drd/drd_pthread_intercepts: Add a workaround for what is probably a compiler bug
[valgrind.git] / coregrind / m_stacks.c
blob90101496d48c219737d15422286327fc0ae29f58
2 /*--------------------------------------------------------------------*/
3 /*--- Stack management. m_stacks.c ---*/
4 /*--------------------------------------------------------------------*/
6 /*
7 This file is part of Valgrind, a dynamic binary instrumentation
8 framework.
10 Copyright (C) 2000-2017 Julian Seward
11 jseward@acm.org
13 This program is free software; you can redistribute it and/or
14 modify it under the terms of the GNU General Public License as
15 published by the Free Software Foundation; either version 2 of the
16 License, or (at your option) any later version.
18 This program is distributed in the hope that it will be useful, but
19 WITHOUT ANY WARRANTY; without even the implied warranty of
20 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
21 General Public License for more details.
23 You should have received a copy of the GNU General Public License
24 along with this program; if not, see <http://www.gnu.org/licenses/>.
26 The GNU General Public License is contained in the file COPYING.
29 #include "pub_core_basics.h"
30 #include "pub_core_debuglog.h"
31 #include "pub_core_libcassert.h"
32 #include "pub_core_libcprint.h"
33 #include "pub_core_mallocfree.h"
34 #include "pub_core_aspacemgr.h"
35 #include "pub_core_options.h"
36 #include "pub_core_stacks.h"
37 #include "pub_core_tooliface.h"
38 #include "pub_core_inner.h"
39 #if defined(ENABLE_INNER_CLIENT_REQUEST)
40 #include "pub_core_clreq.h"
41 #endif
43 // For expensive debugging
44 #define EDEBUG(fmt, args...) //VG_(debugLog)(2, "stacks", fmt, ## args)
47 The stack
48 ~~~~~~~~~
49 The stack's segment seems to be dynamically extended downwards by
50 the kernel as the stack pointer moves down. Initially, a 1-page
51 (4k) stack is allocated. When SP moves below that for the first
52 time, presumably a page fault occurs. The kernel detects that the
53 faulting address is in the range from SP - VG_STACK_REDZONE_SZB
54 upwards to the current valid stack. It then extends the stack
55 segment downwards for enough to cover the faulting address, and
56 resumes the process (invisibly). The process is unaware of any of
57 this.
59 That means that Valgrind can't spot when the stack segment is being
60 extended. Fortunately, we want to precisely and continuously
61 update stack permissions around SP, so we need to spot all writes
62 to SP anyway.
64 The deal is: when SP is assigned a lower value, the stack is being
65 extended. Create suitably-permissioned pages to fill in any holes
66 between the old stack ptr and this one, if necessary. Then mark
67 all bytes in the area just "uncovered" by this SP change as
68 write-only.
70 When SP goes back up, mark the area receded over as unreadable and
71 unwritable.
73 Just to record the SP boundary conditions somewhere convenient:
74 SP - VG_STACK_REDZONE_SZB always points to the lowest live byte in
75 the stack. All addresses below SP - VG_STACK_REDZONE_SZB are not
76 live; those at and above it are.
78 We do not concern ourselves here with the VG_STACK_REDZONE_SZB
79 bias; that is handled by new_mem_stack/die_mem_stack.
83 * This structure holds information about the start and end addresses of
84 * registered stacks. There's always at least one stack registered:
85 * the main process stack. It will be the first stack registered and
86 * so will have a stack id of 0. The user does not need to register
87 * this stack: Valgrind does it automatically right before it starts
88 * running the client. No other stacks are automatically registered by
89 * Valgrind, however.
91 typedef struct _Stack {
92 UWord id;
93 Addr start; // Lowest stack byte, included.
94 Addr end; // Highest stack byte, included.
95 struct _Stack *next;
96 UWord outer_id; /* For an inner valgrind, stack id registered in outer
97 valgrind. */
98 } Stack;
100 static Stack *stacks;
101 static UWord next_id; /* Next id we hand out to a newly registered stack */
104 * These are the id, start and end values of the current stack. If the
105 * stack pointer falls outside the range of the current stack, we search
106 * the stacks list above for a matching stack.
