xref: /titanic_51/usr/src/lib/libkvm/common/kvm.c (revision a29e56d91db891741f1af9f6bbd3e3c3cac5f19b)
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 2004 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*
28  * Copyright (c) 2013, Joyent, Inc.  All rights reserved.
29  */
30 
31 #include <kvm.h>
32 #include <stdio.h>
33 #include <stdlib.h>
34 #include <stdarg.h>
35 #include <unistd.h>
36 #include <limits.h>
37 #include <fcntl.h>
38 #include <strings.h>
39 #include <errno.h>
40 #include <sys/mem.h>
41 #include <sys/stat.h>
42 #include <sys/mman.h>
43 #include <sys/dumphdr.h>
44 #include <sys/sysmacros.h>
45 
46 struct _kvmd {
47 	struct dumphdr	kvm_dump;
48 	char		*kvm_debug;
49 	int		kvm_openflag;
50 	int		kvm_corefd;
51 	int		kvm_kmemfd;
52 	int		kvm_memfd;
53 	size_t		kvm_coremapsize;
54 	char		*kvm_core;
55 	dump_map_t	*kvm_map;
56 	pfn_t		*kvm_pfn;
57 	struct as	*kvm_kas;
58 	proc_t		*kvm_practive;
59 	pid_t		kvm_pid;
60 	char		kvm_namelist[MAXNAMELEN + 1];
61 	boolean_t	kvm_namelist_core;
62 	proc_t		kvm_proc;
63 };
64 
65 #define	PREAD	(ssize_t (*)(int, void *, size_t, offset_t))pread64
66 #define	PWRITE	(ssize_t (*)(int, void *, size_t, offset_t))pwrite64
67 
68 static int kvm_nlist_core(kvm_t *kd, struct nlist nl[], const char *err);
69 
70 static kvm_t *
71 fail(kvm_t *kd, const char *err, const char *message, ...)
72 {
73 	va_list args;
74 
75 	va_start(args, message);
76 	if (err || (kd && kd->kvm_debug)) {
77 		(void) fprintf(stderr, "%s: ", err ? err : "KVM_DEBUG");
78 		(void) vfprintf(stderr, message, args);
79 		(void) fprintf(stderr, "\n");
80 	}
81 	va_end(args);
82 	if (kd != NULL)
83 		(void) kvm_close(kd);
84 	return (NULL);
85 }
86 
87 /*ARGSUSED*/
88 kvm_t *
89 kvm_open(const char *namelist, const char *corefile, const char *swapfile,
90 	int flag, const char *err)
91 {
92 	kvm_t *kd;
93 	struct stat64 memstat, kmemstat, allkmemstat, corestat;
94 	struct nlist nl[3] = { { "kas" }, { "practive" }, { "" } };
95 
96 	if ((kd = calloc(1, sizeof (kvm_t))) == NULL)
97 		return (fail(NULL, err, "cannot allocate space for kvm_t"));
98 
99 	kd->kvm_corefd = kd->kvm_kmemfd = kd->kvm_memfd = -1;
100 	kd->kvm_debug = getenv("KVM_DEBUG");
101 
102 	if ((kd->kvm_openflag = flag) != O_RDONLY && flag != O_RDWR)
103 		return (fail(kd, err, "illegal flag 0x%x to kvm_open()", flag));
104 
105 	if (corefile == NULL)
106 		corefile = "/dev/kmem";
107 
108 	if (stat64(corefile, &corestat) == -1)
109 		return (fail(kd, err, "cannot stat %s", corefile));
110 
111 	if (S_ISCHR(corestat.st_mode)) {
112 		if (stat64("/dev/mem", &memstat) == -1)
113 			return (fail(kd, err, "cannot stat /dev/mem"));
114 
115 		if (stat64("/dev/kmem", &kmemstat) == -1)
116 			return (fail(kd, err, "cannot stat /dev/kmem"));
117 
118 		if (stat64("/dev/allkmem", &allkmemstat) == -1)
119 			return (fail(kd, err, "cannot stat /dev/allkmem"));
120 		if (corestat.st_rdev == memstat.st_rdev ||
121 		    corestat.st_rdev == kmemstat.st_rdev ||
122 		    corestat.st_rdev == allkmemstat.st_rdev) {
123 			char *kmem = (corestat.st_rdev == allkmemstat.st_rdev ?
