1
2 /*--------------------------------------------------------------------*/
3 /*--- Management of error messages. m_errormgr.c ---*/
4 /*--------------------------------------------------------------------*/
5
6 /*
7 This file is part of Valgrind, a dynamic binary instrumentation
8 framework.
9
10 Copyright (C) 2000-2015 Julian Seward
11 jseward@acm.org
12
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.
17
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.
22
23 You should have received a copy of the GNU General Public License
24 along with this program; if not, write to the Free Software
25 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
26 02111-1307, USA.
27
28 The GNU General Public License is contained in the file COPYING.
29 */
30
31 #include "pub_core_basics.h"
32 #include "pub_core_vki.h"
33 #include "pub_core_threadstate.h" // For VG_N_THREADS
34 #include "pub_core_debuginfo.h"
35 #include "pub_core_debuglog.h"
36 #include "pub_core_errormgr.h"
37 #include "pub_core_execontext.h"
38 #include "pub_core_gdbserver.h"
39 #include "pub_core_libcbase.h"
40 #include "pub_core_libcassert.h"
41 #include "pub_core_libcfile.h"
42 #include "pub_core_libcprint.h"
43 #include "pub_core_libcproc.h" // For VG_(getpid)()
44 #include "pub_core_seqmatch.h"
45 #include "pub_core_mallocfree.h"
46 #include "pub_core_options.h"
47 #include "pub_core_stacktrace.h"
48 #include "pub_core_tooliface.h"
49 #include "pub_core_translate.h" // for VG_(translate)()
50 #include "pub_core_xarray.h" // VG_(xaprintf) et al
51
52 #define DEBUG_ERRORMGR 0 // set to 1 for heavyweight tracing
53
54 /*------------------------------------------------------------*/
55 /*--- Globals ---*/
56 /*------------------------------------------------------------*/
57
58 /* After this many different unsuppressed errors have been observed,
59 be more conservative about collecting new ones. */
60 #define M_COLLECT_ERRORS_SLOWLY_AFTER 100
61
62 /* After this many different unsuppressed errors have been observed,
63 stop collecting errors at all, and tell the user their program is
64 evidently a steaming pile of camel dung. */
65 #define M_COLLECT_NO_ERRORS_AFTER_SHOWN 1000
66
67 /* After this many total errors have been observed, stop collecting
68 errors at all. Counterpart to M_COLLECT_NO_ERRORS_AFTER_SHOWN. */
69 #define M_COLLECT_NO_ERRORS_AFTER_FOUND 10000000
70
71 /* The list of error contexts found, both suppressed and unsuppressed.
72 Initially empty, and grows as errors are detected. */
73 static Error* errors = NULL;
74
75 /* The list of suppression directives, as read from the specified
76 suppressions file. Note that the list gets rearranged as a result
77 of the searches done by is_suppressible_error(). */
78 static Supp* suppressions = NULL;
79
80 /* Running count of unsuppressed errors detected. */
81 static UInt n_errs_found = 0;
82
83 /* Running count of suppressed errors detected. */
84 static UInt n_errs_suppressed = 0;
85
86 /* Running count of errors shown. */
87 static UInt n_errs_shown = 0;
88
89 /* Running count of unsuppressed error contexts. */
90 static UInt n_err_contexts = 0;
91
92 /* Running count of suppressed error contexts. */
93 static UInt n_supp_contexts = 0;
94
95
96 /* forwards ... */
97 static Supp* is_suppressible_error ( const Error* err );
98
99 static ThreadId last_tid_printed = 1;
100
101 /* Stats: number of searches of the error list initiated. */
102 static UWord em_errlist_searches = 0;
103
104 /* Stats: number of comparisons done during error list
105 searching. */
106 static UWord em_errlist_cmps = 0;
107
108 /* Stats: number of searches of the suppression list initiated. */
109 static UWord em_supplist_searches = 0;
110
111 /* Stats: number of comparisons done during suppression list
112 searching. */
113 static UWord em_supplist_cmps = 0;
114
115 /*------------------------------------------------------------*/
116 /*--- Error type ---*/
117 /*------------------------------------------------------------*/
118
119 /* Errors. Extensible (via the 'extra' field). Tools can use a normal
120 enum (with element values in the normal range (0..)) for 'ekind'.
121 Functions for getting/setting the tool-relevant fields are in
122 include/pub_tool_errormgr.h.
123
124 When errors are found and recorded with VG_(maybe_record_error)(), all
125 the tool must do is pass in the four parameters; core will
126 allocate/initialise the error record.
127 */
128 struct _Error {
129 struct _Error* next;
130 // Unique tag. This gives the error a unique identity (handle) by
131 // which it can be referred to afterwords. Currently only used for
132 // XML printing.
133 UInt unique;
134 // NULL if unsuppressed; or ptr to suppression record.
135 Supp* supp;
136 Int count;
137
138 // The tool-specific part
139 ThreadId tid; // Initialised by core
140 ExeContext* where; // Initialised by core
141 ErrorKind ekind; // Used by ALL. Must be in the range (0..)
142 Addr addr; // Used frequently
143 const HChar* string; // Used frequently
144 void* extra; // For any tool-specific extras
145 };
146
147
VG_(get_error_where)148 ExeContext* VG_(get_error_where) ( const Error* err )
149 {
150 return err->where;
151 }
152
VG_(get_error_kind)153 ErrorKind VG_(get_error_kind) ( const Error* err )
154 {
155 return err->ekind;
156 }
157
VG_(get_error_address)158 Addr VG_(get_error_address) ( const Error* err )
159 {
160 return err->addr;
161 }
162
VG_(get_error_string)163 const HChar* VG_(get_error_string) ( const Error* err )
164 {
165 return err->string;
166 }
167
VG_(get_error_extra)168 void* VG_(get_error_extra) ( const Error* err )
169 {
170 return err->extra;
171 }
172
VG_(get_n_errs_found)173 UInt VG_(get_n_errs_found)( void )
174 {
175 return n_errs_found;
176 }
177
VG_(get_n_errs_shown)178 UInt VG_(get_n_errs_shown)( void )
179 {
180 return n_errs_shown;
181 }
182
183 /*------------------------------------------------------------*/
184 /*--- Suppression type ---*/
185 /*------------------------------------------------------------*/
186
187 /* Note: it is imperative this doesn't overlap with (0..) at all, as tools
188 * effectively extend it by defining their own enums in the (0..) range. */
189 typedef
190 enum {
191 // Nb: thread errors are a relic of the time when Valgrind's core
192 // could detect them. This example is left commented-out as an
193 // example should new core errors ever be added.
194 ThreadSupp = -1, /* Matches ThreadErr */
195 }
196 CoreSuppKind;
197
198 /* Max number of callers for context in a suppression. */
199 #define VG_MAX_SUPP_CALLERS 24
200
201 /* For each caller specified for a suppression, record the nature of
202 the caller name. Not of interest to tools. */
203 typedef
204 enum {
205 NoName, /* Error case */
206 ObjName, /* Name is of an shared object file. */
207 FunName, /* Name is of a function. */
208 DotDotDot /* Frame-level wildcard */
209 }
210 SuppLocTy;
211
212 typedef
213 struct {
214 SuppLocTy ty;
215 Bool name_is_simple_str; /* True if name is a string without
216 '?' and '*' wildcard characters. */
217 HChar* name; /* NULL for NoName and DotDotDot */
218 }
219 SuppLoc;
220
221 /* Suppressions. Tools can get/set tool-relevant parts with functions
222 declared in include/pub_tool_errormgr.h. Extensible via the 'extra' field.
223 Tools can use a normal enum (with element values in the normal range
224 (0..)) for 'skind'. */
225 struct _Supp {
226 struct _Supp* next;
227 Int count; // The number of times this error has been suppressed.
228 HChar* sname; // The name by which the suppression is referred to.
229
230 // Index in VG_(clo_suppressions) giving filename from which suppression
231 // was read, and the lineno in this file where sname was read.
232 Int clo_suppressions_i;
233 Int sname_lineno;
234
235 // Length of 'callers'
236 Int n_callers;
237 // Array of callers, for matching stack traces. First one (name of fn
238 // where err occurs) is mandatory; rest are optional.
239 SuppLoc* callers;
240
241 /* The tool-specific part */
242 SuppKind skind; // What kind of suppression. Must use the range (0..).
243 HChar* string; // String -- use is optional. NULL by default.
244 void* extra; // Anything else -- use is optional. NULL by default.
245 };
246
VG_(get_supp_kind)247 SuppKind VG_(get_supp_kind) ( const Supp* su )
248 {
249 return su->skind;
250 }
251
VG_(get_supp_string)252 HChar* VG_(get_supp_string) ( const Supp* su )
253 {
254 return su->string;
255 }
256
VG_(get_supp_extra)257 void* VG_(get_supp_extra) ( const Supp* su )
258 {
259 return su->extra;
260 }
261
262
VG_(set_supp_kind)263 void VG_(set_supp_kind) ( Supp* su, SuppKind skind )
264 {
265 su->skind = skind;
266 }
267
VG_(set_supp_string)268 void VG_(set_supp_string) ( Supp* su, HChar* string )
269 {
270 su->string = string;
271 }
272
VG_(set_supp_extra)273 void VG_(set_supp_extra) ( Supp* su, void* extra )
274 {
275 su->extra = extra;
276 }
277
278
279 /*------------------------------------------------------------*/
280 /*--- Helper fns ---*/
281 /*------------------------------------------------------------*/
282
283 // Only show core errors if the tool wants to, we're not running with -q,
284 // and were not outputting XML.
VG_(showing_core_errors)285 Bool VG_(showing_core_errors)(void)
286 {
287 return VG_(needs).core_errors && VG_(clo_verbosity) >= 1 && !VG_(clo_xml);
288 }
289
290 /* Compare errors, to detect duplicates.
