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问题:项目开发中,碰到一个很奇怪的问题:当tcsh启动的子程序退出之后,tcsh本身无法退出,并占用大量CPU资源。
背景:应用程序在fork之后,用tcsh启动另一个子进程,执行特定任务。进程之间使用sockepair(pipe)进行进程间通讯;为简化编程,将子进程的socket fd重定向为stdin和stdout。
具体症状:
Strace tcsh程序:
fstat(250, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(251, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(252, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(253, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(254, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(255, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) write(17, "[1] 30274\n", 10) = -1 EPIPE (Broken pipe) --- SIGPIPE (Broken pipe) @ 0 (0) --- lseek(16, 0, SEEK_END) = -1 ESPIPE (Illegal seek) rt_sigprocmask(SIG_BLOCK, [], [], 8) = 0 rt_sigprocmask(SIG_SETMASK, [], [], 8) = 0 fstat(0, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(1, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(2, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(3, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(4, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(5, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(6, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(7, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(8, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(9, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(10, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(11, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(12, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(13, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(14, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(20, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) fstat(21, 0x7fbfffc240) = -1 EBADF (Bad file descriptor) tcsh不断打印上述系统调用,可判断tcsh陷入了死循环,无法退出。其中
write(17, "[1] 30274\n", 10) = -1 EPIPE (Broken pipe)
--- SIGPIPE (Broken pipe) @ 0 (0) ---
lseek(16, 0, SEEK_END) = -1 ESPIPE (Illegal seek)
初步这两个系统调用是引发死循环的关键。为什么write到17文件描述符。(如果有经验,估计在这一步就可知道问题的根源。)
Lsof tcsh进程:
COMMAND PID USER FD TYPE DEVICE SIZE NODE NAME csh 30246 tachyon cwd DIR 253,7 4096 108511249 /h/work/tcpproxy csh 30246 tachyon rtd DIR 253,0 20480 2 / csh 30246 tachyon txt REG 253,0 349696 163890 /bin/tcsh csh 30246 tachyon mem REG 253,3 48524688 1951970 /usr/lib/locale/locale-archive csh 30246 tachyon mem REG 253,3 44473 1757371 /usr/share/locale/en/LC_MESSAGES/tcsh csh 30246 tachyon mem REG 253,3 21546 1425608 /usr/lib64/gconv/gconv-modules.cache csh 30246 tachyon mem REG 253,3 10128 1425550 /usr/lib64/gconv/ISO8859-1.so csh 30246 tachyon mem REG 253,0 105080 196842 /lib64/ld-2.3.4.so csh 30246 tachyon mem REG 253,0 1493409 196843 /lib64/tls/libc-2.3.4.so csh 30246 tachyon mem REG 253,0 15728 196865 /lib64/libtermcap.so.2.0.8 csh 30246 tachyon mem REG 253,0 30070 196861 /lib64/libcrypt-2.3.4.so csh 30246 tachyon 16u unix 0x0000010293993640 31854667 socket csh 30246 tachyon 17u unix 0x0000010293993640 31854667 socket csh 30246 tachyon 18u REG 253,7 25770181 108511260 /****. log csh 30246 tachyon 19u unix 0x0000010293993640 31854667 socket |
tcsh没有0,1,2的文件描述符,只有3个指向同一个unix地址的socket地址,基本断定: 16为stdin,17为stdout,18为stderr,19未知。
问题就变成:tcsh不断尝试往stdout输入特定信息![1] 30274这个信息,应该是tcsh所起子进程的PID。
这样就基本清楚了:tcsh收到子进程的状态信息([1] PID),并将收到的信息输出。由于stdout已被重定向成unix socket,在输出时,发生SIGPIPE (Broken pipe)事件。 SIGPIPE的默认行为是终止程序,显然tcsh没终止,并不断尝试输出。为什么tcsh不终止?难道tcsh内部实现屏蔽了该信号?为了解决这个问题,有两个办法:看tcsh的源码;看是否自己的程序改变了tcsh的信号处理。
最终,从自己的程序入手,发现果然是自己的程序改变了tcsh的信号配置。
A child created via fork(2) inherits a copy of its parent's signal dispositions. During an execve(2), the dispositions of handled signals are reset to the default; the dispositions of ignored signals are left unchanged.
问题的结论:
1) 自己的程序忽略了SIGPIPE;
2) fork之后,重定向了stdin和stdout;
3) tcsh启动子程序,捕获到子进程的状态(后台启动返回PID信息),并尝试输出到stdout(socket),因socket已被关闭,写失败并导致SIGPIPE。因SIGPIPE已被忽略,导致tcsh不断重试,无法退出!
重现程序:
#include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <sys/types.h> #include <sys/socket.h> #include <signal.h> void Usage( char * program){ fprintf (stderr, "Usage: %s binary\n" , program); exit (-1); } void sighandler( int sig){ /* fprintf(stderr, "recieve SIGPIPE\n"); */ } int main( int argc, char ** argv) { if (argc < 2){ Usage(argv[0]); } char * binary = argv[1]; /* signal(SIGPIPE, sighandler); */ signal (SIGPIPE, SIG_IGN); /* Get a socketpair we'll use for stdin and stdout. */ int sp[2]; if (socketpair(AF_UNIX, SOCK_STREAM, PF_UNSPEC, sp) == -1) { perror ( "socketpair error" ); return -1; } pid_t pid = fork(); if (pid == 0) { signal (SIGTERM, SIG_DFL); signal (SIGHUP, SIG_DFL); close(sp[0]); if (dup2(sp[1], 0) == -1 || dup2(0, 1) == -1) { char msg[128]; snprintf(msg, sizeof msg, "dup2 failed in child process %d" , getpid()); } sleep(1); fprintf (stderr, "start child process\n" ); setsid(); execvp(binary, &argv[1]); char msg[512]; snprintf(msg, sizeof msg, "exec %s failed" , binary); exit (-1); } else if (pid < 0){ perror ( "fork" ); exit (-1); } printf ( "parent process\n" ); close(sp[1]); close(sp[0]); while (1){ char * msg = "hello test\n" ; /* write(sp[0], msg, strlen(msg)); */ sleep(1); printf ( "write successful\n" ); } return 0; } |
gcc -o pipe pipe_broke.c
./pipe /usr/bin/strace -e trace=write,lseek -o strace.log csh -c "sleep 10 & "Note: bash has no this problem! csh -> tcsh
本文转自 zhenjing 博客园博客,原文链接:http://www.cnblogs.com/zhenjing/archive/2011/05/26/tcsh_dead_loop.html ,如需转载请自行联系原作者