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Rev Author Line No. Line
1301 jermar 1 
/*
2 
 *	The PCI Library -- ID to Name Translation
3 
 *
4 
 *	Copyright (c) 1997--2005 Martin Mares <mj@ucw.cz>
5 
 *
1324 jermar 6 
 *	May 8, 2006 - Modified and ported to HelenOS by Jakub Jermar.
1301 jermar 7 
 *
8 
 *	Can be freely distributed and used under the terms of the GNU GPL.
9 
 */
10 
 
11 
#include <stdio.h>
12 
#include <stdlib.h>
13 
#include <stdarg.h>
14 
#include <string.h>
15 
#include <errno.h>
16 
 
17 
#include "internal.h"
18 
#include "pci_ids.h"
19 
 
20 
struct id_entry {
1302 jermar 21 
	struct id_entry *next;
22 
	u32 id12, id34;
23 
	byte cat;
24 
	byte name[1];
1301 jermar 25 
};
26 
 
27 
enum id_entry_type {
1302 jermar 28 
	ID_UNKNOWN,
29 
	ID_VENDOR,
30 
	ID_DEVICE,
31 
	ID_SUBSYSTEM,
32 
	ID_GEN_SUBSYSTEM,
33 
	ID_CLASS,
34 
	ID_SUBCLASS,
35 
	ID_PROGIF
1301 jermar 36 
};
37 
 
38 
struct id_bucket {
1302 jermar 39 
	struct id_bucket *next;
40 
	unsigned int full;
1301 jermar 41 
};
42 
 
43 
#define MAX_LINE 1024
44 
#define BUCKET_SIZE 8192
45 
#define HASH_SIZE 4099
46 
 
47 
#ifdef __GNUC__
48 
#define BUCKET_ALIGNMENT __alignof__(struct id_bucket)
49 
#else
50 
union id_align {
1302 jermar 51 
	struct id_bucket *next;
52 
	unsigned int full;
1301 jermar 53 
};
54 
#define BUCKET_ALIGNMENT sizeof(union id_align)
55 
#endif
56 
#define BUCKET_ALIGN(n) ((n)+BUCKET_ALIGNMENT-(n)%BUCKET_ALIGNMENT)
57 
 
58 
static void *id_alloc(struct pci_access *a, unsigned int size)
59 
{
1302 jermar 60 
	struct id_bucket *buck = a->current_id_bucket;
61 
	unsigned int pos;
62 
	if (!buck || buck->full + size > BUCKET_SIZE) {
63 
		buck = pci_malloc(a, BUCKET_SIZE);
64 
		buck->next = a->current_id_bucket;
65 
		a->current_id_bucket = buck;
66 
		buck->full = BUCKET_ALIGN(sizeof(struct id_bucket));
67 
	}
68 
	pos = buck->full;
69 
	buck->full = BUCKET_ALIGN(buck->full + size);
70 
	return (byte *) buck + pos;
1301 jermar 71 
}
72 
 
73 
static inline u32 id_pair(unsigned int x, unsigned int y)
74 
{
1302 jermar 75 
	return ((x << 16) | y);
1301 jermar 76 
}
77 
 
78 
static inline unsigned int id_hash(int cat, u32 id12, u32 id34)
79 
{
1302 jermar 80 
	unsigned int h;
1301 jermar 81 
 
1302 jermar 82 
	h = id12 ^ (id34 << 3) ^ (cat << 5);
83 
	return h % HASH_SIZE;
1301 jermar 84 
}
85 
 
1302 jermar 86 
static struct id_entry *id_lookup(struct pci_access *a, int cat, int id1,
87 
				  int id2, int id3, int id4)
1301 jermar 88 
{
1302 jermar 89 
	struct id_entry *n;
90 
	u32 id12 = id_pair(id1, id2);
91 
	u32 id34 = id_pair(id3, id4);
1301 jermar 92 
 
1302 jermar 93 
	n = a->id_hash[id_hash(cat, id12, id34)];
94 
	while (n && (n->id12 != id12 || n->id34 != id34 || n->cat != cat))
95 
		n = n->next;
96 
	return n;
1301 jermar 97 
}
98 
 