291 */
eq_Error(VgRes res,const Error * e1,const Error * e2)292 static Bool eq_Error ( VgRes res, const Error* e1, const Error* e2 )
293 {
294 if (e1->ekind != e2->ekind)
295 return False;
296 if (!VG_(eq_ExeContext)(res, e1->where, e2->where))
297 return False;
298
299 switch (e1->ekind) {
300 //(example code, see comment on CoreSuppKind above)
301 //case ThreadErr:
302 // vg_assert(VG_(needs).core_errors);
303 // return <something>
304 default:
305 if (VG_(needs).tool_errors) {
306 return VG_TDICT_CALL(tool_eq_Error, res, e1, e2);
307 } else {
308 VG_(printf)("\nUnhandled error type: %u. VG_(needs).tool_errors\n"
309 "probably needs to be set.\n",
310 (UInt)e1->ekind);
311 VG_(core_panic)("unhandled error type");
312 }
313 }
314 }
315
316
317 /* Helper functions for suppression generation: print a single line of
318 a suppression pseudo-stack-trace, either in XML or text mode. It's
319 important that the behaviour of these two functions exactly
320 corresponds.
321 */
322 #define ERRTXT_LEN 4096
323
printSuppForIp_XML(UInt n,Addr ip,void * uu_opaque)324 static void printSuppForIp_XML(UInt n, Addr ip, void* uu_opaque)
325 {
326 const HChar *buf;
327 InlIPCursor* iipc = VG_(new_IIPC)(ip);
328 do {
329 if ( VG_(get_fnname_no_cxx_demangle) (ip, &buf, iipc) ) {
330 VG_(printf_xml)(" <sframe> <fun>%pS</fun> </sframe>\n", buf);
331 } else
332 if ( VG_(get_objname)(ip, &buf) ) {
333 VG_(printf_xml)(" <sframe> <obj>%pS</obj> </sframe>\n", buf);
334 } else {
335 VG_(printf_xml)(" <sframe> <obj>*</obj> </sframe>\n");
336 }
337 } while (VG_(next_IIPC)(iipc));
338 VG_(delete_IIPC)(iipc);
339 }
340
printSuppForIp_nonXML(UInt n,Addr ip,void * textV)341 static void printSuppForIp_nonXML(UInt n, Addr ip, void* textV)
342 {
343 const HChar *buf;
344 XArray* /* of HChar */ text = (XArray*)textV;
345 InlIPCursor* iipc = VG_(new_IIPC)(ip);
346 do {
347 if ( VG_(get_fnname_no_cxx_demangle) (ip, &buf, iipc) ) {
348 VG_(xaprintf)(text, " fun:%s\n", buf);
349 } else
350 if ( VG_(get_objname)(ip, &buf) ) {
351 VG_(xaprintf)(text, " obj:%s\n", buf);
352 } else {
353 VG_(xaprintf)(text, " obj:*\n");
354 }
355 } while (VG_(next_IIPC)(iipc));
356 VG_(delete_IIPC)(iipc);
357 }
358
359 /* Generate a suppression for an error, either in text or XML mode.
360 */
gen_suppression(const Error * err)361 static void gen_suppression(const Error* err)
362 {
363 const HChar* name;
364 ExeContext* ec;
365 XArray* /* HChar */ text;
366
367 const HChar* dummy_name = "insert_a_suppression_name_here";
368
369 vg_assert(err);
370
371 ec = VG_(get_error_where)(err);
372 vg_assert(ec);
373
374 name = VG_TDICT_CALL(tool_get_error_name, err);
375 if (NULL == name) {
376 VG_(umsg)("(%s does not allow error to be suppressed)\n",
377 VG_(details).name);
378 return;
379 }
380
381 /* In XML mode, we also need to print the plain text version of the
382 suppresion in a CDATA section. What that really means is, we
383 need to generate the plaintext version both in XML and text
384 mode. So generate it into TEXT. */
385 text = VG_(newXA)( VG_(malloc), "errormgr.gen_suppression.1",
386 VG_(free), sizeof(HChar) );
387
388 /* Ok. Generate the plain text version into TEXT. */
389 VG_(xaprintf)(text, "{\n");
390 VG_(xaprintf)(text, " <%s>\n", dummy_name);
391 VG_(xaprintf)(text, " %s:%s\n", VG_(details).name, name);
392
393 HChar *xtra = NULL;
394 SizeT xtra_size = 0;
395 SizeT num_written;
396
397 do {
398 xtra_size += 256;
399 xtra = VG_(realloc)("errormgr.gen_suppression.2", xtra,xtra_size);
400 num_written = VG_TDICT_CALL(tool_get_extra_suppression_info,
401 err, xtra, xtra_size);
402 } while (num_written == xtra_size); // resize buffer and retry
403
404 // Ensure buffer is properly terminated
405 vg_assert(xtra[num_written] == '\0');
406
407 if (num_written)
408 VG_(xaprintf)(text, " %s\n", xtra);
409
410 // Print stack trace elements
411 UInt n_ips = VG_(get_ExeContext_n_ips)(ec);
412 vg_assert(n_ips > 0);
413 if (n_ips > VG_MAX_SUPP_CALLERS)
414 n_ips = VG_MAX_SUPP_CALLERS;
415 VG_(apply_StackTrace)(printSuppForIp_nonXML,
416 text,
417 VG_(get_ExeContext_StackTrace)(ec),
418 n_ips);
419
420 VG_(xaprintf)(text, "}\n");
421 // zero terminate
422 VG_(xaprintf)(text, "%c", (HChar)0 );
423 // VG_(printf) of text
424
425 /* And now display it. */
426 if (! VG_(clo_xml) ) {
427
428 // the simple case
429 VG_(printf)("%s", (HChar*) VG_(indexXA)(text, 0) );
430
431 } else {
432
433 /* Now we have to print the XML directly. No need to go to the
434 effort of stuffing it in an XArray, since we won't need it
435 again. */
436 VG_(printf_xml)(" <suppression>\n");
437 VG_(printf_xml)(" <sname>%s</sname>\n", dummy_name);
438 VG_(printf_xml)(
439 " <skind>%pS:%pS</skind>\n", VG_(details).name, name);
440 if (num_written)
441 VG_(printf_xml)(" <skaux>%pS</skaux>\n", xtra);
442
443 // Print stack trace elements
444 VG_(apply_StackTrace)(printSuppForIp_XML,
445 NULL,
446 VG_(get_ExeContext_StackTrace)(ec),
447 VG_(get_ExeContext_n_ips)(ec));
448
449 // And now the cdata bit
450 // XXX FIXME! properly handle the case where the raw text
451 // itself contains "]]>", as specified in Protocol 4.
452 VG_(printf_xml)(" <rawtext>\n");
453 VG_(printf_xml)("<![CDATA[\n");
454 VG_(printf_xml)("%s", (HChar*) VG_(indexXA)(text, 0) );
455 VG_(printf_xml)("]]>\n");
456 VG_(printf_xml)(" </rawtext>\n");
457 VG_(printf_xml)(" </suppression>\n");
458
459 }
460
461 VG_(deleteXA)(text);
462 VG_(free)(xtra);
463 }
464
465
466 /* Figure out if we want to perform a given action for this error,
467 possibly by asking the user.
468 */
VG_(is_action_requested)469 Bool VG_(is_action_requested) ( const HChar* action, Bool* clo )
470 {
471 HChar ch, ch2;
472 Int res;
473
474 /* First off, we shouldn't be asking the user anything if
475 we're in XML mode. */
476 if (VG_(clo_xml))
477 return False; /* That's a Nein, oder Nay as they say down here in B-W */
478
479 if (*clo == False)
480 return False;
481
482 VG_(umsg)("\n");
483
484 again:
485 VG_(printf)(
486 "==%d== "
487 "---- %s ? --- [Return/N/n/Y/y/C/c] ---- ",
488 VG_(getpid)(), action
489 );
490
491 res = VG_(read)(VG_(clo_input_fd), &ch, 1);
492 if (res != 1) goto ioerror;
493 /* res == 1 */
494 if (ch == '\n') return False;
495 if (ch != 'N' && ch != 'n' && ch != 'Y' && ch != 'y'
496 && ch != 'C' && ch != 'c') goto again;
497
498 res = VG_(read)(VG_(clo_input_fd), &ch2, 1);
499 if (res != 1) goto ioerror;
500 if (ch2 != '\n') goto again;
501
502 /* No, don't want to do action. */
503 if (ch == 'n' || ch == 'N') return False;
504 /* Yes, want to do action. */
505 if (ch == 'y' || ch == 'Y') return True;
506 /* No, don't want to do action, and don't ask again either. */
507 vg_assert(ch == 'c' || ch == 'C');
508
509 ioerror:
510 *clo = False;
511 return False;
512 }
513
514
515 /* Do text-mode actions on error, that is, immediately after an error
516 is printed. These are:
517 * possibly, call the GDB server
518 * possibly, generate a suppression.
519 Note this should not be called in XML mode!
520 */
521 static
do_actions_on_error(const Error * err,Bool allow_db_attach)522 void do_actions_on_error(const Error* err, Bool allow_db_attach)
523 {
524 Bool still_noisy = True;
525
526 /* if user wants to debug from a certain error nr, then wait for gdb/vgdb */
527 if (VG_(clo_vgdb) != Vg_VgdbNo
528 && allow_db_attach
529 && VG_(dyn_vgdb_error) <= n_errs_shown) {
530 VG_(umsg)("(action on error) vgdb me ... \n");
531 VG_(gdbserver)( err->tid );
532 VG_(umsg)("Continuing ...\n");
533 }
534
535 /* Or maybe we want to generate the error's suppression? */
536 if (VG_(clo_gen_suppressions) == 2
537 || (VG_(clo_gen_suppressions) == 1
538 && VG_(is_action_requested)( "Print suppression", &still_noisy ))
539 ) {
540 gen_suppression(err);
541 }
542 if (VG_(clo_gen_suppressions) == 1 && !still_noisy)
543 VG_(clo_gen_suppressions) = 0;
544 }
545
546
547 /* Prints an error. Not entirely simple because of the differences
548 between XML and text mode output.
