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// --------------------------------------------------------------------------
//
// File
// Name: MemLeakFinder.cpp
// Purpose: Memory leak finder
// Created: 12/1/04
//
// --------------------------------------------------------------------------
#ifndef NDEBUG
#include "Box.h"
#undef malloc
#undef realloc
#undef free
#include <map>
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <set>
bool memleakfinder_global_enable = false;
typedef struct
{
size_t size;
const char *file;
int line;
} MallocBlockInfo;
typedef struct
{
size_t size;
const char *file;
int line;
bool array;
} ObjectInfo;
namespace
{
static std::map<void *, MallocBlockInfo> sMallocBlocks;
static std::map<void *, ObjectInfo> sObjectBlocks;
static bool sTrackMallocInSection = false;
static std::set<void *> sSectionMallocBlocks;
static bool sTrackObjectsInSection = false;
static std::map<void *, ObjectInfo> sSectionObjectBlocks;
static std::set<void *> sNotLeaks;
void *sNotLeaksPre[1024];
int sNotLeaksPreNum = 0;
}
void memleakfinder_malloc_add_block(void *b, size_t size, const char *file, int line)
{
if(b != 0)
{
MallocBlockInfo i;
i.size = size;
i.file = file;
i.line = line;
sMallocBlocks[b] = i;
if(sTrackMallocInSection)
{
sSectionMallocBlocks.insert(b);
}
}
}
void *memleakfinder_malloc(size_t size, const char *file, int line)
{
void *b = ::malloc(size);
if(!memleakfinder_global_enable) return b;
memleakfinder_malloc_add_block(b, size, file, line);
//TRACE4("malloc(), %d, %s, %d, %08x\n", size, file, line, b);
return b;
}
void *memleakfinder_realloc(void *ptr, size_t size)
{
if(!memleakfinder_global_enable)
{
return ::realloc(ptr, size);
}
// Check it's been allocated
std::map<void *, MallocBlockInfo>::iterator i(sMallocBlocks.find(ptr));
if(ptr && i == sMallocBlocks.end())
{
TRACE1("Block %x realloc(), but not in list. Error? Or allocated in startup static objects?\n", ptr);
}
void *b = ::realloc(ptr, size);
if(ptr && i!=sMallocBlocks.end())
{
// Worked?
if(b != 0)
{
// Update map
MallocBlockInfo inf = i->second;
inf.size = size;
sMallocBlocks.erase(i);
sMallocBlocks[b] = inf;
if(sTrackMallocInSection)
{
std::set<void *>::iterator si(sSectionMallocBlocks.find(ptr));
if(si != sSectionMallocBlocks.end()) sSectionMallocBlocks.erase(si);
sSectionMallocBlocks.insert(b);
}
}
}
else
{
memleakfinder_malloc_add_block(b, size, "FOUND-IN-REALLOC", 0);
}
//TRACE3("realloc(), %d, %08x->%08x\n", size, ptr, b);
return b;
}
void memleakfinder_free(void *ptr)
{
if(memleakfinder_global_enable)
{
// Check it's been allocated
std::map<void *, MallocBlockInfo>::iterator i(sMallocBlocks.find(ptr));
if(i != sMallocBlocks.end())
{
sMallocBlocks.erase(i);
}
else
{
TRACE1("Block %x freed, but not known. Error? Or allocated in startup static allocation?\n", ptr);
}
if(sTrackMallocInSection)
{
std::set<void *>::iterator si(sSectionMallocBlocks.find(ptr));
if(si != sSectionMallocBlocks.end()) sSectionMallocBlocks.erase(si);
}
}
//TRACE1("free(), %08x\n", ptr);
::free(ptr);
}
void memleakfinder_notaleak_insert_pre()
{
if(!memleakfinder_global_enable) return;
for(int l = 0; l < sNotLeaksPreNum; l++)
{
sNotLeaks.insert(sNotLeaksPre[l]);
}
sNotLeaksPreNum = 0;
}
bool is_leak(void *ptr)
{
memleakfinder_notaleak_insert_pre();
return sNotLeaks.find(ptr) == sNotLeaks.end();
}
void memleakfinder_notaleak(void *ptr)
{
memleakfinder_notaleak_insert_pre();
if(memleakfinder_global_enable)
{
sNotLeaks.insert(ptr);
}
else
{
sNotLeaksPre[sNotLeaksPreNum++] = ptr;
}
/* {
std::map<void *, MallocBlockInfo>::iterator i(sMallocBlocks.find(ptr));
if(i != sMallocBlocks.end()) sMallocBlocks.erase(i);
}
{
std::set<void *>::iterator si(sSectionMallocBlocks.find(ptr));
if(si != sSectionMallocBlocks.end()) sSectionMallocBlocks.erase(si);
}
{
std::map<void *, ObjectInfo>::iterator i(sObjectBlocks.find(ptr));
if(i != sObjectBlocks.end()) sObjectBlocks.erase(i);
}*/
}
// start monitoring a section of code
void memleakfinder_startsectionmonitor()
{
sTrackMallocInSection = true;
sSectionMallocBlocks.clear();
sTrackObjectsInSection = true;
sSectionObjectBlocks.clear();
}
// trace all blocks allocated and still allocated since memleakfinder_startsectionmonitor() called
