The startup and shutdown scripts in /etc/rc.d illustrate the uses (and usefulness) of many of these comands. These are usually invoked by root and used for system maintenance or emergency filesystem repairs. Use with caution, as some of these commands may damage your system if misused.
Show all logged on users. This is the approximate equivalent of who -q.
Lists the current user and the groups she belongs to. This corresponds to the $GROUPS internal variable, but gives the group names, rather than the numbers.
bash$ groups bozita cdrom cdwriter audio xgrp bash$ echo $GROUPS 501 |
The chown command changes the ownership of a file or files. This command is a useful method that root can use to shift file ownership from one user to another. An ordinary user may not change the ownership of files, not even her own files. [1]
root# chown bozo *.txt |
The chgrp command changes the group ownership of a file or files. You must be owner of the file(s) as well as a member of the destination group (or root) to use this operation.
chgrp --recursive dunderheads *.data # The "dunderheads" group will now own all the "*.data" files #+ all the way down the $PWD directory tree (that's what "recursive" means). |
The useradd administrative command adds a user account to the system and creates a home directory for that particular user, if so specified. The corresponding userdel command removes a user account from the system [2] and deletes associated files.
The adduser command is a synonym for useradd and is usually a symbolic link to it. |
Modify a user account. Changes may be made to the password, group membership, expiration date, and other attributes of a given user's account. With this command, a user's password may be locked, which has the effect of disabling the account.
Modify a given group. The group name and/or ID number may be changed using this command.
The id command lists the real and effective user IDs and the group IDs of the user associated with the current process. This is the counterpart to the $UID, $EUID, and $GROUPS internal Bash variables.
bash$ id uid=501(bozo) gid=501(bozo) groups=501(bozo),22(cdrom),80(cdwriter),81(audio) bash$ echo $UID 501 |
The id command shows the effective IDs only when they differ from the real ones. |
Also see Example 9-5.
Show all users logged on to the system.
bash$ who bozo tty1 Apr 27 17:45 bozo pts/0 Apr 27 17:46 bozo pts/1 Apr 27 17:47 bozo pts/2 Apr 27 17:49 |
The -m gives detailed information about only the current user. Passing any two arguments to who is the equivalent of who -m, as in who am i or who The Man.
bash$ who -m localhost.localdomain!bozo pts/2 Apr 27 17:49 |
whoami is similar to who -m, but only lists the user name.
bash$ whoami bozo |
Show all logged on users and the processes belonging to them. This is an extended version of who. The output of w may be piped to grep to find a specific user and/or process.
bash$ w | grep startx bozo tty1 - 4:22pm 6:41 4.47s 0.45s startx |
Show current user's login name (as found in /var/run/utmp). This is a near-equivalent to whoami, above.
bash$ logname bozo bash$ whoami bozo |
However...
bash$ su Password: ...... bash# whoami root bash# logname bozo |
While logname prints the name of the logged in user, whoami gives the name of the user attached to the current process. As we have just seen, sometimes these are not the same. |
Runs a program or script as a substitute user. su rjones starts a shell as user rjones. A naked su defaults to root. See Example A-16.
Runs a command as root (or another user). This may be used in a script, thus permitting a regular user to run the script.
#!/bin/bash # Some commands. sudo cp /root/secretfile /home/bozo/secret # Some more commands. |
The file /etc/sudoers holds the names of users permitted to invoke sudo.
Sets, changes, or manages a user's password.
The passwd command can be used in a script, but should not be.
Example 13-1. Setting a new password
#!/bin/bash # setnew-password.sh: For demonstration purposes only. # Not a good idea to actually run this script. # This script must be run as root. ROOT_UID=0 # Root has $UID 0. E_WRONG_USER=65 # Not root? E_NOSUCHUSER=70 SUCCESS=0 if [ "$UID" -ne "$ROOT_UID" ] then echo; echo "Only root can run this script."; echo exit $E_WRONG_USER else echo echo "You should know better than to run this script, root." echo "Even root users get the blues... " echo fi username=bozo NEWPASSWORD=security_violation # Check if bozo lives here. grep -q "$username" /etc/passwd if [ $? -ne $SUCCESS ] then echo "User $username does not exist." echo "No password changed." exit $E_NOSUCHUSER fi echo "$NEWPASSWORD" | passwd --stdin "$username" # The '--stdin' option to 'passwd' permits #+ getting a new password from stdin (or a pipe). echo; echo "User $username's password changed!" # Using the 'passwd' command in a script is dangerous. exit 0 |
The passwd command's -l, -u, and -d options permit locking, unlocking, and deleting a user's password. Only root may use these options.
Show users' logged in time, as read from /var/log/wtmp. This is one of the GNU accounting utilities.
bash$ ac total 68.08 |
List last logged in users, as read from /var/log/wtmp. This command can also show remote logins.
Change user's group ID without logging out. This permits access to the new group's files. Since users may be members of multiple groups simultaneously, this command finds little use.