549
550 In XML mode:
551
552 * calls the tool's pre-show method, so the tool can create any
553 preamble ahead of the message, if it wants.
554
555 * prints the opening tag, and the <unique> and <tid> fields
556
557 * prints the tool-specific parts of the message
558
559 * if suppression generation is required, a suppression
560
561 * the closing tag
562
563 In text mode:
564
565 * calls the tool's pre-show method, so the tool can create any
566 preamble ahead of the message, if it wants.
567
568 * prints the tool-specific parts of the message
569
570 * calls do_actions_on_error. This optionally does a gdbserver call
571 and optionally prints a suppression; both of these may require user input.
572 */
pp_Error(const Error * err,Bool allow_db_attach,Bool xml)573 static void pp_Error ( const Error* err, Bool allow_db_attach, Bool xml )
574 {
575 /* If this fails, you probably specified your tool's method
576 dictionary incorrectly. */
577 vg_assert(VG_(needs).tool_errors);
578
579 if (xml) {
580
581 /* Ensure that suppression generation is either completely
582 enabled or completely disabled; either way, we won't require
583 any user input. m_main.process_cmd_line_options should
584 ensure the asserted condition holds. */
585 vg_assert( VG_(clo_gen_suppressions) == 0 /* disabled */
586 || VG_(clo_gen_suppressions) == 2 /* for all errors */ );
587
588 /* Pre-show it to the tool */
589 VG_TDICT_CALL( tool_before_pp_Error, err );
590
591 /* standard preamble */
592 VG_(printf_xml)("<error>\n");
593 VG_(printf_xml)(" <unique>0x%x</unique>\n", err->unique);
594 VG_(printf_xml)(" <tid>%u</tid>\n", err->tid);
595 ThreadState* tst = VG_(get_ThreadState)(err->tid);
596 if (tst->thread_name) {
597 VG_(printf_xml)(" <threadname>%s</threadname>\n", tst->thread_name);
598 }
599
600 /* actually print it */
601 VG_TDICT_CALL( tool_pp_Error, err );
602
603 if (VG_(clo_gen_suppressions) > 0)
604 gen_suppression(err);
605
606 /* postamble */
607 VG_(printf_xml)("</error>\n");
608 VG_(printf_xml)("\n");
609
610 } else {
611
612 if (VG_(clo_error_markers)[0])
613 VG_(umsg)("%s\n", VG_(clo_error_markers)[0]);
614 VG_TDICT_CALL( tool_before_pp_Error, err );
615
616 if (VG_(tdict).tool_show_ThreadIDs_for_errors
617 && err->tid > 0 && err->tid != last_tid_printed) {
618 ThreadState* tst = VG_(get_ThreadState)(err->tid);
619 if (tst->thread_name) {
620 VG_(umsg)("Thread %u %s:\n", err->tid, tst->thread_name );
621 } else {
622 VG_(umsg)("Thread %u:\n", err->tid );
623 }
624 last_tid_printed = err->tid;
625 }
626
627 VG_TDICT_CALL( tool_pp_Error, err );
628 VG_(umsg)("\n");
629 if (VG_(clo_error_markers)[1])
630 VG_(umsg)("%s\n", VG_(clo_error_markers)[1]);
631
632 }
633
634 do_actions_on_error(err, allow_db_attach);
635 }
636
637
638 /* Construct an error */
639 static
construct_error(Error * err,ThreadId tid,ErrorKind ekind,Addr a,const HChar * s,void * extra,ExeContext * where)640 void construct_error ( Error* err, ThreadId tid, ErrorKind ekind, Addr a,
641 const HChar* s, void* extra, ExeContext* where )
642 {
643 /* DO NOT MAKE unique_counter NON-STATIC */
644 static UInt unique_counter = 0;
645
646 vg_assert(tid < VG_N_THREADS);
647
648 /* Core-only parts */
649 err->unique = unique_counter++;
650 err->next = NULL;
651 err->supp = NULL;
652 err->count = 1;
653 err->tid = tid;
654 if (NULL == where)
655 err->where = VG_(record_ExeContext)( tid, 0 );
656 else
657 err->where = where;
658
659 /* Tool-relevant parts */
660 err->ekind = ekind;
661 err->addr = a;
662 err->extra = extra;
663 err->string = s;
664
665 /* sanity... */
666 vg_assert( tid < VG_N_THREADS );
667 }
668
669
670
671 /* Top-level entry point to the error management subsystem.
672 All detected errors are notified here; this routine decides if/when the
673 user should see the error. */
VG_(maybe_record_error)674 void VG_(maybe_record_error) ( ThreadId tid,
675 ErrorKind ekind, Addr a,
676 const HChar* s, void* extra )
677 {
678 Error err;
679 Error* p;
680 Error* p_prev;
681 UInt extra_size;
682 VgRes exe_res = Vg_MedRes;
683 static Bool stopping_message = False;
684 static Bool slowdown_message = False;
685
686 /* After M_COLLECT_NO_ERRORS_AFTER_SHOWN different errors have
687 been found, or M_COLLECT_NO_ERRORS_AFTER_FOUND total errors
688 have been found, just refuse to collect any more. This stops
689 the burden of the error-management system becoming excessive in
690 extremely buggy programs, although it does make it pretty
691 pointless to continue the Valgrind run after this point. */
692 if (VG_(clo_error_limit)
693 && (n_errs_shown >= M_COLLECT_NO_ERRORS_AFTER_SHOWN
694 || n_errs_found >= M_COLLECT_NO_ERRORS_AFTER_FOUND)
695 && !VG_(clo_xml)) {
696 if (!stopping_message) {
697 VG_(umsg)("\n");
698
699 if (n_errs_shown >= M_COLLECT_NO_ERRORS_AFTER_SHOWN) {
700 VG_(umsg)(
701 "More than %d different errors detected. "
702 "I'm not reporting any more.\n",
703 M_COLLECT_NO_ERRORS_AFTER_SHOWN );
704 } else {
705 VG_(umsg)(
706 "More than %d total errors detected. "
707 "I'm not reporting any more.\n",
708 M_COLLECT_NO_ERRORS_AFTER_FOUND );
709 }
710
711 VG_(umsg)("Final error counts will be inaccurate. "
712 "Go fix your program!\n");
713 VG_(umsg)("Rerun with --error-limit=no to disable "
714 "this cutoff. Note\n");
715 VG_(umsg)("that errors may occur in your program without "
716 "prior warning from\n");
717 VG_(umsg)("Valgrind, because errors are no longer "
718 "being displayed.\n");
719 VG_(umsg)("\n");
720 stopping_message = True;
721 }
722 return;
723 }
724
725 /* Ignore it if error acquisition is disabled for this thread. */
726 { ThreadState* tst = VG_(get_ThreadState)(tid);
727 if (tst->err_disablement_level > 0)
728 return;
729 }
730
731 /* After M_COLLECT_ERRORS_SLOWLY_AFTER different errors have
732 been found, be much more conservative about collecting new
733 ones. */
734 if (n_errs_shown >= M_COLLECT_ERRORS_SLOWLY_AFTER
735 && !VG_(clo_xml)) {
736 exe_res = Vg_LowRes;
737 if (!slowdown_message) {
738 VG_(umsg)("\n");
739 VG_(umsg)("More than %d errors detected. Subsequent errors\n",
740 M_COLLECT_ERRORS_SLOWLY_AFTER);
741 VG_(umsg)("will still be recorded, but in less "
742 "detail than before.\n");
743 slowdown_message = True;
744 }
745 }
746
747 /* Build ourselves the error */
748 construct_error ( &err, tid, ekind, a, s, extra, NULL );
749
750 /* First, see if we've got an error record matching this one. */
751 em_errlist_searches++;
752 p = errors;
753 p_prev = NULL;
754 while (p != NULL) {
755 em_errlist_cmps++;
756 if (eq_Error(exe_res, p, &err)) {
757 /* Found it. */
758 p->count++;
759 if (p->supp != NULL) {
760 /* Deal correctly with suppressed errors. */
761 p->supp->count++;
762 n_errs_suppressed++;
763 } else {
764 n_errs_found++;
765 }
766
767 /* Move p to the front of the list so that future searches
768 for it are faster. It also allows to print the last
769 error (see VG_(show_last_error). */
770 if (p_prev != NULL) {
771 vg_assert(p_prev->next == p);
772 p_prev->next = p->next;
773 p->next = errors;
774 errors = p;
775 }
776
777 return;
778 }
779 p_prev = p;
780 p = p->next;
781 }
782
783 /* Didn't see it. Copy and add. */
784
785 /* OK, we're really going to collect it. The context is on the stack and
786 will disappear shortly, so we must copy it. First do the main
787 (non-'extra') part.
788
789 Then VG_(tdict).tool_update_extra can update the 'extra' part. This
790 is for when there are more details to fill in which take time to work
791 out but don't affect our earlier decision to include the error -- by
792 postponing those details until now, we avoid the extra work in the
793 case where we ignore the error. Ugly.
794
795 Then, if there is an 'extra' part, copy it too, using the size that
796 VG_(tdict).tool_update_extra returned. Also allow for people using
797 the void* extra field for a scalar value like an integer.
798 */
799
800 /* copy main part */
801 p = VG_(malloc)("errormgr.mre.1", sizeof(Error));
802 *p = err;
803
804 /* update 'extra' */
805 switch (ekind) {
806 //(example code, see comment on CoreSuppKind above)
807 //case ThreadErr:
808 // vg_assert(VG_(needs).core_errors);
809 // extra_size = <something>
810 // break;
811 default:
812 vg_assert(VG_(needs).tool_errors);
813 extra_size = VG_TDICT_CALL(tool_update_extra, p);
814 break;
815 }
816
817 /* copy the error string, if there is one.
