qemu-doc: Spelling fixes
[qemu/agraf.git] / hw / omap2.c
blob0f13272c7b43536ba693402cab8734c83024b6f1
1 /*
2 * TI OMAP processors emulation.
4 * Copyright (C) 2007-2008 Nokia Corporation
5 * Written by Andrzej Zaborowski <andrew@openedhand.com>
7 * This program is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License as
9 * published by the Free Software Foundation; either version 2 or
10 * (at your option) version 3 of the License.
12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License along
18 * with this program; if not, see <http://www.gnu.org/licenses/>.
21 #include "blockdev.h"
22 #include "hw.h"
23 #include "arm-misc.h"
24 #include "omap.h"
25 #include "sysemu.h"
26 #include "qemu-timer.h"
27 #include "qemu-char.h"
28 #include "flash.h"
29 #include "soc_dma.h"
30 #include "audio/audio.h"
32 /* Enhanced Audio Controller (CODEC only) */
33 struct omap_eac_s {
34 qemu_irq irq;
36 uint16_t sysconfig;
37 uint8_t config[4];
38 uint8_t control;
39 uint8_t address;
40 uint16_t data;
41 uint8_t vtol;
42 uint8_t vtsl;
43 uint16_t mixer;
44 uint16_t gain[4];
45 uint8_t att;
46 uint16_t max[7];
48 struct {
49 qemu_irq txdrq;
50 qemu_irq rxdrq;
51 uint32_t (*txrx)(void *opaque, uint32_t, int);
52 void *opaque;
54 #define EAC_BUF_LEN 1024
55 uint32_t rxbuf[EAC_BUF_LEN];
56 int rxoff;
57 int rxlen;
58 int rxavail;
59 uint32_t txbuf[EAC_BUF_LEN];
60 int txlen;
61 int txavail;
63 int enable;
64 int rate;
66 uint16_t config[4];
68 /* These need to be moved to the actual codec */
69 QEMUSoundCard card;
70 SWVoiceIn *in_voice;
71 SWVoiceOut *out_voice;
72 int hw_enable;
73 } codec;
75 struct {
76 uint8_t control;
77 uint16_t config;
78 } modem, bt;
81 static inline void omap_eac_interrupt_update(struct omap_eac_s *s)
83 qemu_set_irq(s->irq, (s->codec.config[1] >> 14) & 1); /* AURDI */
86 static inline void omap_eac_in_dmarequest_update(struct omap_eac_s *s)
88 qemu_set_irq(s->codec.rxdrq, (s->codec.rxavail || s->codec.rxlen) &&
89 ((s->codec.config[1] >> 12) & 1)); /* DMAREN */
92 static inline void omap_eac_out_dmarequest_update(struct omap_eac_s *s)
94 qemu_set_irq(s->codec.txdrq, s->codec.txlen < s->codec.txavail &&
95 ((s->codec.config[1] >> 11) & 1)); /* DMAWEN */
98 static inline void omap_eac_in_refill(struct omap_eac_s *s)
100 int left = MIN(EAC_BUF_LEN - s->codec.rxlen, s->codec.rxavail) << 2;
101 int start = ((s->codec.rxoff + s->codec.rxlen) & (EAC_BUF_LEN - 1)) << 2;
102 int leftwrap = MIN(left, (EAC_BUF_LEN << 2) - start);
103 int recv = 1;
104 uint8_t *buf = (uint8_t *) s->codec.rxbuf + start;
106 left -= leftwrap;
107 start = 0;
108 while (leftwrap && (recv = AUD_read(s->codec.in_voice, buf + start,
109 leftwrap)) > 0) { /* Be defensive */
110 start += recv;
111 leftwrap -= recv;
113 if (recv <= 0)
114 s->codec.rxavail = 0;
115 else
116 s->codec.rxavail -= start >> 2;
117 s->codec.rxlen += start >> 2;
119 if (recv > 0 && left > 0) {
120 start = 0;
121 while (left && (recv = AUD_read(s->codec.in_voice,
122 (uint8_t *) s->codec.rxbuf + start,
123 left)) > 0) { /* Be defensive */
124 start += recv;
125 left -= recv;
127 if (recv <= 0)
128 s->codec.rxavail = 0;
129 else
130 s->codec.rxavail -= start >> 2;
131 s->codec.rxlen += start >> 2;
135 static inline void omap_eac_out_empty(struct omap_eac_s *s)
137 int left = s->codec.txlen << 2;
138 int start = 0;
139 int sent = 1;
141 while (left && (sent = AUD_write(s->codec.out_voice,
142 (uint8_t *) s->codec.txbuf + start,
143 left)) > 0) { /* Be defensive */
144 start += sent;
145 left -= sent;
148 if (!sent) {
149 s->codec.txavail = 0;
150 omap_eac_out_dmarequest_update(s);
153 if (start)
154 s->codec.txlen = 0;
157 static void omap_eac_in_cb(void *opaque, int avail_b)
159 struct omap_eac_s *s = (struct omap_eac_s *) opaque;
161 s->codec.rxavail = avail_b >> 2;
162 omap_eac_in_refill(s);
163 /* TODO: possibly discard current buffer if overrun */
164 omap_eac_in_dmarequest_update(s);
167 static void omap_eac_out_cb(void *opaque, int free_b)
169 struct omap_eac_s *s = (struct omap_eac_s *) opaque;
171 s->codec.txavail = free_b >> 2;
172 if (s->codec.txlen)
173 omap_eac_out_empty(s);
174 else
175 omap_eac_out_dmarequest_update(s);
178 static void omap_eac_enable_update(struct omap_eac_s *s)
180 s->codec.enable = !(s->codec.config[1] & 1) && /* EACPWD */
181 (s->codec.config[1] & 2) && /* AUDEN */
182 s->codec.hw_enable;
185 static const int omap_eac_fsint[4] = {
186 8000,
187 11025,
188 22050,
189 44100,
192 static const int omap_eac_fsint2[8] = {
193 8000,
194 11025,
195 22050,
196 44100,
197 48000,
198 0, 0, 0,
201 static const int omap_eac_fsint3[16] = {
202 8000,
203 11025,
204 16000,
205 22050,
206 24000,
207 32000,
208 44100,
209 48000,
210 0, 0, 0, 0, 0, 0, 0, 0,
213 static void omap_eac_rate_update(struct omap_eac_s *s)
215 int fsint[3];
217 fsint[2] = (s->codec.config[3] >> 9) & 0xf;
218 fsint[1] = (s->codec.config[2] >> 0) & 0x7;
219 fsint[0] = (s->codec.config[0] >> 6) & 0x3;
220 if (fsint[2] < 0xf)
221 s->codec.rate = omap_eac_fsint3[fsint[2]];
222 else if (fsint[1] < 0x7)
223 s->codec.rate = omap_eac_fsint2[fsint[1]];
224 else
225 s->codec.rate = omap_eac_fsint[fsint[0]];
228 static void omap_eac_volume_update(struct omap_eac_s *s)
230 /* TODO */
233 static void omap_eac_format_update(struct omap_eac_s *s)
235 struct audsettings fmt;
237 /* The hardware buffers at most one sample */
238 if (s->codec.rxlen)
239 s->codec.rxlen = 1;
241 if (s->codec.in_voice) {
242 AUD_set_active_in(s->codec.in_voice, 0);
243 AUD_close_in(&s->codec.card, s->codec.in_voice);
244 s->codec.in_voice = NULL;
246 if (s->codec.out_voice) {
247 omap_eac_out_empty(s);
248 AUD_set_active_out(s->codec.out_voice, 0);
249 AUD_close_out(&s->codec.card, s->codec.out_voice);
250 s->codec.out_voice = NULL;
251 s->codec.txavail = 0;
253 /* Discard what couldn't be written */
254 s->codec.txlen = 0;
256 omap_eac_enable_update(s);
257 if (!s->codec.enable)
258 return;
260 omap_eac_rate_update(s);
261 fmt.endianness = ((s->codec.config[0] >> 8) & 1); /* LI_BI */
262 fmt.nchannels = ((s->codec.config[0] >> 10) & 1) ? 2 : 1; /* MN_ST */
263 fmt.freq = s->codec.rate;
264 /* TODO: signedness possibly depends on the CODEC hardware - or
265 * does I2S specify it? */
266 /* All register writes are 16 bits so we we store 16-bit samples
267 * in the buffers regardless of AGCFR[B8_16] value. */
268 fmt.fmt = AUD_FMT_U16;
270 s->codec.in_voice = AUD_open_in(&s->codec.card, s->codec.in_voice,
271 "eac.codec.in", s, omap_eac_in_cb, &fmt);
272 s->codec.out_voice = AUD_open_out(&s->codec.card, s->codec.out_voice,
273 "eac.codec.out", s, omap_eac_out_cb, &fmt);
275 omap_eac_volume_update(s);
277 AUD_set_active_in(s->codec.in_voice, 1);
278 AUD_set_active_out(s->codec.out_voice, 1);
281 static void omap_eac_reset(struct omap_eac_s *s)
283 s->sysconfig = 0;
284 s->config[0] = 0x0c;
285 s->config[1] = 0x09;
286 s->config[2] = 0xab;
287 s->config[3] = 0x03;
288 s->control = 0x00;
289 s->address = 0x00;
290 s->data = 0x0000;
291 s->vtol = 0x00;
292 s->vtsl = 0x00;
293 s->mixer = 0x0000;
294 s->gain[0] = 0xe7e7;
295 s->gain[1] = 0x6767;
296 s->gain[2] = 0x6767;
297 s->gain[3] = 0x6767;
298 s->att = 0xce;
299 s->max[0] = 0;
300 s->max[1] = 0;
301 s->max[2] = 0;
302 s->max[3] = 0;
303 s->max[4] = 0;
304 s->max[5] = 0;
305 s->max[6] = 0;
307 s->modem.control = 0x00;
308 s->modem.config = 0x0000;
309 s->bt.control = 0x00;
310 s->bt.config = 0x0000;
311 s->codec.config[0] = 0x0649;
312 s->codec.config[1] = 0x0000;
313 s->codec.config[2] = 0x0007;
314 s->codec.config[3] = 0x1ffc;
315 s->codec.rxoff = 0;
316 s->codec.rxlen = 0;
317 s->codec.txlen = 0;
318 s->codec.rxavail = 0;
319 s->codec.txavail = 0;
321 omap_eac_format_update(s);
322 omap_eac_interrupt_update(s);
325 static uint32_t omap_eac_read(void *opaque, target_phys_addr_t addr)
327 struct omap_eac_s *s = (struct omap_eac_s *) opaque;
328 uint32_t ret;
330 switch (addr) {
331 case 0x000: /* CPCFR1 */
332 return s->config[0];
333 case 0x004: /* CPCFR2 */
334 return s->config[1];
335 case 0x008: /* CPCFR3 */
336 return s->config[2];
337 case 0x00c: /* CPCFR4 */
338 return s->config[3];
340 case 0x010: /* CPTCTL */
341 return s->control | ((s->codec.rxavail + s->codec.rxlen > 0) << 7) |
342 ((s->codec.txlen < s->codec.txavail) << 5);
344 case 0x014: /* CPTTADR */
345 return s->address;
346 case 0x018: /* CPTDATL */
347 return s->data & 0xff;
348 case 0x01c: /* CPTDATH */
349 return s->data >> 8;
350 case 0x020: /* CPTVSLL */
351 return s->vtol;
352 case 0x024: /* CPTVSLH */
353 return s->vtsl | (3 << 5); /* CRDY1 | CRDY2 */
354 case 0x040: /* MPCTR */
355 return s->modem.control;
356 case 0x044: /* MPMCCFR */
357 return s->modem.config;
358 case 0x060: /* BPCTR */
359 return s->bt.control;
360 case 0x064: /* BPMCCFR */
361 return s->bt.config;
362 case 0x080: /* AMSCFR */
363 return s->mixer;
364 case 0x084: /* AMVCTR */
365 return s->gain[0];
366 case 0x088: /* AM1VCTR */
367 return s->gain[1];
368 case 0x08c: /* AM2VCTR */
369 return s->gain[2];
370 case 0x090: /* AM3VCTR */
371 return s->gain[3];
372 case 0x094: /* ASTCTR */
373 return s->att;
374 case 0x098: /* APD1LCR */
375 return s->max[0];
376 case 0x09c: /* APD1RCR */
377 return s->max[1];
378 case 0x0a0: /* APD2LCR */
379 return s->max[2];
380 case 0x0a4: /* APD2RCR */
381 return s->max[3];
382 case 0x0a8: /* APD3LCR */
383 return s->max[4];
384 case 0x0ac: /* APD3RCR */
385 return s->max[5];
386 case 0x0b0: /* APD4R */
387 return s->max[6];
388 case 0x0b4: /* ADWR */
389 /* This should be write-only? Docs list it as read-only. */
390 return 0x0000;
391 case 0x0b8: /* ADRDR */
392 if (likely(s->codec.rxlen > 1)) {
393 ret = s->codec.rxbuf[s->codec.rxoff ++];
394 s->codec.rxlen --;
395 s->codec.rxoff &= EAC_BUF_LEN - 1;
396 return ret;
397 } else if (s->codec.rxlen) {
398 ret = s->codec.rxbuf[s->codec.rxoff ++];
399 s->codec.rxlen --;
400 s->codec.rxoff &= EAC_BUF_LEN - 1;
401 if (s->codec.rxavail)
402 omap_eac_in_refill(s);
403 omap_eac_in_dmarequest_update(s);
404 return ret;
406 return 0x0000;
407 case 0x0bc: /* AGCFR */
408 return s->codec.config[0];
409 case 0x0c0: /* AGCTR */
410 return s->codec.config[1] | ((s->codec.config[1] & 2) << 14);
411 case 0x0c4: /* AGCFR2 */
412 return s->codec.config[2];
413 case 0x0c8: /* AGCFR3 */
414 return s->codec.config[3];
415 case 0x0cc: /* MBPDMACTR */
