1 | /*
|
---|
2 | * MemDebug.cpp
|
---|
3 | *
|
---|
4 | * Created on: Apr 28, 2010
|
---|
5 | * Author: crueger
|
---|
6 | */
|
---|
7 |
|
---|
8 | #include <iostream>
|
---|
9 | #include <cstdlib>
|
---|
10 | #include <cstring>
|
---|
11 | #include <boost/thread.hpp>
|
---|
12 |
|
---|
13 | #ifdef __GNUC__
|
---|
14 | #include <execinfo.h>
|
---|
15 | #include <cxxabi.h>
|
---|
16 | #endif
|
---|
17 |
|
---|
18 | using namespace std;
|
---|
19 |
|
---|
20 | // we need our own low level mutexex, since we cannot assure the time of construction and destruction
|
---|
21 | // otherwise
|
---|
22 | #if defined(unix) || defined(__unix)
|
---|
23 |
|
---|
24 | #include <pthread.h>
|
---|
25 | #include <cassert>
|
---|
26 | #define mutex_t pthread_mutex_t
|
---|
27 | #define mutex_init PTHREAD_MUTEX_INITIALIZER
|
---|
28 | #define mutex_lock(mtx) \
|
---|
29 | do{\
|
---|
30 | int res = pthread_mutex_lock(&(mtx));\
|
---|
31 | assert(!res && "Could not lock mutex!");\
|
---|
32 | }while(0)
|
---|
33 |
|
---|
34 | #define mutex_unlock(mtx) \
|
---|
35 | do{\
|
---|
36 | int res = pthread_mutex_unlock(&(mtx));\
|
---|
37 | assert(!res && "Could not unlock mutex!");\
|
---|
38 | }while(0)
|
---|
39 |
|
---|
40 | #else
|
---|
41 | # error "No thread structure defined for this plattform..."
|
---|
42 | #endif
|
---|
43 |
|
---|
44 | #ifndef NDBEGUG
|
---|
45 | #ifndef NO_MEMDEBUG
|
---|
46 |
|
---|
47 | namespace Memory {
|
---|
48 |
|
---|
49 | // This struct is added before each memory chunk
|
---|
50 | // and contains tracking information. Anything used
|
---|
51 | // to track memory cannot use any dynamic memory, so
|
---|
52 | // we have to resort to classic C-idioms here.
|
---|
53 | // This struct also contains pointers to the next
|
---|
54 | // an previous chunks to allow fast traversion of
|
---|
55 | // all allocated memory blocks
|
---|
56 | struct entry_t {
|
---|
57 | // we seperate the tracking info from the rest
|
---|
58 | // A checksum will be calculated for this part of
|
---|
59 | // the struct, so the information in here should
|
---|
60 | // not change during the lifetime of the memory
|
---|
61 | struct info_t {
|
---|
62 | enum {length = 64};
|
---|
63 | char file[length+1];
|
---|
64 | int line;
|
---|
65 | #ifdef __GNUC__ // function tracking only works with GCC
|
---|
66 | // function names can get looooong
|
---|
67 | enum {length2 = 256};
|
---|
68 | char function[length2+1];
|
---|
69 | #endif
|
---|
70 | size_t nbytes;
|
---|
71 | bool isUsed;
|
---|
72 | void *location;
|
---|
73 | } info;
|
---|
74 | bool isIgnored;
|
---|
75 | char checksum;
|
---|
76 | entry_t *prev;
|
---|
77 | entry_t *next;
|
---|
78 | };
|
---|
79 |
|
---|
80 |
|
---|
81 | mutex_t memorylock = mutex_init;
|
---|
82 |
|
---|
83 | // start and end of the doubly-linked list
|
---|
84 | entry_t *begin=0;
|
---|
85 | entry_t *end=0;
|
---|
86 |
|
---|
87 | // current amount of allocated memory
|
---|
88 | size_t state = 0;
|
---|
89 | // maximum amount of allocated memory
|
---|
90 | size_t max = 0;
|
---|
91 | // number of allocations that have been done so far
|
---|
