex, int wtdma)
1564 stream_t *dma = &vortex->dma_wt[wtdma];
1566 int this_8 = 0, this_4 = 0;
1567 switch (dma->fifo_status) {
1568 case FIFO_START:
1569 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1570 this_4, this_8, 0, 0);
1571 break;
1572 case FIFO_STOP:
1573 hwwrite(vortex->mmio, VORTEX_WTDMA_CTRL + (wtdma << 2),
1574 dma->dma_ctrl);
1575 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1576 this_4, this_8, 0, 0);
1577 break;
1579 dma->fifo_status = FIFO_PAUSE;
1582 static void vortex_wtdma_stopfifo(vortex_t * vortex, int wtdma)
1584 stream_t *dma = &vortex->dma_wt[wtdma];
1586 int this_4 = 0, this_8 = 0;
1587 if (dma->fifo_status == FIFO_START)
1588 vortex_fifo_setwtctrl(vortex, wtdma, dma->dma_unknown,
1589 this_4, this_8, 0, 0);
1590 else if (dma->fifo_status == FIFO_STOP)
1591 return;
1592 dma->fifo_status = FIFO_STOP;
1593 dma->fifo_enabled = 0;
1596 #endif
1597 /* ADB Routes */
1599 typedef int ADBRamLink;
1600 static void vortex_adb_init(vortex_t * vortex)
1602 int i;
1603 /* it looks like we are writing more than we need to...
1604 * if we write what we are supposed to it breaks things... */
1605 hwwrite(vortex->mmio, VORTEX_ADB_SR, 0);
1606 for (i = 0; i < VORTEX_ADB_RTBASE_COUNT; i++)
1607 hwwrite(vortex->mmio, VORTEX_ADB_RTBASE + (i << 2),
1608 hwread(vortex->mmio,
1609 VORTEX_ADB_RTBASE + (i << 2)) | ROUTE_MASK);
1610 for (i = 0; i < VORTEX_ADB_CHNBASE_COUNT; i++) {
1611 hwwrite(vortex->mmio, VORTEX_ADB_CHNBASE + (i << 2),
1612 hwread(vortex->mmio,
1613 VORTEX_ADB_CHNBASE + (i << 2)) | ROUTE_MASK);
1617 static void vortex_adb_en_sr(vortex_t * vortex, int channel)
1619 hwwrite(vortex->mmio, VORTEX_ADB_SR,
1620 hwread(vortex->mmio, VORTEX_ADB_SR) | (0x1 << channel));
1623 static void vortex_adb_dis_sr(vortex_t * vortex, int channel)
1625 hwwrite(vortex->mmio, VORTEX_ADB_SR,
1626 hwread(vortex->mmio, VORTEX_ADB_SR) & ~(0x1 << channel));
1629 static void
1630 vortex_adb_addroutes(vortex_t * vortex, unsigned char channel,
1631 ADBRamLink * route, int rnum)
1633 int temp, prev, lifeboat = 0;
1635 if ((rnum <= 0) || (route == NULL))
1636 return;
1637 /* Write last routes. */
1638 rnum--;
1639 hwwrite(vortex->mmio,
1640 VORTEX_ADB_RTBASE + ((route[rnum] & ADB_MASK) << 2),
1641 ROUTE_MASK);
1642 while (rnum > 0) {
1643 hwwrite(vortex->mmio,
1644 VORTEX_ADB_RTBASE +
1645 ((route[rnum - 1] & ADB_MASK) << 2), route[rnum]);
1646 rnum--;
1648 /* Write first route. */
1649 temp =
1650 hwread(vortex->mmio,
1651 VORTEX_ADB_CHNBASE + (channel << 2)) & ADB_MASK;
1652 if (temp == ADB_MASK) {
1653 /* First entry on this channel. */
1654 hwwrite(vortex->mmio, VORTEX_ADB_CHNBASE + (channel << 2),
1655 route[0]);
1656 vortex_adb_en_sr(vortex, channel);
1657 return;
1659 /* Not first entry on this channel. Need to link. */
1660 do {
1661 prev = temp;
1662 temp =
1663 hwread(vortex->mmio,
1664 VORTEX_ADB_RTBASE + (temp << 2)) & ADB_MASK;
1665 if ((lifeboat++) > ADB_MASK) {
1666 printk(KERN_ERR
1667 "vortex_adb_addroutes: unending route! 0x%x\n",
1668 *route);
1669 return;
1672 while (temp != ADB_MASK);
1673 hwwrite(vortex->mmio, VORTEX_ADB_RTBASE + (prev << 2), route[0]);
1676 static void
1677 vortex_adb_delroutes(vortex_t * vortex, unsigned char channel,
1678 ADBRamLink route0, ADBRamLink route1)
1680 int temp, lifeboat = 0, prev;
1682 /* Find route. */
1683 temp =
1684 hwread(vortex->mmio,
1685 VORTEX_ADB_CHNBASE + (channel << 2)) & ADB_MASK;
1686 if (temp == (route0 & ADB_MASK)) {
1687 temp =
1688 hwread(vortex->mmio,
1689 VORTEX_ADB_RTBASE + ((route1 & ADB_MASK) << 2));
1690 if ((temp & ADB_MASK) == ADB_MASK)
1691 vortex_adb_dis_sr(vortex, channel);
1692 hwwrite(vortex->mmio, VORTEX_ADB_CHNBASE + (channel << 2),
1693 temp);
1694 return;
1696 do {
1697 prev = temp;
1698 temp =
1699 hwread(vortex->mmio,
1700 VORTEX_ADB_RTBASE + (prev << 2)) & ADB_MASK;
1701 if (((lifeboat++) > ADB_MASK) || (temp == ADB_MASK)) {
1702 printk(KERN_ERR
1703 "vortex_adb_delroutes: route not found! 0x%x\n",
1704 route0);
1705 return;
1708 while (temp != (route0 & ADB_MASK));
1709 temp = hwread(vortex->mmio, VORTEX_ADB_RTBASE + (temp << 2));
1710 if ((temp & ADB_MASK) == route1)
1711 temp = hwread(vortex->mmio, VORTEX_ADB_RTBASE + (temp << 2));
1712 /* Make bridge over deleted route. */
1713 hwwrite(vortex->mmio, VORTEX_ADB_RTBASE + (prev << 2), temp);
1716 static void
1717 vortex_route(vortex_t * vortex, int en, unsigned char channel,
1718 unsigned char source, unsigned char dest)
1720 ADBRamLink route;
