1 rh033 redhat enterprise linux essentials. 2 unit 1 redhat linux essentials overview
Post on 24-Dec-2015
272 Views
Preview:
TRANSCRIPT
1
RH033
Redhat Enterprise Linux Essentials
2
Unit 1
Redhat Linux Essentials Overview
3
Redhat Enterprise Linux Certified with Leading OEM and ISV Products
ISV Independent Software Vendor OEM Original Equipment Manufacturer
ABI/API Compatibility Application Binary Interface Application Programming Interface ELF Executable and Linking Format LSB Linux Standards Base BEA BEA System Inc, San Jose, California. “Think
Liquid” HPC High Performance Computing
4
Unix Flavors
UNIX from AT&T, at Bell Labs, in 1969.
AIX from IBM HP/UX from Hewlett-Packard SunOS (Later Solaris) from Sun IRIX from SGI (Silicon Graphics)
5
Unix Principles
Everything is a file. Including hardware
Configuration data stored in text Small, single-purpose programs Avoid Captive User Interfaces Ability to chain programs together
to perform complex tasks.
6
GNU Project / FSF GNU Project started in 1984
Goal : Create “Free” UNIX clone By, 1990, Nearly all required userspace
application created. gcc, emacs etc.
Free Software Foundation Non-profit Organization that manages the
GNU Project Four Freedoms
http://www.gnu.org/philosophy/free-sw.html
7
GPL – GNU General Public License
Primary license for Open Source Software Encourages free software All enhancements and changes to GPL-
software must also be GPL Often called “CopyLeft”
“All rights Reversed” http://www.gnu.org/copyleft/gpl.html X Window System, has it’s own T&C. BSD code need to be abide the terms of
Berkeley Software Distribution. Visit http://www.bsd.com
8
Linux Origins
Linux Torvalds Finish College Student in 1991 Created Linux Kernel
When Linux Kernel Combined with GNUApplications, complete free UNIX-like
OS possible.
9
Why Linux? Fresh Implementation of UNIX APIs. Open Source Development model. Supports wide variety of hardware. Supports many networking protocols and
configurations. Fully supported. Linux is a UNIX-like OS. Multi-user and Multi-tasking. Wide hardware support. Checklist. Fully Supported.
10
Redhat Enterprise Linux A distribution of Linux
Custom version of a recent Linux Kernel. Utilities and applications. Installation and configuration software Support available. RHEL includes installation and configuration
software, a patched and rigorously tested recent version of the Linux Kernel, and thousands of utilities and applications.
gdm is the default display manager for RHEL.
11
Recommended Hardware Specifications for RHEL
Pentium Pro or better with 256 MB RAM Or
64-bit Intel/AMD with 512 MB RAM 2-6 GB Disk Space Bootable CD Other processor architectures
supported Itanium 2, IBM Power, IBM Mainframe.
12
Virtual Consoles Virtual Consoles are available through CTRL –
ALT – F[1-6] If X is running, it is available as CTRL – ALT – F7 The virtual consoles enable a user to have
multiple logins even when not using an X Window system.
You can scroll at the virtual consoles by using SHIFT-PAGEUP and SHIFT-PAGEDOWN. The scroll buffer is stored in video memory, so if you are running a graphical program such as X, the scroll buffer is lost.
13
The Xorg GUI Framework The goal of X.Org include a faster and more open development
model than Xfree86, support for a wide variety of video cards and input devices and the development of a highly modular and flexible graphical framework for Unix and Linux.
http://xorg.freedesktop.org Or
http://www.x.org/wiki X Client activity that spawns an X server event informing the
web browser to send an HTTP request to the link’s target ( or anchor). You do not really see the X server, but X clients.
X provides the data I/O infrastructure for X clients, like a human nervous system, it sends messages when touched by client activity.
An X Client running on one system can display on any X server running on any operating system, if sufficient access is granted.
For each managed display, this socket is /tmp/.X11-unix/X# where # is 0 to the greatest number of permitted connections.
14
Xorg Graphical Environments Collections of applications that
provide a graphical working environment with a consistent look and feel.
GNOME (GNU Network Object Model Environment) The default desktop environment.
KDE ( K before L) Environment based on the Qt toolkit.
15
Starting Xorg Nothing needed if system boots to a
graphical login. Just authenticate. If system boots to a virtual console
login, Xorg must be started manually. Run startx to manually start Xorg.
Changing Password. At least 6 but no more that 255
characters. Other criteria depends on particular OS.
16
Unit 2
Running Commands and Getting Help
17
Getting Help
--help whatis -- with makewhatis man info /usr/share/doc/html/en/ Software source code Documentations
18
Running Commands Commands have the following syntax:
Command [ options] [arguments] Each item is separated by a space. Options modify the command’s behavior
Word options usually preceded by “--” Single-letter options usually preceded by “-”
Can be passed as “-a –b –c “ or “-abc”
Arguments are filenames or other date needed by the commands.
19
The –help option Anything in straight braces ([]) is optional. Anything followed by “…” represents an
arbitrary-length list of that thing. If you see multiple options separated by pipes
(|), it means you can use any one of them. Text in straight brackets(<>) represents
variable date. So <filename> means “insert the filename you wish to use here”.
Sometimes, such variables are simply written in all CAPS.
20
The man Command The collection of all man pages on a system is called the
Linux Manual. The Linux is divided into sections, each of which covers a particular topic, and every man page is associated with exactly one of these sections.
The sections are: Manual Sections.
1 User Commands 2 System Calls 3 Library Calls 4 Special Files 5 File Formats 6 Games 7 Miscellaneous 8 Administrative Commands
man and man –k commands
21
The info command
info pages are structured like a website. Each page is divided into “nodes”. Links to nodes are preceded by “*”.
info [<command>] If you run info with no arguments you
will be presented with a list links to the top nodes of every available info page.
22
Navigating info Pages While viewing an info page Navigate with arrows, pgUp, pgDown
Tab Move to next link Enter Follow link the cursor is on n/p/u View next/previous/up-one
node s[<text>] Search for text (default: last
search) q Quit Viewing page
If you prefer the navigation keys used by man, such as using “/”, “n” and “N” to search, you can start info with the –vi-keys arguments.
23
Extended docs
/usr/share/doc http://www.redhat.com/docs
24
Miscellaneous
‘man –f foo’ is the same as ‘whatis foo’.
If your system has just been installed, neither man –f nor whatis will work until an administrator runs makewhatis.
ls –lh
25
Unit 3
Browsing the File system
26
Linux File Hierarchy Concepts Files and directories are organized into a
single-rooted inverted tree structure. Filesystem begins at the “root”
directory, represented by a lone “/” (Forward slash) character.
Names are case-sensitive. Paths are delimited by “/”. A user’s path is a list of directories that
are searched for commands typed at the command line.
27
Some Important Directories The essential binaries necessary to boot and
maintain the system reside in /bin for regular binaries and /sbin for system binaries.
Non-essential binaries, such as graphical environments, web browsers, office tools and so forth, are installed in /usr/bin and /usr/sbin.
On a newly installed system, there will also be /usr/local/bin and /usr/local/sbin directories, but they will be empty.
CD-ROM is mounted under /media/cdrom folder. Filesystems that are on non-removable media but
are not part of the RHEL, hierarchy are usually mounted under /mnt.
Visit http://www.pathname.com/fhs
28
Other Important Directories
/etc -System Configuration Files /tmp -Temporary files /boot -Kernel and boot loader /var and /svr -Server data /proc and /sys -system
Information The lib directories
/lib, /usr/lib, /usr/local/lib
29
On Folders Once a day the system automatically
deletes any files over seven days old in /tmp and it’s subdirectories.
The /var directory contains regularly-changing system files such as logs, print spools and email spools.
In the future, server data may be moved to the /srv directory so that /var only contains logs, spools and so forth.
Each shell and system process has a current working directory (cwd).
30
File and Directory Names Names may be up to 255 characters. All characters are valid, except the “/”.
It may be unwise to use certain specialcharacters in file or directory names.
Some characters should be protected with quotes when referencing them.
Names are case sensitive. Example: MAIL, Mail, mail and mAiL Again, possible but may not be wise.
To access a file with name contains special characters, enclose the filename in quotes.
31
Absolute Pathnames Absolute pathnames begin with a slash (/) Complete “road map” to file location. Can be used anytime you wish to specify a
file name. To change to your previous working directory
$ cd – A dash (-) represents your previous working
directory. It’s a handy shortcut to use to switch back and forth between two directories.
32
Copying Files and Directories cp – copy files and directories Usage:
cp [options] file destination More than one file may be copied at a time if
the destination is a directory. cp [options] file1 file2 dest
If final argument is an existing directory, a copy of the source files are placed in that directory with the same name as the source.
Otherwise, the destination is interpreted as a file name, and a copy of the source file is created with that.
33
On Copying When copying a single file to a
destination, cp first checks to see if a directory exists with the destination name.
If it does, a copy of the source file is placed there with it’s original name.
If not, the destination is assumed to be a new file name, and a copy of the source file is made with the destination name.
34
Moving and Renaming Files and Directories mv – move and/or rename files and directories. Usage:
mv [options] file destination More than one file may be moved at a time if
the destination is a directory. mv [options] file1 file2 dest
If the destination directory does not exit, the slash will cause the command to fail with an error message.
If the destination directory does not exist (but the destination pathname is valid), the source directory will be moved to the destination directory with the new name.
35
Creating and Removing Files rm – remove files Usage:
rm [options] filenames… -i – interactive -r – recursive -f – force
touch – create empty files or update file timestamps The –r option tells rm to remove files recursively and
thus it will delete directories and their contents. There is no way to undo the effects of rm, except to
restore from a backup. rmdir will only remove empty directories. To remove a
directory and it’s contents, use rm –r.
