PPC: booke206: allow NULL raddr in ppcmas_tlb_check
[qemu/agraf.git] / hw / alpha_typhoon.c
blob8a68c7c7e0ea3b066208c108e0c283feed66d7cb
1 /*
2 * DEC 21272 (TSUNAMI/TYPHOON) chipset emulation.
4 * Written by Richard Henderson.
6 * This work is licensed under the GNU GPL license version 2 or later.
7 */
9 #include "cpu.h"
10 #include "exec-all.h"
11 #include "hw.h"
12 #include "devices.h"
13 #include "sysemu.h"
14 #include "alpha_sys.h"
15 #include "exec-memory.h"
18 typedef struct TyphoonCchip {
19 MemoryRegion region;
20 uint64_t misc;
21 uint64_t drir;
22 uint64_t dim[4];
23 uint32_t iic[4];
24 CPUState *cpu[4];
25 } TyphoonCchip;
27 typedef struct TyphoonWindow {
28 uint32_t base_addr;
29 uint32_t mask;
30 uint32_t translated_base_pfn;
31 } TyphoonWindow;
33 typedef struct TyphoonPchip {
34 MemoryRegion region;
35 MemoryRegion reg_iack;
36 MemoryRegion reg_mem;
37 MemoryRegion reg_io;
38 MemoryRegion reg_conf;
39 uint64_t ctl;
40 TyphoonWindow win[4];
41 } TyphoonPchip;
43 typedef struct TyphoonState {
44 PCIHostState host;
45 TyphoonCchip cchip;
46 TyphoonPchip pchip;
47 MemoryRegion dchip_region;
48 MemoryRegion ram_region;
50 /* QEMU emulation state. */
51 uint32_t latch_tmp;
52 } TyphoonState;
54 /* Called when one of DRIR or DIM changes. */
55 static void cpu_irq_change(CPUState *env, uint64_t req)
57 /* If there are any non-masked interrupts, tell the cpu. */
58 if (env) {
59 if (req) {
60 cpu_interrupt(env, CPU_INTERRUPT_HARD);
61 } else {
62 cpu_reset_interrupt(env, CPU_INTERRUPT_HARD);
67 static uint64_t cchip_read(void *opaque, target_phys_addr_t addr, unsigned size)
69 CPUState *env = cpu_single_env;
70 TyphoonState *s = opaque;
71 uint64_t ret = 0;
73 if (addr & 4) {
74 return s->latch_tmp;
77 switch (addr) {
78 case 0x0000:
79 /* CSC: Cchip System Configuration Register. */
80 /* All sorts of data here; probably the only thing relevant is
81 PIP<14> Pchip 1 Present = 0. */
82 break;
84 case 0x0040:
85 /* MTR: Memory Timing Register. */
86 /* All sorts of stuff related to real DRAM. */
87 break;
89 case 0x0080:
90 /* MISC: Miscellaneous Register. */
91 ret = s->cchip.misc | (env->cpu_index & 3);
92 break;
94 case 0x00c0:
95 /* MPD: Memory Presence Detect Register. */
96 break;
98 case 0x0100: /* AAR0 */
99 case 0x0140: /* AAR1 */
100 case 0x0180: /* AAR2 */
101 case 0x01c0: /* AAR3 */
102 /* AAR: Array Address Register. */
103 /* All sorts of information about DRAM. */
104 break;
106 case 0x0200:
107 /* DIM0: Device Interrupt Mask Register, CPU0. */
108 ret = s->cchip.dim[0];
109 break;
110 case 0x0240:
111 /* DIM1: Device Interrupt Mask Register, CPU1. */
112 ret = s->cchip.dim[1];
113 break;
114 case 0x0280:
115 /* DIR0: Device Interrupt Request Register, CPU0. */
116 ret = s->cchip.dim[0] & s->cchip.drir;
117 break;
118 case 0x02c0:
119 /* DIR1: Device Interrupt Request Register, CPU1. */
120 ret = s->cchip.dim[1] & s->cchip.drir;
121 break;
122 case 0x0300:
123 /* DRIR: Device Raw Interrupt Request Register. */
124 ret = s->cchip.drir;
125 break;
127 case 0x0340:
128 /* PRBEN: Probe Enable Register. */
129 break;