92 | unsigned int allocs = 0;
|
---|
93 |
|
---|
94 |
|
---|
95 | // this sets the alignment of the returned memory block
|
---|
96 | // malloc guarantees an alignment at the 8 byte border,
|
---|
97 | // so we just do the same
|
---|
98 | const int alignment = 8;
|
---|
99 |
|
---|
100 | // calculates a simple checksum for the info block
|
---|
101 | // the checksum is used to find memory corruptions
|
---|
102 | inline char calcChecksum(entry_t::info_t *info){
|
---|
103 | char *buffer = (char*)info;
|
---|
104 | char checksum =0;
|
---|
105 | for(size_t i=0;i<sizeof(entry_t::info_t);i++){
|
---|
106 | checksum+=buffer[i];
|
---|
107 | }
|
---|
108 | return checksum;
|
---|
109 | }
|
---|
110 |
|
---|
111 | // gets the next alignet point which is greater than nbytes
|
---|
112 | // this function is only called a fixed number of times, so
|
---|
113 | // there is no need to optimize
|
---|
114 | inline size_t doAlign(size_t nbytes){
|
---|
115 | int nonaligned = nbytes % alignment;
|
---|
116 | if(nonaligned) {
|
---|
117 | return(nbytes - nonaligned + alignment);
|
---|
118 | }
|
---|
119 | else{
|
---|
120 | return nbytes;
|
---|
121 | }
|
---|
122 | }
|
---|
123 |
|
---|
124 | // Output some state information
|
---|
125 | void getState(){
|
---|
126 | cout << "Maximum allocated Memory: " << max << " bytes" << endl;
|
---|
127 | cout << "Currently allocated Memory: " << state <<" bytes" << endl;
|
---|
128 | cout << allocs << " allocated chunks total" << endl;
|
---|
129 |
|
---|
130 | // simple traversal of the chunk list
|
---|
131 | for(entry_t *pos=begin;pos;pos=pos->next){
|
---|
132 | cout << "\nChunk of " << pos->info.nbytes << " bytes" << " still available" << endl;
|
---|
133 | #ifdef __GNUC__
|
---|
134 | cout << "Chunk reserved at: " << pos->info.function
|
---|
135 | << " (" << pos->info.file << ":" << pos->info.line << ")" << endl;
|
---|
136 | #else
|
---|
137 | cout << "Chunk reserved at: " << pos->info.file << ":" << pos->info.line << endl;
|
---|
138 | #endif
|
---|
139 | }
|
---|
140 | }
|
---|
141 |
|
---|
142 | // Adds an entry to the linked list
|
---|
143 | void addEntry(entry_t *entry){
|
---|
144 | // check if the entry is already in the list
|
---|
145 | if(!entry->isIgnored)
|
---|
146 | return;
|
---|
147 |
|
---|
148 | mutex_lock(Memory::memorylock);
|
---|
149 |
|
---|
150 | entry->next=0; // the created block is last in the list
|
---|
151 | entry->prev=Memory::end; // the created block is last in the list
|
---|
152 | if(!Memory::begin){
|
---|
153 | // the list was empty... start a new one
|
---|
154 | Memory::begin=entry;
|
---|
155 | }
|
---|
156 | else {
|
---|
157 | // other blocks present... we can add to the last one
|
---|
158 | Memory::end->next=entry;
|
---|
159 | }
|
---|
160 | Memory::end=entry;
|
---|
161 |
|
---|
162 | // update some global info
|
---|
163 | Memory::state += entry->info.nbytes;
|
---|
164 | if(Memory::state>Memory::max){
|
---|
165 | Memory::max = Memory::state;
|
---|
166 | }
|
---|
167 | ++Memory::allocs;
|
---|
168 | // done with the list... it is safe to unlock now
|
---|
