DebugMemory.c - htop - Rivoreo Source Code Repositories


 #define _GNU_SOURCE
 #include <string.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include <stdbool.h>
 #include <assert.h>

 #undef strdup
 #undef malloc
 #undef realloc
 #undef calloc
 #undef free

 #include "DebugMemory.h"

 /*{

 typedef struct DebugMemoryItem_ DebugMemoryItem;

 struct DebugMemoryItem_ {
    int magic;
    void* data;
    char* file;
    int line;
    DebugMemoryItem* next;
 };

 typedef struct DebugMemory_ {
    DebugMemoryItem* first;
    int allocations;
    int deallocations;
    int size;
    bool totals;
    FILE* file;
 } DebugMemory;

 }*/

 #if defined(DEBUG)

 static DebugMemory* singleton = NULL;

 void DebugMemory_new() {
    if (singleton)
       return;
    singleton = malloc(sizeof(DebugMemory));
    singleton->first = NULL;
    singleton->allocations = 0;
    singleton->deallocations = 0;
    singleton->size = 0;
    #ifdef DEBUG_ALLOC
    singleton->file = fopen("/tmp/htop-debug-alloc.txt", "w");
    #else
    singleton->file = NULL;
    #endif
    singleton->totals = true;
    //singleton->file = NULL;
 }

 void* DebugMemory_malloc(int size, char* file, int line, char* str) {
    void* data = malloc(size);
    DebugMemory_registerAllocation(data, file, line);
    if (singleton->file) {
       if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
       fprintf(singleton->file, "%d\t%s:%d (%s)\n", size, file, line, str);
    }
    return data;
 }

 void* DebugMemory_calloc(int a, int b, char* file, int line) {
    void* data = calloc(a, b);
    DebugMemory_registerAllocation(data, file, line);
    if (singleton->file) {
       if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
       fprintf(singleton->file, "%d\t%s:%d\n", a*b, file, line);
    }
    return data;
 }

 void* DebugMemory_realloc(void* ptr, int size, char* file, int line, char* str) {
    if (ptr != NULL)
       DebugMemory_registerDeallocation(ptr, file, line);
    void* data = realloc(ptr, size);
    DebugMemory_registerAllocation(data, file, line);
    if (singleton->file) {
       if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
       fprintf(singleton->file, "%d\t%s:%d (%s)\n", size, file, line, str);
    }
    return data;
 }

 void* DebugMemory_strdup(char* str, char* file, int line) {
    assert(str);
    char* data = strdup(str);
    DebugMemory_registerAllocation(data, file, line);
    if (singleton->file) {
       if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
       fprintf(singleton->file, "%d\t%s:%d\n", (int) strlen(str), file, line);
    }
    return data;
 }

 void DebugMemory_free(void* data, char* file, int line) {
    assert(data);
    DebugMemory_registerDeallocation(data, file, line);
    if (singleton->file) {
       if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
       fprintf(singleton->file, "free\t%s:%d\n", file, line);
    }
    free(data);
 }

 void DebugMemory_assertSize() {
    if (!singleton->first) {
       assert (singleton->size == 0);
    }
    DebugMemoryItem* walk = singleton->first;
    int i = 0;
    while (walk != NULL) {
       assert(walk->magic == 11061980);
       i++;
       walk = walk->next;
    }
    assert (i == singleton->size);
 }

 int DebugMemory_getBlockCount() {
    if (!singleton->first) {
       return 0;
    }
    DebugMemoryItem* walk = singleton->first;
    int i = 0;
    while (walk != NULL) {
       assert(walk->magic == 11061980);
       i++;
       walk = walk->next;
    }
    return i;
 }

 void DebugMemory_registerAllocation(void* data, char* file, int line) {
    if (!singleton)
       DebugMemory_new();
    DebugMemory_assertSize();
    DebugMemoryItem* item = (DebugMemoryItem*) malloc(sizeof(DebugMemoryItem));
    item->magic = 11061980;
    item->data = data;
    item->file = file;
    item->line = line;
    item->next = NULL;
    int val = DebugMemory_getBlockCount();
    if (singleton->first == NULL) {
       assert (val == 0);
       singleton->first = item;
    } else {
       DebugMemoryItem* walk = singleton->first;
       while (true) {
          if (walk->next == NULL) {
             walk->next = item;
             break;
          }
          assert(walk->magic == 11061980);
          walk = walk->next;
       }
    }
    int nval = DebugMemory_getBlockCount();
    assert(nval == val + 1);
    singleton->allocations++;
    singleton->size++;
    DebugMemory_assertSize();
 }