1722 route = ((source & ADB_MASK) << ADB_SHIFT) | (dest & ADB_MASK);
1723 if (en) {
1724 vortex_adb_addroutes(vortex, channel, &route, 1);
1725 if ((source < (OFFSET_SRCOUT + NR_SRC))
1726 && (source >= OFFSET_SRCOUT))
1727 vortex_src_addWTD(vortex, (source - OFFSET_SRCOUT),
1728 channel);
1729 else if ((source < (OFFSET_MIXOUT + NR_MIXOUT))
1730 && (source >= OFFSET_MIXOUT))
1731 vortex_mixer_addWTD(vortex,
1732 (source - OFFSET_MIXOUT), channel);
1733 } else {
1734 vortex_adb_delroutes(vortex, channel, route, route);
1735 if ((source < (OFFSET_SRCOUT + NR_SRC))
1736 && (source >= OFFSET_SRCOUT))
1737 vortex_src_delWTD(vortex, (source - OFFSET_SRCOUT),
1738 channel);
1739 else if ((source < (OFFSET_MIXOUT + NR_MIXOUT))
1740 && (source >= OFFSET_MIXOUT))
1741 vortex_mixer_delWTD(vortex,
1742 (source - OFFSET_MIXOUT), channel);
1746 #if 0
1747 static void
1748 vortex_routes(vortex_t * vortex, int en, unsigned char channel,
1749 unsigned char source, unsigned char dest0, unsigned char dest1)
1751 ADBRamLink route[2];
1753 route[0] = ((source & ADB_MASK) << ADB_SHIFT) | (dest0 & ADB_MASK);
1754 route[1] = ((source & ADB_MASK) << ADB_SHIFT) | (dest1 & ADB_MASK);
1756 if (en) {
1757 vortex_adb_addroutes(vortex, channel, route, 2);
1758 if ((source < (OFFSET_SRCOUT + NR_SRC))
1759 && (source >= (OFFSET_SRCOUT)))
1760 vortex_src_addWTD(vortex, (source - OFFSET_SRCOUT),
1761 channel);
1762 else if ((source < (OFFSET_MIXOUT + NR_MIXOUT))
1763 && (source >= (OFFSET_MIXOUT)))
1764 vortex_mixer_addWTD(vortex,
1765 (source - OFFSET_MIXOUT), channel);
1766 } else {
1767 vortex_adb_delroutes(vortex, channel, route[0], route[1]);
1768 if ((source < (OFFSET_SRCOUT + NR_SRC))
1769 && (source >= (OFFSET_SRCOUT)))
1770 vortex_src_delWTD(vortex, (source - OFFSET_SRCOUT),
1771 channel);
1772 else if ((source < (OFFSET_MIXOUT + NR_MIXOUT))
1773 && (source >= (OFFSET_MIXOUT)))
1774 vortex_mixer_delWTD(vortex,
1775 (source - OFFSET_MIXOUT), channel);
1779 #endif
1780 /* Route two sources to same target. Sources must be of same class !!! */
1781 static void
1782 vortex_routeLRT(vortex_t * vortex, int en, unsigned char ch,
1783 unsigned char source0, unsigned char source1,
1784 unsigned char dest)
1786 ADBRamLink route[2];
1788 route[0] = ((source0 & ADB_MASK) << ADB_SHIFT) | (dest & ADB_MASK);
1789 route[1] = ((source1 & ADB_MASK) << ADB_SHIFT) | (dest & ADB_MASK);
1791 if (dest < 0x10)
1792 route[1] = (route[1] & ~ADB_MASK) | (dest + 0x20); /* fifo A */
1794 if (en) {
1795 vortex_adb_addroutes(vortex, ch, route, 2);
1796 if ((source0 < (OFFSET_SRCOUT + NR_SRC))
1797 && (source0 >= OFFSET_SRCOUT)) {
1798 vortex_src_addWTD(vortex,
1799 (source0 - OFFSET_SRCOUT), ch);
1800 vortex_src_addWTD(vortex,
1801 (source1 - OFFSET_SRCOUT), ch);
1802 } else if ((source0 < (OFFSET_MIXOUT + NR_MIXOUT))
1803 && (source0 >= OFFSET_MIXOUT)) {
1804 vortex_mixer_addWTD(vortex,
1805 (source0 - OFFSET_MIXOUT), ch);
1806 vortex_mixer_addWTD(vortex,
1807 (source1 - OFFSET_MIXOUT), ch);
1809 } else {
1810 vortex_adb_delroutes(vortex, ch, route[0], route[1]);
1811 if ((source0 < (OFFSET_SRCOUT + NR_SRC))
1812 && (source0 >= OFFSET_SRCOUT)) {
1813 vortex_src_delWTD(vortex,
1814 (source0 - OFFSET_SRCOUT), ch);
1815 vortex_src_delWTD(vortex,
1816 (source1 - OFFSET_SRCOUT), ch);
1817 } else if ((source0 < (OFFSET_MIXOUT + NR_MIXOUT))
1818 && (source0 >= OFFSET_MIXOUT)) {
1819 vortex_mixer_delWTD(vortex,
1820 (source0 - OFFSET_MIXOUT), ch);
1821 vortex_mixer_delWTD(vortex,
1822 (source1 - OFFSET_MIXOUT), ch);
1827 /* Connection stuff */
1829 // Connect adbdma to src('s).
1830 static void
1831 vortex_connection_adbdma_src(vortex_t * vortex, int en, unsigned char ch,
1832 unsigned char adbdma, unsigned char src)
1834 vortex_route(vortex, en, ch, ADB_DMA(adbdma), ADB_SRCIN(src));
1837 // Connect SRC to mixin.
1838 static void
1839 vortex_connection_src_mixin(vortex_t * vortex, int en,
1840 unsigned char channel, unsigned char src,
1841 unsigned char mixin)
1843 vortex_route(vortex, en, channel, ADB_SRCOUT(src), ADB_MIXIN(mixin));
1846 // Connect mixin with mix output.
1847 static void
1848 vortex_connection_mixin_mix(vortex_t * vortex, int en, unsigned char mixin,
1849 unsigned char mix, int a)
1851 if (en) {
1852 vortex_mix_enableinput(vortex, mix, mixin);
1853 vortex_mix_setinputvolumebyte(vortex, mix, mixin, MIX_DEFIGAIN); // added to original code.
1854 } else
1855 vortex_mix_disableinput(vortex, mix, mixin, a);
1858 // Connect absolut address to mixin.
