Annotation of embedaddon/pciutils/setpci.c, revision 1.1.1.1
1.1 misho 1: /*
2: * The PCI Utilities -- Manipulate PCI Configuration Registers
3: *
4: * Copyright (c) 1998--2008 Martin Mares <mj@ucw.cz>
5: *
6: * Can be freely distributed and used under the terms of the GNU GPL.
7: */
8:
9: #include <stdio.h>
10: #include <string.h>
11: #include <stdlib.h>
12: #include <stdarg.h>
13: #include <errno.h>
14:
15: #define PCIUTILS_SETPCI
16: #include "pciutils.h"
17:
18: static int force; /* Don't complain if no devices match */
19: static int verbose; /* Verbosity level */
20: static int demo_mode; /* Only show */
21:
22: const char program_name[] = "setpci";
23:
24: static struct pci_access *pacc;
25:
26: struct value {
27: unsigned int value;
28: unsigned int mask;
29: };
30:
31: struct op {
32: struct op *next;
33: struct pci_dev **dev_vector;
34: u16 cap_type; /* PCI_CAP_xxx or 0 */
35: u16 cap_id;
36: unsigned int addr;
37: unsigned int width; /* Byte width of the access */
38: unsigned int num_values; /* Number of values to write; 0=read */
39: struct value values[0];
40: };
41:
42: static struct op *first_op, **last_op = &first_op;
43: static unsigned int max_values[] = { 0, 0xff, 0xffff, 0, 0xffffffff };
44:
45: static struct pci_dev **
46: select_devices(struct pci_filter *filt)
47: {
48: struct pci_dev *z, **a, **b;
49: int cnt = 1;
50:
51: for (z=pacc->devices; z; z=z->next)
52: if (pci_filter_match(filt, z))
53: cnt++;
54: a = b = xmalloc(sizeof(struct device *) * cnt);
55: for (z=pacc->devices; z; z=z->next)
56: if (pci_filter_match(filt, z))
57: *a++ = z;
58: *a = NULL;
59: return b;
60: }
61:
62: static void PCI_PRINTF(1,2)
63: trace(const char *fmt, ...)
64: {
65: va_list args;
66: va_start(args, fmt);
67: if (verbose)
68: vprintf(fmt, args);
69: va_end(args);
70: }
71:
72: static void
73: exec_op(struct op *op, struct pci_dev *dev)
74: {
75: const char * const formats[] = { NULL, " %02x", " %04x", NULL, " %08x" };
76: const char * const mask_formats[] = { NULL, " %02x->(%02x:%02x)->%02x", " %04x->(%04x:%04x)->%04x", NULL, " %08x->(%08x:%08x)->%08x" };
77: unsigned int i, x, y;
78: int addr = 0;
79: int width = op->width;
80: char slot[16];
81:
82: sprintf(slot, "%04x:%02x:%02x.%x", dev->domain, dev->bus, dev->dev, dev->func);
83: trace("%s ", slot);
84: if (op->cap_type)
85: {
86: struct pci_cap *cap;
87: cap = pci_find_cap(dev, op->cap_id, op->cap_type);
88: if (cap)
89: addr = cap->addr;
90: else
91: die("%s: %s %04x not found", slot, ((op->cap_type == PCI_CAP_NORMAL) ? "Capability" : "Extended capability"), op->cap_id);
92: trace(((op->cap_type == PCI_CAP_NORMAL) ? "(cap %02x @%02x) " : "(ecap %04x @%03x) "), op->cap_id, addr);
93: }
94: addr += op->addr;
95: trace("@%02x", addr);
96:
97: /* We have already checked it when parsing, but addressing relative to capabilities can change the address. */
98: if (addr & (width-1))
