who命令的作用用于显示当前有哪些用户登录到系统。
这个命令执行的原理是读取了系统上utmp文件中记录的所有登录信息,直接显示出来的
utmp文件在哪里呢?
man who的时候,在手册下面有这么一段说明:意思就是不指定文件参数,那么读取的就是/var/run/utmp,到底是不是,验证下
If FILE is not specified, use /var/run/utmp. /var/log/wtmp as FILE is
common. If ARG1 ARG2 given, -m presumed: 'am i' or 'mom likes' are
usual.
当我指定file参数为/var/run/utmp或者省略这个参数的时候,结果都是一样, 当我用一个错误的文件时,没有任何结果,从这里可以推断,who命令确实从/var/run/utmp中读取用户登录的信息
ghostwu@ubuntu:~$ who
ghostwu tty7 -- : (:)
ghostwu pts/ -- : (:)
ghostwu pts/ -- : (:)
ghostwu pts/ -- : (:)
ghostwu@ubuntu:~$ who -b
system boot -- :
ghostwu@ubuntu:~$ who -b /var/run/utmp
system boot -- :
ghostwu@ubuntu:~$ who -b /var/run/utmp2
ghostwu@ubuntu:~$ who -b /var/run/utmp3
那么utmp到底在哪里?
利用man -k utmp 查找所有的可能: 推断---> utmp (5) - login records 这里的可能性比较大,描述说,这里是记录登录信息的
ghostwu@ubuntu:~$ man -k utmp
endutent () - access utmp file entries
endutxent () - access utmp file entries
getutent () - access utmp file entries
getutent_r () - access utmp file entries
getutid () - access utmp file entries
getutid_r () - access utmp file entries
getutline () - access utmp file entries
getutline_r () - access utmp file entries
getutmp () - copy utmp structure to utmpx, and vice versa
getutmpx () - copy utmp structure to utmpx, and vice versa
getutxent () - access utmp file entries
getutxid () - access utmp file entries
getutxline () - access utmp file entries
login () - write utmp and wtmp entries
logout () - write utmp and wtmp entries
pututline () - access utmp file entries
pututxline () - access utmp file entries
sessreg () - manage utmpx/wtmpx entries for non-init clients
setutent () - access utmp file entries
setutxent () - access utmp file entries
systemd-update-utmp () - Write audit and utmp updates at bootup, runlevel ch...
systemd-update-utmp-runlevel.service () - Write audit and utmp updates at bo...
systemd-update-utmp.service () - Write audit and utmp updates at bootup, run...
utmp () - login records
utmpdump () - dump UTMP and WTMP files in raw format
utmpname () - access utmp file entries
utmpx () - login records
utmpxname () - access utmp file entries
接下来,我们去 man 5 utmp 看下,会发现有这么一段提示:
The file is a sequence of utmp structures, declared as follows in <utmp.h> (note that this
is only one of several definitions around; details depend on the version of libc):
意思是utmp文件的信息是一系列utmp结构体数据, 这个结构体定义在utmp.h文件中, 每个linux发行版可能不一样.