1859 static void
1860 vortex_connection_adb_mixin(vortex_t * vortex, int en,
1861 unsigned char channel, unsigned char source,
1862 unsigned char mixin)
1864 vortex_route(vortex, en, channel, source, ADB_MIXIN(mixin));
1867 static void
1868 vortex_connection_src_adbdma(vortex_t * vortex, int en, unsigned char ch,
1869 unsigned char src, unsigned char adbdma)
1871 vortex_route(vortex, en, ch, ADB_SRCOUT(src), ADB_DMA(adbdma));
1874 static void
1875 vortex_connection_src_src_adbdma(vortex_t * vortex, int en,
1876 unsigned char ch, unsigned char src0,
1877 unsigned char src1, unsigned char adbdma)
1880 vortex_routeLRT(vortex, en, ch, ADB_SRCOUT(src0), ADB_SRCOUT(src1),
1881 ADB_DMA(adbdma));
1884 // mix to absolut address.
1885 static void
1886 vortex_connection_mix_adb(vortex_t * vortex, int en, unsigned char ch,
1887 unsigned char mix, unsigned char dest)
1889 vortex_route(vortex, en, ch, ADB_MIXOUT(mix), dest);
1890 vortex_mix_setvolumebyte(vortex, mix, MIX_DEFOGAIN); // added to original code.
1893 // mixer to src.
1894 static void
1895 vortex_connection_mix_src(vortex_t * vortex, int en, unsigned char ch,
1896 unsigned char mix, unsigned char src)
1898 vortex_route(vortex, en, ch, ADB_MIXOUT(mix), ADB_SRCIN(src));
1899 vortex_mix_setvolumebyte(vortex, mix, MIX_DEFOGAIN); // added to original code.
1902 #if 0
1903 static void
1904 vortex_connection_adbdma_src_src(vortex_t * vortex, int en,
1905 unsigned char channel,
1906 unsigned char adbdma, unsigned char src0,
1907 unsigned char src1)
1909 vortex_routes(vortex, en, channel, ADB_DMA(adbdma),
1910 ADB_SRCIN(src0), ADB_SRCIN(src1));
1913 // Connect two mix to AdbDma.
1914 static void
1915 vortex_connection_mix_mix_adbdma(vortex_t * vortex, int en,
1916 unsigned char ch, unsigned char mix0,
1917 unsigned char mix1, unsigned char adbdma)
1920 ADBRamLink routes[2];
1921 routes[0] =
1922 (((mix0 +
1923 OFFSET_MIXOUT) & ADB_MASK) << ADB_SHIFT) | (adbdma & ADB_MASK);
1924 routes[1] =
1925 (((mix1 + OFFSET_MIXOUT) & ADB_MASK) << ADB_SHIFT) | ((adbdma +
1926 0x20) &
1927 ADB_MASK);
1928 if (en) {
1929 vortex_adb_addroutes(vortex, ch, routes, 0x2);
1930 vortex_mixer_addWTD(vortex, mix0, ch);
1931 vortex_mixer_addWTD(vortex, mix1, ch);
1932 } else {
1933 vortex_adb_delroutes(vortex, ch, routes[0], routes[1]);
1934 vortex_mixer_delWTD(vortex, mix0, ch);
1935 vortex_mixer_delWTD(vortex, mix1, ch);
1938 #endif
1940 /* CODEC connect. */
1942 static void
1943 vortex_connect_codecplay(vortex_t * vortex, int en, unsigned char mixers[])
1945 #ifdef CHIP_AU8820
1946 vortex_connection_mix_adb(vortex, en, 0x11, mixers[0], ADB_CODECOUT(0));
1947 vortex_connection_mix_adb(vortex, en, 0x11, mixers[1], ADB_CODECOUT(1));
1948 #else
1949 #if 1
1950 // Connect front channels through EQ.
1951 vortex_connection_mix_adb(vortex, en, 0x11, mixers[0], ADB_EQIN(0));
1952 vortex_connection_mix_adb(vortex, en, 0x11, mixers[1], ADB_EQIN(1));
1953 /* Lower volume, since EQ has some gain. */
1954 vortex_mix_setvolumebyte(vortex, mixers[0], 0);
1955 vortex_mix_setvolumebyte(vortex, mixers[1], 0);
1956 vortex_route(vortex, en, 0x11, ADB_EQOUT(0), ADB_CODECOUT(0));
1957 vortex_route(vortex, en, 0x11, ADB_EQOUT(1), ADB_CODECOUT(1));
1959 /* Check if reg 0x28 has SDAC bit set. */
1960 if (VORTEX_IS_QUAD(vortex)) {
1961 /* Rear channel. Note: ADB_CODECOUT(0+2) and (1+2) is for AC97 modem */
1962 vortex_connection_mix_adb(vortex, en, 0x11, mixers[2],
1963 ADB_CODECOUT(0 + 4));
1964 vortex_connection_mix_adb(vortex, en, 0x11, mixers[3],
1965 ADB_CODECOUT(1 + 4));
1966 //printk("SDAC detected ");
1968 #else
1969 // Use plain direct output to codec.
1970 vortex_connection_mix_adb(vortex, en, 0x11, mixers[0], ADB_CODECOUT(0));
1971 vortex_connection_mix_adb(vortex, en, 0x11, mixers[1], ADB_CODECOUT(1));
1972 #endif
1973 #endif
1976 static void
1977 vortex_connect_codecrec(vortex_t * vortex, int en, unsigned char mixin0,
1978 unsigned char mixin1)
1981 Enable: 0x1, 0x1
1982 Channel: 0x11, 0x11
1983 ADB Source address: 0x48, 0x49
1984 Destination Asp4Topology_0x9c,0x98
1986 vortex_connection_adb_mixin(vortex, en, 0x11, ADB_CODECIN(0), mixin0);
1987 vortex_connection_adb_mixin(vortex, en, 0x11, ADB_CODECIN(1), mixin1);
1990 // Higher level ADB audio path (de)allocator.
1992 /* Resource manager */
1993 static int resnum[VORTEX_RESOURCE_LAST] =
1994 { NR_ADB, NR_SRC, NR_MIXIN, NR_MIXOUT, NR_A3D };
1996 Checkout/Checkin resource of given type.
1997 resmap: resource map to be used. If NULL means that we want to allocate
1998 a DMA resource (root of all other resources of a dma channel).
1999 out: Mean checkout if != 0. Else mean Checkin resource.
2000 restype: Indicates type of resource to be checked in or out.