1302 jermar 99 
static int id_insert(struct pci_access *a, int cat, int id1, int id2,
100 
		     int id3, int id4, byte * text)
1301 jermar 101 
{
1302 jermar 102 
	u32 id12 = id_pair(id1, id2);
103 
	u32 id34 = id_pair(id3, id4);
104 
	unsigned int h = id_hash(cat, id12, id34);
105 
	struct id_entry *n = a->id_hash[h];
4327 mejdrech 106 
	int len = str_size((char *) text);
1301 jermar 107 
 
1302 jermar 108 
	while (n && (n->id12 != id12 || n->id34 != id34 || n->cat != cat))
109 
		n = n->next;
110 
	if (n)
111 
		return 1;
112 
	n = id_alloc(a, sizeof(struct id_entry) + len);
113 
	n->id12 = id12;
114 
	n->id34 = id34;
115 
	n->cat = cat;
116 
	memcpy(n->name, text, len + 1);
117 
	n->next = a->id_hash[h];
118 
	a->id_hash[h] = n;
119 
	return 0;
1301 jermar 120 
}
121 
 
1302 jermar 122 
static int id_hex(byte * p, int cnt)
1301 jermar 123 
{
1302 jermar 124 
	int x = 0;
125 
	while (cnt--) {
126 
		x <<= 4;
127 
		if (*p >= '0' && *p <= '9')
128 
			x += (*p - '0');
129 
		else if (*p >= 'a' && *p <= 'f')
130 
			x += (*p - 'a' + 10);
131 
		else if (*p >= 'A' && *p <= 'F')
132 
			x += (*p - 'A' + 10);
133 
		else
134 
			return -1;
135 
		p++;
136 
	}
137 
	return x;
1301 jermar 138 
}
139 
 
140 
static inline int id_white_p(int c)
141 
{
1302 jermar 142 
	return (c == ' ') || (c == '\t');
1301 jermar 143 
}
144 
 
145 
static const char *id_parse_list(struct pci_access *a, int *lino)
146 
{
1302 jermar 147 
	byte *line;
148 
	byte *p;
149 
	int id1 = 0, id2 = 0, id3 = 0, id4 = 0;
150 
	int cat = -1;
151 
	int nest;
152 
	static const char parse_error[] = "Parse error";
4718 mejdrech 153 
	size_t i;
1301 jermar 154 
 
1302 jermar 155 
	*lino = 0;
156 
	for (i = 0; i < sizeof(pci_ids) / sizeof(char *); i++) {
157 
		line = (byte *) pci_ids[i];
158 
		(*lino)++;
159 
		p = line;
160 
		while (*p)
161 
			p++;
162 
		if (p > line && (p[-1] == ' ' || p[-1] == '\t'))
163 
			*--p = 0;
1301 jermar 164 
 
1302 jermar 165 
		p = line;
166 
		while (id_white_p(*p))
167 
			p++;
168 
		if (!*p || *p == '#')
169 
			continue;
1301 jermar 170 
 
1302 jermar 171 
		p = line;
172 
		while (*p == '\t')
173 
			p++;
174 
		nest = p - line;
1301 jermar 175 
 
1302 jermar 176 
		if (!nest) {	/* Top-level entries */
177 
			if (p[0] == 'C' && p[1] == ' ') {	/* Class block */
1324 jermar 178 
				if ((id1 = id_hex(p + 2, 2)) < 0 || !id_white_p(p[4]))
1302 jermar 179 
					return parse_error;
180 
				cat = ID_CLASS;
181 
				p += 5;
182 
			} else if (p[0] == 'S' && p[1] == ' ') {	/* Generic subsystem block */
183 
				if ((id1 = id_hex(p + 2, 4)) < 0 || p[6])
184 
					return parse_error;
185 
				if (!id_lookup(a, ID_VENDOR, id1, 0, 0, 0))
186 
					return "Vendor does not exist";
187 
				cat = ID_GEN_SUBSYSTEM;
188 
				continue;
189 
			} else if (p[0] >= 'A' && p[0] <= 'Z' && p[1] == ' ') {	/* Unrecognized block (RFU) */
190 
				cat = ID_UNKNOWN;
191 
				continue;
192 
			} else {	/* Vendor ID */
193 
 