124 			    "/dev/allkmem" : "/dev/kmem");
125 
126 			if ((kd->kvm_kmemfd = open64(kmem, flag)) == -1)
127 				return (fail(kd, err, "cannot open %s", kmem));
128 			if ((kd->kvm_memfd = open64("/dev/mem", flag)) == -1)
129 				return (fail(kd, err, "cannot open /dev/mem"));
130 		}
131 	} else {
132 		if ((kd->kvm_corefd = open64(corefile, flag)) == -1)
133 			return (fail(kd, err, "cannot open %s", corefile));
134 		if (pread64(kd->kvm_corefd, &kd->kvm_dump,
135 		    sizeof (kd->kvm_dump), 0) != sizeof (kd->kvm_dump))
136 			return (fail(kd, err, "cannot read dump header"));
137 		if (kd->kvm_dump.dump_magic != DUMP_MAGIC)
138 			return (fail(kd, err, "%s is not a kernel core file "
139 			    "(bad magic number %x)", corefile,
140 			    kd->kvm_dump.dump_magic));
141 		if (kd->kvm_dump.dump_version != DUMP_VERSION)
142 			return (fail(kd, err,
143 			    "libkvm version (%u) != corefile version (%u)",
144 			    DUMP_VERSION, kd->kvm_dump.dump_version));
145 		if (kd->kvm_dump.dump_wordsize != DUMP_WORDSIZE)
146 			return (fail(kd, err, "%s is a %d-bit core file - "
147 			    "cannot examine with %d-bit libkvm", corefile,
148 			    kd->kvm_dump.dump_wordsize, DUMP_WORDSIZE));
149 		/*
150 		 * We try to mmap(2) the entire corefile for performance
151 		 * (so we can use bcopy(3C) rather than pread(2)).  Failing
152 		 * that, we insist on at least mmap(2)ing the dump map.
153 		 */
154 		kd->kvm_coremapsize = (size_t)corestat.st_size;
155 		if (corestat.st_size > LONG_MAX ||
156 		    (kd->kvm_core = mmap64(0, kd->kvm_coremapsize,
157 		    PROT_READ, MAP_SHARED, kd->kvm_corefd, 0)) == MAP_FAILED) {
158 			kd->kvm_coremapsize = kd->kvm_dump.dump_data;
159 			if ((kd->kvm_core = mmap64(0, kd->kvm_coremapsize,
160 			    PROT_READ, MAP_SHARED, kd->kvm_corefd, 0)) ==
161 			    MAP_FAILED)
162 				return (fail(kd, err, "cannot mmap corefile"));
163 		}
164 		kd->kvm_map = (void *)(kd->kvm_core + kd->kvm_dump.dump_map);
165 		kd->kvm_pfn = (void *)(kd->kvm_core + kd->kvm_dump.dump_pfn);
166 	}
167 
168 	if (namelist == NULL)
169 		namelist = "/dev/ksyms";
170 
171 	(void) strncpy(kd->kvm_namelist, namelist, MAXNAMELEN);
172 
173 	if (kvm_nlist(kd, nl) == -1) {
174 		if (kd->kvm_corefd == -1) {
175 			return (fail(kd, err, "%s is not a %d-bit "
176 			    "kernel namelist", namelist, DUMP_WORDSIZE));
177 		}
178 
179 		if (kvm_nlist_core(kd, nl, err) == -1)
180 			return (NULL);		/* fail() already called */
181 	}
182 
183 	kd->kvm_kas = (struct as *)nl[0].n_value;
184 	kd->kvm_practive = (proc_t *)nl[1].n_value;
185 
186 	(void) kvm_setproc(kd);
187 	return (kd);
188 }
189 
190 int
191 kvm_close(kvm_t *kd)
192 {
193 	if (kd->kvm_core != NULL && kd->kvm_core != MAP_FAILED)
194 		(void) munmap(kd->kvm_core, kd->kvm_coremapsize);
195 	if (kd->kvm_corefd != -1)
196 		(void) close(kd->kvm_corefd);
197 	if (kd->kvm_kmemfd != -1)
198 		(void) close(kd->kvm_kmemfd);
199 	if (kd->kvm_memfd != -1)
200 		(void) close(kd->kvm_memfd);
201 	if (kd->kvm_namelist_core)
202 		(void) unlink(kd->kvm_namelist);
203 	free(kd);
204 	return (0);
205 }
206 
207 const char *
208 kvm_namelist(kvm_t *kd)
209 {
210 	return (kd->kvm_namelist);
211 }
212 
213 int
214 kvm_nlist(kvm_t *kd, struct nlist nl[])
215 {
216 	return (nlist(kd->kvm_namelist, nl));
217 }
218 
219 /*
220  * If we don't have a name list, try to dig it out of the kernel crash dump.