Echoes the name of the current user's terminal. Note that each separate xterm window counts as a different terminal.
bash$ tty /dev/pts/1 |
Shows and/or changes terminal settings. This complex command, used in a script, can control terminal behavior and the way output displays. See the info page, and study it carefully.
Example 13-2. Setting an erase character
#!/bin/bash # erase.sh: Using "stty" to set an erase character when reading input. echo -n "What is your name? " read name # Try to backspace #+ to erase characters of input. # Problems? echo "Your name is $name." stty erase '#' # Set "hashmark" (#) as erase character. echo -n "What is your name? " read name # Use # to erase last character typed. echo "Your name is $name." # Warning: Even after the script exits, the new key value remains set. exit 0 |
Example 13-3. secret password: Turning off terminal echoing
#!/bin/bash echo echo -n "Enter password " read passwd echo "password is $passwd" echo -n "If someone had been looking over your shoulder, " echo "your password would have been compromised." echo && echo # Two line-feeds in an "and list". stty -echo # Turns off screen echo. echo -n "Enter password again " read passwd echo echo "password is $passwd" echo stty echo # Restores screen echo. exit 0 |
A creative use of stty is detecting a user keypress (without hitting ENTER).
Example 13-4. Keypress detection
#!/bin/bash # keypress.sh: Detect a user keypress ("hot keyboard"). echo old_tty_settings=$(stty -g) # Save old settings. stty -icanon Keypress=$(head -c1) # or $(dd bs=1 count=1 2> /dev/null) # on non-GNU systems echo echo "Key pressed was \""$Keypress"\"." echo stty "$old_tty_settings" # Restore old settings. # Thanks, Stephane Chazelas. exit 0 |
Also see Example 9-3.
Set certain terminal attributes. This command writes to its terminal's stdout a string that changes the behavior of that terminal.
bash$ setterm -cursor off bash$ |
The setterm command can be used within a script to change the appearance of text written to stdout, although there are certainly better tools available for this purpose.
setterm -bold on echo bold hello setterm -bold off echo normal hello |
Show or initialize terminal settings. This is a less capable version of stty.
bash$ tset -r Terminal type is xterm-xfree86. Kill is control-U (^U). Interrupt is control-C (^C). |
Set or display serial port parameters. This command must be run by root user and is usually found in a system setup script.
# From /etc/pcmcia/serial script: IRQ=`setserial /dev/$DEVICE | sed -e 's/.*IRQ: //'` setserial /dev/$DEVICE irq 0 ; setserial /dev/$DEVICE irq $IRQ |
The initialization process for a terminal uses getty or agetty to set it up for login by a user. These commands are not used within user shell scripts. Their scripting counterpart is stty.
Enables or disables write access to the current user's terminal. Disabling access would prevent another user on the network to write to the terminal.
It can be very annoying to have a message about ordering pizza suddenly appear in the middle of the text file you are editing. On a multi-user network, you might therefore wish to disable write access to your terminal when you need to avoid interruptions. |
This is an acronym for "write all", i.e., sending a message to all users at every terminal logged into the network. It is primarily a system administrator's tool, useful, for example, when warning everyone that the system will shortly go down due to a problem (see Example 17-2).
bash$ wall System going down for maintenance in 5 minutes! Broadcast message from bozo (pts/1) Sun Jul 8 13:53:27 2001... System going down for maintenance in 5 minutes! |
If write access to a particular terminal has been disabled with mesg, then wall cannot send a message to it. |
Lists all system bootup messages to stdout. Handy for debugging and ascertaining which device drivers were installed and which system interrupts in use. The output of dmesg may, of course, be parsed with grep, sed, or awk from within a script.
bash$ dmesg | grep hda Kernel command line: ro root=/dev/hda2 hda: IBM-DLGA-23080, ATA DISK drive hda: 6015744 sectors (3080 MB) w/96KiB Cache, CHS=746/128/63 hda: hda1 hda2 hda3 < hda5 hda6 hda7 > hda4 |
Output system specifications (OS, kernel version, etc.) to stdout. Invoked with the -a option, gives verbose system info (see Example 12-5). The -s option shows only the OS type.
bash$ uname -a Linux localhost.localdomain 2.2.15-2.5.0 #1 Sat Feb 5 00:13:43 EST 2000 i686 unknown bash$ uname -s Linux |
Show system architecture. Equivalent to uname -m. See Example 10-26.
bash$ arch i686 bash$ uname -m i686 |
Gives information about previous commands, as stored in the /var/account/pacct file. Command name and user name can be specified by options. This is one of the GNU accounting utilities.
