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Expand PMF_FN_* macros.
[netbsd-mini2440.git] / sys / dev / pci / pci_subr.c
blob4260ce70c541c8fe0004905e19c08f5426fd4586
1 /* $NetBSD: pci_subr.c,v 1.76 2008/11/17 23:33:41 matt Exp $ */
2
3 /*
4 * Copyright (c) 1997 Zubin D. Dittia. All rights reserved.
5 * Copyright (c) 1995, 1996, 1998, 2000
6 * Christopher G. Demetriou. All rights reserved.
7 * Copyright (c) 1994 Charles M. Hannum. All rights reserved.
8 *
9 * Redistribution and use in source and binary forms, with or without
10 * modification, are permitted provided that the following conditions
11 * are met:
12 * 1. Redistributions of source code must retain the above copyright
13 * notice, this list of conditions and the following disclaimer.
14 * 2. Redistributions in binary form must reproduce the above copyright
15 * notice, this list of conditions and the following disclaimer in the
16 * documentation and/or other materials provided with the distribution.
17 * 3. All advertising materials mentioning features or use of this software
18 * must display the following acknowledgement:
19 * This product includes software developed by Charles M. Hannum.
20 * 4. The name of the author may not be used to endorse or promote products
21 * derived from this software without specific prior written permission.
22 *
23 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
24 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
25 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
26 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
27 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
28 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
29 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
30 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
31 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
32 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
33 */
34
35 /*
36 * PCI autoconfiguration support functions.
37 *
38 * Note: This file is also built into a userland library (libpci).
39 * Pay attention to this when you make modifications.
40 */
41
42 #include <sys/cdefs.h>
43 __KERNEL_RCSID(0, "$NetBSD: pci_subr.c,v 1.76 2008/11/17 23:33:41 matt Exp $");
44
45 #ifdef _KERNEL_OPT
46 #include "opt_pci.h"
47 #endif
48
49 #include <sys/param.h>
50
51 #ifdef _KERNEL
52 #include <sys/systm.h>
53 #include <sys/intr.h>
54 #else
55 #include <pci.h>
56 #include <stdbool.h>
57 #include <stdio.h>
58 #endif
59
60 #include <dev/pci/pcireg.h>
61 #ifdef _KERNEL
62 #include <dev/pci/pcivar.h>
63 #endif
64 #ifdef PCIVERBOSE
65 #include <dev/pci/pcidevs.h>
66 #endif
67
68 /*
69 * Descriptions of known PCI classes and subclasses.
70 *
71 * Subclasses are described in the same way as classes, but have a
72 * NULL subclass pointer.
73 */
74 struct pci_class {
75 const char *name;
76 int val; /* as wide as pci_{,sub}class_t */
77 const struct pci_class *subclasses;
78 };
79
80 static const struct pci_class pci_subclass_prehistoric[] = {
81 { "miscellaneous", PCI_SUBCLASS_PREHISTORIC_MISC, NULL, },
82 { "VGA", PCI_SUBCLASS_PREHISTORIC_VGA, NULL, },
83 { NULL, 0, NULL, },
84 };
85
86 static const struct pci_class pci_subclass_mass_storage[] = {
87 { "SCSI", PCI_SUBCLASS_MASS_STORAGE_SCSI, NULL, },
88 { "IDE", PCI_SUBCLASS_MASS_STORAGE_IDE, NULL, },
89 { "floppy", PCI_SUBCLASS_MASS_STORAGE_FLOPPY, NULL, },
90 { "IPI", PCI_SUBCLASS_MASS_STORAGE_IPI, NULL, },
91 { "RAID", PCI_SUBCLASS_MASS_STORAGE_RAID, NULL, },
92 { "ATA", PCI_SUBCLASS_MASS_STORAGE_ATA, NULL, },
93 { "SATA", PCI_SUBCLASS_MASS_STORAGE_SATA, NULL, },
94 { "SAS", PCI_SUBCLASS_MASS_STORAGE_SAS, NULL, },
95 { "miscellaneous", PCI_SUBCLASS_MASS_STORAGE_MISC, NULL, },
96 { NULL, 0, NULL, },
97 };
98
99 static const struct pci_class pci_subclass_network[] = {
100 { "ethernet", PCI_SUBCLASS_NETWORK_ETHERNET, NULL, },
101 { "token ring", PCI_SUBCLASS_NETWORK_TOKENRING, NULL, },
102 { "FDDI", PCI_SUBCLASS_NETWORK_FDDI, NULL, },
103 { "ATM", PCI_SUBCLASS_NETWORK_ATM, NULL, },
104 { "ISDN", PCI_SUBCLASS_NETWORK_ISDN, NULL, },
105 { "WorldFip", PCI_SUBCLASS_NETWORK_WORLDFIP, NULL, },
106 { "PCMIG Multi Computing", PCI_SUBCLASS_NETWORK_PCIMGMULTICOMP, NULL, },
107 { "miscellaneous", PCI_SUBCLASS_NETWORK_MISC, NULL, },
108 { NULL, 0, NULL, },
109 };
110
111 static const struct pci_class pci_subclass_display[] = {
112 { "VGA", PCI_SUBCLASS_DISPLAY_VGA, NULL, },
113 { "XGA", PCI_SUBCLASS_DISPLAY_XGA, NULL, },
114 { "3D", PCI_SUBCLASS_DISPLAY_3D, NULL, },
115 { "miscellaneous", PCI_SUBCLASS_DISPLAY_MISC, NULL, },
116 { NULL, 0, NULL, },
117 };
118
119 static const struct pci_class pci_subclass_multimedia[] = {
120 { "video", PCI_SUBCLASS_MULTIMEDIA_VIDEO, NULL, },
121 { "audio", PCI_SUBCLASS_MULTIMEDIA_AUDIO, NULL, },
122 { "telephony", PCI_SUBCLASS_MULTIMEDIA_TELEPHONY, NULL,},
123 { "miscellaneous", PCI_SUBCLASS_MULTIMEDIA_MISC, NULL, },
124 { NULL, 0, NULL, },
125 };
126
127 static const struct pci_class pci_subclass_memory[] = {
128 { "RAM", PCI_SUBCLASS_MEMORY_RAM, NULL, },
129 { "flash", PCI_SUBCLASS_MEMORY_FLASH, NULL, },
130 { "miscellaneous", PCI_SUBCLASS_MEMORY_MISC, NULL, },
131 { NULL, 0, NULL, },
132 };
133
134 static const struct pci_class pci_subclass_bridge[] = {
135 { "host", PCI_SUBCLASS_BRIDGE_HOST, NULL, },
136 { "ISA", PCI_SUBCLASS_BRIDGE_ISA, NULL, },
137 { "EISA", PCI_SUBCLASS_BRIDGE_EISA, NULL, },
138 { "MicroChannel", PCI_SUBCLASS_BRIDGE_MC, NULL, },
139 { "PCI", PCI_SUBCLASS_BRIDGE_PCI, NULL, },
140 { "PCMCIA", PCI_SUBCLASS_BRIDGE_PCMCIA, NULL, },
141 { "NuBus", PCI_SUBCLASS_BRIDGE_NUBUS, NULL, },
142 { "CardBus", PCI_SUBCLASS_BRIDGE_CARDBUS, NULL, },
143 { "RACEway", PCI_SUBCLASS_BRIDGE_RACEWAY, NULL, },
144 { "Semi-transparent PCI", PCI_SUBCLASS_BRIDGE_STPCI, NULL, },
145 { "InfiniBand", PCI_SUBCLASS_BRIDGE_INFINIBAND, NULL, },
146 { "miscellaneous", PCI_SUBCLASS_BRIDGE_MISC, NULL, },
147 { NULL, 0, NULL, },
148 };
149