99: die("%s: Unaligned access of width %d to register %04x", slot, width, addr);
100: if (addr + width > 0x1000)
101: die("%s: Access of width %d to register %04x out of range", slot, width, addr);
102:
103: if (op->num_values)
104: {
105: for (i=0; i<op->num_values; i++)
106: {
107: if ((op->values[i].mask & max_values[width]) == max_values[width])
108: {
109: x = op->values[i].value;
110: trace(formats[width], op->values[i].value);
111: }
112: else
113: {
114: switch (width)
115: {
116: case 1:
117: y = pci_read_byte(dev, addr);
118: break;
119: case 2:
120: y = pci_read_word(dev, addr);
121: break;
122: default:
123: y = pci_read_long(dev, addr);
124: break;
125: }
126: x = (y & ~op->values[i].mask) | op->values[i].value;
127: trace(mask_formats[width], y, op->values[i].value, op->values[i].mask, x);
128: }
129: if (!demo_mode)
130: {
131: switch (width)
132: {
133: case 1:
134: pci_write_byte(dev, addr, x);
135: break;
136: case 2:
137: pci_write_word(dev, addr, x);
138: break;
139: default:
140: pci_write_long(dev, addr, x);
141: break;
142: }
143: }
144: addr += width;
145: }
146: trace("\n");
147: }
148: else
149: {
150: trace(" = ");
151: switch (width)
152: {
153: case 1:
154: x = pci_read_byte(dev, addr);
155: break;
156: case 2:
157: x = pci_read_word(dev, addr);
158: break;
159: default:
160: x = pci_read_long(dev, addr);
161: break;
162: }
163: printf(formats[width]+1, x);
164: putchar('\n');
165: }
166: }
167:
168: static void
169: execute(struct op *op)
170: {
171: struct pci_dev **vec = NULL;
172: struct pci_dev **pdev, *dev;
173: struct op *oops;
174:
175: while (op)
176: {
177: pdev = vec = op->dev_vector;
178: while (dev = *pdev++)
179: for (oops=op; oops && oops->dev_vector == vec; oops=oops->next)
180: exec_op(oops, dev);
181: while (op && op->dev_vector == vec)
182: op = op->next;
183: }
184: }
185:
186: static void
187: scan_ops(struct op *op)
188: {
189: if (demo_mode)
190: return;
191: while (op)
192: {
193: if (op->num_values)
194: pacc->writeable = 1;
195: op = op->next;
196: }
197: }
198:
199: struct reg_name {
200: unsigned int cap;
201: unsigned int offset;
202: unsigned int width;
203: const char *name;
204: };
205:
206: static const struct reg_name pci_reg_names[] = {
207: { 0, 0x00, 2, "VENDOR_ID" },
208: { 0, 0x02, 2, "DEVICE_ID" },
209: { 0, 0x04, 2, "COMMAND" },
210: { 0, 0x06, 2, "STATUS" },
211: { 0, 0x08, 1, "REVISION" },
212: { 0, 0x09, 1, "CLASS_PROG" },
213: { 0, 0x0a, 2, "CLASS_DEVICE" },
214: { 0, 0x0c, 1, "CACHE_LINE_SIZE" },
215: { 0, 0x0d, 1, "LATENCY_TIMER" },
216: { 0, 0x0e, 1, "HEADER_TYPE" },
217: { 0, 0x0f, 1, "BIST" },
218: { 0, 0x10, 4, "BASE_ADDRESS_0" },
219: { 0, 0x14, 4, "BASE_ADDRESS_1" },
220: { 0, 0x18, 4, "BASE_ADDRESS_2" },
221: { 0, 0x1c, 4, "BASE_ADDRESS_3" },
222: { 0, 0x20, 4, "BASE_ADDRESS_4" },
223: { 0, 0x24, 4, "BASE_ADDRESS_5" },
224: { 0, 0x28, 4, "CARDBUS_CIS" },
225: { 0, 0x2c, 4, "SUBSYSTEM_VENDOR_ID" },