void memleakfinder_traceblocksinsection()
{
std::set<void *>::iterator s(sSectionMallocBlocks.begin());
for(; s != sSectionMallocBlocks.end(); ++s)
{
std::map<void *, MallocBlockInfo>::const_iterator i(sMallocBlocks.find(*s));
if(i == sMallocBlocks.end())
{
TRACE0("Logical error in section block finding\n");
}
else
{
TRACE4("Block 0x%08lx size %d allocated at %s:%d\n", (long)i->first, i->second.size, i->second.file, i->second.line);
}
}
for(std::map<void *, ObjectInfo>::const_iterator i(sSectionObjectBlocks.begin()); i != sSectionObjectBlocks.end(); ++i)
{
TRACE5("Object%s 0x%08lx size %d allocated at %s:%d\n", i->second.array?" []":"", (long)i->first, i->second.size, i->second.file, i->second.line);
}
}
int memleakfinder_numleaks()
{
int n = 0;
for(std::map<void *, MallocBlockInfo>::const_iterator i(sMallocBlocks.begin()); i != sMallocBlocks.end(); ++i)
{
if(is_leak(i->first)) ++n;
}
for(std::map<void *, ObjectInfo>::const_iterator i(sObjectBlocks.begin()); i != sObjectBlocks.end(); ++i)
{
if(is_leak(i->first)) ++n;
}
return n;
}
void memleakfinder_reportleaks_file(FILE *file)
{
for(std::map<void *, MallocBlockInfo>::const_iterator i(sMallocBlocks.begin()); i != sMallocBlocks.end(); ++i)
{
if(is_leak(i->first)) ::fprintf(file, "Block 0x%08lx size %d allocated at %s:%d\n", (long)i->first, i->second.size, i->second.file, i->second.line);
}
for(std::map<void *, ObjectInfo>::const_iterator i(sObjectBlocks.begin()); i != sObjectBlocks.end(); ++i)
{
if(is_leak(i->first)) ::fprintf(file, "Object%s 0x%08lx size %d allocated at %s:%d\n", i->second.array?" []":"", (long)i->first, i->second.size, i->second.file, i->second.line);
}
}
void memleakfinder_reportleaks()
{
// report to stdout
memleakfinder_reportleaks_file(stdout);
}
void memleakfinder_reportleaks_appendfile(const char *filename, const char *markertext)
{
FILE *file = ::fopen(filename, "a");
if(file != 0)
{
if(memleakfinder_numleaks() > 0)
{
fprintf(file, "MEMORY LEAKS FROM PROCESS %d (%s)\n", getpid(), markertext);
memleakfinder_reportleaks_file(file);
}
::fclose(file);
}
else
{
printf("WARNING: Couldn't open memory leak results file %s for appending\n", filename);
}
}
static char atexit_filename[512];
static char atexit_markertext[512];
static bool atexit_registered = false;
void memleakfinder_atexit()
{
memleakfinder_reportleaks_appendfile(atexit_filename, atexit_markertext);
}
void memleakfinder_setup_exit_report(const char *filename, const char *markertext)
{
::strcpy(atexit_filename, filename);
::strcpy(atexit_markertext, markertext);
if(!atexit_registered)
{
atexit(memleakfinder_atexit);
atexit_registered = true;
}
}
void add_object_block(void *block, size_t size, const char *file, int line, bool array)
{
if(!memleakfinder_global_enable) return;
if(block != 0)
{
ObjectInfo i;
i.size = size;
i.file = file;
i.line = line;
i.array = array;
sObjectBlocks[block] = i;
if(sTrackObjectsInSection)
{
sSectionObjectBlocks[block] = i;
}
}
}
void remove_object_block(void *block)
{
if(!memleakfinder_global_enable) return;
std::map<void *, ObjectInfo>::iterator i(sObjectBlocks.find(block));
if(i != sObjectBlocks.end())
{
sObjectBlocks.erase(i);
}
if(sTrackObjectsInSection)
{
std::map<void *, ObjectInfo>::iterator i(sSectionObjectBlocks.find(block));
if(i != sSectionObjectBlocks.end())
{
sSectionObjectBlocks.erase(i);
}
}
// If it's not in the list, just ignore it, as lots of stuff goes this way...
}
void *operator new(size_t size, const char *file, int line)
{
void *r = ::malloc(size);
add_object_block(r, size, file, line, false);
//TRACE4("new(), %d, %s, %d, %08x\n", size, file, line, r);
return r;
}
void *operator new[](size_t size, const char *file, int line)
{
void *r = ::malloc(size);
add_object_block(r, size, file, line, true);
//TRACE4("new[](), %d, %s, %d, %08x\n", size, file, line, r);
return r;
}
void operator delete[](void *ptr) throw ()
{
::free(ptr);
remove_object_block(ptr);
//TRACE1("delete[]() called, %08x\n", ptr);
}
void operator delete(void *ptr) throw ()
{
::free(ptr);
remove_object_block(ptr);
//TRACE1("delete() called, %08x\n", ptr);
}
#endif // NDEBUG
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