150 static const struct pci_class pci_subclass_communications[] = {
151 { "serial", PCI_SUBCLASS_COMMUNICATIONS_SERIAL, NULL, },
152 { "parallel", PCI_SUBCLASS_COMMUNICATIONS_PARALLEL, NULL, },
153 { "multi-port serial", PCI_SUBCLASS_COMMUNICATIONS_MPSERIAL, NULL, },
154 { "modem", PCI_SUBCLASS_COMMUNICATIONS_MODEM, NULL, },
155 { "GPIB", PCI_SUBCLASS_COMMUNICATIONS_GPIB, NULL, },
156 { "smartcard", PCI_SUBCLASS_COMMUNICATIONS_SMARTCARD, NULL, },
157 { "miscellaneous", PCI_SUBCLASS_COMMUNICATIONS_MISC, NULL, },
158 { NULL, 0, NULL, },
159 };
160
161 static const struct pci_class pci_subclass_system[] = {
162 { "interrupt", PCI_SUBCLASS_SYSTEM_PIC, NULL, },
163 { "8237 DMA", PCI_SUBCLASS_SYSTEM_DMA, NULL, },
164 { "8254 timer", PCI_SUBCLASS_SYSTEM_TIMER, NULL, },
165 { "RTC", PCI_SUBCLASS_SYSTEM_RTC, NULL, },
166 { "PCI Hot-Plug", PCI_SUBCLASS_SYSTEM_PCIHOTPLUG, NULL, },
167 { "SD Host Controller", PCI_SUBCLASS_SYSTEM_SDHC, NULL, },
168 { "miscellaneous", PCI_SUBCLASS_SYSTEM_MISC, NULL, },
169 { NULL, 0, NULL, },
170 };
171
172 static const struct pci_class pci_subclass_input[] = {
173 { "keyboard", PCI_SUBCLASS_INPUT_KEYBOARD, NULL, },
174 { "digitizer", PCI_SUBCLASS_INPUT_DIGITIZER, NULL, },
175 { "mouse", PCI_SUBCLASS_INPUT_MOUSE, NULL, },
176 { "scanner", PCI_SUBCLASS_INPUT_SCANNER, NULL, },
177 { "game port", PCI_SUBCLASS_INPUT_GAMEPORT, NULL, },
178 { "miscellaneous", PCI_SUBCLASS_INPUT_MISC, NULL, },
179 { NULL, 0, NULL, },
180 };
181
182 static const struct pci_class pci_subclass_dock[] = {
183 { "generic", PCI_SUBCLASS_DOCK_GENERIC, NULL, },
184 { "miscellaneous", PCI_SUBCLASS_DOCK_MISC, NULL, },
185 { NULL, 0, NULL, },
186 };
187
188 static const struct pci_class pci_subclass_processor[] = {
189 { "386", PCI_SUBCLASS_PROCESSOR_386, NULL, },
190 { "486", PCI_SUBCLASS_PROCESSOR_486, NULL, },
191 { "Pentium", PCI_SUBCLASS_PROCESSOR_PENTIUM, NULL, },
192 { "Alpha", PCI_SUBCLASS_PROCESSOR_ALPHA, NULL, },
193 { "PowerPC", PCI_SUBCLASS_PROCESSOR_POWERPC, NULL, },
194 { "MIPS", PCI_SUBCLASS_PROCESSOR_MIPS, NULL, },
195 { "Co-processor", PCI_SUBCLASS_PROCESSOR_COPROC, NULL, },
196 { NULL, 0, NULL, },
197 };
198
199 static const struct pci_class pci_subclass_serialbus[] = {
200 { "Firewire", PCI_SUBCLASS_SERIALBUS_FIREWIRE, NULL, },
201 { "ACCESS.bus", PCI_SUBCLASS_SERIALBUS_ACCESS, NULL, },
202 { "SSA", PCI_SUBCLASS_SERIALBUS_SSA, NULL, },
203 { "USB", PCI_SUBCLASS_SERIALBUS_USB, NULL, },
204 /* XXX Fiber Channel/_FIBRECHANNEL */
205 { "Fiber Channel", PCI_SUBCLASS_SERIALBUS_FIBER, NULL, },
206 { "SMBus", PCI_SUBCLASS_SERIALBUS_SMBUS, NULL, },
207 { "InfiniBand", PCI_SUBCLASS_SERIALBUS_INFINIBAND, NULL,},
208 { "IPMI", PCI_SUBCLASS_SERIALBUS_IPMI, NULL, },
209 { "SERCOS", PCI_SUBCLASS_SERIALBUS_SERCOS, NULL, },
210 { "CANbus", PCI_SUBCLASS_SERIALBUS_CANBUS, NULL, },
211 { NULL, 0, NULL, },
212 };
213
214 static const struct pci_class pci_subclass_wireless[] = {
215 { "IrDA", PCI_SUBCLASS_WIRELESS_IRDA, NULL, },
216 { "Consumer IR", PCI_SUBCLASS_WIRELESS_CONSUMERIR, NULL, },
217 { "RF", PCI_SUBCLASS_WIRELESS_RF, NULL, },
218 { "bluetooth", PCI_SUBCLASS_WIRELESS_BLUETOOTH, NULL, },
219 { "broadband", PCI_SUBCLASS_WIRELESS_BROADBAND, NULL, },
220 { "802.11a (5 GHz)", PCI_SUBCLASS_WIRELESS_802_11A, NULL, },
221 { "802.11b (2.4 GHz)", PCI_SUBCLASS_WIRELESS_802_11B, NULL, },
222 { "miscellaneous", PCI_SUBCLASS_WIRELESS_MISC, NULL, },
223 { NULL, 0, NULL, },
224 };
225
226 static const struct pci_class pci_subclass_i2o[] = {
227 { "standard", PCI_SUBCLASS_I2O_STANDARD, NULL, },
228 { NULL, 0, NULL, },
229 };
230
231 static const struct pci_class pci_subclass_satcom[] = {
232 { "TV", PCI_SUBCLASS_SATCOM_TV, NULL, },
233 { "audio", PCI_SUBCLASS_SATCOM_AUDIO, NULL, },
234 { "voice", PCI_SUBCLASS_SATCOM_VOICE, NULL, },
235 { "data", PCI_SUBCLASS_SATCOM_DATA, NULL, },
236 { NULL, 0, NULL, },
237 };
238
239 static const struct pci_class pci_subclass_crypto[] = {
240 { "network/computing", PCI_SUBCLASS_CRYPTO_NETCOMP, NULL, },
241 { "entertainment", PCI_SUBCLASS_CRYPTO_ENTERTAINMENT, NULL,},
242 { "miscellaneous", PCI_SUBCLASS_CRYPTO_MISC, NULL, },
243 { NULL, 0, NULL, },
244 };
245
246 static const struct pci_class pci_subclass_dasp[] = {
247 { "DPIO", PCI_SUBCLASS_DASP_DPIO, NULL, },
248 { "Time and Frequency", PCI_SUBCLASS_DASP_TIMEFREQ, NULL, },
249 { "synchronization", PCI_SUBCLASS_DASP_SYNC, NULL, },
250 { "management", PCI_SUBCLASS_DASP_MGMT, NULL, },
251 { "miscellaneous", PCI_SUBCLASS_DASP_MISC, NULL, },
252 { NULL, 0, NULL, },
253 };
254
255 static const struct pci_class pci_class[] = {
256 { "prehistoric", PCI_CLASS_PREHISTORIC,
257 pci_subclass_prehistoric, },
258 { "mass storage", PCI_CLASS_MASS_STORAGE,
259 pci_subclass_mass_storage, },
260 { "network", PCI_CLASS_NETWORK,
261 pci_subclass_network, },
262 { "display", PCI_CLASS_DISPLAY,
263 pci_subclass_display, },
264 { "multimedia", PCI_CLASS_MULTIMEDIA,
265 pci_subclass_multimedia, },
266 { "memory", PCI_CLASS_MEMORY,
267 pci_subclass_memory, },
268 { "bridge", PCI_CLASS_BRIDGE,
269 pci_subclass_bridge, },
270 { "communications", PCI_CLASS_COMMUNICATIONS,
271 pci_subclass_communications, },
272 { "system", PCI_CLASS_SYSTEM,
273 pci_subclass_system, },
274 { "input", PCI_CLASS_INPUT,
275 pci_subclass_input, },
276 { "dock", PCI_CLASS_DOCK,
277 pci_subclass_dock, },
278 { "processor", PCI_CLASS_PROCESSOR,
279 pci_subclass_processor, },
280 { "serial bus", PCI_CLASS_SERIALBUS,
281 pci_subclass_serialbus, },
282 { "wireless", PCI_CLASS_WIRELESS,
283 pci_subclass_wireless, },
284 { "I2O", PCI_CLASS_I2O,
285 pci_subclass_i2o, },
286 { "satellite comm", PCI_CLASS_SATCOM,
287 pci_subclass_satcom, },
288 { "crypto", PCI_CLASS_CRYPTO,
289 pci_subclass_crypto, },
290 { "DASP", PCI_CLASS_DASP,
291 pci_subclass_dasp, },
292 { "undefined", PCI_CLASS_UNDEFINED,
293 NULL, },
294 { NULL, 0,
295 NULL, },
296 };
297
298 #ifdef PCIVERBOSE
299 /*
300 * Descriptions of of known vendors and devices ("products").