List the last login time of all system users. This references the /var/log/lastlog file.
bash$ lastlog root tty1 Fri Dec 7 18:43:21 -0700 2001 bin **Never logged in** daemon **Never logged in** ... bozo tty1 Sat Dec 8 21:14:29 -0700 2001 bash$ lastlog | grep root root tty1 Fri Dec 7 18:43:21 -0700 2001 |
This command will fail if the user invoking it does not have read permission for the /var/log/lastlog file. |
List open files. This command outputs a detailed table of all currently open files and gives information about their owner, size, the processes associated with them, and more. Of course, lsof may be piped to grep and/or awk to parse and analyze its results.
bash$ lsof COMMAND PID USER FD TYPE DEVICE SIZE NODE NAME init 1 root mem REG 3,5 30748 30303 /sbin/init init 1 root mem REG 3,5 73120 8069 /lib/ld-2.1.3.so init 1 root mem REG 3,5 931668 8075 /lib/libc-2.1.3.so cardmgr 213 root mem REG 3,5 36956 30357 /sbin/cardmgr ... |
Diagnostic and debugging tool for tracing system calls and signals. The simplest way of invoking it is strace COMMAND.
bash$ strace df execve("/bin/df", ["df"], [/* 45 vars */]) = 0 uname({sys="Linux", node="bozo.localdomain", ...}) = 0 brk(0) = 0x804f5e4 ... |
This is the Linux equivalent of truss.
Network port scanner. This command scans a server to locate open ports and the services associated with those ports. It is an important security tool for locking down a network against hacking attempts.
#!/bin/bash SERVER=$HOST # localhost.localdomain (127.0.0.1). PORT_NUMBER=25 # SMTP port. nmap $SERVER | grep -w "$PORT_NUMBER" # Is that particular port open? # grep -w matches whole words only, #+ so this wouldn't match port 1025, for example. exit 0 # 25/tcp open smtp |
Shows memory and cache usage in tabular form. The output of this command lends itself to parsing, using grep, awk or Perl. The procinfo command shows all the information that free does, and much more.
bash$ free total used free shared buffers cached Mem: 30504 28624 1880 15820 1608 16376 -/+ buffers/cache: 10640 19864 Swap: 68540 3128 65412 |
To show unused RAM memory:
bash$ free | grep Mem | awk '{ print $4 }' 1880 |
Extract and list information and statistics from the /proc pseudo-filesystem. This gives a very extensive and detailed listing.
bash$ procinfo | grep Bootup Bootup: Wed Mar 21 15:15:50 2001 Load average: 0.04 0.21 0.34 3/47 6829 |
List devices, that is, show installed hardware.
bash$ lsdev Device DMA IRQ I/O Ports ------------------------------------------------ cascade 4 2 dma 0080-008f dma1 0000-001f dma2 00c0-00df fpu 00f0-00ff ide0 14 01f0-01f7 03f6-03f6 ... |
Show (disk) file usage, recursively. Defaults to current working directory, unless otherwise specified.
bash$ du -ach 1.0k ./wi.sh 1.0k ./tst.sh 1.0k ./random.file 6.0k . 6.0k total |
Shows filesystem usage in tabular form.
bash$ df Filesystem 1k-blocks Used Available Use% Mounted on /dev/hda5 273262 92607 166547 36% / /dev/hda8 222525 123951 87085 59% /home /dev/hda7 1408796 1075744 261488 80% /usr |
Gives detailed and verbose statistics on a given file (even a directory or device file) or set of files.
bash$ stat test.cru File: "test.cru" Size: 49970 Allocated Blocks: 100 Filetype: Regular File Mode: (0664/-rw-rw-r--) Uid: ( 501/ bozo) Gid: ( 501/ bozo) Device: 3,8 Inode: 18185 Links: 1 Access: Sat Jun 2 16:40:24 2001 Modify: Sat Jun 2 16:40:24 2001 Change: Sat Jun 2 16:40:24 2001 |
If the target file does not exist, stat returns an error message.
bash$ stat nonexistent-file nonexistent-file: No such file or directory |
Display virtual memory statistics.
bash$ vmstat procs memory swap io system cpu r b w swpd free buff cache si so bi bo in cs us sy id 0 0 0 0 11040 2636 38952 0 0 33 7 271 88 8 3 89 |
Show current network statistics and information, such as routing tables and active connections. This utility accesses information in /proc/net (Chapter 28). See Example 28-3.
netstat -r is equivalent to route.
bash$ netstat Active Internet connections (w/o servers) Proto Recv-Q Send-Q Local Address Foreign Address State Active UNIX domain sockets (w/o servers) Proto RefCnt Flags Type State I-Node Path unix 11 [ ] DGRAM 906 /dev/log unix 3 [ ] STREAM CONNECTED 4514 /tmp/.X11-unix/X0 unix 3 [ ] STREAM CONNECTED 4513 . . . |
Shows how long the system has been running, along with associated statistics.
bash$ uptime 10:28pm up 1:57, 3 users, load average: 0.17, 0.34, 0.27 |
Lists the system's host name. This command sets the host name in an /etc/rc.d setup script (/etc/rc.d/rc.sysinit or similar). It is equivalent to uname -n, and a counterpart to the $HOSTNAME internal variable.
bash$ hostname localhost.localdomain bash$ echo $HOSTNAME localhost.localdomain |
Similar to the hostname command are the domainname, dnsdomainname, nisdomainname, and ypdomainname commands. Use these to display or set the system DNS or NIS/YP domain name. Various options to hostname also perform these functions.
