如何在 NET 程序万种死法中有效的生成 Dump (上)

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所属分类:.NET技术
摘要

相信很多人都知道通过 任务管理器 抓取dump,虽然简单粗暴,但无法满足程序的无数种死法,比如:


一:背景

相信很多人都知道通过 任务管理器 抓取dump,虽然简单粗暴,但无法满足程序的无数种死法,比如:

  • 内存膨胀,程序爆炸

  • CPU爆高,程序累死

  • 应用无响应,用户气死

  • 意外退出,和人生一样

既然手工太弱鸡,那有什么好的工具呢? 除了 adplus,本文推荐一款神器 procdump, 下载地址:https://docs.microsoft.com/zh-cn/sysinternals/downloads/procdump ,还能支持 linux ???,具体怎么安装就不细说了。

二:内存膨胀,程序爆炸

内存膨胀 这种情况我相信很有朋友都遇到过,我见过最多的案例就是用了小缓存 static,然后有意无意的忘记释放,导致无限堆积终爆炸,那这种怎么用 procdump 去抓呢?

为了方便演示,我先写一个无限分配内存的例子。

         static void Main(string[] args)         {             List<string> list = new List<string>();              for (int i = 0; i < int.MaxValue; i++)             {                 list.Add(string.Join(",", Enumerable.Range(0, 10000)));             }              Console.ReadLine();         }  

将程序跑起来后,设置 procdump 在内存超过 1G 的时候自动抓取全内存 dump,使用如下命令.

 C:Windowssystem32>procdump  ConsoleApp2 -m 1024 -ma E:net5ConsoleApp1ConsoleApp2binDebug  ProcDump v10.0 - Sysinternals process dump utility Copyright (C) 2009-2020 Mark Russinovich and Andrew Richards Sysinternals - www.sysinternals.com  Process:               ConsoleApp2.exe (24112) Process image:         E:net5ConsoleApp1ConsoleApp2binDebugConsoleApp2.exe CPU threshold:         n/a Performance counter:   n/a Commit threshold:      >= 1024 MB Threshold seconds:     10 Hung window check:     Disabled Log debug strings:     Disabled Exception monitor:     Disabled Exception filter:      [Includes]                        *                        [Excludes] Terminate monitor:     Disabled Cloning type:          Disabled Concurrent limit:      n/a Avoid outage:          n/a Number of dumps:       1 Dump folder:           E:net5ConsoleApp1ConsoleApp2binDebug Dump filename/mask:    PROCESSNAME_YYMMDD_HHMMSS Queue to WER:          Disabled Kill after dump:       Disabled   Press Ctrl-C to end monitoring without terminating the process.  [21:23:43] Commit:    1087Mb [21:23:43] Dump 1 initiated: E:net5ConsoleApp1ConsoleApp2binDebugConsoleApp2.exe_210323_212343.dmp [21:23:43] Dump 1 writing: Estimated dump file size is 1179 MB. [21:23:44] Dump 1 complete: 1179 MB written in 1.3 seconds [21:23:44] Dump count reached.  