169 | mutex_unlock(Memory::memorylock);
|
---|
170 | entry->isIgnored = false;
|
---|
171 | }
|
---|
172 |
|
---|
173 | // Deletes an entry from the linked list
|
---|
174 | void deleteEntry(entry_t *entry){
|
---|
175 | if(entry->isIgnored)
|
---|
176 | return;
|
---|
177 |
|
---|
178 | mutex_lock(memorylock);
|
---|
179 | if(entry->prev){
|
---|
180 | entry->prev->next = entry->next;
|
---|
181 | }
|
---|
182 | else{
|
---|
183 | // this node was the beginning of the list
|
---|
184 | begin = entry->next;
|
---|
185 | }
|
---|
186 |
|
---|
187 | if(entry->next){
|
---|
188 | entry->next->prev = entry->prev;
|
---|
189 | }
|
---|
190 | else{
|
---|
191 | // this node was the end of the list
|
---|
192 | end = entry->prev;
|
---|
193 | }
|
---|
194 | Memory::state -= entry->info.nbytes;
|
---|
195 | mutex_unlock(memorylock);
|
---|
196 | entry->isIgnored = true;
|
---|
197 |
|
---|
198 | }
|
---|
199 |
|
---|
200 | void _ignore(void *ptr){
|
---|
201 | // just deletes the node from the list, but leaves the info intact
|
---|
202 | static const size_t entrySpace = Memory::doAlign(sizeof(Memory::entry_t));
|
---|
203 | entry_t *entry = (Memory::entry_t*)((char*)ptr-entrySpace);
|
---|
204 | deleteEntry(entry);
|
---|
205 | }
|
---|
206 |
|
---|
207 | #ifdef __GNUC__
|
---|
208 | // this function let's us find the caller's name
|
---|
209 | char* getCaller(){
|
---|
210 | // stack looks like this:
|
---|
211 | // getCaller();
|
---|
212 | // operator new();
|
---|
213 | // function_we_are_looking_for(); <-
|
---|
214 | const size_t max_depth = 3;
|
---|
215 | void* stack_addrs[max_depth];
|
---|
216 | size_t stack_depth;
|
---|
217 | char **stack_strings=0;
|
---|
218 | const char *func_name=0;
|
---|
219 | const char *toplevel = "Global scope";
|
---|
220 | char *retval=0;
|
---|
221 |
|
---|
222 | // get the backtrace, depth three
|
---|
223 | stack_depth = backtrace(stack_addrs,max_depth);
|
---|
224 | stack_strings = backtrace_symbols(stack_addrs, stack_depth);
|
---|
225 | // used later for demangling
|
---|
226 | // reserved here, so we can free it unconditionally
|
---|
227 | char *dm_function = static_cast<char*>(malloc(entry_t::info_t::length2));
|
---|
228 | if(!dm_function){
|
---|
229 | // malloc failed... we are out of luck
|
---|
230 | throw std::bad_alloc();
|
---|
231 | }
|
---|
232 |
|
---|
233 | // see if we found our function name
|
---|
234 | if(stack_depth==max_depth){
|
---|
235 | // find the mangled function name
|
---|
236 | char *begin = stack_strings[max_depth-1];
|
---|
237 | // function name starts with a (
|
---|
238 | while(*begin && *begin!='(') ++begin;
|
---|
239 | char *end=begin;
|
---|
240 | while(*end && *end!='+') ++end;
|
---|
241 |
|
---|
242 | // see if we found our function name
|
---|
243 | if(*begin && *end){
|
---|
244 | *begin++ = 0;
|
---|
245 | *end = 0;
|
---|
246 | // use the C++ demangler
|
---|
247 |
|
---|
248 | size_t sz = entry_t::info_t::length2;
|
---|
249 | int status;
|
---|
250 | char *func_ret = abi::__cxa_demangle(begin, dm_function, &sz, &status);
|
---|
251 | if(func_ret){
|
---|
252 | // abi might have realloced...