Echo a 32-bit hexadecimal numerical identifier for the host machine.
bash$ hostid 7f0100 |
This command allegedly fetches a "unique" serial number for a particular system. Certain product registration procedures use this number to brand a particular user license. Unfortunately, hostid only returns the machine network address in hexadecimal, with pairs of bytes transposed. The network address of a typical non-networked Linux machine, is found in /etc/hosts.
As it happens, transposing the bytes of 127.0.0.1, we get 0.127.1.0, which translates in hex to 007f0100, the exact equivalent of what hostid returns, above. There exist only a few million other Linux machines with this identical hostid. |
Invoking sar (System Activity Reporter) gives a very detailed rundown on system statistics. The Santa Cruz Operation (SCO) released sar as Open Source in June, 1999.
This command is not part of the base Linux distribution, but may be obtained as part of the sysstat utilities package, written by Sebastien Godard.
bash$ sar Linux 2.4.9 (brooks.seringas.fr) 09/26/03 10:30:00 CPU %user %nice %system %iowait %idle 10:40:00 all 2.21 10.90 65.48 0.00 21.41 10:50:00 all 3.36 0.00 72.36 0.00 24.28 11:00:00 all 1.12 0.00 80.77 0.00 18.11 Average: all 2.23 3.63 72.87 0.00 21.27 14:32:30 LINUX RESTART 15:00:00 CPU %user %nice %system %iowait %idle 15:10:00 all 8.59 2.40 17.47 0.00 71.54 15:20:00 all 4.07 1.00 11.95 0.00 82.98 15:30:00 all 0.79 2.94 7.56 0.00 88.71 Average: all 6.33 1.70 14.71 0.00 77.26 |
Show information and statistics about a designated elf binary. This is part of the binutils package.
bash$ readelf -h /bin/bash ELF Header: Magic: 7f 45 4c 46 01 01 01 00 00 00 00 00 00 00 00 00 Class: ELF32 Data: 2's complement, little endian Version: 1 (current) OS/ABI: UNIX - System V ABI Version: 0 Type: EXEC (Executable file) . . . |
The size [/path/to/binary] command gives the segment sizes of a binary executable or archive file. This is mainly of use to programmers.
bash$ size /bin/bash text data bss dec hex filename 495971 22496 17392 535859 82d33 /bin/bash |
Appends a user-generated message to the system log (/var/log/messages). You do not have to be root to invoke logger.
logger Experiencing instability in network connection at 23:10, 05/21. # Now, do a 'tail /var/log/messages'. |
By embedding a logger command in a script, it is possible to write debugging information to /var/log/messages.
logger -t $0 -i Logging at line "$LINENO". # The "-t" option specifies the tag for the logger entry. # The "-i" option records the process ID. # tail /var/log/message # ... # Jul 7 20:48:58 localhost ./test.sh[1712]: Logging at line 3. |
This utility manages the system log files, rotating, compressing, deleting, and/or mailing them, as appropriate. Usually cron runs logrotate on a daily basis.
Adding an appropriate entry to /etc/logrotate.conf makes it possible to manage personal log files, as well as system-wide ones.
Process Statistics: lists currently executing processes by owner and PID (process ID). This is usually invoked with ax options, and may be piped to grep or sed to search for a specific process (see Example 11-11 and Example 28-2).
bash$ ps ax | grep sendmail 295 ? S 0:00 sendmail: accepting connections on port 25 |
Lists currently executing processes in "tree" format. The -p option shows the PIDs, as well as the process names.
Continuously updated display of most cpu-intensive processes. The -b option displays in text mode, so that the output may be parsed or accessed from a script.
bash$ top -b 8:30pm up 3 min, 3 users, load average: 0.49, 0.32, 0.13 45 processes: 44 sleeping, 1 running, 0 zombie, 0 stopped CPU states: 13.6% user, 7.3% system, 0.0% nice, 78.9% idle Mem: 78396K av, 65468K used, 12928K free, 0K shrd, 2352K buff Swap: 157208K av, 0K used, 157208K free 37244K cached PID USER PRI NI SIZE RSS SHARE STAT %CPU %MEM TIME COMMAND 848 bozo 17 0 996 996 800 R 5.6 1.2 0:00 top 1 root 8 0 512 512 444 S 0.0 0.6 0:04 init 2 root 9 0 0 0 0 SW 0.0 0.0 0:00 keventd ... |
Run a background job with an altered priority. Priorities run from 19 (lowest) to -20 (highest). Only root may set the negative (higher) priorities. Related commands are renice, snice, and skill.
Keeps a command running even after user logs off. The command will run as a foreground process unless followed by &. If you use nohup within a script, consider coupling it with a wait to avoid creating an orphan or zombie process.