301 */
302
303 #include <dev/pci/pcidevs_data.h>
304 #endif /* PCIVERBOSE */
305
306 #ifdef PCIVERBOSE
307 #ifndef _KERNEL
308 #include <string.h>
309 #endif
310 static const char *
311 pci_untokenstring(const uint16_t *token, char *buf, size_t len)
312 {
313 char *cp = buf;
314
315 buf[0] = '\0';
316 for (; *token != 0; token++) {
317 cp = buf + strlcat(buf, pci_words + *token, len - 2);
318 cp[0] = ' ';
319 cp[1] = '\0';
320 }
321 *cp = '\0';
322 return cp != buf ? buf : NULL;
323 }
324 #endif /* PCIVERBOSE */
325
326 const char *
327 pci_findvendor(pcireg_t id_reg)
328 {
329 #ifdef PCIVERBOSE
330 static char buf[256];
331 pci_vendor_id_t vendor = PCI_VENDOR(id_reg);
332 size_t n;
333
334 for (n = 0; n < __arraycount(pci_vendors); n++) {
335 if (pci_vendors[n] == vendor)
336 return pci_untokenstring(&pci_vendors[n+1], buf,
337 sizeof(buf));
338
339 /* Skip Tokens */
340 n++;
341 while (pci_vendors[n] != 0 && n < __arraycount(pci_vendors))
342 n++;
343 }
344 #endif
345 return (NULL);
346 }
347
348 const char *
349 pci_findproduct(pcireg_t id_reg)
350 {
351 #ifdef PCIVERBOSE
352 static char buf[256];
353 pci_vendor_id_t vendor = PCI_VENDOR(id_reg);
354 pci_product_id_t product = PCI_PRODUCT(id_reg);
355 size_t n;
356
357 for (n = 0; n < __arraycount(pci_products); n++) {
358 if (pci_products[n] == vendor && pci_products[n+1] == product)
359 return pci_untokenstring(&pci_products[n+2], buf,
360 sizeof(buf));
361
362 /* Skip Tokens */
363 n += 2;
364 while (pci_products[n] != 0 && n < __arraycount(pci_products))
365 n++;
366 }
367 #endif
368 return (NULL);
369 }
370
371 void
372 pci_devinfo(pcireg_t id_reg, pcireg_t class_reg, int showclass, char *cp,
373 size_t l)
374 {
375 pci_vendor_id_t vendor;
376 pci_product_id_t product;
377 pci_class_t class;
378 pci_subclass_t subclass;
379 pci_interface_t interface;
380 pci_revision_t revision;
381 const char *vendor_namep, *product_namep;
382 const struct pci_class *classp, *subclassp;
383 #ifdef PCIVERBOSE
384 const char *unmatched = "unknown ";
385 #else
386 const char *unmatched = "";
387 #endif
388 char *ep;
389
390 ep = cp + l;
391
392 vendor = PCI_VENDOR(id_reg);
393 product = PCI_PRODUCT(id_reg);
394
395 class = PCI_CLASS(class_reg);
396 subclass = PCI_SUBCLASS(class_reg);
397 interface = PCI_INTERFACE(class_reg);
398 revision = PCI_REVISION(class_reg);
399
400 vendor_namep = pci_findvendor(id_reg);
401 product_namep = pci_findproduct(id_reg);
402
403 classp = pci_class;
404 while (classp->name != NULL) {
405 if (class == classp->val)
406 break;
407 classp++;
408 }
409
410 subclassp = (classp->name != NULL) ? classp->subclasses : NULL;
411 while (subclassp && subclassp->name != NULL) {
412 if (subclass == subclassp->val)
413 break;
414 subclassp++;
415 }
416
417 if (vendor_namep == NULL)
418 cp += snprintf(cp, ep - cp, "%svendor 0x%04x product 0x%04x",
419 unmatched, vendor, product);
420 else if (product_namep != NULL)
421 cp += snprintf(cp, ep - cp, "%s %s", vendor_namep,
422 product_namep);
423 else
424 cp += snprintf(cp, ep - cp, "%s product 0x%04x",
425 vendor_namep, product);
426 if (showclass) {
427 cp += snprintf(cp, ep - cp, " (");
428 if (classp->name == NULL)
429 cp += snprintf(cp, ep - cp,
430 "class 0x%02x, subclass 0x%02x", class, subclass);
431 else {
432 if (subclassp == NULL || subclassp->name == NULL)
433 cp += snprintf(cp, ep - cp,
434 "%s subclass 0x%02x",
435 classp->name, subclass);
436 else
437 cp += snprintf(cp, ep - cp, "%s %s",
438 subclassp->name, classp->name);
439 }
440 if (interface != 0)
441 cp += snprintf(cp, ep - cp, ", interface 0x%02x",
442 interface);
443 if (revision != 0)
444 cp += snprintf(cp, ep - cp, ", revision 0x%02x",
445 revision);
446 cp += snprintf(cp, ep - cp, ")");
447 }
448 }
449
450 /*
451 * Print out most of the PCI configuration registers. Typically used
452 * in a device attach routine like this:
453 *
454 * #ifdef MYDEV_DEBUG
455 * printf("%s: ", device_xname(&sc->sc_dev));
456 * pci_conf_print(pa->pa_pc, pa->pa_tag, NULL);
457 * #endif
458 */
459
460 #define i2o(i) ((i) * 4)
461 #define o2i(o) ((o) / 4)
462 #define onoff(str, bit) \
463 printf(" %s: %s\n", (str), (rval & (bit)) ? "on" : "off");
464
465 static void
466 pci_conf_print_common(
467 #ifdef _KERNEL
468 pci_chipset_tag_t pc, pcitag_t tag,
469 #endif
470 const pcireg_t *regs)
471 {
472 const char *name;
473 const struct pci_class *classp, *subclassp;
474 pcireg_t rval;
475
476 rval = regs[o2i(PCI_ID_REG)];
477 name = pci_findvendor(rval);
478 if (name)
479 printf(" Vendor Name: %s (0x%04x)\n", name,
480 PCI_VENDOR(rval));
481 else
482 printf(" Vendor ID: 0x%04x\n", PCI_VENDOR(rval));
483 name = pci_findproduct(rval);
484 if (name)