226: { 0, 0x2e, 2, "SUBSYSTEM_ID" },
227: { 0, 0x30, 4, "ROM_ADDRESS" },
228: { 0, 0x3c, 1, "INTERRUPT_LINE" },
229: { 0, 0x3d, 1, "INTERRUPT_PIN" },
230: { 0, 0x3e, 1, "MIN_GNT" },
231: { 0, 0x3f, 1, "MAX_LAT" },
232: { 0, 0x18, 1, "PRIMARY_BUS" },
233: { 0, 0x19, 1, "SECONDARY_BUS" },
234: { 0, 0x1a, 1, "SUBORDINATE_BUS" },
235: { 0, 0x1b, 1, "SEC_LATENCY_TIMER" },
236: { 0, 0x1c, 1, "IO_BASE" },
237: { 0, 0x1d, 1, "IO_LIMIT" },
238: { 0, 0x1e, 2, "SEC_STATUS" },
239: { 0, 0x20, 2, "MEMORY_BASE" },
240: { 0, 0x22, 2, "MEMORY_LIMIT" },
241: { 0, 0x24, 2, "PREF_MEMORY_BASE" },
242: { 0, 0x26, 2, "PREF_MEMORY_LIMIT" },
243: { 0, 0x28, 4, "PREF_BASE_UPPER32" },
244: { 0, 0x2c, 4, "PREF_LIMIT_UPPER32" },
245: { 0, 0x30, 2, "IO_BASE_UPPER16" },
246: { 0, 0x32, 2, "IO_LIMIT_UPPER16" },
247: { 0, 0x38, 4, "BRIDGE_ROM_ADDRESS" },
248: { 0, 0x3e, 2, "BRIDGE_CONTROL" },
249: { 0, 0x10, 4, "CB_CARDBUS_BASE" },
250: { 0, 0x14, 2, "CB_CAPABILITIES" },
251: { 0, 0x16, 2, "CB_SEC_STATUS" },
252: { 0, 0x18, 1, "CB_BUS_NUMBER" },
253: { 0, 0x19, 1, "CB_CARDBUS_NUMBER" },
254: { 0, 0x1a, 1, "CB_SUBORDINATE_BUS" },
255: { 0, 0x1b, 1, "CB_CARDBUS_LATENCY" },
256: { 0, 0x1c, 4, "CB_MEMORY_BASE_0" },
257: { 0, 0x20, 4, "CB_MEMORY_LIMIT_0" },
258: { 0, 0x24, 4, "CB_MEMORY_BASE_1" },
259: { 0, 0x28, 4, "CB_MEMORY_LIMIT_1" },
260: { 0, 0x2c, 2, "CB_IO_BASE_0" },
261: { 0, 0x2e, 2, "CB_IO_BASE_0_HI" },
262: { 0, 0x30, 2, "CB_IO_LIMIT_0" },
263: { 0, 0x32, 2, "CB_IO_LIMIT_0_HI" },
264: { 0, 0x34, 2, "CB_IO_BASE_1" },
265: { 0, 0x36, 2, "CB_IO_BASE_1_HI" },
266: { 0, 0x38, 2, "CB_IO_LIMIT_1" },
267: { 0, 0x3a, 2, "CB_IO_LIMIT_1_HI" },
268: { 0, 0x40, 2, "CB_SUBSYSTEM_VENDOR_ID" },
269: { 0, 0x42, 2, "CB_SUBSYSTEM_ID" },
270: { 0, 0x44, 4, "CB_LEGACY_MODE_BASE" },
271: { 0x10001, 0, 0, "CAP_PM" },
272: { 0x10002, 0, 0, "CAP_AGP" },
273: { 0x10003, 0, 0, "CAP_VPD" },
274: { 0x10004, 0, 0, "CAP_SLOTID" },
275: { 0x10005, 0, 0, "CAP_MSI" },
276: { 0x10006, 0, 0, "CAP_CHSWP" },
277: { 0x10007, 0, 0, "CAP_PCIX" },
278: { 0x10008, 0, 0, "CAP_HT" },
279: { 0x10009, 0, 0, "CAP_VNDR" },
280: { 0x1000a, 0, 0, "CAP_DBG" },
281: { 0x1000b, 0, 0, "CAP_CCRC" },
282: { 0x1000c, 0, 0, "CAP_HOTPLUG" },
283: { 0x1000d, 0, 0, "CAP_SSVID" },
284: { 0x1000e, 0, 0, "CAP_AGP3" },
285: { 0x1000f, 0, 0, "CAP_SECURE" },
286: { 0x10010, 0, 0, "CAP_EXP" },
287: { 0x10011, 0, 0, "CAP_MSIX" },
288: { 0x10012, 0, 0, "CAP_SATA" },
289: { 0x10013, 0, 0, "CAP_AF" },
290: { 0x20001, 0, 0, "ECAP_AER" },
291: { 0x20002, 0, 0, "ECAP_VC" },
292: { 0x20003, 0, 0, "ECAP_DSN" },
293: { 0x20004, 0, 0, "ECAP_PB" },
294: { 0x20005, 0, 0, "ECAP_RCLINK" },
295: { 0x20006, 0, 0, "ECAP_RCILINK" },
296: { 0x20007, 0, 0, "ECAP_RCECOLL" },
297: { 0x20008, 0, 0, "ECAP_MFVC" },
298: { 0x2000a, 0, 0, "ECAP_RBCB" },
299: { 0x2000b, 0, 0, "ECAP_VNDR" },
300: { 0x2000d, 0, 0, "ECAP_ACS" },
301: { 0x2000e, 0, 0, "ECAP_ARI" },
302: { 0x2000f, 0, 0, "ECAP_ATS" },