从最后五行可以看出,当内存达到 1087M 的时候自动生成了 dump 文件,接下来用 windbg 看一看。

  • 查看当前 process 的内存占用量,使用 !address -summary 即可
 0:000> !address -summary                                        Mapping file section regions... Mapping module regions... Mapping PEB regions... Mapping TEB and stack regions... Mapping heap regions... Mapping page heap regions... Mapping other regions... Mapping stack trace database regions... Mapping activation context regions...  --- Usage Summary ---------------- RgnCount ----------- Total Size -------- %ofBusy %ofTotal Free                                     63          b30b4000 (   2.798 GB)           69.94% <unknown>                               228          48547000 (   1.130 GB)  93.99%   28.25% Image                                   210           4115000 (  65.082 MB)   5.29%    1.59% Stack                                    21            700000 (   7.000 MB)   0.57%    0.17% Heap                                     12            170000 (   1.438 MB)   0.12%    0.04% Other                                     7             5a000 ( 360.000 kB)   0.03%    0.01% TEB                                       7             13000 (  76.000 kB)   0.01%    0.00% PEB                                       1              3000 (  12.000 kB)   0.00%    0.00%  --- Type Summary (for busy) ------ RgnCount ----------- Total Size -------- %ofBusy %ofTotal MEM_PRIVATE                             250          47121000 (   1.110 GB)  92.36%   27.76% MEM_IMAGE                               217           411e000 (  65.117 MB)   5.29%    1.59% MEM_MAPPED                               19           1cfd000 (  28.988 MB)   2.35%    0.71%  --- State Summary ---------------- RgnCount ----------- Total Size -------- %ofBusy %ofTotal MEM_FREE                                 63          b30b4000 (   2.798 GB)           69.94% MEM_COMMIT                              357          47f12000 (   1.124 GB)  93.49%   28.10% MEM_RESERVE                             129           502a000 (  80.164 MB)   6.51%    1.96%  --- Protect Summary (for commit) - RgnCount ----------- Total Size -------- %ofBusy %ofTotal PAGE_READWRITE                          177          437d5000 (   1.055 GB)  87.70%   26.36% PAGE_EXECUTE_READ                        35           33c7000 (  51.777 MB)   4.21%    1.26% PAGE_READONLY                            90            c41000 (  12.254 MB)   1.00%    0.30% PAGE_WRITECOPY                           34            70b000 (   7.043 MB)   0.57%    0.17% PAGE_READWRITE|PAGE_GUARD                14             23000 ( 140.000 kB)   0.01%    0.00% PAGE_EXECUTE_READWRITE                    7              7000 (  28.000 kB)   0.00%    0.00%  --- Largest Region by Usage ----------- Base Address -------- Region Size ---------- Free                                        80010000          7f130000 (   1.986 GB) <unknown>                                   438e1000           200f000 (  32.059 MB) Image                                       660e0000            f55000 (  15.332 MB) Stack                                         e00000             fd000 (1012.000 kB) Heap                                          c97000             98000 ( 608.000 kB) Other                                       ff2c0000             33000 ( 204.000 kB) TEB                                           990000              3000 (  12.000 kB) PEB                                           98d000              3000 (  12.000 kB)  

看到上面 PAGE_READWRITE 行的 (1.055 GB) 吗? 和刚才 Console 中的 1087M 遥相呼应,没毛病。

  • 寻找大对象,在托管堆中使用 !dumpheap -stat -min 1024 即可
 ||0:0:000> !dumpheap -stat -min 1024 Statistics:       MT    Count    TotalSize Class Name 65d42788        2        13044 System.Object[] 65d42d74        2        98328 System.String[] 65d42c60       73      1082988 System.Char[] 65d424e4    11452   1119913984 System.String  

从输出的最后一行可以看出,System.String 有1w多个,接下来可以增加 -type 属性筛选出 >10k 的字符串。

 0:000> !dumpheap -type System.String -min 10240  Address       MT     Size 03c75568 65d424e4    97792      03c8d378 65d424e4    97792     4a855060 65d424e4    97792       Statistics:       MT    Count    TotalSize Class Name 65d424e4    11452   1119913984 System.String Total 11452 objects  0:000> !gcroot 4a855060 Thread 36e4: *** WARNING: Unable to verify checksum for ConsoleApp2.exe     00b3f358 012108d1 ConsoleApp2.Program.Main(System.String[]) [E:net5ConsoleApp1ConsoleApp2Program.cs @ 18]         ebp+18: 00b3f370             ->  02c71fd8 System.Collections.Generic.List`1[[System.String, mscorlib]]             ->  02cce2ec System.String[]             ->  4a855060 System.String  Found 1 unique roots (run '!GCRoot -all' to see all roots).  