485 printf(" Device Name: %s (0x%04x)\n", name,
486 PCI_PRODUCT(rval));
487 else
488 printf(" Device ID: 0x%04x\n", PCI_PRODUCT(rval));
489
490 rval = regs[o2i(PCI_COMMAND_STATUS_REG)];
491
492 printf(" Command register: 0x%04x\n", rval & 0xffff);
493 onoff("I/O space accesses", PCI_COMMAND_IO_ENABLE);
494 onoff("Memory space accesses", PCI_COMMAND_MEM_ENABLE);
495 onoff("Bus mastering", PCI_COMMAND_MASTER_ENABLE);
496 onoff("Special cycles", PCI_COMMAND_SPECIAL_ENABLE);
497 onoff("MWI transactions", PCI_COMMAND_INVALIDATE_ENABLE);
498 onoff("Palette snooping", PCI_COMMAND_PALETTE_ENABLE);
499 onoff("Parity error checking", PCI_COMMAND_PARITY_ENABLE);
500 onoff("Address/data stepping", PCI_COMMAND_STEPPING_ENABLE);
501 onoff("System error (SERR)", PCI_COMMAND_SERR_ENABLE);
502 onoff("Fast back-to-back transactions", PCI_COMMAND_BACKTOBACK_ENABLE);
503 onoff("Interrupt disable", PCI_COMMAND_INTERRUPT_DISABLE);
504
505 printf(" Status register: 0x%04x\n", (rval >> 16) & 0xffff);
506 onoff("Capability List support", PCI_STATUS_CAPLIST_SUPPORT);
507 onoff("66 MHz capable", PCI_STATUS_66MHZ_SUPPORT);
508 onoff("User Definable Features (UDF) support", PCI_STATUS_UDF_SUPPORT);
509 onoff("Fast back-to-back capable", PCI_STATUS_BACKTOBACK_SUPPORT);
510 onoff("Data parity error detected", PCI_STATUS_PARITY_ERROR);
511
512 printf(" DEVSEL timing: ");
513 switch (rval & PCI_STATUS_DEVSEL_MASK) {
514 case PCI_STATUS_DEVSEL_FAST:
515 printf("fast");
516 break;
517 case PCI_STATUS_DEVSEL_MEDIUM:
518 printf("medium");
519 break;
520 case PCI_STATUS_DEVSEL_SLOW:
521 printf("slow");
522 break;
523 default:
524 printf("unknown/reserved"); /* XXX */
525 break;
526 }
527 printf(" (0x%x)\n", (rval & PCI_STATUS_DEVSEL_MASK) >> 25);
528
529 onoff("Slave signaled Target Abort", PCI_STATUS_TARGET_TARGET_ABORT);
530 onoff("Master received Target Abort", PCI_STATUS_MASTER_TARGET_ABORT);
531 onoff("Master received Master Abort", PCI_STATUS_MASTER_ABORT);
532 onoff("Asserted System Error (SERR)", PCI_STATUS_SPECIAL_ERROR);
533 onoff("Parity error detected", PCI_STATUS_PARITY_DETECT);
534
535 rval = regs[o2i(PCI_CLASS_REG)];
536 for (classp = pci_class; classp->name != NULL; classp++) {
537 if (PCI_CLASS(rval) == classp->val)
538 break;
539 }
540 subclassp = (classp->name != NULL) ? classp->subclasses : NULL;
541 while (subclassp && subclassp->name != NULL) {
542 if (PCI_SUBCLASS(rval) == subclassp->val)
543 break;
544 subclassp++;
545 }
546 if (classp->name != NULL) {
547 printf(" Class Name: %s (0x%02x)\n", classp->name,
548 PCI_CLASS(rval));
549 if (subclassp != NULL && subclassp->name != NULL)
550 printf(" Subclass Name: %s (0x%02x)\n",
551 subclassp->name, PCI_SUBCLASS(rval));
552 else
553 printf(" Subclass ID: 0x%02x\n", PCI_SUBCLASS(rval));
554 } else {
555 printf(" Class ID: 0x%02x\n", PCI_CLASS(rval));
556 printf(" Subclass ID: 0x%02x\n", PCI_SUBCLASS(rval));
557 }
558 printf(" Interface: 0x%02x\n", PCI_INTERFACE(rval));
559 printf(" Revision ID: 0x%02x\n", PCI_REVISION(rval));
560
561 rval = regs[o2i(PCI_BHLC_REG)];
562 printf(" BIST: 0x%02x\n", PCI_BIST(rval));
563 printf(" Header Type: 0x%02x%s (0x%02x)\n", PCI_HDRTYPE_TYPE(rval),
564 PCI_HDRTYPE_MULTIFN(rval) ? "+multifunction" : "",
565 PCI_HDRTYPE(rval));
566 printf(" Latency Timer: 0x%02x\n", PCI_LATTIMER(rval));
567 printf(" Cache Line Size: 0x%02x\n", PCI_CACHELINE(rval));
568 }
569
570 static int
571 pci_conf_print_bar(
572 #ifdef _KERNEL
573 pci_chipset_tag_t pc, pcitag_t tag,
574 #endif
575 const pcireg_t *regs, int reg, const char *name
576 #ifdef _KERNEL
577 , int sizebar
578 #endif
579 )
580 {
581 int width;
582 pcireg_t rval, rval64h;
583 #ifdef _KERNEL
584 int s;
585 pcireg_t mask, mask64h;
586 #endif
587
588 width = 4;
589
590 /*
591 * Section 6.2.5.1, `Address Maps', tells us that:
592 *
593 * 1) The builtin software should have already mapped the
594 * device in a reasonable way.
595 *
596 * 2) A device which wants 2^n bytes of memory will hardwire
597 * the bottom n bits of the address to 0. As recommended,
598 * we write all 1s and see what we get back.
599 */
600
601 rval = regs[o2i(reg)];
602 if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM &&
603 PCI_MAPREG_MEM_TYPE(rval) == PCI_MAPREG_MEM_TYPE_64BIT) {
604 rval64h = regs[o2i(reg + 4)];
605 width = 8;
606 } else
607 rval64h = 0;
608
609 #ifdef _KERNEL
610 /* XXX don't size unknown memory type? */
611 if (rval != 0 && sizebar) {
612 /*
613 * The following sequence seems to make some devices
614 * (e.g. host bus bridges, which don't normally
615 * have their space mapped) very unhappy, to
616 * the point of crashing the system.
617 *
618 * Therefore, if the mapping register is zero to
619 * start out with, don't bother trying.