36
Using Nautilus Gnome graphical Filesystem browser Can run in “Spatial” or “Browser” mode Accessed via …
Desktop icons Home: Your home directory Computer: Root Filesystem, network resources
and removable media. “File Browser” option on Application menu.
Typing CTRL-SHIFT-w closes all parent windows.
“Spatial” or “Browser Mode” can be edited.
37
Moving and Copying in Nautilus
Drag and Drop Left-button: Move on same filesystem,
copy on different system. Ctrl-Left-button : Always Copy Ctrl-Left-button: Ask whether to copy,
move or create symbolic link (alias) Context Menu
Right-click or rename, cut, copy or paste.
38
Determining File Content Files can contain many types of data. Check file type with file before opening to
determine appropriate command or application to use.
Syntax file [options] filename(s)
file prints its best guess of the type of data contained in a file whose name is given as an argument. It bases it’s guess on a comparison of the contents of the file and the patterns and offsets in it’s reference file, /usr/share/magic.
39
Viewing an Entire Text File Syntax:
cat [options] [files..] Contents of the files are displayed
sequentially with no break. Files display “concatenated”.
-A Show all characters, including control characters and non-printing characters.
-s “Squeeze” multiple adjacent blank lines into a single blank line.
-b Number each (non-blank) line of output.
40
Viewing Text Page by Page Syntax:
less [options] [filename] Scroll with arrows/pgUp/pgDown Useful commands while viewing:
/text --search for text n --next match v -- open file in text editor.
less is the pager used by man
41
On less Less navigation commands: <space> move ahead one full screen <return>move ahead one line <Ctrl-d> move ahead (down) half a
screen g move to the top of the file. /text search forward for text n repeat last search q quit b move back one full screen k move back one line <Ctrl-u> move back (up) half a screen G move to the bottom of the file ?text search backward for text N repeat last search, but in opposite direction. v open file in a text editor (vi by default)
42
less options -c Clear before displaying. Screen is
redrawn instead of scrolled between screens.
-r Display raw control characters. (May cause display problems)
-s “squeeze” multiple blank lines into a single blank line
-e Exit the second time it reaches the end of the line.
-m Verbose prompt, like more (by default it uses a colon).
43
Unit 4
The bash Shell
44
bash introduction
“Bourne Again Shell” Successor to sh, the original Unix
shell Developed for the GNU Project The de factor standard Linux Shell Backward-compatible with Bourne
shell (sh)- the original (Standard) UNIX shell
45
bash Heritage and Features
Bourne Again Shell (bash) Implements many of the best features
from earlier shells: sh, csh, ksh , tcsh Command line completion Command line editing Command line history Sophisticated prompt control
46
Command Line Shortcuts:File Globbing Globbing is wildcard expansion:
* - matches zero or more characters ? – matches any single character [a-z] – matches a range of characters [^a-z] – matches all except the range.
The use of wildcards, or metacharacters, allows one pattern to expand to multiple filenames by a process called globbing.
RHEL uses UTF-8 encoding of characters, which means that each capital letter comes directly after the corresponding lower-case letter.
Use echo ?o* to find the effect of wild characters.
47
Some topics: Tab, history, ~ The TAB Key history
!! – to repeat last command !c – to repeat last command that started with c !n – to repeat a command by its number in history output !?abc – to repeat last command that contains (as opposed
to “started with”) abc !-n – to repeat a command entered n commands back. User ^old^new to repeat the last command with old
changed to new. Tilde(~)
May refer to your home directory ( ~/.bash_profile) May refer to another user’s home directory.
(~gmustafa/.bashrc)
48
Command Line Expansion:Variable and String Parameter/Variable: ($)
Substitute the value of a variable in a command line.
$ cd $HOME/public/html To see a list of variables and their values,
run the set command. Curly braces: { }
A string is created for every pattern inside the braces regardless if any file exists.
$ rm hello.{c,o} Curly braces are useful for generating patterned
strings.
49
Command Line Expansion:Command and Math Command Output – ‘’ or $ ()
Substitute output from a command in a command line.
$ echo “Hostname: `hostname`” $ echo “Hostname: $(hostname)”
Arithmetic - $[] Substitute result of arithmetic expression in a
command line. $echo Area : $[$X * $Y] $echo Area : `expr $X\*$Y`
50
Protecting form Expansion:Backslash
Backslash (\) is the escape character and makes the next character literal. $echo Your Cost :\$5.00
Used as last character on line to “Continue command on next line”
$find / -name foo* $find / -name foo\*
51
Protecting From Expansion: Quotes Quotes prevents expansion
Single quotes (‘) inhibit all expansion $echo ‘*** SALE ***`
Double quotes(“) inhibit all expansion except : $ (dollar sign variable expansion ‘ (backquotes), command substitution \ (backslash), single character inhibition ! (exclamation point), history substitution
Double quotes inhibit file name generation expansion, but not other types.
52
History Tricks Use the up and down arrow keys to scroll through
previous commands. Type <CTRL-R> to search for a command in
command history. {reverse-i-search)`’:
To recall last argument from pervious command: <ESC>, (the escape key followed by a period) <ALT -.> (hold down the alt key while pressing the period)
You can ignore repeated duplicate commands and repeated lines that only differ in pre-pended spaces by adding the following in your .bashrc
export HISTCONTROL=ignoreboth
53
Command Editing Tricks <Ctrl-a> moves to beginning of
line. <Ctrl-e> moves to the end of line. <Ctrl-u> deletes to beginning of
line <Ctrl-k> deletes to end of line. <Ctrl-arrow> moves left or right by
word.* Inherited from emacs.
54
Command Editing Tricks: Editing Modes
By default, bash uses emacs-style keybindings for command editing.
Type set –o vi to change keybinding to vi-style.
Make vi the default by adding the command above to $HOME/.inputrc
55
gnome-terminal
Applications/System Tools/Terminal Graphical terminal emulator with
support for maintaining multiple “tabbed” shells simultaneously.
<Ctrl-Shift-t> Open a new tab <Ctrl-PgUp/PgDn> Next/Prev tab <Ctrl-Shift-c/v> Copy/Paste
56
Unit 5
Standard I/O and Pipes
57
Standard Input and Output Linux provides three I/O channels to
processes Standard input – keyboard is default Standard Output – Terminal windows is default Standard Error – Terminal window is default.
Error messages could be saved in a file with the normal output going to the monitor.
0,1,2 are called file descriptor.
58
Redirecting Input and Output Standard Input, Output, and Error can be
reconnected to alternate locations. Shell redirection operators allow standard I/O
channels to be redirected to/from a file. Pipes allow standard I/O channels to connected
to the input or output of programs. Although it is also possible to pipe standard
error into a file using some fairly complex syntax, this is generally not done.
59
Redirecting and Piping Redirecting > command > file Directs standard output of command to file >> command > file Appends standard output of command to file. < command < file command receives it’s input from file. 2> command 2>file Error messages from command are directed
to file. 2>> command 2>>file Error messages from command are
appended to file.
Piping | command1 | command 2 Pipes the standard output of
command1 into the standard input of command2.
60
Overwriting or Appending If the target file of file redirection with >
already exists, the existing file will be overwritten.
To append data to an existing file, use >> to redirect instead of >.
Redirect standard output with > Example: redirect standard output to a file.
Find /etc –name passwd > findresult. Standard error is still displayed on the
screen.
61
Redirecting Standard Error
Redirect Standard Error with 2> Example: redirect standard error to a file:
find /etc –name passwd 2> finderrors
Standard output is displayed on the screen.
Redirecting further standard error, appending to the same file, with 2>>.
62
Redirecting Both Standard Output and Error Redirection of Standard Output and
Standard Error can be performed simultaneously. find / -name passwd 2> errs > results
Each I/O Channel can be redirected to different files, or to the same file: find / -name passwd > alloutput 2>&1 (or) find / -name passwd &> alloutput
63
Redirecting Input Redirecting Standard Input with < Some commands only operate on
Standard Input tr doesn’t accept filenames as
arguments- it requires it’s input to be rediected from somewhere.
tr ‘A-Z’ ‘a-z’ <.bash_profile This command will translate the uppercase
characters in .bash_profile to lowercase.
64
Using Pipes To Connect Processes
Pipes ( the | character) let you redirect output from one command to become the input to another command. $ ls /usr/lib | less
Can create pipelines –a powerful feature of Linux. $ cut –f1 –d: passwd | sort –r | less
65
On Pipes Two of the basic tenets of UNIX philosophy are:
Make small programs that do one thing well. And
Expect the output of every program to become the input to another, as yet unknown, program.
And then Use pipes to do complex jobs on the fly. Any command that writes to standard output can be
used on the left-hand side of a pipe. Any command that reads from standard input can be
used on the right-hand side of a pipe. Multiple commands can be chained together with
pipes.
66
Useful Pipe Targets ls –l | less ls – l | mail –s “Files” abc@def.com ls –l | lpr cat files_to_delete.txt | xargs rm –f tee
Lets you tee a pipe: redirect output to a file while still piping it to another program.
$set | tee set.out | less In example, output from set is written to file set.out
while also being piped to less. Command | tee stage1.out | sort | tee stage2.out | uniq –c
| \tee stage3.out | sort –r | tee stage4.out | less
67
Unit 6
Users, Groups and Permissions
68
The Linux Security Model Users and groups are used to control
access to files and resources. User log in to the system by supplying
their user name and password. Every file on the system is owned by a
user and associated with a group. Every process has a owner and group
affiliation, and can only access the resources it’s owner or group can access.