416 case 0x0d0: /* MPDDMARR */
417 case 0x0d8: /* MPUDMARR */
418 case 0x0e4: /* BPDDMARR */
419 case 0x0ec: /* BPUDMARR */
420 return 0x0000;
422 case 0x100: /* VERSION_NUMBER */
423 return 0x0010;
425 case 0x104: /* SYSCONFIG */
426 return s->sysconfig;
428 case 0x108: /* SYSSTATUS */
429 return 1 | 0xe; /* RESETDONE | stuff */
432 OMAP_BAD_REG(addr);
433 return 0;
436 static void omap_eac_write(void *opaque, target_phys_addr_t addr,
437 uint32_t value)
439 struct omap_eac_s *s = (struct omap_eac_s *) opaque;
441 switch (addr) {
442 case 0x098: /* APD1LCR */
443 case 0x09c: /* APD1RCR */
444 case 0x0a0: /* APD2LCR */
445 case 0x0a4: /* APD2RCR */
446 case 0x0a8: /* APD3LCR */
447 case 0x0ac: /* APD3RCR */
448 case 0x0b0: /* APD4R */
449 case 0x0b8: /* ADRDR */
450 case 0x0d0: /* MPDDMARR */
451 case 0x0d8: /* MPUDMARR */
452 case 0x0e4: /* BPDDMARR */
453 case 0x0ec: /* BPUDMARR */
454 case 0x100: /* VERSION_NUMBER */
455 case 0x108: /* SYSSTATUS */
456 OMAP_RO_REG(addr);
457 return;
459 case 0x000: /* CPCFR1 */
460 s->config[0] = value & 0xff;
461 omap_eac_format_update(s);
462 break;
463 case 0x004: /* CPCFR2 */
464 s->config[1] = value & 0xff;
465 omap_eac_format_update(s);
466 break;
467 case 0x008: /* CPCFR3 */
468 s->config[2] = value & 0xff;
469 omap_eac_format_update(s);
470 break;
471 case 0x00c: /* CPCFR4 */
472 s->config[3] = value & 0xff;
473 omap_eac_format_update(s);
474 break;
476 case 0x010: /* CPTCTL */
477 /* Assuming TXF and TXE bits are read-only... */
478 s->control = value & 0x5f;
479 omap_eac_interrupt_update(s);
480 break;
482 case 0x014: /* CPTTADR */
483 s->address = value & 0xff;
484 break;
485 case 0x018: /* CPTDATL */
486 s->data &= 0xff00;
487 s->data |= value & 0xff;
488 break;
489 case 0x01c: /* CPTDATH */
490 s->data &= 0x00ff;
491 s->data |= value << 8;
492 break;
493 case 0x020: /* CPTVSLL */
494 s->vtol = value & 0xf8;
495 break;
496 case 0x024: /* CPTVSLH */
497 s->vtsl = value & 0x9f;
498 break;
499 case 0x040: /* MPCTR */
500 s->modem.control = value & 0x8f;
501 break;
502 case 0x044: /* MPMCCFR */
503 s->modem.config = value & 0x7fff;
504 break;
505 case 0x060: /* BPCTR */
506 s->bt.control = value & 0x8f;
507 break;
508 case 0x064: /* BPMCCFR */
509 s->bt.config = value & 0x7fff;
510 break;
511 case 0x080: /* AMSCFR */
512 s->mixer = value & 0x0fff;
513 break;
514 case 0x084: /* AMVCTR */
515 s->gain[0] = value & 0xffff;
516 break;
517 case 0x088: /* AM1VCTR */
518 s->gain[1] = value & 0xff7f;
519 break;
520 case 0x08c: /* AM2VCTR */
521 s->gain[2] = value & 0xff7f;
522 break;
523 case 0x090: /* AM3VCTR */
524 s->gain[3] = value & 0xff7f;
525 break;
526 case 0x094: /* ASTCTR */
527 s->att = value & 0xff;
528 break;
530 case 0x0b4: /* ADWR */
531 s->codec.txbuf[s->codec.txlen ++] = value;
532 if (unlikely(s->codec.txlen == EAC_BUF_LEN ||
533 s->codec.txlen == s->codec.txavail)) {
534 if (s->codec.txavail)
535 omap_eac_out_empty(s);
536 /* Discard what couldn't be written */
537 s->codec.txlen = 0;
539 break;
541 case 0x0bc: /* AGCFR */
542 s->codec.config[0] = value & 0x07ff;
543 omap_eac_format_update(s);
544 break;
545 case 0x0c0: /* AGCTR */
546 s->codec.config[1] = value & 0x780f;
547 omap_eac_format_update(s);
548 break;
549 case 0x0c4: /* AGCFR2 */
550 s->codec.config[2] = value & 0x003f;
551 omap_eac_format_update(s);
552 break;
553 case 0x0c8: /* AGCFR3 */
554 s->codec.config[3] = value & 0xffff;
555 omap_eac_format_update(s);
556 break;
557 case 0x0cc: /* MBPDMACTR */
558 case 0x0d4: /* MPDDMAWR */
559 case 0x0e0: /* MPUDMAWR */
560 case 0x0e8: /* BPDDMAWR */
561 case 0x0f0: /* BPUDMAWR */
562 break;
564 case 0x104: /* SYSCONFIG */
565 if (value & (1 << 1)) /* SOFTRESET */
566 omap_eac_reset(s);
567 s->sysconfig = value & 0x31d;
568 break;
570 default:
571 OMAP_BAD_REG(addr);
572 return;
576 static CPUReadMemoryFunc * const omap_eac_readfn[] = {
577 omap_badwidth_read16,
578 omap_eac_read,
579 omap_badwidth_read16,
582 static CPUWriteMemoryFunc * const omap_eac_writefn[] = {
583 omap_badwidth_write16,
584 omap_eac_write,
585 omap_badwidth_write16,
588 static struct omap_eac_s *omap_eac_init(struct omap_target_agent_s *ta,
589 qemu_irq irq, qemu_irq *drq, omap_clk fclk, omap_clk iclk)
591 int iomemtype;
592 struct omap_eac_s *s = (struct omap_eac_s *)
593 qemu_mallocz(sizeof(struct omap_eac_s));
595 s->irq = irq;
596 s->codec.rxdrq = *drq ++;
597 s->codec.txdrq = *drq;
598 omap_eac_reset(s);
600 AUD_register_card("OMAP EAC", &s->codec.card);
602 iomemtype = cpu_register_io_memory(omap_eac_readfn,
603 omap_eac_writefn, s, DEVICE_NATIVE_ENDIAN);
604 omap_l4_attach(ta, 0, iomemtype);
606 return s;
609 /* STI/XTI (emulation interface) console - reverse engineered only */
610 struct omap_sti_s {
611 qemu_irq irq;
612 CharDriverState *chr;
614 uint32_t sysconfig;
615 uint32_t systest;
616 uint32_t irqst;
617 uint32_t irqen;
618 uint32_t clkcontrol;
619 uint32_t serial_config;
622 #define STI_TRACE_CONSOLE_CHANNEL 239
623 #define STI_TRACE_CONTROL_CHANNEL 253
625 static inline void omap_sti_interrupt_update(struct omap_sti_s *s)
627 qemu_set_irq(s->irq, s->irqst & s->irqen);
630 static void omap_sti_reset(struct omap_sti_s *s)
632 s->sysconfig = 0;
633 s->irqst = 0;
634 s->irqen = 0;
635 s->clkcontrol = 0;
636 s->serial_config = 0;
638 omap_sti_interrupt_update(s);
641 static uint32_t omap_sti_read(void *opaque, target_phys_addr_t addr)
643 struct omap_sti_s *s = (struct omap_sti_s *) opaque;
645 switch (addr) {
646 case 0x00: /* STI_REVISION */
647 return 0x10;
649 case 0x10: /* STI_SYSCONFIG */
650 return s->sysconfig;
652 case 0x14: /* STI_SYSSTATUS / STI_RX_STATUS / XTI_SYSSTATUS */
653 return 0x00;
655 case 0x18: /* STI_IRQSTATUS */
656 return s->irqst;
658 case 0x1c: /* STI_IRQSETEN / STI_IRQCLREN */
659 return s->irqen;
661 case 0x24: /* STI_ER / STI_DR / XTI_TRACESELECT */
662 case 0x28: /* STI_RX_DR / XTI_RXDATA */
663 /* TODO */
664 return 0;
666 case 0x2c: /* STI_CLK_CTRL / XTI_SCLKCRTL */
667 return s->clkcontrol;
669 case 0x30: /* STI_SERIAL_CFG / XTI_SCONFIG */
670 return s->serial_config;
673 OMAP_BAD_REG(addr);
674 return 0;
677 static void omap_sti_write(void *opaque, target_phys_addr_t addr,
678 uint32_t value)
680 struct omap_sti_s *s = (struct omap_sti_s *) opaque;
682 switch (addr) {
683 case 0x00: /* STI_REVISION */
684 case 0x14: /* STI_SYSSTATUS / STI_RX_STATUS / XTI_SYSSTATUS */
685 OMAP_RO_REG(addr);
686 return;
688 case 0x10: /* STI_SYSCONFIG */
689 if (value & (1 << 1)) /* SOFTRESET */
690 omap_sti_reset(s);
691 s->sysconfig = value & 0xfe;
692 break;
694 case 0x18: /* STI_IRQSTATUS */
695 s->irqst &= ~value;
696 omap_sti_interrupt_update(s);
697 break;
699 case 0x1c: /* STI_IRQSETEN / STI_IRQCLREN */
700 s->irqen = value & 0xffff;
701 omap_sti_interrupt_update(s);
702 break;
704 case 0x2c: /* STI_CLK_CTRL / XTI_SCLKCRTL */
705 s->clkcontrol = value & 0xff;
706 break;
708 case 0x30: /* STI_SERIAL_CFG / XTI_SCONFIG */
709 s->serial_config = value & 0xff;
710 break;
712 case 0x24: /* STI_ER / STI_DR / XTI_TRACESELECT */
713 case 0x28: /* STI_RX_DR / XTI_RXDATA */
714 /* TODO */
715 return;
717 default:
718 OMAP_BAD_REG(addr);
719 return;
723 static CPUReadMemoryFunc * const omap_sti_readfn[] = {
724 omap_badwidth_read32,
725 omap_badwidth_read32,
726 omap_sti_read,
729 static CPUWriteMemoryFunc * const omap_sti_writefn[] = {
730 omap_badwidth_write32,
731 omap_badwidth_write32,
732 omap_sti_write,
735 static uint32_t omap_sti_fifo_read(void *opaque, target_phys_addr_t addr)
737 OMAP_BAD_REG(addr);
738 return 0;
741 static void omap_sti_fifo_write(void *opaque, target_phys_addr_t addr,
742 uint32_t value)
744 struct omap_sti_s *s = (struct omap_sti_s *) opaque;
745 int ch = addr >> 6;
746 uint8_t byte = value;
748 if (ch == STI_TRACE_CONTROL_CHANNEL) {
749 /* Flush channel <i>value</i>. */
750 qemu_chr_write(s->chr, (const uint8_t *) "\r", 1);
751 } else if (ch == STI_TRACE_CONSOLE_CHANNEL || 1) {
752 if (value == 0xc0 || value == 0xc3) {
753 /* Open channel <i>ch</i>. */
754 } else if (value == 0x00)
755 qemu_chr_write(s->chr, (const uint8_t *) "\n", 1);
756 else
757 qemu_chr_write(s->chr, &byte, 1);
761 static CPUReadMemoryFunc * const omap_sti_fifo_readfn[] = {
762 omap_sti_fifo_read,
763 omap_badwidth_read8,
764 omap_badwidth_read8,
767 static CPUWriteMemoryFunc * const omap_sti_fifo_writefn[] = {
768 omap_sti_fifo_write,
769 omap_badwidth_write8,
770 omap_badwidth_write8,
773 static struct omap_sti_s *omap_sti_init(struct omap_target_agent_s *ta,
774 target_phys_addr_t channel_base, qemu_irq irq, omap_clk clk,
775 CharDriverState *chr)
777 int iomemtype;
778 struct omap_sti_s *s = (struct omap_sti_s *)
779 qemu_mallocz(sizeof(struct omap_sti_s));
781 s->irq = irq;
782 omap_sti_reset(s);
784 s->chr = chr ?: qemu_chr_open("null", "null", NULL);
786 iomemtype = l4_register_io_memory(omap_sti_readfn,
787 omap_sti_writefn, s);
788 omap_l4_attach(ta, 0, iomemtype);
790 iomemtype = cpu_register_io_memory(omap_sti_fifo_readfn,
791 omap_sti_fifo_writefn, s, DEVICE_NATIVE_ENDIAN);
792 cpu_register_physical_memory(channel_base, 0x10000, iomemtype);
794 return s;
797 /* L4 Interconnect */
798 #define L4TA(n) (n)
799 #define L4TAO(n) ((n) + 39)
801 static const struct omap_l4_region_s omap_l4_region[125] = {
802 [ 1] = { 0x40800, 0x800, 32 }, /* Initiator agent */
803 [ 2] = { 0x41000, 0x1000, 32 }, /* Link agent */
804 [ 0] = { 0x40000, 0x800, 32 }, /* Address and protection */
805 [ 3] = { 0x00000, 0x1000, 32 | 16 | 8 }, /* System Control and Pinout */
806 [ 4] = { 0x01000, 0x1000, 32 | 16 | 8 }, /* L4TAO1 */
807 [ 5] = { 0x04000, 0x1000, 32 | 16 }, /* 32K Timer */
808 [ 6] = { 0x05000, 0x1000, 32 | 16 | 8 }, /* L4TAO2 */
809 [ 7] = { 0x08000, 0x800, 32 }, /* PRCM Region A */
810 [ 8] = { 0x08800, 0x800, 32 }, /* PRCM Region B */
811 [ 9] = { 0x09000, 0x1000, 32 | 16 | 8 }, /* L4TAO */
812 [ 10] = { 0x12000, 0x1000, 32 | 16 | 8 }, /* Test (BCM) */
813 [ 11] = { 0x13000, 0x1000, 32 | 16 | 8 }, /* L4TA1 */
814 [ 12] = { 0x14000, 0x1000, 32 }, /* Test/emulation (TAP) */
815 [ 13] = { 0x15000, 0x1000, 32 | 16 | 8 }, /* L4TA2 */
816 [ 14] = { 0x18000, 0x1000, 32 | 16 | 8 }, /* GPIO1 */
817 [ 16] = { 0x1a000, 0x1000, 32 | 16 | 8 }, /* GPIO2 */
818 [ 18] = { 0x1c000, 0x1000, 32 | 16 | 8 }, /* GPIO3 */
819 [ 19] = { 0x1e000, 0x1000, 32 | 16 | 8 }, /* GPIO4 */