818 note: if we would have many errors with big strings, using a
819 DedupPoolAlloc for these strings will avoid duplicating
820 such string in each error using it. */
821 if (NULL != p->string) {
822 p->string = VG_(strdup)("errormgr.mre.2", p->string);
823 }
824
825 /* copy block pointed to by 'extra', if there is one */
826 if (NULL != p->extra && 0 != extra_size) {
827 void* new_extra = VG_(malloc)("errormgr.mre.3", extra_size);
828 VG_(memcpy)(new_extra, p->extra, extra_size);
829 p->extra = new_extra;
830 }
831
832 p->next = errors;
833 p->supp = is_suppressible_error(&err);
834 errors = p;
835 if (p->supp == NULL) {
836 /* update stats */
837 n_err_contexts++;
838 n_errs_found++;
839 n_errs_shown++;
840 /* Actually show the error; more complex than you might think. */
841 pp_Error( p, /*allow_db_attach*/True, VG_(clo_xml) );
842 } else {
843 n_supp_contexts++;
844 n_errs_suppressed++;
845 p->supp->count++;
846 }
847 }
848
849 /* Second top-level entry point to the error management subsystem, for
850 errors that the tool wants to report immediately, eg. because they're
851 guaranteed to only happen once. This avoids all the recording and
852 comparing stuff. But they can be suppressed; returns True if it is
853 suppressed. Bool 'print_error' dictates whether to print the error.
854 Bool 'count_error' dictates whether to count the error in n_errs_found.
855 */
VG_(unique_error)856 Bool VG_(unique_error) ( ThreadId tid, ErrorKind ekind, Addr a, const HChar* s,
857 void* extra, ExeContext* where, Bool print_error,
858 Bool allow_db_attach, Bool count_error )
859 {
860 Error err;
861 Supp *su;
862
863 /* Ignore it if error acquisition is disabled for this thread. */
864 ThreadState* tst = VG_(get_ThreadState)(tid);
865 if (tst->err_disablement_level > 0)
866 return False; /* ignored, not suppressed */
867
868 /* Build ourselves the error */
869 construct_error ( &err, tid, ekind, a, s, extra, where );
870
871 /* Unless it's suppressed, we're going to show it. Don't need to make
872 a copy, because it's only temporary anyway.
873
874 Then update the 'extra' part with VG_(tdict).tool_update_extra),
875 because that can have an affect on whether it's suppressed. Ignore
876 the size return value of VG_(tdict).tool_update_extra, because we're
877 not copying 'extra'. Similarly, 's' is also not copied. */
878 (void)VG_TDICT_CALL(tool_update_extra, &err);
879
880 su = is_suppressible_error(&err);
881 if (NULL == su) {
882 if (count_error) {
883 n_errs_found++;
884 n_err_contexts++;
885 }
886
887 if (print_error) {
888 /* update stats */
889 n_errs_shown++;
890 /* Actually show the error; more complex than you might think. */
891 pp_Error(&err, allow_db_attach, VG_(clo_xml));
892 }
893 return False;
894
895 } else {
896 if (count_error) {
897 n_errs_suppressed++;
898 n_supp_contexts++;
899 }
900 su->count++;
901 return True;
902 }
903 }
904
905
906 /*------------------------------------------------------------*/
907 /*--- Exported fns ---*/
908 /*------------------------------------------------------------*/
909
910 /* Show the used suppressions. Returns False if no suppression
911 got used. */
show_used_suppressions(void)912 static Bool show_used_suppressions ( void )
913 {
914 Supp *su;
915 Bool any_supp;
916
917 if (VG_(clo_xml))
918 VG_(printf_xml)("<suppcounts>\n");
919
920 any_supp = False;
921 for (su = suppressions; su != NULL; su = su->next) {
922 if (su->count <= 0)
923 continue;
924 if (VG_(clo_xml)) {
925 VG_(printf_xml)( " <pair>\n"
926 " <count>%d</count>\n"
927 " <name>%pS</name>\n"
928 " </pair>\n",
929 su->count, su->sname );
930 } else {
931 HChar *xtra = NULL;
932 Int xtra_size = 0;
933 SizeT num_written;
934 // blank line before the first shown suppression, if any
935 if (!any_supp)
936 VG_(dmsg)("\n");
937
938 do {
939 xtra_size += 256;
940 xtra = VG_(realloc)("errormgr.sus.1", xtra, xtra_size);
941 num_written = VG_TDICT_CALL(tool_print_extra_suppression_use,
942 su, xtra, xtra_size);
943 } while (num_written == xtra_size); // resize buffer and retry
944
945 // Ensure buffer is properly terminated
946 vg_assert(xtra[num_written] == '\0');
947
948 HChar *filename = *(HChar**) VG_(indexXA)(VG_(clo_suppressions),
949 su->clo_suppressions_i);
950 VG_(dmsg)("used_suppression: %6d %s %s:%d%s%s\n", su->count, su->sname,
951 filename,
952 su->sname_lineno,
953 num_written ? " " : "", xtra);
954 VG_(free)(xtra);
955 }
956 any_supp = True;
957 }
958
959 if (VG_(clo_xml))
960 VG_(printf_xml)("</suppcounts>\n");
961
962 return any_supp;
963 }
964
965 /* Show all the errors that occurred, and possibly also the
966 suppressions used. */
VG_(show_all_errors)967 void VG_(show_all_errors) ( Int verbosity, Bool xml )
968 {
969 Int i, n_min;
970 Error *p, *p_min;
971 Bool any_supp;
972
973 if (verbosity == 0)
974 return;
975
976 /* If we're printing XML, just show the suppressions and stop. */
977 if (xml) {
978 (void)show_used_suppressions();
979 return;
980 }
981
982 /* We only get here if not printing XML. */
983 VG_(umsg)("ERROR SUMMARY: "
984 "%u errors from %u contexts (suppressed: %u from %u)\n",
985 n_errs_found, n_err_contexts,
986 n_errs_suppressed, n_supp_contexts );
987
988 if (verbosity <= 1)
989 return;
990
991 // We do the following only at -v or above, and only in non-XML
992 // mode
993
994 /* Print the contexts in order of increasing error count.
995 Once an error is shown, we add a huge value to its count to filter it
996 out.
997 After having shown all errors, we reset count to the original value. */
998 for (i = 0; i < n_err_contexts; i++) {
999 n_min = (1 << 30) - 1;
1000 p_min = NULL;
1001 for (p = errors; p != NULL; p = p->next) {
1002 if (p->supp != NULL) continue;
1003 if (p->count < n_min) {
1004 n_min = p->count;
1005 p_min = p;
1006 }
1007 }
1008 // XXX: this isn't right. See bug 203651.
1009 if (p_min == NULL) continue; //VG_(core_panic)("show_all_errors()");
1010
1011 VG_(umsg)("\n");
1012 VG_(umsg)("%d errors in context %d of %u:\n",
1013 p_min->count, i+1, n_err_contexts);
1014 pp_Error( p_min, False/*allow_db_attach*/, False /* xml */ );
1015
1016 // We're not printing XML -- we'd have exited above if so.
1017 vg_assert(! xml);
1018
1019 if ((i+1 == VG_(clo_dump_error))) {
1020 StackTrace ips = VG_(get_ExeContext_StackTrace)(p_min->where);
1021 VG_(translate) ( 0 /* dummy ThreadId; irrelevant due to debugging*/,
1022 ips[0], /*debugging*/True, 0xFE/*verbosity*/,
1023 /*bbs_done*/0,
1024 /*allow redir?*/True);
1025 }
1026
1027 p_min->count = p_min->count + (1 << 30);
1028 }
1029
1030 /* reset the counts, otherwise a 2nd call does not show anything anymore */
1031 for (p = errors; p != NULL; p = p->next) {
1032 if (p->count >= (1 << 30))
1033 p->count = p->count - (1 << 30);
1034 }
1035
1036
1037 any_supp = show_used_suppressions();
1038
1039 if (any_supp)
1040 VG_(umsg)("\n");
1041 // reprint this, so users don't have to scroll way up to find
1042 // the first printing
1043 VG_(umsg)("ERROR SUMMARY: "
1044 "%u errors from %u contexts (suppressed: %u from %u)\n",
1045 n_errs_found, n_err_contexts, n_errs_suppressed,
1046 n_supp_contexts );
1047 }
1048
VG_(show_last_error)1049 void VG_(show_last_error) ( void )
1050 {
1051 if (n_err_contexts == 0) {
1052 VG_(umsg)("No errors yet\n");
1053 return;
1054 }
1055
1056 pp_Error( errors, False/*allow_db_attach*/, False/*xml*/ );
1057 }
1058
1059
1060 /* Show occurrence counts of all errors, in XML form. */
VG_(show_error_counts_as_XML)1061 void VG_(show_error_counts_as_XML) ( void )
1062 {
1063 Error* err;
1064 VG_(printf_xml)("<errorcounts>\n");
1065 for (err = errors; err != NULL; err = err->next) {
1066 if (err->supp != NULL)
1067 continue;
1068 if (err->count <= 0)
1069 continue;
1070 VG_(printf_xml)(" <pair>\n");
1071 VG_(printf_xml)(" <count>%d</count>\n", err->count);
1072 VG_(printf_xml)(" <unique>0x%x</unique>\n", err->unique);
1073 VG_(printf_xml)(" </pair>\n");
1074 }
1075 VG_(printf_xml)("</errorcounts>\n");
1076 VG_(printf_xml)("\n");
1077 }
1078
1079
1080 /*------------------------------------------------------------*/
1081 /*--- Suppression parsing ---*/
1082 /*------------------------------------------------------------*/
1083
1084 /* Get the next char from fd into *out_buf. Returns 1 if success,
1085 0 if eof or < 0 if error. */
1086
get_char(Int fd,HChar * out_buf)1087 static Int get_char ( Int fd, HChar* out_buf )
1088 {
1089 Int r;
1090 static HChar buf[256];
1091 static Int buf_size = 0;
1092 static Int buf_used = 0;
1093 vg_assert(buf_size >= 0 && buf_size <= sizeof buf);
1094 vg_assert(buf_used >= 0 && buf_used <= buf_size);
1095 if (buf_used == buf_size) {
1096 r = VG_(read)(fd, buf, sizeof buf);
1097 if (r < 0) return r; /* read failed */
1098 vg_assert(r >= 0 && r <= sizeof buf);
1099 buf_size = r;
1100 buf_used = 0;
1101 }
1102 if (buf_size == 0)
1103 return 0; /* eof */
1104 vg_assert(buf_size >= 0 && buf_size <= sizeof buf);
1105 vg_assert(buf_used >= 0 && buf_used < buf_size);
1106 *out_buf = buf[buf_used];
1107 buf_used++;
1108 return 1;
1109 }
1110
1111 // Get a non blank non comment line.