69
Users Every user of the system is assigned a
unique User ID number( the uid). Users’ names and uids are stored in
/etc/passwd Users are assigned a home directory
and a program that is run when they log on (Usually a shell).
User cannot read, write or execute each others’ files without permission.
70
Groups Users are assigned to groups with
unique group ID numbers (the gid). gids are stored in /etc/group. Each user is given their own private
group. They can also be added to other groups to
gain additional access. All users in a group can share files that
belong to the group. The primary group can be changed
using the newgrp command.
71
The root user The root user: a special administrative
account. Sometimes called the superuser. root has complete control over the
system. An ultimate capacity to damage the system.
You should not log in as root without a very good reason. Normal (“unprivileged”) users’ potential to
do a damage is limited.
72
Linux File Security Every file and directory has permissions
set that determine who can access it. Permission are set for:
The owner of the file (called the “user”, arguably a misnomer)
The group members All others
Permissions that are set are called read, write, and execute permissions.
73
Permission Types Four symbols are used when displaying permissions:
r permission to read a file or list a directory’s content
w permission to write to a file or create of remove files from a directory.
x permission to execute a program or change into a directory and do a long listing of the directory.
- no permission (in place of r, w, or x) A file may be removed by anyone who has write
permission to the directory in which the file resides regardless of the ownership or permissions on the file itself.
The first character of the long listing is the file type.
74
Linux Process Security When a process accesses a file the user
and the group of the process are compared with the user and group of the file. If the user matches, the user permission apply. If the group matches, but the user doesn’t, the
group permission apply. If neither match, the other permissions apply.
Every process runs as a under the authority of a particular user and with the authority of one or more groups, this is called the process’s security context.
75
Changing Permissions-Symbolic Method To change access modes:
chmod [-R] mode file… Where mode is:
u,g or o (a) for user, group and other + or – (=) for grand or deny r,w or x (s,t) for read, write and execute
Examples: ugo+r Grant read access to all. o-wx Deny write and execute to others.
Multiple comma separated operations can be give in a single command
76
Changing permissions- Numeric Method Uses a three-digit mode number.
First digit specifies owner’s permissions. Second digit specifies group permissions. Third digit represents other’s permissions.
Permissions are calculated by adding: 4 (for read) 2 (for write) 1 (for execute)
Example: chmod 640 myfile
77
Unit 7
vi and vim Editor Basics and Printing
78
Overview of vi and vim vi: the “visual editor”, standard
Linux and Unix editor vim: the “vi improved” editor,
standard Red Hat editor On Redhat operating systems, the
vi command invokes vim. Derived from earlier Unix editors
ed ex vi vim
79
Starting vi and vim To start vim: vi filename If the file exists, the file is opened and
the contents are displayed. If the file doesn’t exit, vi creates it when
the edits are saved for the first time. To use vi instead:
unalias vi or \vi
80
Starting vi with different options
vi -m myfile file is non-modifiable vi –R myfile file is only modifiable by using
the exclamation point :w! vi –n myfile do not use a swap file for
backup (useful for floppies)
vi –r myfile recover data from a swap file after a crash
vi –x myfile encrypt file when saving, decrypt when editing
81
Three modes of vi and vim Command Mode
Cursor movement Change, delete, yank, put, search
Insert mode Type in new text Return to command mode with <ESC>
ex mode Configuring, exiting, saving Search and replace
82
Cursor Movement h left j down k up l right w word ahead b word back ( Sentence Back ) Sentence forward { Paragraph above } Paragraph below Arrow keys (, , etc) also work. A word is defined as a series of letters of the alphabet and
numbers uninterrupted by white space or punctuation. If the cursor is on a punctuation character, the word is
terminated by white space or a letter of the alphabet or number.
83
Entering Insert Mode a append after the cursor. i insert before the cursor. o open a line below.
A append to end of line. I insert at beginning of line. O Open a line above. Pattern such as these permeate the vi
and vim commands.
84
Leaving Insert Mode: <Esc>
<Esc> Takes you from insert mode back to command mode
Hint: When in trouble, press <Esc> and then press <Esc> again.
By doing this, you can guarantee that, regardless of the mode you were in, you will be now in command mode.
85
Change, Delete and Yank Change Delete
Yank(Copy)Line cc dd yyLetter cl dl ylWord cw dw ywSentence ahead c) d) y)Sentence behind c( d( y(Paragraph ahead c{ d{ y{Paragraph behind c} d} y}
A line is yanked into a buffer, presumably to be put (or pasted) back into the document at another location.
86
Put (Paste) Use p or P to put (paste) copied or deleted
data For line oriented data:
p puts the data below the current line P puts the data above the current line
For character oriented data: p puts the data after the cursor. P puts the data before the cursor.
Jus as in vi and vim, we “yank” instead of “copy”, we “put” instead of “paste”; take data from a buffer and place it in the documents.
87
Undoing Changes u undo most recent change U undo all changes to the
current line since the cursor landed on the line.
<Ctrl-r> redo last “undone” change.
The ‘u’ will not undo a previous u; that is, it will not toggle a change, but rather undo several pervious changes.
To undo all successive changes to the current line, use the U command.
To redo a change undone by a ‘u’ command, use the ‘<Ctrl-r>’ command.
88
Searching for Text
/text search downwards for “text”
?text Search upwards for “text” n continue search in the
same direction. N Continue search in the
opposite direction.
89
Command-Mode Tricks dtc delete from cursor to the letter
c (does not span lines) 5dd delete five lines( a number can
precede any of the two character change, delete, yank or put commands).
x delete a character rc replace a character with c r replace character-for-character
until <Esc>
90
Saving and Exiting: ex mode
save changes Abandon changesExit :wq :q or :q!Do not exit :w :e!
Forcing Changes:Save changes
Exit :wq!Do not Exit :w!Abandon changes, staying in the editor, through :e! and
force a write through :w!. Finally, force a write through :w1!. Finally, force a write and quit with :wq!. The last command will forcibly write the file, but only quit if the forcible write was successful.
91
Printing in Linux Printers may be local or networked. Print requests are sent to queues. Queued jobs are sent to the printer on a
first come first server basis. Jobs may be canceled before or during
printing. It support CUPS IPP (Common Unix
Printing Subsystem), lpd( Linux printing daemon), windows, Netware and JetDirect printers.
92
Printing commands lpr Send a job to the queue to be
printed Accepts ASCII, PostScript, PDF, others.
lpq View the contens of the queue. lprm Remove a job from the queue. System V printing commands such as lp,
lpstat and cancel are also supported. A user may only remove his own print
jobs from the queue.
93
Printing Utilities enscript Converts text to PostScript a2ps Converts text to PostScript ggv(GNOME GhostView) PostScript and
PDF Viewer xpdf PDF viewer. ps2pdf PostScript to PDF converter. pdf2ps PDF to PostScript converter. mpage Prints multiple pages per
sheet.
94
Section 2
Red Hat Enterprise Linux: A Deeper Look
95
Unit 8
The Linux Filesystem In-Depth
96
Partitions and Filesystems Disk drives are divided into partitions. Partitions are formatted with filesystems, allowing user
to store data. Default filesystem: ext3, the Third Extended Linux
Filesystem. Other common filesystems: Ext2 and msdos (typically used for floppies) Iso9660 (typically used for CDs)
A filesystem is a data structure written to the media that allows users to store and access files.
Ext2 at 1993, ext3 has Journaling to improve filesystem data integrity.
EA Extended Attributes ACLs POSIX Access Control Lists
97
Inodes An inode table contains a list of all files
in an ext2 or ext3 filesystem. An inode (index node) is an entry in the
table, containing information about a file (the metadata), including: File type, permissions, link count, UID, GID The file’s size and various time stamps Pointers to the file’s data blocks on disk. Other metadata about the file
An individual entry in the inode table is called an inode.
98
Directories The computer’s reference for a file is the inode
number. The human way to reference a file is by the file
name. A directory is a mapping between the human name
for the file and the computer’s inode number. When a filename is referenced by a command or
application, Linux references the directory in which the file resides, determines the inode number associated with the file name, looks up the inode information in the inode table, and , if the user has permission, returns the contends of the file.
The ls –i command displays the inode number.
99
cp and inodes The cp command:
Allocates a free inode number, placing a new entry in the inode table.
Creates a directory entry, referencing the files human file name to the inode number.
Copies data into the new file. When a file is copied to a new name in
the same directory, the directory and the inode table get a new entry.
100
mv and inodes If the destination of the mv command is
on the same filesystem as the source, the mv command: Creates a new directory entry with the new
file name Deletes the old directory entry with the old
file name Has no impact on the inode table (except for
a time stamp) or the location of data on the disk.
No data is moved!
101
rm and inodes
The rm command: Decrements the link count, thus
freeing the inode number to be reused. Places data block on the free list. Removes the directory entry.
Data is not actually removed, but will be overwritten the data blocks are used by another file.
102
Symbolic (or Soft) Links A symbolic link points to another file ls –l displays the link name and the
referenced file. File type: l for symbolic link The content of a symbolic link is the name
of the file that it references. Syntax:
ln -s filename [linkname] Removing a symbolic link removes the
actual link itself, not the underlying file
103
About Symbolic Links Symbolic link is a separate file from the
original. The first character of along listing for a
symlink is the letter l. Symlink has permission of 777. Permission of symlink are irrelevant; the
permissions set on the file pointed to by the symlink control access rights.
The size of the symlink is always the number of characters in the path name.
104
Hard Links One physical file on the system. Each link reference the file’s inode. File is present in the filesystem as long
as at least one link remains. Cannot span drives or partitions. Syntax:
ln filename [linkname] A hard link is a path name that
references an inode: that is , all files are hard linked at least once.