620 */
621 s = splhigh();
622 pci_conf_write(pc, tag, reg, 0xffffffff);
623 mask = pci_conf_read(pc, tag, reg);
624 pci_conf_write(pc, tag, reg, rval);
625 if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM &&
626 PCI_MAPREG_MEM_TYPE(rval) == PCI_MAPREG_MEM_TYPE_64BIT) {
627 pci_conf_write(pc, tag, reg + 4, 0xffffffff);
628 mask64h = pci_conf_read(pc, tag, reg + 4);
629 pci_conf_write(pc, tag, reg + 4, rval64h);
630 } else
631 mask64h = 0;
632 splx(s);
633 } else
634 mask = mask64h = 0;
635 #endif /* _KERNEL */
636
637 printf(" Base address register at 0x%02x", reg);
638 if (name)
639 printf(" (%s)", name);
640 printf("\n ");
641 if (rval == 0) {
642 printf("not implemented(?)\n");
643 return width;
644 }
645 printf("type: ");
646 if (PCI_MAPREG_TYPE(rval) == PCI_MAPREG_TYPE_MEM) {
647 const char *type, *prefetch;
648
649 switch (PCI_MAPREG_MEM_TYPE(rval)) {
650 case PCI_MAPREG_MEM_TYPE_32BIT:
651 type = "32-bit";
652 break;
653 case PCI_MAPREG_MEM_TYPE_32BIT_1M:
654 type = "32-bit-1M";
655 break;
656 case PCI_MAPREG_MEM_TYPE_64BIT:
657 type = "64-bit";
658 break;
659 default:
660 type = "unknown (XXX)";
661 break;
662 }
663 if (PCI_MAPREG_MEM_PREFETCHABLE(rval))
664 prefetch = "";
665 else
666 prefetch = "non";
667 printf("%s %sprefetchable memory\n", type, prefetch);
668 switch (PCI_MAPREG_MEM_TYPE(rval)) {
669 case PCI_MAPREG_MEM_TYPE_64BIT:
670 printf(" base: 0x%016llx, ",
671 PCI_MAPREG_MEM64_ADDR(
672 ((((long long) rval64h) << 32) | rval)));
673 #ifdef _KERNEL
674 if (sizebar)
675 printf("size: 0x%016llx",
676 PCI_MAPREG_MEM64_SIZE(
677 ((((long long) mask64h) << 32) | mask)));
678 else
679 #endif /* _KERNEL */
680 printf("not sized");
681 printf("\n");
682 break;
683 case PCI_MAPREG_MEM_TYPE_32BIT:
684 case PCI_MAPREG_MEM_TYPE_32BIT_1M:
685 default:
686 printf(" base: 0x%08x, ",
687 PCI_MAPREG_MEM_ADDR(rval));
688 #ifdef _KERNEL
689 if (sizebar)
690 printf("size: 0x%08x",
691 PCI_MAPREG_MEM_SIZE(mask));
692 else
693 #endif /* _KERNEL */
694 printf("not sized");
695 printf("\n");
696 break;
697 }
698 } else {
699 #ifdef _KERNEL
700 if (sizebar)
701 printf("%d-bit ", mask & ~0x0000ffff ? 32 : 16);
702 #endif /* _KERNEL */
703 printf("i/o\n");
704 printf(" base: 0x%08x, ", PCI_MAPREG_IO_ADDR(rval));
705 #ifdef _KERNEL
706 if (sizebar)
707 printf("size: 0x%08x", PCI_MAPREG_IO_SIZE(mask));
708 else
709 #endif /* _KERNEL */
710 printf("not sized");
711 printf("\n");
712 }
713
714 return width;
715 }
716
717 static void
718 pci_conf_print_regs(const pcireg_t *regs, int first, int pastlast)
719 {
720 int off, needaddr, neednl;
721
722 needaddr = 1;
723 neednl = 0;
724 for (off = first; off < pastlast; off += 4) {
725 if ((off % 16) == 0 || needaddr) {
726 printf(" 0x%02x:", off);
727 needaddr = 0;
728 }
729 printf(" 0x%08x", regs[o2i(off)]);
730 neednl = 1;
731 if ((off % 16) == 12) {
732 printf("\n");
733 neednl = 0;
734 }
735 }
736 if (neednl)
737 printf("\n");
738 }
739
740 static void
741 pci_conf_print_type0(
742 #ifdef _KERNEL
743 pci_chipset_tag_t pc, pcitag_t tag,
744 #endif
745 const pcireg_t *regs
746 #ifdef _KERNEL
747 , int sizebars
748 #endif
749 )
750 {
751 int off, width;
752 pcireg_t rval;
753
754 for (off = PCI_MAPREG_START; off < PCI_MAPREG_END; off += width) {
755 #ifdef _KERNEL
756 width = pci_conf_print_bar(pc, tag, regs, off, NULL, sizebars);
757 #else
758 width = pci_conf_print_bar(regs, off, NULL);
759 #endif
760 }
761
762 printf(" Cardbus CIS Pointer: 0x%08x\n", regs[o2i(0x28)]);
763
764 rval = regs[o2i(PCI_SUBSYS_ID_REG)];
765 printf(" Subsystem vendor ID: 0x%04x\n", PCI_VENDOR(rval));
766 printf(" Subsystem ID: 0x%04x\n", PCI_PRODUCT(rval));
767
768 /* XXX */
769 printf(" Expansion ROM Base Address: 0x%08x\n", regs[o2i(0x30)]);
770
771 if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT)
772 printf(" Capability list pointer: 0x%02x\n",
773 PCI_CAPLIST_PTR(regs[o2i(PCI_CAPLISTPTR_REG)]));
774 else
775 printf(" Reserved @ 0x34: 0x%08x\n", regs[o2i(0x34)]);
776
777 printf(" Reserved @ 0x38: 0x%08x\n", regs[o2i(0x38)]);
778
779 rval = regs[o2i(PCI_INTERRUPT_REG)];
780 printf(" Maximum Latency: 0x%02x\n", (rval >> 24) & 0xff);
781 printf(" Minimum Grant: 0x%02x\n", (rval >> 16) & 0xff);
782 printf(" Interrupt pin: 0x%02x ", PCI_INTERRUPT_PIN(rval));
783 switch (PCI_INTERRUPT_PIN(rval)) {
784 case PCI_INTERRUPT_PIN_NONE:
785 printf("(none)");
786 break;
787 case PCI_INTERRUPT_PIN_A:
788 printf("(pin A)");
789 break;
790 case PCI_INTERRUPT_PIN_B:
791 printf("(pin B)");
792 break;
793 case PCI_INTERRUPT_PIN_C:
794 printf("(pin C)");
795 break;
796 case PCI_INTERRUPT_PIN_D:
797 printf("(pin D)");
798 break;
799 default:
800 printf("(? ? ?)");
801 break;
802 }
803 printf("\n");
804 printf(" Interrupt line: 0x%02x\n", PCI_INTERRUPT_LINE(rval));
805 }
806
807 static void
808 pci_conf_print_pcie_cap(const pcireg_t *regs, int capoff)
809 {
810 bool check_slot = false;
811
812 printf("\n PCI Express Capabilities Register\n");
813 printf(" Capability version: %x\n",
814 (unsigned int)((regs[o2i(capoff)] & 0x000f0000) >> 16));
815 printf(" Device type: ");
816 switch ((regs[o2i(capoff)] & 0x00f00000) >> 20) {
817 case 0x0:
818 printf("PCI Express Endpoint device\n");
819 break;
820 case 0x1:
821 printf("Legacy PCI Express Endpoint device\n");
822 break;
823 case 0x4:
824 printf("Root Port of PCI Express Root Complex\n");
825 check_slot = true;
826 break;
827 case 0x5:
828 printf("Upstream Port of PCI Express Switch\n");
829 break;
830 case 0x6:
831 printf("Downstream Port of PCI Express Switch\n");
832 check_slot = true;
833 break;
834 case 0x7:
835 printf("PCI Express to PCI/PCI-X Bridge\n");
836 break;
837 case 0x8:
838 printf("PCI/PCI-X to PCI Express Bridge\n");
839 break;
840 default:
841 printf("unknown\n");
842 break;
843 }
844 if (check_slot && (regs[o2i(capoff)] & 0x01000000) != 0)
845 printf(" Slot implemented\n");