1112 // Returns True if eof.
get_nbnc_line(Int fd,HChar ** bufpp,SizeT * nBufp,Int * lineno)1113 static Bool get_nbnc_line ( Int fd, HChar** bufpp, SizeT* nBufp, Int* lineno )
1114 {
1115 HChar* buf = *bufpp;
1116 SizeT nBuf = *nBufp;
1117 HChar ch;
1118 Int n, i;
1119
1120 vg_assert(lineno); // lineno needed to correctly track line numbers.
1121
1122 while (True) {
1123 buf[0] = 0;
1124 /* First, read until a non-blank char appears. */
1125 while (True) {
1126 n = get_char(fd, &ch);
1127 if (n == 1 && !VG_(isspace)(ch)) break;
1128 if (n == 1 && ch == '\n')
1129 (*lineno)++;
1130 if (n <= 0) return True;
1131 }
1132
1133 /* Now, read the line into buf. */
1134 i = 0;
1135 buf[i++] = ch; buf[i] = 0;
1136 while (True) {
1137 n = get_char(fd, &ch);
1138 if (n <= 0) return False; /* the next call will return True */
1139 if (ch == '\n')
1140 (*lineno)++;
1141 if (ch == '\n') break;
1142 if (i > 0 && i == nBuf-1) {
1143 *nBufp = nBuf = nBuf * 2;
1144 #define RIDICULOUS 100000
1145 vg_assert2(nBuf < RIDICULOUS, // Just a sanity check, really.
1146 "VG_(get_line): line longer than %d chars, aborting\n",
1147 RIDICULOUS);
1148 *bufpp = buf = VG_(realloc)("errormgr.get_line.1", buf, nBuf);
1149 }
1150 buf[i++] = ch; buf[i] = 0;
1151 }
1152 while (i > 1 && VG_(isspace)(buf[i-1])) {
1153 i--; buf[i] = 0;
1154 };
1155
1156 // VG_(printf)("The line *%p %d is '%s'\n", lineno, *lineno, buf);
1157 /* Ok, we have a line. If a non-comment line, return.
1158 If a comment line, start all over again. */
1159 if (buf[0] != '#') return False;
1160 }
1161 }
1162
1163 // True if buf starts with fun: or obj: or is ...
is_location_line(const HChar * buf)1164 static Bool is_location_line (const HChar* buf)
1165 {
1166 return VG_(strncmp)(buf, "fun:", 4) == 0
1167 || VG_(strncmp)(buf, "obj:", 4) == 0
1168 || VG_(strcmp)(buf, "...") == 0;
1169 }
1170
VG_(get_line)1171 Bool VG_(get_line) ( Int fd, HChar** bufpp, SizeT* nBufp, Int* lineno )
1172 {
1173 Bool eof = get_nbnc_line (fd, bufpp, nBufp, lineno);
1174
1175 if (eof)
1176 return True;
1177
1178 if (is_location_line(*bufpp))
1179 return True; // Not a extra suppr line
1180 else
1181 return False; // A suppression extra line
1182 }
1183
1184 /* True if s contains no wildcard (?, *) characters. */
is_simple_str(const HChar * s)1185 static Bool is_simple_str (const HChar *s)
1186 {
1187 while (*s) {
1188 if (*s == '?' || *s == '*')
1189 return False;
1190 s++;
1191 }
1192 return True;
1193 }
1194
1195 /* buf contains the raw name of a caller, supposedly either
1196 fun:some_function_name or
1197 obj:some_object_name or
1198 ...
1199 Set p->ty and p->name accordingly.
1200 p->name is allocated and set to the string
1201 after the descriptor (fun: or obj:) part.
1202 Returns False if failed.
1203 */
setLocationTy(SuppLoc * p,const HChar * buf)1204 static Bool setLocationTy ( SuppLoc* p, const HChar *buf )
1205 {
1206 if (VG_(strncmp)(buf, "fun:", 4) == 0) {
1207 p->name = VG_(strdup)("errormgr.sLTy.1", buf+4);
1208 p->name_is_simple_str = is_simple_str (p->name);
1209 p->ty = FunName;
1210 return True;
1211 }
1212 if (VG_(strncmp)(buf, "obj:", 4) == 0) {
1213 p->name = VG_(strdup)("errormgr.sLTy.2", buf+4);
1214 p->name_is_simple_str = is_simple_str (p->name);
1215 p->ty = ObjName;
1216 return True;
1217 }
1218 if (VG_(strcmp)(buf, "...") == 0) {
1219 p->name = NULL;
1220 p->name_is_simple_str = False;
1221 p->ty = DotDotDot;
1222 return True;
1223 }
1224 VG_(printf)("location should be \"...\", or should start "
1225 "with \"fun:\" or \"obj:\"\n");
1226 return False;
1227 }
1228
1229
1230 /* Look for "tool" in a string like "tool1,tool2,tool3" */
tool_name_present(const HChar * name,const HChar * names)1231 static Bool tool_name_present(const HChar *name, const HChar *names)
1232 {
1233 Bool found;
1234 HChar *s = NULL; /* Shut gcc up */
1235 Int len = VG_(strlen)(name);
1236
1237 found = (NULL != (s = VG_(strstr)(names, name)) &&
1238 (s == names || *(s-1) == ',') &&
1239 (*(s+len) == ',' || *(s+len) == '\0')
1240 );
1241
1242 return found;
1243 }
1244
1245 /* Read suppressions from the file specified in
1246 VG_(clo_suppressions)[clo_suppressions_i]
1247 and place them in the suppressions list. If there's any difficulty
1248 doing this, just give up -- there's no point in trying to recover.
1249 */
load_one_suppressions_file(Int clo_suppressions_i)1250 static void load_one_suppressions_file ( Int clo_suppressions_i )
1251 {
1252 const HChar* filename = *(HChar**) VG_(indexXA)(VG_(clo_suppressions),
1253 clo_suppressions_i);
1254 SysRes sres;
1255 Int fd, i, j, lineno = 0;
1256 Bool got_a_location_line_read_by_tool;
1257 Bool eof;
1258 SizeT nBuf = 200;
1259 HChar* buf = VG_(malloc)("errormgr.losf.1", nBuf);
1260 HChar* tool_names;
1261 HChar* supp_name;
1262 const HChar* err_str = NULL;
1263 SuppLoc tmp_callers[VG_MAX_SUPP_CALLERS];
1264
1265 // Check it's not a directory.
1266 if (VG_(is_dir)( filename )) {
1267 if (VG_(clo_xml))
1268 VG_(printf_xml)("</valgrindoutput>\n");
1269 VG_(umsg)("FATAL: suppressions file \"%s\" is a directory\n", filename );
1270 VG_(exit)(1);
1271 }
1272
1273 // Open the suppression file.
1274 sres = VG_(open)( filename, VKI_O_RDONLY, 0 );
1275 if (sr_isError(sres)) {
1276 if (VG_(clo_xml))
1277 VG_(printf_xml)("</valgrindoutput>\n");
1278 VG_(umsg)("FATAL: can't open suppressions file \"%s\"\n", filename );
1279 VG_(exit)(1);
1280 }
1281 fd = sr_Res(sres);
1282
1283 # define BOMB(S) { err_str = S; goto syntax_error; }
1284
1285 while (True) {
1286 /* Assign and initialise the two suppression halves (core and tool) */
1287 Supp* supp;
1288 supp = VG_(malloc)("errormgr.losf.1", sizeof(Supp));
1289 supp->count = 0;
1290
1291 // Initialise temporary reading-in buffer.
1292 for (i = 0; i < VG_MAX_SUPP_CALLERS; i++) {
1293 tmp_callers[i].ty = NoName;
1294 tmp_callers[i].name_is_simple_str = False;
1295 tmp_callers[i].name = NULL;
1296 }
1297
1298 supp->string = supp->extra = NULL;
1299
1300 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1301 if (eof) {
1302 VG_(free)(supp);
1303 break;
1304 }
1305
1306 if (!VG_STREQ(buf, "{")) BOMB("expected '{' or end-of-file");
1307
1308 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1309
1310 if (eof || VG_STREQ(buf, "}")) BOMB("unexpected '}'");
1311
1312 supp->sname = VG_(strdup)("errormgr.losf.2", buf);
1313 supp->clo_suppressions_i = clo_suppressions_i;
1314 supp->sname_lineno = lineno;
1315
1316 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1317
1318 if (eof) BOMB("unexpected end-of-file (expecting tool:suppr)");
1319
1320 /* Check it has the "tool1,tool2,...:supp" form (look for ':') */
1321 i = 0;
1322 while (True) {
1323 if (buf[i] == ':') break;
1324 if (buf[i] == '\0') BOMB("malformed 'tool1,tool2,...:supp' line");
1325 i++;
1326 }
1327 buf[i] = '\0'; /* Replace ':', splitting into two strings */
1328
1329 tool_names = & buf[0];
1330 supp_name = & buf[i+1];
1331
1332 if (VG_(needs).core_errors && tool_name_present("core", tool_names))
1333 {
1334 // A core suppression
1335 //(example code, see comment on CoreSuppKind above)
1336 //if (VG_STREQ(supp_name, "Thread"))
1337 // supp->skind = ThreadSupp;
1338 //else
1339 BOMB("unknown core suppression type");
1340 }
1341 else if (VG_(needs).tool_errors &&
1342 tool_name_present(VG_(details).name, tool_names))
1343 {
1344 // A tool suppression
1345 if (VG_TDICT_CALL(tool_recognised_suppression, supp_name, supp)) {
1346 /* Do nothing, function fills in supp->skind */
1347 } else {
1348 BOMB("unknown tool suppression type");
1349 }
1350 }
1351 else {
1352 // Ignore rest of suppression
1353 while (True) {
1354 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1355 if (eof) BOMB("unexpected end-of-file (when skipping suppression)");
1356 if (VG_STREQ(buf, "}"))
1357 break;
1358 }
1359 VG_(free)(supp->sname);
1360 VG_(free)(supp);
1361 continue;
1362 }
1363
1364 buf[0] = 0;
1365 // tool_read_extra_suppression_info might read lines
1366 // from fd till a location line.