1324 jermar 194 
				if ((id1 = id_hex(p, 4)) < 0 || !id_white_p(p[4]))
1302 jermar 195 
					return parse_error;
196 
				cat = ID_VENDOR;
197 
				p += 5;
198 
			}
199 
			id2 = id3 = id4 = 0;
200 
		} else if (cat == ID_UNKNOWN)	/* Nested entries in RFU blocks are skipped */
201 
			continue;
202 
		else if (nest == 1)	/* Nesting level 1 */
203 
			switch (cat) {
204 
			case ID_VENDOR:
205 
			case ID_DEVICE:
206 
			case ID_SUBSYSTEM:
1324 jermar 207 
				if ((id2 = id_hex(p, 4)) < 0 || !id_white_p(p[4]))
1302 jermar 208 
					return parse_error;
209 
				p += 5;
210 
				cat = ID_DEVICE;
211 
				id3 = id4 = 0;
212 
				break;
213 
			case ID_GEN_SUBSYSTEM:
1324 jermar 214 
				if ((id2 = id_hex(p, 4)) < 0 || !id_white_p(p[4]))
1302 jermar 215 
					return parse_error;
216 
				p += 5;
217 
				id3 = id4 = 0;
218 
				break;
219 
			case ID_CLASS:
220 
			case ID_SUBCLASS:
221 
			case ID_PROGIF:
1324 jermar 222 
				if ((id2 = id_hex(p, 2)) < 0 || !id_white_p(p[2]))
1302 jermar 223 
					return parse_error;
224 
				p += 3;
225 
				cat = ID_SUBCLASS;
226 
				id3 = id4 = 0;
227 
				break;
228 
			default:
229 
				return parse_error;
230 
		} else if (nest == 2)	/* Nesting level 2 */
231 
			switch (cat) {
232 
			case ID_DEVICE:
233 
			case ID_SUBSYSTEM:
1324 jermar 234 
				if ((id3 = id_hex(p, 4)) < 0 || !id_white_p(p[4])
235 
				    || (id4 = id_hex(p + 5, 4)) < 0 || !id_white_p(p[9]))
1302 jermar 236 
					return parse_error;
237 
				p += 10;
238 
				cat = ID_SUBSYSTEM;
239 
				break;
240 
			case ID_CLASS:
241 
			case ID_SUBCLASS:
242 
			case ID_PROGIF:
1324 jermar 243 
				if ((id3 = id_hex(p, 2)) < 0 || !id_white_p(p[2]))
1302 jermar 244 
					return parse_error;
245 
				p += 3;
246 
				cat = ID_PROGIF;
247 
				id4 = 0;
248 
				break;
249 
			default:
250 
				return parse_error;
251 
		} else		/* Nesting level 3 or more */
252 
			return parse_error;
253 
		while (id_white_p(*p))
254 
			p++;
255 
		if (!*p)
256 
			return parse_error;
257 
		if (id_insert(a, cat, id1, id2, id3, id4, p))
258 
			return "Duplicate entry";
1301 jermar 259 
	}
1302 jermar 260 
	return NULL;
1301 jermar 261 
}
262 
 
1302 jermar 263 
int pci_load_name_list(struct pci_access *a)
1301 jermar 264 
{
1302 jermar 265 
	int lino;
266 
	const char *err;
1301 jermar 267 
 
1302 jermar 268 
	pci_free_name_list(a);
269 
	a->id_hash = pci_malloc(a, sizeof(struct id_entry *) * HASH_SIZE);
270 
	bzero(a->id_hash, sizeof(struct id_entry *) * HASH_SIZE);
271 
	err = id_parse_list(a, &lino);
272 
	if (err)
273 
		a->error("%s at %s, element %d\n", err, "pci_ids.h", lino);
274 
	return 1;
1301 jermar 275 
}
276 
 
1302 jermar 277 
void pci_free_name_list(struct pci_access *a)
1301 jermar 278 
{
1302 jermar 279 
	pci_mfree(a->id_hash);
280 
	a->id_hash = NULL;
281 
	while (a->current_id_bucket) {
282 
		struct id_bucket *buck = a->current_id_bucket;
283 
		a->current_id_bucket = buck->next;
284 
		pci_mfree(buck);
285 
	}
1301 jermar 286 
}
287 
 
