原文链接

常用内存泄露检测手段有

dmalloc是一个简单易用的C/C++内存leak检查工具,以一个运行库的方式发布。

dmalloc能够检查出直到程序运行结束还没有释放的内存,并且能够精确指出在
哪个源文件的第几行。

dmalloc 主页: http://dmalloc.com

支持的平台:AIX, BSD/OS, DG/UX, Free/Net/OpenBSD, GNU/Hurd, HPUX, Irix, Linux, MS-DOG, NeXT, OSF, SCO, Solaris, SunOS, Ultrix, Unixware, Windoze, and even Unicos on a Cray T3E

最新版本: 5.5.2

安装:下载 http://dmalloc.com/releases/dmalloc-5.5.2.tgz

  1. tar zxvf dmalloc-5.5.2.tgz
  2. cd dmalloc-5.5.2
  3. ./configure
  4. make
  5. make install

设置环境变量:
对于 Bash, ksh, and zsh (http://www.zsh.org/), 在 `.bashrc', `.profile', or `.zshrc'
文件中加入一行 ( -b 参数表示针对Bash的输出):

function dmalloc { eval `command dmalloc -b $*`; }

然后重新登陆用户,或者执行: source ~/.bashrc 或 source ~/.profile

接下面执行:

  1. dmalloc -l logfile -i 100 low

在源文件中添加下面的C代码:

#ifdef DMALLOC
#include "dmalloc.h"
#endif

编译使用的CFLAGS: -DDMALLOC -DDMALLOC_FUNC_CHECK

如: gcc -DDMALLOC -DDMALLOC_FUNC_CHECK dm_test.c

执行:
./a.out

运行上面的命令会在当前目录下生成 logfile文件,查看logfile的内容如下:

cat logfile

  1. 1214894489: 2: Dmalloc version '5.5.2' from 'http://dmalloc.com/'
  2. 1214894489: 2: flags = 0x4e48503, logfile 'logfile'
  3. 1214894489: 2: interval = 100, addr = 0, seen # = 0, limit = 0
  4. 1214894489: 2: starting time = 1214894489
  5. 1214894489: 2: process pid = 9560
  6. 1214894489: 2: Dumping Chunk Statistics:
  7. 1214894489: 2: basic-block 4096 bytes, alignment 8 bytes
  8. 1214894489: 2: heap address range: 0xb8020000 to 0xb8029000, 36864 bytes
  9. 1214894489: 2:     user blocks: 1 blocks, 4043 bytes (10%)
  10. 1214894489: 2:    admin blocks: 8 blocks, 32768 bytes (89%)
  11. 1214894489: 2:    total blocks: 9 blocks, 36864 bytes
  12. 1214894489: 2: heap checked 1
  13. 1214894489: 2: alloc calls: malloc 2, calloc 0, realloc 0, free 0
  14. 1214894489: 2: alloc calls: recalloc 0, memalign 0, valloc 0
  15. 1214894489: 2: alloc calls: new 0, delete 0
  16. 1214894489: 2:   current memory in use: 11 bytes (2 pnts)
  17. 1214894489: 2:  total memory allocated: 11 bytes (2 pnts)
  18. 1214894489: 2:  max in use at one time: 11 bytes (2 pnts)
  19. 1214894489: 2: max alloced with 1 call: 6 bytes
  20. 1214894489: 2: max unused memory space: 53 bytes (82%)
  21. 1214894489: 2: top 10 allocations:
  22. 1214894489: 2:  total-size  count in-use-size  count  source
  23. 1214894489: 2:           6      1           6      1  dm_test.c:71
  24. 1214894489: 2:           5      1           5      1  dm_test.c:69
  25. 1214894489: 2:          11      2          11      2  Total of 2
  26. 1214894489: 2: Dumping Not-Freed Pointers Changed Since Start:
  27. 1214894489: 2:  not freed: '0xb8028fc8|s1' (6 bytes) from 'dm_test.c:71'
  28. 1214894489: 2:  not freed: '0xb8028fe8|s1' (5 bytes) from 'dm_test.c:69'
  29. 1214894489: 2:  total-size  count  source
  30. 1214894489: 2:           6      1  dm_test.c:71
  31. 1214894489: 2:           5      1  dm_test.c:69
  32. 1214894489: 2:          11      2  Total of 2
  33. 1214894489: 2: ending time = 1214894489, elapsed since start = 0:00:00

那么,哪个地方的内存leak就一目了然了。

//====== dm_test.c 源代码 =============

  1. #include <stdio.h>
  2. #include <stdlib.h>
  3. #include <string.h>
  4.  
  5. #ifdef DMALLOC
  6. #include <dmalloc.h>
  7. #endif
  8.  
  9. int main(int argc, char **argv)
  10. {
  11.    
  12.     char *str;
  13.  
  14.     str = malloc(5);
  15.  
  16.     str = malloc(6);
  17.    
  18.     return 0;
  19. }
05-20 19:35