xref: /titanic_50/usr/src/cmd/fm/schemes/mem/mem_unum.c (revision 6d9a41ff63273acce102bfb2d51423ed920e6dcd)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <mem.h>
30 #include <fm/fmd_fmri.h>
31 
32 #include <string.h>
33 #include <strings.h>
34 #include <ctype.h>
35 
36 /*
37  * Given a DIMM or bank unum, mem_unum_burst will break it apart into individual
38  * DIMM names.  If it's a DIMM, one name will be returned.  If it's a bank, the
39  * unums for the individual DIMMs will be returned.
40  *
41  * Plain J-number DIMM and bank unums are simple.  J DIMMs have one J number.  J
42  * banks have multiple whitespace-separated J numbers.
43  *
44  * The others are more complex, and consist of a common portion c, a colon, and
45  * a DIMM-specific portion d.  DIMMs are of the form "c: d", while banks are of
46  * the form "c: d d ...".  The patterns are designed to handle the complex case,
47  * but also handle the simple ones as an afterthought.  bd_pat is used to
48  * match specific styles of unum.  In bd_pat, the first %n indicates the end of
49  * the common portion ("c" above).  The second %n marks the beginning of the
50  * repetitive portion ("d" above).  The third %n is used to determine whether or
51  * not the entire pattern matched.  bd_reppat is used to match instances of the
52  * repetitive part.
53  *
54  * sscanf is your disturbingly powerful friend.
55  *
56  * The "bd_subst" element of the bank_dimm structure was added for Ontario
57  * in order to accommodate its bank string names.  Previously, to convert
58  * from a bank representation <common piece> <dimm1> <dimm2> ...
59  * we concatenated the common piece with each dimm-specific piece in turn,
60  * possibly deleting some characters in between.  Ontario is the first
61  * platform which requires that characters be substituted (like a vi s/1/2/)
62  * in place of characters deleted.  "bd_subst" represents the character(s)
63  * to be substituted between the common piece and each dimm-specific piece
64  * as part of the bursting.  For prior platforms, this value is skipped.
65  *
66  * Example:
67  * input: "MB/CMP0/CH3: R1/D0/J1901 R1/D1/J2001"
68  * outputs: "MB/CMP0/CH3/R1/D0/J1901", "MB/CMP0/CH3/R1/D1/J2001"
69  */
70 
71 typedef struct bank_dimm {
72 	const char *bd_pat;
73 	const char *bd_reppat;
74 	const char *bd_subst;
75 } bank_dimm_t;
76 
77 static const bank_dimm_t bank_dimm[] = {
78 	{ "%n%nJ%*4d%n",			" J%*4d%n" },
79 	{ "MB/P%*d/%nB%*d:%n%n",		" B%*d/D%*d%n" },
80 	{ "MB/P%*d/%nB%*d/D%*d:%n%n",		" B%*d/D%*d%n" },
81 	{ "C%*d/P%*d/%nB%*d:%n%n",		" B%*d/D%*d%n" },
82 	{ "C%*d/P%*d/%nB%*d/D%*d:%n%n",		" B%*d/D%*d%n" },
83 	{ "Slot %*c: %n%nJ%*4d%n",		" J%*4d%n" },
84 	{ "%n%nDIMM%*d%n",			" DIMM%*d%n" },
85 	{ "MB/%nDIMM%*d MB/DIMM%*d: %n%n",	" DIMM%*d%n" },
86 	{ "MB/%nDIMM%*d:%n%n",			" DIMM%*d%n" },
87 	{ "MB/CMP%*d/CH%*d%n:%n%n",		" R%*d/D%*d/J%*4d%n",	"/" },
88 	{ "MB/CMP%*d/CH%*d%n%n%n",		"/R%*d/D%*d/J%*4d%n" },
89 	{ NULL }
90 };
91 
92 /*
93  * Returns 0 (with dimmsp and ndimmsp set) if the unum could be bursted, -1
94  * otherwise.
95  */
96 int
97 mem_unum_burst(const char *pat, char ***dimmsp, size_t *ndimmsp)
98 {
99 	const bank_dimm_t *bd;
100 	char **dimms = NULL, **newdimms;
101 	size_t ndimms = 0;
102 	const char *c;
103 
104 	for (bd = bank_dimm; bd->bd_pat != NULL; bd++) {
105 		int replace, start, matched;
106 		char dimmname[64];
107 
108 		replace = start = matched = -1;
109 		(void) sscanf(pat, bd->bd_pat, &replace, &start, &matched);
110 		if (matched == -1)
111 			continue;
112 
113 		(void) strlcpy(dimmname, pat, sizeof (dimmname));
114 		if (bd->bd_subst != NULL) {
115 			(void) strlcpy(dimmname+replace, bd->bd_subst,
116 			    sizeof (dimmname) - strlen(bd->bd_subst));
117 			replace += strlen(bd->bd_subst);
118 		}
119 
120 		c = pat + start;
121 		while (*c != '\0') {
122 			int dimmlen = -1;
123 
124 			(void) sscanf(c, bd->bd_reppat, &dimmlen);
125 			if (dimmlen == -1)
126 				break;
127 
128 			while (*c == ' ') {
129 				c++;
130 				dimmlen--;
131 			}
132 
133 			if (dimmlen > sizeof (dimmname) - replace)
134 				break;
135 
136 			(void) strlcpy(dimmname + replace, c, dimmlen + 1);
137 
138 			newdimms = fmd_fmri_alloc(sizeof (char *) *
139 			    (ndimms + 1));
140 			if (ndimms != 0) {
141 				bcopy(dimms, newdimms, sizeof (char *) *
142 				    ndimms);
143 				fmd_fmri_free(dimms, sizeof (char *) * ndimms);
144 			}
145 			newdimms[ndimms++] = fmd_fmri_strdup(dimmname);
146 			dimms = newdimms;
147 
148 			c += dimmlen;
149 
150 			if (*c != ' ' && *c != '\0')
151 				break;
152 		}
153 
154 		if (*c != '\0')
155 			break;
156 
157 		*dimmsp = dimms;
158 		*ndimmsp = ndimms;
159 
160 		return (0);
161 	}
162 
163 	mem_strarray_free(dimms, ndimms);
164 	return (fmd_fmri_set_errno(EINVAL));
165 }
166 
167 /*
168  * The unum containership operation is designed to tell the caller whether a
169  * given FMRI contains another.  In the case of this plugin, we tell the caller
170  * whether a given memory FMRI (usually a bank) contains another (usually a
171  * DIMM).  We do this in one of two ways, depending on the platform.  For most
172  * platforms, we can use the bursting routine to generate the list of member
173  * unums from the container unum.  Membership can then be determined by
174  * searching the bursted list for the containee's unum.