131 case 0x0380:
132 /* IIC0: Interval Ignore Count Register, CPU0. */
133 ret = s->cchip.iic[0];
134 break;
135 case 0x03c0:
136 /* IIC1: Interval Ignore Count Register, CPU1. */
137 ret = s->cchip.iic[1];
138 break;
140 case 0x0400: /* MPR0 */
141 case 0x0440: /* MPR1 */
142 case 0x0480: /* MPR2 */
143 case 0x04c0: /* MPR3 */
144 /* MPR: Memory Programming Register. */
145 break;
147 case 0x0580:
148 /* TTR: TIGbus Timing Register. */
149 /* All sorts of stuff related to interrupt delivery timings. */
150 break;
151 case 0x05c0:
152 /* TDR: TIGbug Device Timing Register. */
153 break;
155 case 0x0600:
156 /* DIM2: Device Interrupt Mask Register, CPU2. */
157 ret = s->cchip.dim[2];
158 break;
159 case 0x0640:
160 /* DIM3: Device Interrupt Mask Register, CPU3. */
161 ret = s->cchip.dim[3];
162 break;
163 case 0x0680:
164 /* DIR2: Device Interrupt Request Register, CPU2. */
165 ret = s->cchip.dim[2] & s->cchip.drir;
166 break;
167 case 0x06c0:
168 /* DIR3: Device Interrupt Request Register, CPU3. */
169 ret = s->cchip.dim[3] & s->cchip.drir;
170 break;
172 case 0x0700:
173 /* IIC2: Interval Ignore Count Register, CPU2. */
174 ret = s->cchip.iic[2];
175 break;
176 case 0x0740:
177 /* IIC3: Interval Ignore Count Register, CPU3. */
178 ret = s->cchip.iic[3];
179 break;
181 case 0x0780:
182 /* PWR: Power Management Control. */
183 break;
185 case 0x0c00: /* CMONCTLA */
186 case 0x0c40: /* CMONCTLB */
187 case 0x0c80: /* CMONCNT01 */
188 case 0x0cc0: /* CMONCNT23 */
189 break;
191 default:
192 cpu_unassigned_access(cpu_single_env, addr, 0, 0, 0, size);
193 return -1;
196 s->latch_tmp = ret >> 32;
197 return ret;
200 static uint64_t dchip_read(void *opaque, target_phys_addr_t addr, unsigned size)
202 /* Skip this. It's all related to DRAM timing and setup. */
203 return 0;
206 static uint64_t pchip_read(void *opaque, target_phys_addr_t addr, unsigned size)
208 TyphoonState *s = opaque;
209 uint64_t ret = 0;
211 if (addr & 4) {
212 return s->latch_tmp;
215 switch (addr) {
216 case 0x0000:
217 /* WSBA0: Window Space Base Address Register. */
218 ret = s->pchip.win[0].base_addr;
219 break;
220 case 0x0040:
221 /* WSBA1 */
222 ret = s->pchip.win[1].base_addr;
223 break;
224 case 0x0080:
225 /* WSBA2 */
226 ret = s->pchip.win[2].base_addr;
227 break;
228 case 0x00c0:
229 /* WSBA3 */
230 ret = s->pchip.win[3].base_addr;
231 break;
233 case 0x0100:
234 /* WSM0: Window Space Mask Register. */
235 ret = s->pchip.win[0].mask;
236 break;
237 case 0x0140:
238 /* WSM1 */
239 ret = s->pchip.win[1].mask;
240 break;
241 case 0x0180:
242 /* WSM2 */
243 ret = s->pchip.win[2].mask;
244 break;
245 case 0x01c0:
246 /* WSM3 */
247 ret = s->pchip.win[3].mask;
248 break;
250 case 0x0200:
251 /* TBA0: Translated Base Address Register. */
252 ret = (uint64_t)s->pchip.win[0].translated_base_pfn << 10;
253 break;
254 case 0x0240:
255 /* TBA1 */
256 ret = (uint64_t)s->pchip.win[1].translated_base_pfn << 10;
257 break;
258 case 0x0280:
259 /* TBA2 */
260 ret = (uint64_t)s->pchip.win[2].translated_base_pfn << 10;
261 break;
262 case 0x02c0:
263 /* TBA3 */