1302 jermar 288 
static struct id_entry *id_lookup_subsys(struct pci_access *a, int iv,
289 
					 int id, int isv, int isd)
1301 jermar 290 
{
1302 jermar 291 
	struct id_entry *d = NULL;
292 
	if (iv > 0 && id > 0)	/* Per-device lookup */
293 
		d = id_lookup(a, ID_SUBSYSTEM, iv, id, isv, isd);
294 
	if (!d)			/* Generic lookup */
295 
		d = id_lookup(a, ID_GEN_SUBSYSTEM, isv, isd, 0, 0);
296 
	if (!d && iv == isv && id == isd)	/* Check for subsystem == device */
297 
		d = id_lookup(a, ID_DEVICE, iv, id, 0, 0);
298 
	return d;
1301 jermar 299 
}
300 
 
1302 jermar 301 
char *pci_lookup_name(struct pci_access *a, char *buf, int size, int flags,
302 
		      ...)
1301 jermar 303 
{
1302 jermar 304 
	va_list args;
305 
	int num, res, synth;
306 
	struct id_entry *v, *d, *cls, *pif;
307 
	int iv, id, isv, isd, icls, ipif;
1301 jermar 308 
 
1302 jermar 309 
	va_start(args, flags);
1301 jermar 310 
 
1302 jermar 311 
	num = 0;
312 
	if ((flags & PCI_LOOKUP_NUMERIC) || a->numeric_ids) {
313 
		flags &= ~PCI_LOOKUP_NUMERIC;
314 
		num = 1;
315 
	} else if (!a->id_hash) {
316 
		if (!pci_load_name_list(a))
317 
			num = a->numeric_ids = 1;
318 
	}
1301 jermar 319 
 
1302 jermar 320 
	if (flags & PCI_LOOKUP_NO_NUMBERS) {
321 
		flags &= ~PCI_LOOKUP_NO_NUMBERS;
322 
		synth = 0;
323 
		if (num)
324 
			return NULL;
325 
	} else
326 
		synth = 1;
1301 jermar 327 
 
