xref: /titanic_50/usr/src/lib/libproc/common/Pstack.c (revision a72f7ea693101cc48bafbb4db6bb437d828011c4)
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 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 /*
30  * Pstack.c
31  *
32  * Common helper functions for stack walking.  The ISA-specific code is found in
33  * Pstack_iter() in Pisadep.c.
34  */
35 
36 #include <stdlib.h>
37 #include <unistd.h>
38 #include <string.h>
39 #include <errno.h>
40 
41 #include "libproc.h"
42 #include "Pcontrol.h"
43 #include "P32ton.h"
44 #include "Pstack.h"
45 
46 /*
47  * Utility function to prevent stack loops from running on forever by
48  * detecting when there is a stack loop (the %fp has been seen before).
49  */
50 int
51 stack_loop(prgreg_t fp, prgreg_t **prevfpp, int *nfpp, uint_t *pfpsizep)
52 {
53 	prgreg_t *prevfp = *prevfpp;
54 	uint_t pfpsize = *pfpsizep;
55 	int nfp = *nfpp;
56 	int i;
57 
58 	for (i = 0; i < nfp; i++) {
59 		if (fp == prevfp[i])
60 			return (1); /* stack loop detected */
61 	}
62 
63 	if (nfp == pfpsize) {
64 		pfpsize = pfpsize ? pfpsize * 2 : 16;
65 		prevfp = realloc(prevfp, pfpsize * sizeof (prgreg_t));
66 		/*
67 		 * Just assume there is no loop in the face of allocation
68 		 * failure; the caller still has the original prevfp pointer.
69 		 */
70 		if (prevfp == NULL)
71 			return (0);
72 	}
73 
74 	prevfp[nfp++] = fp;
75 	*prevfpp = prevfp;
76 	*pfpsizep = pfpsize;
77 	*nfpp = nfp;
78 
79 	return (0);
80 }
81 
82 /*
83  * Signal Frame Detection
84  *
85  * In order to facilitate detection and processing of signal handler frames
86  * during a stack backtrace, we define a set of utility routines to operate on
87  * a uclist (ucontext address list), and then use these routines in the various
88  * implementations of Pstack_iter below.  Certain source-level debuggers and
89  * virtual machines that shall remain nameless believe that in order to detect
90  * signal handler frames, one must hard-code checks for symbol names defined
91  * in libc and libthread and knowledge of their implementation.  We make no
92  * such assumptions, allowing us to operate on programs that manipulate their
93  * underlying kernel signal handlers (i.e. use __sigaction) and to not require
94  * changes in the face of future library modifications.
95  *
96  * A signal handler frame is essentially a set of data pushed on to the user
97  * stack by the kernel prior to returning to the user program in one of the
98  * pre-defined signal handlers.  The signal handler itself receives the signal
99  * number, an optional pointer to a siginfo_t, and a pointer to the interrupted
100  * ucontext as arguments.  When performing a stack backtrace, we would like to
101  * detect these frames so that we can correctly return the interrupted program
102  * counter and frame pointer as a separate frame.  When a signal handler frame
103  * is constructed on the stack by the kernel, the signalled LWP has its
104  * lwp_oldcontext member (exported through /proc as lwpstatus.pr_oldcontext)
105  * set to the user address at which the ucontext_t was placed on the LWP's
106  * stack.  The ucontext_t's uc_link member is set to the previous value of
107  * lwp_oldcontext.  Thus when signal handlers are active, pr_oldcontext will
108  * point to the first element of a linked list of ucontext_t addresses.
109  *
110  * The stack layout for a signal handler frame is as follows:
111  *
112  * SPARC v7/v9:                           Intel ia32:
113  * +--------------+ -        high         +--------------+ -
114  * |  struct fq   | ^        addrs        |  siginfo_t   | optional
115  * +--------------+ |          ^          +--------------+ -
116  * |  gwindows_t  |            |          |  ucontext_t  | ^
117  * +--------------+ optional              +--------------+ |
118  * |  siginfo_t   |                       | ucontext_t * | |
119  * +--------------+ |          |          +--------------+
120  * |  xregs data  | v          v          |  siginfo_t * | mandatory
121  * +--------------+ -         low         +--------------+
122  * |  ucontext_t  | ^        addrs        |  int (signo) | |
123  * +--------------+ mandatory             +--------------+ |
124  * | struct frame | v                     | struct frame | v
125  * +--------------+ - <- %sp on resume    +--------------+ - <- %esp on resume
126  *
127  * amd64 (64-bit):
128  * +--------------+ -
129  * |  siginfo_t   | optional
130  * +--------------+ -
131  * |  ucontext_t  | ^
132  * +--------------+ |
133  * |  siginfo_t * |
134  * +--------------+ mandatory
135  * |  int (signo) |
136  * +--------------+ |
137  * | struct frame | v
138  * +--------------+ - <- %rsp on resume
139  *
140  * The bottom-most struct frame is actually constructed by the kernel by
141  * copying the previous stack frame, allowing naive backtrace code to simply
142  * skip over the interrupted frame.  The copied frame is never really used,
143  * since it is presumed the libc or libthread signal handler wrapper function
144  * will explicitly setcontext(2) to the interrupted context if the user
145  * program's handler returns.  If we detect a signal handler frame, we simply
146  * read the interrupted context structure from the stack, use its embedded
147  * gregs to construct the register set for the interrupted frame, and then
148  * continue our backtrace.  Detecting the frame itself is easy according to
149  * the diagram ("oldcontext" represents any element in the uc_link chain):
150  *
151  * On SPARC v7 or v9:
152  * %fp + sizeof (struct frame) == oldcontext
153  *
154  * On Intel ia32:
155  * %ebp + sizeof (struct frame) + (3 * regsize) == oldcontext
156  *
157  * On amd64:
158  * %rbp + sizeof (struct frame) + (2 * regsize) == oldcontext
159  *
160  * A final complication is that we want libproc to support backtraces from
161  * arbitrary addresses without the caller passing in an LWP id.  To do this,
162  * we must first determine all the known oldcontexts by iterating over all
163  * LWPs and following their pr_oldcontext pointers.  We optimize our search
164  * by discarding NULL pointers and pointers whose value is less than that
165  * of the initial stack pointer (since stacks grow down from high memory),
166  * and then sort the resulting list by virtual address so we can binary search.