303: { 0x20010, 0, 0, "ECAP_SRIOV" },
304: { 0, 0, 0, NULL }
305: };
306:
307: static void
308: dump_registers(void)
309: {
310: const struct reg_name *r;
311:
312: printf("cap pos w name\n");
313: for (r = pci_reg_names; r->name; r++)
314: {
315: if (r->cap >= 0x20000)
316: printf("%04x", r->cap - 0x20000);
317: else if (r->cap)
318: printf(" %02x", r->cap - 0x10000);
319: else
320: printf(" ");
321: printf(" %02x %c %s\n", r->offset, "-BW?L"[r->width], r->name);
322: }
323: }
324:
325: static void NONRET
326: usage(void)
327: {
328: fprintf(stderr,
329: "Usage: setpci [<options>] (<device>+ <reg>[=<values>]*)*\n"
330: "\n"
331: "General options:\n"
332: "-f\t\tDon't complain if there's nothing to do\n"
333: "-v\t\tBe verbose\n"
334: "-D\t\tList changes, don't commit them\n"
335: "--dumpregs\tDump all known register names and exit\n"
336: "\n"
337: "PCI access options:\n"
338: GENERIC_HELP
339: "\n"
340: "Setting commands:\n"
341: "<device>:\t-s [[[<domain>]:][<bus>]:][<slot>][.[<func>]]\n"
342: "\t\t-d [<vendor>]:[<device>]\n"
343: "<reg>:\t\t<base>[+<offset>][.(B|W|L)]\n"
344: "<base>:\t\t<address>\n"
345: "\t\t<named-register>\n"
346: "\t\t[E]CAP_<capability-name>\n"
347: "\t\t[E]CAP<capability-number>\n"
348: "<values>:\t<value>[,<value>...]\n"
349: "<value>:\t<hex>\n"
350: "\t\t<hex>:<mask>\n");
351: exit(0);
352: }
353:
354: static void NONRET PCI_PRINTF(1,2)
355: parse_err(const char *msg, ...)
356: {
357: va_list args;
358: va_start(args, msg);
359: fprintf(stderr, "setpci: ");
360: vfprintf(stderr, msg, args);
361: fprintf(stderr, ".\nTry `setpci --help' for more information.\n");
362: exit(1);
363: }
364:
365: static int
366: parse_options(int argc, char **argv)
367: {
368: const char opts[] = GENERIC_OPTIONS;
369: int i=1;
370:
371: if (argc == 2)
372: {
373: if (!strcmp(argv[1], "--help"))
374: usage();
375: if (!strcmp(argv[1], "--version"))
376: {
377: puts("setpci version " PCIUTILS_VERSION);
378: exit(0);
379: }
380: if (!strcmp(argv[1], "--dumpregs"))
381: {
382: dump_registers();
383: exit(0);
384: }
385: }
386:
387: while (i < argc && argv[i][0] == '-')
388: {
389: char *c = argv[i++] + 1;
390: char *d = c;
391: char *e;
392: while (*c)
393: switch (*c)
394: {
395: case 0:
396: break;
397: case 'v':
398: verbose++;
399: c++;
400: break;
401: case 'f':
402: force++;
403: c++;
404: break;
405: case 'D':
406: demo_mode++;
407: c++;
408: break;
409: default:
410: if (e = strchr(opts, *c))
411: {
412: char *arg;
413: c++;
414: if (e[1] == ':')
415: {
416: if (*c)
417: arg = c;
418: else if (i < argc)
419: arg = argv[i++];
420: else
421: parse_err("Option -%c requires an argument", *e);
422: c = "";
423: }
424: else
425: arg = NULL;
426: if (!parse_generic_option(*e, pacc, arg))
427: parse_err("Unable to parse option -%c", *e);
428: }
429: else
430: {
431: if (c != d)
432: parse_err("Invalid or misplaced option -%c", *c);
433: return i-1;
434: }
