WebSVN – HelenOS – Blame – /branches/dynload/uspace/srv/pci/libpci/names.c

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];
4348	svoboda	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";
		153	int 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);
		333	else if (v = id_lookup(a, ID_VENDOR, iv, 0, 0, 0))
		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);
		343	else if (d = id_lookup(a, ID_DEVICE, iv, id, 0, 0))
		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);
		373	else if (v = id_lookup(a, ID_VENDOR, isv, 0, 0, 0))
		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);
		387	else if (d = id_lookup_subsys(a, iv, id, isv, isd))
		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);
1324	jermar	418	else if (cls = id_lookup(a, ID_SUBCLASS, icls >> 8, icls & 0xff, 0, 0))
1302	jermar	419	return (char *) cls->name;
		420	else if (cls = id_lookup(a, ID_CLASS, icls, 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);
1324	jermar	432	else if (pif = id_lookup(a, ID_PROGIF, icls >> 8, icls & 0xff, ipif, 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	}

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(root)/branches/dynload/uspace/srv/pci/libpci/names.c – Rev 4348