2002 static char
2003 vortex_adb_checkinout(vortex_t * vortex, int resmap[], int out, int restype)
2005 int i, qty = resnum[restype], resinuse = 0;
2007 if (out) {
2008 /* Gather used resources by all streams. */
2009 for (i = 0; i < NR_ADB; i++) {
2010 resinuse |= vortex->dma_adb[i].resources[restype];
2012 resinuse |= vortex->fixed_res[restype];
2013 /* Find and take free resource. */
2014 for (i = 0; i < qty; i++) {
2015 if ((resinuse & (1 << i)) == 0) {
2016 if (resmap != NULL)
2017 resmap[restype] |= (1 << i);
2018 else
2019 vortex->dma_adb[i].resources[restype] |= (1 << i);
2020 //printk("vortex: ResManager: type %d out %d\n", restype, i);
2021 return i;
2024 } else {
2025 if (resmap == NULL)
2026 return -EINVAL;
2027 /* Checkin first resource of type restype. */
2028 for (i = 0; i < qty; i++) {
2029 if (resmap[restype] & (1 << i)) {
2030 resmap[restype] &= ~(1 << i);
2031 //printk("vortex: ResManager: type %d in %d\n",restype, i);
2032 return i;
2036 printk(KERN_ERR "vortex: FATAL: ResManager: resource type %d exhausted.\n", restype);
2037 return -ENOMEM;
2040 /* Default Connections */
2041 static int
2042 vortex_adb_allocroute(vortex_t * vortex, int dma, int nr_ch, int dir, int type);
2044 static void vortex_connect_default(vortex_t * vortex, int en)
2046 // Connect AC97 codec.
2047 vortex->mixplayb[0] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2048 VORTEX_RESOURCE_MIXOUT);
2049 vortex->mixplayb[1] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2050 VORTEX_RESOURCE_MIXOUT);
2051 if (VORTEX_IS_QUAD(vortex)) {
2052 vortex->mixplayb[2] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2053 VORTEX_RESOURCE_MIXOUT);
2054 vortex->mixplayb[3] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2055 VORTEX_RESOURCE_MIXOUT);
2057 vortex_connect_codecplay(vortex, en, vortex->mixplayb);
2059 vortex->mixcapt[0] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2060 VORTEX_RESOURCE_MIXIN);
2061 vortex->mixcapt[1] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2062 VORTEX_RESOURCE_MIXIN);
2063 vortex_connect_codecrec(vortex, en, MIX_CAPT(0), MIX_CAPT(1));
2065 // Connect SPDIF
2066 #ifndef CHIP_AU8820
2067 vortex->mixspdif[0] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2068 VORTEX_RESOURCE_MIXOUT);
2069 vortex->mixspdif[1] = vortex_adb_checkinout(vortex, vortex->fixed_res, en,
2070 VORTEX_RESOURCE_MIXOUT);
2071 vortex_connection_mix_adb(vortex, en, 0x14, vortex->mixspdif[0],
2072 ADB_SPDIFOUT(0));
2073 vortex_connection_mix_adb(vortex, en, 0x14, vortex->mixspdif[1],
2074 ADB_SPDIFOUT(1));
2075 #endif
2076 // Connect WT
2077 #ifndef CHIP_AU8810
2078 vortex_wt_connect(vortex, en);
2079 #endif
2080 // A3D (crosstalk canceler and A3D slices). AU8810 disabled for now.
2081 #ifndef CHIP_AU8820
2082 vortex_Vort3D_connect(vortex, en);
2083 #endif
2084 // Connect I2S
2086 // Connect DSP interface for SQ3500 turbo (not here i think...)
2088 // Connect AC98 modem codec
2093 Allocate nr_ch pcm audio routes if dma < 0. If dma >= 0, existing routes
2094 are deallocated.
2095 dma: DMA engine routes to be deallocated when dma >= 0.
2096 nr_ch: Number of channels to be de/allocated.
2097 dir: direction of stream. Uses same values as substream->stream.
2098 type: Type of audio output/source (codec, spdif, i2s, dsp, etc)
2099 Return: Return allocated DMA or same DMA passed as "dma" when dma >= 0.
2101 static int
2102 vortex_adb_allocroute(vortex_t * vortex, int dma, int nr_ch, int dir, int type)
2104 stream_t *stream;
2105 int i, en;
2107 if ((nr_ch == 3)
2108 || ((dir == SNDRV_PCM_STREAM_CAPTURE) && (nr_ch > 2)))
2109 return -EBUSY;
2111 if (dma >= 0) {
2112 en = 0;
2113 vortex_adb_checkinout(vortex,
2114 vortex->dma_adb[dma].resources, en,
2115 VORTEX_RESOURCE_DMA);
2116 } else {
2117 en = 1;
2118 if ((dma =
2119 vortex_adb_checkinout(vortex, NULL, en,
2120 VORTEX_RESOURCE_DMA)) < 0)
2121 return -EBUSY;
2124 stream = &vortex->dma_adb[dma];
2125 stream->dma = dma;
2126 stream->dir = dir;
2127 stream->type = type;
2129 /* PLAYBACK ROUTES. */
2130 if (dir == SNDRV_PCM_STREAM_PLAYBACK) {
2131 int src[4], mix[4], ch_top;
2132 #ifndef CHIP_AU8820
2133 int a3d = 0;
2134 #endif
2135 /* Get SRC and MIXER hardware resources. */
2136 if (stream->type != VORTEX_PCM_SPDIF) {
2137 for (i = 0; i < nr_ch; i++) {
2138 if ((src[i] = vortex_adb_checkinout(vortex,
2139 stream->resources, en,
2140 VORTEX_RESOURCE_SRC)) < 0) {
2141 memset(stream->resources, 0,
2142 sizeof(unsigned char) *
2143 VORTEX_RESOURCE_LAST);
2144 return -EBUSY;
2146 if (stream->type != VORTEX_PCM_A3D) {
2147 if ((mix[i] = vortex_adb_checkinout(vortex,
2148 stream->resources,
2150 VORTEX_RESOURCE_MIXIN)) < 0) {
2151 memset(stream->resources,
2153 sizeof(unsigned char) * VORTEX_RESOURCE_LAST);
2154 return -EBUSY;
2159 #ifndef CHIP_AU8820
2160 if (stream->type == VORTEX_PCM_A3D) {
2161 if ((a3d =
2162 vortex_adb_checkinout(vortex,
2163 stream->resources, en,
2164 VORTEX_RESOURCE_A3D)) < 0) {
2165 memset(stream->resources, 0,
2166 sizeof(unsigned char) *
2167 VORTEX_RESOURCE_LAST);