Identifies process ID (PID) of a running job. Since job control commands, such as kill and renice act on the PID of a process (not its name), it is sometimes necessary to identify that PID. The pidof command is the approximate counterpart to the $PPID internal variable.
bash$ pidof xclock 880 |
Example 13-5. pidof helps kill a process
#!/bin/bash # kill-process.sh NOPROCESS=2 process=xxxyyyzzz # Use nonexistent process. # For demo purposes only... # ... don't want to actually kill any actual process with this script. # # If, for example, you wanted to use this script to logoff the Internet, # process=pppd t=`pidof $process` # Find pid (process id) of $process. # The pid is needed by 'kill' (can't 'kill' by program name). if [ -z "$t" ] # If process not present, 'pidof' returns null. then echo "Process $process was not running." echo "Nothing killed." exit $NOPROCESS fi kill $t # May need 'kill -9' for stubborn process. # Need a check here to see if process allowed itself to be killed. # Perhaps another " t=`pidof $process` ". # This entire script could be replaced by # kill $(pidof -x process_name) # but it would not be as instructive. exit 0 |
Identifies the processes (by PID) that are accessing a given file, set of files, or directory. May also be invoked with the -k option, which kills those processes. This has interesting implications for system security, especially in scripts preventing unauthorized users from accessing system services.
One important application for fuser is when physically inserting or removing storage media, such as CD ROM disks or USB flash drives. Sometimes trying a umount fails with a device is busy error message. This means that some user(s) and/or process(es) are accessing the device. An fuser -um /device_name will clear up the mystery, so you can kill any relevant processes.
bash$ umount /mnt/usbdrive umount: /mnt/usbdrive: device is busy bash$ fuser -um /dev/usbdrive /mnt/usbdrive: 1772c(bozo) bash$ kill -9 1772 bash$ umount /mnt/usbdrive |
Administrative program scheduler, performing such duties as cleaning up and deleting system log files and updating the slocate database. This is the superuser version of at (although each user may have their own crontab file which can be changed with the crontab command). It runs as a daemon and executes scheduled entries from /etc/crontab.
Some flavors of Linux run crond, Matthew Dillon's version of cron. |
The init command is the parent of all processes. Called in the final step of a bootup, init determines the runlevel of the system from /etc/inittab. Invoked by its alias telinit, and by root only.
Symlinked to init, this is a means of changing the system runlevel, usually done for system maintenance or emergency filesystem repairs. Invoked only by root. This command can be dangerous - be certain you understand it well before using!
Shows the current and last runlevel, that is, whether the system is halted (runlevel 0), in single-user mode (1), in multi-user mode (2 or 3), in X Windows (5), or rebooting (6). This command accesses the /var/run/utmp file.
Command set to shut the system down, usually just prior to a power down.
Network interface configuration and tuning utility.
bash$ ifconfig -a lo Link encap:Local Loopback inet addr:127.0.0.1 Mask:255.0.0.0 UP LOOPBACK RUNNING MTU:16436 Metric:1 RX packets:10 errors:0 dropped:0 overruns:0 frame:0 TX packets:10 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:0 RX bytes:700 (700.0 b) TX bytes:700 (700.0 b) |
The ifconfig command is most often used at bootup to set up the interfaces, or to shut them down when rebooting.
# Code snippets from /etc/rc.d/init.d/network # ... # Check that networking is up. [ ${NETWORKING} = "no" ] && exit 0 [ -x /sbin/ifconfig ] || exit 0 # ... for i in $interfaces ; do if ifconfig $i 2>/dev/null | grep -q "UP" >/dev/null 2>&1 ; then action "Shutting down interface $i: " ./ifdown $i boot fi # The GNU-specific "-q" option to "grep" means "quiet", i.e., producing no output. # Redirecting output to /dev/null is therefore not strictly necessary. # ... echo "Currently active devices:" echo `/sbin/ifconfig | grep ^[a-z] | awk '{print $1}'` # ^^^^^ should be quoted to prevent globbing. # The following also work. # echo $(/sbin/ifconfig | awk '/^[a-z]/ { print $1 })' # echo $(/sbin/ifconfig | sed -e 's/ .*//') # Thanks, S.C., for additional comments. |
See also Example 30-6.
This is the command set for configuring a wireless network. It is the wireless equivalent of ifconfig, above.
Show info about or make changes to the kernel routing table.
bash$ route Destination Gateway Genmask Flags MSS Window irtt Iface pm3-67.bozosisp * 255.255.255.255 UH 40 0 0 ppp0 127.0.0.0 * 255.0.0.0 U 40 0 0 lo default pm3-67.bozosisp 0.0.0.0 UG 40 0 0 ppp0 |
Check network configuration. This command lists and manages the network services started at bootup in the /etc/rc?.d directory.
Originally a port from IRIX to Red Hat Linux, chkconfig may not be part of the core installation of some Linux flavors.
bash$ chkconfig --list atd 0:off 1:off 2:off 3:on 4:on 5:on 6:off rwhod 0:off 1:off 2:off 3:off 4:off 5:off 6:off ... |
Network packet "sniffer". This is a tool for analyzing and troubleshooting traffic on a network by dumping packet headers that match specified criteria.