820 [ 15] = { 0x19000, 0x1000, 32 | 16 | 8 }, /* Quad GPIO TOP */
821 [ 17] = { 0x1b000, 0x1000, 32 | 16 | 8 }, /* L4TA3 */
822 [ 20] = { 0x20000, 0x1000, 32 | 16 | 8 }, /* WD Timer 1 (Secure) */
823 [ 22] = { 0x22000, 0x1000, 32 | 16 | 8 }, /* WD Timer 2 (OMAP) */
824 [ 21] = { 0x21000, 0x1000, 32 | 16 | 8 }, /* Dual WD timer TOP */
825 [ 23] = { 0x23000, 0x1000, 32 | 16 | 8 }, /* L4TA4 */
826 [ 24] = { 0x28000, 0x1000, 32 | 16 | 8 }, /* GP Timer 1 */
827 [ 25] = { 0x29000, 0x1000, 32 | 16 | 8 }, /* L4TA7 */
828 [ 26] = { 0x48000, 0x2000, 32 | 16 | 8 }, /* Emulation (ARM11ETB) */
829 [ 27] = { 0x4a000, 0x1000, 32 | 16 | 8 }, /* L4TA9 */
830 [ 28] = { 0x50000, 0x400, 32 | 16 | 8 }, /* Display top */
831 [ 29] = { 0x50400, 0x400, 32 | 16 | 8 }, /* Display control */
832 [ 30] = { 0x50800, 0x400, 32 | 16 | 8 }, /* Display RFBI */
833 [ 31] = { 0x50c00, 0x400, 32 | 16 | 8 }, /* Display encoder */
834 [ 32] = { 0x51000, 0x1000, 32 | 16 | 8 }, /* L4TA10 */
835 [ 33] = { 0x52000, 0x400, 32 | 16 | 8 }, /* Camera top */
836 [ 34] = { 0x52400, 0x400, 32 | 16 | 8 }, /* Camera core */
837 [ 35] = { 0x52800, 0x400, 32 | 16 | 8 }, /* Camera DMA */
838 [ 36] = { 0x52c00, 0x400, 32 | 16 | 8 }, /* Camera MMU */
839 [ 37] = { 0x53000, 0x1000, 32 | 16 | 8 }, /* L4TA11 */
840 [ 38] = { 0x56000, 0x1000, 32 | 16 | 8 }, /* sDMA */
841 [ 39] = { 0x57000, 0x1000, 32 | 16 | 8 }, /* L4TA12 */
842 [ 40] = { 0x58000, 0x1000, 32 | 16 | 8 }, /* SSI top */
843 [ 41] = { 0x59000, 0x1000, 32 | 16 | 8 }, /* SSI GDD */
844 [ 42] = { 0x5a000, 0x1000, 32 | 16 | 8 }, /* SSI Port1 */
845 [ 43] = { 0x5b000, 0x1000, 32 | 16 | 8 }, /* SSI Port2 */
846 [ 44] = { 0x5c000, 0x1000, 32 | 16 | 8 }, /* L4TA13 */
847 [ 45] = { 0x5e000, 0x1000, 32 | 16 | 8 }, /* USB OTG */
848 [ 46] = { 0x5f000, 0x1000, 32 | 16 | 8 }, /* L4TAO4 */
849 [ 47] = { 0x60000, 0x1000, 32 | 16 | 8 }, /* Emulation (WIN_TRACER1SDRC) */
850 [ 48] = { 0x61000, 0x1000, 32 | 16 | 8 }, /* L4TA14 */
851 [ 49] = { 0x62000, 0x1000, 32 | 16 | 8 }, /* Emulation (WIN_TRACER2GPMC) */
852 [ 50] = { 0x63000, 0x1000, 32 | 16 | 8 }, /* L4TA15 */
853 [ 51] = { 0x64000, 0x1000, 32 | 16 | 8 }, /* Emulation (WIN_TRACER3OCM) */
854 [ 52] = { 0x65000, 0x1000, 32 | 16 | 8 }, /* L4TA16 */
855 [ 53] = { 0x66000, 0x300, 32 | 16 | 8 }, /* Emulation (WIN_TRACER4L4) */
856 [ 54] = { 0x67000, 0x1000, 32 | 16 | 8 }, /* L4TA17 */
857 [ 55] = { 0x68000, 0x1000, 32 | 16 | 8 }, /* Emulation (XTI) */
858 [ 56] = { 0x69000, 0x1000, 32 | 16 | 8 }, /* L4TA18 */
859 [ 57] = { 0x6a000, 0x1000, 16 | 8 }, /* UART1 */
860 [ 58] = { 0x6b000, 0x1000, 32 | 16 | 8 }, /* L4TA19 */
861 [ 59] = { 0x6c000, 0x1000, 16 | 8 }, /* UART2 */
862 [ 60] = { 0x6d000, 0x1000, 32 | 16 | 8 }, /* L4TA20 */
863 [ 61] = { 0x6e000, 0x1000, 16 | 8 }, /* UART3 */
864 [ 62] = { 0x6f000, 0x1000, 32 | 16 | 8 }, /* L4TA21 */
865 [ 63] = { 0x70000, 0x1000, 16 }, /* I2C1 */
866 [ 64] = { 0x71000, 0x1000, 32 | 16 | 8 }, /* L4TAO5 */
867 [ 65] = { 0x72000, 0x1000, 16 }, /* I2C2 */
868 [ 66] = { 0x73000, 0x1000, 32 | 16 | 8 }, /* L4TAO6 */
869 [ 67] = { 0x74000, 0x1000, 16 }, /* McBSP1 */
870 [ 68] = { 0x75000, 0x1000, 32 | 16 | 8 }, /* L4TAO7 */
871 [ 69] = { 0x76000, 0x1000, 16 }, /* McBSP2 */
872 [ 70] = { 0x77000, 0x1000, 32 | 16 | 8 }, /* L4TAO8 */
873 [ 71] = { 0x24000, 0x1000, 32 | 16 | 8 }, /* WD Timer 3 (DSP) */
874 [ 72] = { 0x25000, 0x1000, 32 | 16 | 8 }, /* L4TA5 */
875 [ 73] = { 0x26000, 0x1000, 32 | 16 | 8 }, /* WD Timer 4 (IVA) */
876 [ 74] = { 0x27000, 0x1000, 32 | 16 | 8 }, /* L4TA6 */
877 [ 75] = { 0x2a000, 0x1000, 32 | 16 | 8 }, /* GP Timer 2 */
878 [ 76] = { 0x2b000, 0x1000, 32 | 16 | 8 }, /* L4TA8 */
879 [ 77] = { 0x78000, 0x1000, 32 | 16 | 8 }, /* GP Timer 3 */
880 [ 78] = { 0x79000, 0x1000, 32 | 16 | 8 }, /* L4TA22 */
881 [ 79] = { 0x7a000, 0x1000, 32 | 16 | 8 }, /* GP Timer 4 */
882 [ 80] = { 0x7b000, 0x1000, 32 | 16 | 8 }, /* L4TA23 */
883 [ 81] = { 0x7c000, 0x1000, 32 | 16 | 8 }, /* GP Timer 5 */
884 [ 82] = { 0x7d000, 0x1000, 32 | 16 | 8 }, /* L4TA24 */
885 [ 83] = { 0x7e000, 0x1000, 32 | 16 | 8 }, /* GP Timer 6 */
886 [ 84] = { 0x7f000, 0x1000, 32 | 16 | 8 }, /* L4TA25 */
887 [ 85] = { 0x80000, 0x1000, 32 | 16 | 8 }, /* GP Timer 7 */
888 [ 86] = { 0x81000, 0x1000, 32 | 16 | 8 }, /* L4TA26 */
889 [ 87] = { 0x82000, 0x1000, 32 | 16 | 8 }, /* GP Timer 8 */
890 [ 88] = { 0x83000, 0x1000, 32 | 16 | 8 }, /* L4TA27 */
891 [ 89] = { 0x84000, 0x1000, 32 | 16 | 8 }, /* GP Timer 9 */
892 [ 90] = { 0x85000, 0x1000, 32 | 16 | 8 }, /* L4TA28 */
893 [ 91] = { 0x86000, 0x1000, 32 | 16 | 8 }, /* GP Timer 10 */
894 [ 92] = { 0x87000, 0x1000, 32 | 16 | 8 }, /* L4TA29 */
895 [ 93] = { 0x88000, 0x1000, 32 | 16 | 8 }, /* GP Timer 11 */
896 [ 94] = { 0x89000, 0x1000, 32 | 16 | 8 }, /* L4TA30 */
897 [ 95] = { 0x8a000, 0x1000, 32 | 16 | 8 }, /* GP Timer 12 */
898 [ 96] = { 0x8b000, 0x1000, 32 | 16 | 8 }, /* L4TA31 */
899 [ 97] = { 0x90000, 0x1000, 16 }, /* EAC */
900 [ 98] = { 0x91000, 0x1000, 32 | 16 | 8 }, /* L4TA32 */
901 [ 99] = { 0x92000, 0x1000, 16 }, /* FAC */
902 [100] = { 0x93000, 0x1000, 32 | 16 | 8 }, /* L4TA33 */
903 [101] = { 0x94000, 0x1000, 32 | 16 | 8 }, /* IPC (MAILBOX) */
904 [102] = { 0x95000, 0x1000, 32 | 16 | 8 }, /* L4TA34 */
905 [103] = { 0x98000, 0x1000, 32 | 16 | 8 }, /* SPI1 */
906 [104] = { 0x99000, 0x1000, 32 | 16 | 8 }, /* L4TA35 */
907 [105] = { 0x9a000, 0x1000, 32 | 16 | 8 }, /* SPI2 */
908 [106] = { 0x9b000, 0x1000, 32 | 16 | 8 }, /* L4TA36 */
909 [107] = { 0x9c000, 0x1000, 16 | 8 }, /* MMC SDIO */
910 [108] = { 0x9d000, 0x1000, 32 | 16 | 8 }, /* L4TAO9 */
911 [109] = { 0x9e000, 0x1000, 32 | 16 | 8 }, /* MS_PRO */
912 [110] = { 0x9f000, 0x1000, 32 | 16 | 8 }, /* L4TAO10 */
913 [111] = { 0xa0000, 0x1000, 32 }, /* RNG */
914 [112] = { 0xa1000, 0x1000, 32 | 16 | 8 }, /* L4TAO11 */
915 [113] = { 0xa2000, 0x1000, 32 }, /* DES3DES */
916 [114] = { 0xa3000, 0x1000, 32 | 16 | 8 }, /* L4TAO12 */
917 [115] = { 0xa4000, 0x1000, 32 }, /* SHA1MD5 */
918 [116] = { 0xa5000, 0x1000, 32 | 16 | 8 }, /* L4TAO13 */
919 [117] = { 0xa6000, 0x1000, 32 }, /* AES */
920 [118] = { 0xa7000, 0x1000, 32 | 16 | 8 }, /* L4TA37 */
921 [119] = { 0xa8000, 0x2000, 32 }, /* PKA */
922 [120] = { 0xaa000, 0x1000, 32 | 16 | 8 }, /* L4TA38 */
923 [121] = { 0xb0000, 0x1000, 32 }, /* MG */
924 [122] = { 0xb1000, 0x1000, 32 | 16 | 8 },
925 [123] = { 0xb2000, 0x1000, 32 }, /* HDQ/1-Wire */
926 [124] = { 0xb3000, 0x1000, 32 | 16 | 8 }, /* L4TA39 */
929 static const struct omap_l4_agent_info_s omap_l4_agent_info[54] = {
930 { 0, 0, 3, 2 }, /* L4IA initiatior agent */
931 { L4TAO(1), 3, 2, 1 }, /* Control and pinout module */
932 { L4TAO(2), 5, 2, 1 }, /* 32K timer */
933 { L4TAO(3), 7, 3, 2 }, /* PRCM */
934 { L4TA(1), 10, 2, 1 }, /* BCM */
935 { L4TA(2), 12, 2, 1 }, /* Test JTAG */
936 { L4TA(3), 14, 6, 3 }, /* Quad GPIO */
937 { L4TA(4), 20, 4, 3 }, /* WD timer 1/2 */
938 { L4TA(7), 24, 2, 1 }, /* GP timer 1 */
939 { L4TA(9), 26, 2, 1 }, /* ATM11 ETB */
940 { L4TA(10), 28, 5, 4 }, /* Display subsystem */
941 { L4TA(11), 33, 5, 4 }, /* Camera subsystem */
942 { L4TA(12), 38, 2, 1 }, /* sDMA */
943 { L4TA(13), 40, 5, 4 }, /* SSI */
944 { L4TAO(4), 45, 2, 1 }, /* USB */
945 { L4TA(14), 47, 2, 1 }, /* Win Tracer1 */
946 { L4TA(15), 49, 2, 1 }, /* Win Tracer2 */
947 { L4TA(16), 51, 2, 1 }, /* Win Tracer3 */
948 { L4TA(17), 53, 2, 1 }, /* Win Tracer4 */
949 { L4TA(18), 55, 2, 1 }, /* XTI */
950 { L4TA(19), 57, 2, 1 }, /* UART1 */
951 { L4TA(20), 59, 2, 1 }, /* UART2 */
952 { L4TA(21), 61, 2, 1 }, /* UART3 */
953 { L4TAO(5), 63, 2, 1 }, /* I2C1 */
954 { L4TAO(6), 65, 2, 1 }, /* I2C2 */
955 { L4TAO(7), 67, 2, 1 }, /* McBSP1 */
956 { L4TAO(8), 69, 2, 1 }, /* McBSP2 */
957 { L4TA(5), 71, 2, 1 }, /* WD Timer 3 (DSP) */
958 { L4TA(6), 73, 2, 1 }, /* WD Timer 4 (IVA) */
959 { L4TA(8), 75, 2, 1 }, /* GP Timer 2 */
960 { L4TA(22), 77, 2, 1 }, /* GP Timer 3 */
961 { L4TA(23), 79, 2, 1 }, /* GP Timer 4 */
962 { L4TA(24), 81, 2, 1 }, /* GP Timer 5 */
963 { L4TA(25), 83, 2, 1 }, /* GP Timer 6 */
964 { L4TA(26), 85, 2, 1 }, /* GP Timer 7 */
965 { L4TA(27), 87, 2, 1 }, /* GP Timer 8 */
966 { L4TA(28), 89, 2, 1 }, /* GP Timer 9 */
967 { L4TA(29), 91, 2, 1 }, /* GP Timer 10 */
968 { L4TA(30), 93, 2, 1 }, /* GP Timer 11 */
969 { L4TA(31), 95, 2, 1 }, /* GP Timer 12 */
970 { L4TA(32), 97, 2, 1 }, /* EAC */
971 { L4TA(33), 99, 2, 1 }, /* FAC */
972 { L4TA(34), 101, 2, 1 }, /* IPC */
973 { L4TA(35), 103, 2, 1 }, /* SPI1 */
974 { L4TA(36), 105, 2, 1 }, /* SPI2 */
975 { L4TAO(9), 107, 2, 1 }, /* MMC SDIO */
976 { L4TAO(10), 109, 2, 1 },
977 { L4TAO(11), 111, 2, 1 }, /* RNG */
978 { L4TAO(12), 113, 2, 1 }, /* DES3DES */
979 { L4TAO(13), 115, 2, 1 }, /* SHA1MD5 */
980 { L4TA(37), 117, 2, 1 }, /* AES */
981 { L4TA(38), 119, 2, 1 }, /* PKA */
982 { -1, 121, 2, 1 },
983 { L4TA(39), 123, 2, 1 }, /* HDQ/1-Wire */
986 #define omap_l4ta(bus, cs) \
987 omap_l4ta_get(bus, omap_l4_region, omap_l4_agent_info, L4TA(cs))
988 #define omap_l4tao(bus, cs) \
989 omap_l4ta_get(bus, omap_l4_region, omap_l4_agent_info, L4TAO(cs))
991 /* Power, Reset, and Clock Management */
992 struct omap_prcm_s {
993 qemu_irq irq[3];
994 struct omap_mpu_state_s *mpu;
996 uint32_t irqst[3];
997 uint32_t irqen[3];
999 uint32_t sysconfig;
1000 uint32_t voltctrl;
1001 uint32_t scratch[20];
1003 uint32_t clksrc[1];
1004 uint32_t clkout[1];
1005 uint32_t clkemul[1];
1006 uint32_t clkpol[1];
1007 uint32_t clksel[8];
1008 uint32_t clken[12];
1009 uint32_t clkctrl[4];
1010 uint32_t clkidle[7];
1011 uint32_t setuptime[2];
1013 uint32_t wkup[3];
1014 uint32_t wken[3];
1015 uint32_t wkst[3];
1016 uint32_t rst[4];
1017 uint32_t rstctrl[1];
1018 uint32_t power[4];
1019 uint32_t rsttime_wkup;
1021 uint32_t ev;
1022 uint32_t evtime[2];
1024 int dpll_lock, apll_lock[2];
1027 static void omap_prcm_int_update(struct omap_prcm_s *s, int dom)
1029 qemu_set_irq(s->irq[dom], s->irqst[dom] & s->irqen[dom]);
1030 /* XXX or is the mask applied before PRCM_IRQSTATUS_* ? */
1033 static uint32_t omap_prcm_read(void *opaque, target_phys_addr_t addr)
1035 struct omap_prcm_s *s = (struct omap_prcm_s *) opaque;
1036 uint32_t ret;
1038 switch (addr) {
1039 case 0x000: /* PRCM_REVISION */
1040 return 0x10;
1042 case 0x010: /* PRCM_SYSCONFIG */
1043 return s->sysconfig;
1045 case 0x018: /* PRCM_IRQSTATUS_MPU */
1046 return s->irqst[0];
1048 case 0x01c: /* PRCM_IRQENABLE_MPU */
1049 return s->irqen[0];