|
---|
253 | dm_function = func_ret;
|
---|
254 | func_name = dm_function;
|
---|
255 | }
|
---|
256 | else{
|
---|
257 | // demangling failed... get the function name without demangling
|
---|
258 | func_name = begin;
|
---|
259 | }
|
---|
260 | }
|
---|
261 | else{
|
---|
262 | // function name not found... get the whole line
|
---|
263 | func_name = stack_strings[max_depth-1];
|
---|
264 | }
|
---|
265 |
|
---|
266 | }
|
---|
267 | else{
|
---|
268 | func_name = toplevel;
|
---|
269 | }
|
---|
270 |
|
---|
271 | // now we copy the desired function name
|
---|
272 | if((retval = static_cast<char*>(malloc(strlen(func_name)+1)))){
|
---|
273 | // we know that the string will fit, so strcpy is safe here
|
---|
274 | strcpy(retval,func_name);
|
---|
275 | }
|
---|
276 | else{
|
---|
277 | free(stack_strings); // malloc()ed by backtrace_symbols
|
---|
278 | free(dm_function);
|
---|
279 | // uh-uh ... seems we are out of luck for allocations now
|
---|
280 | throw std::bad_alloc();
|
---|
281 | }
|
---|
282 | free(dm_function);
|
---|
283 | free(stack_strings); // malloc()ed by backtrace_symbols
|
---|
284 | return retval;
|
---|
285 | }
|
---|
286 | #endif
|
---|
287 | }
|
---|
288 |
|
---|
289 | #ifdef __GNUC__
|
---|
290 |
|
---|
291 | void *operator new(size_t nbytes,const char* file, int line, const char* func) throw(std::bad_alloc) {
|
---|
292 |
|
---|
293 | // to avoid allocations of 0 bytes if someone screws up
|
---|
294 | // allocation with 0 byte size are undefined behavior, so we are
|
---|
295 | // free to handle it this way
|
---|
296 | if(!nbytes) {
|
---|
297 | nbytes = 1;
|
---|
298 | }
|
---|
299 |
|
---|
300 | // get the size of the entry, including alignment
|
---|
301 | static const size_t entrySpace = Memory::doAlign(sizeof(Memory::entry_t));
|
---|
302 |
|
---|
303 | void *res;
|
---|
304 | if(!(res=malloc(entrySpace + nbytes))){
|
---|
305 | // new must throw, when space is low
|
---|
306 | throw std::bad_alloc();
|
---|
307 | }
|
---|
308 |
|
---|
309 | // build the entry in front of the space
|
---|
310 | Memory::entry_t *entry = (Memory::entry_t*) res;
|
---|
311 | memset(res,0,entrySpace);
|
---|
312 | entry->info.nbytes = nbytes;
|
---|
313 | entry->info.isUsed = true;
|
---|
314 | strncpy(entry->info.file,file,Memory::entry_t::info_t::length);
|
---|
315 | entry->info.file[Memory::entry_t::info_t::length] = '\0';
|
---|
316 | entry->info.line=line;
|
---|
317 | strncpy(entry->info.function,func,Memory::entry_t::info_t::length2);
|
---|
318 | entry->info.function[Memory::entry_t::info_t::length2] = '\0';
|
---|
319 | // the space starts behind the info
|
---|
320 | entry->info.location = (char*)res + entrySpace;
|
---|
321 |
|
---|
322 | // mark the block as not in the list (will be changed by addEntry)
|
---|
323 | entry->isIgnored = true;
|
---|
324 | Memory::addEntry(entry);
|
---|
325 |
|
---|
326 | // get the checksum...
|
---|
327 | entry->checksum = Memory::calcChecksum(&entry->info);
|
---|
328 |
|
---|
329 | // ok, space is prepared... the user can have it.