2168 printk(KERN_ERR "vortex: out of A3D sources. Sorry\n");
2169 return -EBUSY;
2171 /* (De)Initialize A3D hardware source. */
2172 vortex_Vort3D_InitializeSource(&(vortex->a3d[a3d]), en);
2174 /* Make SPDIF out exclusive to "spdif" device when in use. */
2175 if ((stream->type == VORTEX_PCM_SPDIF) && (en)) {
2176 vortex_route(vortex, 0, 0x14,
2177 ADB_MIXOUT(vortex->mixspdif[0]),
2178 ADB_SPDIFOUT(0));
2179 vortex_route(vortex, 0, 0x14,
2180 ADB_MIXOUT(vortex->mixspdif[1]),
2181 ADB_SPDIFOUT(1));
2183 #endif
2184 /* Make playback routes. */
2185 for (i = 0; i < nr_ch; i++) {
2186 if (stream->type == VORTEX_PCM_ADB) {
2187 vortex_connection_adbdma_src(vortex, en,
2188 src[nr_ch - 1],
2189 dma,
2190 src[i]);
2191 vortex_connection_src_mixin(vortex, en,
2192 0x11, src[i],
2193 mix[i]);
2194 vortex_connection_mixin_mix(vortex, en,
2195 mix[i],
2196 MIX_PLAYB(i), 0);
2197 #ifndef CHIP_AU8820
2198 vortex_connection_mixin_mix(vortex, en,
2199 mix[i],
2200 MIX_SPDIF(i % 2), 0);
2201 vortex_mix_setinputvolumebyte(vortex,
2202 MIX_SPDIF(i % 2),
2203 mix[i],
2204 MIX_DEFIGAIN);
2205 #endif
2207 #ifndef CHIP_AU8820
2208 if (stream->type == VORTEX_PCM_A3D) {
2209 vortex_connection_adbdma_src(vortex, en,
2210 src[nr_ch - 1],
2211 dma,
2212 src[i]);
2213 vortex_route(vortex, en, 0x11, ADB_SRCOUT(src[i]), ADB_A3DIN(a3d));
2214 /* XTalk test. */
2215 //vortex_route(vortex, en, 0x11, dma, ADB_XTALKIN(i?9:4));
2216 //vortex_route(vortex, en, 0x11, ADB_SRCOUT(src[i]), ADB_XTALKIN(i?4:9));
2218 if (stream->type == VORTEX_PCM_SPDIF)
2219 vortex_route(vortex, en, 0x14,
2220 ADB_DMA(stream->dma),
2221 ADB_SPDIFOUT(i));
2222 #endif
2224 if (stream->type != VORTEX_PCM_SPDIF && stream->type != VORTEX_PCM_A3D) {
2225 ch_top = (VORTEX_IS_QUAD(vortex) ? 4 : 2);
2226 for (i = nr_ch; i < ch_top; i++) {
2227 vortex_connection_mixin_mix(vortex, en,
2228 mix[i % nr_ch],
2229 MIX_PLAYB(i), 0);
2230 #ifndef CHIP_AU8820
2231 vortex_connection_mixin_mix(vortex, en,
2232 mix[i % nr_ch],
2233 MIX_SPDIF(i % 2),
2235 vortex_mix_setinputvolumebyte(vortex,
2236 MIX_SPDIF(i % 2),
2237 mix[i % nr_ch],
2238 MIX_DEFIGAIN);
2239 #endif
2242 #ifndef CHIP_AU8820
2243 else {
2244 if (nr_ch == 1 && stream->type == VORTEX_PCM_SPDIF)
2245 vortex_route(vortex, en, 0x14,
2246 ADB_DMA(stream->dma),
2247 ADB_SPDIFOUT(1));
2249 /* Reconnect SPDIF out when "spdif" device is down. */
2250 if ((stream->type == VORTEX_PCM_SPDIF) && (!en)) {
2251 vortex_route(vortex, 1, 0x14,
2252 ADB_MIXOUT(vortex->mixspdif[0]),
2253 ADB_SPDIFOUT(0));
2254 vortex_route(vortex, 1, 0x14,
2255 ADB_MIXOUT(vortex->mixspdif[1]),
2256 ADB_SPDIFOUT(1));
2258 #endif
2259 /* CAPTURE ROUTES. */
2260 } else {
2261 int src[2], mix[2];
2263 /* Get SRC and MIXER hardware resources. */
2264 for (i = 0; i < nr_ch; i++) {
2265 if ((mix[i] =
2266 vortex_adb_checkinout(vortex,
2267 stream->resources, en,
2268 VORTEX_RESOURCE_MIXOUT))
2269 < 0) {
2270 memset(stream->resources, 0,
2271 sizeof(unsigned char) *
2272 VORTEX_RESOURCE_LAST);
2273 return -EBUSY;
2275 if ((src[i] =
2276 vortex_adb_checkinout(vortex,
2277 stream->resources, en,
2278 VORTEX_RESOURCE_SRC)) < 0) {
2279 memset(stream->resources, 0,
2280 sizeof(unsigned char) *
2281 VORTEX_RESOURCE_LAST);
2282 return -EBUSY;
2286 /* Make capture routes. */
2287 vortex_connection_mixin_mix(vortex, en, MIX_CAPT(0), mix[0], 0);
2288 vortex_connection_mix_src(vortex, en, 0x11, mix[0], src[0]);
2289 if (nr_ch == 1) {
2290 vortex_connection_mixin_mix(vortex, en,
2291 MIX_CAPT(1), mix[0], 0);
2292 vortex_connection_src_adbdma(vortex, en,
2293 src[0],
2294 src[0], dma);
2295 } else {
2296 vortex_connection_mixin_mix(vortex, en,
2297 MIX_CAPT(1), mix[1], 0);
2298 vortex_connection_mix_src(vortex, en, 0x11, mix[1],
2299 src[1]);
2300 vortex_connection_src_src_adbdma(vortex, en,
2301 src[1], src[0],
2302 src[1], dma);
2305 vortex->dma_adb[dma].nr_ch = nr_ch;
2307 #if 0
2308 /* AC97 Codec channel setup. FIXME: this has no effect on some cards !! */
2309 if (nr_ch < 4) {
2310 /* Copy stereo to rear channel (surround) */
2311 snd_ac97_write_cache(vortex->codec,
2312 AC97_SIGMATEL_DAC2INVERT,
2313 snd_ac97_read(vortex->codec,
2314 AC97_SIGMATEL_DAC2INVERT)
2315 | 4);
2316 } else {
2317 /* Allow separate front and rear channels. */
2318 snd_ac97_write_cache(vortex->codec,
2319 AC97_SIGMATEL_DAC2INVERT,
2320 snd_ac97_read(vortex->codec,
2321 AC97_SIGMATEL_DAC2INVERT)
2322 & ~((u32)
2323 4));
2325 #endif
2326 return dma;
2330 Set the SampleRate of the SRC's attached to the given DMA engine.
2332 static void
2333 vortex_adb_setsrc(vortex_t * vortex, int adbdma, unsigned int rate, int dir)
2335 stream_t *stream = &(vortex->dma_adb[adbdma]);
2336 int i, cvrt;
2338 /* dir=1:play ; dir=0:rec */
2339 if (dir)
2340 cvrt = SRC_RATIO(rate, 48000);
2341 else
2342 cvrt = SRC_RATIO(48000, rate);
2344 /* Setup SRC's */
2345 for (i = 0; i < NR_SRC; i++) {
2346 if (stream->resources[VORTEX_RESOURCE_SRC] & (1 << i))
2347 vortex_src_setupchannel(vortex, i, cvrt, 0, 0, i, dir, 1, cvrt, dir);
2351 // Timer and ISR functions.