264 ret = (uint64_t)s->pchip.win[3].translated_base_pfn << 10;
265 break;
267 case 0x0300:
268 /* PCTL: Pchip Control Register. */
269 ret = s->pchip.ctl;
270 break;
271 case 0x0340:
272 /* PLAT: Pchip Master Latency Register. */
273 break;
274 case 0x03c0:
275 /* PERROR: Pchip Error Register. */
276 break;
277 case 0x0400:
278 /* PERRMASK: Pchip Error Mask Register. */
279 break;
280 case 0x0440:
281 /* PERRSET: Pchip Error Set Register. */
282 break;
283 case 0x0480:
284 /* TLBIV: Translation Buffer Invalidate Virtual Register (WO). */
285 break;
286 case 0x04c0:
287 /* TLBIA: Translation Buffer Invalidate All Register (WO). */
288 break;
289 case 0x0500: /* PMONCTL */
290 case 0x0540: /* PMONCNT */
291 case 0x0800: /* SPRST */
292 break;
294 default:
295 cpu_unassigned_access(cpu_single_env, addr, 0, 0, 0, size);
296 return -1;
299 s->latch_tmp = ret >> 32;
300 return ret;
303 static void cchip_write(void *opaque, target_phys_addr_t addr,
304 uint64_t v32, unsigned size)
306 TyphoonState *s = opaque;
307 uint64_t val, oldval, newval;
309 if (addr & 4) {
310 val = v32 << 32 | s->latch_tmp;
311 addr ^= 4;
312 } else {
313 s->latch_tmp = v32;
314 return;
317 switch (addr) {
318 case 0x0000:
319 /* CSC: Cchip System Configuration Register. */
320 /* All sorts of data here; nothing relevant RW. */
321 break;
323 case 0x0040:
324 /* MTR: Memory Timing Register. */
325 /* All sorts of stuff related to real DRAM. */
326 break;
328 case 0x0080:
329 /* MISC: Miscellaneous Register. */
330 newval = oldval = s->cchip.misc;
331 newval &= ~(val & 0x10000ff0); /* W1C fields */
332 if (val & 0x100000) {
333 newval &= ~0xff0000ull; /* ACL clears ABT and ABW */
334 } else {
335 newval |= val & 0x00f00000; /* ABT field is W1S */
336 if ((newval & 0xf0000) == 0) {
337 newval |= val & 0xf0000; /* ABW field is W1S iff zero */
340 newval |= (val & 0xf000) >> 4; /* IPREQ field sets IPINTR. */
342 newval &= ~0xf0000000000ull; /* WO and RW fields */
343 newval |= val & 0xf0000000000ull;
344 s->cchip.misc = newval;
346 /* Pass on changes to IPI and ITI state. */
347 if ((newval ^ oldval) & 0xff0) {
348 int i;
349 for (i = 0; i < 4; ++i) {
350 CPUState *env = s->cchip.cpu[i];
351 if (env) {
352 /* IPI can be either cleared or set by the write. */
353 if (newval & (1 << (i + 8))) {
354 cpu_interrupt(env, CPU_INTERRUPT_SMP);
355 } else {
356 cpu_reset_interrupt(env, CPU_INTERRUPT_SMP);
359 /* ITI can only be cleared by the write. */
360 if ((newval & (1 << (i + 4))) == 0) {
361 cpu_reset_interrupt(env, CPU_INTERRUPT_TIMER);
366 break;
368 case 0x00c0:
369 /* MPD: Memory Presence Detect Register. */
370 break;
372 case 0x0100: /* AAR0 */
373 case 0x0140: /* AAR1 */
374 case 0x0180: /* AAR2 */
375 case 0x01c0: /* AAR3 */
376 /* AAR: Array Address Register. */
377 /* All sorts of information about DRAM. */
378 break;
380 case 0x0200: /* DIM0 */
381 /* DIM: Device Interrupt Mask Register, CPU0. */
382 s->cchip.dim[0] = val;
383 cpu_irq_change(s->cchip.cpu[0], val & s->cchip.drir);
384 break;
385 case 0x0240: /* DIM1 */
386 /* DIM: Device Interrupt Mask Register, CPU1. */