1367 if (VG_(needs).tool_errors &&
1368 !VG_TDICT_CALL(tool_read_extra_suppression_info,
1369 fd, &buf, &nBuf, &lineno, supp))
1370 {
1371 BOMB("bad or missing extra suppression info");
1372 }
1373
1374 got_a_location_line_read_by_tool = buf[0] != 0 && is_location_line(buf);
1375
1376 /* the main frame-descriptor reading loop */
1377 i = 0;
1378 while (True) {
1379 if (got_a_location_line_read_by_tool) {
1380 got_a_location_line_read_by_tool = False;
1381 eof = False;
1382 } else {
1383 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1384 }
1385 if (eof)
1386 BOMB("unexpected end-of-file (when reading stack trace)");
1387 if (VG_STREQ(buf, "}")) {
1388 if (i > 0) {
1389 break;
1390 } else {
1391 BOMB("missing stack trace");
1392 }
1393 }
1394 if (i == VG_MAX_SUPP_CALLERS)
1395 BOMB("too many callers in stack trace");
1396 if (i > 0 && i >= VG_(clo_backtrace_size))
1397 break;
1398 if (!setLocationTy(&(tmp_callers[i]), buf))
1399 BOMB("location should be \"...\", or should start "
1400 "with \"fun:\" or \"obj:\"");
1401 i++;
1402 }
1403
1404 // If the num callers is >= VG_(clo_backtrace_size), ignore any extra
1405 // lines and grab the '}'.
1406 if (!VG_STREQ(buf, "}")) {
1407 do {
1408 eof = get_nbnc_line ( fd, &buf, &nBuf, &lineno );
1409 } while (!eof && !VG_STREQ(buf, "}"));
1410 }
1411
1412 // Reject entries which are entirely composed of frame
1413 // level wildcards.
1414 vg_assert(i > 0); // guaranteed by frame-descriptor reading loop
1415 for (j = 0; j < i; j++) {
1416 if (tmp_callers[j].ty == FunName || tmp_callers[j].ty == ObjName)
1417 break;
1418 vg_assert(tmp_callers[j].ty == DotDotDot);
1419 }
1420 vg_assert(j >= 0 && j <= i);
1421 if (j == i) {
1422 // we didn't find any non-"..." entries
1423 BOMB("suppression must contain at least one location "
1424 "line which is not \"...\"");
1425 }
1426
1427 // Copy tmp_callers[] into supp->callers[]
1428 supp->n_callers = i;
1429 supp->callers = VG_(malloc)("errormgr.losf.4", i * sizeof(SuppLoc));
1430 for (i = 0; i < supp->n_callers; i++) {
1431 supp->callers[i] = tmp_callers[i];
1432 }
1433
1434 supp->next = suppressions;
1435 suppressions = supp;
1436 }
1437 VG_(free)(buf);
1438 VG_(close)(fd);
1439 return;
1440
1441 syntax_error:
1442 if (VG_(clo_xml))
1443 VG_(printf_xml)("</valgrindoutput>\n");
1444 VG_(umsg)("FATAL: in suppressions file \"%s\" near line %d:\n",
1445 filename, lineno );
1446 VG_(umsg)(" %s\n", err_str );
1447
1448 VG_(close)(fd);
1449 VG_(umsg)("exiting now.\n");
1450 VG_(exit)(1);
1451
1452 # undef BOMB
1453 }
1454
1455
VG_(load_suppressions)1456 void VG_(load_suppressions) ( void )
1457 {
1458 Int i;
1459 suppressions = NULL;
1460 for (i = 0; i < VG_(sizeXA)(VG_(clo_suppressions)); i++) {
1461 if (VG_(clo_verbosity) > 1) {
1462 VG_(dmsg)("Reading suppressions file: %s\n",
1463 *(HChar**) VG_(indexXA)(VG_(clo_suppressions), i));
1464 }
1465 load_one_suppressions_file( i );
1466 }
1467 }
1468
1469
1470 /*------------------------------------------------------------*/
1471 /*--- Matching errors to suppressions ---*/
1472 /*------------------------------------------------------------*/
1473
1474 /* Parameterising functions for the use of VG_(generic_match) in
1475 suppression-vs-error matching. The suppression frames (SuppLoc)
1476 play the role of 'pattern'-element, and the error frames (IPs,
1477 hence simply Addrs) play the role of 'input'. In short then, we're
1478 matching a sequence of Addrs against a pattern composed of a
1479 sequence of SuppLocs.
1480 */
supploc_IsStar(const void * supplocV)1481 static Bool supploc_IsStar ( const void* supplocV )
1482 {
1483 const SuppLoc* supploc = supplocV;
1484 return supploc->ty == DotDotDot;
1485 }
1486
supploc_IsQuery(const void * supplocV)1487 static Bool supploc_IsQuery ( const void* supplocV )
1488 {
1489 return False; /* there's no '?' equivalent in the supp syntax */
1490 }
1491
1492 /* IPtoFunOrObjCompleter is a lazy completer of the IPs
1493 needed to match an error with the suppression patterns.
1494 The matching between an IP and a suppression pattern is done either
1495 with the IP function name or with the IP object name.
1496 First time the fun or obj name is needed for an IP member
1497 of a stack trace, it will be computed and stored in names.
1498 Also, if the IP corresponds to one or more inlined function calls,
1499 the inlined function names are expanded.
1500 The IPtoFunOrObjCompleter type is designed to minimise the nr of
1501 allocations and the nr of debuginfo search. */
1502 typedef
1503 struct {
1504 StackTrace ips; // stack trace we are lazily completing.
1505 UWord n_ips; // nr of elements in ips.
1506
1507 // VG_(generic_match) calls haveInputInpC to check
1508 // for the presence of an input element identified by ixInput
1509 // (i.e. a number that identifies the ixInput element of the
1510 // input sequence). It calls supp_pattEQinp to match this input
1511 // element with a pattern.
1512 // When inlining info is used to provide inlined function calls
1513 // in stacktraces, one IP in ips can be expanded in several
1514 // function names. So, each time input (or presence of input)
1515 // is requested by VG_(generic_match), we will expand
1516 // more IP of ips till we have expanded enough to reach the
1517 // input element requested (or we cannot expand anymore).
1518
1519 UWord n_ips_expanded;
1520 // n_ips_expanded maintains the nr of elements in ips that we have
1521 // already expanded.
1522 UWord n_expanded;
1523 // n_expanded maintains the nr of elements resulting from the expansion
1524 // of the n_ips_expanded IPs. Without inlined function calls,
1525 // n_expanded == n_ips_expanded. With inlining info,
1526 // n_expanded >= n_ips_expanded.
1527
1528 Int* n_offsets_per_ip;
1529 // n_offsets_per_ip[i] gives the nr of offsets in fun_offsets and
1530 // obj_offsets resulting of the expansion of ips[i].
1531 // The sum of all n_expanded_per_ip must be equal to n_expanded.
1532 // This array allows to retrieve the position in ips corresponding to
1533 // an ixInput.
1534
1535 // size (in elements) of fun_offsets and obj_offsets.
1536 // (fun|obj)_offsets are reallocated if more space is needed
1537 // to expand an IP.
1538 UWord sz_offsets;
1539
1540 Int* fun_offsets;
1541 // fun_offsets[ixInput] is the offset in names where the
1542 // function name for the ixInput element of the input sequence
1543 // can be found. As one IP of ips can be expanded in several
1544 // function calls due to inlined function calls, we can have more
1545 // elements in fun_offsets than in ips.
1546 // An offset -1 means the function name has not yet been computed.
1547 Int* obj_offsets;
1548 // Similarly, obj_offsets[ixInput] gives the offset for the
1549 // object name for ips[ixInput]
1550 // (-1 meaning object name not yet been computed).
1551
1552 // All function names and object names will be concatenated
1553 // in names. names is reallocated on demand.
1554 HChar *names;
1555 Int names_szB; // size of names.
1556 Int names_free; // offset first free HChar in names.
1557 }
1558 IPtoFunOrObjCompleter;
1559
pp_ip2fo(const IPtoFunOrObjCompleter * ip2fo)1560 static void pp_ip2fo (const IPtoFunOrObjCompleter* ip2fo)
1561 {
1562 Int i, j;
1563 Int o;
1564
1565 VG_(printf)("n_ips %lu n_ips_expanded %lu resulting in n_expanded %lu\n",
1566 ip2fo->n_ips, ip2fo->n_ips_expanded, ip2fo->n_expanded);
1567 for (i = 0; i < ip2fo->n_ips_expanded; i++) {
1568 o = 0;
1569 for (j = 0; j < i; j++)
1570 o += ip2fo->n_offsets_per_ip[j];
1571 VG_(printf)("ips %d 0x08%lx offset [%d,%d] ",
1572 i, ip2fo->ips[i],
1573 o, o+ip2fo->n_offsets_per_ip[i]-1);
1574 for (j = 0; j < ip2fo->n_offsets_per_ip[i]; j++) {
1575 VG_(printf)("%sfun:%s obj:%s\n",
1576 j == 0 ? "" : " ",
1577 ip2fo->fun_offsets[o+j] == -1 ?