108 static Stack *current_stack;
110 /* Find 'st' in the stacks_list and move it one step closer to the
111 front of the list, so as to make subsequent searches for it
112 cheaper. */
113 static void move_Stack_one_step_forward ( Stack* st )
115 Stack *st0, *st1, *st2;
116 if (st == stacks)
117 return; /* already at head of list */
118 vg_assert(st != NULL);
119 st0 = stacks;
120 st1 = NULL;
121 st2 = NULL;
122 while (True) {
123 if (st0 == NULL || st0 == st) break;
124 st2 = st1;
125 st1 = st0;
126 st0 = st0->next;
128 vg_assert(st0 == st);
129 if (st0 != NULL && st1 != NULL && st2 != NULL) {
130 Stack* tmp;
131 /* st0 points to st, st1 to its predecessor, and st2 to st1's
132 predecessor. Swap st0 and st1, that is, move st0 one step
133 closer to the start of the list. */
134 vg_assert(st2->next == st1);
135 vg_assert(st1->next == st0);
136 tmp = st0->next;
137 st2->next = st0;
138 st0->next = st1;
139 st1->next = tmp;
141 else
142 if (st0 != NULL && st1 != NULL && st2 == NULL) {
143 /* it's second in the list. */
144 vg_assert(stacks == st1);
145 vg_assert(st1->next == st0);
146 st1->next = st0->next;
147 st0->next = st1;
148 stacks = st0;
152 /* Find what stack an address falls into. */
153 static Stack* find_stack_by_addr(Addr sp)
155 static UWord n_fails = 0;
156 static UWord n_searches = 0;
157 static UWord n_steps = 0;
158 Stack *i = stacks;
159 n_searches++;
160 if (0 && 0 == (n_searches % 10000))
161 VG_(printf)("(hgdev) %lu searches, %lu steps, %lu fails\n",
162 n_searches, n_steps+1, n_fails);
163 /* fast track common case */
164 if (i && sp >= i->start && sp <= i->end)
165 return i;
166 /* else search the list */
167 while (i) {
168 n_steps++;
169 if (sp >= i->start && sp <= i->end) {
170 if (1 && (n_searches & 0x3F) == 0) {
171 move_Stack_one_step_forward( i );
173 return i;
175 i = i->next;
177 n_fails++;
178 return NULL;
182 * Register a new stack from start - end. This is invoked from the
183 * VALGRIND_STACK_REGISTER client request, and is also called just before
184 * we start the client running, to register the main process stack.
186 UWord VG_(register_stack)(Addr start, Addr end)
188 Stack *i;
190 if (start > end) {
191 /* If caller provides addresses in reverse order, swap them.
192 Ugly but not doing that breaks backward compatibility with
193 (user) code registering stacks with start/end inverted . */
194 Addr t = end;
195 end = start;
196 start = t;
199 i = VG_(malloc)("stacks.rs.1", sizeof(Stack));
200 i->start = start;
201 i->end = end;
202 i->id = next_id++;
203 i->next = stacks;
204 stacks = i;
206 if (i->id == 0) {
207 current_stack = i;
210 VG_(debugLog)(2, "stacks", "register [start-end] [%p-%p] as stack %lu\n",
211 (void*)start, (void*)end, i->id);
212 INNER_REQUEST(i->outer_id = VALGRIND_STACK_REGISTER(start, end));
213 return i->id;
217 * Deregister a stack. This is invoked from the VALGRIND_STACK_DEREGISTER
218 * client request.
220 void VG_(deregister_stack)(UWord id)
222 Stack *i = stacks;
223 Stack *prev = NULL;
225 VG_(debugLog)(2, "stacks", "deregister stack %lu\n", id);
227 if (current_stack && current_stack->id == id) {
228 current_stack = NULL;
231 while(i) {
232 if (i->id == id) {
233 if(prev == NULL) {
234 stacks = i->next;
235 } else {
236 prev->next = i->next;
238 INNER_REQUEST(VALGRIND_STACK_DEREGISTER(i->outer_id));
239 VG_(free)(i);
240 return;
242 prev = i;
243 i = i->next;
248 * Change a stack. This is invoked from the VALGRIND_STACK_CHANGE client
249 * request and from the stack growth stuff the signals module when
250 * extending the main process stack.