1302 jermar 328 
	switch (flags) {
329 
	case PCI_LOOKUP_VENDOR:
330 
		iv = va_arg(args, int);
331 
		if (num)
332 
			res = snprintf(buf, size, "%04x", iv);
4718 mejdrech 333 
		else if ((v = id_lookup(a, ID_VENDOR, iv, 0, 0, 0)) != 0)
1302 jermar 334 
			return (char *) v->name;
335 
		else
1324 jermar 336 
			res = snprintf(buf, size, "Unknown vendor %04x", iv);
1302 jermar 337 
		break;
338 
	case PCI_LOOKUP_DEVICE:
339 
		iv = va_arg(args, int);
340 
		id = va_arg(args, int);
341 
		if (num)
342 
			res = snprintf(buf, size, "%04x", id);
4718 mejdrech 343 
		else if ((d = id_lookup(a, ID_DEVICE, iv, id, 0, 0)) != 0)
1302 jermar 344 
			return (char *) d->name;
345 
		else if (synth)
1324 jermar 346 
			res = snprintf(buf, size, "Unknown device %04x", id);
1302 jermar 347 
		else
348 
			return NULL;
349 
		break;
350 
	case PCI_LOOKUP_VENDOR | PCI_LOOKUP_DEVICE:
351 
		iv = va_arg(args, int);
352 
		id = va_arg(args, int);
353 
		if (num)
354 
			res = snprintf(buf, size, "%04x:%04x", iv, id);
355 
		else {
356 
			v = id_lookup(a, ID_VENDOR, iv, 0, 0, 0);
357 
			d = id_lookup(a, ID_DEVICE, iv, id, 0, 0);
358 
			if (v && d)
1324 jermar 359 
				res = snprintf(buf, size, "%s %s", v->name,
1302 jermar 360 
					     d->name);
361 
			else if (!synth)
362 
				return NULL;
363 
			else if (!v)
1324 jermar 364 
				res = snprintf(buf, size, "Unknown device %04x:%04x", iv, id);
1302 jermar 365 
			else	/* !d */
1324 jermar 366 
				res = snprintf(buf, size, "%s Unknown device %04x", v->name, id);
1302 jermar 367 
		}
368 
		break;
369 
	case PCI_LOOKUP_SUBSYSTEM | PCI_LOOKUP_VENDOR:
370 
		isv = va_arg(args, int);
371 
		if (num)
372 
			res = snprintf(buf, size, "%04x", isv);
4718 mejdrech 373 
		else if ((v = id_lookup(a, ID_VENDOR, isv, 0, 0, 0)) != 0)
1302 jermar 374 
			return (char *) v->name;
375 
		else if (synth)
1324 jermar 376 
			res = snprintf(buf, size, "Unknown vendor %04x", isv);
1302 jermar 377 
		else
378 
			return NULL;
379 
		break;
380 
	case PCI_LOOKUP_SUBSYSTEM | PCI_LOOKUP_DEVICE:
381 
		iv = va_arg(args, int);
382 
		id = va_arg(args, int);
383 
		isv = va_arg(args, int);
384 
		isd = va_arg(args, int);
385 
		if (num)
386 
			res = snprintf(buf, size, "%04x", isd);
4718 mejdrech 387 
		else if ((d = id_lookup_subsys(a, iv, id, isv, isd)) != 0)
1302 jermar 388 
			return (char *) d->name;
389 
		else if (synth)
1324 jermar 390 
			res = snprintf(buf, size, "Unknown device %04x", isd);
1302 jermar 391 
		else
392 
			return NULL;
393 
		break;
394 
	case PCI_LOOKUP_VENDOR | PCI_LOOKUP_DEVICE | PCI_LOOKUP_SUBSYSTEM:
395 
		iv = va_arg(args, int);
396 
		id = va_arg(args, int);
397 
		isv = va_arg(args, int);
398 
		isd = va_arg(args, int);
399 
		if (num)
400 
			res = snprintf(buf, size, "%04x:%04x", isv, isd);
401 
		else {
402 
			v = id_lookup(a, ID_VENDOR, isv, 0, 0, 0);
403 
			d = id_lookup_subsys(a, iv, id, isv, isd);
404 
			if (v && d)
1324 jermar 405 
				res = snprintf(buf, size, "%s %s", v->name, d->name);
1302 jermar 406 
			else if (!synth)
407 
				return NULL;
408 
			else if (!v)
1324 jermar 409 
				res = snprintf(buf, size, "Unknown device %04x:%04x", isv, isd);
1302 jermar 410 
			else	/* !d */
1324 jermar 411 
				res = snprintf(buf, size, "%s Unknown device %04x", v->name, isd);
1302 jermar 412 
		}
413 
		break;
414 
	case PCI_LOOKUP_CLASS:
415 
		icls = va_arg(args, int);
416 
		if (num)
417 
			res = snprintf(buf, size, "%04x", icls);
4718 mejdrech 418 
		else if ((cls = id_lookup(a, ID_SUBCLASS, icls >> 8, icls & 0xff, 0, 0)) != 0)
1302 jermar 419 
			return (char *) cls->name;
4718 mejdrech 420 
		else if ((cls = id_lookup(a, ID_CLASS, icls, 0, 0, 0)) != 0)
1324 jermar 421 
			res = snprintf(buf, size, "%s [%04x]", cls->name, icls);
1302 jermar 422 
		else if (synth)
423 
			res = snprintf(buf, size, "Class %04x", icls);
424 
		else
425 
			return NULL;
426 
		break;
427 
	case PCI_LOOKUP_PROGIF:
428 
		icls = va_arg(args, int);
429 
		ipif = va_arg(args, int);
430 
		if (num)
431 
			res = snprintf(buf, size, "%02x", ipif);
4718 mejdrech 432 
		else if ((pif = id_lookup(a, ID_PROGIF, icls >> 8, icls & 0xff, ipif, 0)) != 0)
1302 jermar 433 
			return (char *) pif->name;
434 
		else if (icls == 0x0101 && !(ipif & 0x70)) {
435 
			/* IDE controllers have complex prog-if semantics */
436 
			res = snprintf(buf, size, "%s%s%s%s%s",
437 
				       (ipif & 0x80) ? "Master " : "",
438 
				       (ipif & 0x08) ? "SecP " : "",
439 
				       (ipif & 0x04) ? "SecO " : "",
440 
				       (ipif & 0x02) ? "PriP " : "",
441 
				       (ipif & 0x01) ? "PriO " : "");
442 
			if (res > 0 && res < size)
443 
				buf[--res] = 0;
444 
		} else if (synth)
445 
			res = snprintf(buf, size, "ProgIf %02x", ipif);
446 
		else
447 
			return NULL;
448 
		break;
449 
	default:
450 
		return "<pci_lookup_name: invalid request>";
1301 jermar 451 
	}
1302 jermar 452 
	if (res < 0 || res >= size)
453 
		return "<pci_lookup_name: buffer too small>";
454 
	else
455 
		return buf;
1301 jermar 456 
}