105
On Hard Links
The file names must be on the same filesystem: because they share an inode number and an inode table is unique to a file system, both must be on the same file system.
It is not possible to use the ln command to create additional hard links to directories.
106
The Seven Fundamental Filetypes
- regular files d directory l symbolic link b block special file c character special file p named pipe s socket
107
Extra Filetypes c character special file:
Files referencing hardware are not regular files; they are one of the two types of special files. Character special files are used to communicate with hardware one character at a time.
b block special file: Used to communicate with hardware a block of data at a time: 512
bytes, 1024 bytes, 2048 bytes: whatever is appropriate for that type of hardware. Run the following command to see a list of block and character special files:
ls –l /dev | less p named pipe:
A file that passes data between processes. It stores no data itself, but passes between one process writing data into the named pipe and another process reading data from the named pipe. A named pipe can be created using the mknod command:
mknod mypipe p s socket:
A stylized mechanism for interprocess communication. It is extremely rare for a user or even a system administrator to explicitly create a socket.
108
Miscellaneous tools
df du mount umount eject mtools(mdir,mcopy)
109
Unit 9
Configuring the Bash Shell
110
Configuring the Bash Shell The Shell is configured through a
variety of mechanisms: Local Variables Aliases and functions The set and shopt commands
The shell can also configure other commands or applications through environment variables.
111
Variables A variable is a label that has a value.
Used to configure the shell or other programs. Variables are resident in memory. Two types: local and environment Local Variables are used only by the shell. Environment variables are passed onto other commands.
Display variables and values using: set to display all variables. env to display environment variables.
The set, env and echo commands can be used to display all variables, environment variables, and a single variable value, respectively.
set | less env | less echo $HOME
112
Configure the Shell: Local Variables
Data in Shell scripts and environment settings stored in variables.
Conventionally all upper-case. Setting variable value:
$FAV_COLOR=blue To retrieve variable value, use $ before the
variable name $echo $FAV_COLOR $blue
For a list of variables that configure the shell, see the Shell Variables section of the bash man page.
113
Common Local Variables HISTFILESIZE
Determines how many commands to be saved in the history file on logout.
COLUMNS Sets the width of the terminal( xterm, gonme-terminal
or kterm) LINES
Sets the height of the terminal ( xterm, gonme-terminal or kterm)
HISTFILE Specifies the file in which history commands are
stored on logout HISTSIZE
Specifies the number of history commands to keep while operating interactively.
114
The PS1 Local Variable PS1 sets the prompt Uses escape sequences to insert variable information in
the prompt. \d the date \h short hostname (not the FQDN) \t the current time \u user name (useful if you have multiple
accounts) \w the current working directory. \! The history number of the current command. \$ show $ if you are non-privileged user and a # if
you are a privileged user, useful if you sometimes become superuser.
For a complete list of these prompting escape sequences, see the PROMPTING section of the bash man page.
115
Aliases Aliases let you create shortcuts to commands
$ alias dir=‘ls –laF’ Use alias by itself to see all set aliases. Use alias follow by an alias name to see alias
value. $ alias dir $alias dir=‘ls –laF’
In this case, if you ever want to use the rm command itself, instead of your alias, you can precede the command with a blackslash. \rm –r Junk
116
Other Shell Configuration Methods Less common, but powerful commands to configure elements of the
shell. set shopt
set –b report termination of background commands
immediately, rather than waiting for next prompt.
set –u unset variables generate an error.
set –o noclobber do not clobber with > and >& operators.
set –o vi use vi syntax on bash command line instead of default emacs
syntax. For a complete list of set values, see the set command under the
SHELL BUILTIN COMMANDS section of the bash man page. Also in this section is a list of items configurable through the shopt command.
117
Configuring Commands:Environment Variables Shell variables exit only in current shell
instance. Environment variables passed to
subshells. Shell variables can be exported into
environment EDITOR=/usr/bin/vim; export EDITOR Export EDITOR=/usr/bin/pico
To “blank” the value of an environment variable, use the ‘unset’ built-in command.
$unset EDITOR
118
Common Environment Variables HOME Path to user’s home directory LANG Identification of default language programs
should use; example: en_US.UTF-8 for U.S. English.
PWD User’s current working directory. EDITOR Default editor programs should invoke for
text editing. LESS Options to pass to the less command.
The less command has many options; to force a set of options to always be used, set the LESS variable. For example: LESS=“-emqs”
SHELL path to loging shell USER Username of user DISPLAY X Display Name VISUALName of visual editor
119
The TERM Environment Variable TERM Environment variable setting the
terminal type. reset Command (not variable) used to reset a
terminal should the screen become corrupted. If a terminal is improperly set, the computer
will not be able to properly display data. For more complex adjustments to your
terminal settings, set the stty command. The stty command can perform a number of
terminal settings to your system.
120
The PATH Environment variable PATH colon separated list of locations where
commands can be found. When a command is executed and the path is not
specified, then the shell will look in these directories in the given order, stopping on first match, to find the command.
which command showing location in the PATH of an executable
$which xterm $ /usr/bin/xterm
Executable’s location may be specified. $/bin/ls /etc ./myls /etc
Use the built-in shell type command to ask the shell what is using to fulfill the following commands.
121
How the Shell Expands the Command line
A simplification: Split the line into words Function and alias expansion Curly brace string expansion Tilde expansion Parameter and variable expansion Split the line into words again File glob expansion File redirection Run the command!
122
Shell Startup Scripts Scripts of commands executed at
login Uses include:
Configure the shell by setting local variables or running the set and shopt commands.
Configure other programs through environment variables
Establish aliases Run program on Startup.
123
Login Shells Login shells are first shells started (i.e.
when you log in) Shells launched from a login shell
typically are not login shells. Login shells and non-login shells run
different startup scripts. A login shell is a shell that someone
started by login onto the system. A non-login shell is a shell started up in some other way, perhaps by a user or a program issuing the bash command.
124
Startup scripts: Order of Execution Login Shells
/etc/profile /etc/profile.d
~/.bash_profile ~/.bashrc
/etc/bashrc Non-login Shells ~/.bashrc
/etc/bashrc /etc/profile.d
Typical sorts of commands placed in startup scripts include: Local variable settings, particularly PS1 Environment variable settings, such as PATH or LESS. Aliases, or perhaps unalias to remove undesired aliases set
globally in earlier scripts. A umask can be setted.
125
/etc/profile System-wide startup script for login shells. Parsed by all users with Bourne-style shells,
including bash and sh. Usually sets default PATH variable, user limits,
and other variables and settings. Bash only sources /etc/profile if the shell is a
login shell. This script will set a series of variables including
PATH, USER, LOGNAME, MAIL, HOSTNAME, HISTSIZE and INPUTRC.
It will also run scripts in the /etc/profile.d directory.
126
/etc/profile.d Some application-specific startup scripts
in this directory. Scripts called by a for-loop in /etc/profile Scripts set up variables and run
initialization procedures. Two copies of each script are listed in
this directory, a Bourne Shell style with a .sh suffix, and a C shell style with a .csh suffix.
127
~/.bash_profile and ~/.bashrc For user-specific settings Common to place variable settings, aliases Commands that place output to the screen,
such as the date command, should go in .bash_profile, not .bashrc.
The ~/.bash_profile file is only called by login shells.
Never put any command that may echo something to the screen in the ~/.bashrc file; such command belong in the ~/.bash_profile file only.
128
~/.bash_logout Resides in home directory Executed when exiting a login shell. Useful for running programs
automatically at logout Example uses:
Make backup of files Delete temporary files Display Date and time of logout.
129
Mounting USB Media Detected by the kernel as SCSI devices.
/dev/sdaX Automatically mounted in GNOME/KDE.
Icon created in Computer window Mounted under /media/<Device ID>
Device ID is build into device by vendor. Most vendors give USB disks a label. fstab-sync
reads that label and automatically puts an entry in the /etc/fstab for it, mounting it in /media/<label>
Like other disks, you can use fdisk and mke2fs to create partitions and filesystems on USB disks.
130
Mounting Floppy Disks Must be manually mounted and unmounted
mount /media/floppy umount /media/floppy
DOS floppies can be accessed with mtools. mount and unmounts device transparently. Uses DOS naming conventions.
mdir a: mcopy /home/file.txt a:
For a complete list of the mtools commands, run mtools and/or consult the mtools info page.
131
Formatting Floppy Disks Two types of format needed to prepare a floppy:
A low level format (rarely needed) $fdformat /dev/fd0H1440
A filesystem, one of : $mkfs –t ext2 /dev/fd0 $mke2fs /dev/fd0 $mkfs –t vfat /dev/fd0 mformat a:
Only the superuser or a non-privileged user logged into the system console can run these commands. Others do not have permission to do this.
132
Why archive Files? Archiving places many files into
one target file. Easier to backup, store and transfer.
tar – standard Linux archiving command.
Originally, tar was used to create archieves on tap devices, hence it’s name- which stand for tape achieve.
133
Creating an Archive
Syntax: tar cvf archive_name files… c creates a new archive. v produces verbose messages. F archive_name is the name of the
new file.
134
Inspecting Archives
Syntax: tar tfarchive_name.tar tar tvf archive_name.tar
First form displays a list of all files in the archive.
The v causes a long listing (like ‘ls –l’) of each file in the archive.
135
Extracting an Archive
Syntax tar xvf archive_name.tar
The archive will be extracted in the current directory. Change to the target directory first.
Files maintain their hierarchy relative to the current directory.
136
Why Use file Compression? Results in smaller file size Text files can be compressed over 75% Binary files usually don’t compress much, if
any. tar archives are often compressed. When text files often have patterns that lead
to compression ratios of up to 75%, binary files rarely compress well with 0-25% being, typical.