Dump ip packet traffic between hosts bozoville and caduceus:
bash$ tcpdump ip host bozoville and caduceus |
Of course, the output of tcpdump can be parsed, using certain of the previously discussed text processing utilities.
Mount a filesystem, usually on an external device, such as a floppy or CDROM. The file /etc/fstab provides a handy listing of available filesystems, partitions, and devices, including options, that may be automatically or manually mounted. The file /etc/mtab shows the currently mounted filesystems and partitions (including the virtual ones, such as /proc).
mount -a mounts all filesystems and partitions listed in /etc/fstab, except those with a noauto option. At bootup, a startup script in /etc/rc.d (rc.sysinit or something similar) invokes this to get everything mounted.
mount -t iso9660 /dev/cdrom /mnt/cdrom # Mounts CDROM mount /mnt/cdrom # Shortcut, if /mnt/cdrom listed in /etc/fstab |
This versatile command can even mount an ordinary file on a block device, and the file will act as if it were a filesystem. Mount accomplishes that by associating the file with a loopback device. One application of this is to mount and examine an ISO9660 image before burning it onto a CDR. [3]
Example 13-6. Checking a CD image
# As root... mkdir /mnt/cdtest # Prepare a mount point, if not already there. mount -r -t iso9660 -o loop cd-image.iso /mnt/cdtest # Mount the image. # "-o loop" option equivalent to "losetup /dev/loop0" cd /mnt/cdtest # Now, check the image. ls -alR # List the files in the directory tree there. # And so forth. |
Unmount a currently mounted filesystem. Before physically removing a previously mounted floppy or CDROM disk, the device must be umounted, else filesystem corruption may result.
umount /mnt/cdrom # You may now press the eject button and safely remove the disk. |
The automount utility, if properly installed, can mount and unmount floppies or CDROM disks as they are accessed or removed. On laptops with swappable floppy and CDROM drives, this can cause problems, though. |
Forces an immediate write of all updated data from buffers to hard drive (synchronize drive with buffers). While not strictly necessary, a sync assures the sys admin or user that the data just changed will survive a sudden power failure. In the olden days, a sync; sync (twice, just to make absolutely sure) was a useful precautionary measure before a system reboot.
At times, you may wish to force an immediate buffer flush, as when securely deleting a file (see Example 12-50) or when the lights begin to flicker.
Sets up and configures loopback devices.
Creates a swap partition or file. The swap area must subsequently be enabled with swapon.
Enable / disable swap partitition or file. These commands usually take effect at bootup and shutdown.
Create a Linux ext2 filesystem. This command must be invoked as root.
Example 13-8. Adding a new hard drive
#!/bin/bash # Adding a second hard drive to system. # Software configuration. Assumes hardware already mounted. # From an article by the author of this document. # In issue #38 of "Linux Gazette", http://www.linuxgazette.com. ROOT_UID=0 # This script must be run as root. E_NOTROOT=67 # Non-root exit error. if [ "$UID" -ne "$ROOT_UID" ] then echo "Must be root to run this script." exit $E_NOTROOT fi # Use with extreme caution! # If something goes wrong, you may wipe out your current filesystem. NEWDISK=/dev/hdb # Assumes /dev/hdb vacant. Check! MOUNTPOINT=/mnt/newdisk # Or choose another mount point. fdisk $NEWDISK mke2fs -cv $NEWDISK1 # Check for bad blocks & verbose output. # Note: /dev/hdb1, *not* /dev/hdb! mkdir $MOUNTPOINT chmod 777 $MOUNTPOINT # Makes new drive accessible to all users. # Now, test... # mount -t ext2 /dev/hdb1 /mnt/newdisk # Try creating a directory. # If it works, umount it, and proceed. # Final step: # Add the following line to /etc/fstab. # /dev/hdb1 /mnt/newdisk ext2 defaults 1 1 exit 0 |
See also Example 13-7 and Example 29-3.
Tune ext2 filesystem. May be used to change filesystem parameters, such as maximum mount count. This must be invoked as root.
This is an extremely dangerous command. Use it at your own risk, as you may inadvertently destroy your filesystem. |
Dump (list to stdout) very verbose filesystem info. This must be invoked as root.
root# dumpe2fs /dev/hda7 | grep 'ount count' dumpe2fs 1.19, 13-Jul-2000 for EXT2 FS 0.5b, 95/08/09 Mount count: 6 Maximum mount count: 20 |
List or change hard disk parameters. This command must be invoked as root, and it may be dangerous if misused.
Create or change a partition table on a storage device, usually a hard drive. This command must be invoked as root.
Use this command with extreme caution. If something goes wrong, you may destroy an existing filesystem. |
Filesystem check, repair, and debug command set.
fsck: a front end for checking a UNIX filesystem (may invoke other utilities). The actual filesystem type generally defaults to ext2.
e2fsck: ext2 filesystem checker.
debugfs: ext2 filesystem debugger. One of the uses of this versatile, but dangerous command is to (attempt to) recover deleted files. For advanced users only!