387 s->cchip.dim[0] = val;
388 cpu_irq_change(s->cchip.cpu[1], val & s->cchip.drir);
389 break;
391 case 0x0280: /* DIR0 (RO) */
392 case 0x02c0: /* DIR1 (RO) */
393 case 0x0300: /* DRIR (RO) */
394 break;
396 case 0x0340:
397 /* PRBEN: Probe Enable Register. */
398 break;
400 case 0x0380: /* IIC0 */
401 s->cchip.iic[0] = val & 0xffffff;
402 break;
403 case 0x03c0: /* IIC1 */
404 s->cchip.iic[1] = val & 0xffffff;
405 break;
407 case 0x0400: /* MPR0 */
408 case 0x0440: /* MPR1 */
409 case 0x0480: /* MPR2 */
410 case 0x04c0: /* MPR3 */
411 /* MPR: Memory Programming Register. */
412 break;
414 case 0x0580:
415 /* TTR: TIGbus Timing Register. */
416 /* All sorts of stuff related to interrupt delivery timings. */
417 break;
418 case 0x05c0:
419 /* TDR: TIGbug Device Timing Register. */
420 break;
422 case 0x0600:
423 /* DIM2: Device Interrupt Mask Register, CPU2. */
424 s->cchip.dim[2] = val;
425 cpu_irq_change(s->cchip.cpu[2], val & s->cchip.drir);
426 break;
427 case 0x0640:
428 /* DIM3: Device Interrupt Mask Register, CPU3. */
429 s->cchip.dim[3] = val;
430 cpu_irq_change(s->cchip.cpu[3], val & s->cchip.drir);
431 break;
433 case 0x0680: /* DIR2 (RO) */
434 case 0x06c0: /* DIR3 (RO) */
435 break;
437 case 0x0700: /* IIC2 */
438 s->cchip.iic[2] = val & 0xffffff;
439 break;
440 case 0x0740: /* IIC3 */
441 s->cchip.iic[3] = val & 0xffffff;
442 break;
444 case 0x0780:
445 /* PWR: Power Management Control. */
446 break;
448 case 0x0c00: /* CMONCTLA */
449 case 0x0c40: /* CMONCTLB */
450 case 0x0c80: /* CMONCNT01 */
451 case 0x0cc0: /* CMONCNT23 */
452 break;
454 default:
455 cpu_unassigned_access(cpu_single_env, addr, 1, 0, 0, size);
456 return;
460 static void dchip_write(void *opaque, target_phys_addr_t addr,
461 uint64_t val, unsigned size)
463 /* Skip this. It's all related to DRAM timing and setup. */
466 static void pchip_write(void *opaque, target_phys_addr_t addr,
467 uint64_t v32, unsigned size)
469 TyphoonState *s = opaque;
470 uint64_t val, oldval;
472 if (addr & 4) {
473 val = v32 << 32 | s->latch_tmp;
474 addr ^= 4;
475 } else {
476 s->latch_tmp = v32;
477 return;
480 switch (addr) {
481 case 0x0000:
482 /* WSBA0: Window Space Base Address Register. */
483 s->pchip.win[0].base_addr = val;
484 break;
485 case 0x0040:
486 /* WSBA1 */
487 s->pchip.win[1].base_addr = val;
488 break;
489 case 0x0080:
490 /* WSBA2 */
491 s->pchip.win[2].base_addr = val;
492 break;
493 case 0x00c0:
494 /* WSBA3 */
495 s->pchip.win[3].base_addr = val;
496 break;
498 case 0x0100:
499 /* WSM0: Window Space Mask Register. */
500 s->pchip.win[0].mask = val;
501 break;
502 case 0x0140:
503 /* WSM1 */
504 s->pchip.win[1].mask = val;
505 break;
506 case 0x0180:
507 /* WSM2 */
508 s->pchip.win[2].mask = val;
509 break;
510 case 0x01c0:
511 /* WSM3 */
512 s->pchip.win[3].mask = val;
513 break;
515 case 0x0200:
516 /* TBA0: Translated Base Address Register. */
517 s->pchip.win[0].translated_base_pfn = val >> 10;
518 break;
519 case 0x0240:
520 /* TBA1 */
521 s->pchip.win[1].translated_base_pfn = val >> 10;
522 break;
523 case 0x0280:
524 /* TBA2 */