In fact, it is possible for a “compressed” binary file to actually be larger than the original.
137
Compression Utilites gzip, gunzip
Standard Linux compression utility Up to 75% compression for text files.
bzip2, bunzip2 Newer Linux compression utility. Generally achieves better compression than gzip.
The gunzip command can also uncompress files, compressed with the traditional Unix compress command, making compress essentially obsolete.
zip Compatible with DOS/Windows PKzip/Winzip utilites
and can compress more than one file into a single file.
138
On Compression The traditional compress command can
reduces the text file by more than half. The Standard gzip command does a better job, reducing the file to less than 1/3 of the original size. Finally, the newer bzip2 command reduces the file to /14 of the original file.
The –c option to the gzip command leaves the original compressed file alone, but sends and uncompressed copy of the file to standard output. The –d option decompresses a file, making ‘gzip –d file.gz’ equivalent to ‘gunzip file.gz’
139
Compressing Archives
Often tar archives are compressed tar can compress/uncompress
archives. Compression switches- use during
creation and extraction z for gzip compression j for bzip2 compression.
140
tar to Unformatted Floppies Floppies can be used like tape
drives Low level format requied File system not needed Use tar to write to the floppy. /dev/fd0 is the destination Floppy cannot be mounted
Example: tar czvf /dev/fd0 mydir
141
Unit 11
Advanced Topics in Users, Groups, and Permissions
142
User and Group ID Numbers User names map to user ID numbers. Group names map to group ID
numbers. Data Stored on the hard disk is stored
numerically. The user name and group affiliation of
the file are not stored; rather, the user ID number and the group ID number are stored.
143
/etc/passwd, /etc/shadow, and /etc/group files Authentication information is stored in plain is stored in plain
text files: /etc/passwd /etc/shadow /etc/group /etc/gshadow
The /etc/passwd file contains seven fields: user name, password placeholder (for historical reasons), uid number, gid number of the user’s primary group, GECOS filed (usually containing the user’s real name), home directory, and shell to be run when the user logs in.
The /etc/group file contains four fields: group password placeholder, gid number, and a comma separated list of group members.
The /etc/shadow file is referenced when someone logs in: the file contains a mapping of a user name to a password.
For a complete list of fields, see the man page $man 5 shadow
144
System Users and Groups Server programs such as web or print
servers typically run as unprivileged users, not as root. Examples: daemon, mail , lp, nobody.
Running programs in this way limits the amount of damage any single program can do the system.
These accounts exist primarily so that server programs can run as non-privileged users or as particular groups.
145
Changing Your Identity
To change your password, run passwd Insecure passwords are rejected.
To start a new shell as a different user: su su – su username su - username
146
User Information Commands Find out who you are
whoami Find out what groups you belong to
groups, id Find out who is logged in
users, who, w Login/reboot history
last
147
Default Permissions Default permission for files is 666 Default permission for directories is 777 umask is subtracted from default to determine
new file/directory permissions. Non-privileged users’ umask is 002
Files will have permission of 664. Directories will have permission of 775.
Root’s umask is 022. Executive privilege is always denied a newly-create
file, regardless of the umask in effect. Execute privilege always has to be explicitly granted to a file. Execute permission is given to a directory upon creation, unless explicitly denied by the umask.
148
Special Permissions Special permissions: a fourth permission
set (in addition to user/group/other) Applicable in four cases:
suid for an executable (4) sgid for an executable (2) sgid for a directory (2) sticky bit for all directory (1)
Set with chmod or Nautilus. chmod 3775 groupdir
149
Special Permission for Executiables Special Permission for Executables:
suid: Command run with permission of the owner of the command, not the executor of the command. Like passwd.
sgid: command runs with group affiliation of the group of the command.
In a long listing, the suid permission is displayed as a lower case “s” where the “x” would otherwise be located for the user permission (an upper case “S” would be present if the underlying executable permission is not set.)
Commands running with the sgid permission run with the group affiliation of the group of the command.
150
Special Permission for Directories
Special permissions for directories: Sticky bit: files in directories with the
sticky bit set can only be removed by the owner and root, regardless of the write permissions of the directory.
Sgid : files created in directories with the sgid bit set have group affiliations of the group of the directory.
151
On Sticky Bits The sticky bit for a directory sets a special
restriction on deletion of files: with the sticky bit set, only the owner of the file, and the superuser, can delete files within the directory.
The sgid permission for a directory means that files created in the directory will inherit its group affiliation from the directory, rather than inheiriting it from the user.
Often both the sticky bit and the sgid permission will be set on a group directory.
152
Section 3
RHEL Power Tools
153
Unit 13
Introduction to String Processing
154
head
Displays first few lines (default: 10 lines) of the text in a file. $head /tmp/output.txt
Use –n or --lines displayed $head –n 20 /tmp/output.txt
155
tail Displays last few lines (default: 10 lines) of text
in a file $tail /etc/passwd
Use –n or –-lines to change number of lines displayed.
$tail –n 5 /etc/passwd tail is often used by the system administrator
to read the most recent entries in the log files. Use -f to follow the end of a text file as it
changes. $tail –f make.out
Used to “watch” log files.
156
wc
“word count” – also counts lines and characters $wc story.txt
Use –l for only line count Use –w for only word count Use –c for only character count
157
sort Sorts text to stout – original file unchanged
$ sort [options] files… Common options
-r Reverses sort to sort descending -n Numeric sort -f ignore (fold) case of characters in
strings. -u unique (remove duplicate lines in output). -t ‘ x’ – use x as field separator. -k POS1 – sort from field POS1 -k POS1.POS2 – Sort using fields POS1 ending at POS2.
The argument to the –k can be two numbers separated by a dot. In this case, the number before the dot is the field number and the number after the dot is the character within that field with which to begin the sort.
158
uniq Removes successive, duplicate lines in a file. Can use in conjunction with sort to remove all
duplicates ( or use sort –u) Use –c to count number of occurrences of
duplicate data. To print only unique line occurrence in a file
(“removing” all duplicate lines), input to uniq must first be sorted.
Since uniq can be given fields or columns on which to base it’s decisions, these are the fields or columns upon which it’s input must be sorted.
159
On uniq Use –u to output only the lines that are truly
unique – only occurring once in the input. Use –d to output only print one copy of the lies
that are repeated in the input. Use –c to produce a frequency listing. Each line
will be prepended with a number indicating how many times it appears in the input.
Use –fn or -sn to avoid comparing the first n fields or characters in each line respectively.
$cut –d: -f7 /etc/passwd | sort | uniq
160
cut
Display specific columns of file data $cut –f4 results.data -f specifies field or column -d specifies field delimiter (default is
TAB) $cut –f3 –d: /etc/passwd
-c cuts by characters $cut –c2-5 /user/share/dict/words
161
Other String processing Tools paste – paste files together tr – character translator paste combines files “horizontally”. It takes a
line from each file and “pastes” them together to standard output, separated by a tab. Use –d option to change the output of the output delimeter.
$paste –d: ids.txt data.txt > merged.txt tr is used to translate characters; that is, given
two ranges of characters, any time a character in range 1 is found, it is translated into the equivalent character in range 2. This command is commonly used in shell scripts to ensure that data is in an expected case.
162
Version Comparison with diff Compares two files for differences
$diff area.c /tmp/area.c 33c33 < x = y +2; ---- > x = y+4; 33c33 indicates line where files differ < indicates line in first file. > indicates line in second file.
163
Spell checking with aspell Interactive spell-checker Easy way to check spelling in a file.
$aspell check letter.txt Can create personal dictionary look – quick spell check.
$look must $aspell –l will non-interactively list the
misspelled words in a file read from standard input.
Visit http://aspell.sourceforge.net
164
Formatting Tools expand – expand tabs into spaces fmt - reformat text into paragraph.
fmt formats its input paragraphs of the line width you specify with –wn. You can also request uniform spacing (with two spaces after each sentence) with u. fmt interprets blank line in its input as paragraph delimiters.
pr -reformat text for printing By default, it outputs 66-line pages including 56 lines
of text and a header (which can be suppressed) $ pr –f /usr/share/dict/words | lpr
165
Awk , tcl, perl
Advanced! More advanced. Simple
166
Unit 12
Advanced Uses of the vi and vim Editors
167
File Repositioning G go to last line in the file 1G go to first line in file (any
number can be given and curser will jump to that line)
<Ctrl-f> go forward one full screen <Ctrl-b>go back one full screen <Ctrl-d>go down half a screen <Ctrl-u>go up half a screen This is useful when an error message tells you
that an error exists on the particular line of a file. You can use the G command preceded by that number to jump right to the offending line.
168
Screen Repositioning H go to first line on
screen(high) M go to middle line on screen
(middle) L go to last line on screen(low) z<Enter> Make current line first line on
screen. z- make current line last line on
screen.
169
Filtering The output of a command can be placed in the
file. The data in the file can be used as input of a
command. Examples:
!!date Replace current line with the output of date command.
!}sort The paragraph will then be replaced with the output of
the sort command. !}fmt -66
Will replace the paragraph with a paragraph formatted to be less than 66 characters wide.
170
ex mode: Search and Replace sed style search and replace Different default addressing rule.