1578 "<not expanded>" : &ip2fo->names[ip2fo->fun_offsets[o+j]],
1579 ip2fo->obj_offsets[o+j] == -1 ?
1580 "<not expanded>" : &ip2fo->names[ip2fo->obj_offsets[o+j]]);
1581 }
1582 }
1583 }
1584
1585 /* free the memory in ip2fo.
1586 At debuglog 4, su (or NULL) will be used to show the matching
1587 (or non matching) with ip2fo. */
clearIPtoFunOrObjCompleter(const Supp * su,IPtoFunOrObjCompleter * ip2fo)1588 static void clearIPtoFunOrObjCompleter ( const Supp *su,
1589 IPtoFunOrObjCompleter* ip2fo)
1590 {
1591 if (DEBUG_ERRORMGR || VG_(debugLog_getLevel)() >= 4) {
1592 if (su) {
1593 HChar *filename = *(HChar**) VG_(indexXA)(VG_(clo_suppressions),
1594 su->clo_suppressions_i);
1595 VG_(dmsg)("errormgr matching end suppression %s %s:%d matched:\n",
1596 su->sname,
1597 filename,
1598 su->sname_lineno);
1599 } else
1600 VG_(dmsg)("errormgr matching end no suppression matched:\n");
1601 VG_(pp_StackTrace) (ip2fo->ips, ip2fo->n_ips);
1602 pp_ip2fo(ip2fo);
1603 }
1604 if (ip2fo->n_offsets_per_ip) VG_(free)(ip2fo->n_offsets_per_ip);
1605 if (ip2fo->fun_offsets) VG_(free)(ip2fo->fun_offsets);
1606 if (ip2fo->obj_offsets) VG_(free)(ip2fo->obj_offsets);
1607 if (ip2fo->names) VG_(free)(ip2fo->names);
1608 }
1609
1610 /* Grow ip2fo->names to ensure we have NEEDED characters available
1611 in ip2fo->names and returns a pointer to the first free char. */
grow_names(IPtoFunOrObjCompleter * ip2fo,SizeT needed)1612 static HChar* grow_names(IPtoFunOrObjCompleter* ip2fo, SizeT needed)
1613 {
1614 if (ip2fo->names_szB
1615 < ip2fo->names_free + needed) {
1616 if (needed < ERRTXT_LEN) needed = ERRTXT_LEN;
1617
1618 ip2fo->names
1619 = VG_(realloc)("foc_names",
1620 ip2fo->names,
1621 ip2fo->names_szB + needed);
1622 ip2fo->names_szB += needed;
1623 }
1624 return ip2fo->names + ip2fo->names_free;
1625 }
1626
1627 /* foComplete returns the function name or object name for ixInput.
1628 If needFun, returns the function name for this input
1629 else returns the object name for this input.
1630 The function name or object name will be computed and added in
1631 names if not yet done. */
foComplete(IPtoFunOrObjCompleter * ip2fo,Int ixInput,Bool needFun)1632 static HChar* foComplete(IPtoFunOrObjCompleter* ip2fo,
1633 Int ixInput, Bool needFun)
1634 {
1635 vg_assert (ixInput < ip2fo->n_expanded);
1636 vg_assert (VG_(clo_read_inline_info) || ixInput < ip2fo->n_ips);
1637
1638 // ptr to the offset array for function offsets (if needFun)
1639 // or object offsets (if !needFun).
1640 Int** offsets;
1641 if (needFun)
1642 offsets = &ip2fo->fun_offsets;
1643 else
1644 offsets = &ip2fo->obj_offsets;
1645
1646 // Complete Fun name or Obj name for IP if not yet done.
1647 if ((*offsets)[ixInput] == -1) {
1648 const HChar* caller;
1649
1650 (*offsets)[ixInput] = ip2fo->names_free;
1651 if (DEBUG_ERRORMGR) VG_(printf)("marking %s ixInput %d offset %d\n",
1652 needFun ? "fun" : "obj",
1653 ixInput, ip2fo->names_free);
1654 if (needFun) {
1655 // With inline info, fn names must have been completed already.
1656 vg_assert (!VG_(clo_read_inline_info));
1657 /* Get the function name into 'caller_name', or "???"
1658 if unknown. */
1659 // Nb: C++-mangled names are used in suppressions. Do, though,
1660 // Z-demangle them, since otherwise it's possible to wind
1661 // up comparing "malloc" in the suppression against
1662 // "_vgrZU_libcZdsoZa_malloc" in the backtrace, and the
1663 // two of them need to be made to match.
1664 if (!VG_(get_fnname_no_cxx_demangle)(ip2fo->ips[ixInput],
1665 &caller,
1666 NULL))
1667 caller = "???";
1668 } else {
1669 /* Get the object name into 'caller_name', or "???"
1670 if unknown. */
1671 UWord i;
1672 UWord last_expand_pos_ips = 0;
1673 UWord pos_ips;
1674
1675 /* First get the pos in ips corresponding to ixInput */
1676 for (pos_ips = 0; pos_ips < ip2fo->n_expanded; pos_ips++) {
1677 last_expand_pos_ips += ip2fo->n_offsets_per_ip[pos_ips];
1678 if (ixInput < last_expand_pos_ips)
1679 break;
1680 }
1681 /* pos_ips is the position in ips corresponding to ixInput.
1682 last_expand_pos_ips is the last offset in fun/obj where
1683 ips[pos_ips] has been expanded. */
1684
1685 if (!VG_(get_objname)(ip2fo->ips[pos_ips], &caller))
1686 caller = "???";
1687
1688 // Have all inlined calls pointing at this object name
1689 for (i = last_expand_pos_ips - ip2fo->n_offsets_per_ip[pos_ips] + 1;
1690 i < last_expand_pos_ips;
1691 i++) {
1692 ip2fo->obj_offsets[i] = ip2fo->names_free;
1693 if (DEBUG_ERRORMGR)
1694 VG_(printf) (" set obj_offset %lu to %d\n",
1695 i, ip2fo->names_free);
1696 }
1697 }
1698 SizeT caller_len = VG_(strlen)(caller);
1699 HChar* caller_name = grow_names(ip2fo, caller_len + 1);
1700 VG_(strcpy)(caller_name, caller);
1701 ip2fo->names_free += caller_len + 1;
1702 if (DEBUG_ERRORMGR) pp_ip2fo(ip2fo);
1703 }
1704
1705 return ip2fo->names + (*offsets)[ixInput];
1706 }
1707
1708 // Grow fun and obj _offsets arrays to have at least n_req elements.
1709 // Ensure n_offsets_per_ip is allocated.
grow_offsets(IPtoFunOrObjCompleter * ip2fo,Int n_req)1710 static void grow_offsets(IPtoFunOrObjCompleter* ip2fo, Int n_req)
1711 {
1712 Int i;
1713
1714 // n_offsets_per_ip must always have the size of the ips array
1715 if (ip2fo->n_offsets_per_ip == NULL) {
1716 ip2fo->n_offsets_per_ip = VG_(malloc)("grow_offsets",
1717 ip2fo->n_ips * sizeof(Int));
1718 for (i = 0; i < ip2fo->n_ips; i++)
1719 ip2fo->n_offsets_per_ip[i] = 0;
1720 }
1721
1722 if (ip2fo->sz_offsets >= n_req)
1723 return;
1724
1725 // Avoid too much re-allocation by allocating at least ip2fo->n_ips
1726 // elements and at least a few more elements than the current size.
1727 if (n_req < ip2fo->n_ips)
1728 n_req = ip2fo->n_ips;
1729 if (n_req < ip2fo->sz_offsets + 5)
1730 n_req = ip2fo->sz_offsets + 5;
1731
1732 ip2fo->fun_offsets = VG_(realloc)("grow_offsets", ip2fo->fun_offsets,
1733 n_req * sizeof(Int));
1734 for (i = ip2fo->sz_offsets; i < n_req; i++)
1735 ip2fo->fun_offsets[i] = -1;
1736
1737 ip2fo->obj_offsets = VG_(realloc)("grow_offsets", ip2fo->obj_offsets,
1738 n_req * sizeof(Int));
1739 for (i = ip2fo->sz_offsets; i < n_req; i++)
1740 ip2fo->obj_offsets[i] = -1;
1741
1742 ip2fo->sz_offsets = n_req;
1743 }
1744
1745 // Expands more IPs from ip2fo->ips.
expandInput(IPtoFunOrObjCompleter * ip2fo,UWord ixInput)1746 static void expandInput (IPtoFunOrObjCompleter* ip2fo, UWord ixInput )
1747 {
1748 while (ip2fo->n_ips_expanded < ip2fo->n_ips
1749 && ip2fo->n_expanded <= ixInput) {
1750 if (VG_(clo_read_inline_info)) {
1751 // Expand one more IP in one or more calls.
1752 const Addr IP = ip2fo->ips[ip2fo->n_ips_expanded];
1753 InlIPCursor *iipc;
1754
1755 iipc = VG_(new_IIPC)(IP);
1756 // The only thing we really need is the nr of inlined fn calls
1757 // corresponding to the IP we will expand.
1758 // However, computing this is mostly the same as finding
1759 // the function name. So, let's directly complete the function name.