1051 case 0x050: /* PRCM_VOLTCTRL */
1052 return s->voltctrl;
1053 case 0x054: /* PRCM_VOLTST */
1054 return s->voltctrl & 3;
1056 case 0x060: /* PRCM_CLKSRC_CTRL */
1057 return s->clksrc[0];
1058 case 0x070: /* PRCM_CLKOUT_CTRL */
1059 return s->clkout[0];
1060 case 0x078: /* PRCM_CLKEMUL_CTRL */
1061 return s->clkemul[0];
1062 case 0x080: /* PRCM_CLKCFG_CTRL */
1063 case 0x084: /* PRCM_CLKCFG_STATUS */
1064 return 0;
1066 case 0x090: /* PRCM_VOLTSETUP */
1067 return s->setuptime[0];
1069 case 0x094: /* PRCM_CLKSSETUP */
1070 return s->setuptime[1];
1072 case 0x098: /* PRCM_POLCTRL */
1073 return s->clkpol[0];
1075 case 0x0b0: /* GENERAL_PURPOSE1 */
1076 case 0x0b4: /* GENERAL_PURPOSE2 */
1077 case 0x0b8: /* GENERAL_PURPOSE3 */
1078 case 0x0bc: /* GENERAL_PURPOSE4 */
1079 case 0x0c0: /* GENERAL_PURPOSE5 */
1080 case 0x0c4: /* GENERAL_PURPOSE6 */
1081 case 0x0c8: /* GENERAL_PURPOSE7 */
1082 case 0x0cc: /* GENERAL_PURPOSE8 */
1083 case 0x0d0: /* GENERAL_PURPOSE9 */
1084 case 0x0d4: /* GENERAL_PURPOSE10 */
1085 case 0x0d8: /* GENERAL_PURPOSE11 */
1086 case 0x0dc: /* GENERAL_PURPOSE12 */
1087 case 0x0e0: /* GENERAL_PURPOSE13 */
1088 case 0x0e4: /* GENERAL_PURPOSE14 */
1089 case 0x0e8: /* GENERAL_PURPOSE15 */
1090 case 0x0ec: /* GENERAL_PURPOSE16 */
1091 case 0x0f0: /* GENERAL_PURPOSE17 */
1092 case 0x0f4: /* GENERAL_PURPOSE18 */
1093 case 0x0f8: /* GENERAL_PURPOSE19 */
1094 case 0x0fc: /* GENERAL_PURPOSE20 */
1095 return s->scratch[(addr - 0xb0) >> 2];
1097 case 0x140: /* CM_CLKSEL_MPU */
1098 return s->clksel[0];
1099 case 0x148: /* CM_CLKSTCTRL_MPU */
1100 return s->clkctrl[0];
1102 case 0x158: /* RM_RSTST_MPU */
1103 return s->rst[0];
1104 case 0x1c8: /* PM_WKDEP_MPU */
1105 return s->wkup[0];
1106 case 0x1d4: /* PM_EVGENCTRL_MPU */
1107 return s->ev;
1108 case 0x1d8: /* PM_EVEGENONTIM_MPU */
1109 return s->evtime[0];
1110 case 0x1dc: /* PM_EVEGENOFFTIM_MPU */
1111 return s->evtime[1];
1112 case 0x1e0: /* PM_PWSTCTRL_MPU */
1113 return s->power[0];
1114 case 0x1e4: /* PM_PWSTST_MPU */
1115 return 0;
1117 case 0x200: /* CM_FCLKEN1_CORE */
1118 return s->clken[0];
1119 case 0x204: /* CM_FCLKEN2_CORE */
1120 return s->clken[1];
1121 case 0x210: /* CM_ICLKEN1_CORE */
1122 return s->clken[2];
1123 case 0x214: /* CM_ICLKEN2_CORE */
1124 return s->clken[3];
1125 case 0x21c: /* CM_ICLKEN4_CORE */
1126 return s->clken[4];
1128 case 0x220: /* CM_IDLEST1_CORE */
1129 /* TODO: check the actual iclk status */
1130 return 0x7ffffff9;
1131 case 0x224: /* CM_IDLEST2_CORE */
1132 /* TODO: check the actual iclk status */
1133 return 0x00000007;
1134 case 0x22c: /* CM_IDLEST4_CORE */
1135 /* TODO: check the actual iclk status */
1136 return 0x0000001f;
1138 case 0x230: /* CM_AUTOIDLE1_CORE */
1139 return s->clkidle[0];
1140 case 0x234: /* CM_AUTOIDLE2_CORE */
1141 return s->clkidle[1];
1142 case 0x238: /* CM_AUTOIDLE3_CORE */
1143 return s->clkidle[2];
1144 case 0x23c: /* CM_AUTOIDLE4_CORE */
1145 return s->clkidle[3];
1147 case 0x240: /* CM_CLKSEL1_CORE */
1148 return s->clksel[1];
1149 case 0x244: /* CM_CLKSEL2_CORE */
1150 return s->clksel[2];
1152 case 0x248: /* CM_CLKSTCTRL_CORE */
1153 return s->clkctrl[1];
1155 case 0x2a0: /* PM_WKEN1_CORE */
1156 return s->wken[0];
1157 case 0x2a4: /* PM_WKEN2_CORE */
1158 return s->wken[1];
1160 case 0x2b0: /* PM_WKST1_CORE */
1161 return s->wkst[0];
1162 case 0x2b4: /* PM_WKST2_CORE */
1163 return s->wkst[1];
1164 case 0x2c8: /* PM_WKDEP_CORE */
1165 return 0x1e;
1167 case 0x2e0: /* PM_PWSTCTRL_CORE */
1168 return s->power[1];
1169 case 0x2e4: /* PM_PWSTST_CORE */
1170 return 0x000030 | (s->power[1] & 0xfc00);
1172 case 0x300: /* CM_FCLKEN_GFX */
1173 return s->clken[5];
1174 case 0x310: /* CM_ICLKEN_GFX */
1175 return s->clken[6];
1176 case 0x320: /* CM_IDLEST_GFX */
1177 /* TODO: check the actual iclk status */
1178 return 0x00000001;
1179 case 0x340: /* CM_CLKSEL_GFX */
1180 return s->clksel[3];
1181 case 0x348: /* CM_CLKSTCTRL_GFX */
1182 return s->clkctrl[2];
1183 case 0x350: /* RM_RSTCTRL_GFX */
1184 return s->rstctrl[0];
1185 case 0x358: /* RM_RSTST_GFX */
1186 return s->rst[1];
1187 case 0x3c8: /* PM_WKDEP_GFX */
1188 return s->wkup[1];
1190 case 0x3e0: /* PM_PWSTCTRL_GFX */
1191 return s->power[2];
1192 case 0x3e4: /* PM_PWSTST_GFX */
1193 return s->power[2] & 3;
1195 case 0x400: /* CM_FCLKEN_WKUP */
1196 return s->clken[7];
1197 case 0x410: /* CM_ICLKEN_WKUP */
1198 return s->clken[8];
1199 case 0x420: /* CM_IDLEST_WKUP */
1200 /* TODO: check the actual iclk status */
1201 return 0x0000003f;
1202 case 0x430: /* CM_AUTOIDLE_WKUP */
1203 return s->clkidle[4];
1204 case 0x440: /* CM_CLKSEL_WKUP */
1205 return s->clksel[4];
1206 case 0x450: /* RM_RSTCTRL_WKUP */
1207 return 0;
1208 case 0x454: /* RM_RSTTIME_WKUP */
1209 return s->rsttime_wkup;
1210 case 0x458: /* RM_RSTST_WKUP */
1211 return s->rst[2];
1212 case 0x4a0: /* PM_WKEN_WKUP */
1213 return s->wken[2];
1214 case 0x4b0: /* PM_WKST_WKUP */
1215 return s->wkst[2];
1217 case 0x500: /* CM_CLKEN_PLL */
1218 return s->clken[9];
1219 case 0x520: /* CM_IDLEST_CKGEN */
1220 ret = 0x0000070 | (s->apll_lock[0] << 9) | (s->apll_lock[1] << 8);
1221 if (!(s->clksel[6] & 3))
1222 /* Core uses 32-kHz clock */
1223 ret |= 3 << 0;
1224 else if (!s->dpll_lock)
1225 /* DPLL not locked, core uses ref_clk */
1226 ret |= 1 << 0;
1227 else
1228 /* Core uses DPLL */
1229 ret |= 2 << 0;
1230 return ret;
1231 case 0x530: /* CM_AUTOIDLE_PLL */
1232 return s->clkidle[5];
1233 case 0x540: /* CM_CLKSEL1_PLL */
1234 return s->clksel[5];
1235 case 0x544: /* CM_CLKSEL2_PLL */
1236 return s->clksel[6];
1238 case 0x800: /* CM_FCLKEN_DSP */
1239 return s->clken[10];
1240 case 0x810: /* CM_ICLKEN_DSP */
1241 return s->clken[11];
1242 case 0x820: /* CM_IDLEST_DSP */
1243 /* TODO: check the actual iclk status */
1244 return 0x00000103;
1245 case 0x830: /* CM_AUTOIDLE_DSP */
1246 return s->clkidle[6];
1247 case 0x840: /* CM_CLKSEL_DSP */
1248 return s->clksel[7];
1249 case 0x848: /* CM_CLKSTCTRL_DSP */
1250 return s->clkctrl[3];
1251 case 0x850: /* RM_RSTCTRL_DSP */
1252 return 0;
1253 case 0x858: /* RM_RSTST_DSP */
1254 return s->rst[3];
1255 case 0x8c8: /* PM_WKDEP_DSP */
1256 return s->wkup[2];
1257 case 0x8e0: /* PM_PWSTCTRL_DSP */
1258 return s->power[3];
1259 case 0x8e4: /* PM_PWSTST_DSP */
1260 return 0x008030 | (s->power[3] & 0x3003);
1262 case 0x8f0: /* PRCM_IRQSTATUS_DSP */
1263 return s->irqst[1];
1264 case 0x8f4: /* PRCM_IRQENABLE_DSP */
1265 return s->irqen[1];
1267 case 0x8f8: /* PRCM_IRQSTATUS_IVA */
1268 return s->irqst[2];
1269 case 0x8fc: /* PRCM_IRQENABLE_IVA */
1270 return s->irqen[2];
1273 OMAP_BAD_REG(addr);
1274 return 0;
1277 static void omap_prcm_apll_update(struct omap_prcm_s *s)
1279 int mode[2];
1281 mode[0] = (s->clken[9] >> 6) & 3;
1282 s->apll_lock[0] = (mode[0] == 3);
1283 mode[1] = (s->clken[9] >> 2) & 3;
1284 s->apll_lock[1] = (mode[1] == 3);
1285 /* TODO: update clocks */
1287 if (mode[0] == 1 || mode[0] == 2 || mode[1] == 1 || mode[1] == 2)
1288 fprintf(stderr, "%s: bad EN_54M_PLL or bad EN_96M_PLL\n",
1289 __FUNCTION__);
1292 static void omap_prcm_dpll_update(struct omap_prcm_s *s)
1294 omap_clk dpll = omap_findclk(s->mpu, "dpll");
1295 omap_clk dpll_x2 = omap_findclk(s->mpu, "dpll");
1296 omap_clk core = omap_findclk(s->mpu, "core_clk");
1297 int mode = (s->clken[9] >> 0) & 3;
1298 int mult, div;
1300 mult = (s->clksel[5] >> 12) & 0x3ff;
1301 div = (s->clksel[5] >> 8) & 0xf;
1302 if (mult == 0 || mult == 1)
1303 mode = 1; /* Bypass */
1305 s->dpll_lock = 0;
1306 switch (mode) {
1307 case 0:
1308 fprintf(stderr, "%s: bad EN_DPLL\n", __FUNCTION__);
1309 break;
1310 case 1: /* Low-power bypass mode (Default) */
1311 case 2: /* Fast-relock bypass mode */
1312 omap_clk_setrate(dpll, 1, 1);
1313 omap_clk_setrate(dpll_x2, 1, 1);
1314 break;
1315 case 3: /* Lock mode */
1316 s->dpll_lock = 1; /* After 20 FINT cycles (ref_clk / (div + 1)). */
1318 omap_clk_setrate(dpll, div + 1, mult);
1319 omap_clk_setrate(dpll_x2, div + 1, mult * 2);
1320 break;
1323 switch ((s->clksel[6] >> 0) & 3) {
1324 case 0:
1325 omap_clk_reparent(core, omap_findclk(s->mpu, "clk32-kHz"));
1326 break;
1327 case 1:
1328 omap_clk_reparent(core, dpll);
1329 break;
1330 case 2:
1331 /* Default */
1332 omap_clk_reparent(core, dpll_x2);
1333 break;
1334 case 3:
1335 fprintf(stderr, "%s: bad CORE_CLK_SRC\n", __FUNCTION__);
1336 break;
1340 static void omap_prcm_write(void *opaque, target_phys_addr_t addr,
1341 uint32_t value)
1343 struct omap_prcm_s *s = (struct omap_prcm_s *) opaque;
1345 switch (addr) {
1346 case 0x000: /* PRCM_REVISION */
1347 case 0x054: /* PRCM_VOLTST */
1348 case 0x084: /* PRCM_CLKCFG_STATUS */
1349 case 0x1e4: /* PM_PWSTST_MPU */
1350 case 0x220: /* CM_IDLEST1_CORE */
1351 case 0x224: /* CM_IDLEST2_CORE */
1352 case 0x22c: /* CM_IDLEST4_CORE */
1353 case 0x2c8: /* PM_WKDEP_CORE */
1354 case 0x2e4: /* PM_PWSTST_CORE */
1355 case 0x320: /* CM_IDLEST_GFX */
1356 case 0x3e4: /* PM_PWSTST_GFX */
1357 case 0x420: /* CM_IDLEST_WKUP */
1358 case 0x520: /* CM_IDLEST_CKGEN */
1359 case 0x820: /* CM_IDLEST_DSP */
1360 case 0x8e4: /* PM_PWSTST_DSP */
1361 OMAP_RO_REG(addr);
1362 return;
1364 case 0x010: /* PRCM_SYSCONFIG */
1365 s->sysconfig = value & 1;
1366 break;
1368 case 0x018: /* PRCM_IRQSTATUS_MPU */
1369 s->irqst[0] &= ~value;
1370 omap_prcm_int_update(s, 0);
1371 break;
1372 case 0x01c: /* PRCM_IRQENABLE_MPU */
1373 s->irqen[0] = value & 0x3f;
1374 omap_prcm_int_update(s, 0);
1375 break;
1377 case 0x050: /* PRCM_VOLTCTRL */
1378 s->voltctrl = value & 0xf1c3;
1379 break;
1381 case 0x060: /* PRCM_CLKSRC_CTRL */
1382 s->clksrc[0] = value & 0xdb;
1383 /* TODO update clocks */
1384 break;
1386 case 0x070: /* PRCM_CLKOUT_CTRL */
1387 s->clkout[0] = value & 0xbbbb;
1388 /* TODO update clocks */
1389 break;
1391 case 0x078: /* PRCM_CLKEMUL_CTRL */
1392 s->clkemul[0] = value & 1;
1393 /* TODO update clocks */
1394 break;
1396 case 0x080: /* PRCM_CLKCFG_CTRL */
1397 break;
1399 case 0x090: /* PRCM_VOLTSETUP */
1400 s->setuptime[0] = value & 0xffff;
1401 break;
1402 case 0x094: /* PRCM_CLKSSETUP */
1403 s->setuptime[1] = value & 0xffff;
1404 break;
1406 case 0x098: /* PRCM_POLCTRL */
1407 s->clkpol[0] = value & 0x701;
1408 break;
1410 case 0x0b0: /* GENERAL_PURPOSE1 */
1411 case 0x0b4: /* GENERAL_PURPOSE2 */
1412 case 0x0b8: /* GENERAL_PURPOSE3 */
1413 case 0x0bc: /* GENERAL_PURPOSE4 */