525 s->pchip.win[2].translated_base_pfn = val >> 10;
526 break;
527 case 0x02c0:
528 /* TBA3 */
529 s->pchip.win[3].translated_base_pfn = val >> 10;
530 break;
532 case 0x0300:
533 /* PCTL: Pchip Control Register. */
534 oldval = s->pchip.ctl;
535 oldval &= ~0x00001cff0fc7ffull; /* RW fields */
536 oldval |= val & 0x00001cff0fc7ffull;
538 s->pchip.ctl = oldval;
539 break;
541 case 0x0340:
542 /* PLAT: Pchip Master Latency Register. */
543 break;
544 case 0x03c0:
545 /* PERROR: Pchip Error Register. */
546 break;
547 case 0x0400:
548 /* PERRMASK: Pchip Error Mask Register. */
549 break;
550 case 0x0440:
551 /* PERRSET: Pchip Error Set Register. */
552 break;
554 case 0x0480:
555 /* TLBIV: Translation Buffer Invalidate Virtual Register. */
556 break;
558 case 0x04c0:
559 /* TLBIA: Translation Buffer Invalidate All Register (WO). */
560 break;
562 case 0x0500:
563 /* PMONCTL */
564 case 0x0540:
565 /* PMONCNT */
566 case 0x0800:
567 /* SPRST */
568 break;
570 default:
571 cpu_unassigned_access(cpu_single_env, addr, 1, 0, 0, size);
572 return;
576 static const MemoryRegionOps cchip_ops = {
577 .read = cchip_read,
578 .write = cchip_write,
579 .endianness = DEVICE_LITTLE_ENDIAN,
580 .valid = {
581 .min_access_size = 4, /* ??? Should be 8. */
582 .max_access_size = 8,
584 .impl = {
585 .min_access_size = 4,
586 .max_access_size = 4,
590 static const MemoryRegionOps dchip_ops = {
591 .read = dchip_read,
592 .write = dchip_write,
593 .endianness = DEVICE_LITTLE_ENDIAN,
594 .valid = {
595 .min_access_size = 4, /* ??? Should be 8. */
596 .max_access_size = 8,
598 .impl = {
599 .min_access_size = 4,
600 .max_access_size = 8,
604 static const MemoryRegionOps pchip_ops = {
605 .read = pchip_read,
606 .write = pchip_write,
607 .endianness = DEVICE_LITTLE_ENDIAN,
608 .valid = {
609 .min_access_size = 4, /* ??? Should be 8. */
610 .max_access_size = 8,
612 .impl = {
613 .min_access_size = 4,
614 .max_access_size = 4,
618 static void typhoon_set_irq(void *opaque, int irq, int level)
620 TyphoonState *s = opaque;
621 uint64_t drir;
622 int i;
624 /* Set/Reset the bit in CCHIP.DRIR based on IRQ+LEVEL. */
625 drir = s->cchip.drir;
626 if (level) {
627 drir |= 1ull << irq;
628 } else {
629 drir &= ~(1ull << irq);
631 s->cchip.drir = drir;
633 for (i = 0; i < 4; ++i) {
634 cpu_irq_change(s->cchip.cpu[i], s->cchip.dim[i] & drir);
638 static void typhoon_set_isa_irq(void *opaque, int irq, int level)
640 typhoon_set_irq(opaque, 55, level);
643 static void typhoon_set_timer_irq(void *opaque, int irq, int level)
645 TyphoonState *s = opaque;
646 int i;
648 /* Thankfully, the mc146818rtc code doesn't track the IRQ state,
649 and so we don't have to worry about missing interrupts just
650 because we never actually ACK the interrupt. Just ignore any
651 case of the interrupt level going low. */
652 if (level == 0) {
653 return;
656 /* Deliver the interrupt to each CPU, considering each CPU's IIC. */
657 for (i = 0; i < 4; ++i) {
658 CPUState *env = s->cchip.cpu[i];
659 if (env) {
660 uint32_t iic = s->cchip.iic[i];
662 /* ??? The verbage in Section 10.2.2.10 isn't 100% clear.