252 void VG_(change_stack)(UWord id, Addr start, Addr end)
254 Stack *i = stacks;
256 while (i) {
257 if (i->id == id) {
258 VG_(debugLog)(2, "stacks",
259 "change stack %lu from [%p-%p] to [%p-%p]\n",
260 id, (void*)i->start, (void*)i->end,
261 (void*)start, (void*)end);
262 /* FIXME : swap start/end like VG_(register_stack) ??? */
263 i->start = start;
264 i->end = end;
265 INNER_REQUEST(VALGRIND_STACK_CHANGE(i->outer_id, start, end));
266 return;
268 i = i->next;
273 * Find the bounds of the stack (if any) which includes the
274 * specified stack pointer.
276 void VG_(stack_limits)(Addr SP, Addr *start, Addr *end )
278 Stack* stack = find_stack_by_addr(SP);
279 NSegment const *stackseg = VG_(am_find_nsegment) (SP);
281 if (LIKELY(stack)) {
282 *start = stack->start;
283 *end = stack->end;
286 /* SP is assumed to be in a RW segment or in the SkResvn segment of an
287 extensible stack (normally, only the main thread has an extensible
288 stack segment).
289 If no such segment is found, assume we have no valid
290 stack for SP, and set *start and *end to 0.
291 Otherwise, possibly reduce the stack limits using the boundaries of
292 the RW segment/SkResvn segments containing SP. */
293 if (UNLIKELY(stackseg == NULL)) {
294 VG_(debugLog)(2, "stacks",
295 "no addressable segment for SP %p\n",
296 (void*)SP);
297 *start = 0;
298 *end = 0;
299 return;
302 if (UNLIKELY((!stackseg->hasR || !stackseg->hasW)
303 && (stackseg->kind != SkResvn || stackseg->smode != SmUpper))) {
304 VG_(debugLog)(2, "stacks",
305 "segment for SP %p is not RW or not a SmUpper Resvn\n",
306 (void*)SP);
307 *start = 0;
308 *end = 0;
309 return;
312 /* SP is in a RW segment, or in the SkResvn of an extensible stack.
313 We can use the seg start as the stack start limit. */
314 if (UNLIKELY(*start < stackseg->start)) {
315 VG_(debugLog)(2, "stacks",
316 "segment for SP %p changed stack start limit"
317 " from %p to %p\n",
318 (void*)SP, (void*)*start, (void*)stackseg->start);
319 *start = stackseg->start;
322 /* Now, determine the stack end limit. If the stackseg is SkResvn,
323 we need to get the neighbour segment (towards higher addresses).
324 This segment must be anonymous and RW. */
325 if (UNLIKELY(stackseg->kind == SkResvn)) {
326 stackseg = VG_(am_next_nsegment)(stackseg, /*forward*/ True);
327 if (!stackseg || !stackseg->hasR || !stackseg->hasW
328 || stackseg->kind != SkAnonC) {
329 VG_(debugLog)(2, "stacks",
330 "Next forward segment for SP %p Resvn segment"
331 " is not RW or not AnonC\n",
332 (void*)SP);
333 *start = 0;
334 *end = 0;
335 return;
339 /* Limit the stack end limit, using the found segment. */
340 if (UNLIKELY(*end > stackseg->end)) {
341 VG_(debugLog)(2, "stacks",
342 "segment for SP %p changed stack end limit"
343 " from %p to %p\n",
344 (void*)SP, (void*)*end, (void*)stackseg->end);
345 *end = stackseg->end;
348 /* If reducing start and/or end to the SP segment gives an
349 empty range, return 'empty' limits */
350 if (UNLIKELY(*start > *end)) {
351 VG_(debugLog)(2, "stacks",
352 "stack for SP %p start %p after end %p\n",
353 (void*)SP, (void*)*start, (void*)end);
354 *start = 0;
355 *end = 0;
359 /* complaints_stack_switch reports that SP has changed by more than some
360 threshold amount (by default, 2MB). We take this to mean that the
361 application is switching to a new stack, for whatever reason.