2353 static void vortex_settimer(vortex_t * vortex, int period)
2355 //set the timer period to <period> 48000ths of a second.
2356 hwwrite(vortex->mmio, VORTEX_IRQ_STAT, period);
2359 #if 0
2360 static void vortex_enable_timer_int(vortex_t * card)
2362 hwwrite(card->mmio, VORTEX_IRQ_CTRL,
2363 hwread(card->mmio, VORTEX_IRQ_CTRL) | IRQ_TIMER | 0x60);
2366 static void vortex_disable_timer_int(vortex_t * card)
2368 hwwrite(card->mmio, VORTEX_IRQ_CTRL,
2369 hwread(card->mmio, VORTEX_IRQ_CTRL) & ~IRQ_TIMER);
2372 #endif
2373 static void vortex_enable_int(vortex_t * card)
2375 // CAsp4ISR__EnableVortexInt_void_
2376 hwwrite(card->mmio, VORTEX_CTRL,
2377 hwread(card->mmio, VORTEX_CTRL) | CTRL_IRQ_ENABLE);
2378 hwwrite(card->mmio, VORTEX_IRQ_CTRL,
2379 (hwread(card->mmio, VORTEX_IRQ_CTRL) & 0xffffefc0) | 0x24);
2382 static void vortex_disable_int(vortex_t * card)
2384 hwwrite(card->mmio, VORTEX_CTRL,
2385 hwread(card->mmio, VORTEX_CTRL) & ~CTRL_IRQ_ENABLE);
2388 static irqreturn_t vortex_interrupt(int irq, void *dev_id)
2390 vortex_t *vortex = dev_id;
2391 int i, handled;
2392 u32 source;
2394 //check if the interrupt is ours.
2395 if (!(hwread(vortex->mmio, VORTEX_STAT) & 0x1))
2396 return IRQ_NONE;
2398 // This is the Interrrupt Enable flag we set before (consistency check).
2399 if (!(hwread(vortex->mmio, VORTEX_CTRL) & CTRL_IRQ_ENABLE))
2400 return IRQ_NONE;
2402 source = hwread(vortex->mmio, VORTEX_IRQ_SOURCE);
2403 // Reset IRQ flags.
2404 hwwrite(vortex->mmio, VORTEX_IRQ_SOURCE, source);
2405 hwread(vortex->mmio, VORTEX_IRQ_SOURCE);
2406 // Is at least one IRQ flag set?
2407 if (source == 0) {
2408 printk(KERN_ERR "vortex: missing irq source\n");
2409 return IRQ_NONE;
2412 handled = 0;
2413 // Attend every interrupt source.
2414 if (unlikely(source & IRQ_ERR_MASK)) {
2415 if (source & IRQ_FATAL) {
2416 printk(KERN_ERR "vortex: IRQ fatal error\n");
2418 if (source & IRQ_PARITY) {
2419 printk(KERN_ERR "vortex: IRQ parity error\n");
2421 if (source & IRQ_REG) {
2422 printk(KERN_ERR "vortex: IRQ reg error\n");
2424 if (source & IRQ_FIFO) {
2425 printk(KERN_ERR "vortex: IRQ fifo error\n");
2427 if (source & IRQ_DMA) {
2428 printk(KERN_ERR "vortex: IRQ dma error\n");
2430 handled = 1;
2432 if (source & IRQ_PCMOUT) {
2433 /* ALSA period acknowledge. */
2434 spin_lock(&vortex->lock);
2435 for (i = 0; i < NR_ADB; i++) {
2436 if (vortex->dma_adb[i].fifo_status == FIFO_START) {
2437 if (vortex_adbdma_bufshift(vortex, i)) ;
2438 spin_unlock(&vortex->lock);
2439 snd_pcm_period_elapsed(vortex->dma_adb[i].
2440 substream);
2441 spin_lock(&vortex->lock);
2444 #ifndef CHIP_AU8810
2445 for (i = 0; i < NR_WT; i++) {
2446 if (vortex->dma_wt[i].fifo_status == FIFO_START) {
2447 if (vortex_wtdma_bufshift(vortex, i)) ;
2448 spin_unlock(&vortex->lock);
2449 snd_pcm_period_elapsed(vortex->dma_wt[i].