221  * (The symbols have been present in the dump, uncompressed, for nearly a
222  * decade as of this writing -- and it is frankly surprising that the archaic
223  * notion of a disjoint symbol table managed to survive that change.)
224  */
225 static int
226 kvm_nlist_core(kvm_t *kd, struct nlist nl[], const char *err)
227 {
228 	dumphdr_t *dump = &kd->kvm_dump;
229 	char *msg = "couldn't extract symbols from dump";
230 	char *template = "/tmp/.libkvm.kvm_nlist_core.pid%d.XXXXXX";
231 	int fd, rval;
232 
233 	if (dump->dump_ksyms_size != dump->dump_ksyms_csize) {
234 		(void) fail(kd, err, "%s: kernel symbols are compressed", msg);
235 		return (-1);
236 	}
237 
238 	if (dump->dump_ksyms + dump->dump_ksyms_size > kd->kvm_coremapsize) {
239 		(void) fail(kd, err, "%s: kernel symbols not mapped", msg);
240 		return (-1);
241 	}
242 
243 	/*
244 	 * Beause this temporary file may be left as a turd if the caller
245 	 * does not properly call kvm_close(), we make sure that it clearly
246 	 * indicates its origins.
247 	 */
248 	(void) snprintf(kd->kvm_namelist, MAXNAMELEN, template, getpid());
249 
250 	if ((fd = mkstemp(kd->kvm_namelist)) == -1) {
251 		(void) fail(kd, err, "%s: couldn't create temporary "
252 		    "symbols file: %s", msg, strerror(errno));
253 		return (-1);
254 	}
255 
256 	kd->kvm_namelist_core = B_TRUE;
257 
258 	do {
259 		rval = write(fd, (caddr_t)((uintptr_t)kd->kvm_core +
260 		    (uintptr_t)dump->dump_ksyms), dump->dump_ksyms_size);
261 	} while (rval < dump->dump_ksyms_size && errno == EINTR);
262 
263 	if (rval < dump->dump_ksyms_size) {
264 		(void) fail(kd, err, "%s: couldn't write to temporary "
265 		    "symbols file: %s", msg, strerror(errno));
266 		(void) close(fd);
267 		return (-1);
268 	}
269 
270 	(void) close(fd);
271 
272 	if (kvm_nlist(kd, nl) == -1) {
273 		(void) fail(kd, err, "%s: symbols not valid", msg);
274 		return (-1);
275 	}
276 
277 	return (0);
278 }
279 
280 static offset_t
281 kvm_lookup(kvm_t *kd, struct as *as, uint64_t addr)
282 {
283 	uintptr_t pageoff = addr & (kd->kvm_dump.dump_pagesize - 1);
284 	uint64_t page = addr - pageoff;
285 	offset_t off = 0;
286 
287 	if (kd->kvm_debug)
288 		fprintf(stderr, "kvm_lookup(%p, %llx):", (void *)as, addr);
289 
290 	if (as == NULL) {		/* physical addressing mode */
291 		long first = 0;
292 		long last = kd->kvm_dump.dump_npages - 1;
293 		pfn_t target = (pfn_t)(page >> kd->kvm_dump.dump_pageshift);
294 		while (last >= first) {
295 			long middle = (first + last) / 2;
296 			pfn_t pfn = kd->kvm_pfn[middle];
297 			if (kd->kvm_debug)
298 				fprintf(stderr, " %ld ->", middle);
299 			if (pfn == target) {
300 				off = kd->kvm_dump.dump_data + pageoff +
301 				    ((uint64_t)middle <<
302 				    kd->kvm_dump.dump_pageshift);
303 				break;
304 			}
305 			if (pfn < target)