从最后的 !gcroot 看,确实是被 Program.cs:18 行的 List 所持有,到此水落石出。

三:CPU爆高,程序累死

说起CPU爆高的案例,我发现更多的是在 非托管堆 上,比如GC回收,争抢锁等,很少有人能傻到在 托管层 上把cpu搞起来。

对了,分析CPU 爆高有一个小技巧,那就是连续抓 dump 快照,看两个 dump 中的线程运行情况,这时候就非常适合 procdump,先来看测试代码。

     class Program     {         static void Main(string[] args)         {             Parallel.For(0, int.MaxValue, (i) =>             {                 while (true)                 {                  }             });              Console.ReadLine();         }     }  

现在我设定 连续 5s 内 CPU 超过 70% 抓取 dump,直到 2 个为止

 C:Windowssystem32>procdump  ConsoleApp2 -s 5 -n 2 -c 70 E:net5ConsoleApp1ConsoleApp2binDebug  ProcDump v10.0 - Sysinternals process dump utility Copyright (C) 2009-2020 Mark Russinovich and Andrew Richards Sysinternals - www.sysinternals.com  Process:               ConsoleApp2.exe (22152) Process image:         E:net5ConsoleApp1ConsoleApp2binDebugConsoleApp2.exe CPU threshold:         >= 70% of system Performance counter:   n/a Commit threshold:      n/a Threshold seconds:     5 Hung window check:     Disabled Log debug strings:     Disabled Exception monitor:     Disabled Exception filter:      [Includes]                        *                        [Excludes] Terminate monitor:     Disabled Cloning type:          Disabled Concurrent limit:      n/a Avoid outage:          n/a Number of dumps:       2 Dump folder:           E:net5ConsoleApp1ConsoleApp2binDebug Dump filename/mask:    PROCESSNAME_YYMMDD_HHMMSS Queue to WER:          Disabled Kill after dump:       Disabled   Press Ctrl-C to end monitoring without terminating the process.  [22:25:47] CPU: 95% 1s [22:25:48] CPU: 100% 2s [22:25:50] CPU: 96% 3s [22:25:51] CPU: 98% 4s [22:25:52] CPU: 99% 5s (Trigger) [22:25:53] Dump 1 initiated: E:net5ConsoleApp1ConsoleApp2binDebugConsoleApp2.exe_210323_222553.dmp [22:25:54] Dump 1 complete: 5 MB written in 0.3 seconds [22:25:56] CPU: 88% 1s [22:25:58] CPU: 93% 2s [22:26:00] CPU: 89% 3s [22:26:02] CPU: 89% 4s [22:26:04] CPU: 95% 5s (Trigger) [22:26:05] Dump 2 initiated: E:net5ConsoleApp1ConsoleApp2binDebugConsoleApp2.exe_210323_222605.dmp [22:26:06] Dump 2 complete: 5 MB written in 0.4 seconds [22:26:07] Dump count reached.  

从最后输出中可以看到,连续 5s CPU 超过了 70% 抓取了 dump,总共来了2个。

现在 dump 有了,接下来用两个 windbg 实例打开,验证下 dump 的生成时间,如下图所示:

如何在 NET 程序万种死法中有效的生成 Dump (上)

从图中可以看到,两个 dump 生成时间相隔 12s,而且通过 !runaway 发现下面的线程:

  • 14:2cb8
  • 19:3f8c
  • ...

都运行了长达 10s ,这说明什么?说明这二个线程应该在某个地方死循环了。。。对吧。。。

切到 14 号线程通过 !clrstack 看调用堆栈即可,都是死在 ConsoleApp2.Program+c.b__0_0(Int32) 这里出不来。。。

如何在 NET 程序万种死法中有效的生成 Dump (上)

四:总结

感觉篇幅有点长了,就先说到这里吧,有兴趣的话,可以把 procdump 拉下来玩一玩 ?。

更多高质量干货:参见我的 GitHub: dotnetfly

如何在 NET 程序万种死法中有效的生成 Dump (上)