1414 case 0x0c0: /* GENERAL_PURPOSE5 */
1415 case 0x0c4: /* GENERAL_PURPOSE6 */
1416 case 0x0c8: /* GENERAL_PURPOSE7 */
1417 case 0x0cc: /* GENERAL_PURPOSE8 */
1418 case 0x0d0: /* GENERAL_PURPOSE9 */
1419 case 0x0d4: /* GENERAL_PURPOSE10 */
1420 case 0x0d8: /* GENERAL_PURPOSE11 */
1421 case 0x0dc: /* GENERAL_PURPOSE12 */
1422 case 0x0e0: /* GENERAL_PURPOSE13 */
1423 case 0x0e4: /* GENERAL_PURPOSE14 */
1424 case 0x0e8: /* GENERAL_PURPOSE15 */
1425 case 0x0ec: /* GENERAL_PURPOSE16 */
1426 case 0x0f0: /* GENERAL_PURPOSE17 */
1427 case 0x0f4: /* GENERAL_PURPOSE18 */
1428 case 0x0f8: /* GENERAL_PURPOSE19 */
1429 case 0x0fc: /* GENERAL_PURPOSE20 */
1430 s->scratch[(addr - 0xb0) >> 2] = value;
1431 break;
1433 case 0x140: /* CM_CLKSEL_MPU */
1434 s->clksel[0] = value & 0x1f;
1435 /* TODO update clocks */
1436 break;
1437 case 0x148: /* CM_CLKSTCTRL_MPU */
1438 s->clkctrl[0] = value & 0x1f;
1439 break;
1441 case 0x158: /* RM_RSTST_MPU */
1442 s->rst[0] &= ~value;
1443 break;
1444 case 0x1c8: /* PM_WKDEP_MPU */
1445 s->wkup[0] = value & 0x15;
1446 break;
1448 case 0x1d4: /* PM_EVGENCTRL_MPU */
1449 s->ev = value & 0x1f;
1450 break;
1451 case 0x1d8: /* PM_EVEGENONTIM_MPU */
1452 s->evtime[0] = value;
1453 break;
1454 case 0x1dc: /* PM_EVEGENOFFTIM_MPU */
1455 s->evtime[1] = value;
1456 break;
1458 case 0x1e0: /* PM_PWSTCTRL_MPU */
1459 s->power[0] = value & 0xc0f;
1460 break;
1462 case 0x200: /* CM_FCLKEN1_CORE */
1463 s->clken[0] = value & 0xbfffffff;
1464 /* TODO update clocks */
1465 /* The EN_EAC bit only gets/puts func_96m_clk. */
1466 break;
1467 case 0x204: /* CM_FCLKEN2_CORE */
1468 s->clken[1] = value & 0x00000007;
1469 /* TODO update clocks */
1470 break;
1471 case 0x210: /* CM_ICLKEN1_CORE */
1472 s->clken[2] = value & 0xfffffff9;
1473 /* TODO update clocks */
1474 /* The EN_EAC bit only gets/puts core_l4_iclk. */
1475 break;
1476 case 0x214: /* CM_ICLKEN2_CORE */
1477 s->clken[3] = value & 0x00000007;
1478 /* TODO update clocks */
1479 break;
1480 case 0x21c: /* CM_ICLKEN4_CORE */
1481 s->clken[4] = value & 0x0000001f;
1482 /* TODO update clocks */
1483 break;
1485 case 0x230: /* CM_AUTOIDLE1_CORE */
1486 s->clkidle[0] = value & 0xfffffff9;
1487 /* TODO update clocks */
1488 break;
1489 case 0x234: /* CM_AUTOIDLE2_CORE */
1490 s->clkidle[1] = value & 0x00000007;
1491 /* TODO update clocks */
1492 break;
1493 case 0x238: /* CM_AUTOIDLE3_CORE */
1494 s->clkidle[2] = value & 0x00000007;
1495 /* TODO update clocks */
1496 break;
1497 case 0x23c: /* CM_AUTOIDLE4_CORE */
1498 s->clkidle[3] = value & 0x0000001f;
1499 /* TODO update clocks */
1500 break;
1502 case 0x240: /* CM_CLKSEL1_CORE */
1503 s->clksel[1] = value & 0x0fffbf7f;
1504 /* TODO update clocks */
1505 break;
1507 case 0x244: /* CM_CLKSEL2_CORE */
1508 s->clksel[2] = value & 0x00fffffc;
1509 /* TODO update clocks */
1510 break;
1512 case 0x248: /* CM_CLKSTCTRL_CORE */
1513 s->clkctrl[1] = value & 0x7;
1514 break;
1516 case 0x2a0: /* PM_WKEN1_CORE */
1517 s->wken[0] = value & 0x04667ff8;
1518 break;
1519 case 0x2a4: /* PM_WKEN2_CORE */
1520 s->wken[1] = value & 0x00000005;
1521 break;
1523 case 0x2b0: /* PM_WKST1_CORE */
1524 s->wkst[0] &= ~value;
1525 break;
1526 case 0x2b4: /* PM_WKST2_CORE */
1527 s->wkst[1] &= ~value;
1528 break;
1530 case 0x2e0: /* PM_PWSTCTRL_CORE */
1531 s->power[1] = (value & 0x00fc3f) | (1 << 2);
1532 break;
1534 case 0x300: /* CM_FCLKEN_GFX */
1535 s->clken[5] = value & 6;
1536 /* TODO update clocks */
1537 break;
1538 case 0x310: /* CM_ICLKEN_GFX */
1539 s->clken[6] = value & 1;
1540 /* TODO update clocks */
1541 break;
1542 case 0x340: /* CM_CLKSEL_GFX */
1543 s->clksel[3] = value & 7;
1544 /* TODO update clocks */
1545 break;
1546 case 0x348: /* CM_CLKSTCTRL_GFX */
1547 s->clkctrl[2] = value & 1;
1548 break;
1549 case 0x350: /* RM_RSTCTRL_GFX */
1550 s->rstctrl[0] = value & 1;
1551 /* TODO: reset */
1552 break;
1553 case 0x358: /* RM_RSTST_GFX */
1554 s->rst[1] &= ~value;
1555 break;
1556 case 0x3c8: /* PM_WKDEP_GFX */
1557 s->wkup[1] = value & 0x13;
1558 break;
1559 case 0x3e0: /* PM_PWSTCTRL_GFX */
1560 s->power[2] = (value & 0x00c0f) | (3 << 2);
1561 break;
1563 case 0x400: /* CM_FCLKEN_WKUP */
1564 s->clken[7] = value & 0xd;
1565 /* TODO update clocks */
1566 break;
1567 case 0x410: /* CM_ICLKEN_WKUP */
1568 s->clken[8] = value & 0x3f;
1569 /* TODO update clocks */
1570 break;
1571 case 0x430: /* CM_AUTOIDLE_WKUP */
1572 s->clkidle[4] = value & 0x0000003f;
1573 /* TODO update clocks */
1574 break;
1575 case 0x440: /* CM_CLKSEL_WKUP */
1576 s->clksel[4] = value & 3;
1577 /* TODO update clocks */
1578 break;
1579 case 0x450: /* RM_RSTCTRL_WKUP */
1580 /* TODO: reset */
1581 if (value & 2)
1582 qemu_system_reset_request();
1583 break;
1584 case 0x454: /* RM_RSTTIME_WKUP */
1585 s->rsttime_wkup = value & 0x1fff;
1586 break;
1587 case 0x458: /* RM_RSTST_WKUP */
1588 s->rst[2] &= ~value;
1589 break;
1590 case 0x4a0: /* PM_WKEN_WKUP */
1591 s->wken[2] = value & 0x00000005;
1592 break;
1593 case 0x4b0: /* PM_WKST_WKUP */
1594 s->wkst[2] &= ~value;
1595 break;
1597 case 0x500: /* CM_CLKEN_PLL */
1598 if (value & 0xffffff30)
1599 fprintf(stderr, "%s: write 0s in CM_CLKEN_PLL for "
1600 "future compatiblity\n", __FUNCTION__);
1601 if ((s->clken[9] ^ value) & 0xcc) {
1602 s->clken[9] &= ~0xcc;
1603 s->clken[9] |= value & 0xcc;
1604 omap_prcm_apll_update(s);
1606 if ((s->clken[9] ^ value) & 3) {
1607 s->clken[9] &= ~3;
1608 s->clken[9] |= value & 3;
1609 omap_prcm_dpll_update(s);
1611 break;
1612 case 0x530: /* CM_AUTOIDLE_PLL */
1613 s->clkidle[5] = value & 0x000000cf;
1614 /* TODO update clocks */
1615 break;
1616 case 0x540: /* CM_CLKSEL1_PLL */
1617 if (value & 0xfc4000d7)
1618 fprintf(stderr, "%s: write 0s in CM_CLKSEL1_PLL for "
1619 "future compatiblity\n", __FUNCTION__);
1620 if ((s->clksel[5] ^ value) & 0x003fff00) {
1621 s->clksel[5] = value & 0x03bfff28;
1622 omap_prcm_dpll_update(s);
1624 /* TODO update the other clocks */
1626 s->clksel[5] = value & 0x03bfff28;
1627 break;
1628 case 0x544: /* CM_CLKSEL2_PLL */
1629 if (value & ~3)
1630 fprintf(stderr, "%s: write 0s in CM_CLKSEL2_PLL[31:2] for "
1631 "future compatiblity\n", __FUNCTION__);
1632 if (s->clksel[6] != (value & 3)) {
1633 s->clksel[6] = value & 3;
1634 omap_prcm_dpll_update(s);
1636 break;
1638 case 0x800: /* CM_FCLKEN_DSP */
1639 s->clken[10] = value & 0x501;
1640 /* TODO update clocks */
1641 break;
1642 case 0x810: /* CM_ICLKEN_DSP */
1643 s->clken[11] = value & 0x2;
1644 /* TODO update clocks */
1645 break;
1646 case 0x830: /* CM_AUTOIDLE_DSP */
1647 s->clkidle[6] = value & 0x2;
1648 /* TODO update clocks */
1649 break;
1650 case 0x840: /* CM_CLKSEL_DSP */
1651 s->clksel[7] = value & 0x3fff;
1652 /* TODO update clocks */
1653 break;
1654 case 0x848: /* CM_CLKSTCTRL_DSP */
1655 s->clkctrl[3] = value & 0x101;
1656 break;
1657 case 0x850: /* RM_RSTCTRL_DSP */
1658 /* TODO: reset */
1659 break;
1660 case 0x858: /* RM_RSTST_DSP */
1661 s->rst[3] &= ~value;
1662 break;
1663 case 0x8c8: /* PM_WKDEP_DSP */
1664 s->wkup[2] = value & 0x13;
1665 break;
1666 case 0x8e0: /* PM_PWSTCTRL_DSP */
1667 s->power[3] = (value & 0x03017) | (3 << 2);
1668 break;
1670 case 0x8f0: /* PRCM_IRQSTATUS_DSP */
1671 s->irqst[1] &= ~value;
1672 omap_prcm_int_update(s, 1);
1673 break;
1674 case 0x8f4: /* PRCM_IRQENABLE_DSP */
1675 s->irqen[1] = value & 0x7;
1676 omap_prcm_int_update(s, 1);
1677 break;
1679 case 0x8f8: /* PRCM_IRQSTATUS_IVA */
1680 s->irqst[2] &= ~value;
1681 omap_prcm_int_update(s, 2);
1682 break;
1683 case 0x8fc: /* PRCM_IRQENABLE_IVA */
1684 s->irqen[2] = value & 0x7;
1685 omap_prcm_int_update(s, 2);
1686 break;
1688 default:
1689 OMAP_BAD_REG(addr);
1690 return;
1694 static CPUReadMemoryFunc * const omap_prcm_readfn[] = {
1695 omap_badwidth_read32,
1696 omap_badwidth_read32,
1697 omap_prcm_read,
1700 static CPUWriteMemoryFunc * const omap_prcm_writefn[] = {
1701 omap_badwidth_write32,
1702 omap_badwidth_write32,
1703 omap_prcm_write,
1706 static void omap_prcm_reset(struct omap_prcm_s *s)
1708 s->sysconfig = 0;
1709 s->irqst[0] = 0;
1710 s->irqst[1] = 0;
1711 s->irqst[2] = 0;
1712 s->irqen[0] = 0;
1713 s->irqen[1] = 0;
1714 s->irqen[2] = 0;
1715 s->voltctrl = 0x1040;
1716 s->ev = 0x14;
1717 s->evtime[0] = 0;
1718 s->evtime[1] = 0;
1719 s->clkctrl[0] = 0;
1720 s->clkctrl[1] = 0;
1721 s->clkctrl[2] = 0;
1722 s->clkctrl[3] = 0;
1723 s->clken[1] = 7;
1724 s->clken[3] = 7;
1725 s->clken[4] = 0;
1726 s->clken[5] = 0;
1727 s->clken[6] = 0;
1728 s->clken[7] = 0xc;
1729 s->clken[8] = 0x3e;
1730 s->clken[9] = 0x0d;
1731 s->clken[10] = 0;
1732 s->clken[11] = 0;
1733 s->clkidle[0] = 0;
1734 s->clkidle[2] = 7;
1735 s->clkidle[3] = 0;
1736 s->clkidle[4] = 0;
1737 s->clkidle[5] = 0x0c;
1738 s->clkidle[6] = 0;
1739 s->clksel[0] = 0x01;
1740 s->clksel[1] = 0x02100121;
1741 s->clksel[2] = 0x00000000;
1742 s->clksel[3] = 0x01;
1743 s->clksel[4] = 0;
1744 s->clksel[7] = 0x0121;
1745 s->wkup[0] = 0x15;
1746 s->wkup[1] = 0x13;
1747 s->wkup[2] = 0x13;
1748 s->wken[0] = 0x04667ff8;
1749 s->wken[1] = 0x00000005;
1750 s->wken[2] = 5;
1751 s->wkst[0] = 0;
1752 s->wkst[1] = 0;
1753 s->wkst[2] = 0;
1754 s->power[0] = 0x00c;
1755 s->power[1] = 4;
1756 s->power[2] = 0x0000c;
1757 s->power[3] = 0x14;
1758 s->rstctrl[0] = 1;
1759 s->rst[3] = 1;
1760 omap_prcm_apll_update(s);
1761 omap_prcm_dpll_update(s);
1764 static void omap_prcm_coldreset(struct omap_prcm_s *s)
1766 s->setuptime[0] = 0;
1767 s->setuptime[1] = 0;
1768 memset(&s->scratch, 0, sizeof(s->scratch));
1769 s->rst[0] = 0x01;
1770 s->rst[1] = 0x00;
1771 s->rst[2] = 0x01;
1772 s->clken[0] = 0;
1773 s->clken[2] = 0;
1774 s->clkidle[1] = 0;
1775 s->clksel[5] = 0;
1776 s->clksel[6] = 2;
1777 s->clksrc[0] = 0x43;
1778 s->clkout[0] = 0x0303;
1779 s->clkemul[0] = 0;
1780 s->clkpol[0] = 0x100;
1781 s->rsttime_wkup = 0x1002;
1783 omap_prcm_reset(s);
1786 static struct omap_prcm_s *omap_prcm_init(struct omap_target_agent_s *ta,
1787 qemu_irq mpu_int, qemu_irq dsp_int, qemu_irq iva_int,
1788 struct omap_mpu_state_s *mpu)
1790 int iomemtype;
1791 struct omap_prcm_s *s = (struct omap_prcm_s *)
1792 qemu_mallocz(sizeof(struct omap_prcm_s));
1794 s->irq[0] = mpu_int;
1795 s->irq[1] = dsp_int;
1796 s->irq[2] = iva_int;
1797 s->mpu = mpu;
1798 omap_prcm_coldreset(s);
1800 iomemtype = l4_register_io_memory(omap_prcm_readfn,
1801 omap_prcm_writefn, s);