No address current line only. 1,12 Change lines 1 through 12 1,$ or % for changes in the entire file. .,.+10 from current line(“.”) to
current line plus 10 lines (“.+10”)
Example: :%s/Ohiho/Iowa/g :%s’/dev/had’ /dev/sda’g :%s/\/dev\/had/\/dev/\sda/g
171
Visual Mode Allow selection of blocks of text
v character-oriented highlighting V line-orienting highlighting <Ctrl-v> block orienting highlighting Visual Keys can be used in conjunction with
movement keys: w, ), }, arrows, etc. Highlighted text can be deleted, yanked, changed,
filtered, search/replaced, etc. c change d delete y yank(copy) gg format to ‘textwidth’ columns > indent < unindent
172
Advanced Reading and Saving :r newfile :r !date :1,20w xfile :.,$wyfile :1,20w >>zfile :n otherfile :n! otherfile :n#
173
Configuring vi and vim Configuring on the fly
:set or :set all Configure permanetly
~/.vimrc or ~/.exrc A few common configuration items
:set showmatch or :se sm or :se nosm :set autoindent or :se ai or :se noai :set textwidth=65 (vim only) :set wrapmargin=15 :set wrapmargin=0
:se wm=15 and :se wm=0 :set ignorecare or :se ic or :se noic :set number or :se nu or :se nonu
174
Expanding your vocabulary Learn more cursor movements
Expanding change, delete, yank, and put vocabulary
Add the advanced material from the appendix to your skill base.
Learn more configuration features. Play with filters. :help
175
Cursor Movements 0 start of current line $ end of current line ^ first nonblank character of current line. e end of next word gg top of current file n% go to a line n percent through the current file n| go to column n of the current line Read the material in :help. Learn to maneuver
around the online help. Place the cursor over one of the |tags| and go to that with <Ctrl-]> keystroke, returning to the previous screen with :n#. This is a rich resource well worth being mined extensively.
176
Unit 14
String Processing with Regular Expressions
177
Pattern Matching with Regular Expressions Regular expressions are a pattern
matching engine Used by many tools, including: grep,
sed, less , vi, awk Values:
Power over ease of use Greed!
Two types: Basic Extended
178
Tools with Regular Expressions grep : the general regular expression processor,
which analyzes the contents of files a line at a time, returning line that match a pattern.
Sed : the stream editor, returns the contents of a file (or stream of data), performing a specified search and replace instruction.
less : which uses regular expression in search commands.
vi : which uses regular expression for searches (like less) or search and replace (like sed).
awk : a data oriented programming language.
179
grep
Prints lines of files where a pattern is matched $grep gmustafa /etc/passwd
Also used as filter in pipelines. $ls | grep .c
Uses regular expressions $grep ‘[0-9][A-Z]\{3\}[0-9]\{3\}’ cars
180
Common options of grep -v return lines that do not contain
pattern -n precede returned lines with line numbers. -c only return a count of line with the
matching pattern. -l only return the names of the files that
have at least one line containing the pattern.
-r perform a recursive search of files, starting with the named directory.
-i perform a case-sensitive search.
181
Using cron Must edit and install your cron table file Cron table file cannot be edited directly Edit the file and then install with crontab
or Edit the file through crontab Syntax:
contab [-u user] file crontab [-l|-r|-e]
Cron table files( crontabs ) are stored in /var/spool/cron, which is not accessible by non-privileged users.
182
Using sed Quote search and replace instructions Sed addresses
$ sed ‘s/dog/cat/g’ pets $ sed ‘1,50s/dog/cat/g’ pets $ sed ‘/digby/,/duncan/s/dog/cat/g’ pets
Multiple sed instructions $ sed –e ‘s/dog/cat/’ –e ‘/s/hi/lo’ pets $ sed –f myedits pets
183
Unit 15
Finding and processing Files
184
find $ find [directory…] [criteria…] Searches directory trees in real-time
Slower but more accurate than slocate CWD is used if no starting directory given All files are matched if no criteria given.
Can execute commands on found files May only search directories where the user has read and
execute permission. Find has a huge amount of options that can be provided
to describe exactly what kind of file should be found. You can search bases on file name, file size, last
modified time stamp, inode number, and many, many more.
find allows you to perform arbitrary actions on arbitrary files.
185
Basic find examples $ find –name show.png
Search for files named show.png $find / -name “*.png” $find -iname show.png
Case-insensitive search for files named show.png, Snow.png, SNOW.PNG, etc.
$find –user gmustafa –group gmustafa Search for files owned by the user gmustafa and the group
gmustafa The –regex option in find does not work quite the way
one would expect. –regex applies the regular expression to the name of the file, including the absolute path to the file.
186
find and Logical operators Criteria and ANDed together by default. Can be OR’d or negated with –o and –not Parentheses can be used to determine logic order, but
must be escaped in bash. $ find –user gmustafa –not –group root $ find -user gmustafa –o –user root $ find –not\(-user gmustafa –o –user root \) $ find / -name “*.png” –user gmustafa –mtime+12 $ find / -name “*.png” –not –user abcd
Logical ANDs have a higher priority than a logical OR, and a logical NOT has a higher priority than an AND or an OR.
To force precedence of an expression, you can enclose options that should be grouped together in parentheses.
187
find and Permissions Can match ownership by name or id (-user, -group, -uid, -gid)
$ find / -owner gmustafa –gid 500 Can match octal or symbolic permissions
$ find –perm 755 # if anyone can write $ find –perm +2 #if anyone can write $ find –perm -2 #if everyone can write $ find –perm +o+w # if other can write
Use –not to test denied permissions. A numeric permission preceded by – will match files that have at
least one bit (user, group or other) for that permission set. Symbolic permission by a + will match any file where all criteria
are met. To match files where someone has been denied a permission,
simply write a search for files where the permission is granted and then negate it. In other words, to find files where neither the user nor the group have read access you could use something like: find –not –perm +ug+r
188
find and Numeric Criteria Many find criteria take numeric values
$ find –size 10M Files with a size of exactly 10 Megabytes.
$ find –size +10M Files with a size over 10 Megabytes
$ find -size -10M Files with a size less than 10 Megabytes
$ find / -atime 5 The date of the last time the file was read (-atime)
$ find / -mtime +5 The date of the last change to the file’s data (-mtime)
$ find / -ctime -5 The date of the last changes to the file’s metadata. (-
ctime)
189
find execution examples $find –name “*.conf” –exec cp {} {}.orig \;
Create backup copies of configuration files, adding a .orig extension
$find /tmp –ctime +3 –user gmustafa –ok rm {} \;
Prompt to remove gmustafa’s tmp files over 3 days old. $find ~ -perm +2 –exec chmod o-w {} \;
Fix world-writable files in your home directory. If your –exec command does not include {}, find
will still execute the command once for each file that is found.
190
Find and Access times
find can match by inode timestamps -atime : when file was last read -mtime : when file data last changed -ctime : when file metadata last
changed Value given is in days
$find –mtime -10 Files modified less than 10 days ago.
191
More of *time While the values passed to –atime, -ctime and –mtime
are measured in days, there are also corresponding criteria that perform searches in minutes: -amin, -cmin and –mmin.
You can match access times relative to the timestamps of other files using -anewer, -cnewer and –newer, which test mtimes.
$ find –newer recent_file.txt Would list all files with mtimes more recent that that of
recent_file.txt. To match files older than recent_file.txt you would
simply negate the –mnewer criteria. $ find –not –newer recent_file.txt
The metadata, including all three timestamps, for a file can be manually examined using the stat command.
192
Executing commands with find Commands can be executed on found files.
Command must be proceeded with -exec or –ok -ok prompts before acting on each file.
Command must end with <space>\; Can use {} as a filename placeholder
$ find –size +100M –ok gzip {} \; -ok options, which caused find to ask for each
file. When a character is prepended with a backslash
(\), bash is instructed to treat it literally, so typing \; at bash’s command prompt will send; to find after bash has done it’s interpretations.
193
Unit 16
Investigating and Managing processes
194
What is a process? A process is an executing program which
has many components and properties Exec thread PID Priority Memory context Environment File descriptors Security credentials
195
How Processes are created? Once process “forks” a child, pointing to
the same pages of memory, and marking the area as read-only.
Then the child “execs” the new command, causing a copy-on-write fault, thus copying to a new area of memory.
A process can exec, without forking The child maintains the process ID of the
parent.
196
Process Ancestry
init is the first process started at boot time –always has PID 1
Except init, every process has a parent.
Processes can be both a parent and a child at the same time.
pstree shows the process ancestry for all process running on the system.
197
Process States A process can be on of the many states:
-R Runnable (on the run queue) process in the run queue. It is waiting for it’s turn to run or it is
executing. -S Sleeping
Process is not executing, not it is ready to run. It is waiting for an event to occur or a signal to arrive to wake it up.
-T stopped Process is not executing because it has been stopped.
-D Uninterruptible sleep Process is sleeping and can not be woken up until an even occurs. It
can be woken by a signal. Typically, the result of an I/O Operations. -Z Defunct (Zombie) process
Just before a process dies, it sends a signal to it’s parent and waits for an acknowledgement before terminating. Even if the parent process does not immediately acknowledge the signal, all resources except for the process identity number (PID) are released. Zombie process are cleared from the system during the next system reboot and do not adversely affect system performance.
198
Viewing process ps Displays processes information Syntax: ps [options] Useful options:
a Processes by all users x process from all terminal u show process owner w include command arguments f show process ancestry.
The options described above are based on output conforming to the UNIX98 Standard.
-l long listing. Includes more information such as the process owner’s UID.
$ ps –alx | grep ‘lpd’ $ pgrep lpd The above two command are identical.
199
Sending Signals to Processes Syntax:
$ kill [-signal ] pid(s) $ kill [-signal] %jobID
Sends the specific signal to a process Defult signal is TERM
$kill –l lists all available signals $killall Read man 7 signal. kill can send many signals, but processes only respond
to the signals they have been programmed to recognize.
Signals may be sent to processes interactively using top and gnome-system-monitor.
200
Terminating Processes Most desirable way to end a process
is to let it end normally Commands finish, applications are exited.