306 				first = middle + 1;
307 			else
308 				last = middle - 1;
309 		}
310 	} else {
311 		long hash = DUMP_HASH(&kd->kvm_dump, as, page);
312 		off = kd->kvm_map[hash].dm_first;
313 		while (off != 0) {
314 			dump_map_t *dmp = (void *)(kd->kvm_core + off);
315 			if (kd->kvm_debug)
316 				fprintf(stderr, " %llx ->", off);
317 			if (dmp < kd->kvm_map ||
318 			    dmp > kd->kvm_map + kd->kvm_dump.dump_hashmask ||
319 			    (off & (sizeof (offset_t) - 1)) != 0 ||
320 			    DUMP_HASH(&kd->kvm_dump, dmp->dm_as, dmp->dm_va) !=
321 			    hash) {
322 				if (kd->kvm_debug)
323 					fprintf(stderr, " dump map corrupt\n");
324 				return (0);
325 			}
326 			if (dmp->dm_va == page && dmp->dm_as == as) {
327 				off = dmp->dm_data + pageoff;
328 				break;
329 			}
330 			off = dmp->dm_next;
331 		}
332 	}
333 	if (kd->kvm_debug)
334 		fprintf(stderr, "%s found: %llx\n", off ? "" : " not", off);
335 	return (off);
336 }
337 
338 static ssize_t
339 kvm_rw(kvm_t *kd, uint64_t addr, void *buf, size_t size,
340 	struct as *as, ssize_t (*prw)(int, void *, size_t, offset_t))
341 {
342 	offset_t off;
343 	size_t resid = size;
344 
345 	/*
346 	 * read/write of zero bytes always succeeds
347 	 */
348 	if (size == 0)
349 		return (0);
350 
351 	if (kd->kvm_core == NULL) {
352 		char procbuf[100];
353 		int procfd;
354 		ssize_t rval;
355 
356 		if (as == kd->kvm_kas)
357 			return (prw(kd->kvm_kmemfd, buf, size, addr));
358 		if (as == NULL)
359 			return (prw(kd->kvm_memfd, buf, size, addr));
360 
361 		(void) sprintf(procbuf, "/proc/%ld/as", kd->kvm_pid);
362 		if ((procfd = open64(procbuf, kd->kvm_openflag)) == -1)
363 			return (-1);
364 		rval = prw(procfd, buf, size, addr);
365 		(void) close(procfd);
366 		return (rval);
367 	}
368 
369 	while (resid != 0) {
370 		uintptr_t pageoff = addr & (kd->kvm_dump.dump_pagesize - 1);
371 		ssize_t len = MIN(resid, kd->kvm_dump.dump_pagesize - pageoff);
372 
373 		if ((off = kvm_lookup(kd, as, addr)) == 0)
374 			break;
375 
376 		if (prw == PREAD && off < kd->kvm_coremapsize)
377 			bcopy(kd->kvm_core + off, buf, len);
378 		else if ((len = prw(kd->kvm_corefd, buf, len, off)) <= 0)
379 			break;
380 		resid -= len;
381 		addr += len;
382 		buf = (char *)buf + len;
383 	}
384 	return (resid < size ? size - resid : -1);
385 }
386 
387 ssize_t
388 kvm_read(kvm_t *kd, uintptr_t addr, void *buf, size_t size)
389 {
390 	return (kvm_rw(kd, addr, buf, size, kd->kvm_kas, PREAD));
391 }
392 
393 ssize_t
394 kvm_kread(kvm_t *kd, uintptr_t addr, void *buf, size_t size)
395 {
396 	return (kvm_rw(kd, addr, buf, size, kd->kvm_kas, PREAD));
397 }
398 
399 ssize_t
400 kvm_uread(kvm_t *kd, uintptr_t addr, void *buf, size_t size)
401 {
402 	return (kvm_rw(kd, addr, buf, size, kd->kvm_proc.p_as, PREAD));
403 }
404 
405 ssize_t
406 kvm_aread(kvm_t *kd, uintptr_t addr, void *buf, size_t size, struct as *as)