1802 omap_l4_attach(ta, 0, iomemtype);
1803 omap_l4_attach(ta, 1, iomemtype);
1805 return s;
1808 /* System and Pinout control */
1809 struct omap_sysctl_s {
1810 struct omap_mpu_state_s *mpu;
1812 uint32_t sysconfig;
1813 uint32_t devconfig;
1814 uint32_t psaconfig;
1815 uint32_t padconf[0x45];
1816 uint8_t obs;
1817 uint32_t msuspendmux[5];
1820 static uint32_t omap_sysctl_read8(void *opaque, target_phys_addr_t addr)
1823 struct omap_sysctl_s *s = (struct omap_sysctl_s *) opaque;
1824 int pad_offset, byte_offset;
1825 int value;
1827 switch (addr) {
1828 case 0x030 ... 0x140: /* CONTROL_PADCONF - only used in the POP */
1829 pad_offset = (addr - 0x30) >> 2;
1830 byte_offset = (addr - 0x30) & (4 - 1);
1832 value = s->padconf[pad_offset];
1833 value = (value >> (byte_offset * 8)) & 0xff;
1835 return value;
1837 default:
1838 break;
1841 OMAP_BAD_REG(addr);
1842 return 0;
1845 static uint32_t omap_sysctl_read(void *opaque, target_phys_addr_t addr)
1847 struct omap_sysctl_s *s = (struct omap_sysctl_s *) opaque;
1849 switch (addr) {
1850 case 0x000: /* CONTROL_REVISION */
1851 return 0x20;
1853 case 0x010: /* CONTROL_SYSCONFIG */
1854 return s->sysconfig;
1856 case 0x030 ... 0x140: /* CONTROL_PADCONF - only used in the POP */
1857 return s->padconf[(addr - 0x30) >> 2];
1859 case 0x270: /* CONTROL_DEBOBS */
1860 return s->obs;
1862 case 0x274: /* CONTROL_DEVCONF */
1863 return s->devconfig;
1865 case 0x28c: /* CONTROL_EMU_SUPPORT */
1866 return 0;
1868 case 0x290: /* CONTROL_MSUSPENDMUX_0 */
1869 return s->msuspendmux[0];
1870 case 0x294: /* CONTROL_MSUSPENDMUX_1 */
1871 return s->msuspendmux[1];
1872 case 0x298: /* CONTROL_MSUSPENDMUX_2 */
1873 return s->msuspendmux[2];
1874 case 0x29c: /* CONTROL_MSUSPENDMUX_3 */
1875 return s->msuspendmux[3];
1876 case 0x2a0: /* CONTROL_MSUSPENDMUX_4 */
1877 return s->msuspendmux[4];
1878 case 0x2a4: /* CONTROL_MSUSPENDMUX_5 */
1879 return 0;
1881 case 0x2b8: /* CONTROL_PSA_CTRL */
1882 return s->psaconfig;
1883 case 0x2bc: /* CONTROL_PSA_CMD */
1884 case 0x2c0: /* CONTROL_PSA_VALUE */
1885 return 0;
1887 case 0x2b0: /* CONTROL_SEC_CTRL */
1888 return 0x800000f1;
1889 case 0x2d0: /* CONTROL_SEC_EMU */
1890 return 0x80000015;
1891 case 0x2d4: /* CONTROL_SEC_TAP */
1892 return 0x8000007f;
1893 case 0x2b4: /* CONTROL_SEC_TEST */
1894 case 0x2f0: /* CONTROL_SEC_STATUS */
1895 case 0x2f4: /* CONTROL_SEC_ERR_STATUS */
1896 /* Secure mode is not present on general-pusrpose device. Outside
1897 * secure mode these values cannot be read or written. */
1898 return 0;
1900 case 0x2d8: /* CONTROL_OCM_RAM_PERM */
1901 return 0xff;
1902 case 0x2dc: /* CONTROL_OCM_PUB_RAM_ADD */
1903 case 0x2e0: /* CONTROL_EXT_SEC_RAM_START_ADD */
1904 case 0x2e4: /* CONTROL_EXT_SEC_RAM_STOP_ADD */
1905 /* No secure mode so no Extended Secure RAM present. */
1906 return 0;
1908 case 0x2f8: /* CONTROL_STATUS */
1909 /* Device Type => General-purpose */
1910 return 0x0300;
1911 case 0x2fc: /* CONTROL_GENERAL_PURPOSE_STATUS */
1913 case 0x300: /* CONTROL_RPUB_KEY_H_0 */
1914 case 0x304: /* CONTROL_RPUB_KEY_H_1 */
1915 case 0x308: /* CONTROL_RPUB_KEY_H_2 */
1916 case 0x30c: /* CONTROL_RPUB_KEY_H_3 */
1917 return 0xdecafbad;
1919 case 0x310: /* CONTROL_RAND_KEY_0 */
1920 case 0x314: /* CONTROL_RAND_KEY_1 */
1921 case 0x318: /* CONTROL_RAND_KEY_2 */
1922 case 0x31c: /* CONTROL_RAND_KEY_3 */
1923 case 0x320: /* CONTROL_CUST_KEY_0 */
1924 case 0x324: /* CONTROL_CUST_KEY_1 */
1925 case 0x330: /* CONTROL_TEST_KEY_0 */
1926 case 0x334: /* CONTROL_TEST_KEY_1 */
1927 case 0x338: /* CONTROL_TEST_KEY_2 */
1928 case 0x33c: /* CONTROL_TEST_KEY_3 */
1929 case 0x340: /* CONTROL_TEST_KEY_4 */
1930 case 0x344: /* CONTROL_TEST_KEY_5 */
1931 case 0x348: /* CONTROL_TEST_KEY_6 */
1932 case 0x34c: /* CONTROL_TEST_KEY_7 */
1933 case 0x350: /* CONTROL_TEST_KEY_8 */
1934 case 0x354: /* CONTROL_TEST_KEY_9 */
1935 /* Can only be accessed in secure mode and when C_FieldAccEnable
1936 * bit is set in CONTROL_SEC_CTRL.
1937 * TODO: otherwise an interconnect access error is generated. */
1938 return 0;
1941 OMAP_BAD_REG(addr);
1942 return 0;
1945 static void omap_sysctl_write8(void *opaque, target_phys_addr_t addr,
1946 uint32_t value)
1948 struct omap_sysctl_s *s = (struct omap_sysctl_s *) opaque;
1949 int pad_offset, byte_offset;
1950 int prev_value;
1952 switch (addr) {
1953 case 0x030 ... 0x140: /* CONTROL_PADCONF - only used in the POP */
1954 pad_offset = (addr - 0x30) >> 2;
1955 byte_offset = (addr - 0x30) & (4 - 1);
1957 prev_value = s->padconf[pad_offset];
1958 prev_value &= ~(0xff << (byte_offset * 8));
1959 prev_value |= ((value & 0x1f1f1f1f) << (byte_offset * 8)) & 0x1f1f1f1f;
1960 s->padconf[pad_offset] = prev_value;
1961 break;
1963 default:
1964 OMAP_BAD_REG(addr);
1965 break;
1969 static void omap_sysctl_write(void *opaque, target_phys_addr_t addr,
1970 uint32_t value)
1972 struct omap_sysctl_s *s = (struct omap_sysctl_s *) opaque;
1974 switch (addr) {
1975 case 0x000: /* CONTROL_REVISION */
1976 case 0x2a4: /* CONTROL_MSUSPENDMUX_5 */
1977 case 0x2c0: /* CONTROL_PSA_VALUE */
1978 case 0x2f8: /* CONTROL_STATUS */
1979 case 0x2fc: /* CONTROL_GENERAL_PURPOSE_STATUS */
1980 case 0x300: /* CONTROL_RPUB_KEY_H_0 */
1981 case 0x304: /* CONTROL_RPUB_KEY_H_1 */
1982 case 0x308: /* CONTROL_RPUB_KEY_H_2 */
1983 case 0x30c: /* CONTROL_RPUB_KEY_H_3 */
1984 case 0x310: /* CONTROL_RAND_KEY_0 */
1985 case 0x314: /* CONTROL_RAND_KEY_1 */
1986 case 0x318: /* CONTROL_RAND_KEY_2 */
1987 case 0x31c: /* CONTROL_RAND_KEY_3 */
1988 case 0x320: /* CONTROL_CUST_KEY_0 */
1989 case 0x324: /* CONTROL_CUST_KEY_1 */
1990 case 0x330: /* CONTROL_TEST_KEY_0 */
1991 case 0x334: /* CONTROL_TEST_KEY_1 */
1992 case 0x338: /* CONTROL_TEST_KEY_2 */
1993 case 0x33c: /* CONTROL_TEST_KEY_3 */
1994 case 0x340: /* CONTROL_TEST_KEY_4 */
1995 case 0x344: /* CONTROL_TEST_KEY_5 */
1996 case 0x348: /* CONTROL_TEST_KEY_6 */
1997 case 0x34c: /* CONTROL_TEST_KEY_7 */
1998 case 0x350: /* CONTROL_TEST_KEY_8 */
1999 case 0x354: /* CONTROL_TEST_KEY_9 */
2000 OMAP_RO_REG(addr);
2001 return;
2003 case 0x010: /* CONTROL_SYSCONFIG */
2004 s->sysconfig = value & 0x1e;
2005 break;
2007 case 0x030 ... 0x140: /* CONTROL_PADCONF - only used in the POP */
2008 /* XXX: should check constant bits */
2009 s->padconf[(addr - 0x30) >> 2] = value & 0x1f1f1f1f;
2010 break;
2012 case 0x270: /* CONTROL_DEBOBS */
2013 s->obs = value & 0xff;
2014 break;
2016 case 0x274: /* CONTROL_DEVCONF */
2017 s->devconfig = value & 0xffffc7ff;
2018 break;
2020 case 0x28c: /* CONTROL_EMU_SUPPORT */
2021 break;
2023 case 0x290: /* CONTROL_MSUSPENDMUX_0 */
2024 s->msuspendmux[0] = value & 0x3fffffff;
2025 break;
2026 case 0x294: /* CONTROL_MSUSPENDMUX_1 */
2027 s->msuspendmux[1] = value & 0x3fffffff;
2028 break;
2029 case 0x298: /* CONTROL_MSUSPENDMUX_2 */
2030 s->msuspendmux[2] = value & 0x3fffffff;
2031 break;
2032 case 0x29c: /* CONTROL_MSUSPENDMUX_3 */
2033 s->msuspendmux[3] = value & 0x3fffffff;
2034 break;
2035 case 0x2a0: /* CONTROL_MSUSPENDMUX_4 */
2036 s->msuspendmux[4] = value & 0x3fffffff;
2037 break;
2039 case 0x2b8: /* CONTROL_PSA_CTRL */
2040 s->psaconfig = value & 0x1c;
2041 s->psaconfig |= (value & 0x20) ? 2 : 1;
2042 break;
2043 case 0x2bc: /* CONTROL_PSA_CMD */
2044 break;
2046 case 0x2b0: /* CONTROL_SEC_CTRL */
2047 case 0x2b4: /* CONTROL_SEC_TEST */
2048 case 0x2d0: /* CONTROL_SEC_EMU */
2049 case 0x2d4: /* CONTROL_SEC_TAP */
2050 case 0x2d8: /* CONTROL_OCM_RAM_PERM */
2051 case 0x2dc: /* CONTROL_OCM_PUB_RAM_ADD */
2052 case 0x2e0: /* CONTROL_EXT_SEC_RAM_START_ADD */
2053 case 0x2e4: /* CONTROL_EXT_SEC_RAM_STOP_ADD */
2054 case 0x2f0: /* CONTROL_SEC_STATUS */
2055 case 0x2f4: /* CONTROL_SEC_ERR_STATUS */
2056 break;
2058 default:
2059 OMAP_BAD_REG(addr);
2060 return;
2064 static CPUReadMemoryFunc * const omap_sysctl_readfn[] = {
2065 omap_sysctl_read8,
2066 omap_badwidth_read32, /* TODO */
2067 omap_sysctl_read,
2070 static CPUWriteMemoryFunc * const omap_sysctl_writefn[] = {
2071 omap_sysctl_write8,
2072 omap_badwidth_write32, /* TODO */
2073 omap_sysctl_write,
2076 static void omap_sysctl_reset(struct omap_sysctl_s *s)
2078 /* (power-on reset) */
2079 s->sysconfig = 0;
2080 s->obs = 0;
2081 s->devconfig = 0x0c000000;
2082 s->msuspendmux[0] = 0x00000000;
2083 s->msuspendmux[1] = 0x00000000;
2084 s->msuspendmux[2] = 0x00000000;
2085 s->msuspendmux[3] = 0x00000000;
2086 s->msuspendmux[4] = 0x00000000;
2087 s->psaconfig = 1;
2089 s->padconf[0x00] = 0x000f0f0f;
2090 s->padconf[0x01] = 0x00000000;
2091 s->padconf[0x02] = 0x00000000;
2092 s->padconf[0x03] = 0x00000000;
2093 s->padconf[0x04] = 0x00000000;
2094 s->padconf[0x05] = 0x00000000;
2095 s->padconf[0x06] = 0x00000000;
2096 s->padconf[0x07] = 0x00000000;
2097 s->padconf[0x08] = 0x08080800;
2098 s->padconf[0x09] = 0x08080808;
2099 s->padconf[0x0a] = 0x08080808;
2100 s->padconf[0x0b] = 0x08080808;
2101 s->padconf[0x0c] = 0x08080808;
2102 s->padconf[0x0d] = 0x08080800;
2103 s->padconf[0x0e] = 0x08080808;
2104 s->padconf[0x0f] = 0x08080808;
2105 s->padconf[0x10] = 0x18181808; /* | 0x07070700 if SBoot3 */
2106 s->padconf[0x11] = 0x18181818; /* | 0x07070707 if SBoot3 */
2107 s->padconf[0x12] = 0x18181818; /* | 0x07070707 if SBoot3 */
2108 s->padconf[0x13] = 0x18181818; /* | 0x07070707 if SBoot3 */
2109 s->padconf[0x14] = 0x18181818; /* | 0x00070707 if SBoot3 */
2110 s->padconf[0x15] = 0x18181818;
2111 s->padconf[0x16] = 0x18181818; /* | 0x07000000 if SBoot3 */
2112 s->padconf[0x17] = 0x1f001f00;
2113 s->padconf[0x18] = 0x1f1f1f1f;
2114 s->padconf[0x19] = 0x00000000;
2115 s->padconf[0x1a] = 0x1f180000;
2116 s->padconf[0x1b] = 0x00001f1f;
2117 s->padconf[0x1c] = 0x1f001f00;
2118 s->padconf[0x1d] = 0x00000000;
2119 s->padconf[0x1e] = 0x00000000;
2120 s->padconf[0x1f] = 0x08000000;
2121 s->padconf[0x20] = 0x08080808;
2122 s->padconf[0x21] = 0x08080808;
2123 s->padconf[0x22] = 0x0f080808;
2124 s->padconf[0x23] = 0x0f0f0f0f;
2125 s->padconf[0x24] = 0x000f0f0f;
2126 s->padconf[0x25] = 0x1f1f1f0f;
2127 s->padconf[0x26] = 0x080f0f1f;
2128 s->padconf[0x27] = 0x070f1808;
2129 s->padconf[0x28] = 0x0f070707;
2130 s->padconf[0x29] = 0x000f0f1f;
2131 s->padconf[0x2a] = 0x0f0f0f1f;
2132 s->padconf[0x2b] = 0x08000000;
2133 s->padconf[0x2c] = 0x0000001f;
2134 s->padconf[0x2d] = 0x0f0f1f00;
2135 s->padconf[0x2e] = 0x1f1f0f0f;
2136 s->padconf[0x2f] = 0x0f1f1f1f;
2137 s->padconf[0x30] = 0x0f0f0f0f;
