一 Window下的内存泄露检测(以VC++环境为例)
灵活自由是C语言的一大特色,但这个特色也难以避免的带来一些副作用,比如内存泄露。众所周知,内存泄露的问题比较复杂,程序正常运行时你看不出它有任何异常,但长时间运行或在特定条件下特定操作重复多次时,它才暴露出来。所以,内存泄露往往是难以发现,也难以定位解决的。
Visual Leak Detector(VLD)是一款用于Visual C++的免费的内存泄露检测工具,用户可从http://www.codeproject.com/tools/visualleakdetector.asp下载,该软件以库形式与用户的被测工程一起使用,由于VLD是按LGPL(GNU LESSER GENERAL PUBLIC LICENSE)协议对外开源,所以使用VLD是安全的,不必担心版权问题。
使用VLD
先从网站下载VLD的zip包,当前最高版本是V1.0,解压后得到vld.h、vldapi.h、vld.lib、vldmt.lib、vldmtdll.lib、dbghelp.dll等文件,把这些所有.h头文件拷贝到VC默认的include目录下,将所有.lib文件拷贝到VC默认的lib目录下,安装工作就完成了。
使用VLD很简单,只须在包含入口函数的CPP或C文件中把vld.h头文件包含进来即可。该include语句要求放在最前面,如果当前工程定义预编译head文件(如stdafx.h),则放在“#include <stdafx.h>”语句之后就可以了。之后正常编译、按Debug方式运行被测程序,等程序运行结束时,查阅VC的output窗口,会有“Visual Leak Detector is now exiting.”一句打印信息,在这条件信息之前,如果当前程序没有内存泄露会有“No memory leaks detected.”信息打印,但如果有内存泄露,将有类似如下信息打印:
C:\VcTester21\sample\vc6\SampleMain.c (80): main
crt0.c (206): mainCRTStartup
0x7C816FD7 (File and line number not available): RegisterWaitForInputIdle
Data:
CD CD CD CD CD ........ ........
Visual Leak Detector detected 1 memory leak.
这个信息指明当前发生内存泄露所在的函数及源文件行号,泄露内存块的地址、长度及当前内存值。用鼠标双击指示源码行的提示信息,VC即自动跳转到相应代码行,我们就很方便的知道是哪一行出错了。
可以看出,VLD用起来很简单,对它的实现原理感兴趣的朋友可以阅读VLD源码,也可参考dofty的文章:使用Visual Leak Detector检测内存泄露。
二 Linux下的内存泄露检测(valgrind)
Valgrind 是在linux系统下开发应用程序时用于调试内存问题的工具。它尤其擅长发现内存管理的问题,它可以检查程序运行时的内存泄漏问题。
以上内容收集自Internet
它的官方网址是 http://www.valgrind.org/
下载最新版本的Valgrind,目前是3.2.0。 wget http://www.valgrind.org/downloads/valkyrie-1.2.0.tar.bz2
按照里面的README提示,采用标准gnu软件安装方式,./configure — make —- makeinstall,安装后,输入valgrind ls -l 验证一下该工具是否工作正常(这是README里面的方法,实际上是验证一下对ls -l命令的内存检测),如果你看到一堆的信息说明你的工具可以使用了。
初次使用编译如下代码: gcc -Wall example.c -g -o example
#include <stdlib.h>void f(void){ int* x = malloc(10 * sizeof(int)); x[10] = 0; // problem 1: heap block overrun} // problem 2: memory leak -- x not freedint main(void){ f(); return 0;}
注意:gcc 的-g 选项让Valgrind调试输出时指出相应信息的代码所在的行号。
valgrind --tool=memcheck --leak-check=yes ./example
==6742== Memcheck, a memory error detector for x86-linux.
==6742== Copyright (C) 2002-2004, and GNU GPL'd, by Julian Seward et al.
==6742== Using valgrind-2.2.0, a program supervision framework for x86-linux.
==6742== Copyright (C) 2000-2004, and GNU GPL'd, by Julian Seward et al.
==6742== For more details, rerun with: -v
==6742==
==6742== Invalid write of size 4
==6742== at 0x8048384: f (example.c:6)
==6742== by 0x80483AC: main (example.c:12)
==6742== Address 0x1B908050 is 0 bytes after a block of size 40 alloc'd
==6742== at 0x1B904984: malloc (vg_replace_malloc.c:131)
==6742== by 0x8048377: f (example.c:5)
==6742== by 0x80483AC: main (example.c:12)
==6742==
==6742== ERROR SUMMARY: 1 errors from 1 contexts (suppressed: 12 from 1)
==6742== malloc/free: in use at exit: 40 bytes in 1 blocks.
==6742== malloc/free: 1 allocs, 0 frees, 40 bytes allocated.
==6742== For counts of detected errors, rerun with: -v
==6742== searching for pointers to 1 not-freed blocks.
==6742== checked 1360800 bytes.
==6742==
==6742==
==6742== 40 bytes in 1 blocks are definitely lost in loss record 1 of 1
==6742== at 0x1B904984: malloc (vg_replace_malloc.c:131)
==6742== by 0x8048377: f (example.c:5)
==6742== by 0x80483AC: main (example.c:12)
==6742==
==6742== LEAK SUMMARY:
==6742== definitely lost: 40 bytes in 1 blocks.
==6742== possibly lost: 0 bytes in 0 blocks.
==6742== still reachable: 0 bytes in 0 blocks.
==6742== suppressed: 0 bytes in 0 blocks.
==6742== Reachable blocks (those to which a pointer was found) are not shown.
==6742== To see them, rerun with: --show-reachable=yes
上面的C程序存在两个错误:1. 数组下标越界;2. 分配的内存没有释放,存在内存泄露的问题。对于错误1,看Valgrind的调试信息片断 ==6742== Invalid write of size 4
==6742== at 0x8048384: f (example.c:6)
==6742== by 0x80483AC: main (example.c:12)
==6742== Address 0x1B908050 is 0 bytes after a block of size 40 alloc'd
==6742== at 0x1B904984: malloc (vg_replace_malloc.c:131)
==6742== by 0x8048377: f (example.c:5)
对于错误2,看这个
==6742== malloc/free: 1 allocs, 0 frees, 40 bytes allocated.
......
==6742== 40 bytes in 1 blocks are definitely lost in loss record 1 of 1
==6742== at 0x1B904984: malloc (vg_replace_malloc.c:131)
==6742== by 0x8048377: f (example.c:5)
==6742== by 0x80483AC: main (example.c:12)