ltrace === 用来跟踪进程调用库函数的情况 ## 说明 **ltrace命令** 是用来跟踪进程调用库函数的情况 ## 选项 ``` ltrace [option ...] [command [arg ...]] ``` ``` -a 对齐具体某个列的返回值 -c 计算时间和调用,并在程序退出时打印摘要 -C 解码低级别名称(内核级)为用户级名称 -d 打印调试信息 -e 改变跟踪的事件 -f 跟踪子进程 -h 打印帮助信息 -i 打印指令指针,当库调用时 -l 只打印某个库中的调用 -L 不打印库调用 -n, --indent=NR 对每个调用级别嵌套以NR个空格进行缩进输出 -o, --output=file 把输出定向到文件 -p PID 附着在值为PID的进程号上进行ltrace -r 打印相对时间戳 -s STRLEN 设置打印的字符串最大长度 -S 显示系统调用 -t, -tt, -ttt 打印绝对时间戳 -T 输出每个调用过程的时间开销 -u USERNAME 使用某个用户id或组ID来运行命令 -V, --version 打印版本信息,然后退出 -x NAME treat the global NAME like a library subroutine.(求翻译) ``` ## 实例 最基本应用,不带任何参数: ``` [guest@localhost tmp]$ ltrace ./a.out __libc_start_main(0x80484aa, 1, 0xbfc07744, 0x8048550, 0x8048540 printf("no1:%d \t no2:%d \t diff:%d\n", 10, 6, 4no1:10 no2:6 diff:4 ) = 24 printf("no1:%d \t no2:%d \t diff:%d\n", 9, 7, 2no1:9 no2:7 diff:2 ) = 23 printf("no1:%d \t no2:%d \t diff:%d\n", 8, 8, 0no1:8 no2:8 diff:0 ) = 23 --- SIGFPE (Floating point exception) --- +++ killed by SIGFPE +++ ``` 输出调用时间开销: ``` [guest@localhost tmp]$ ltrace -T ./a.out __libc_start_main(0x80484aa, 1, 0xbf81d394, 0x8048550, 0x8048540 printf("no1:%d \t no2:%d \t diff:%d\n", 10, 6, 4no1:10 no2:6 diff:4 ) = 24 <0.000972> printf("no1:%d \t no2:%d \t diff:%d\n", 9, 7, 2no1:9 no2:7 diff:2 ) = 23 <0.000155> printf("no1:%d \t no2:%d \t diff:%d\n", 8, 8, 0no1:8 no2:8 diff:0 ) = 23 <0.000153> --- SIGFPE (Floating point exception) --- +++ killed by SIGFPE +++ ``` 显示系统调用: ``` [guest@localhost tmp]$ ltrace -S ./a.out SYS_brk(NULL) = 0x9e20000 SYS_access(0xa4710f, 4, 0xa4afc0, 0, 0xa4b644) = 0 SYS_open("/etc/ld.so.preload", 0, 02) = 3 SYS_fstat64(3, 0xbfbd7a94, 0xa4afc0, -1, 3) = 0 SYS_mmap2(0, 17, 3, 2, 3) = 0xb7f2a000 SYS_close(3) = 0 SYS_open("/lib/libcwait.so", 0, 00) = 3 SYS_read(3, "\177ELF\001\001\001", 512) = 512 SYS_fstat64(3, 0xbfbd76fc, 0xa4afc0, 4, 0xa4b658) = 0 SYS_mmap2(0, 4096, 3, 34, -1) = 0xb7f29000 SYS_mmap2(0, 5544, 5, 2050, 3) = 0x423000 SYS_mmap2(0x424000, 4096, 3, 2066, 3) = 0x424000 .............省去若干行 ```