All of these should be invoked as root, and they can damage or destroy a filesystem if misused. |
Checks for bad blocks (physical media flaws) on a storage device. This command finds use when formatting a newly installed hard drive or testing the integrity of backup media. [4] As an example, badblocks /dev/fd0 tests a floppy disk.
The badblocks command may be invoked destructively (overwrite all data) or in non-destructive read-only mode. If root user owns the device to be tested, as is generally the case, then root must invoke this command.
The lsusb command lists all USB (Universal Serial Bus) buses and the devices hooked up to them.
The usbmodules command outputs information about the driver modules for connected USB devices.
root# lsusb Bus 001 Device 001: ID 0000:0000 Device Descriptor: bLength 18 bDescriptorType 1 bcdUSB 1.00 bDeviceClass 9 Hub bDeviceSubClass 0 bDeviceProtocol 0 bMaxPacketSize0 8 idVendor 0x0000 idProduct 0x0000 . . . |
Creates a boot floppy which can be used to bring up the system if, for example, the MBR (master boot record) becomes corrupted. The mkbootdisk command is actually a Bash script, written by Erik Troan, in the /sbin directory.
CHange ROOT directory. Normally commands are fetched from $PATH, relative to /, the default root directory. This changes the root directory to a different one (and also changes the working directory to there). This is useful for security purposes, for instance when the system administrator wishes to restrict certain users, such as those telnetting in, to a secured portion of the filesystem (this is sometimes referred to as confining a guest user to a "chroot jail"). Note that after a chroot, the execution path for system binaries is no longer valid.
A chroot /opt would cause references to /usr/bin to be translated to /opt/usr/bin. Likewise, chroot /aaa/bbb /bin/ls would redirect future instances of ls to /aaa/bbb as the base directory, rather than / as is normally the case. An alias XX 'chroot /aaa/bbb ls' in a user's ~/.bashrc effectively restricts which portion of the filesystem she may run command "XX" on.
The chroot command is also handy when running from an emergency boot floppy (chroot to /dev/fd0), or as an option to lilo when recovering from a system crash. Other uses include installation from a different filesystem (an rpm option) or running a readonly filesystem from a CD ROM. Invoke only as root, and use with care.
It might be necessary to copy certain system files to a chrooted directory, since the normal $PATH can no longer be relied upon. |
This utility is part of the procmail package (www.procmail.org). It creates a lock file, a semaphore file that controls access to a file, device, or resource. The lock file serves as a flag that this particular file, device, or resource is in use by a particular process ("busy"), and this permits only restricted access (or no access) to other processes.
Lock files are used in such applications as protecting system mail folders from simultaneously being changed by multiple users, indicating that a modem port is being accessed, and showing that an instance of Netscape is using its cache. Scripts may check for the existence of a lock file created by a certain process to check if that process is running. Note that if a script attempts to create a lock file that already exists, the script will likely hang.
Normally, applications create and check for lock files in the /var/lock directory. A script can test for the presence of a lock file by something like the following.
appname=xyzip # Application "xyzip" created lock file "/var/lock/xyzip.lock". if [ -e "/var/lock/$appname.lock ] then ... |
Creates block or character device files (may be necessary when installing new hardware on the system). The MAKEDEV utility has virtually all of the functionality of mknod, and is easier to use.
Utility for creating device files. It must be run as root, and in the /dev directory.
root# ./MAKEDEV |
Automatically deletes files which have not been accessed within a specified period of time. Usually invoked by cron to remove stale log files.
The dump command is an elaborate filesystem backup utility, generally used on larger installations and networks. [5] It reads raw disk partitions and writes a backup file in a binary format. Files to be backed up may be saved to a variety of storage media, including disks and tape drives. The restore command restores backups made with dump.
Perform a low-level format on a floppy disk.
Sets an upper limit on use of system resources. Usually invoked with the -f option, which sets a limit on file size (ulimit -f 1000 limits files to 1 meg maximum). The -t option limits the coredump size (ulimit -c 0 eliminates coredumps). Normally, the value of ulimit would be set in /etc/profile and/or ~/.bash_profile (see Chapter 27).
Judicious use of ulimit can protect a system against the dreaded fork bomb.
A ulimit -Hu XX (where XX is the user process limit) in /etc/profile would abort this script when it exceeds the preset limit. |
Set user or group disk quotas from the command line.
User file creation MASK. Limit the default file attributes for a particular user. All files created by that user take on the attributes specified by umask. The (octal) value passed to umask defines the file permissions disabled. For example, umask 022 ensures that new files will have at most 755 permissions (777 NAND 022). [6] Of course, the user may later change the attributes of particular files with chmod. The usual practice is to set the value of umask in /etc/profile and/or ~/.bash_profile (see Chapter 27).
Get info about or make changes to root device, swap space, or video mode. The functionality of rdev has generally been taken over by lilo, but rdev remains useful for setting up a ram disk. This is a dangerous command, if misused.