1760 do {
1761 const HChar *caller;
1762 grow_offsets(ip2fo, ip2fo->n_expanded+1);
1763 ip2fo->fun_offsets[ip2fo->n_expanded] = ip2fo->names_free;
1764 if (!VG_(get_fnname_no_cxx_demangle)(IP,
1765 &caller,
1766 iipc))
1767 caller = "???";
1768 SizeT caller_len = VG_(strlen)(caller);
1769 HChar* caller_name = grow_names(ip2fo, caller_len + 1);
1770 VG_(strcpy)(caller_name, caller);
1771 ip2fo->names_free += caller_len + 1;
1772 ip2fo->n_expanded++;
1773 ip2fo->n_offsets_per_ip[ip2fo->n_ips_expanded]++;
1774 } while (VG_(next_IIPC)(iipc));
1775 ip2fo->n_ips_expanded++;
1776 VG_(delete_IIPC) (iipc);
1777 } else {
1778 // Without inlined fn call info, expansion simply
1779 // consists in allocating enough elements in (fun|obj)_offsets.
1780 // The function or object names themselves will be completed
1781 // when requested.
1782 Int i;
1783 grow_offsets(ip2fo, ip2fo->n_ips);
1784 ip2fo->n_ips_expanded = ip2fo->n_ips;
1785 ip2fo->n_expanded = ip2fo->n_ips;
1786 for (i = 0; i < ip2fo->n_ips; i++)
1787 ip2fo->n_offsets_per_ip[i] = 1;
1788 }
1789 }
1790 }
1791
haveInputInpC(void * inputCompleter,UWord ixInput)1792 static Bool haveInputInpC (void* inputCompleter, UWord ixInput )
1793 {
1794 IPtoFunOrObjCompleter* ip2fo = inputCompleter;
1795 expandInput(ip2fo, ixInput);
1796 return ixInput < ip2fo->n_expanded;
1797 }
1798
supp_pattEQinp(const void * supplocV,const void * addrV,void * inputCompleter,UWord ixInput)1799 static Bool supp_pattEQinp ( const void* supplocV, const void* addrV,
1800 void* inputCompleter, UWord ixInput )
1801 {
1802 const SuppLoc* supploc = supplocV; /* PATTERN */
1803 IPtoFunOrObjCompleter* ip2fo = inputCompleter;
1804 HChar* funobj_name; // Fun or Obj name.
1805 Bool ret;
1806
1807 expandInput(ip2fo, ixInput);
1808 vg_assert(ixInput < ip2fo->n_expanded);
1809
1810 /* So, does this IP address match this suppression-line? */
1811 switch (supploc->ty) {
1812 case DotDotDot:
1813 /* supp_pattEQinp is a callback from VG_(generic_match). As
1814 per the spec thereof (see include/pub_tool_seqmatch.h), we
1815 should never get called with a pattern value for which the
1816 _IsStar or _IsQuery function would return True. Hence
1817 this can't happen. */
1818 vg_assert(0);
1819 case ObjName:
1820 funobj_name = foComplete(ip2fo, ixInput, False /*needFun*/);
1821 break;
1822 case FunName:
1823 funobj_name = foComplete(ip2fo, ixInput, True /*needFun*/);
1824 break;
1825 default:
1826 vg_assert(0);
1827 }
1828
1829 /* So now we have the function or object name in funobj_name, and
1830 the pattern (at the character level) to match against is in
1831 supploc->name. Hence (and leading to a re-entrant call of
1832 VG_(generic_match) if there is a wildcard character): */
1833 if (supploc->name_is_simple_str)
1834 ret = VG_(strcmp) (supploc->name, funobj_name) == 0;
1835 else
1836 ret = VG_(string_match)(supploc->name, funobj_name);
1837 if (DEBUG_ERRORMGR)
1838 VG_(printf) ("supp_pattEQinp %s patt %s ixUnput %lu value:%s match:%s\n",
1839 supploc->ty == FunName ? "fun" : "obj",
1840 supploc->name, ixInput, funobj_name,
1841 ret ? "yes" : "no");
1842 return ret;
1843 }
1844
1845 /////////////////////////////////////////////////////
1846
supp_matches_callers(IPtoFunOrObjCompleter * ip2fo,const Supp * su)1847 static Bool supp_matches_callers(IPtoFunOrObjCompleter* ip2fo,
1848 const Supp* su)
1849 {
1850 /* Unwrap the args and set up the correct parameterisation of
1851 VG_(generic_match), using supploc_IsStar, supploc_IsQuery and
1852 supp_pattEQinp. */
1853 /* note, StackTrace ip2fo->ips === Addr* */
1854 SuppLoc* supps = su->callers;
1855 UWord n_supps = su->n_callers;
1856 UWord szbPatt = sizeof(SuppLoc);
1857 Bool matchAll = False; /* we just want to match a prefix */
1858 if (DEBUG_ERRORMGR) {
1859 HChar *filename = *(HChar**) VG_(indexXA)(VG_(clo_suppressions),
1860 su->clo_suppressions_i);
1861 VG_(dmsg)(" errormgr Checking match with %s %s:%d\n",
1862 su->sname,
1863 filename,
1864 su->sname_lineno);
1865 }
1866 return
1867 VG_(generic_match)(
1868 matchAll,
1869 /*PATT*/supps, szbPatt, n_supps, 0/*initial ixPatt*/,
1870 /*INPUT*/
1871 NULL, 0, 0, /* input/szbInput/nInput 0, as using an inputCompleter */
1872 0/*initial ixInput*/,
1873 supploc_IsStar, supploc_IsQuery, supp_pattEQinp,
1874 ip2fo, haveInputInpC
1875 );
1876 }
1877
1878 /////////////////////////////////////////////////////
1879
1880 static
supp_matches_error(const Supp * su,const Error * err)1881 Bool supp_matches_error(const Supp* su, const Error* err)
1882 {
1883 switch (su->skind) {
1884 //(example code, see comment on CoreSuppKind above)
1885 //case ThreadSupp:
1886 // return (err->ekind == ThreadErr);
1887 default:
1888 if (VG_(needs).tool_errors) {
1889 return VG_TDICT_CALL(tool_error_matches_suppression, err, su);
1890 } else {
1891 VG_(printf)(
1892 "\nUnhandled suppression type: %u. VG_(needs).tool_errors\n"
1893 "probably needs to be set.\n",
1894 (UInt)err->ekind);
1895 VG_(core_panic)("unhandled suppression type");
1896 }
1897 }
1898 }
1899
1900 /////////////////////////////////////////////////////
1901
1902 /* Does an error context match a suppression? ie is this a suppressible
1903 error? If so, return a pointer to the Supp record, otherwise NULL.
1904 Tries to minimise the number of symbol searches since they are expensive.
1905 */
is_suppressible_error(const Error * err)1906 static Supp* is_suppressible_error ( const Error* err )
1907 {
1908 Supp* su;
1909 Supp* su_prev;
1910
1911 IPtoFunOrObjCompleter ip2fo;
1912 /* Conceptually, ip2fo contains an array of function names and an array of
1913 object names, corresponding to the array of IP of err->where.
1914 These names are just computed 'on demand' (so once maximum),
1915 then stored (efficiently, avoiding too many allocs) in ip2fo to be
1916 re-usable for the matching of the same IP with the next suppression
1917 pattern.
1918
1919 VG_(generic_match) gets this 'IP to Fun or Obj name completer' as one
1920 of its arguments. It will then pass it to the function
1921 supp_pattEQinp which will then lazily complete the IP function name or
1922 object name inside ip2fo. Next time the fun or obj name for the same
1923 IP is needed (i.e. for the matching with the next suppr pattern), then
1924 the fun or obj name will not be searched again in the debug info. */
1925
1926 /* stats gathering */
1927 em_supplist_searches++;
1928
1929 /* Prepare the lazy input completer. */
1930 ip2fo.ips = VG_(get_ExeContext_StackTrace)(err->where);
1931 ip2fo.n_ips = VG_(get_ExeContext_n_ips)(err->where);
1932 ip2fo.n_ips_expanded = 0;
1933 ip2fo.n_expanded = 0;
1934 ip2fo.sz_offsets = 0;
1935 ip2fo.n_offsets_per_ip = NULL;
1936 ip2fo.fun_offsets = NULL;
1937 ip2fo.obj_offsets = NULL;
1938 ip2fo.names = NULL;
1939 ip2fo.names_szB = 0;
1940 ip2fo.names_free = 0;
1941
1942 /* See if the error context matches any suppression. */
1943 if (DEBUG_ERRORMGR || VG_(debugLog_getLevel)() >= 4)
1944 VG_(dmsg)("errormgr matching begin\n");
1945 su_prev = NULL;
1946 for (su = suppressions; su != NULL; su = su->next) {
1947 em_supplist_cmps++;
1948 if (supp_matches_error(su, err)
1949 && supp_matches_callers(&ip2fo, su)) {
1950 /* got a match. */
1951 /* Inform the tool that err is suppressed by su. */
1952 (void)VG_TDICT_CALL(tool_update_extra_suppression_use, err, su);
1953 /* Move this entry to the head of the list
1954 in the hope of making future searches cheaper. */
1955 if (su_prev) {
1956 vg_assert(su_prev->next == su);
1957 su_prev->next = su->next;
1958 su->next = suppressions;
1959 suppressions = su;
1960 }
1961 clearIPtoFunOrObjCompleter(su, &ip2fo);
1962 return su;
1963 }
1964 su_prev = su;
1965 }
1966 clearIPtoFunOrObjCompleter(NULL, &ip2fo);
1967 return NULL; /* no matches */
1968 }
1969
1970 /* Show accumulated error-list and suppression-list search stats.
1971 */
VG_(print_errormgr_stats)1972 void VG_(print_errormgr_stats) ( void )
1973 {
1974 VG_(dmsg)(
1975 " errormgr: %'lu supplist searches, %'lu comparisons during search\n",
1976 em_supplist_searches, em_supplist_cmps
1977 );
1978 VG_(dmsg)(
1979 " errormgr: %'lu errlist searches, %'lu comparisons during search\n",
1980 em_errlist_searches, em_errlist_cmps
1981 );
1982 }
1983
1984 /*--------------------------------------------------------------------*/
1985 /*--- end ---*/
1986 /*--------------------------------------------------------------------*/
1987