846 printf(" Interrupt Message Number: %x\n",
847 (unsigned int)((regs[o2i(capoff)] & 0x4e000000) >> 27));
848 if ((regs[o2i(capoff + 0x18)] & 0x07ff) != 0) {
849 printf(" Slot Control Register:\n");
850 if ((regs[o2i(capoff + 0x18)] & 0x0001) != 0)
851 printf(" Attention Button Pressed Enabled\n");
852 if ((regs[o2i(capoff + 0x18)] & 0x0002) != 0)
853 printf(" Power Fault Detected Enabled\n");
854 if ((regs[o2i(capoff + 0x18)] & 0x0004) != 0)
855 printf(" MRL Sensor Changed Enabled\n");
856 if ((regs[o2i(capoff + 0x18)] & 0x0008) != 0)
857 printf(" Presense Detected Changed Enabled\n");
858 if ((regs[o2i(capoff + 0x18)] & 0x0010) != 0)
859 printf(" Command Completed Interrupt Enabled\n");
860 if ((regs[o2i(capoff + 0x18)] & 0x0020) != 0)
861 printf(" Hot-Plug Interrupt Enabled\n");
862 printf(" Attention Indictor Control: ");
863 switch ((regs[o2i(capoff + 0x18)] & 0x00a0) >> 6) {
864 case 0x0:
865 printf("reserved\n");
866 break;
867 case 0x1:
868 printf("on\n");
869 break;
870 case 0x2:
871 printf("blink\n");
872 break;
873 case 0x3:
874 printf("off\n");
875 break;
876 }
877 printf(" Power Indictor Control: ");
878 switch ((regs[o2i(capoff + 0x18)] & 0x0300) >> 8) {
879 case 0x0:
880 printf("reserved\n");
881 break;
882 case 0x1:
883 printf("on\n");
884 break;
885 case 0x2:
886 printf("blink\n");
887 break;
888 case 0x3:
889 printf("off\n");
890 break;
891 }
892 printf(" Power Controller Control: ");
893 if ((regs[o2i(capoff + 0x18)] & 0x0400) != 0)
894 printf("off\n");
895 else
896 printf("on\n");
897 }
898 }
899
900 static const char *
901 pci_conf_print_pcipm_cap_aux(uint16_t caps)
902 {
903 switch ((caps >> 6) & 7) {
904 case 0: return "self-powered";
905 case 1: return "55 mA";
906 case 2: return "100 mA";
907 case 3: return "160 mA";
908 case 4: return "220 mA";
909 case 5: return "270 mA";
910 case 6: return "320 mA";
911 case 7:
912 default: return "375 mA";
913 }
914 }
915
916 static const char *
917 pci_conf_print_pcipm_cap_pmrev(uint8_t val)
918 {
919 static const char unk[] = "unknown";
920 static const char *pmrev[8] = {
921 unk, "1.0", "1.1", "1.2", unk, unk, unk, unk
922 };
923 if (val > 7)
924 return unk;
925 return pmrev[val];
926 }
927
928 static void
929 pci_conf_print_pcipm_cap(const pcireg_t *regs, int capoff)
930 {
931 uint16_t caps, pmcsr;
932
933 caps = regs[o2i(capoff)] >> 16;
934 pmcsr = regs[o2i(capoff + 0x04)] & 0xffff;
935
936 printf("\n PCI Power Management Capabilities Register\n");
937
938 printf(" Capabilities register: 0x%04x\n", caps);
939 printf(" Version: %s\n",
940 pci_conf_print_pcipm_cap_pmrev(caps & 0x3));
941 printf(" PME# clock: %s\n", caps & 0x4 ? "on" : "off");
942 printf(" Device specific initialization: %s\n",
943 caps & 0x20 ? "on" : "off");
944 printf(" 3.3V auxiliary current: %s\n",
945 pci_conf_print_pcipm_cap_aux(caps));
946 printf(" D1 power management state support: %s\n",
947 (caps >> 9) & 1 ? "on" : "off");
948 printf(" D2 power management state support: %s\n",
949 (caps >> 10) & 1 ? "on" : "off");
950 printf(" PME# support: 0x%02x\n", caps >> 11);
951
952 printf(" Control/status register: 0x%04x\n", pmcsr);
953 printf(" Power state: D%d\n", pmcsr & 3);
954 printf(" PCI Express reserved: %s\n",
955 (pmcsr >> 2) & 1 ? "on" : "off");
956 printf(" No soft reset: %s\n", (pmcsr >> 3) & 1 ? "on" : "off");
957 printf(" PME# assertion %sabled\n",
958 (pmcsr >> 8) & 1 ? "en" : "dis");
959 printf(" PME# status: %s\n", (pmcsr >> 15) ? "on" : "off");
960 }
961
962 static void
963 pci_conf_print_caplist(
964 #ifdef _KERNEL
965 pci_chipset_tag_t pc, pcitag_t tag,
966 #endif
967 const pcireg_t *regs, int capoff)
968 {
969 int off;
970 pcireg_t rval;
971 int pcie_off = -1, pcipm_off = -1;
972
973 for (off = PCI_CAPLIST_PTR(regs[o2i(capoff)]);
974 off != 0;
975 off = PCI_CAPLIST_NEXT(regs[o2i(off)])) {
976 rval = regs[o2i(off)];
977 printf(" Capability register at 0x%02x\n", off);
978
979 printf(" type: 0x%02x (", PCI_CAPLIST_CAP(rval));
980 switch (PCI_CAPLIST_CAP(rval)) {
981 case PCI_CAP_RESERVED0:
982 printf("reserved");
983 break;
984 case PCI_CAP_PWRMGMT:
985 printf("Power Management, rev. %s",
986 pci_conf_print_pcipm_cap_pmrev((rval >> 0) & 0x07));
987 pcipm_off = off;
988 break;
989 case PCI_CAP_AGP:
990 printf("AGP, rev. %d.%d",
991 PCI_CAP_AGP_MAJOR(rval),
992 PCI_CAP_AGP_MINOR(rval));
993 break;
994 case PCI_CAP_VPD:
995 printf("VPD");
996 break;
997 case PCI_CAP_SLOTID:
998 printf("SlotID");
999 break;
1000 case PCI_CAP_MSI:
1001 printf("MSI");
1002 break;
1003 case PCI_CAP_CPCI_HOTSWAP:
1004 printf("CompactPCI Hot-swapping");
1005 break;
1006 case PCI_CAP_PCIX:
1007 printf("PCI-X");
1008 break;
1009 case PCI_CAP_LDT:
1010 printf("LDT");
1011 break;
1012 case PCI_CAP_VENDSPEC:
1013 printf("Vendor-specific");
1014 break;
1015 case PCI_CAP_DEBUGPORT:
1016 printf("Debug Port");
1017 break;
1018 case PCI_CAP_CPCI_RSRCCTL:
1019 printf("CompactPCI Resource Control");
1020 break;
1021 case PCI_CAP_HOTPLUG:
1022 printf("Hot-Plug");
1023 break;
1024 case PCI_CAP_AGP8:
1025 printf("AGP 8x");
1026 break;
1027 case PCI_CAP_SECURE:
1028 printf("Secure Device");
1029 break;
1030 case PCI_CAP_PCIEXPRESS:
1031 printf("PCI Express");
1032 pcie_off = off;
1033 break;
1034 case PCI_CAP_MSIX:
1035 printf("MSI-X");
1036 break;
1037 default:
1038 printf("unknown");
1039 }
1040 printf(")\n");
1041 }
1042 if (pcipm_off != -1)
1043 pci_conf_print_pcipm_cap(regs, pcipm_off);
1044 if (pcie_off != -1)
1045 pci_conf_print_pcie_cap(regs, pcie_off);
1046 }
1047
1048 static void
1049 pci_conf_print_type1(
1050 #ifdef _KERNEL
1051 pci_chipset_tag_t pc, pcitag_t tag,
1052 #endif
1053 const pcireg_t *regs
1054 #ifdef _KERNEL
1055 , int sizebars
1056 #endif
1057 )
1058 {
1059 int off, width;
1060 pcireg_t rval;
1061
1062 /*
1063 * XXX these need to be printed in more detail, need to be
1064 * XXX checked against specs/docs, etc.