407 {
408 	return (kvm_rw(kd, addr, buf, size, as, PREAD));
409 }
410 
411 ssize_t
412 kvm_pread(kvm_t *kd, uint64_t addr, void *buf, size_t size)
413 {
414 	return (kvm_rw(kd, addr, buf, size, NULL, PREAD));
415 }
416 
417 ssize_t
418 kvm_write(kvm_t *kd, uintptr_t addr, const void *buf, size_t size)
419 {
420 	return (kvm_rw(kd, addr, (void *)buf, size, kd->kvm_kas, PWRITE));
421 }
422 
423 ssize_t
424 kvm_kwrite(kvm_t *kd, uintptr_t addr, const void *buf, size_t size)
425 {
426 	return (kvm_rw(kd, addr, (void *)buf, size, kd->kvm_kas, PWRITE));
427 }
428 
429 ssize_t
430 kvm_uwrite(kvm_t *kd, uintptr_t addr, const void *buf, size_t size)
431 {
432 	return (kvm_rw(kd, addr, (void *)buf, size, kd->kvm_proc.p_as, PWRITE));
433 }
434 
435 ssize_t
436 kvm_awrite(kvm_t *kd, uintptr_t addr, const void *buf, size_t size,
437     struct as *as)
438 {
439 	return (kvm_rw(kd, addr, (void *)buf, size, as, PWRITE));
440 }
441 
442 ssize_t
443 kvm_pwrite(kvm_t *kd, uint64_t addr, const void *buf, size_t size)
444 {
445 	return (kvm_rw(kd, addr, (void *)buf, size, NULL, PWRITE));
446 }
447 
448 uint64_t
449 kvm_physaddr(kvm_t *kd, struct as *as, uintptr_t addr)
450 {
451 	mem_vtop_t mem_vtop;
452 	offset_t off;
453 
454 	if (kd->kvm_core == NULL) {
455 		mem_vtop.m_as = as;
456 		mem_vtop.m_va = (void *)addr;
457 		if (ioctl(kd->kvm_kmemfd, MEM_VTOP, &mem_vtop) == 0)
458 			return ((uint64_t)mem_vtop.m_pfn * getpagesize() +
459 			    (addr & (getpagesize() - 1)));
460 	} else {
461 		if ((off = kvm_lookup(kd, as, addr)) != 0) {
462 			long pfn_index =
463 			    (u_offset_t)(off - kd->kvm_dump.dump_data) >>
464 			    kd->kvm_dump.dump_pageshift;
465 			return (((uint64_t)kd->kvm_pfn[pfn_index] <<
466 			    kd->kvm_dump.dump_pageshift) +
467 			    (addr & (kd->kvm_dump.dump_pagesize - 1)));
468 		}
469 	}
470 	return (-1ULL);
471 }
472 
473 struct proc *
474 kvm_getproc(kvm_t *kd, pid_t pid)
475 {
476 	(void) kvm_setproc(kd);
477 	while (kvm_nextproc(kd) != NULL)
478 		if (kd->kvm_pid == pid)
479 			return (&kd->kvm_proc);
480 	return (NULL);
481 }
482 
483 struct proc *
484 kvm_nextproc(kvm_t *kd)
485 {
486 	if (kd->kvm_proc.p_next == NULL ||
487 	    kvm_kread(kd, (uintptr_t)kd->kvm_proc.p_next,
488 	    &kd->kvm_proc, sizeof (proc_t)) != sizeof (proc_t) ||
489 	    kvm_kread(kd, (uintptr_t)&kd->kvm_proc.p_pidp->pid_id,
490 	    &kd->kvm_pid, sizeof (pid_t)) != sizeof (pid_t))
491 		return (NULL);
492 
493 	return (&kd->kvm_proc);
494 }
495 
496 int
497 kvm_setproc(kvm_t *kd)
498 {
499 	(void) kvm_kread(kd, (uintptr_t)kd->kvm_practive,
500 	    &kd->kvm_proc.p_next, sizeof (proc_t *));
501 	kd->kvm_pid = -1;
502 	return (0);
503 }
504 
505 /*ARGSUSED*/
506 struct user *
507 kvm_getu(kvm_t *kd, struct proc *p)
508 {
509 	return (&p->p_user);
510 }
511