Can attempt to interrupt with <Ctrl-c> (INT) or send a TERM signal
If all else fails, send a KILL signal. Using KILL signals on a route basis
may cause zombie process and lost data.
201
Interactive Process Management Tools
Display real-time process information
Allow sorting, killing and renicing Command-line: top GUI: gnome-system-monitor Read: man top and help of
gnome-system-monitor
202
Running a Process in the Foreground
When a command is entered, the shell will not process further input until the process is complete and the shell prompt is redisplayed. i.e. job control.
The typeahead buffer allows you to type other command, but they will not be processed until the pending process completes, or “returns”.
203
Altering process scheduling priority At process invocation time Syntax:
$ nice [-n adjustment] command Processes are scheduled with a Defult priority of
0 Priority value can range from -20 (highest
priority) to 19 (lowest). $ nice myprog $ nice –n 15 myprog
Non-privileged users may not set niceness value to less than zero; that is , they may not request a higher than normal priority for their processes. This is a function reserved for the superuser.
204
Altering Process scheduling Priority – (continued) renice changes the priority of a running process.
$ renice # [ [ -p | g] PID] [[-u]user] # is the priority value.
Once a priority value is raised, a non-privileged user can not lower it.
$ renice 15 –p < PID of user’s offending, greedy process> $ renice -15 –p <PID of some user’s critical process>
The –p options is not necessary. If you wish to change the priority of an entire process
group, use the –g option. Use –u option, to modify the priority of all the process of
a particular user. $ renice 15 –u gmustafa
205
Running a Process in the Background Running a command in the background allows
another process to run concurrently on the same terminal.
Launch a program as a background process by appending an ampersand (&) to the end of a command:
$firefox & When a process is started in the background, a
new bash “sub-shell” is created. The bash program is then replaced with the
command being executed (the fork then exec procedure).
Background processes can be managed like any other process.
206
Suspending a Process Foreground jobs can be suspended:
temporarily halted without being killed Suspend a foreground process with
<Ctrl-z> Suspended jobs can be:
Resumed in the background (bg) Resumed in the foreground (fg)
When the job resumes, it will continue executing from the point at which it was suspended, it will not have to start over from the beginning.
207
Listing Background and Suspended Jobs
jobs displays all process running in the background or that suspended.
The number in brackets is a job number, used to kill jobs or bring them back to the foreground.
Job numbers are referenced with %.
208
Resuming Suspended Jobs When a command is suspended or
backgrounded, it can be brought back to the foreground with fg.
Suspended jobs can be resumed in the background with bg.
Syntax: $ fg [%job_number] $ bg [%job_number]
209
Compound Commands List of commands separated by semi-
colons List inside () to run inside a subshell
$ (cd /usr; du ) & A subshell group will combine the
commands so they are treated them as one unit.
When a group of commands is placed inside parentheses, a new subshell is spawned and output can be redirected as if it were one command. $ (date; who | wc –l) >> logfile
210
Scheduling a Process to Execute Later Syntax:
$ at time <commands>
$ atq [user] $ atrm [user|atJobID]
Commands will be executed at the time indicated
Non-redirected output is mailed to the user. $ at 8:00pm December 7 $ at 7 am Thursday $ at now + 5 minutes $ at midnight +23 minutes
211
Scheduling Periodic Processes The cron mechanism allows processes to be
invoked periodically User need not to be logged on
Cron jobs are listed in a crontab file The cron mechanism is controlled by a
daemon called crond. This daemon wakes up every minute or so and determines if any entry user’s cron tables need to be executed. If the time passed for an entry to be started, it is started. A cron job can be scheduled as often as once a minute or as infrequently as once a year.
212
Using cron Must edit and install your cron table
file Cron table file cannot be edited directly
Edit the file and the install with crontab Or Edit the file through crontab
Syntax $ crontab [-u user] file $ crontab [-l | -r | -e]
213
Crontab File Format
Entry consists of five space delimited field followed by a command line One entry per line, no limit to the line
length. Fields are minute, hour, day of
month, month, and day of week. Comment line begin with #
214
Unit 17
Network Clients
215
Other GUI Web Browsers
Epiphany Uses same rendering engine as Firefox Fully Gnome-complaint, but fewer
features. Konqueror
KDE web browser/file manager Supports tabs, popup-blocking, etc. Uses khtml rendering engine.
216
Non GUI Web browsers
links Provided by the elinks rpm Full support from frames and ssl Examples
$ links http://www.redhat.com $ links –dump http://www.redhat.com $ links –source http://www.redhat.com
217
wget
Retrieves files via HTTP and FTP Non-interactive –useful in shell
scripts. Can follow links and traverse
directly trees on the remote server –useful for mirroring web and FTP sites.
Read info wget and wget –help.
218
Remote access and file transfer
ssh/scp telnet and the ‘r’ services rsync FTP clients Nautilus
219
ssh : Secure shell Public-key encryption technology
replacement for various unsecured services.
Allows secure access to remote systems $ ssh gmustafa@oss2 -or- $ ssh -l gmustafa oss2
gmustafa@oss2’s password: $ ssh oss2 ls /tmp $ ssh oss1 df -h
220
scp : Secure copy Secure replacement for rcp Layered on top of ssh
$ scp source destination Remote files can be specified using:
user@host:/path/to/file -r optoin enables recursion -p preserves time and permissions -c compresses datastream
Also available is sftp, an interactive file-transfer program similar to a simple ftp client. The remote host’s sshd needs to have support for sftp in order for the sftp client to work.
scp requires that the destination be a directory if the source is a directory or consists of more than one file.
221
telnet and the ‘r’ services Insecure protocols mostly replaced by
ssh telnet : login names and password pass over
the network in clear text “r” services (rsh, rlogin, rcp): generally
insecure authentication mechanism. telnet client can be used to connect to
services running on arbitrary ports Examples: testing your mail server
$ telnet localhost 25 These tools should never be used.
222
rsync A drop-in replacement for rcp copying to or from remote
systems. Can use ssh for transport $ rsync –e ssh mysong.mp2 172.27.12.13:/home/gmustafa Faster than scp – copies difference in like files. Useful options to rsync -e Use an external, rsh-compatible program to
connect (usually ssh) -a Recurse subdirectories, preserving
permissions, ownership, etc. -r Recurse subdirectories without preserving
permissions, etc. --partialcontinue partially downloaded files --progress print a progress bar while transferring -p Same as –partial –progress Read man 1 rsync
223
lftp
Versatile command line FTP client Anonymous or real-user sessions
$ lftp ftp.cdrom.com $ lftp –u gmustafa ftp.myserver.com
Automated transfer with non-interactive lftpget
Graphical tools gftp.
224
gFTP
Applications/Internet/gFTP Graphical FTP Client Allows Drag-and-Drop transfers Anonymous or Authenticated
access Optional secure transfer via ssh
(sftp).
225
smbclient FTP-like client to access SMB/CIFS resources Examples:
View shares on a server $smbclient –L server1
Access a share $smbclient –U student //server1/homes
CIFS is most commonly implemented as Microsoft Windows Network Neighborhood.
Useful options include: -w workgroup or domain -U Username -N Suppress password prompt (otherwise you
will be asked for a password).
226
Network Diagnostic Tools ping
Detects if it is possible to communicate with another system. Many systems no longer respond to pings.
tracroute Displays the computers through which a packet must pass to reach another
system. mrt
The mtr command is a repetitive version of traceroute, giving continually updated connection time statistics.
host Performs hostname to IP address translation, as well as the reverse.
dig Performs a service similar to host in greater datail.
netstat Provides a service similar to host in greater detail.
gnome-nettool (GUI) A graphical front end of tools listed above (as well as some others) in a
single, simple interface. gnome-nettool can be run from the command line or by selecting it’s icon from the internet section of the Application Menu. Note that, this tool may no be installed by default.
227
Unit 18
Bash Shell Scripting
228
Scripting Basics Shell scripts are text files that contains
a series of commands or statements to be executed.
Shell scripts are useful for: Automating commonly used commands. Performing system administration and
troubleshooting Creating simple applications Manipulations of text or files. Application prototyping
229
Creating Shell Scripts Step 1: Use a text editor such as vi to create a
text file containing commnds. First line contains the magic “shbang” sequence : #!
#!/bin/bash Comment your scripts
Comments start with a # Create shell script which is self documenting. If you enter this by pressing \ key followed by
the Enter key on the most keyboards. This will enable you to enter one command that spans multiple lines.
230
Creating Shell Scripts cont.
Step 2: Make the script executable $ chmod a+x myscript.sh
To execute the new script: Place the script file in a directory in the
executable path –OR- Specify the absolute path or relative
path to the script on the command line.
231
Generating Output Use echo to generate simple output
$ echo ‘Welcome to Redhat Linux paradise!’ $ echo –n “please enter the file name: “
Use printf to generate formatted output. $ printf “the result is %0.2f\n” $RESULT Syntax similar to C printf() function Does not automatically put a newline at the
end of the output.
232
Handling Input Use read to assign an input value to a shell variable:
echo –n “Enter the filename: “ read FILENAME
read reads from standard input and assigns one word to each variable.
Any leftover words are assigned to the last variable. A word is defined as a character string surrounding
with white space such as spaces and tabs. Can be changed by IFS. IFS=‘:’ If there are more words than variables, the last
variable is assigned all the remaining words.
233
bash scripts example #!/bin/bash echo –n ‘Enter name (First Last):’ read FIRST LAST printf “Your First name is %s and your last name is %s \n” \
$FIRST $LAST The (-p) option is used to display a prompt string. Place quotes
around the string if you need to prompt the user with a multiple-word command
#!/bin/bash read –p “Enter Several Values:” value1 value2 value3 echo “value 1 is $value1” echo “value 2 is $value2” echo “value 3 is $value3”
234
Exit Status
Commands exit with an exit status 0 for success, 1 to 255 for failure Exit status of most recently executed
command is kept in the $? Variable just like return values form shell functions.