1065 *
1066 * This layout was cribbed from the TI PCI2030 PCI-to-PCI
1067 * Bridge chip documentation, and may not be correct with
1068 * respect to various standards. (XXX)
1069 */
1070
1071 for (off = 0x10; off < 0x18; off += width) {
1072 #ifdef _KERNEL
1073 width = pci_conf_print_bar(pc, tag, regs, off, NULL, sizebars);
1074 #else
1075 width = pci_conf_print_bar(regs, off, NULL);
1076 #endif
1077 }
1078
1079 printf(" Primary bus number: 0x%02x\n",
1080 (regs[o2i(0x18)] >> 0) & 0xff);
1081 printf(" Secondary bus number: 0x%02x\n",
1082 (regs[o2i(0x18)] >> 8) & 0xff);
1083 printf(" Subordinate bus number: 0x%02x\n",
1084 (regs[o2i(0x18)] >> 16) & 0xff);
1085 printf(" Secondary bus latency timer: 0x%02x\n",
1086 (regs[o2i(0x18)] >> 24) & 0xff);
1087
1088 rval = (regs[o2i(0x1c)] >> 16) & 0xffff;
1089 printf(" Secondary status register: 0x%04x\n", rval); /* XXX bits */
1090 onoff("66 MHz capable", 0x0020);
1091 onoff("User Definable Features (UDF) support", 0x0040);
1092 onoff("Fast back-to-back capable", 0x0080);
1093 onoff("Data parity error detected", 0x0100);
1094
1095 printf(" DEVSEL timing: ");
1096 switch (rval & 0x0600) {
1097 case 0x0000:
1098 printf("fast");
1099 break;
1100 case 0x0200:
1101 printf("medium");
1102 break;
1103 case 0x0400:
1104 printf("slow");
1105 break;
1106 default:
1107 printf("unknown/reserved"); /* XXX */
1108 break;
1109 }
1110 printf(" (0x%x)\n", (rval & 0x0600) >> 9);
1111
1112 onoff("Signaled Target Abort", 0x0800);
1113 onoff("Received Target Abort", 0x1000);
1114 onoff("Received Master Abort", 0x2000);
1115 onoff("System Error", 0x4000);
1116 onoff("Parity Error", 0x8000);
1117
1118 /* XXX Print more prettily */
1119 printf(" I/O region:\n");
1120 printf(" base register: 0x%02x\n", (regs[o2i(0x1c)] >> 0) & 0xff);
1121 printf(" limit register: 0x%02x\n", (regs[o2i(0x1c)] >> 8) & 0xff);
1122 printf(" base upper 16 bits register: 0x%04x\n",
1123 (regs[o2i(0x30)] >> 0) & 0xffff);
1124 printf(" limit upper 16 bits register: 0x%04x\n",
1125 (regs[o2i(0x30)] >> 16) & 0xffff);
1126
1127 /* XXX Print more prettily */
1128 printf(" Memory region:\n");
1129 printf(" base register: 0x%04x\n",
1130 (regs[o2i(0x20)] >> 0) & 0xffff);
1131 printf(" limit register: 0x%04x\n",
1132 (regs[o2i(0x20)] >> 16) & 0xffff);
1133
1134 /* XXX Print more prettily */
1135 printf(" Prefetchable memory region:\n");
1136 printf(" base register: 0x%04x\n",
1137 (regs[o2i(0x24)] >> 0) & 0xffff);
1138 printf(" limit register: 0x%04x\n",
1139 (regs[o2i(0x24)] >> 16) & 0xffff);
1140 printf(" base upper 32 bits register: 0x%08x\n", regs[o2i(0x28)]);
1141 printf(" limit upper 32 bits register: 0x%08x\n", regs[o2i(0x2c)]);
1142
1143 if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT)
1144 printf(" Capability list pointer: 0x%02x\n",
1145 PCI_CAPLIST_PTR(regs[o2i(PCI_CAPLISTPTR_REG)]));
1146 else
1147 printf(" Reserved @ 0x34: 0x%08x\n", regs[o2i(0x34)]);
1148
1149 /* XXX */
1150 printf(" Expansion ROM Base Address: 0x%08x\n", regs[o2i(0x38)]);
1151
1152 printf(" Interrupt line: 0x%02x\n",
1153 (regs[o2i(0x3c)] >> 0) & 0xff);
1154 printf(" Interrupt pin: 0x%02x ",
1155 (regs[o2i(0x3c)] >> 8) & 0xff);
1156 switch ((regs[o2i(0x3c)] >> 8) & 0xff) {
1157 case PCI_INTERRUPT_PIN_NONE:
1158 printf("(none)");
1159 break;
1160 case PCI_INTERRUPT_PIN_A:
1161 printf("(pin A)");
1162 break;
1163 case PCI_INTERRUPT_PIN_B:
1164 printf("(pin B)");
1165 break;
1166 case PCI_INTERRUPT_PIN_C:
1167 printf("(pin C)");
1168 break;
1169 case PCI_INTERRUPT_PIN_D:
1170 printf("(pin D)");
1171 break;
1172 default:
1173 printf("(? ? ?)");
1174 break;
1175 }
1176 printf("\n");
1177 rval = (regs[o2i(0x3c)] >> 16) & 0xffff;
1178 printf(" Bridge control register: 0x%04x\n", rval); /* XXX bits */
1179 onoff("Parity error response", 0x0001);
1180 onoff("Secondary SERR forwarding", 0x0002);
1181 onoff("ISA enable", 0x0004);
1182 onoff("VGA enable", 0x0008);
1183 onoff("Master abort reporting", 0x0020);
1184 onoff("Secondary bus reset", 0x0040);
1185 onoff("Fast back-to-back capable", 0x0080);
1186 }
1187
1188 static void
1189 pci_conf_print_type2(
1190 #ifdef _KERNEL
1191 pci_chipset_tag_t pc, pcitag_t tag,
1192 #endif
1193 const pcireg_t *regs
1194 #ifdef _KERNEL
1195 , int sizebars
1196 #endif
1197 )
1198 {
1199 pcireg_t rval;
1200
1201 /*
1202 * XXX these need to be printed in more detail, need to be
1203 * XXX checked against specs/docs, etc.
1204 *
1205 * This layout was cribbed from the TI PCI1130 PCI-to-CardBus
1206 * controller chip documentation, and may not be correct with
1207 * respect to various standards. (XXX)
1208 */
1209
1210 #ifdef _KERNEL
1211 pci_conf_print_bar(pc, tag, regs, 0x10,
1212 "CardBus socket/ExCA registers", sizebars);
1213 #else
1214 pci_conf_print_bar(regs, 0x10, "CardBus socket/ExCA registers");
1215 #endif
1216
1217 if (regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT)
1218 printf(" Capability list pointer: 0x%02x\n",
1219 PCI_CAPLIST_PTR(regs[o2i(PCI_CARDBUS_CAPLISTPTR_REG)]));
1220 else
1221 printf(" Reserved @ 0x14: 0x%04x\n",
1222 (regs[o2i(0x14)] >> 0) & 0xffff);
1223 rval = (regs[o2i(0x14)] >> 16) & 0xffff;
1224 printf(" Secondary status register: 0x%04x\n", rval);
1225 onoff("66 MHz capable", 0x0020);
1226 onoff("User Definable Features (UDF) support", 0x0040);
1227 onoff("Fast back-to-back capable", 0x0080);
1228 onoff("Data parity error detection", 0x0100);
1229
1230 printf(" DEVSEL timing: ");
1231 switch (rval & 0x0600) {
1232 case 0x0000:
1233 printf("fast");
1234 break;
1235 case 0x0200:
1236 printf("medium");
1237 break;
1238 case 0x0400:
1239 printf("slow");
1240 break;
1241 default:
1242 printf("unknown/reserved"); /* XXX */
1243 break;
1244 }
1245 printf(" (0x%x)\n", (rval & 0x0600) >> 9);
1246 onoff("PCI target aborts terminate CardBus bus master transactions",
1247 0x0800);
1248 onoff("CardBus target aborts terminate PCI bus master transactions",
1249 0x1000);
1250 onoff("Bus initiator aborts terminate initiator transactions",