663 Bit 24 is the OverFlow bit, RO, and set when the count
664 decrements past 0. When is OF cleared? My guess is that
665 OF is actually cleared when the IIC is written, and that
666 the ICNT field always decrements. At least, that's an
667 interpretation that makes sense, and "allows the CPU to
668 determine exactly how mant interval timer ticks were
669 skipped". At least within the next 4M ticks... */
671 iic = ((iic - 1) & 0x1ffffff) | (iic & 0x1000000);
672 s->cchip.iic[i] = iic;
674 if (iic & 0x1000000) {
675 /* Set the ITI bit for this cpu. */
676 s->cchip.misc |= 1 << (i + 4);
677 /* And signal the interrupt. */
678 cpu_interrupt(env, CPU_INTERRUPT_TIMER);
684 static void typhoon_alarm_timer(void *opaque)
686 TyphoonState *s = (TyphoonState *)((uintptr_t)opaque & ~3);
687 int cpu = (uintptr_t)opaque & 3;
689 /* Set the ITI bit for this cpu. */
690 s->cchip.misc |= 1 << (cpu + 4);
691 cpu_interrupt(s->cchip.cpu[cpu], CPU_INTERRUPT_TIMER);
694 PCIBus *typhoon_init(ram_addr_t ram_size, ISABus **isa_bus,
695 qemu_irq *p_rtc_irq,
696 CPUState *cpus[4], pci_map_irq_fn sys_map_irq)
698 const uint64_t MB = 1024 * 1024;
699 const uint64_t GB = 1024 * MB;
700 MemoryRegion *addr_space = get_system_memory();
701 MemoryRegion *addr_space_io = get_system_io();
702 DeviceState *dev;
703 PCIHostState *p;
704 TyphoonState *s;
705 PCIBus *b;
706 int i;
708 dev = qdev_create(NULL, "typhoon-pcihost");
709 qdev_init_nofail(dev);
711 p = FROM_SYSBUS(PCIHostState, sysbus_from_qdev(dev));
712 s = container_of(p, TyphoonState, host);
714 /* Remember the CPUs so that we can deliver interrupts to them. */
715 for (i = 0; i < 4; i++) {
716 CPUState *env = cpus[i];
717 s->cchip.cpu[i] = env;
718 if (env) {
719 env->alarm_timer = qemu_new_timer_ns(rtc_clock,
720 typhoon_alarm_timer,
721 (void *)((uintptr_t)s + i));
725 *p_rtc_irq = *qemu_allocate_irqs(typhoon_set_timer_irq, s, 1);
727 /* Main memory region, 0x00.0000.0000. Real hardware supports 32GB,
728 but the address space hole reserved at this point is 8TB. */
729 memory_region_init_ram(&s->ram_region, "ram", ram_size);
730 vmstate_register_ram_global(&s->ram_region);
731 memory_region_add_subregion(addr_space, 0, &s->ram_region);
733 /* TIGbus, 0x801.0000.0000, 1GB. */
734 /* ??? The TIGbus is used for delivering interrupts, and access to
735 the flash ROM. I'm not sure that we need to implement it at all. */
737 /* Pchip0 CSRs, 0x801.8000.0000, 256MB. */
738 memory_region_init_io(&s->pchip.region, &pchip_ops, s, "pchip0", 256*MB);
739 memory_region_add_subregion(addr_space, 0x80180000000ULL,
740 &s->pchip.region);
742 /* Cchip CSRs, 0x801.A000.0000, 256MB. */
743 memory_region_init_io(&s->cchip.region, &cchip_ops, s, "cchip0", 256*MB);
744 memory_region_add_subregion(addr_space, 0x801a0000000ULL,
745 &s->cchip.region);
747 /* Dchip CSRs, 0x801.B000.0000, 256MB. */
748 memory_region_init_io(&s->dchip_region, &dchip_ops, s, "dchip0", 256*MB);
749 memory_region_add_subregion(addr_space, 0x801b0000000ULL,
750 &s->dchip_region);
752 /* Pchip0 PCI memory, 0x800.0000.0000, 4GB. */
753 memory_region_init(&s->pchip.reg_mem, "pci0-mem", 4*GB);
754 memory_region_add_subregion(addr_space, 0x80000000000ULL,
755 &s->pchip.reg_mem);