List installed kernel modules.
bash$ lsmod Module Size Used by autofs 9456 2 (autoclean) opl3 11376 0 serial_cs 5456 0 (unused) sb 34752 0 uart401 6384 0 [sb] sound 58368 0 [opl3 sb uart401] soundlow 464 0 [sound] soundcore 2800 6 [sb sound] ds 6448 2 [serial_cs] i82365 22928 2 pcmcia_core 45984 0 [serial_cs ds i82365] |
Doing a cat /proc/modules gives the same information. |
Force installation of a kernel module (use modprobe instead, when possible). Must be invoked as root.
Force unloading of a kernel module. Must be invoked as root.
Module loader that is normally invoked automatically in a startup script. Must be invoked as root.
Creates module dependency file, usually invoked from startup script.
Output information about a loadable module.
bash$ modinfo hid filename: /lib/modules/2.4.20-6/kernel/drivers/usb/hid.o description: "USB HID support drivers" author: "Andreas Gal, Vojtech Pavlik <vojtech@suse.cz>" license: "GPL" |
Runs a program or script with certain environmental variables set or changed (without changing the overall system environment). The [varname=xxx] permits changing the environmental variable varname for the duration of the script. With no options specified, this command lists all the environmental variable settings.
In Bash and other Bourne shell derivatives, it is possible to set variables in a single command's environment.
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The first line of a script (the "sha-bang" line) may use env when the path to the shell or interpreter is unknown.
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Show shared lib dependencies for an executable file.
bash$ ldd /bin/ls libc.so.6 => /lib/libc.so.6 (0x4000c000) /lib/ld-linux.so.2 => /lib/ld-linux.so.2 (0x80000000) |
Run a command repeatedly, at specified time intervals.
The default is two-second intervals, but this may be changed with the -n option.
watch -n 5 tail /var/log/messages # Shows tail end of system log, /var/log/messages, every five seconds. |
Remove the debugging symbolic references from an executable binary. This decreases its size, but makes debugging it impossible.
This command often occurs in a Makefile, but rarely in a shell script.
List symbols in an unstripped compiled binary.
Remote distribution client: synchronizes, clones, or backs up a file system on a remote server.
Using our knowledge of administrative commands, let us examine a system script. One of the shortest and simplest to understand scripts is killall, used to suspend running processes at system shutdown.
Example 13-9. killall, from /etc/rc.d/init.d
#!/bin/sh # --> Comments added by the author of this document marked by "# -->". # --> This is part of the 'rc' script package # --> by Miquel van Smoorenburg, <miquels@drinkel.nl.mugnet.org> # --> This particular script seems to be Red Hat specific # --> (may not be present in other distributions). # Bring down all unneeded services that are still running (there shouldn't # be any, so this is just a sanity check) for i in /var/lock/subsys/*; do # --> Standard for/in loop, but since "do" is on same line, # --> it is necessary to add ";". # Check if the script is there. [ ! -f $i ] && continue # --> This is a clever use of an "and list", equivalent to: # --> if [ ! -f "$i" ]; then continue # Get the subsystem name. subsys=${i#/var/lock/subsys/} # --> Match variable name, which, in this case, is the file name. # --> This is the exact equivalent of subsys=`basename $i`. # --> It gets it from the lock file name (if there is a lock file, # -->+ that's proof the process has been running). # --> See the "lockfile" entry, above. # Bring the subsystem down. if [ -f /etc/rc.d/init.d/$subsys.init ]; then /etc/rc.d/init.d/$subsys.init stop else /etc/rc.d/init.d/$subsys stop # --> Suspend running jobs and daemons. # --> Note that "stop" is a positional parameter, # -->+ not a shell builtin. fi done |
That wasn't so bad. Aside from a little fancy footwork with variable matching, there is no new material there.
Exercise 1. In /etc/rc.d/init.d, analyze the halt script. It is a bit longer than killall, but similar in concept. Make a copy of this script somewhere in your home directory and experiment with it (do not run it as root). Do a simulated run with the -vn flags (sh -vn scriptname). Add extensive comments. Change the "action" commands to "echos".
Exercise 2. Look at some of the more complex scripts in /etc/rc.d/init.d. See if you can understand parts of them. Follow the above procedure to analyze them. For some additional insight, you might also examine the file sysvinitfiles in /usr/share/doc/initscripts-?.??, which is part of the "initscripts" documentation.
[1] | This is the case on a Linux machine or a UNIX system with disk quotas. |
[2] | The userdel command will fail if the particular user being deleted is still logged on. |
[3] | For more detail on burning CDRs, see Alex Withers' article, Creating CDs, in the October, 1999 issue of Linux Journal. |
[4] | The -c option to mke2fs also invokes a check for bad blocks. |
[5] | Operators of single-user Linux systems generally prefer something simpler for backups, such as tar. |
[6] | NAND is the logical "not-and" operator. Its effect is somewhat similar to subtraction. |