167  */
168 
169 int
170 load_uclist(uclist_t *ucl, const lwpstatus_t *psp)
171 {
172 	struct ps_prochandle *P = ucl->uc_proc;
173 	uintptr_t addr = psp->pr_oldcontext;
174 
175 	uintptr_t *new_addrs;
176 	uint_t new_size, i;
177 	ucontext_t uc;
178 
179 	if (addr == NULL)
180 		return (0);
181 
182 	for (;;) {
183 		if (ucl->uc_nelems == ucl->uc_size) {
184 			new_size = ucl->uc_size ? ucl->uc_size * 2 : 16;
185 			new_addrs = realloc(ucl->uc_addrs,
186 			    new_size * sizeof (uintptr_t));
187 
188 			if (new_addrs != NULL) {
189 				ucl->uc_addrs = new_addrs;
190 				ucl->uc_size = new_size;
191 			} else
192 				break; /* abort if allocation failure */
193 		}
194 #ifdef _LP64
195 		if (P->status.pr_dmodel == PR_MODEL_ILP32) {
196 			ucontext32_t u32;
197 
198 			if (Pread(P, &u32, sizeof (u32), addr) != sizeof (u32))
199 				break; /* abort if we fail to read ucontext */
200 			uc.uc_link = (ucontext_t *)(uintptr_t)u32.uc_link;
201 		} else
202 #endif
203 		if (Pread(P, &uc, sizeof (uc), addr) != sizeof (uc))
204 			break; /* abort if we fail to read ucontext */
205 
206 		dprintf("detected lwp %d signal context at %p\n",
207 		    (int)psp->pr_lwpid, (void *)addr);
208 		ucl->uc_addrs[ucl->uc_nelems++] = addr;
209 
210 		addr = (uintptr_t)uc.uc_link;
211 
212 		/*
213 		 * Abort if we find a NULL uc_link pointer or a duplicate
214 		 * entry which could indicate a cycle or a very peculiar
215 		 * interference pattern between threads.
216 		 */
217 		if (addr == NULL)
218 			break;
219 
220 		for (i = 0; i < ucl->uc_nelems - 1; i++) {
221 			if (ucl->uc_addrs[i] == addr)
222 				return (0);
223 		}
224 	}
225 
226 	return (0);
227 }
228 
229 int
230 sort_uclist(const void *lhp, const void *rhp)
231 {
232 	uintptr_t lhs = *((const uintptr_t *)lhp);
233 	uintptr_t rhs = *((const uintptr_t *)rhp);
234 
235 	if (lhs < rhs)
236 		return (-1);
237 	if (lhs > rhs)
238 		return (+1);
239 	return (0);
240 }
241 
242 void
243 init_uclist(uclist_t *ucl, struct ps_prochandle *P)
244 {
245 	if ((P->state == PS_STOP || P->state == PS_DEAD) &&
246 	    P->ucaddrs != NULL) {
247 		ucl->uc_proc = P;
248 		ucl->uc_addrs = P->ucaddrs;
249 		ucl->uc_nelems = P->ucnelems;
250 		ucl->uc_size = P->ucnelems;
251 		ucl->uc_cached = 1;
252 		return;
253 	}
254 
255 	ucl->uc_proc = P;
256 	ucl->uc_addrs = NULL;
257 	ucl->uc_nelems = 0;
258 	ucl->uc_size = 0;
259 
260 	(void) Plwp_iter(P, (proc_lwp_f *)load_uclist, ucl);
261 	qsort(ucl->uc_addrs, ucl->uc_nelems, sizeof (uintptr_t), sort_uclist);
262 
263 	if (P->state == PS_STOP || P->state == PS_DEAD) {
264 		P->ucaddrs = ucl->uc_addrs;
265 		P->ucnelems = ucl->uc_nelems;
266 		ucl->uc_cached = 1;
267 	} else {
268 		ucl->uc_cached = 0;
269 	}
270 }
271 
272 void
273 free_uclist(uclist_t *ucl)
274 {
275 	if (!ucl->uc_cached && ucl->uc_addrs != NULL)
276 		free(ucl->uc_addrs);
277 }
278 
279 int
280 find_uclink(uclist_t *ucl, uintptr_t addr)
281 {
282 	if (ucl->uc_nelems != 0) {
283 		return (bsearch(&addr, ucl->uc_addrs, ucl->uc_nelems,
284 		    sizeof (uintptr_t), sort_uclist) != NULL);
285 	}
286 
287 	return (0);
288 }
289