757 /* Pchip0 PCI I/O, 0x801.FC00.0000, 32MB. */
758 /* ??? Ideally we drop the "system" i/o space on the floor and give the
759 PCI subsystem the full address space reserved by the chipset.
760 We can't do that until the MEM and IO paths in memory.c are unified. */
761 memory_region_init_io(&s->pchip.reg_io, &alpha_pci_bw_io_ops, NULL,
762 "pci0-io", 32*MB);
763 memory_region_add_subregion(addr_space, 0x801fc000000ULL,
764 &s->pchip.reg_io);
766 b = pci_register_bus(&s->host.busdev.qdev, "pci",
767 typhoon_set_irq, sys_map_irq, s,
768 &s->pchip.reg_mem, addr_space_io, 0, 64);
769 s->host.bus = b;
771 /* Pchip0 PCI special/interrupt acknowledge, 0x801.F800.0000, 64MB. */
772 memory_region_init_io(&s->pchip.reg_iack, &alpha_pci_iack_ops, b,
773 "pci0-iack", 64*MB);
774 memory_region_add_subregion(addr_space, 0x801f8000000ULL,
775 &s->pchip.reg_iack);
777 /* Pchip0 PCI configuration, 0x801.FE00.0000, 16MB. */
778 memory_region_init_io(&s->pchip.reg_conf, &alpha_pci_conf1_ops, b,
779 "pci0-conf", 16*MB);
780 memory_region_add_subregion(addr_space, 0x801fe000000ULL,
781 &s->pchip.reg_conf);
783 /* For the record, these are the mappings for the second PCI bus.
784 We can get away with not implementing them because we indicate
785 via the Cchip.CSC<PIP> bit that Pchip1 is not present. */
786 /* Pchip1 PCI memory, 0x802.0000.0000, 4GB. */
787 /* Pchip1 CSRs, 0x802.8000.0000, 256MB. */
788 /* Pchip1 PCI special/interrupt acknowledge, 0x802.F800.0000, 64MB. */
789 /* Pchip1 PCI I/O, 0x802.FC00.0000, 32MB. */
790 /* Pchip1 PCI configuration, 0x802.FE00.0000, 16MB. */
792 /* Init the ISA bus. */
793 /* ??? Technically there should be a cy82c693ub pci-isa bridge. */
795 qemu_irq isa_pci_irq, *isa_irqs;
797 *isa_bus = isa_bus_new(NULL, addr_space_io);
798 isa_pci_irq = *qemu_allocate_irqs(typhoon_set_isa_irq, s, 1);
799 isa_irqs = i8259_init(*isa_bus, isa_pci_irq);
800 isa_bus_irqs(*isa_bus, isa_irqs);
803 return b;
806 static int typhoon_pcihost_init(SysBusDevice *dev)
808 return 0;
811 static void typhoon_pcihost_class_init(ObjectClass *klass, void *data)
813 SysBusDeviceClass *k = SYS_BUS_DEVICE_CLASS(klass);
815 k->init = typhoon_pcihost_init;
818 static DeviceInfo typhoon_pcihost_info = {
819 .name = "typhoon-pcihost",
820 .size = sizeof(TyphoonState),
821 .no_user = 1,
822 .class_init = typhoon_pcihost_class_init,
825 static void typhoon_register(void)
827 sysbus_register_withprop(&typhoon_pcihost_info);
829 device_init(typhoon_register);