2450 substream);
2451 spin_lock(&vortex->lock);
2454 #endif
2455 spin_unlock(&vortex->lock);
2456 handled = 1;
2458 //Acknowledge the Timer interrupt
2459 if (source & IRQ_TIMER) {
2460 hwread(vortex->mmio, VORTEX_IRQ_STAT);
2461 handled = 1;
2463 if (source & IRQ_MIDI) {
2464 snd_mpu401_uart_interrupt(vortex->irq,
2465 vortex->rmidi->private_data);
2466 handled = 1;
2469 if (!handled) {
2470 printk(KERN_ERR "vortex: unknown irq source %x\n", source);
2472 return IRQ_RETVAL(handled);
2475 /* Codec */
2477 #define POLL_COUNT 1000
2478 static void vortex_codec_init(vortex_t * vortex)
2480 int i;
2482 for (i = 0; i < 32; i++) {
2483 /* the windows driver writes -i, so we write -i */
2484 hwwrite(vortex->mmio, (VORTEX_CODEC_CHN + (i << 2)), -i);
2485 msleep(2);
2487 if (0) {
2488 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x8068);
2489 msleep(1);
2490 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x00e8);
2491 msleep(1);
2492 } else {
2493 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x00a8);
2494 msleep(2);
2495 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x80a8);
2496 msleep(2);
2497 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x80e8);
2498 msleep(2);
2499 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x80a8);
2500 msleep(2);
2501 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x00a8);
2502 msleep(2);
2503 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0x00e8);
2505 for (i = 0; i < 32; i++) {
2506 hwwrite(vortex->mmio, (VORTEX_CODEC_CHN + (i << 2)), -i);
2507 msleep(5);
2509 hwwrite(vortex->mmio, VORTEX_CODEC_CTRL, 0xe8);
2510 msleep(1);
2511 /* Enable codec channels 0 and 1. */
2512 hwwrite(vortex->mmio, VORTEX_CODEC_EN,
2513 hwread(vortex->mmio, VORTEX_CODEC_EN) | EN_CODEC);
2516 static void
2517 vortex_codec_write(struct snd_ac97 * codec, unsigned short addr, unsigned short data)
2520 vortex_t *card = (vortex_t *) codec->private_data;
2521 unsigned int lifeboat = 0;
2523 /* wait for transactions to clear */
2524 while (!(hwread(card->mmio, VORTEX_CODEC_CTRL) & 0x100)) {
2525 udelay(100);
2526 if (lifeboat++ > POLL_COUNT) {
2527 printk(KERN_ERR "vortex: ac97 codec stuck busy\n");
2528 return;
2531 /* write register */
2532 hwwrite(card->mmio, VORTEX_CODEC_IO,
2533 ((addr << VORTEX_CODEC_ADDSHIFT) & VORTEX_CODEC_ADDMASK) |
2534 ((data << VORTEX_CODEC_DATSHIFT) & VORTEX_CODEC_DATMASK) |
2535 VORTEX_CODEC_WRITE |
2536 (codec->num << VORTEX_CODEC_ID_SHIFT) );
2538 /* Flush Caches. */
2539 hwread(card->mmio, VORTEX_CODEC_IO);
2542 static unsigned short vortex_codec_read(struct snd_ac97 * codec, unsigned short addr)
2545 vortex_t *card = (vortex_t *) codec->private_data;
2546 u32 read_addr, data;
2547 unsigned lifeboat = 0;
2549 /* wait for transactions to clear */
2550 while (!(hwread(card->mmio, VORTEX_CODEC_CTRL) & 0x100)) {
2551 udelay(100);
2552 if (lifeboat++ > POLL_COUNT) {
2553 printk(KERN_ERR "vortex: ac97 codec stuck busy\n");
2554 return 0xffff;
2557 /* set up read address */
2558 read_addr = ((addr << VORTEX_CODEC_ADDSHIFT) & VORTEX_CODEC_ADDMASK) |
2559 (codec->num << VORTEX_CODEC_ID_SHIFT) ;
2560 hwwrite(card->mmio, VORTEX_CODEC_IO, read_addr);
2562 /* wait for address */
2563 do {
2564 udelay(100);
2565 data = hwread(card->mmio, VORTEX_CODEC_IO);
2566 if (lifeboat++ > POLL_COUNT) {
2567 printk(KERN_ERR "vortex: ac97 address never arrived\n");
2568 return 0xffff;
2570 } while ((data & VORTEX_CODEC_ADDMASK) !=
2571 (addr << VORTEX_CODEC_ADDSHIFT));
2573 /* return data. */
2574 return (u16) (data & VORTEX_CODEC_DATMASK);
2577 /* SPDIF support */
2579 static void vortex_spdif_init(vortex_t * vortex, int spdif_sr, int spdif_mode)
2581 int i, this_38 = 0, this_04 = 0, this_08 = 0, this_0c = 0;
2583 /* CAsp4Spdif::InitializeSpdifHardware(void) */
2584 hwwrite(vortex->mmio, VORTEX_SPDIF_FLAGS,
2585 hwread(vortex->mmio, VORTEX_SPDIF_FLAGS) & 0xfff3fffd);
2586 //for (i=0x291D4; i<0x29200; i+=4)
2587 for (i = 0; i < 11; i++)
2588 hwwrite(vortex->mmio, VORTEX_SPDIF_CFG1 + (i << 2), 0);
2589 //hwwrite(vortex->mmio, 0x29190, hwread(vortex->mmio, 0x29190) | 0xc0000);
2590 hwwrite(vortex->mmio, VORTEX_CODEC_EN,
2591 hwread(vortex->mmio, VORTEX_CODEC_EN) | EN_SPDIF);
2593 /* CAsp4Spdif::ProgramSRCInHardware(enum SPDIF_SR,enum SPDIFMODE) */
2594 if (this_04 && this_08) {
2595 int edi;
2597 i = (((0x5DC00000 / spdif_sr) + 1) >> 1);
2598 if (i > 0x800) {
2599 if (i < 0x1ffff)
2600 edi = (i >> 1);
2601 else
2602 edi = 0x1ffff;
2603 } else {
2604 i = edi = 0x800;
2606 /* this_04 and this_08 are the CASp4Src's (samplerate converters) */
2607 vortex_src_setupchannel(vortex, this_04, edi, 0, 1,
2608 this_0c, 1, 0, edi, 1);
2609 vortex_src_setupchannel(vortex, this_08, edi, 0, 1,
2610 this_0c, 1, 0, edi, 1);
2613 i = spdif_sr;
2614 spdif_sr |= 0x8c;
2615 switch (i) {
2616 case 32000:
2617 this_38 &= 0xFFFFFFFE;
2618 this_38 &= 0xFFFFFFFD;
2619 this_38 &= 0xF3FFFFFF;
2620 this_38 |= 0x03000000; /* set 32khz samplerate */
2621 this_38 &= 0xFFFFFF3F;
2622 spdif_sr &= 0xFFFFFFFD;
2623 spdif_sr |= 1;
2624 break;
2625 case 44100:
2626 this_38 &= 0xFFFFFFFE;
2627 this_38 &= 0xFFFFFFFD;
2628 this_38 &= 0xF0FFFFFF;