 void DebugMemory_registerDeallocation(void* data, char* file, int line) {
    assert(singleton);
    assert(singleton->first);
    DebugMemoryItem* walk = singleton->first;
    DebugMemoryItem* prev = NULL;
    int val = DebugMemory_getBlockCount();
    while (walk != NULL) {
       assert(walk->magic == 11061980);
       if (walk->data == data) {
          if (prev == NULL) {
             singleton->first = walk->next;
          } else {
             prev->next = walk->next;
          }
          free(walk);
          assert(DebugMemory_getBlockCount() == val - 1);
          singleton->deallocations++;
          singleton->size--;
          DebugMemory_assertSize();
          return;
       }
       DebugMemoryItem* tmp = walk;
       walk = walk->next;
       prev = tmp;
    }
    DebugMemory_report();
    fprintf(stderr, "Couldn't find allocation for memory freed at %s:%d\n", file, line);
    assert(false);
 }

 void DebugMemory_report() {
    assert(singleton);
    DebugMemoryItem* walk = singleton->first;
    int i = 0;
    while (walk != NULL) {
       assert(walk->magic == 11061980);
       i++;
       fprintf(stderr, "%p %s:%d\n", walk->data, walk->file, walk->line);
       walk = walk->next;
    }
    fprintf(stderr, "Total:\n");
    fprintf(stderr, "%d allocations\n", singleton->allocations);
    fprintf(stderr, "%d deallocations\n", singleton->deallocations);
    fprintf(stderr, "%d size\n", singleton->size);
    fprintf(stderr, "%d non-freed blocks\n", i);
    if (singleton->file)
       fclose(singleton->file);
 }

 #elif defined(DEBUGLITE)

 //#include "efence.h"

 #endif

	#define _GNU_SOURCE
	#include <string.h>
	#include <stdlib.h>
	#include <stdio.h>
	#include <stdbool.h>
	#include <assert.h>

	#undef strdup
	#undef malloc
	#undef realloc
	#undef calloc
	#undef free

	#include "DebugMemory.h"

	/*{

	typedef struct DebugMemoryItem_ DebugMemoryItem;

	struct DebugMemoryItem_ {
	int magic;
	void* data;
	char* file;
	int line;
	DebugMemoryItem* next;
	};

	typedef struct DebugMemory_ {
	DebugMemoryItem* first;
	int allocations;
	int deallocations;
	int size;
	bool totals;
	FILE* file;
	} DebugMemory;

	}*/

	#if defined(DEBUG)

	static DebugMemory* singleton = NULL;

	void DebugMemory_new() {
	if (singleton)
	return;
	singleton = malloc(sizeof(DebugMemory));
	singleton->first = NULL;
	singleton->allocations = 0;
	singleton->deallocations = 0;
	singleton->size = 0;
	#ifdef DEBUG_ALLOC
	singleton->file = fopen("/tmp/htop-debug-alloc.txt", "w");
	#else
	singleton->file = NULL;
	#endif
	singleton->totals = true;
	//singleton->file = NULL;
	}

	void* DebugMemory_malloc(int size, char* file, int line, char* str) {
	void* data = malloc(size);
	DebugMemory_registerAllocation(data, file, line);
	if (singleton->file) {
	if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
	fprintf(singleton->file, "%d\t%s:%d (%s)\n", size, file, line, str);
	}
	return data;
	}

	void* DebugMemory_calloc(int a, int b, char* file, int line) {
	void* data = calloc(a, b);
	DebugMemory_registerAllocation(data, file, line);
	if (singleton->file) {
	if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
	fprintf(singleton->file, "%d\t%s:%d\n", a*b, file, line);
	}
	return data;
	}