接下来,我用强大的find命令查找到了2个目标:
ghostwu@ubuntu:~$ find /usr/include -name "utmp.h"
/usr/include/x86_64-linux-gnu/bits/utmp.h
/usr/include/utmp.h
结构体的定义就在这个文件中( /usr/include/x86_64-linux-gnu/bits/utmp.h )
这里有两个宏要注意下( ut_time和UTMP_FILE ), 下面的程序会用到
#ifndef _NO_UT_TIME
/* We have a problem here: `ut_time' is also used otherwise. Define
_NO_UT_TIME if the compiler complains. */
# define ut_time ut_tv.tv_sec
#endif
ghostwu@ubuntu:~$ grep "UTMP_FILE" /usr/include/utmp.h
#define UTMP_FILE _PATH_UTMP
#define UTMP_FILENAME _PATH_UTMP
ghostwu@ubuntu:~$ grep "_PATH_UTMP" /usr/include/utmp.h
#define UTMP_FILE _PATH_UTMP
#define UTMP_FILENAME _PATH_UTMP
ghostwu@ubuntu:~$ grep "_PATH_UTMP" /usr/include/x86_64-linux-gnu/bits/utmp.h
ghostwu@ubuntu:~$ grep "_PATH_UTMP" /usr/include/*.h
/usr/include/paths.h:#define _PATH_UTMP "/var/run/utmp"
/usr/include/utmp.h:#define UTMP_FILE _PATH_UTMP
/usr/include/utmp.h:#define UTMP_FILENAME _PATH_UTMP
/usr/include/utmpx.h:# define UTMPX_FILE _PATH_UTMPX
/usr/include/utmpx.h:# define UTMPX_FILENAME _PATH_UTMPX
ghostwu@ubuntu:~$
UTMP_FILE的查找思路: 首先grep两个目录下面的文件utmp.h,在/usr/include/utmp.h找到一个宏定义 _PATH_UTMP,下一步就是确定 _PATH_UTMP到底是什么,利用grep "_PATH_UTMP" /usr/include/*.h
最终在paths.h头文件中,发现了他的真面目
who命令书写思路:
1)从/var/run/utmp读取文件,每次读取一个struct utmp结构体这么大,如果长度每次都有这么大,继续读取
2)格式化4个信息:用户名,主机,地址,时间
3)只打印当前活动的用户(当前登录的用户)
4)格式化时间( 小时,分钟,秒, >10的补0, <10的原样返回 )
源代码
/*================================================================
* Copyright (C) 2018 . All rights reserved.
*
* 文件名称:mywho.c
* 创 建 者:ghostwu(吴华)
* 创建日期:2018年01月08日
* 描 述:
*
================================================================*/ #include <stdio.h>
#include <utmp.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdlib.h>
#include <unistd.h>
#include <time.h>
#include <string.h> #ifndef UTMP_FILE
#define UTMP_FILE "/var/run/utmp"
#endif int count = ; //格式化时间, <10 就补0, >10 原样返回
char* format_time( char* s, const char *time ) {
if( strlen( time ) < ) {
return strcat( s, time );
}
return strcpy( s, time );
} void show_info( struct utmp* t_utmp ) {
if ( t_utmp->ut_type != USER_PROCESS ) //不显示 非活跃的用户信息
return; printf( "%-8.8s", t_utmp->ut_user );
printf( " " );
printf( "%-8.8s", t_utmp->ut_line );
printf( " " ); //printf( " " );
//printf( "%12.12s", ctime( (time_t*)&(t_utmp->ut_time) ) + 4 ); //+4--->去除天(day)和后面的空格 /*测试localtime用法
//当前时间
time_t now;
struct tm* pNow;
time( &now );
pNow = localtime( &now );
printf( "%d-%d-%d %d:%d", pNow->tm_year + 1900, pNow->tm_mon + 1, pNow->tm_mday, pNow->tm_hour, pNow->tm_min );
*/ struct tm* ptm;
time_t u_time = t_utmp->ut_time;
ptm = localtime( &u_time );
int ihour = ptm->tm_hour;
int imin = ptm->tm_min; char hour[] = "";
char hour2[] = "";
sprintf( hour2, "%d", ihour );
format_time( hour, hour2 ); char min[] = "";
char min2[] = "";
sprintf( min2, "%d", imin );
format_time( min, min2 ); //printf( "%d-%d-%d %d:%d", ptm->tm_year + 1900, ptm->tm_mon + 1, ptm->tm_mday, ihour, imin );
printf( "%d-%d-%d %s:%s", ptm->tm_year + , ptm->tm_mon + , ptm->tm_mday, hour, min ); printf( " " );
printf( "%-8.8s", t_utmp->ut_host ); printf( "\n" );
} int main(int argc, char *argv[])
{
struct utmp myutmp;
int fd = -;
int reclen = sizeof( myutmp ); fd = open( UTMP_FILE, O_RDONLY ); if( - == fd ) {
perror( "open utmp" );
exit( - );
} //printf( "fd = %d\n", fd ); while( read( fd, &myutmp, reclen ) == reclen ) {
count++;
show_info( &myutmp );
}
printf( "文件读取的次数:%d\n", count );
close( fd ); return ;
}
总结:
一个非常小的功能,囊括以下知识点:
1)文件读取
2)man手册与系统命令使用技巧
3)指针用法
4)字符串函数用法
5)时间函数用法
6)宏与typedef的用法