1251 0x2000);
1252 onoff("System error", 0x4000);
1253 onoff("Parity error", 0x8000);
1254
1255 printf(" PCI bus number: 0x%02x\n",
1256 (regs[o2i(0x18)] >> 0) & 0xff);
1257 printf(" CardBus bus number: 0x%02x\n",
1258 (regs[o2i(0x18)] >> 8) & 0xff);
1259 printf(" Subordinate bus number: 0x%02x\n",
1260 (regs[o2i(0x18)] >> 16) & 0xff);
1261 printf(" CardBus latency timer: 0x%02x\n",
1262 (regs[o2i(0x18)] >> 24) & 0xff);
1263
1264 /* XXX Print more prettily */
1265 printf(" CardBus memory region 0:\n");
1266 printf(" base register: 0x%08x\n", regs[o2i(0x1c)]);
1267 printf(" limit register: 0x%08x\n", regs[o2i(0x20)]);
1268 printf(" CardBus memory region 1:\n");
1269 printf(" base register: 0x%08x\n", regs[o2i(0x24)]);
1270 printf(" limit register: 0x%08x\n", regs[o2i(0x28)]);
1271 printf(" CardBus I/O region 0:\n");
1272 printf(" base register: 0x%08x\n", regs[o2i(0x2c)]);
1273 printf(" limit register: 0x%08x\n", regs[o2i(0x30)]);
1274 printf(" CardBus I/O region 1:\n");
1275 printf(" base register: 0x%08x\n", regs[o2i(0x34)]);
1276 printf(" limit register: 0x%08x\n", regs[o2i(0x38)]);
1277
1278 printf(" Interrupt line: 0x%02x\n",
1279 (regs[o2i(0x3c)] >> 0) & 0xff);
1280 printf(" Interrupt pin: 0x%02x ",
1281 (regs[o2i(0x3c)] >> 8) & 0xff);
1282 switch ((regs[o2i(0x3c)] >> 8) & 0xff) {
1283 case PCI_INTERRUPT_PIN_NONE:
1284 printf("(none)");
1285 break;
1286 case PCI_INTERRUPT_PIN_A:
1287 printf("(pin A)");
1288 break;
1289 case PCI_INTERRUPT_PIN_B:
1290 printf("(pin B)");
1291 break;
1292 case PCI_INTERRUPT_PIN_C:
1293 printf("(pin C)");
1294 break;
1295 case PCI_INTERRUPT_PIN_D:
1296 printf("(pin D)");
1297 break;
1298 default:
1299 printf("(? ? ?)");
1300 break;
1301 }
1302 printf("\n");
1303 rval = (regs[o2i(0x3c)] >> 16) & 0xffff;
1304 printf(" Bridge control register: 0x%04x\n", rval);
1305 onoff("Parity error response", 0x0001);
1306 onoff("CardBus SERR forwarding", 0x0002);
1307 onoff("ISA enable", 0x0004);
1308 onoff("VGA enable", 0x0008);
1309 onoff("CardBus master abort reporting", 0x0020);
1310 onoff("CardBus reset", 0x0040);
1311 onoff("Functional interrupts routed by ExCA registers", 0x0080);
1312 onoff("Memory window 0 prefetchable", 0x0100);
1313 onoff("Memory window 1 prefetchable", 0x0200);
1314 onoff("Write posting enable", 0x0400);
1315
1316 rval = regs[o2i(0x40)];
1317 printf(" Subsystem vendor ID: 0x%04x\n", PCI_VENDOR(rval));
1318 printf(" Subsystem ID: 0x%04x\n", PCI_PRODUCT(rval));
1319
1320 #ifdef _KERNEL
1321 pci_conf_print_bar(pc, tag, regs, 0x44, "legacy-mode registers",
1322 sizebars);
1323 #else
1324 pci_conf_print_bar(regs, 0x44, "legacy-mode registers");
1325 #endif
1326 }
1327
1328 void
1329 pci_conf_print(
1330 #ifdef _KERNEL
1331 pci_chipset_tag_t pc, pcitag_t tag,
1332 void (*printfn)(pci_chipset_tag_t, pcitag_t, const pcireg_t *)
1333 #else
1334 int pcifd, u_int bus, u_int dev, u_int func
1335 #endif
1336 )
1337 {
1338 pcireg_t regs[o2i(256)];
1339 int off, capoff, endoff, hdrtype;
1340 const char *typename;
1341 #ifdef _KERNEL
1342 void (*typeprintfn)(pci_chipset_tag_t, pcitag_t, const pcireg_t *, int);
1343 int sizebars;
1344 #else
1345 void (*typeprintfn)(const pcireg_t *);
1346 #endif
1347
1348 printf("PCI configuration registers:\n");
1349
1350 for (off = 0; off < 256; off += 4) {
1351 #ifdef _KERNEL
1352 regs[o2i(off)] = pci_conf_read(pc, tag, off);
1353 #else
1354 if (pcibus_conf_read(pcifd, bus, dev, func, off,
1355 &regs[o2i(off)]) == -1)
1356 regs[o2i(off)] = 0;
1357 #endif
1358 }
1359
1360 #ifdef _KERNEL
1361 sizebars = 1;
1362 if (PCI_CLASS(regs[o2i(PCI_CLASS_REG)]) == PCI_CLASS_BRIDGE &&
1363 PCI_SUBCLASS(regs[o2i(PCI_CLASS_REG)]) == PCI_SUBCLASS_BRIDGE_HOST)
1364 sizebars = 0;
1365 #endif
1366
1367 /* common header */
1368 printf(" Common header:\n");
1369 pci_conf_print_regs(regs, 0, 16);
1370
1371 printf("\n");
1372 #ifdef _KERNEL
1373 pci_conf_print_common(pc, tag, regs);
1374 #else
1375 pci_conf_print_common(regs);
1376 #endif
1377 printf("\n");
1378
1379 /* type-dependent header */
1380 hdrtype = PCI_HDRTYPE_TYPE(regs[o2i(PCI_BHLC_REG)]);
1381 switch (hdrtype) { /* XXX make a table, eventually */
1382 case 0:
1383 /* Standard device header */
1384 typename = "\"normal\" device";
1385 typeprintfn = &pci_conf_print_type0;
1386 capoff = PCI_CAPLISTPTR_REG;
1387 endoff = 64;
1388 break;
1389 case 1:
1390 /* PCI-PCI bridge header */
1391 typename = "PCI-PCI bridge";
1392 typeprintfn = &pci_conf_print_type1;
1393 capoff = PCI_CAPLISTPTR_REG;
1394 endoff = 64;
1395 break;
1396 case 2:
1397 /* PCI-CardBus bridge header */
1398 typename = "PCI-CardBus bridge";
1399 typeprintfn = &pci_conf_print_type2;
1400 capoff = PCI_CARDBUS_CAPLISTPTR_REG;
1401 endoff = 72;
1402 break;
1403 default:
1404 typename = NULL;
1405 typeprintfn = 0;
1406 capoff = -1;
1407 endoff = 64;
1408 break;
1409 }
1410 printf(" Type %d ", hdrtype);
1411 if (typename != NULL)
1412 printf("(%s) ", typename);
1413 printf("header:\n");
1414 pci_conf_print_regs(regs, 16, endoff);
1415 printf("\n");
1416 if (typeprintfn) {
1417 #ifdef _KERNEL
1418 (*typeprintfn)(pc, tag, regs, sizebars);
1419 #else
1420 (*typeprintfn)(regs);
1421 #endif
1422 } else
1423 printf(" Don't know how to pretty-print type %d header.\n",
1424 hdrtype);
1425 printf("\n");
1426
1427 /* capability list, if present */
1428 if ((regs[o2i(PCI_COMMAND_STATUS_REG)] & PCI_STATUS_CAPLIST_SUPPORT)
1429 && (capoff > 0)) {
1430 #ifdef _KERNEL
1431 pci_conf_print_caplist(pc, tag, regs, capoff);
1432 #else
1433 pci_conf_print_caplist(regs, capoff);
1434 #endif
1435 printf("\n");
1436 }
1437
1438 /* device-dependent header */
1439 printf(" Device-dependent header:\n");
1440 pci_conf_print_regs(regs, endoff, 256);
1441 printf("\n");
1442 #ifdef _KERNEL
1443 if (printfn)
1444 (*printfn)(pc, tag, regs);
1445 else
1446 printf(" Don't know how to pretty-print device-dependent header.\n");
1447 printf("\n");
1448 #endif /* _KERNEL */
1449 }
NetBSD on the FriendlyARM MINI2440