175  *
176  * Some platforms, however, cannot be bursted, as their bank unums do not
177  * contain all of the information needed to generate the complete list of
178  * member DIMM unums.  For these unums, we must make do with a substring
179  * comparison.
180  */
181 
182 static int
183 unum_contains_bypat(const char *erunum, const char *eeunum)
184 {
185 	char **ernms, **eenms;
186 	uint_t nernms, neenms;
187 	int i, j, rv = 1;
188 
189 	if (mem_unum_burst(erunum, &ernms, &nernms) < 0)
190 		return (fmd_fmri_set_errno(EINVAL));
191 	if (mem_unum_burst(eeunum, &eenms, &neenms) < 0) {
192 		mem_strarray_free(ernms, nernms);
193 		return (fmd_fmri_set_errno(EINVAL));
194 	}
195 
196 	for (i = 0; i < neenms; i++) {
197 		for (j = 0; j < nernms; j++) {
198 			if (strcmp(eenms[i], ernms[j]) == 0)
199 				break;
200 		}
201 
202 		if (j == nernms) {
203 			/*
204 			 * This DIMM was not found in the container.
205 			 */
206 			rv = 0;
207 			break;
208 		}
209 	}
210 
211 	mem_strarray_free(ernms, nernms);
212 	mem_strarray_free(eenms, neenms);
213 
214 	return (rv);
215 }
216 
217 static int
218 unum_strip_one_jnum(const char *unum, uint_t *endp)
219 {
220 	char *c;
221 	int i;
222 
223 	if ((c = strrchr(unum, 'J')) == NULL)
224 		return (0);
225 
226 	while (c > unum && isspace(c[-1]))
227 		c--;
228 
229 	(void) sscanf(c, " J%*[0-9] %n", &i);
230 	if (i == 0 || (uintptr_t)(c - unum) + i != strlen(unum))
231 		return (0);
232 
233 	*endp = (uint_t)(c - unum);
234 	return (1);
235 }
236 
237 
238 static int
239 unum_contains_bysubstr(const char *erunum, const char *eeunum)
240 {
241 	uint_t erlen, eelen;
242 
243 	/*
244 	 * This comparison method is only known to work on specific types of
245 	 * unums.  Check for those types here.
246 	 */
247 	if ((strncmp(erunum, "/N", 2) != 0 && strncmp(erunum, "/IO", 3) != 0 &&
248 	    strncmp(erunum, "/SB", 3) != 0) ||
249 	    (strncmp(eeunum, "/N", 2) != 0 && strncmp(eeunum, "/IO", 3) != 0 &&
250 	    strncmp(eeunum, "/SB", 3) != 0))
251 		return (fmd_fmri_set_errno(EINVAL));
252 
253 	erlen = unum_strip_one_jnum(erunum, &erlen) ? erlen : strlen(erunum);
254 	eelen = unum_strip_one_jnum(eeunum, &eelen) ? eelen : strlen(eeunum);
255 
256 	return (strncmp(erunum, eeunum, MIN(erlen, eelen)) == 0);
257 }
258 
259 typedef int unum_cmptor_f(const char *, const char *);
260 
261 static unum_cmptor_f *const unum_cmptors[] = {
262 	unum_contains_bypat,
263 	unum_contains_bysubstr
264 };
265 
266 int
267 mem_unum_contains(const char *erunum, const char *eeunum)
268 {
269 	static int cmptor = 0;
270 	int rc;
271 
272 	while (isspace(*erunum))
273 		erunum++;
274 	while (isspace(*eeunum))
275 		eeunum++;
276 
277 	if ((rc = unum_cmptors[cmptor](erunum, eeunum)) >= 0)
278 		return (rc);
279 
280 	if ((rc = unum_cmptors[cmptor == 0](erunum, eeunum)) >= 0) {
281 		/*
282 		 * We succeeded with the non-default comparator.  Change the
283 		 * default so we use the correct one next time.
284 		 */
285 		cmptor = (cmptor == 0);
286 	}
287 
288 	return (rc);
289 }
290