2629 this_38 |= 0x03000000;
2630 this_38 &= 0xFFFFFF3F;
2631 spdif_sr &= 0xFFFFFFFC;
2632 break;
2633 case 48000:
2634 if (spdif_mode == 1) {
2635 this_38 &= 0xFFFFFFFE;
2636 this_38 &= 0xFFFFFFFD;
2637 this_38 &= 0xF2FFFFFF;
2638 this_38 |= 0x02000000; /* set 48khz samplerate */
2639 this_38 &= 0xFFFFFF3F;
2640 } else {
2641 /* J. Gordon Wolfe: I think this stuff is for AC3 */
2642 this_38 |= 0x00000003;
2643 this_38 &= 0xFFFFFFBF;
2644 this_38 |= 0x80;
2646 spdif_sr |= 2;
2647 spdif_sr &= 0xFFFFFFFE;
2648 break;
2651 /* looks like the next 2 lines transfer a 16-bit value into 2 8-bit
2652 registers. seems to be for the standard IEC/SPDIF initialization
2653 stuff */
2654 hwwrite(vortex->mmio, VORTEX_SPDIF_CFG0, this_38 & 0xffff);
2655 hwwrite(vortex->mmio, VORTEX_SPDIF_CFG1, this_38 >> 0x10);
2656 hwwrite(vortex->mmio, VORTEX_SPDIF_SMPRATE, spdif_sr);
2659 /* Initialization */
2661 static int __devinit vortex_core_init(vortex_t * vortex)
2664 printk(KERN_INFO "Vortex: init.... ");
2665 /* Hardware Init. */
2666 hwwrite(vortex->mmio, VORTEX_CTRL, 0xffffffff);
2667 msleep(5);
2668 hwwrite(vortex->mmio, VORTEX_CTRL,
2669 hwread(vortex->mmio, VORTEX_CTRL) & 0xffdfffff);
2670 msleep(5);
2671 /* Reset IRQ flags */
2672 hwwrite(vortex->mmio, VORTEX_IRQ_SOURCE, 0xffffffff);
2673 hwread(vortex->mmio, VORTEX_IRQ_STAT);
2675 vortex_codec_init(vortex);
2677 #ifdef CHIP_AU8830
2678 hwwrite(vortex->mmio, VORTEX_CTRL,
2679 hwread(vortex->mmio, VORTEX_CTRL) | 0x1000000);
2680 #endif
2682 /* Init audio engine. */
2683 vortex_adbdma_init(vortex);
2684 hwwrite(vortex->mmio, VORTEX_ENGINE_CTRL, 0x0); //, 0xc83c7e58, 0xc5f93e58
2685 vortex_adb_init(vortex);
2686 /* Init processing blocks. */
2687 vortex_fifo_init(vortex);
2688 vortex_mixer_init(vortex);
2689 vortex_srcblock_init(vortex);
2690 #ifndef CHIP_AU8820
2691 vortex_eq_init(vortex);
2692 vortex_spdif_init(vortex, 48000, 1);
2693 vortex_Vort3D_enable(vortex);
2694 #endif
2695 #ifndef CHIP_AU8810
2696 vortex_wt_init(vortex);
2697 #endif
2698 // Moved to au88x0.c
2699 //vortex_connect_default(vortex, 1);
2701 vortex_settimer(vortex, 0x90);
2702 // Enable Interrupts.
2703 // vortex_enable_int() must be first !!
2704 // hwwrite(vortex->mmio, VORTEX_IRQ_CTRL, 0);
2705 // vortex_enable_int(vortex);
2706 //vortex_enable_timer_int(vortex);
2707 //vortex_disable_timer_int(vortex);
2709 printk(KERN_INFO "done.\n");
2710 spin_lock_init(&vortex->lock);
2712 return 0;
2715 static int vortex_core_shutdown(vortex_t * vortex)
2718 printk(KERN_INFO "Vortex: shutdown...");
2719 #ifndef CHIP_AU8820
2720 vortex_eq_free(vortex);
2721 vortex_Vort3D_disable(vortex);
2722 #endif
2723 //vortex_disable_timer_int(vortex);
2724 vortex_disable_int(vortex);
2725 vortex_connect_default(vortex, 0);
2726 /* Reset all DMA fifos. */
2727 vortex_fifo_init(vortex);
2728 /* Erase all audio routes. */
2729 vortex_adb_init(vortex);
2731 /* Disable MPU401 */
2732 //hwwrite(vortex->mmio, VORTEX_IRQ_CTRL, hwread(vortex->mmio, VORTEX_IRQ_CTRL) & ~IRQ_MIDI);
2733 //hwwrite(vortex->mmio, VORTEX_CTRL, hwread(vortex->mmio, VORTEX_CTRL) & ~CTRL_MIDI_EN);
2735 hwwrite(vortex->mmio, VORTEX_IRQ_CTRL, 0);
2736 hwwrite(vortex->mmio, VORTEX_CTRL, 0);
2737 msleep(5);
2738 hwwrite(vortex->mmio, VORTEX_IRQ_SOURCE, 0xffff);
2740 printk(KERN_INFO "done.\n");
2741 return 0;
2744 /* Alsa support. */
2746 static int vortex_alsafmt_aspfmt(int alsafmt)
2748 int fmt;
2750 switch (alsafmt) {
2751 case SNDRV_PCM_FORMAT_U8:
2752 fmt = 0x1;
2753 break;
2754 case SNDRV_PCM_FORMAT_MU_LAW:
2755 fmt = 0x2;
2756 break;
2757 case SNDRV_PCM_FORMAT_A_LAW:
2758 fmt = 0x3;
2759 break;
2760 case SNDRV_PCM_FORMAT_SPECIAL:
2761 fmt = 0x4; /* guess. */
2762 break;
2763 case SNDRV_PCM_FORMAT_IEC958_SUBFRAME_LE:
2764 fmt = 0x5; /* guess. */
2765 break;
2766 case SNDRV_PCM_FORMAT_S16_LE:
2767 fmt = 0x8;
2768 break;
2769 case SNDRV_PCM_FORMAT_S16_BE:
2770 fmt = 0x9; /* check this... */
2771 break;
2772 default:
2773 fmt = 0x8;
2774 printk(KERN_ERR "vortex: format unsupported %d\n", alsafmt);
2775 break;
2777 return fmt;
2780 /* Some not yet useful translations. */
2781 #if 0
2782 typedef enum {
2783 ASPFMTLINEAR16 = 0, /* 0x8 */
2784 ASPFMTLINEAR8, /* 0x1 */
2785 ASPFMTULAW, /* 0x2 */
2786 ASPFMTALAW, /* 0x3 */
2787 ASPFMTSPORT, /* ? */
2788 ASPFMTSPDIF, /* ? */
2789 } ASPENCODING;
2791 static int
2792 vortex_translateformat(vortex_t * vortex, char bits, char nch, int encod)
2794 int a, this_194;
2796 if ((bits != 8) || (bits != 16))
2797 return -1;
2799 switch (encod) {
2800 case 0:
2801 if (bits == 0x10)
2802 a = 8; // 16 bit
2803 break;
2804 case 1:
2805 if (bits == 8)
2806 a = 1; // 8 bit
2807 break;
2808 case 2:
2809 a = 2; // U_LAW
2810 break;
2811 case 3:
2812 a = 3; // A_LAW
2813 break;
2815 switch (nch) {
2816 case 1:
2817 this_194 = 0;
2818 break;
2819 case 2:
2820 this_194 = 1;
2821 break;
2822 case 4:
2823 this_194 = 1;
2824 break;
2825 case 6:
2826 this_194 = 1;
2827 break;
2829 return (a);
2832 static void vortex_cdmacore_setformat(vortex_t * vortex, int bits, int nch)
2834 short int d, this_148;
2836 d = ((bits >> 3) * nch);
2837 this_148 = 0xbb80 / d;
2839 #endif