435: }
436: }
437:
438: return i;
439: }
440:
441: static int parse_filter(int argc, char **argv, int i, struct pci_filter *filter)
442: {
443: char *c = argv[i++];
444: char *d;
445:
446: if (!c[1] || !strchr("sd", c[1]))
447: parse_err("Invalid option -%c", c[1]);
448: if (c[2])
449: d = (c[2] == '=') ? c+3 : c+2;
450: else if (i < argc)
451: d = argv[i++];
452: else
453: parse_err("Option -%c requires an argument", c[1]);
454: switch (c[1])
455: {
456: case 's':
457: if (d = pci_filter_parse_slot(filter, d))
458: parse_err("Unable to parse filter -s %s", d);
459: break;
460: case 'd':
461: if (d = pci_filter_parse_id(filter, d))
462: parse_err("Unable to parse filter -d %s", d);
463: break;
464: default:
465: parse_err("Unknown filter option -%c", c[1]);
466: }
467:
468: return i;
469: }
470:
471: static const struct reg_name *parse_reg_name(char *name)
472: {
473: const struct reg_name *r;
474:
475: for (r = pci_reg_names; r->name; r++)
476: if (!strcasecmp(r->name, name))
477: return r;
478: return NULL;
479: }
480:
481: static int parse_x32(char *c, char **stopp, unsigned int *resp)
482: {
483: char *stop;
484: unsigned long int l;
485:
486: if (!*c)
487: return -1;
488: errno = 0;
489: l = strtoul(c, &stop, 16);
490: if (errno)
491: return -1;
492: if ((l & ~0U) != l)
493: return -1;
494: *resp = l;
495: if (*stop)
496: {
497: if (stopp)
498: *stopp = stop;
499: return 0;
500: }
501: else
502: {
503: if (stopp)
504: *stopp = NULL;
505: return 1;
506: }
507: }
508:
509: static void parse_register(struct op *op, char *base)
510: {
511: const struct reg_name *r;
512: unsigned int cap;
513:
514: op->cap_type = op->cap_id = 0;
515: if (parse_x32(base, NULL, &op->addr) > 0)
516: return;
517: else if (r = parse_reg_name(base))
518: {
519: switch (r->cap & 0xff0000)
520: {
521: case 0x10000:
522: op->cap_type = PCI_CAP_NORMAL;
523: break;
524: case 0x20000:
525: op->cap_type = PCI_CAP_EXTENDED;
526: break;
527: }
528: op->cap_id = r->cap & 0xffff;
529: op->addr = r->offset;
530: if (r->width && !op->width)
531: op->width = r->width;
532: return;
533: }
534: else if (!strncasecmp(base, "CAP", 3))
535: {
536: if (parse_x32(base+3, NULL, &cap) > 0 && cap < 0x100)
537: {
538: op->cap_type = PCI_CAP_NORMAL;
539: op->cap_id = cap;
540: op->addr = 0;
541: return;
542: }
543: }
544: else if (!strncasecmp(base, "ECAP", 4))
545: {
546: if (parse_x32(base+4, NULL, &cap) > 0 && cap < 0x1000)
547: {
548: op->cap_type = PCI_CAP_EXTENDED;
549: op->cap_id = cap;
550: op->addr = 0;
551: return;
552: }
553: }
554: parse_err("Unknown register \"%s\"", base);
555: }
556:
557: static void parse_op(char *c, struct pci_dev **selected_devices)
558: {
559: char *base, *offset, *width, *value;
560: char *e, *f;
561: int n, j;
562: struct op *op;
563:
564: /* Split the argument */
565: base = xstrdup(c);
566: if (value = strchr(base, '='))
567: *value++ = 0;
568: if (width = strchr(base, '.'))