Shell scripts may set an exit status with the exit command. exit 1 # indicated an error
235
Control Structures The three types in shell programming:
Sequential structures – the program flows one line after another
Selection structures – code execution based on a logical decision.
if, if/else, if/elif/else and conditional operators. Repetition structures (loops) – code
execution is repeated based on a logical decision
for, while and until
236
Conditional Execution Commands may be executed
conditionally, based on the exit stats of the previous command. && logical AND || logical OR
Examples: $ grep gmustafa passwd || echo ‘No
gmustafa!’ $ cp –a /tmp/*.o . && echo ‘Done!’
This structures can be used in the command line as well.
237
Selection Structures: Using the if statement
if selection structures execute the body of the structure only if the condition tested is true. if [condition]; then
do something fi
238
File Tests File tests:
-f tests to see if file exist and is a regular file
-d tests to see if a file exists and is a directory
-x tests to see if a file exits and is executable
if [-f $HOME/lib/functions ]; then source ~/lib/functions
fi
239
More on File Tests -d FILE True if file is a directory -e FILE True if file exists. -f FILE True if file exits and is a regular file -h FILE True if file is a symbolic link. -L FILE True if file is a symbolic link. -r FILE True if the file is readable by you. -s FILE True if file exists and is not empty. -w FILE True if the file is writable to you. -x FILE True if the file is executable by you. -O FILE True if the file is effectively owned by you. -G FILE True if the file is effectively owned by your
group. Type ‘help test’ at the shell to see a complete list.
240
String Tests Strings may be tested as well
-z returns true if the string is empty -n returns true if the string is not empty. Operators such as =, !=, < and > may be
used to compare strings as well. if [ $(id –u) =“0”]; then
echo “You are logged in as root” fi
241
More on String Tests -z STRING True if string is empty. -n STRING True if string is not empty. STRING1=STRING2 True if the strings are equal. STRING1!=STRING2 True if the strings are not
equal. STRING1<STRING2 True if STRING1 sorts before
STRING2 lexicographically.
STRING1>STRING2 True if STRING1 sorts after STRING2
lexicographically. -o OPTION True if the shell option
OPTIOIN is enabled. ! EXPR True if EXPR is false. EXPR1 –a EXPR2 True if both EXPR1 AND EXPR2 is true. EXPR1 –o EXPR2 True if either EXPR1 OR EXPR2 is true. ARG1 OP ARG2 Arithmetic tests. OP is one of the –
eq, -ne, -lt, -le, -gt, or –ge.
242
Selection Structures: Using if/else Statements if/else selection structures execute
the body of the if structure only if the condition tested is true, otherwise the else is executed. if [ condition] ; then
Do something else
Do something else fi
243
Selection Structures: Using the case Statement The case statement provides an
alternative method for performing selections that may be cleaner than multiple if/elif/else tests. case variable in
pattern1) do something ;;
pattern2) do another thing ;;
esac
244
Repetition Structures:The for-loop
The for repetition structure provides a method for iterating, or looping, through a list of values and executing commands on each of these values. for variable in list-of-values
do commands …
done
245
for and sequences For loops are useful for iterating through
numeric sequences Use bash notation for simple sequences
for I in {0..10} Will use : 0,1,2,3,4,5,6,7,8,9,10
Use seq command for arbitrary increments For I in $(seq 0 2 10)
Will count by twos: 0, 2, 4, 6, 8, 10
246
Selection Structures: The while-loop The while loop structure provides a useful method for
performing a set of commands while a condition remains true. The syntax is:
while condition do
commands done
While loops are known as sentinel repetition structures. An until loop works in exactly the same way, except that
it continues to execute as long as the command following the until statement executes successfully; that is, it will stop the loop when the command succeeds.
247
continue and break While loops can be disrupted during
execution continue stops the current execution of the
loop and reexamines the initial condition, possibly restarting the loop.
break stops the processing the loop entirely, jumping past the done statement.
exit exits from the shell scripts entirely You may provide an exit status. Without an explicit exit status, the exit
command will exit with at status of zero, indicating success.
248
Using Positional Parameters Positional parameters are special variables that
hold the command-line arguments to the script. The positional parameters are available are $1, $2,
$3, etc. These are normally assigned to more meaningful variable names to improve clarity.
$* holds all command-line arguments. The variable $0 is reserved and specifies the
program name as it was executed on the command line.
Variables above $9 require special handling and so they must be enclosed in curly braces, e.g. ${11}.
All positional parameters are read only variables.
249
Handling Parameters with Spaces Bash expects space-delimited
parameters Causes problem when parameters have
spaces Example : script.sh “arg 1” “arg 2”
$* contains “arg” “1” “arg” “2” Solution: for VAR; do …; done
Automatically assigns VAR with $1, $2, etc.. Handles spaces in parameters gracefully. VAR would be set to “arg 1”, then “arg 2”
250
Handling Filenames with Spaces Bash mis-interprets spaces in filenames
Space treated as filename-delimiter by default “my file” interpreted as two files: my and file
IFS environment variable can be used to specify an alternate (or no) delimiter. Always reset after changing
OLD_IFS=$IFS#Backup old delimiter IFS=$(echo) #Set empty delimiter <code> #Do Stuff IFS=$OLD_IFS#Restore IFS
251
Using functions in shell scripts Shell scripts may include shell functions. Shell functions may improve program readability. They also
help to remove repetitious code from the scripts. Shell functions must be declared before they are used. If there is a section of shell code that is trying to accomplish
the same task and it is five or more lines long then it is good candidate for being put in a separate function. This is known as functional decomposition and will improve the program readability.
If there are a piece of shell code that you are likely to use again then it is also good candidate for being put in a separate function. This is called code reuse.
Shell functions must be declared in the shell script before they may be used. This can be done by including the function before it gets called in the script or by sourcing another shell script using the keyword ‘source’ or the (.) operator.
252
Using functions, continued Arguments may be passed to a shell function by using
their own set of positional parameters ($1, $2 etc.) myFunction $filename
The value of $filename will be available as $1 inside the body of myFunction.
Functions may return the values by using the ‘return’ keyword which sets the value of the special variable $?.
local make the variables unavailable outside the function. This is called information hiding and is useful for keeping function compartmentalized. In addition it will prevent us from accidentally overwriting a global variables.
Functions may return vales using the return keyword which sets the value of the special variable $?.
253
Scripting at the command line Scripts can be typed at the bash prompt. If/else/for/while statements cause
extended prompt Can also separate lines with semicolon (;) Define functions for code reuse Store common functions in ~/.bashrc Bash built-in “fc” for long commands
Default editor is vi or $EDITOR
254
Shell Script debugging
In order to debug a shell script invoke the shell interpreter with debug options or change the shebang to include the debug options. $bash –x script_name $bash –v script_name #!/bin/bash –x #!/bin/bash -v
255
Appendix:
Advanced Features of the vi and vim Editors
256
Advanced uses of vi and vim
Special features of vim File and screen repositioning Setting marks in text Mapping complex commands to
keystrokes (:map) Advanced read and save
257
Special Features of vim: Multiple Buffers vim -o fn1 fn2 start with multiple windows <Ctrl-w>s split file horizontally <Ctrl-w>v split file vertically <Ctrl-w>n open new window,
new file <Ctrl-w>q quit out of a window <Ctrl-w>[hjkl] move to different
window. <Ctrl-w>[+-] resize window :help windows show help for
windows.
258
Special Features of vim:Reformatting Text Width
gq reformats text width. Usage:
Make sure textwidth is set: :set textwidth=65
Issue the gq command followed by the paragraph indicator:
gq} 1GgqG
259
Other Special Features of vim
Recording keystrokes and playback. qc record keystrokes saving to buffer c q stop recording keystrokes @c play back keystrokes from buffer c
Other configuration options :syntax <LANGUAGE | off> :nohl
260
Setting a mark in text Set a mark in text with a single quote
followed by a letter of the alphabet specifying the mark name.
Example: delete some lines Move the curson to the first line to delete Set mark a: ‘a Move the cursor to the last line to delete. Set mark b: ‘b Delete from marks a to b: :’a,bd
261
Creating Commands with :map You can create your own commands with the :map
command Place: map commands in ~/.vimrc or ~/.exrc file Example: mapping <Ctrl-x> to : syntax off : map <Ctrl-x> : syntax off :map <Ctrl-x> :syntax off :map <Ctrl-l> :w!<CR>:!aspell check %<CR>:e!
%<CR> The <Ctrl-l> keystroke may not be entered into the file.
To force it to be read, run <Ctrl-v> before the <Ctrl-l>: <Ctrl-v><Ctrl-l>
The <Ctrl-v> forces the <Ctrl-l> to be taken literally. The sequence <CR>, meaning “carriage return” should
be entered just as shown, with the four separate characters.
262
Miscellaneous Commands
‘ ‘ Returns to your previous location
J Join with the next file. ~ Change character case >> Indent << Unindent.
263
What next? LUGs (bdlug) http://www.redhat.com/training http://www.redhat.com/training/developter/cou
rses/ http://www.redhat.com/training/architect/cours
es http://www.redhat.com/training/developter/cou
rses/ http://www.idiom.com/free-compilers http://www.redhat.com/apps/support/knowlded
gebase http://www.tldp.org http://www.linuxquestions.org
264
Motto
It is worth working hard today to learn a thing and so be lazy tomorrow!!
top related