2138 s->padconf[0x31] = 0x0f1f0f1f;
2139 s->padconf[0x32] = 0x0f0f0f0f;
2140 s->padconf[0x33] = 0x0f1f0f1f;
2141 s->padconf[0x34] = 0x1f1f0f0f;
2142 s->padconf[0x35] = 0x0f0f1f1f;
2143 s->padconf[0x36] = 0x0f0f1f0f;
2144 s->padconf[0x37] = 0x0f0f0f0f;
2145 s->padconf[0x38] = 0x1f18180f;
2146 s->padconf[0x39] = 0x1f1f1f1f;
2147 s->padconf[0x3a] = 0x00001f1f;
2148 s->padconf[0x3b] = 0x00000000;
2149 s->padconf[0x3c] = 0x00000000;
2150 s->padconf[0x3d] = 0x0f0f0f0f;
2151 s->padconf[0x3e] = 0x18000f0f;
2152 s->padconf[0x3f] = 0x00070000;
2153 s->padconf[0x40] = 0x00000707;
2154 s->padconf[0x41] = 0x0f1f0700;
2155 s->padconf[0x42] = 0x1f1f070f;
2156 s->padconf[0x43] = 0x0008081f;
2157 s->padconf[0x44] = 0x00000800;
2160 static struct omap_sysctl_s *omap_sysctl_init(struct omap_target_agent_s *ta,
2161 omap_clk iclk, struct omap_mpu_state_s *mpu)
2163 int iomemtype;
2164 struct omap_sysctl_s *s = (struct omap_sysctl_s *)
2165 qemu_mallocz(sizeof(struct omap_sysctl_s));
2167 s->mpu = mpu;
2168 omap_sysctl_reset(s);
2170 iomemtype = l4_register_io_memory(omap_sysctl_readfn,
2171 omap_sysctl_writefn, s);
2172 omap_l4_attach(ta, 0, iomemtype);
2174 return s;
2177 /* General chip reset */
2178 static void omap2_mpu_reset(void *opaque)
2180 struct omap_mpu_state_s *mpu = (struct omap_mpu_state_s *) opaque;
2182 omap_inth_reset(mpu->ih[0]);
2183 omap_dma_reset(mpu->dma);
2184 omap_prcm_reset(mpu->prcm);
2185 omap_sysctl_reset(mpu->sysc);
2186 omap_gp_timer_reset(mpu->gptimer[0]);
2187 omap_gp_timer_reset(mpu->gptimer[1]);
2188 omap_gp_timer_reset(mpu->gptimer[2]);
2189 omap_gp_timer_reset(mpu->gptimer[3]);
2190 omap_gp_timer_reset(mpu->gptimer[4]);
2191 omap_gp_timer_reset(mpu->gptimer[5]);
2192 omap_gp_timer_reset(mpu->gptimer[6]);
2193 omap_gp_timer_reset(mpu->gptimer[7]);
2194 omap_gp_timer_reset(mpu->gptimer[8]);
2195 omap_gp_timer_reset(mpu->gptimer[9]);
2196 omap_gp_timer_reset(mpu->gptimer[10]);
2197 omap_gp_timer_reset(mpu->gptimer[11]);
2198 omap_synctimer_reset(mpu->synctimer);
2199 omap_sdrc_reset(mpu->sdrc);
2200 omap_gpmc_reset(mpu->gpmc);
2201 omap_dss_reset(mpu->dss);
2202 omap_uart_reset(mpu->uart[0]);
2203 omap_uart_reset(mpu->uart[1]);
2204 omap_uart_reset(mpu->uart[2]);
2205 omap_mmc_reset(mpu->mmc);
2206 omap_gpif_reset(mpu->gpif);
2207 omap_mcspi_reset(mpu->mcspi[0]);
2208 omap_mcspi_reset(mpu->mcspi[1]);
2209 omap_i2c_reset(mpu->i2c[0]);
2210 omap_i2c_reset(mpu->i2c[1]);
2211 cpu_reset(mpu->env);
2214 static int omap2_validate_addr(struct omap_mpu_state_s *s,
2215 target_phys_addr_t addr)
2217 return 1;
2220 static const struct dma_irq_map omap2_dma_irq_map[] = {
2221 { 0, OMAP_INT_24XX_SDMA_IRQ0 },
2222 { 0, OMAP_INT_24XX_SDMA_IRQ1 },
2223 { 0, OMAP_INT_24XX_SDMA_IRQ2 },
2224 { 0, OMAP_INT_24XX_SDMA_IRQ3 },
2227 struct omap_mpu_state_s *omap2420_mpu_init(unsigned long sdram_size,
2228 const char *core)
2230 struct omap_mpu_state_s *s = (struct omap_mpu_state_s *)
2231 qemu_mallocz(sizeof(struct omap_mpu_state_s));
2232 ram_addr_t sram_base, q2_base;
2233 qemu_irq *cpu_irq;
2234 qemu_irq dma_irqs[4];
2235 omap_clk gpio_clks[4];
2236 DriveInfo *dinfo;
2237 int i;
2239 /* Core */
2240 s->mpu_model = omap2420;
2241 s->env = cpu_init(core ?: "arm1136-r2");
2242 if (!s->env) {
2243 fprintf(stderr, "Unable to find CPU definition\n");
2244 exit(1);
2246 s->sdram_size = sdram_size;
2247 s->sram_size = OMAP242X_SRAM_SIZE;
2249 s->wakeup = qemu_allocate_irqs(omap_mpu_wakeup, s, 1)[0];
2251 /* Clocks */
2252 omap_clk_init(s);
2254 /* Memory-mapped stuff */
2255 cpu_register_physical_memory(OMAP2_Q2_BASE, s->sdram_size,
2256 (q2_base = qemu_ram_alloc(NULL, "omap2.dram",
2257 s->sdram_size)) | IO_MEM_RAM);
2258 cpu_register_physical_memory(OMAP2_SRAM_BASE, s->sram_size,
2259 (sram_base = qemu_ram_alloc(NULL, "omap2.sram",
2260 s->sram_size)) | IO_MEM_RAM);
2262 s->l4 = omap_l4_init(OMAP2_L4_BASE, 54);
2264 /* Actually mapped at any 2K boundary in the ARM11 private-peripheral if */
2265 cpu_irq = arm_pic_init_cpu(s->env);
2266 s->ih[0] = omap2_inth_init(0x480fe000, 0x1000, 3, &s->irq[0],
2267 cpu_irq[ARM_PIC_CPU_IRQ], cpu_irq[ARM_PIC_CPU_FIQ],
2268 omap_findclk(s, "mpu_intc_fclk"),
2269 omap_findclk(s, "mpu_intc_iclk"));
2271 s->prcm = omap_prcm_init(omap_l4tao(s->l4, 3),
2272 s->irq[0][OMAP_INT_24XX_PRCM_MPU_IRQ], NULL, NULL, s);
2274 s->sysc = omap_sysctl_init(omap_l4tao(s->l4, 1),
2275 omap_findclk(s, "omapctrl_iclk"), s);
2277 for (i = 0; i < 4; i ++)
2278 dma_irqs[i] =
2279 s->irq[omap2_dma_irq_map[i].ih][omap2_dma_irq_map[i].intr];
2280 s->dma = omap_dma4_init(0x48056000, dma_irqs, s, 256, 32,
2281 omap_findclk(s, "sdma_iclk"),
2282 omap_findclk(s, "sdma_fclk"));
2283 s->port->addr_valid = omap2_validate_addr;
2285 /* Register SDRAM and SRAM ports for fast DMA transfers. */
2286 soc_dma_port_add_mem_ram(s->dma, q2_base, OMAP2_Q2_BASE, s->sdram_size);
2287 soc_dma_port_add_mem_ram(s->dma, sram_base, OMAP2_SRAM_BASE, s->sram_size);
2289 s->uart[0] = omap2_uart_init(omap_l4ta(s->l4, 19),
2290 s->irq[0][OMAP_INT_24XX_UART1_IRQ],
2291 omap_findclk(s, "uart1_fclk"),
2292 omap_findclk(s, "uart1_iclk"),
2293 s->drq[OMAP24XX_DMA_UART1_TX],
2294 s->drq[OMAP24XX_DMA_UART1_RX],
2295 "uart1",
2296 serial_hds[0]);
2297 s->uart[1] = omap2_uart_init(omap_l4ta(s->l4, 20),
2298 s->irq[0][OMAP_INT_24XX_UART2_IRQ],
2299 omap_findclk(s, "uart2_fclk"),
2300 omap_findclk(s, "uart2_iclk"),
2301 s->drq[OMAP24XX_DMA_UART2_TX],
2302 s->drq[OMAP24XX_DMA_UART2_RX],
2303 "uart2",
2304 serial_hds[0] ? serial_hds[1] : NULL);
2305 s->uart[2] = omap2_uart_init(omap_l4ta(s->l4, 21),
2306 s->irq[0][OMAP_INT_24XX_UART3_IRQ],
2307 omap_findclk(s, "uart3_fclk"),
2308 omap_findclk(s, "uart3_iclk"),
2309 s->drq[OMAP24XX_DMA_UART3_TX],
2310 s->drq[OMAP24XX_DMA_UART3_RX],
2311 "uart3",
2312 serial_hds[0] && serial_hds[1] ? serial_hds[2] : NULL);
2314 s->gptimer[0] = omap_gp_timer_init(omap_l4ta(s->l4, 7),
2315 s->irq[0][OMAP_INT_24XX_GPTIMER1],
2316 omap_findclk(s, "wu_gpt1_clk"),
2317 omap_findclk(s, "wu_l4_iclk"));
2318 s->gptimer[1] = omap_gp_timer_init(omap_l4ta(s->l4, 8),
2319 s->irq[0][OMAP_INT_24XX_GPTIMER2],
2320 omap_findclk(s, "core_gpt2_clk"),
2321 omap_findclk(s, "core_l4_iclk"));
2322 s->gptimer[2] = omap_gp_timer_init(omap_l4ta(s->l4, 22),
2323 s->irq[0][OMAP_INT_24XX_GPTIMER3],
2324 omap_findclk(s, "core_gpt3_clk"),
2325 omap_findclk(s, "core_l4_iclk"));
2326 s->gptimer[3] = omap_gp_timer_init(omap_l4ta(s->l4, 23),
2327 s->irq[0][OMAP_INT_24XX_GPTIMER4],
2328 omap_findclk(s, "core_gpt4_clk"),
2329 omap_findclk(s, "core_l4_iclk"));
2330 s->gptimer[4] = omap_gp_timer_init(omap_l4ta(s->l4, 24),
2331 s->irq[0][OMAP_INT_24XX_GPTIMER5],
2332 omap_findclk(s, "core_gpt5_clk"),
2333 omap_findclk(s, "core_l4_iclk"));
2334 s->gptimer[5] = omap_gp_timer_init(omap_l4ta(s->l4, 25),
2335 s->irq[0][OMAP_INT_24XX_GPTIMER6],
2336 omap_findclk(s, "core_gpt6_clk"),
2337 omap_findclk(s, "core_l4_iclk"));
2338 s->gptimer[6] = omap_gp_timer_init(omap_l4ta(s->l4, 26),
2339 s->irq[0][OMAP_INT_24XX_GPTIMER7],
2340 omap_findclk(s, "core_gpt7_clk"),
2341 omap_findclk(s, "core_l4_iclk"));
2342 s->gptimer[7] = omap_gp_timer_init(omap_l4ta(s->l4, 27),
2343 s->irq[0][OMAP_INT_24XX_GPTIMER8],
2344 omap_findclk(s, "core_gpt8_clk"),
2345 omap_findclk(s, "core_l4_iclk"));
2346 s->gptimer[8] = omap_gp_timer_init(omap_l4ta(s->l4, 28),
2347 s->irq[0][OMAP_INT_24XX_GPTIMER9],
2348 omap_findclk(s, "core_gpt9_clk"),
2349 omap_findclk(s, "core_l4_iclk"));
2350 s->gptimer[9] = omap_gp_timer_init(omap_l4ta(s->l4, 29),
2351 s->irq[0][OMAP_INT_24XX_GPTIMER10],
2352 omap_findclk(s, "core_gpt10_clk"),
2353 omap_findclk(s, "core_l4_iclk"));
2354 s->gptimer[10] = omap_gp_timer_init(omap_l4ta(s->l4, 30),
2355 s->irq[0][OMAP_INT_24XX_GPTIMER11],
2356 omap_findclk(s, "core_gpt11_clk"),
2357 omap_findclk(s, "core_l4_iclk"));
2358 s->gptimer[11] = omap_gp_timer_init(omap_l4ta(s->l4, 31),
2359 s->irq[0][OMAP_INT_24XX_GPTIMER12],
2360 omap_findclk(s, "core_gpt12_clk"),
2361 omap_findclk(s, "core_l4_iclk"));
2363 omap_tap_init(omap_l4ta(s->l4, 2), s);
2365 s->synctimer = omap_synctimer_init(omap_l4tao(s->l4, 2), s,
2366 omap_findclk(s, "clk32-kHz"),
2367 omap_findclk(s, "core_l4_iclk"));
2369 s->i2c[0] = omap2_i2c_init(omap_l4tao(s->l4, 5),
2370 s->irq[0][OMAP_INT_24XX_I2C1_IRQ],
2371 &s->drq[OMAP24XX_DMA_I2C1_TX],
2372 omap_findclk(s, "i2c1.fclk"),
2373 omap_findclk(s, "i2c1.iclk"));
2374 s->i2c[1] = omap2_i2c_init(omap_l4tao(s->l4, 6),
2375 s->irq[0][OMAP_INT_24XX_I2C2_IRQ],
2376 &s->drq[OMAP24XX_DMA_I2C2_TX],
2377 omap_findclk(s, "i2c2.fclk"),
2378 omap_findclk(s, "i2c2.iclk"));
2380 gpio_clks[0] = omap_findclk(s, "gpio1_dbclk");
2381 gpio_clks[1] = omap_findclk(s, "gpio2_dbclk");
2382 gpio_clks[2] = omap_findclk(s, "gpio3_dbclk");
2383 gpio_clks[3] = omap_findclk(s, "gpio4_dbclk");
2384 s->gpif = omap2_gpio_init(omap_l4ta(s->l4, 3),
2385 &s->irq[0][OMAP_INT_24XX_GPIO_BANK1],
2386 gpio_clks, omap_findclk(s, "gpio_iclk"), 4);
2388 s->sdrc = omap_sdrc_init(0x68009000);
2389 s->gpmc = omap_gpmc_init(0x6800a000, s->irq[0][OMAP_INT_24XX_GPMC_IRQ]);
2391 dinfo = drive_get(IF_SD, 0, 0);
2392 if (!dinfo) {
2393 fprintf(stderr, "qemu: missing SecureDigital device\n");
2394 exit(1);
2396 s->mmc = omap2_mmc_init(omap_l4tao(s->l4, 9), dinfo->bdrv,
2397 s->irq[0][OMAP_INT_24XX_MMC_IRQ],
2398 &s->drq[OMAP24XX_DMA_MMC1_TX],
2399 omap_findclk(s, "mmc_fclk"), omap_findclk(s, "mmc_iclk"));
2401 s->mcspi[0] = omap_mcspi_init(omap_l4ta(s->l4, 35), 4,
2402 s->irq[0][OMAP_INT_24XX_MCSPI1_IRQ],
2403 &s->drq[OMAP24XX_DMA_SPI1_TX0],
2404 omap_findclk(s, "spi1_fclk"),
2405 omap_findclk(s, "spi1_iclk"));
2406 s->mcspi[1] = omap_mcspi_init(omap_l4ta(s->l4, 36), 2,
2407 s->irq[0][OMAP_INT_24XX_MCSPI2_IRQ],
2408 &s->drq[OMAP24XX_DMA_SPI2_TX0],
2409 omap_findclk(s, "spi2_fclk"),
2410 omap_findclk(s, "spi2_iclk"));
2412 s->dss = omap_dss_init(omap_l4ta(s->l4, 10), 0x68000800,
2413 /* XXX wire M_IRQ_25, D_L2_IRQ_30 and I_IRQ_13 together */
2414 s->irq[0][OMAP_INT_24XX_DSS_IRQ], s->drq[OMAP24XX_DMA_DSS],
2415 omap_findclk(s, "dss_clk1"), omap_findclk(s, "dss_clk2"),
2416 omap_findclk(s, "dss_54m_clk"),
2417 omap_findclk(s, "dss_l3_iclk"),
2418 omap_findclk(s, "dss_l4_iclk"));
2420 omap_sti_init(omap_l4ta(s->l4, 18), 0x54000000,
2421 s->irq[0][OMAP_INT_24XX_STI], omap_findclk(s, "emul_ck"),
2422 serial_hds[0] && serial_hds[1] && serial_hds[2] ?