569: *width++ = 0;
570: if (offset = strchr(base, '+'))
571: *offset++ = 0;
572:
573: /* Look for setting of values and count how many */
574: n = 0;
575: if (value)
576: {
577: if (!*value)
578: parse_err("Missing value");
579: n++;
580: for (e=value; *e; e++)
581: if (*e == ',')
582: n++;
583: }
584:
585: /* Allocate the operation */
586: op = xmalloc(sizeof(struct op) + n*sizeof(struct value));
587: op->dev_vector = selected_devices;
588: op->num_values = n;
589:
590: /* What is the width suffix? */
591: if (width)
592: {
593: if (width[1])
594: parse_err("Invalid width \"%s\"", width);
595: switch (*width & 0xdf)
596: {
597: case 'B':
598: op->width = 1; break;
599: case 'W':
600: op->width = 2; break;
601: case 'L':
602: op->width = 4; break;
603: default:
604: parse_err("Invalid width \"%c\"", *width);
605: }
606: }
607: else
608: op->width = 0;
609:
610: /* Find the register */
611: parse_register(op, base);
612: if (!op->width)
613: parse_err("Missing width");
614:
615: /* Add offset */
616: if (offset)
617: {
618: unsigned int off;
619: if (parse_x32(offset, NULL, &off) <= 0 || off >= 0x1000)
620: parse_err("Invalid offset \"%s\"", offset);
621: op->addr += off;
622: }
623:
624: /* Check range */
625: if (op->addr >= 0x1000 || op->addr + op->width*(n ? n : 1) > 0x1000)
626: parse_err("Register number %02x out of range", op->addr);
627: if (op->addr & (op->width - 1))
628: parse_err("Unaligned register address %02x", op->addr);
629:
630: /* Parse the values */
631: for (j=0; j<n; j++)
632: {
633: unsigned int ll, lim;
634: e = strchr(value, ',');
635: if (e)
636: *e++ = 0;
637: if (parse_x32(value, &f, &ll) < 0 || f && *f != ':')
638: parse_err("Invalid value \"%s\"", value);
639: lim = max_values[op->width];
640: if (ll > lim && ll < ~0UL - lim)
641: parse_err("Value \"%s\" is out of range", value);
642: op->values[j].value = ll;
643: if (f && *f == ':')
644: {
645: if (parse_x32(f+1, NULL, &ll) <= 0)
646: parse_err("Invalid mask \"%s\"", f+1);
647: if (ll > lim && ll < ~0UL - lim)
648: parse_err("Mask \"%s\" is out of range", f+1);
649: op->values[j].mask = ll;
650: op->values[j].value &= ll;
651: }
652: else
653: op->values[j].mask = ~0U;
654: value = e;
655: }
656:
657: *last_op = op;
658: last_op = &op->next;
659: op->next = NULL;
660: }
661:
662: static void parse_ops(int argc, char **argv, int i)
663: {
664: enum { STATE_INIT, STATE_GOT_FILTER, STATE_GOT_OP } state = STATE_INIT;
665: struct pci_filter filter;
666: struct pci_dev **selected_devices = NULL;
667:
668: while (i < argc)
669: {
670: char *c = argv[i++];
671:
672: if (*c == '-')
673: {
674: if (state != STATE_GOT_FILTER)
675: pci_filter_init(pacc, &filter);
676: i = parse_filter(argc, argv, i-1, &filter);
677: state = STATE_GOT_FILTER;
678: }
679: else
680: {
681: if (state == STATE_INIT)
682: parse_err("Filter specification expected");
683: if (state == STATE_GOT_FILTER)
684: selected_devices = select_devices(&filter);
685: if (!selected_devices[0] && !force)
686: fprintf(stderr, "setpci: Warning: No devices selected for \"%s\".\n", c);
687: parse_op(c, selected_devices);
688: state = STATE_GOT_OP;
689: }
690: }
691: if (state == STATE_INIT)
692: parse_err("No operation specified");
693: }
694:
695: int
696: main(int argc, char **argv)
697: {
698: int i;
699:
700: pacc = pci_alloc();
701: pacc->error = die;
702: i = parse_options(argc, argv);
703:
704: pci_init(pacc);
705: pci_scan_bus(pacc);
706:
707: parse_ops(argc, argv, i);
708: scan_ops(first_op);
709: execute(first_op);
710:
711: return 0;
712: }
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