	void* DebugMemory_realloc(void* ptr, int size, char* file, int line, char* str) {
	if (ptr != NULL)
	DebugMemory_registerDeallocation(ptr, file, line);
	void* data = realloc(ptr, size);
	DebugMemory_registerAllocation(data, file, line);
	if (singleton->file) {
	if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
	fprintf(singleton->file, "%d\t%s:%d (%s)\n", size, file, line, str);
	}
	return data;
	}

	void* DebugMemory_strdup(char* str, char* file, int line) {
	assert(str);
	char* data = strdup(str);
	DebugMemory_registerAllocation(data, file, line);
	if (singleton->file) {
	if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
	fprintf(singleton->file, "%d\t%s:%d\n", (int) strlen(str), file, line);
	}
	return data;
	}

	void DebugMemory_free(void* data, char* file, int line) {
	assert(data);
	DebugMemory_registerDeallocation(data, file, line);
	if (singleton->file) {
	if (singleton->totals) fprintf(singleton->file, "%d\t", singleton->size);
	fprintf(singleton->file, "free\t%s:%d\n", file, line);
	}
	free(data);
	}

	void DebugMemory_assertSize() {
	if (!singleton->first) {
	assert (singleton->size == 0);
	}
	DebugMemoryItem* walk = singleton->first;
	int i = 0;
	while (walk != NULL) {
	assert(walk->magic == 11061980);
	i++;
	walk = walk->next;
	}
	assert (i == singleton->size);
	}

	int DebugMemory_getBlockCount() {
	if (!singleton->first) {
	return 0;
	}
	DebugMemoryItem* walk = singleton->first;
	int i = 0;
	while (walk != NULL) {
	assert(walk->magic == 11061980);
	i++;
	walk = walk->next;
	}
	return i;
	}

	void DebugMemory_registerAllocation(void* data, char* file, int line) {
	if (!singleton)
	DebugMemory_new();
	DebugMemory_assertSize();
	DebugMemoryItem* item = (DebugMemoryItem*) malloc(sizeof(DebugMemoryItem));
	item->magic = 11061980;
	item->data = data;
	item->file = file;
	item->line = line;
	item->next = NULL;
	int val = DebugMemory_getBlockCount();
	if (singleton->first == NULL) {
	assert (val == 0);
	singleton->first = item;
	} else {
	DebugMemoryItem* walk = singleton->first;
	while (true) {
	if (walk->next == NULL) {
	walk->next = item;
	break;
	}
	assert(walk->magic == 11061980);
	walk = walk->next;
	}
	}
	int nval = DebugMemory_getBlockCount();
	assert(nval == val + 1);
	singleton->allocations++;
	singleton->size++;
	DebugMemory_assertSize();
	}

	void DebugMemory_registerDeallocation(void* data, char* file, int line) {
	assert(singleton);
	assert(singleton->first);
	DebugMemoryItem* walk = singleton->first;
	DebugMemoryItem* prev = NULL;
	int val = DebugMemory_getBlockCount();
	while (walk != NULL) {
	assert(walk->magic == 11061980);
	if (walk->data == data) {
	if (prev == NULL) {
	singleton->first = walk->next;
	} else {
	prev->next = walk->next;
	}
	free(walk);
	assert(DebugMemory_getBlockCount() == val - 1);
	singleton->deallocations++;
	singleton->size--;
	DebugMemory_assertSize();
	return;
	}
	DebugMemoryItem* tmp = walk;
	walk = walk->next;
	prev = tmp;
	}
	DebugMemory_report();
	fprintf(stderr, "Couldn't find allocation for memory freed at %s:%d\n", file, line);
	assert(false);
	}

	void DebugMemory_report() {
	assert(singleton);
	DebugMemoryItem* walk = singleton->first;
	int i = 0;
	while (walk != NULL) {
	assert(walk->magic == 11061980);
	i++;
	fprintf(stderr, "%p %s:%d\n", walk->data, walk->file, walk->line);
	walk = walk->next;
	}
	fprintf(stderr, "Total:\n");
	fprintf(stderr, "%d allocations\n", singleton->allocations);
	fprintf(stderr, "%d deallocations\n", singleton->deallocations);
	fprintf(stderr, "%d size\n", singleton->size);
	fprintf(stderr, "%d non-freed blocks\n", i);
	if (singleton->file)
	fclose(singleton->file);
	}

	#elif defined(DEBUGLITE)

	//#include "efence.h"

	#endif