2423 serial_hds[3] : NULL);
2425 s->eac = omap_eac_init(omap_l4ta(s->l4, 32),
2426 s->irq[0][OMAP_INT_24XX_EAC_IRQ],
2427 /* Ten consecutive lines */
2428 &s->drq[OMAP24XX_DMA_EAC_AC_RD],
2429 omap_findclk(s, "func_96m_clk"),
2430 omap_findclk(s, "core_l4_iclk"));
2432 /* All register mappings (includin those not currenlty implemented):
2433 * SystemControlMod 48000000 - 48000fff
2434 * SystemControlL4 48001000 - 48001fff
2435 * 32kHz Timer Mod 48004000 - 48004fff
2436 * 32kHz Timer L4 48005000 - 48005fff
2437 * PRCM ModA 48008000 - 480087ff
2438 * PRCM ModB 48008800 - 48008fff
2439 * PRCM L4 48009000 - 48009fff
2440 * TEST-BCM Mod 48012000 - 48012fff
2441 * TEST-BCM L4 48013000 - 48013fff
2442 * TEST-TAP Mod 48014000 - 48014fff
2443 * TEST-TAP L4 48015000 - 48015fff
2444 * GPIO1 Mod 48018000 - 48018fff
2445 * GPIO Top 48019000 - 48019fff
2446 * GPIO2 Mod 4801a000 - 4801afff
2447 * GPIO L4 4801b000 - 4801bfff
2448 * GPIO3 Mod 4801c000 - 4801cfff
2449 * GPIO4 Mod 4801e000 - 4801efff
2450 * WDTIMER1 Mod 48020000 - 48010fff
2451 * WDTIMER Top 48021000 - 48011fff
2452 * WDTIMER2 Mod 48022000 - 48012fff
2453 * WDTIMER L4 48023000 - 48013fff
2454 * WDTIMER3 Mod 48024000 - 48014fff
2455 * WDTIMER3 L4 48025000 - 48015fff
2456 * WDTIMER4 Mod 48026000 - 48016fff
2457 * WDTIMER4 L4 48027000 - 48017fff
2458 * GPTIMER1 Mod 48028000 - 48018fff
2459 * GPTIMER1 L4 48029000 - 48019fff
2460 * GPTIMER2 Mod 4802a000 - 4801afff
2461 * GPTIMER2 L4 4802b000 - 4801bfff
2462 * L4-Config AP 48040000 - 480407ff
2463 * L4-Config IP 48040800 - 48040fff
2464 * L4-Config LA 48041000 - 48041fff
2465 * ARM11ETB Mod 48048000 - 48049fff
2466 * ARM11ETB L4 4804a000 - 4804afff
2467 * DISPLAY Top 48050000 - 480503ff
2468 * DISPLAY DISPC 48050400 - 480507ff
2469 * DISPLAY RFBI 48050800 - 48050bff
2470 * DISPLAY VENC 48050c00 - 48050fff
2471 * DISPLAY L4 48051000 - 48051fff
2472 * CAMERA Top 48052000 - 480523ff
2473 * CAMERA core 48052400 - 480527ff
2474 * CAMERA DMA 48052800 - 48052bff
2475 * CAMERA MMU 48052c00 - 48052fff
2476 * CAMERA L4 48053000 - 48053fff
2477 * SDMA Mod 48056000 - 48056fff
2478 * SDMA L4 48057000 - 48057fff
2479 * SSI Top 48058000 - 48058fff
2480 * SSI GDD 48059000 - 48059fff
2481 * SSI Port1 4805a000 - 4805afff
2482 * SSI Port2 4805b000 - 4805bfff
2483 * SSI L4 4805c000 - 4805cfff
2484 * USB Mod 4805e000 - 480fefff
2485 * USB L4 4805f000 - 480fffff
2486 * WIN_TRACER1 Mod 48060000 - 48060fff
2487 * WIN_TRACER1 L4 48061000 - 48061fff
2488 * WIN_TRACER2 Mod 48062000 - 48062fff
2489 * WIN_TRACER2 L4 48063000 - 48063fff
2490 * WIN_TRACER3 Mod 48064000 - 48064fff
2491 * WIN_TRACER3 L4 48065000 - 48065fff
2492 * WIN_TRACER4 Top 48066000 - 480660ff
2493 * WIN_TRACER4 ETT 48066100 - 480661ff
2494 * WIN_TRACER4 WT 48066200 - 480662ff
2495 * WIN_TRACER4 L4 48067000 - 48067fff
2496 * XTI Mod 48068000 - 48068fff
2497 * XTI L4 48069000 - 48069fff
2498 * UART1 Mod 4806a000 - 4806afff
2499 * UART1 L4 4806b000 - 4806bfff
2500 * UART2 Mod 4806c000 - 4806cfff
2501 * UART2 L4 4806d000 - 4806dfff
2502 * UART3 Mod 4806e000 - 4806efff
2503 * UART3 L4 4806f000 - 4806ffff
2504 * I2C1 Mod 48070000 - 48070fff
2505 * I2C1 L4 48071000 - 48071fff
2506 * I2C2 Mod 48072000 - 48072fff
2507 * I2C2 L4 48073000 - 48073fff
2508 * McBSP1 Mod 48074000 - 48074fff
2509 * McBSP1 L4 48075000 - 48075fff
2510 * McBSP2 Mod 48076000 - 48076fff
2511 * McBSP2 L4 48077000 - 48077fff
2512 * GPTIMER3 Mod 48078000 - 48078fff
2513 * GPTIMER3 L4 48079000 - 48079fff
2514 * GPTIMER4 Mod 4807a000 - 4807afff
2515 * GPTIMER4 L4 4807b000 - 4807bfff
2516 * GPTIMER5 Mod 4807c000 - 4807cfff
2517 * GPTIMER5 L4 4807d000 - 4807dfff
2518 * GPTIMER6 Mod 4807e000 - 4807efff
2519 * GPTIMER6 L4 4807f000 - 4807ffff
2520 * GPTIMER7 Mod 48080000 - 48080fff
2521 * GPTIMER7 L4 48081000 - 48081fff
2522 * GPTIMER8 Mod 48082000 - 48082fff
2523 * GPTIMER8 L4 48083000 - 48083fff
2524 * GPTIMER9 Mod 48084000 - 48084fff
2525 * GPTIMER9 L4 48085000 - 48085fff
2526 * GPTIMER10 Mod 48086000 - 48086fff
2527 * GPTIMER10 L4 48087000 - 48087fff
2528 * GPTIMER11 Mod 48088000 - 48088fff
2529 * GPTIMER11 L4 48089000 - 48089fff
2530 * GPTIMER12 Mod 4808a000 - 4808afff
2531 * GPTIMER12 L4 4808b000 - 4808bfff
2532 * EAC Mod 48090000 - 48090fff
2533 * EAC L4 48091000 - 48091fff
2534 * FAC Mod 48092000 - 48092fff
2535 * FAC L4 48093000 - 48093fff
2536 * MAILBOX Mod 48094000 - 48094fff
2537 * MAILBOX L4 48095000 - 48095fff
2538 * SPI1 Mod 48098000 - 48098fff
2539 * SPI1 L4 48099000 - 48099fff
2540 * SPI2 Mod 4809a000 - 4809afff
2541 * SPI2 L4 4809b000 - 4809bfff
2542 * MMC/SDIO Mod 4809c000 - 4809cfff
2543 * MMC/SDIO L4 4809d000 - 4809dfff
2544 * MS_PRO Mod 4809e000 - 4809efff
2545 * MS_PRO L4 4809f000 - 4809ffff
2546 * RNG Mod 480a0000 - 480a0fff
2547 * RNG L4 480a1000 - 480a1fff
2548 * DES3DES Mod 480a2000 - 480a2fff
2549 * DES3DES L4 480a3000 - 480a3fff
2550 * SHA1MD5 Mod 480a4000 - 480a4fff
2551 * SHA1MD5 L4 480a5000 - 480a5fff
2552 * AES Mod 480a6000 - 480a6fff
2553 * AES L4 480a7000 - 480a7fff
2554 * PKA Mod 480a8000 - 480a9fff
2555 * PKA L4 480aa000 - 480aafff
2556 * MG Mod 480b0000 - 480b0fff
2557 * MG L4 480b1000 - 480b1fff
2558 * HDQ/1-wire Mod 480b2000 - 480b2fff
2559 * HDQ/1-wire L4 480b3000 - 480b3fff
2560 * MPU interrupt 480fe000 - 480fefff
2561 * STI channel base 54000000 - 5400ffff
2562 * IVA RAM 5c000000 - 5c01ffff
2563 * IVA ROM 5c020000 - 5c027fff
2564 * IMG_BUF_A 5c040000 - 5c040fff
2565 * IMG_BUF_B 5c042000 - 5c042fff
2566 * VLCDS 5c048000 - 5c0487ff
2567 * IMX_COEF 5c049000 - 5c04afff
2568 * IMX_CMD 5c051000 - 5c051fff
2569 * VLCDQ 5c053000 - 5c0533ff
2570 * VLCDH 5c054000 - 5c054fff
2571 * SEQ_CMD 5c055000 - 5c055fff
2572 * IMX_REG 5c056000 - 5c0560ff
2573 * VLCD_REG 5c056100 - 5c0561ff
2574 * SEQ_REG 5c056200 - 5c0562ff
2575 * IMG_BUF_REG 5c056300 - 5c0563ff
2576 * SEQIRQ_REG 5c056400 - 5c0564ff
2577 * OCP_REG 5c060000 - 5c060fff
2578 * SYSC_REG 5c070000 - 5c070fff
2579 * MMU_REG 5d000000 - 5d000fff
2580 * sDMA R 68000400 - 680005ff
2581 * sDMA W 68000600 - 680007ff
2582 * Display Control 68000800 - 680009ff
2583 * DSP subsystem 68000a00 - 68000bff
2584 * MPU subsystem 68000c00 - 68000dff
2585 * IVA subsystem 68001000 - 680011ff
2586 * USB 68001200 - 680013ff
2587 * Camera 68001400 - 680015ff
2588 * VLYNQ (firewall) 68001800 - 68001bff
2589 * VLYNQ 68001e00 - 68001fff
2590 * SSI 68002000 - 680021ff
2591 * L4 68002400 - 680025ff
2592 * DSP (firewall) 68002800 - 68002bff
2593 * DSP subsystem 68002e00 - 68002fff
2594 * IVA (firewall) 68003000 - 680033ff
2595 * IVA 68003600 - 680037ff
2596 * GFX 68003a00 - 68003bff
2597 * CMDWR emulation 68003c00 - 68003dff
2598 * SMS 68004000 - 680041ff
2599 * OCM 68004200 - 680043ff
2600 * GPMC 68004400 - 680045ff
2601 * RAM (firewall) 68005000 - 680053ff
2602 * RAM (err login) 68005400 - 680057ff
2603 * ROM (firewall) 68005800 - 68005bff
2604 * ROM (err login) 68005c00 - 68005fff
2605 * GPMC (firewall) 68006000 - 680063ff
2606 * GPMC (err login) 68006400 - 680067ff
2607 * SMS (err login) 68006c00 - 68006fff
2608 * SMS registers 68008000 - 68008fff
2609 * SDRC registers 68009000 - 68009fff
2610 * GPMC registers 6800a000 6800afff
2613 qemu_register_reset(omap2_mpu_reset, s);
2615 return s;