|
---|
330 | // the rest (constructor, deleting when something is thrown etc)
|
---|
331 | // is handled automatically
|
---|
332 | return entry->info.location;
|
---|
333 | }
|
---|
334 |
|
---|
335 | #else
|
---|
336 |
|
---|
337 | void *operator new(size_t nbytes,const char* file, int line) throw(std::bad_alloc) {
|
---|
338 |
|
---|
339 | // to avoid allocations of 0 bytes if someone screws up
|
---|
340 | // allocation with 0 byte size are undefined behavior, so we are
|
---|
341 | // free to handle it this way
|
---|
342 | if(!nbytes) {
|
---|
343 | nbytes = 1;
|
---|
344 | }
|
---|
345 |
|
---|
346 | // get the size of the entry, including alignment
|
---|
347 | static const size_t entrySpace = Memory::doAlign(sizeof(Memory::entry_t));
|
---|
348 |
|
---|
349 | void *res;
|
---|
350 | if(!(res=malloc(entrySpace + nbytes))){
|
---|
351 | // new must throw, when space is low
|
---|
352 | throw std::bad_alloc();
|
---|
353 | }
|
---|
354 |
|
---|
355 | // build the entry in front of the space
|
---|
356 | Memory::entry_t *entry = (Memory::entry_t*) res;
|
---|
357 | memset(res,0,entrySpace);
|
---|
358 | entry->info.nbytes = nbytes;
|
---|
359 | entry->info.isUsed = true;
|
---|
360 | strncpy(entry->info.file,file,Memory::entry_t::info_t::length);
|
---|
361 | entry->info.file[Memory::entry_t::info_t::length] = '\0';
|
---|
362 | entry->info.line=line;
|
---|
363 | // the space starts behind the info
|
---|
364 | entry->info.location = (char*)res + entrySpace;
|
---|
365 |
|
---|
366 | // mark the block as not in the list (will be changed by addEntry)
|
---|
367 | entry->isIgnored = true;
|
---|
368 | Memory::addEntry(entry);
|
---|
369 |
|
---|
370 | // get the checksum...
|
---|
371 | entry->checksum = Memory::calcChecksum(&entry->info);
|
---|
372 | // this will be set to true, when the block is removed from
|
---|
373 | // the list for any reason
|
---|
374 | entry->isIgnored = false;
|
---|
375 |
|
---|
376 | // ok, space is prepared... the user can have it.
|
---|
377 | // the rest (constructor, deleting when something is thrown etc)
|
---|
378 | // is handled automatically
|
---|
379 | return entry->info.location;
|
---|
380 | }
|
---|
381 |
|
---|
382 | #endif
|
---|
383 |
|
---|
384 | void *operator new(size_t nbytes) throw(std::bad_alloc) {
|
---|
385 | // Just forward to the other operator, when we do not know from
|
---|
386 | // where the allocation came
|
---|
387 | #ifdef __GNUC__
|
---|
388 | // this might throw bad_alloc
|
---|
389 | char *caller = Memory::getCaller();
|
---|
390 | void* retval = 0;
|
---|
391 |
|
---|
392 | // if this throws, we have to clean up the caller anyway
|
---|
393 | try{
|
---|
394 | retval = operator new(nbytes,"Unknown",0,caller);
|
---|
395 | }
|
---|
396 | catch(...)
|
---|
397 | {
|
---|
398 | free(caller); // malloc()ed by Memory::getCaller();
|
---|
399 | throw;
|
---|
400 | }
|
---|
401 | free(caller); // malloc()ed by Memory::getCaller();
|
---|
402 | return retval;
|
---|
403 | #else
|
---|
404 | return operator new(nbytes,"Unknown",0);
|
---|
405 | #endif
|
---|
406 | }
|
---|
407 |
|
---|
408 | #ifdef __GNUC__
|
---|
409 |
|
---|
410 | void *operator new[] (size_t nbytes,const char* file, int line, const char* func) throw(std::bad_alloc) {
|
---|
411 | // The difference between new and new[] is just for compiler bookkeeping.