363 JRS 20021001: following discussions with John Regehr, if a stack
364 switch happens, it seems best not to mess at all with memory
365 permissions. Seems to work well with Netscape 4.X. Really the
366 only remaining difficulty is knowing exactly when a stack switch is
367 happening. */
368 __attribute__((noinline))
369 static void complaints_stack_switch (Addr old_SP, Addr new_SP)
371 static Int complaints = 3;
372 if (VG_(clo_verbosity) > 0 && complaints > 0 && !VG_(clo_xml)) {
373 Word delta = (Word)new_SP - (Word)old_SP;
374 complaints--;
375 VG_(message)(Vg_UserMsg,
376 "Warning: client switching stacks? "
377 "SP change: 0x%lx --> 0x%lx\n", old_SP, new_SP);
378 VG_(message)(Vg_UserMsg,
379 " to suppress, use: --max-stackframe=%ld "
380 "or greater\n",
381 (delta < 0 ? -delta : delta));
382 if (complaints == 0)
383 VG_(message)(Vg_UserMsg,
384 " further instances of this message "
385 "will not be shown.\n");
389 /* The functions VG_(unknown_SP_update) and VG_(unknown_SP_update_w_ECU)
390 get called if new_mem_stack and/or die_mem_stack are
391 tracked by the tool, and one of the specialised cases
392 (eg. new_mem_stack_4) isn't used in preference.
394 These functions are performance critical, so are built with macros. */
396 // preamble + check if stack has switched.
397 #define IF_STACK_SWITCH_SET_current_stack_AND_RETURN \
398 Word delta = (Word)new_SP - (Word)old_SP; \
400 EDEBUG("current_stack %p-%p %lu new_SP %p old_SP %p\n", \
401 (void *) (current_stack ? current_stack->start : 0x0), \
402 (void *) (current_stack ? current_stack->end : 0x0), \
403 current_stack ? current_stack->id : 0, \
404 (void *)new_SP, (void *)old_SP); \
406 /* Check if the stack pointer is still in the same stack as before. */ \
407 if (UNLIKELY(current_stack == NULL || \
408 new_SP < current_stack->start || new_SP > current_stack->end)) { \
409 Stack* new_stack = find_stack_by_addr(new_SP); \
410 if (new_stack \
411 && (current_stack == NULL || new_stack->id != current_stack->id)) { \
412 /* The stack pointer is now in another stack. Update the current */ \
413 /* stack information and return without doing anything else. */ \
414 current_stack = new_stack; \
415 EDEBUG("new current_stack %p-%p %lu \n", \
416 (void *) current_stack->start, \
417 (void *) current_stack->end, \
418 current_stack->id); \
419 return; \
420 } else { \
421 EDEBUG("new current_stack not found\n"); \
425 #define IF_BIG_DELTA_complaints_AND_RETURN \
426 if (UNLIKELY(delta < -VG_(clo_max_stackframe) \
427 || VG_(clo_max_stackframe) < delta)) { \
428 complaints_stack_switch(old_SP, new_SP); \
429 return; \
432 #define IF_SMALLER_STACK_die_mem_stack_AND_RETURN \
433 if (delta > 0) { \
434 VG_TRACK( die_mem_stack, old_SP, delta ); \
435 return; \
439 VG_REGPARM(3)
440 void VG_(unknown_SP_update_w_ECU)( Addr old_SP, Addr new_SP, UInt ecu ) {
441 IF_STACK_SWITCH_SET_current_stack_AND_RETURN;
442 IF_BIG_DELTA_complaints_AND_RETURN;
443 IF_SMALLER_STACK_die_mem_stack_AND_RETURN;
444 if (delta < 0) { // IF_BIGGER_STACK
445 VG_TRACK( new_mem_stack_w_ECU, new_SP, -delta, ecu );
446 return;
448 // SAME_STACK. nothing to do.
451 VG_REGPARM(2)
452 void VG_(unknown_SP_update)( Addr old_SP, Addr new_SP ) {
453 IF_STACK_SWITCH_SET_current_stack_AND_RETURN;
454 IF_BIG_DELTA_complaints_AND_RETURN;
455 IF_SMALLER_STACK_die_mem_stack_AND_RETURN;
456 if (delta < 0) { // IF_BIGGER_STACK
457 VG_TRACK( new_mem_stack, new_SP, -delta );
458 return;
460 // SAME_STACK. nothing to do.
463 /*--------------------------------------------------------------------*/
464 /*--- end ---*/
465 /*--------------------------------------------------------------------*/