|
---|
412 | return operator new(nbytes,file,line,func);
|
---|
413 | }
|
---|
414 |
|
---|
415 | #else
|
---|
416 |
|
---|
417 | void *operator new[] (size_t nbytes,const char* file, int line) throw(std::bad_alloc) {
|
---|
418 | // The difference between new and new[] is just for compiler bookkeeping.
|
---|
419 | return operator new(nbytes,file,line);
|
---|
420 | }
|
---|
421 |
|
---|
422 | #endif
|
---|
423 |
|
---|
424 | void *operator new[] (size_t nbytes) throw(std::bad_alloc) {
|
---|
425 | // Forward again
|
---|
426 | #ifdef __GNUC__
|
---|
427 | // this might throw bad_alloc
|
---|
428 | char *caller = Memory::getCaller();
|
---|
429 | void *retval=0;
|
---|
430 |
|
---|
431 | // if this throws, we have to clean up the caller anyway
|
---|
432 | try{
|
---|
433 | retval = operator new[] (nbytes,"Unknown",0,caller);
|
---|
434 | }
|
---|
435 | catch(...)
|
---|
436 | {
|
---|
437 | free(caller); // malloc()ed by Memory::getCaller();
|
---|
438 | throw;
|
---|
439 | }
|
---|
440 | free(caller); // malloc()ed by Memory::getCaller();
|
---|
441 | return retval;
|
---|
442 | #else
|
---|
443 | return operator new[] (nbytes,"Unknown",0);
|
---|
444 | #endif
|
---|
445 | }
|
---|
446 |
|
---|
447 | void operator delete(void *ptr) throw() {
|
---|
448 | if(!ptr){
|
---|
449 | cerr << "Warning: Deleting NULL pointer" << endl;
|
---|
450 | return;
|
---|
451 | }
|
---|
452 |
|
---|
453 | // get the size for the entry, including alignment
|
---|
454 | static const size_t entrySpace = Memory::doAlign(sizeof(Memory::entry_t));
|
---|
455 |
|
---|
456 | // get the position for the entry from the pointer the user gave us
|
---|
457 | Memory::entry_t *entry = (Memory::entry_t*)((char*)ptr-entrySpace);
|
---|
458 |
|
---|
459 | // let's see if the checksum is still matching
|
---|
460 | if(Memory::calcChecksum(&entry->info)!=entry->checksum){
|
---|
461 | cerr << "Possible memory corruption detected!" << endl;
|
---|
462 | cerr << "Trying to recover allocation information..." << endl;
|
---|
463 | cerr << "Memory was allocated at " << entry->info.file << ":" << entry->info.line << endl;
|
---|
464 | terminate();
|
---|
465 | }
|
---|
466 |
|
---|
467 | // this will destroy the checksum, so double deletes are caught
|
---|
468 | entry->info.isUsed = false;
|
---|
469 | Memory::deleteEntry(entry);
|
---|
470 |
|
---|
471 | // delete the space reserved by malloc
|
---|
472 | free((char*)ptr-entrySpace);
|
---|
473 | }
|
---|
474 |
|
---|
475 | // operator that is called when the constructor throws
|
---|
476 | // do not call manually
|
---|
477 | void operator delete(void *ptr,const char*, int) throw() {
|
---|
478 | operator delete(ptr);
|
---|
479 | }
|
---|
480 |
|
---|
481 | void operator delete[](void *ptr){
|
---|
482 | // again difference between delete and delete[] is just in compiler bookkeeping
|
---|
483 | operator delete(ptr);
|
---|
484 | }
|
---|
485 |
|
---|
486 | // and another operator that can be called when a constructor throws
|
---|
487 | void operator delete[](void *ptr,const char*, int) throw(){
|
---|
488 | operator delete(ptr);
|
---|
489 | }
|
---|
490 | #endif
|
---|
491 | #endif
|
---|